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katiconen/zfish_mutants_analysis_KC	https://github.com/katiconen/zfish_mutants_analysis_KC	a8ff38fd3ac828e990acaec44a3618aa99864c58	8f9e7f4ed8c1501243f7880a5100ac5aa2130779	20889e98fb6101eb2a8f17c151b0b7498594f61f	refs/heads/master	2022-06-13T08:02:49.761925	2020-05-11T22:25:38	2020-05-11T22:25:38	256,814,846	0	0	null	2020-04-18T17:37:57	2020-04-27T19:48:37	2020-05-11T22:25:39	Jupyter Notebook	[ { "alpha_fraction": 0.5859757661819458, "alphanum_fraction": 0.5981414318084717, "avg_line_length": 45.60330581665039, "blob_id": "a4d2510ad25d0148ff70e727c23d7b92e510c955", "content_id": "2b71316b50af6bc14a04bc93962870639655ed00", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 28194, "license_type": "no_license", "max_line_length": 213, "num_lines": 605, "path": "/get_kinematics_adult.py", "repo_name": "katiconen/zfish_mutants_analysis_KC", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"\nCreated on Wed Mar 11 13:45:21 2020\nAnalyzes the kinematics of real fish data from VR experiments\nIncludes code for:\n - getting speed and orientation from position (getSpeed, getOri)\n - smoothing and finding jumps/anomalies in data (cleanData)\n - identifying burst-glide information and getting fits for each burst (getBGCycle)\n - getting the distribution of turn angles around each burst (getTurns)\n - finding periods of activity vs inactivity over the experiment (getSwimTime)\n\n@author: katic\n\"\"\"\n\n# make it possible to set threshold for pos/vel/time gaps as inputs?\nimport numpy as np\nimport math\nimport matplotlib.pyplot as plt\nimport pandas as pd\nimport scipy.stats\nfrom scipy.optimize import curve_fit\n\nclass Invalid(Exception):\n pass\n\n\ndef getSpeed(pos, time = None, xyOnly = True, lag = 1): \n '''Gets fish speed from x,y, and optionally z positions; lag = # of timesteps back for calculations'''\n \n pos = checkInputs(pos) #pos should be array with x, y, and (optionally) z as columns\n dPos = np.subtract(pos[lag:,:],pos[:-lag,:])\n speed = np.linalg.norm(dPos, axis = 1)\n \n if type(time) == np.ndarray:\n dt = time[lag:] - time[:-lag] #make sure this is actually time in s, not just framenumber\n else:\n dt = 0.01\n print('Time data not provided, using timestep = 0.01s')\n \n speed = np.divide(speed, dt) #speed in m/s, I think xxxx check this\n return speed #in m/s\n \n\ndef getOri(pos, lag = 1): \n '''\n Gets orientation from x and y positions; \n not currently doing z, since change in depth isn't necessarily directly associated with change in fish pitch\n '''\n \n pos = checkInputs(pos)\n dPos = np.subtract(pos[lag:,:],pos[:-lag,:])\n \n if np.linalg.norm(dPos[0,:]) == 0:\n firstNon0 = np.where(dPos !=0)[0][0]\n print(\"Warning: Initial fish speed = 0. Starting orientation estimate will be inaccurate until frame\" , firstNon0+lag)\n \n #xxx add fix here for when dpos = 0\n ind = np.where(dPos == 0)\n for i in ind:\n dPos[i] = dPos[i-1] #not the most elegant, but doing in loop so that each 0 speed value is replaced by the first nonzero speed value that precedes it\n \n ori = np.arctan2(dPos[:,1],dPos[:,0])\n\n return ori #calculated only in xy; since they don't necessarily orient up or down when changing depth, unsure if adding z component makes sense\n\n\n#used in getOri, getSpeed\ndef checkInputs(x, xyOnly = False):\n '''\n Checks whether position inputs have the right format and dimensions\n Removes Z data from 3d position input if XYonly is True\n '''\n\n #check if xyz/pos are arrays\n if type(x) != np.ndarray:\n raise Invalid('Position must be a numpy array with columns for X,Y, and optionally Z')\n #convert to array if possible?\n \n #check # of columns \n if xyOnly == True:\n x = x[:,:2]\n elif x.shape[1] > 3 or x.shape[1] < 2:\n raise Invalid('Check dimensions. Position array should have 2 or 3 columns.')\n\n return x\n \n\n#is NONE doesn't work well for arrays the way I'm trying, need to fix XXXX\ndef cleanData(pos = None, speed = None, ori = None, time = None, doSmooth = False, nbinsToAve=3, interpSpdGaps = True):\n '''\n Find gaps/jumps in position, speed, orientation, and/or time across the course of the trial\n Smooth if desired\n Return smoothed variables (if doSmooth), ndarray with locations of jumps, and list of columns in the returned array\n Todo: - maybe change output to pd.DataFrame \n - this could be refactored a bit, smoothing and assignment to output array are reused bits\n '''\n #maybe do: build fn based on this that splits data into multiple trajectories at disjuncts/jump points\n \n if type(speed) != np.ndarray and type(pos) != np.ndarray and type(ori) != np.ndarray and type(time) != np.ndarray: #not supr elegant, but works\n raise Invalid('Data must be np.ndarray to clean/smooth')\n \n colNames = []\n \n if doSmooth: #running average for now, consider more complex smoothing later if relevant\n ibin = math.floor(nbinsToAve/2)\n\n if type(pos) == np.ndarray: \n pos = checkInputs(pos) #pos should be array with x, y, and (optionally) z as columns \n if doSmooth: #running average for now, consider more complex smoothing later if relevant\n smoothPos = np.copy(pos[ibin:-ibin,:])\n for i in range(ibin,smoothPos.shape[0]-ibin): #there is for sure a more pythonic way to do this, but for now this works\n smoothPos[i,:] = np.mean(pos[i-ibin:i+ibin,:],axis = 0)\n #print(smoothPos[i,:])\n colNames.append('xSmooth')\n colNames.append('ySmooth')\n if pos.shape[1] == 3:\n colNames.append('zSmooth')\n pos = smoothPos # truncate by ibin at beginning and end to remove unsmoothed data\n valsOut = pos.T\n \n dPos = np.subtract(pos[1:,:],pos[:-1,:])\n posStep = np.linalg.norm(dPos, axis = 1)\n threshold = 0.003 #about 3x the standard shift at the max point in one burst, can change if needed - xxx make settable parameter?\n #will smoothing mess up this thresholding? I oon't think so, though may make lower threhsold desirable\n posGaps = posStep > threshold\n posGaps = np.hstack((False, posGaps)) #no jump at t = 0\n colNames.append('posGaps')\n \n if 'valsOut' in locals():\n try:\n valsOut = np.vstack((valsOut,posGaps))\n except: \n raise Invalid('Input data should have same number of datapoints')\n else:\n valsOut = np.copy(posGaps)\n \n if type(speed) == np.ndarray: \n if interpSpdGaps:\n #Find, Label & Interpolate loopbio step issues - not a great fix, still pretty jumpy\n zeros = speed == 0.0 \n zeroInd = np.where(speed == 0.)[0]\n consec = np.isin(zeroInd-1,zeroInd)\n for i in range(zeroInd.shape[0]):\n qq = 1\n ind = zeroInd[i]\n aux = True\n if consec[i]:\n continue\n else:\n while aux == True:\n qq += 1\n if ind+qq-1 == speed.size:\n break\n if speed[ind + qq-1] != 0.:\n aux = False\n stepinterval = 1.0/qq\n step = np.multiply(speed[qq],stepinterval)\n speed[ind:ind+qq] += np.multiply(step,np.arange(1,qq+1)) \n colNames.append('speedZeros')\n if doSmooth:\n zeros = zeros[ibin:-ibin]\n if 'valsOut' in locals(): #using this a lot, maybe make little function\n try:\n valsOut = np.vstack((valsOut,zeros))\n except: \n raise Invalid('Input data should have same number of datapoints')\n else:\n valsOut = np.copy(zeros)\n \n if doSmooth: \n smoothSpeed = np.copy(speed[ibin:-ibin])\n for i in range(ibin,smoothSpeed.shape[0]-ibin): #there is for sure a more pythonic way to do this, but for now this works\n smoothSpeed[i] = np.mean(speed[i-ibin:i+ibin])\n colNames.append('speedSmooth')\n speed = smoothSpeed\n if 'valsOut' in locals():\n try:\n valsOut = np.vstack((valsOut,speed))\n except: \n raise Invalid('Input data should have same number of datapoints')\n else:\n valsOut = np.copy(speed)\n \n #either before or after smooth: find speed \"jumps\" and mark/remove?\n threshold = 0.45 #abt 3x typical max burst speed\n speedGaps = speed > threshold\n colNames.append('speedJumps')\n if 'valsOut' in locals(): #using this a lot, maybe make little function\n try:\n valsOut = np.vstack((valsOut,speedGaps))\n except: \n raise Invalid('Input data should have same number of datapoints')\n else:\n valsOut = np.copy(speedGaps)\n \n if type(ori) == np.ndarray:\n if doSmooth:\n smoothOri = np.copy(ori[ibin:-ibin])\n for i in range(ibin,smoothOri.shape[0]-ibin): #there is for sure a more pythonic way to do this, but for now this works\n if np.max(ori[i-ibin:i+ibin]) - np.min(ori[i-ibin:i+ibin]) > np.pi:\n aux = np.copy(ori[i-ibin:i+ibin])\n aux[np.where(aux<0.)] += 2.np.pi\n smoothOri[i] = np.mean(aux)\n if smoothOri[i] > np.pi:\n smoothOri[i] = smoothOri[i] - 2.np.pi\n else:\n smoothOri[i] = np.mean(ori[i-ibin:i+ibin])\n colNames.append('oriSmooth') \n ori = smoothOri\n if 'valsOut' in locals():\n try:\n valsOut = np.vstack((valsOut,ori))\n except: \n raise Invalid('Input data should have same number of datapoints')\n else:\n valsOut = np.copy(ori)\n \n threshold = np.pi0.6 # look at actual distribution in data to see if this is an appropriate threshold\n oriStep = np.subtract(ori[1:],ori[:-1])\n oriStep[np.where(oriStep>np.pi)] = 2.np.pi - oriStep[np.where(oriStep>np.pi)]\n oriJumps = oriStep > threshold\n oriJumps = np.hstack((False,oriJumps)) #no jump at t = 0\n colNames.append('oriJumps')\n if 'valsOut' in locals():\n try:\n valsOut = np.vstack((valsOut,oriJumps))\n except: \n raise Invalid('Input data should have same number of datapoints')\n else:\n valsOut = np.copy(oriJumps)\n \n if type(time) == np.ndarray:\n if doSmooth: #note: time is not smoothed, but can be truncated to match other smoothed data\n time = time[ibin:-ibin]\n dt = time[1:] - time[:-1]\n colNames.append('Time')\n if 'valsOut' in locals():\n try:\n valsOut = np.vstack((valsOut,time))\n except: \n raise Invalid('Input data should have same number of datapoints')\n else:\n valsOut = np.copy(time)\n \n if np.absolute(np.median(dt) - 0.01) > 0.001:\n print('Warning: median time step is different from expected')\n timeGap = dt > 0.011 #define time break if time step >10% greater than expected for VR \n colNames.append('timeGaps')\n timeGap = np.hstack((False,timeGap))\n if 'valsOut' in locals():\n try:\n valsOut = np.vstack((valsOut,timeGap))\n except: \n raise Invalid('Input data should have same number of datapoints')\n else:\n valsOut = np.copy(timeGap) \n # currently smoothing is just running average, consider kernel smoothing\n # consider kalman filter? prb no\n \n valsOut = valsOut.T\n cleanedVals = pd.DataFrame(valsOut, columns = colNames)\n\n return cleanedVals #change to pd.dataframe\n\n#functions for fits in getBGcycle\ndef exponential(x, a, c, d):\n return anp.exp(-cx)+d\n\ndef linear(x, m, b):\n return mx + b\n\ndef quadratic(x, m, a, b):\n return mxx + ax + b\n\n\ndef getBGcycle(speed, time = None, nbins= 8, threshold = 0.0, burstHtthresh = 0.0, twinsize = 60, stepsize = 6, exclnans = True): #analyze BG cycle\n '''\n Identifies burst-glide cycle peaks and valleys, gets fits for each burst, and finds a sliding burstrate across time\n vars: speed = input of speed at each timepoint across whole experiment; time = time at each step (defined as 0:0.01:speed.length if not inputed)\n nbins = time steps before and after peak (or valley) for which speed must be incr/decr on average (to avoid mini-peaks)\n threshold = minimum peak speed, burstHtthresh = minimum peak-valley difference\n twinsize and stepsize are nbins to average and slidingstepsize for calculating sliding burstrate\n Consider making burstrate into separate fn time and bursts dataframe as inputs \n'''\n \n if type(time) != np.ndarray:\n time = np.arange(0.0,(pos.shape[0])/60,1/60)\n \n peak = np.zeros(speed.shape[0],dtype=np.int8) \n valley = np.zeros(speed.shape[0],dtype=np.int8)\n falsevalley = np.zeros(speed.shape[0],dtype=np.int8)\n falsepeak = np.zeros(speed.shape[0],dtype = np.int8)\n \n #can make more efficient, but for now \"done is better than perfect\n for i in range(nbins,speed.shape[0]-nbins):\n if np.any(np.isnan(speed[i-nbins:i+nbins])):\n continue\n past = speed[i] - speed[i-nbins]\n future = speed[i+nbins] - speed[i]\n locMax = np.max(speed[i-nbins:i+nbins+1])\n locMin = np.min(speed[i-nbins:i+nbins+1])\n if past > 0 and future < 0 and speed[i] == locMax and speed[i] > threshold: #add threshold here if desired\n peak[i] = 1\n elif past < 0 and future > 0 and speed[i] == locMin and speed[i] > 0.0:\n valley[i] = 1\n #xxx: sometimes valley is a bit too early, due to noisiness at low speeds; alt strategy could be to pick first min before each peak and call that valley (assumes rise time is less noisy, may be viable)\n \n #if there are multiple valleys between peaks, only keep last valley\n peaktime = np.where(peak)[0]\n valtime = np.where(valley)[0] \n# print(np.sum(valley))\n# print(np.sum(peak))\n for i in range(peaktime.shape[0]-1):\n aux = []\n nvals = np.multiply(valtime > peaktime[i], valtime < peaktime[i+1]) \n if np.sum(nvals) > 1:\n aux = np.where(nvals)[0]\n falsevalley[valtime[aux[:-1]]] = 1\n valley[valtime[aux[:-1]]] = 0 \n \n #if multiple valleys before first peak, keep only last valley (& inverse for peaks)\n if np.sum(valtime<peaktime[0]) > 1:\n aux = np.max(valtime[valtime<peaktime[0]])\n valley[valtime[valtime<aux]] = 0\n if np.sum(peaktime>valtime[-1]) >1:\n aux = np.min(peaktime[peaktime>valtime[-1]])\n peak[peaktime[peaktime>aux]] = 0\n \n valtime = np.where(valley)[0]\n# print(np.sum(valley))\n# print(np.sum(peak))\n #if there are multiple peaks between valleys, only keep first peak\n for i in range(valtime.shape[0]-1):\n aux = []\n nvals = np.multiply(peaktime > valtime[i], peaktime < valtime[i+1]) \n if np.sum(nvals) > 1:\n aux = np.where(nvals)[0]\n falsepeak[peaktime[aux[1:]]] = 1\n peak[peaktime[aux[1:]]] = 0\n \n# print(np.sum(valley))\n# print(np.sum(peak))\n #Burst = valley followed by peak; therefore ignore peak if not preceded by valley, and ignore valley if not followed by peak \n while np.min(np.where(valley)[0]) > np.min(np.where(peak)[0]):\n peak[np.min(np.where(peak)[0])] = 0\n while np.max(np.where(valley)[0]) > np.max(np.where(peak)[0]):\n valley[np.max(np.where(valley)[0])] = 0\n \n \n# print(np.sum(valley))\n# print(np.sum(peak)) \n if exclnans:\n peaktime = np.where(peak)[0]\n valtime = np.where(valley)[0] \n for i in range(peaktime.shape[0]):\n if np.any(np.isnan(speed[valtime[i]:peaktime[i]])):\n valley[valtime[i]] = 0\n peak[peaktime[i]] = 0\n\n npeaks= np.sum(peak)\n# print(np.sum(valley))\n# print(np.sum(peak))\n# print(np.where(peak)[0])\n# print(np.where(valley)[0]) \n \n bursts = pd.DataFrame(np.zeros([npeaks, 5]),columns = ['n','valleyTime','peakTime','minSp','peakSp'])\n bursts['n'] = np.arange(npeaks)\n \n bursts['valleyTime'] = time[np.where(valley)[0]]\n bursts['peakTime']= time[np.where(peak)[0]]\n bursts['minSp'] = speed[np.where(valley)[0]]\n bursts['peakSp'] = speed[np.where(peak)[0]] \n #maybe later: decide if false peaks/valleys worth doign something with; not currently worth it xxx\n \n #check whether these assignments work correctly \n bursts['burstHt'] = bursts['peakSp'] - bursts['minSp'] \n bursts['IBI'] = bursts.loc[:,'peakTime'] \n bursts.loc[1:,'IBI'] = bursts.loc[1:,'IBI'].values - bursts.loc[:npeaks-2,'IBI'].values\n bursts.loc[0,'IBI'] = -1.0 #first IBI unknown, set negative for easy filter - maybe test if you can just set empty?\n bursts = bursts[bursts.burstHt > burstHtthresh] #rmv bursts that are too small or spuriously negative - careful with this, check that it's not rmv too much\n bursts.reset_index(drop = True,inplace = True) #reset index to remove gaps\n \n #initialize variables for regression fits\n linfit = np.empty([bursts.shape[0],2])\n expfit = np.empty([bursts.shape[0],3])\n quadrisefit = np.empty([bursts.shape[0],3]) \n failed_fit = np.zeros(bursts.shape[0],dtype = bool)\n popt_linear = np.zeros(2)\n pcov_linear = -np.ones([2,2])\n popt_exp = np.zeros(3)\n pcov_exp = -np.ones([3,3])\n popt_quadrise = np.zeros(3)\n pcov_quadrise = -np.ones([3,3])\n \n # fit 2 part fn to each BG: linear or quadratic rise, expDecay fall \n # if exp fit does not converge, do quadratic fall instead\n for i in range(bursts.shape[0]):\n tmin = bursts.loc[i,'valleyTime']\n tpeak = bursts.loc[i,'peakTime']\n if i != bursts.shape[0]-1:\n tend = bursts.loc[i+1,'valleyTime']\n else:\n tend = time[-1] #for last peak, no next valley, so set last timepoint as end time\n \n x_lin = time[np.where(time == tmin)[0][0]:np.where(time==tpeak)[0][0]] \n x_exp = time[np.where(time == tpeak)[0][0]:np.where(time==tend)[0][0]] \n y_lin = speed[np.where(time == tmin)[0][0]:np.where(time==tpeak)[0][0]]\n y_exp = speed[np.where(time == tpeak)[0][0]:np.where(time==tend)[0][0]] \n #for exp decay, should I also limit to certain num of steps? XXX\n \n #set starting t to zero. should I fully normalize and then undo after?? might make fit easier XXX\n x_lin = x_lin - tpeak\n x_exp = x_exp - tpeak\n\n if np.any(np.isnan(x_lin) \| np.isnan(y_lin)):\n popt_linear[:] = np.nan\n pcov_linear[:] = np.nan\n popt_quadrise[:] = np.nan\n pcov_quadrise[:] = np.nan\n failed_fit[i] = 1\n else:\n try:\n popt_linear, pcov_linear = scipy.optimize.curve_fit(linear, x_lin, y_lin, p0=[.1, 0])\n except(TypeError):\n #print(\"peak \",i,\" has too few timepoints\")\n failed_fit[i] = 1\n popt_linear[:] = np.nan\n pcov_linear[:] = np.nan\n try:\n popt_quadrise,pcov_quadrise = scipy.optimize.curve_fit(quadratic,x_lin,y_lin,p0=[.1,.1,0])\n except(TypeError):\n #print(\"peak \",i,\" has too few timepoints\")\n failed_fit[i] = 1\n popt_quadrise[:] = np.nan\n pcov_quadrise[:] = np.nan\n \n if np.any(np.isnan(x_exp) \| np.isnan(y_exp)):\n popt_exp[:] = np.nan\n pcov_exp[:] = np.nan\n failed_fit[i] = 1\n else:\n try:\n popt_exp, pcov_exp = curve_fit(exponential, x_exp, y_exp, p0=(1, 10, 1)) \n except(TypeError):\n #print(\"peak \",i,\" has too few timepoints\")\n failed_fit[i] = 1\n popt_exp[:] = np.nan\n pcov_exp[:] = np.nan\n except: #if enough timepoints but exponential does not converge, fit w quadratic instead\n popt_exp, pcov_exp = curve_fit(quadratic, x_exp, y_exp, p0=(1, .1, 1)) #quadratic where exponential fails, keep track of index\n failed_fit[i] = 1\n \n linfit[i,:] = popt_linear\n expfit[i,:] = popt_exp\n quadrisefit[i,:] = popt_quadrise\n\n # find BG frequency over session, & over time in sliding window \n burstrate = pd.DataFrame(np.zeros([int((time.shape[0]-twinsize)/stepsize),3]), columns = ['burstrate','tstart','tend'])\n for i in range(burstrate.shape[0]):\n timerange = (time[istepsize],time[istepsize+twinsize])\n burstrate.tstart[i] = timerange[0]\n burstrate.tend[i] = timerange[1]\n nbursts = sum((bursts['peakTime'] >= timerange[0]) & (bursts['peakTime']<timerange[1]))\n burstrate.burstrate[i] = nbursts/(timerange[1]-timerange[0])\n \n #add linfit and expfit to bursts dataframe\n bursts['linfit_slope'] = linfit[:,0]\n bursts['linfit_int'] = linfit[:,1]\n bursts['quadrise_A'] = quadrisefit[:,0]\n bursts['quadrise_B'] = quadrisefit[:,1]\n bursts['expfit_A'] = expfit[:,0]\n bursts['expfit_C'] = expfit[:,1]\n bursts['expfit_D'] = expfit[:,2]\n bursts['failed_fit'] = failed_fit\n return bursts, burstrate\n\n''' for other analysis of BG cycle:\n #plots: IBI distr, pkHt distr; corr pkHt:IBI?, typical exp fit with variance? overlay of bursts? \n # more plots: example trajectories (raw), fitted trajectory over example(s), fitted trajectory with variance, BGfreq/time (sliding window), I.B.I vs. minV\n #ind = np.arange(2000,4000)\n #plt.plot(valley[ind])\n #plt.plot(peak[ind])\n \n #compare pooled fit to indiv fits (median, IQR)\n \n #corrs to check: --- prb also separate fn\n #exp and linear fit - distr of parameters for each burst\n #burst height and IBI\n #do corrs w scipy.stats.pearsonr() or .spearmanr() - prb better choice than pandas df.corr, can get pval\n ''' \n\ndef getTurns(ori, BGmat, time, nsteps = 40): \n ''' \n Finds when in the burst-glide cycle changes in orientation occur, and what the pattern/distribution of those changes is\n Inputs: np.ndarray ori of orientations, pd.Dataframe bursts with burst info, np.ndarray time \n Output: ndarray of orientations around each burst, subtracting first datapoint\n May try to do detection of burst signatures in dOri - there is a standard pattern, but noise in data and possibly other swim bhv makes it messy\n '''\n \n dOri = ori[1:]-ori[:-1] #should this look across >1 time step? maybe make input parameter\n dOri[dOri > np.pi] -= 2.0np.pi\n dOri[dOri < -np.pi] += 2.0np.pi\n #dOri not currently used, but I may want to detect peaks in it XXX\n \n #find spikes in dOri - twin of interest\n #in twin of interest, find points of interest: e.g. start of initial anti-deviation; 0-crossing; peak dOri; \n #compare dOri spikes to burst time\n \n #align ori around bursts, see where changes are/what average dOri trajectory is \n oriAligned = np.empty([BGmat.shape[0],nsteps2])\n #get ori aligned to each peak in bursts\n for row in BGmat.index:\n indAlign = np.where(time == BGmat.loc[row,\"peakTime\"])[0][0]\n if indAlign < nsteps:\n oriRow = ori[0:indAlign+nsteps].copy()\n if np.max(oriRow)-np.min(oriRow) > np.pi: #adjust for cases where ori circles around from -pi <--> +pi,\n oriRow[oriRow < 0] += 2np.pi #may not want this for oriAligned, not sure; definitely want it for dOri; can prb do after loop\n oriRow -= oriRow[0]\n oriAligned[row,-oriRow.size:] = oriRow\n elif indAlign + nsteps > ori.shape[0]:\n oriRow = ori[indAlign-nsteps:].copy()\n if np.max(oriRow)-np.min(oriRow) > np.pi: #adjust for cases where ori circles around from -pi <--> +pi,\n oriRow[oriRow < 0] += 2np.pi #may not want this for oriAligned, not sure; definitely want it for dOri; can prb do after loop\n oriRow -= oriRow[0]\n oriAligned[row,0:oriRow.size] = oriRow\n else:\n oriRow = ori[indAlign-nsteps:indAlign+nsteps].copy() #- ori[indAlign-nsteps]\n# oriRow = oriRow % (np.pi2.0) - np.pi\n if np.max(oriRow)-np.min(oriRow) > np.pi: #adjust for cases where ori circles around from -pi <--> +pi,\n oriRow[oriRow < 0] += 2*np.pi #may not want this for oriAligned, not sure; definitely want it for dOri; can prb do after loop\n oriRow -= oriRow[0]\n oriAligned[row,:] = oriRow\n \n indFlip = oriAligned[:,nsteps+1] < 0 \n oriRect = oriAligned.copy()\n oriRect[indFlip,:] = -oriAligned[indFlip,:] #maybe flip oriAligned so that things w overall neg dOri are rectified to pos (symmetrize direction of turn)\n \n #plt.plot(np.mean(oriRect, axis = 0)) \n\n # find when within burst cycle turning occurs\n # ccg of dOri and dSpeed?\n # distr of dOri? (overall and/or at each burst transition - maybe filter for @ burst and not)\n # corr between dOri and IBI? dOri and dSpeed?\n return oriAligned #orientation aligned with each burst\n # do I also want to get info abt that? e.g. turn angle change, max deflections, timing?\n # I want that but it's hard bc data is noisy and not always template-like\n\n\ndef getSwimTime(speed = None, time = None, BGmat = pd.DataFrame({'A' : []}), tThresh = 3.0, spThresh = 0.02):\n '''if speed < speedThresh for t > timeThreshold, define fish as \"still\"/\"inactive\"\n can be calc'd w speed and time or with bursts dataframe'''\n \n if type(speed) == np.ndarray and type(time) == np.ndarray:\n #do with speed and time if available\n active = np.where(speed > spThresh)[0]\n t_active = time[active]\n gaps = t_active[1:]-t_active[:-1]\n longgapInd = np.where(gaps>tThresh)[0]\n gapstart = t_active[longgapInd]\n gaptime = gaps[longgapInd]\n stillwin = np.vstack([gapstart,(gapstart+gaptime),gaptime]).T #array w column of start and stoptimes for non-swimming periods\n #xxx make stillwin pandas dataframe?\n #note: the starttime technichally is the last twin when fish is >thresh, consider shifting to make first twin when fish is still\n elif BGmat.empty:\n raise Invalid('Inputs must include either np.ndarrays \"speed\" and \"time\" or pd.DataFrame \"bursts\"')\n else:\n BGmat.drop(np.where(BGmat[\"peakSp\"] > spThresh)[0],inplace = True) #filter bursts df to remove bursts w peaksp < spthresh\n BGmat.reset_index(drop = True,inplace = True)\n BGmat.loc[1:,'IBI'] = BGmat.loc[1:,'peakTime'].values-BGmat.loc[:BGmat.shape[0]-2,'peakTime'].values #recalc IBI on preserved bursts \n gaptime = BGmat.loc[(BGmat[\"IBI\"]>tThresh),\"IBI\"].values\n gapstart = BGmat.loc[BGmat.IBI>tThresh,\"peakTime\"].values\n stillwin = np.vstack([gapstart,(gapstart+gaptime),gaptime]).T\n \n inact = pd.DataFrame(stillwin, columns = ['lastSwimTime','nextSwimTime','inactTime']) \n # totalInact = np.sum(gaptime)\n return inact\n\n\ndef runAll(pos, time = None, speed = None, ori = None, xyOnly = True ):\n '''\n get speed & ori from position (if needed), then identify data gaps (cleanData),\n identify bursts, find dOri at each burst, and find when fish was inactive vs active\n ''' \n #maybe later: add something to get pos xyz and time from loopbio csv output\n \n if type(time) != np.ndarray:\n time = np.arange(0.0,(pos.shape[0])/60,1/60)\n if type(speed) != np.ndarray:\n speed = getSpeed(pos, time = time)\n if type(ori) != np.ndarray:\n ori = getOri(pos)\n \n pos = pos[1:,:]\n time = time[1:]\n dataGaps = cleanData(pos = pos, time = time, speed = speed, ori = ori) \n bursts, burstrate = getBGcycle(speed = speed, time = time)\n whenInact = getSwimTime(speed = speed, time = time, BGmat = bursts.copy())\n oriAlignedBurst = getTurns(ori = ori, time = time, BGmat = bursts.copy())\n \n if xyOnly == True:\n kinMat = pd.DataFrame(np.vstack([pos[:,0],pos[:,1],speed,ori,time]).T,columns = ['posX','posY','speed','orientation','time' ])\n else:\n kinMat = pd.DataFrame(np.vstack([pos[:,0],pos[:,1],pos[:,2],speed,ori,time]).T,columns = ['posX','posY','speed','orientation','time' ])\n \n return kinMat, bursts, burstrate, whenInact, oriAlignedBurst, dataGaps" } ]	1
lukeddy/zapian	https://github.com/lukeddy/zapian	500616b27b01562e4d188dc351215e846fcdd50e	f07086fd5ea23c59e7f7637151a400773919ac42	873d01d9f9f1cec701ffceda1f5c3165067e82cd	refs/heads/master	2021-05-27T00:58:36.950193	2013-04-23T02:26:14	2013-04-23T02:26:14	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.540226936340332, "alphanum_fraction": 0.5434760451316833, "avg_line_length": 34.447898864746094, "blob_id": "caaf86d52c3f14105b37efeffce8dcf6ae8213b7", "content_id": "a82dcc7e8e726e0a24848a5948597789fd3c76fd", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 19550, "license_type": "no_license", "max_line_length": 102, "num_lines": 547, "path": "/zapian/api.py", "repo_name": "lukeddy/zapian", "src_encoding": "UTF-8", "text": "# -- encoding: utf-8 --\n\"\"\" zapian api \n\"\"\"\n\nimport os\nimport shutil\nimport xapian\nimport cPickle as pickle\nimport time\nimport hashlib\nfrom threading import local\nfrom datetime import datetime\n\nfrom utils import clean_value\nfrom schema import Schema\n\n_qp_flags_base = xapian.QueryParser.FLAG_LOVEHATE\n_qp_flags_phrase = xapian.QueryParser.FLAG_PHRASE\n_qp_flags_synonym = (xapian.QueryParser.FLAG_AUTO_SYNONYMS \|\n xapian.QueryParser.FLAG_AUTO_MULTIWORD_SYNONYMS)\n_qp_flags_bool = xapian.QueryParser.FLAG_BOOLEAN\n\nclass Zapian(Schema):\n\n def __init__(self, db_path):\n self.db_path = db_path\n self.parts = [] \n super(self.__class__, self).__init__(db_path)\n\n for part_name in os.listdir(db_path):\n self.add_part(part_name)\n\n def add_part(self, part_name):\n \"\"\" add xapian a database \"\"\"\n part_path = os.path.join(self.db_path, part_name)\n if os.path.isdir(part_path):\n self.parts.append(part_name)\n\n def release_part(self, part_name):\n \"\"\" release xapian a database \"\"\"\n _release_write_db(self.db_path, part_name)\n\n def remove_part(self, part_name):\n \"\"\" remove xapian a database \"\"\"\n part_path = os.path.join(self.db_path, part_name)\n if os.path.isdir(part_path):\n part = _write_database_index.pop(part_path, None)\n part.close()\n shutil.rmtree(part_path)\n else:\n raise Exception('remove database: %s is not xapian database'%part_path)\n\n def get_interior_doc(self, doc, data=None, old_doc=None):\n \"\"\" convert python dict into xapian document object\n doc: \n {field1:value1, \n field2:value2}\n\n data: raw data for original object\n\n return: xapian document object\n \"\"\"\n def _add_term(doc, termgen, prefix, value):\n types = 'freetext'\n\n if types == 'exact':\n if len(value) > 0:\n # We use the following check, rather than \"isupper()\" to ensure\n # that we match the check performed by the queryparser, regardless\n # of our locale.\n if ord(value[0]) >= ord('A') and ord(value[0]) <= ord('Z'):\n prefix = prefix + ':'\n\n # Note - xapian currently restricts term lengths to about 248\n # characters - except that zero bytes are encoded in two bytes, so\n # in practice a term of length 125 characters could be too long.\n # Xapian will give an error when commit() is called after such\n # documents have been added to the database.\n # As a simple workaround, we give an error here for terms over 220\n # characters, which will catch most occurrences of the error early.\n #\n # In future, it might be good to change to a hashing scheme in this\n # situation (or for terms over, say, 64 characters), where the\n # characters after position 64 are hashed (we obviously need to do this\n # hashing at search time, too).\n if len(prefix + value) > 220:\n raise Exception(\"Field is too long: maximum length \"\n \"220 - was %d (%r)\" %\n (len(prefix + value),\n prefix + value))\n\n\n doc.add_term(prefix + value, 1) # wdfinc default set 1\n\n elif types == 'freetext':\n # no positions, weight default set 1\n termgen.index_text_without_positions(str(value), 1, prefix)\n termgen.increase_termpos(10)\n\n def _add_value(doc, slotnum, value):\n\n if isinstance(value, float):\n value = xapian.sortable_serialise(float(value))\n doc.add_value(int(slotnum), value)\n else:\n doc.add_value(int(slotnum), str(value))\n\n document = xapian.Document()\n termgen = xapian.TermGenerator()\n termgen.set_document(document)\n\n terms = set()\n values = set()\n # build new xapian object\n for field, value in doc.iteritems():\n # sortable\n if isinstance(value, (int, float, datetime)):\n if field in values:\n continue\n slotnum = self.get_slot(field)\n value = clean_value(value)\n _add_value(document, slotnum, value)\n values.add(slotnum)\n # field\n else:\n if field in terms:\n continue\n prefix = self.get_prefix(field)\n value = clean_value(value)\n _add_term(document, termgen, prefix, value)\n terms.add(prefix)\n\n # new value will be replace old value\n if old_doc is not None:\n for term in old_doc.termlist():\n prefix, value = self.split_term(term.term)\n if prefix not in terms:\n _add_term(document, termgen, prefix, value)\n\n for value in old_doc.values():\n if value.num not in values:\n _add_value(document, value.num, value)\n\n if data is None: data = dict()\n old_data = pickle.loads(old_doc.get_data())\n for k, v in old_data.iteritems():\n if k not in data:\n data[k] = v\n # add data\n if data:\n document.set_data(pickle.dumps(data))\n\n return document\n\n def add_document(self, part_name, index, uid=None, data=None, flush=True):\n \"\"\" add a xapian document\n \"\"\"\n db = _get_write_db(self.db_path, part_name)\n doc = self.get_interior_doc(index, data=data)\n if not uid:\n identifier = u'Q' + part_name + str(db.get_lastdocid())\n else:\n identifier = u'Q' + str(uid)\n doc.add_boolean_term(identifier)\n db.replace_document(identifier, doc)\n if flush: db.commit()\n\n def replace_document(self, part_name, uid, index, data=None, flush=True):\n \"\"\" replace existing xapian document \"\"\"\n doc = self.get_interior_doc(index, data=data)\n db = _get_write_db(self.db_path, part_name)\n identifier = u'Q' + str(uid)\n doc.add_boolean_term(identifier)\n db.replace_document(identifier, doc)\n if flush: db.commit()\n\n def delete_document(self, part_name, uids, flush=True):\n \"\"\" delete a xapian document \"\"\"\n if not isinstance(uids, (list, tuple, set)):\n uids = (uids,)\n db = _get_write_db(self.db_path, part_name)\n for uid in uids:\n identifier = u'Q' + str(uid)\n db.delete_document(identifier)\n if flush: db.commit()\n\n def update_document(self, part_name, uid, index, data=None, flush=True):\n \"\"\" update xapian document existing fields and attributes\n \"\"\"\n db = _get_write_db(self.db_path, part_name)\n\n identifier = u'Q' + str(uid)\n old_doc = self._get_document(str(uid), [part_name])\n\n new_doc = self.get_interior_doc(index, data=data, old_doc=old_doc)\n \n db.replace_document(identifier, new_doc)\n if flush: db.commit()\n\n def get_document(self, uid, part=None):\n \"\"\" Get the document \"\"\"\n xap_doc = self._get_document(uid, part)\n return pickle.loads( xap_doc.get_data() )\n\n def _get_document(self, uid, part=None):\n \"\"\"Get the xapian document object with the specified unique ID.\n\n Raises a KeyError if there is no such document. Otherwise, it returns\n a ProcessedDocument.\n\n \"\"\"\n db = _get_read_db(self.db_path, part or self.parts)\n postlist = db.postlist('Q' + uid)\n try:\n plitem = postlist.next()\n except StopIteration:\n # Unique ID not found\n raise KeyError('Unique ID %r not found' % uid)\n try:\n postlist.next()\n raise Exception(\"Multiple documents \" #pragma: no cover\n \"found with same unique ID\")\n except StopIteration:\n # Only one instance of the unique ID found, as it should be.\n pass\n\n return db.get_document(plitem.docid)\n\n def commit(self, part_name):\n \"\"\" commit xapian database \"\"\"\n db = _get_write_db(self.db_path, part_name)\n db.commit()\n\n def _get_xapian_query(self, querys, database=None, db_path=None, parts=None):\n \"\"\" convert to xapian query \n \"\"\"\n if database is None:\n database = _get_read_db(db_path, parts=parts or self.parts)\n\n qp = xapian.QueryParser()\n qp.set_database(database)\n qp.set_default_op(xapian.Query.OP_AND)\n\n # parse filters\n if not querys:\n return xapian.Query('')\n\n queries = []\n for filters in querys:\n field, value, op = filters\n if op == 'parse':\n _queries = []\n for f in field:\n prefix = self.get_prefix(f, auto_add=False)\n # 搜索支持部分匹配\n _queries.append( qp.parse_query(value, xapian.QueryParser.FLAG_WILDCARD, prefix) )\n\n query = xapian.Query(xapian.Query.OP_OR, _queries)\n\n queries.append(query)\n continue\n\n if not value:\n continue\n\n if op == 'allof':\n query = self.query_field(field, value)\n queries.append(query)\n\n elif op == 'anyof':\n query = self.query_field(field, value, default_op=xapian.Query.OP_OR)\n queries.append(query)\n\n elif op == 'range':\n begin, end = value[:2]\n query = self.query_range(field, begin, end)\n queries.append(query)\n\n elif not op:\n query = self.query_field(field, value)\n queries.append(query)\n\n if len(queries) == 1:\n combined = queries[0]\n else:\n _func = lambda q1, q2: query_filter(q1, q2)\n combined = reduce( _func, queries)\n\n return combined\n\n def search(self, parts=None, query=None, orderby=None, start=None, stop=None):\n \"\"\" 搜索, 返回document id的集合 \n\n 如果parts为空，会对此catalog的所有索引进行搜索。\n 如果query为空，默认返回全部结果\n \"\"\"\n if parts is None:\n parts = self.parts\n\n else:\n for part_name in parts:\n if not os.path.exists(os.path.join(self.db_path, part_name)):\n parts.remove(part_name)\n\n if not parts:\n return []\n\n database = _get_read_db(self.db_path, parts=parts)\n xapian_query = self._get_xapian_query(query, database=database)\n enquire = xapian.Enquire(database)\n enquire.set_query(xapian_query)\n \n # sort\n if orderby is not None:\n asc = True\n if orderby[0] == '-':\n asc = False\n orderby = orderby[1:]\n elif orderby[0] == '+':\n orderby = orderby[1:]\n\n slotnum = self.get_slot(orderby, auto_add=False)\n if slotnum is None:\n raise Exception(\"Field %r was not indexed for sorting\" % orderby)\n\n # Note: we invert the \"asc\" parameter, because xapian treats\n # \"ascending\" as meaning \"higher values are better\"; in other\n # words, it considers \"ascending\" to mean return results in\n # descending order.\n enquire.set_sort_by_value_then_relevance(slotnum, not asc)\n\n enquire.set_docid_order(enquire.DONT_CARE)\n\n # Repeat the search until we don't get a DatabaseModifiedError\n if start is None: start = 0\n if stop is None: stop = database.get_doccount()\n while True:\n try:\n matches = enquire.get_mset(start, stop)\n break\n except xapian.DatabaseModifiedError:\n database.reopen()\n\n # 返回结果的ID集\n def _get_docid(match):\n tl = match.document.termlist()\n try:\n term = tl.skip_to('Q').term\n if len(term) == 0 or term[0] != 'Q':\n return None\n except StopIteration:\n return None\n return term[1:]\n\n return map(_get_docid, matches)\n\n def query_field(self, field, value, default_op=xapian.Query.OP_AND):\n \"\"\" \"\"\" \n #try:\n # types = catalog.fields[field]['type']\n #except KeyError:\n # types = catalog.attributes[field]['type']\n\n #if types == 'exact':\n # prefix = catalog.fields[field]['prefix']\n # if len(value) > 0:\n # chval = ord(value[0])\n # if chval >= ord('A') and chval <= ord('Z'):\n # prefix = prefix + ':'\n # return xapian.Query(prefix + value)\n\n #if types == 'freetext':\n # qp = xapian.QueryParser()\n # qp.set_default_op(default_op)\n # prefix = self.get_prefix(field)\n # return _query_parse_with_fallback(qp, value, prefix)\n\n #return xapian.Query()\n\n # FIXME\n prefix = self.get_prefix(field, auto_add=False)\n\n if not prefix:\n return xapian.Query()\n else:\n qp = xapian.QueryParser()\n qp.set_default_op(default_op)\n return _query_parse_with_fallback(qp, value, prefix)\n\n def query_range(self, field, begin, end):\n \"\"\" \"\"\"\n if begin is None and end is None:\n # Return a \"match everything\" query\n return xapian.Query('')\n\n slot = self.get_slot(field, auto_add=False)\n if slot is None:\n # Return a \"match nothing\" query\n return xapian.Query()\n\n begin, end = normalize_range(begin, end)\n\n if begin is None:\n return xapian.Query(xapian.Query.OP_VALUE_LE, slot, end)\n\n if end is None:\n return xapian.Query(xapian.Query.OP_VALUE_GE, slot, begin)\n\n return xapian.Query(xapian.Query.OP_VALUE_RANGE, slot, begin, end)\n\n_write_database_index = {}\ndef _get_write_db(db_path, part_name, protocol=''):\n \"\"\" get xapian writable database \n protocol: the future may support.\n \"\"\"\n part_path = os.path.join(db_path, part_name)\n # writeable database is already open, this will raise a xapian.DatabaseLockError\n # so, writeable database need to cached.\n if part_path in _write_database_index:\n return _write_database_index[part_path]\n else:\n db = xapian.WritableDatabase(part_path, xapian.DB_CREATE_OR_OPEN)\n _write_database_index[part_path] = db\n return db\n\ndef _release_write_db(db_path, part_name, protocol=''):\n \"\"\" \"\"\"\n part_path = os.path.join(db_path, part_name)\n if part_path in _write_database_index:\n _write_database_index[part_path].close()\n del _write_database_index[part_path]\n\nthread_context = local()\nREAD_DB_REFRESH_DELTA = 2 # max time in seconds till we refresh a connection\ndef _get_read_db(db_path, parts, protocol=''):\n \"\"\" get xapian readonly database\n protocol: the future maybe support.\n \"\"\"\n if not getattr(thread_context, 'connection', None):\n thread_context.connection = {}\n\n if not getattr(thread_context, 'modified', None):\n thread_context.modified = {}\n\n if not getattr(thread_context, 'opened', None):\n thread_context.opened = {}\n\n prefix = hashlib.md5(db_path + ''.join(parts)).hexdigest()\n conn = thread_context.connection.get(prefix, None)\n now = time.time()\n\n if thread_context.modified.get(prefix, 0) + READ_DB_REFRESH_DELTA < now:\n thread_context.modified[prefix] = now\n \n if conn is None:\n base_name = os.path.join(db_path, parts[0])\n conn = xapian.Database(base_name)\n\n # 适用于多个数据库查询\n for part_name in parts[1:]:\n other_name = os.path.join(db_path, part_name)\n conn.add_database(xapian.Database(other_name))\n thread_context.connection[prefix] = conn \n thread_context.opened[prefix] = now\n \n opened = thread_context.opened.get(prefix, 0)\n\n if opened < thread_context.modified[prefix]:\n conn.reopen()\n thread_context.opened[prefix] = now\n\n return conn\n\ndef _release_read_db(db_path, parts, protocol=''):\n \"\"\" release the read db \n protocol: the future maybe support.\n \"\"\"\n prefix = hashlib.md5(db_path + ''.join(parts)).hexdigest()\n del thread_context.modified[prefix]\n del thread_context.opened[prefix]\n thread_context.connection[prefix].close()\n del thread_context.connection[prefix]\n\ndef _query_parse_with_prefix(qp, string, flags, prefix):\n \"\"\" \"\"\"\n if prefix is None:\n return qp.parse_query(string, flags)\n else:\n return qp.parse_query(string, flags, prefix)\n\ndef _query_parse_with_fallback(qp, string, prefix=None):\n \"\"\" \"\"\"\n try:\n q1 = _query_parse_with_prefix(qp, string,\n _qp_flags_base \|\n _qp_flags_phrase \|\n _qp_flags_synonym \|\n _qp_flags_bool,\n prefix)\n except xapian.QueryParserError:\n # If we got a parse error, retry without boolean operators (since\n # these are the usual cause of the parse error).\n q1 = _query_parse_with_prefix(qp, string,\n _qp_flags_base \|\n _qp_flags_phrase \|\n _qp_flags_synonym,\n prefix)\n\n qp.set_stemming_strategy(qp.STEM_NONE)\n try:\n q2 = _query_parse_with_prefix(qp, string,\n _qp_flags_base \|\n _qp_flags_bool,\n prefix)\n except xapian.QueryParserError:\n # If we got a parse error, retry without boolean operators (since\n # these are the usual cause of the parse error).\n q2 = _query_parse_with_prefix(qp, string,\n _qp_flags_base,\n prefix)\n\n return xapian.Query(xapian.Query.OP_AND_MAYBE, q1, q2)\n\ndef query_filter(query, filter, exclude=False):\n \"\"\" \"\"\"\n if not isinstance(filter, xapian.Query):\n raise Exception(\"filter must be a xapian query object\")\n if exclude:\n return xapian.Query(xapian.Query.OP_AND_NOT, query, filter)\n else:\n return xapian.Query(xapian.Query.OP_FILTER, query, filter)\n\ndef normalize_range(begin, end):\n \"\"\" 查询时，转换range 参数，主要是把 float/int 转换为 str 格式 \"\"\"\n\n if begin is not None:\n if isinstance(begin, float):\n begin = xapian.sortable_serialise(float(begin))\n else:\n begin = str(begin)\n\n if end is not None:\n if isinstance(end, float):\n end = xapian.sortable_serialise(float(end))\n else:\n end = str(end)\n return begin, end\n" }, { "alpha_fraction": 0.498183012008667, "alphanum_fraction": 0.505450963973999, "avg_line_length": 22.609375, "blob_id": "113769549efd08e359625f7e78427925b7e36cdb", "content_id": "91826ba6d4521d5a876f4ee213c0455afcd0057b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3299, "license_type": "no_license", "max_line_length": 123, "num_lines": 128, "path": "/scripts/list_xapian_database.py", "repo_name": "lukeddy/zapian", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"\nUSAGE:\n\npython xappy.py --<list\|count\|help> < -i database > [ -n numbers, -s start ]\n\n-l, --list 打印所有数据\n可选参数: \n -s --start 从第几条记录开始\n -n --numbers 打印多少条记录\n\n-c, --count 列出记录数\n-f, --fields 打印指定数据库中所有索引字段的名字\n\nEXAMPLE:\n -c -i xapian.idx\n -l -i xapian.idx\n -l -i xapian.idx -s 0 -n 100\n -f -i xapian.idx\n\"\"\"\n\nimport sys\nimport getopt\nimport xappy\n\ndef usage():\n print __doc__ \n\ndef print_document_count(conn):\n \"\"\" 得到某个数据库中所有记录的个数 \"\"\"\n print \"共有%10d 条记录\" % conn.get_doccount()\n\ndef print_documents(conn, start, limit):\n \"\"\" 打印数据库中的记录 \"\"\"\n query = conn.query_all()\n if limit == 0:\n limit = conn.get_doccount() - start\n \n results = conn.search(query, start, limit + start)\n print \"ID\\tRANK\\tDATA\"\n print \"--\"30\n for res in results:\n print '-----------'\n print \"data: %s\\t%s\\t\" % (res.id, res.rank), \"; \".join([ \"%s: %s\" % (k, v) for k, v in res.data.items()]) \n print 'value: ', '; '.join([ str(value.num) + ':' + value.value for value in res._doc.values()])\n print 'term: ', '; '.join([ value.term for value in res._doc.termlist()])\n\ndef print_fields(database):\n \"\"\" 打印数据库中已缓存的字段 \"\"\"\n print \"数据库中的已索引字段:\"\n print \"--\"15\n\n conn = xappy.IndexerConnection(database)\n fields = conn.get_fields_with_actions()\n for field in fields:\n print field\n\n print \"--\"*15\n\ndef main(argv):\n \n try:\n opts, args = getopt.getopt(argv, \"lfci:hs:n:\", [\"list\", \"fields\", \"count\", \"index=\", \"help\", 'start=', 'numbers='])\n except getopt.GetoptError:\n usage()\n sys.exit(2)\n \n command = None\n database = None\n list_start = 0\n list_numbers = 0\n\n for opt, arg in opts:\n if opt in ('-l', '--list'):\n command = 'list'\n\n if opt in ('-s', '--start'):\n try:\n list_start = int(arg)\n except:\n print \"start 必须是一个整数\"\n sys.exit(2)\n\n if opt in ('-n', '--numbers'):\n try:\n list_numbers = int(arg )\n except:\n print \"list_numbers 必须是一个整数\"\n sys.exit(2)\n \n if opt in ('-f', '--fields'):\n command = 'fields'\n\n elif opt in ('-c', '--count'):\n command = 'count'\n\n elif opt in ('-i', '--index'):\n database = arg\n\n elif opt in ('-h', '--help'):\n usage()\n break;\n \n if not opts:\n usage()\n sys.exit(2)\n \n if not database:\n print \"ERROR: 必须指定索引数据库的路径\"\n\n try:\n conn = xappy.SearchConnection(database)\n except:\n print \"ERROR: 无法连接指定的索引数据库\"\n sys.exit(2)\n\n print list_start, list_numbers\n if command == 'list':\n print_documents(conn, list_start, list_numbers)\n\n if command == 'fields':\n print_fields(database)\n\n if command == 'count':\n print_document_count(conn)\n \nif __name__ == '__main__':\n main(sys.argv[1:]) \n\n" } ]	2
Sudheer417/Minor_Project	https://github.com/Sudheer417/Minor_Project	2e70873a19220f3445ef6e0b1307b3cf4fd496ff	88385627c0f400db1c8c73a92a3a600c6cd0c606	ac4d94c2c8f3eb752ebcc7a4f4e45d5a6afd1b6e	refs/heads/master	2023-03-21T05:16:06.663353	2021-03-03T08:57:09	2021-03-03T08:57:09	289,501,486	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.739130437374115, "alphanum_fraction": 0.739130437374115, "avg_line_length": 22, "blob_id": "b43829652404e3fe762be26b851d379154a2d705", "content_id": "5b15012cc151c55e40f5c2f6c2d3d29aa2ef4f15", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 23, "license_type": "no_license", "max_line_length": 22, "num_lines": 1, "path": "/Hello.py", "repo_name": "Sudheer417/Minor_Project", "src_encoding": "UTF-8", "text": "print(\"Hello Sudheer\")\n" } ]	1
Mallik-G/Redis-Spark-Flask-Usecase	https://github.com/Mallik-G/Redis-Spark-Flask-Usecase	1f01568de58b0f1c5131c96386c0e10cc5bf54c3	75b6f50aee27b147302280f5611374042e51dafe	18d4a9ef05097b816fe6b29e0bd7b330bd8b6a8b	refs/heads/master	2021-09-28T08:01:44.759727	2018-11-15T17:58:20	2018-11-15T17:58:20	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.680672287940979, "alphanum_fraction": 0.6848739385604858, "avg_line_length": 16, "blob_id": "d06cced3e39684f24f35013ca83a57f0142fccab", "content_id": "da70953a216864e7650f406ab9031b852f7e7c1e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Dockerfile", "length_bytes": 238, "license_type": "no_license", "max_line_length": 64, "num_lines": 14, "path": "/RESTAPI/Dockerfile", "repo_name": "Mallik-G/Redis-Spark-Flask-Usecase", "src_encoding": "UTF-8", "text": "FROM centos:centos7\n\nRUN curl https://bootstrap.pypa.io/get-pip.py -o get-pip.py && \\\n python get-pip.py && \\\n pip install flask redis --user\n\n\nWORKDIR app/\n\nENV PATH $PATH:~/.local/bin\n\nCOPY flaskrest.py .\n\nCMD python flaskrest.py\n" }, { "alpha_fraction": 0.6867470145225525, "alphanum_fraction": 0.7228915691375732, "avg_line_length": 14, "blob_id": "826d6a64329685dde9d6e003cb548433afdce791", "content_id": "e580d26bff282e36d52a0bef124744ed9d12893e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 166, "license_type": "no_license", "max_line_length": 76, "num_lines": 11, "path": "/RESTAPI/userdata.sh", "repo_name": "Mallik-G/Redis-Spark-Flask-Usecase", "src_encoding": "UTF-8", "text": "#!/bin/bash\n\n{\n\nyum install docker -y\n\nservice docker start\n\ndocker run -dit -p 80:5000 --restart=on-failure bhargavpss/madstreetden:prod\n\n} \| tee /tmp/userdata.log\n\n" }, { "alpha_fraction": 0.7594936490058899, "alphanum_fraction": 0.7662447094917297, "avg_line_length": 41.814815521240234, "blob_id": "ed7ecab8e34475364396a7b59fb86d446f6410f0", "content_id": "e3dbecc9e0c4f808f6890a51e5f8faf44f420936", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1185, "license_type": "no_license", "max_line_length": 211, "num_lines": 27, "path": "/RESTAPI/README.md", "repo_name": "Mallik-G/Redis-Spark-Flask-Usecase", "src_encoding": "UTF-8", "text": "The RESTful API is implemented using python webframework Flask. This API has three resources implemented namely \r\n\r\n```\r\nGET /getRecentItem\r\nGET /getBrandsCount\r\nGET /getItemsbyColor\r\n```\r\n\r\nThe input parameters are provided using Query String parameters which meands the requests for three APIs should be in the following format:\r\n\r\n`GET http://<endpoint>/getRecentItem?date=<yyyy-mm-dd>`\r\n\r\n`GET http://<endpoint>/getBrandsCount?date=<yyyy-mm-dd>`\r\n\r\n`GET http://<endpoint>/getRecentItem?color=<color>`\r\n\r\nThe API program covers cases of user errors such as missing parmeters, wrong format input, key out of range.\r\n\r\nIdeally, this Docker container that packages flask application can be run on Kubernetes but for the sake of simplicity the continer is being run on single EC2 instance of type `t2.micro` using Amazon Linux AMI.\r\n\r\nThe Docker image for this application is pulled from my public DockerHub account\r\n\r\n$ `docker pull bhargavpss/madstreetden:prod`\r\n\r\n$ `docker run -dit -p 80:5000 --restart=on-failure bhargavpss/madstreetden:prod`\r\n\r\nThis Instance can be put under a LoadBalancer or AutoScalingGroup for fault-tolerance, service-discovery and SSL purposes.\r\n\r\n" }, { "alpha_fraction": 0.804780900478363, "alphanum_fraction": 0.804780900478363, "avg_line_length": 82.66666412353516, "blob_id": "7070d726caeedd1dc0caf7ca343b9b5ea3fcc68a", "content_id": "376fb7eadaf4ccc140f7bff084b52d7874b9d499", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 251, "license_type": "no_license", "max_line_length": 114, "num_lines": 3, "path": "/README.md", "repo_name": "Mallik-G/Redis-Spark-Flask-Usecase", "src_encoding": "UTF-8", "text": "# Redis-Spark-Flask-Usecase\nRead CSV data and ingest in Redis using PySpark. Access the Data with RESTAPI served by Flask framework in Python.\n![alt text](https://github.com/bhargavpss/Redis-Spark-Flask-Usecase/blob/master/Implementation-diagram.png)\n" }, { "alpha_fraction": 0.7311661243438721, "alphanum_fraction": 0.7458720207214355, "avg_line_length": 40.844444274902344, "blob_id": "151e3f9589ac13f29e8989e74b26027acd62276e", "content_id": "55825917da4387f7720586d9ef6fcbf38434a058", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 3876, "license_type": "no_license", "max_line_length": 255, "num_lines": 90, "path": "/Redis/README.md", "repo_name": "Mallik-G/Redis-Spark-Flask-Usecase", "src_encoding": "UTF-8", "text": "Redis is implemented using a managed service AWS ElasticCache Redis. For the sake of simplicity, a single node implementation of Redis is choosen.\r\n\r\nWe have three API requests accessing the data stored in Redis namely `/getRecentItem`, `/getBrandsCount` and `/getItemsbyColor`. The keys and the data types are designed strictly to store only the data that is acccessed by the queries.\r\n\r\n## Key Design\r\n\r\nThe data is already sorted in ascending order by the 'dateAdded' column as you cn see in the SampleDataAfterTransformation.csv (Recent entries in the end)\r\n\r\nThe dateAdded colum is in the format `yyyy-mm-ddThh:mm:ssZ` but the API requests are only performing queries based on Date `yyyy-mm-dd`. So, the original `dateAdded` column is only used for sorting the data and not included in ny of the key names.\r\n\r\n### /getRecentItem\r\n```\r\nInput: Date\r\nOutput: id, color, brand\r\n```\r\nWe can make use of hashes for this scenario. We can have one key of type hash for every date. Every new insertion of data into Redis will oveewrite the values of the fields `'id', 'brand', 'color'` in the hash.\r\n\r\nTo write values of multiple keys at once, we can use `HMSET` command\r\n\r\n```\r\n>>> hmset mykey field1 value1 field2 value2\r\n```\r\n\r\nThe hash would have key name in the following format:\r\n`<date>:latest`\r\n\r\nExample keys: \r\n```\r\n2017-03-28:latest\r\n2016-04-09:latest\r\n```\r\n\r\n### /getItembyColor\r\n```\r\nInput: Color\r\nOutput: (id, color, brand, DateAdded) for latest 10 items of the given color\r\n```\r\nLists(LinkedLists) in redis are popular data types to store the latest items. In this scenario, to get the 10 latest items for a given color we can implement capped lists. Capped lists can be implemented by using LPUSH and LTRIM commands are used together\r\n\r\nIn this case, we can use capped lists of length 10 to store the latest 10 items for a particular color. \r\n\r\n```\r\n>>> lpush mykey value\r\n>>> ltrim mykey 0 9\r\n```\r\n\r\nThis way of implementing capped lists ensure that the list always has only one element which has to be the most recently updated one.\r\n\r\nFor our scenario, we can use three capped lists for a color with each one of them storing the values of id, brand and dateAdded. Every time a new insertion occurs, the old values in these lists are replaced by the most recent items. \r\n\r\nThe lists would have key names in the following format:\r\n `<color>:<column_name>:latest10`\r\n \r\n Example keys: \r\n```\r\nRed:id:latest10\r\nRed:brand:latest10\r\nRed:DateAdded:latest10\r\n```\r\n### /getBrandsCount\r\n```\r\nInput: Date\r\nOutput: Count of each brand for a given day in descending order\r\n```\r\n\r\nThis case perfectly fits the usage patterns of SortedSets in Redis. Each element in the SortedSets have a score associated with it which can be incremented atomically using ZINCRBY command. \r\n\r\nIn this scenario the element can be the name of the brand with count as their associated scores. These SortedSets can configured to be returned in descending order using following command:\r\n\r\n`zrange mykey 0 -1` or \r\n`zrevrange mykey 0 -1`\r\n\r\n\r\n\r\nThe key name for these SortedSets are in the following format\r\n`<date>:brandcount`\r\n\r\nExample key: `2017-03-28:brandcount`\r\n\r\n\r\nThere we have 5 keys in total that are updated upon insertion of every item namely,\r\n`<date>:latest`,\r\n`<date>:brandcount`,\r\n`<date>:id:latest10`,\r\n`<date>:brand:latest10`,\r\n`<date>:dateAdded:latest10`,\r\n\r\nWith this design, we ensure that data is not redundantly stored in the database that is not used by the queries. But one potential drawback for this design is that there is no enforcement of transactional consistency from the database side. \r\n\r\nBut Redis has very good features in its client libraries and CLI untilies to ensure atomic transactions. In our usecase, we leveraged pipeline() and watch() functions of python's redis module to ensure consistency atomicity of the transactions reliably.\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n" }, { "alpha_fraction": 0.573167622089386, "alphanum_fraction": 0.6008115410804749, "avg_line_length": 30.79838752746582, "blob_id": "55d877ee76271c7ae20d442fe489ef060c59851e", "content_id": "18d2bf86b7bf952fb5298001ed5afb17c61050a1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3943, "license_type": "no_license", "max_line_length": 151, "num_lines": 124, "path": "/RESTAPI/flaskrest.py", "repo_name": "Mallik-G/Redis-Spark-Flask-Usecase", "src_encoding": "UTF-8", "text": "from flask import Flask\nfrom flask import request\nfrom flask import jsonify\nfrom redis.exceptions import WatchError\nimport redis\nimport json\n\nhostname = 'madstreetden-001.a1hyc5.0001.use1.cache.amazonaws.com'\nport = 6379\n\nr = redis.Redis(host=hostname, port=port)\n\napp = Flask(__name__)\n\[email protected](\"/\")\ndef index():\n\treturn 'GET /getRecentItem, \\n GET /getBrandsCount, \\n GET /getItemsbyColor'\n\[email protected](\"/getRecentItem\")\ndef getRecentItem():\n\t\n\ta = request.args\n\tif 'date' not in a:\n\t\treturn jsonify({\"body\":\"Missing required parameters: date\",\"HTTP_Status\": \"404_BAD_REQUEST\"})\n\telif len(a['date']) != 10 or a['date'][4] != '-' or a['date'][7] != '-':\n\t\treturn jsonify({\"body\":\"date should be in yyyy-mm-dd format\",\"HTTP_Status\": \"404_BAD_REQUEST\"})\n\telse:\n\t\tdate = a.get('date')\n\n pipe = r.pipeline(transaction=True)\n while 1:\n try:\n pipe.watch('{}:id:latest'.format(date),'{}:brand:latest'.format(date),'{}:color:latest'.format(date))\n pipe.multi()\n\t\t\tpipe.hgetall('{}:latest'.format(date))\n value = pipe.execute()\n break\n except WatchError:\n continue\n\t\n\t\n\tif value[0].keys() == []:\n\t\treturn jsonify({\"body\":\"key not found with given date:{}\".format(date),\"HTTP_Status\":\"404_BAD_REQUEST\"})\n \n result = value[0]\n\n return jsonify({\"body\":result, \"HTTP_Status\": \"200_OK\"})\n\[email protected](\"/getBrandsCount\")\ndef getBrandsCount():\n\ta = request.args\n\tif 'date' not in a:\n\t\treturn jsonify({\"body\":\"Missing required parameters: date\",\"HTTP_Status\": \"404_BAD_REQUEST\"})\n elif len(a['date']) != 10 or a['date'][4] != '-' or a['date'][7] != '-':\n return jsonify({\"body\":\"date should be in yyyy-mm-dd format\",\"HTTP_Status\": \"404_BAD_REQUEST\"})\n else:\n date = a.get('date')\n\n\tpipe = r.pipeline(transaction=True)\n\twhile 1:\n\t\ttry:\n\t\t\tpipe.watch('{}:brandcount'.format(date))\n\t\t\tpipe.multi()\n\t\t\tpipe.zrange('{}:brandcount'.format(date),0,-1,desc=True,withscores=True)\n\t\n\t\t\tvalue = pipe.execute()\n\t\t\tbreak\n\t\texcept WatchError:\n\t\t\tcontinue\n\t\t\t\n\tfor i in range(0,len(value)):\n if value[i] == []:\n return jsonify({\"body\":\"key not found with given date:{}\".format(date),\"HTTP_Status\": \"400_BAD_REQUEST\"})\n\n\tresult = []\n\tfor i in value[0]:\n\t\t\tentry = {}\n\t\t\tentry['brand'] = i[0]\n\t\t\tentry['count'] = i[1]\n\t\t\tresult.append(entry)\n\n\treturn jsonify({\"body\":result, \"HTTP_Status\": \"200_OK\"})\n\[email protected](\"/getItemsbyColor\")\ndef getItemsbyColor():\n\ta = request.args\n\tif 'color' not in a:\n\t\treturn jsonify({\"body\":\"Missing Required Parameters: color\", \"HTTP_Status\": \"400_BAD_REQUEST\"})\n\telse:\n\t\tcolor = a.get('color')\n\n\tpipe = r.pipeline(transaction=True)\n\t#L = ['{}:id:latest10'.format(color),'{}:brand:latest10'.format(color),'{}:color:latest10'.format(color),'{}:dateAdded:latest10'.format(color)]\n\twhile 1:\n\t\ttry:\n\t\t\t\n\t\t\tpipe.watch('{}:id:latest10'.format(color),'{}:brand:latest10'.format(color),'{}:color:latest10'.format(color),'{}:dateAdded:latest10'.format(color))\n\t\t\tpipe.multi()\n\t\t\tpipe.lrange('{}:id:latest10'.format(color),0,9)\n\t\t\tpipe.lrange('{}:brand:latest10'.format(color),0,9)\n\t\t\tpipe.lrange('{}:color:latest10'.format(color),0,9)\n\t\t\tpipe.lrange('{}:dateAdded:latest10'.format(color),0,9)\n\n\t\t\tvalue = pipe.execute()\n\t\t\tbreak\n\t\texcept WatchError:\n\t\t\tcontinue\n\t\t\t\n\tfor i in range(0,len(value)):\n if value[i] == []:\n return jsonify({\"body\":\"key not found with given color:{}\".format(color), \"HTTP_Status\": \"400_BAD_REQUEST\"})\n\n\tresult = []\n\tfor i in range(0,len(value[0])):\n\t\t\tentry = {}\n\t\t\tentry['id'] = value[0][i]\n\t\t\tentry['brand'] = value[1][i]\n\t\t\tentry['color'] = value[2][i]\n\t\t\tentry['dateAdded'] = value[3][i]\n\t\t\tresult.append(entry)\n\treturn jsonify({\"body\":result, \"HTTP_Status\": \"200_OK\"})\n\nif __name__ == \"__main__\":\n\tapp.run(host='0.0.0.0')\n" }, { "alpha_fraction": 0.7593985199928284, "alphanum_fraction": 0.7593985199928284, "avg_line_length": 38.769229888916016, "blob_id": "d7e7fff73d4b31e25ba74f04f8841521d1543bc4", "content_id": "cad22910d11d070299735fe0243e1f970fd4049c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 532, "license_type": "no_license", "max_line_length": 105, "num_lines": 13, "path": "/Spark/README.md", "repo_name": "Mallik-G/Redis-Spark-Flask-Usecase", "src_encoding": "UTF-8", "text": "Spark is implemented in stand-alone mode on a single node.\r\n\r\nThis spark code uses dataframes to read the csv file and apply transformations on the data\r\n\r\nThe following are the transformations we need to do before insertion of data:\r\n\r\n- Retrieve only columns with names id, brand, color and dateAdded\r\n- Remove rows with null values\r\n- Remove duplicates\r\n\r\nAll of the above are implemented using pysprark.sql methods \r\n\r\n`data = data.select('id','brand','colors','dateAdded').dropna().dropDuplicates().orderBy(data.dateAdded)`\r\n\r\n" }, { "alpha_fraction": 0.5526893734931946, "alphanum_fraction": 0.5697036385536194, "avg_line_length": 32.109092712402344, "blob_id": "f045f9ce51bfdbb676e901f117d3428663ff0706", "content_id": "b0472f958928b3aebb2ea715988c54b06f020ef2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1822, "license_type": "no_license", "max_line_length": 117, "num_lines": 55, "path": "/Spark/spark-ingest.py", "repo_name": "Mallik-G/Redis-Spark-Flask-Usecase", "src_encoding": "UTF-8", "text": "from pyspark.sql import SQLContext\nfrom pyspark import SparkContext\nimport redis\nfrom redis.exceptions import WatchError\n\nhostname = 'madstreetden-001.a1hyc5.0001.use1.cache.amazonaws.com'\nport = 6379\n\nr = redis.Redis(host=hostname, port=port)\npipe = r.pipeline(transaction=True)\n\nsc = SparkContext()\nsqlContext = SQLContext(sc)\n\ndata = sqlContext.read.format('csv').options(header='true', inferSchema='false').load('/home/ec2-user/shoesdata.csv')\n\ndata = data.select('id','brand','colors','dateAdded').dropna().dropDuplicates().orderBy(data.dateAdded)\n\nfor row in data.collect():\n\n\t(brand, color, dateAdded,date) = (row['brand'], row['colors'],row['dateAdded'],row['dateAdded'].split('T')[0])\n\n\thead = ['id', 'brand', 'color', 'dateAdded'] # CSV Header\n\n\tL = [] \n\t\n\tfor i in head[0:3]:\n \tL.append('{}:{}:latest'.format(date, i))\n\t\n\tfor i in head:\n\t L.append('{}:{}:latest10'.format(color,i))\n\n L.append('{}:brandcount'.format(date)) # List of keys to be watched\n\n while 1:\n try:\n pipe.watch(*L) # Enforcing Atomic Transaction\n\n pipe.multi() # Start the Transaction\n\t\t\thashinput = { 'id' : row[0], 'brand' : row[1], 'color' : row[2] }\n\t\t\tpipe.hmset('{}:latest'.format(date), hashinput)\n for i in head:\n pipe.lpush('{}:{}:latest10'.format(color,i),row[head.index(i)])\n pipe.ltrim('{}:{}:latest10'.format(color,i),0,9)\n\n pipe.zincrby('{}:brandcount'.format(date), brand, amount=1)\n\n value = pipe.execute() # End of Transaction\n\n break\n\n except WatchError:\n continue\t\n\nprint 'Latest insertion response: \\n {}'.format(value)\n\n" } ]	8
Asilidae/real_estate_agency	https://github.com/Asilidae/real_estate_agency	a590f8b2b339c19579f1c7ca857394ab1b5b36df	9f77279a79d8ec44e303520e8b33eb4fc3e123b8	02b37c0b46a91cac442689a022e2a157abf1ce4d	refs/heads/master	2022-12-06T18:04:27.027679	2020-08-29T20:38:11	2020-08-29T20:38:11	287,416,565	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6465517282485962, "alphanum_fraction": 0.6534482836723328, "avg_line_length": 26.619047164916992, "blob_id": "67c89c98f6bf785c9badfb67424695bc8d7f6c2c", "content_id": "08fe2f1b634acad4af7ef1e807e11277b32cc125", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 580, "license_type": "no_license", "max_line_length": 71, "num_lines": 21, "path": "/property/migrations/0008_replace_phone_number.py", "repo_name": "Asilidae/real_estate_agency", "src_encoding": "UTF-8", "text": "from django.db import migrations\nimport phonenumbers\n\n\ndef replace_phone_number(apps, schema_editor):\n Flat = apps.get_model('property', 'Flat')\n for flat in Flat.objects.all():\n phone_parse = phonenumbers.parse(flat.owners_phonenumber, 'RU')\n if phonenumbers.is_valid_number(phone_parse):\n flat.owner_phone_pure = phone_parse\n flat.save()\n\n\nclass Migration(migrations.Migration):\n dependencies = [\n ('property', '0007_flat_owner_phone_pure'),\n ]\n\n operations = [\n migrations.RunPython(replace_phone_number),\n ]\n" }, { "alpha_fraction": 0.5920634865760803, "alphanum_fraction": 0.641269862651825, "avg_line_length": 26.39130401611328, "blob_id": "8f12a77e665559f40e87404e86b9de4175198ed5", "content_id": "d40c4b06e8a19f6ebe96a0c43e1199fdaf68bc7e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 630, "license_type": "no_license", "max_line_length": 59, "num_lines": 23, "path": "/property/migrations/0011_auto_20200818_1819.py", "repo_name": "Asilidae/real_estate_agency", "src_encoding": "UTF-8", "text": "# Generated by Django 2.2.4 on 2020-08-18 15:19\n\nfrom django.db import migrations\n\n\ndef fill_owners(apps, schema_editor):\n flats = apps.get_model('property', 'Flat')\n owners = apps.get_model('property', 'Owner')\n for flat in flats.objects.all():\n flat_owner, created = owners.objects.get_or_create(\n owner_name=flat.owner,\n owner_phone_pure=flat.owner_phone_pure)\n flat_owner.owners_flats.add(flat)\n\n\nclass Migration(migrations.Migration):\n dependencies = [\n ('property', '0010_auto_20200818_0544'),\n ]\n\n operations = [\n migrations.RunPython(fill_owners),\n ]\n" } ]	2
Drackorr/Cours_python	https://github.com/Drackorr/Cours_python	2903ab66ba3fd16e1c7c59e9baeafaf0fe3101c0	490c9b56bc9670d4e708529312d9273dfb85fe78	7cfe62befa27989b41ab47cb4e0794e6cadf9d8f	refs/heads/master	2021-08-08T14:08:10.034584	2017-11-10T12:36:52	2017-11-10T12:36:52	109,818,852	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.7297297120094299, "alphanum_fraction": 0.7327327132225037, "avg_line_length": 38.880001068115234, "blob_id": "169b79573c3c04fea4213fd54bc5dea52867b0a0", "content_id": "9e6acd8f2dad66d3e27419285d93799c37a94cab", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1014, "license_type": "no_license", "max_line_length": 122, "num_lines": 25, "path": "/pierre_papier_ciseaux.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "# pierre, papier, ciseaux ameliorer\n\nfrom random import randint\nimport os\nimport time # on importe ce module pour interompre l'exécution aux points-clés\n\n# Creation de mes cartes, combinner a une valeur numerique\nrock = 1\npaper = 2\nscissors = 3\n\n# On fixe les régles du jeu, ainsi que le nom en chaine de caractère de chaque variable.\nnames = {rock: \"pierre\", paper:\"papier\", scissors:\"ciseaux\"}\nrules = {rock:scissors,paper:rock, scissors:paper} # on définit les régles ici, quelle variable est supérieure à l'autre.\n\n# Definition de la première fonctions\n\ndef start():\n print(\"Nous allons jouer à pierre, papier, ciseaux version ameliorer!\") # On annonce le jeu\n while game(): # On crée une première boucle avec la fonction \"game\", définie plus loin.\n pass # Pass permet d'arrêter le jeu une fois que nous avons fini.\n\n# Decoupage des differents module du jeu\n\ndef nbre_class(): # nombre de personne dans la classes qui choissisent une carte \"ici de façon aleatoire\"\n\n\n" }, { "alpha_fraction": 0.5970873832702637, "alphanum_fraction": 0.5970873832702637, "avg_line_length": 23.176469802856445, "blob_id": "8be5069c056ba64b9c495fc38c45f16e33a4adeb", "content_id": "f05081ae602322095f9f9bd4f66cad03d60d723c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 413, "license_type": "no_license", "max_line_length": 47, "num_lines": 17, "path": "/exo9.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "#Déterminer si un mot est un palindrome\ndef palin_ou_pas(mot):\n mon_mot_inverse = \"\" # mot inverser\n for lettre in reversed(mot):\n mon_mot_inverse += lettre\n\n if mon_mot == mon_mot_inverse:\n text = mot + \" est un palindrome\"\n return text\n else:\n text = mot + \" n'est pas un palindrome\"\n return text\n\n\nmon_mot = input(\"votre mot : \")\n\nprint(palin_ou_pas(mon_mot))\n\n" }, { "alpha_fraction": 0.6800000071525574, "alphanum_fraction": 0.6988235116004944, "avg_line_length": 31.69230842590332, "blob_id": "d52e640fc0dcc0d4f4dc026342987c35a25124da", "content_id": "e76f3731b45766f7ca198c9b8a6aa6712f3a8d1b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 429, "license_type": "no_license", "max_line_length": 159, "num_lines": 13, "path": "/exo7.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "#Ecrire un algorithme qui demande successivement 5 nombres à l’utilisateur, et qui lui dise ensuite quel était le plus grand parmi ces 5 nombres et sa position\ndef decroissant_max(liste):\n ma_liste2 = sorted(liste, reverse=True)\n text = ma_liste2[0]\n return text\n\nma_liste = list()\ni=0\nwhile i<5:\n ma_liste.append(input(\"Nombre : \"))\n i += 1\n\nprint(\"Le plus grand nombre est : \",decroissant_max(ma_liste))\n" }, { "alpha_fraction": 0.5968992114067078, "alphanum_fraction": 0.6279069781303406, "avg_line_length": 18.769229888916016, "blob_id": "94d703479b4d5fe484067d4d78a0511e70714b6c", "content_id": "4f5b8d108cf919b8b56e6d37054cc27914ccdb47", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 258, "license_type": "no_license", "max_line_length": 39, "num_lines": 13, "path": "/exo3.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "#echange de variable\ndef echange_var(var1,var2):\n \"\"\"Echzngeur de variable\"\"\"\n temp = var1\n var1 = var2\n var2 = temp\n return var1,var2\n\n\na = int(input('ecrire un chiiffre : '))\nb = int(input('ecrire un chiiffre : '))\n\nprint(echange_var(a,b))\n\n" }, { "alpha_fraction": 0.5850290656089783, "alphanum_fraction": 0.5915697813034058, "avg_line_length": 24.867923736572266, "blob_id": "6f34585604e454752b211c86f041c45161ed5535", "content_id": "9cdc8be4fed35f55297a24e8a6212e33b40e0af4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1380, "license_type": "no_license", "max_line_length": 71, "num_lines": 53, "path": "/class_exo2.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "#-- coding: utf-8 --\nclass Humain:\n \"\"\"Classe qui regroupe les humains\"\"\"\n espece = 'Homo Sapiens Sapien'\n\n def __init__(self,nom, sexe):\n self.nom = nom\n self.sexe = sexe\n self.enfants = list()\n\n def se_presenter(self):\n \"\"\"Méthode qui dit a l'objet de se présenter \"\"\"\n genre = 'un homme' if self.sexe == 'm' else 'une femme'\n pres = \"Je m'appelle \" + self.nom + \" et je suis \" + genre\n return pres\n\n def add_enfnats(self,liste_enfants):\n self.enfants.append(liste_enfants)\n\n def set_mensurations(self,liste_mens):\n self.set_mensurations = liste_mens\n\n def rencontrer(self, humain):\n dialogue1 = self.nom + \" dit : bonjour \" + humain.nom + \" !\"\n dialogue2 = humain.nom + \" repond : Bonjour \" + self.nom + \" !\"\n return print(dialogue1,\"\\n\",dialogue2)\n\n\nclass Piece:\n \"\"\"Classe qui regroupe les humains dans la piece\"\"\"\n def __init__(self,nom):\n self.nom = nom\n self.humains = list()\n\n def ajouter_humains(self,liste_humains):\n self.humains += liste_humains\n print(\"Humains ajoutés dans le\", self.nom)\n\n\n\nliste_dimension = [10, 7, 3]\n\n\n\nadam = Humain(\"Adam\",\"m\")\neve = Humain(\"Eve\",\"f\")\nabel = Humain('Abel', 'm')\nsalon = Piece('salon')\nprint('Cette pièce est un '+ salon.nom)\nsalon.ajouter_humains([adam,abel])\n\n\nprint(adam.rencontrer(eve))\n\n\n\n\n\n" }, { "alpha_fraction": 0.5997596383094788, "alphanum_fraction": 0.6009615659713745, "avg_line_length": 29.814815521240234, "blob_id": "f83313a7f6bf7817daea0f46faf72c45fa8b36e9", "content_id": "0758c87e1a8fad94631cc4741497ca306b5882bb", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 835, "license_type": "no_license", "max_line_length": 72, "num_lines": 27, "path": "/class.exo1.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "class Humain:\n \"\"\"Classe qui regroupe les humains\"\"\"\n espece = 'Homo Sapiens Sapien'\n\n def __init__(self,nom, sexe):\n self.nom = nom\n self.sexe = sexe\n self.enfants = list()\n\n def se_presenter(self):\n \"\"\"Méthode qui dit a l'objet de se présenter \"\"\"\n genre = 'un homme' if self.sexe == 'm' else 'une femme'\n pres = \"Je m'appelle \" + self.nom + \" et je suis \" + genre\n return pres\n\n def ajouter_enfant(self, enfant):\n \"\"\" Methode qui ajoute enfant a la liste des enfants de self\"\"\"\n self.enfants.append(enfant)\n return print(enfant.nom, 'a ete ajouté aux enfants de',self.nom)\n\nadam = Humain(\"Adam\",\"m\")\neve = Humain(\"Eve\",\"f\")\nabel = Humain('Abel', 'm')\nadam.ajouter_enfant(abel)\nprint(adam.se_presenter())\nprint(adam.enfants[0].nom)\nprint(eve.se_presenter())\n" }, { "alpha_fraction": 0.6054053902626038, "alphanum_fraction": 0.637837827205658, "avg_line_length": 19.66666603088379, "blob_id": "8f82620fb63ebd56a63e6836b1e3f078e84b2fb3", "content_id": "9b055cef48e66b8f98cfca2e4c8ad5364d0dc960", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 185, "license_type": "no_license", "max_line_length": 42, "num_lines": 9, "path": "/exo2.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "#afficher les valeurs de 1 a 10\n\nfor i in range(1,11):\n print(i)\n\nma_liste = ['oeufs', 'beurre', 'chocolat']\nprint (\"Ma liste de course est : \")\nfor item in ma_liste:\n print(item)" }, { "alpha_fraction": 0.607567548751831, "alphanum_fraction": 0.615135133266449, "avg_line_length": 25.457143783569336, "blob_id": "9a9f7ec3cdc459b716076f61f659c62c7477bb71", "content_id": "c5f9ed7cb0973c0fb7ce9776ceb9d393f0b52cb6", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 925, "license_type": "no_license", "max_line_length": 54, "num_lines": 35, "path": "/20000_lieu.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "#-- coding: utf-8 --\nwith open('20000.txt','r',encoding='utf8') as fichier:\n f = fichier.read()\n #print(f)\n\n\ndef nettoyer_texte(texte):\n texte = texte.lower()\n car_spec = \",.!?()_\\\";:\"\n for lettre in texte:\n if lettre in car_spec:\n texte = texte.replace(lettre,'')\n for car in ['\\n',\"'\",'-','--']:\n texte = texte.replace(car,' ')\n texte = texte.replace('\\n',' ')\n texte = texte.replace(\"'\", ' ')\n return texte\n\ndef texte_en_liste(texte):\n liste_de_mots = texte.split(' ')\n liste_de_mots = list(filter(None,liste_de_mots))\n return liste_de_mots\n\ndef compter_mots_unique(liste):\n liste_de_mots_uniques = list(set(liste))\n return len(liste_de_mots_uniques)\n\n\ntexte_nettoyer = nettoyer_texte(f)\nliste_de_mots = texte_en_liste(texte_nettoyer)\nnb_mots = len(liste_de_mots)\nnb_mots_uniques = compter_mots_unique(liste_de_mots)\n\nprint(nb_mots)\nprint(nb_mots_uniques)" }, { "alpha_fraction": 0.5728862881660461, "alphanum_fraction": 0.5758017301559448, "avg_line_length": 28.869565963745117, "blob_id": "ba9db83aaf32969c98d2d0ee6205b70b2321b024", "content_id": "c4f8a37e4800cca7c053ba41f41a9736983c64ee", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 689, "license_type": "no_license", "max_line_length": 57, "num_lines": 23, "path": "/exo8.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "#Supprimer toutes les voyelles d'un chaîne de caractères\n\ndef vid_var(phrase):\n \"\"\"Enlever les voyelles d'une chaine de caractères\"\"\"\n phrase = (phrase.replace(\"a\", \"\"))\n phrase = (phrase.replace(\"e\", \"\"))\n phrase = (phrase.replace(\"y\", \"\"))\n phrase = (phrase.replace(\"u\", \"\"))\n phrase = (phrase.replace(\"i\", \"\"))\n phrase = (phrase.replace(\"o\", \"\"))\n phrase = (phrase.replace(\"A\", \"\"))\n phrase = (phrase.replace(\"E\", \"\"))\n phrase = (phrase.replace(\"Y\", \"\"))\n phrase = (phrase.replace(\"U\", \"\"))\n phrase = (phrase.replace(\"I\", \"\"))\n phrase = (phrase.replace(\"O\", \"\"))\n\n return phrase\n\nvar1 = input('ecrire votre phrase : ')\n\n\nprint(vid_var(var1))" }, { "alpha_fraction": 0.5448916554450989, "alphanum_fraction": 0.5510835647583008, "avg_line_length": 19.1875, "blob_id": "343fbc58a1ead3135663c20a154a43d0df30858e", "content_id": "c274481f0e16325a31991d7c30c50d0346ab2709", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 323, "license_type": "no_license", "max_line_length": 55, "num_lines": 16, "path": "/exo1.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "score = 0\nverif = True\n\nnom_joueur = input('saisissez votre nom : ')\n\nwhile verif:\n\n score = input('saisir dernier score : ')\n\n if score.isdigit():\n score = int(score) + 1\n print(nom_joueur, \"a obtenu\", score, \"points.\")\n verif = False\n else:\n print(\"erreur !!!!\")\n verif = True\n" }, { "alpha_fraction": 0.6469002962112427, "alphanum_fraction": 0.6469002962112427, "avg_line_length": 40.33333206176758, "blob_id": "df7613d7260cd610e2d7e14e63e423471b01cfdb", "content_id": "c71eff783ae191648f48f0db73722d12931b9da3", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 372, "license_type": "no_license", "max_line_length": 147, "num_lines": 9, "path": "/exo5.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "#Demander à l'utilisateur un nom de balise et un contenu de cette balise, et afficher le code html : ex: balise : \"i\", texte : \"mot\" --> <i>mot</i>\ndef html(bal, cont):\n text = '<'+bal+'>'+cont+'<'+'/'+bal+'>'\n return text\n\nbalise = input(\"ecrire nom de balise : \")\ncontenu_balise = input('ecrire le contenu de votre balise : ')\n\nprint(html(balise, contenu_balise))" }, { "alpha_fraction": 0.6570048332214355, "alphanum_fraction": 0.6594203114509583, "avg_line_length": 28.64285659790039, "blob_id": "cde2e3bba2598dceb3df69df1c32b1093642d16c", "content_id": "251894a1067086cbb16c44620955fac9da04d857", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 415, "license_type": "no_license", "max_line_length": 112, "num_lines": 14, "path": "/exo6.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "#Ecrire un programme qui demande à l'utilisateur un nombre entier et lui affiche si ce nombre est un nombre pair\ndef pair_impair(entier):\n \"\"\"Fonction qui verifie si le le nombre est pair ou impair\"\"\"\n if nbre % 2:\n text ='nombre impair'\n return text\n else:\n text ='nombre pair'\n return text\n return\n\nnbre = int(input('ecrire un nombre entier : '))\n\nprint(pair_impair(nbre))" }, { "alpha_fraction": 0.6216216087341309, "alphanum_fraction": 0.6936936974525452, "avg_line_length": 11.44444465637207, "blob_id": "b42e6e4e816506357162501f875887be299a996e", "content_id": "c055003fc74fdd73fc4eaf72dfac93e9e03ae477", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 111, "license_type": "no_license", "max_line_length": 31, "num_lines": 9, "path": "/exo4.py", "repo_name": "Drackorr/Cours_python", "src_encoding": "UTF-8", "text": "#affichage arrondi\n\n\ntemps = 6.892\ndistance = 19.7\n\nvitesse = temps / distance\n\nprint(round(vitesse, 2),'km/h')" } ]	13
brett-caley/swole-bot	https://github.com/brett-caley/swole-bot	ae46d6106ad6ddc41237ffc769612b82d3049cf1	3e09efc498a4e1929f2ebc0ab648ab0ec948de14	1f6ce650267103c13b839707fecc09d7cf467f19	refs/heads/master	2018-12-27T03:36:33.599807	2018-10-25T08:40:53	2018-10-25T08:40:53	154,267,751	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6975881457328796, "alphanum_fraction": 0.7068645358085632, "avg_line_length": 21.45833396911621, "blob_id": "14cd3a7f993a9ddf404d8bd972ef0a3d9ddeaa95", "content_id": "9f1d71c4054107e5dfcfe4018bdc058d6c67f524", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 539, "license_type": "no_license", "max_line_length": 82, "num_lines": 24, "path": "/main.py", "repo_name": "brett-caley/swole-bot", "src_encoding": "UTF-8", "text": "import discord\nfrom discord.ext import commands\n\nbot = commands.Bot(command_prefix=commands.when_mentioned_or('!'))\n\ngame = discord.Game(\"Under construction\")\n\n\[email protected]\nasync def on_ready():\n print('Bot is ready.')\n await bot.change_presence(status=discord.Status.do_not_disturb, activity=game)\n\n\[email protected](name='test')\[email protected]_owner()\nasync def test(ctx):\n await ctx.message.add_reaction('\\U0001F4AA')\n await ctx.author.send('This is not a test.')\n\nwith open('token.txt') as f:\n token = f.read()\n\nbot.run(token)\n" } ]	1
nnhamoinesu22/Python-Challenge	https://github.com/nnhamoinesu22/Python-Challenge	9e8e7e451143760eda2874b4266f19c2479421ed	a21ca886b6cf4fc92fd48dd473c879a019c6d0bb	bc4665f8404be2055ed4feba978510c1c9e69b94	refs/heads/master	2020-11-26T04:37:11.266799	2020-03-19T18:49:09	2020-03-19T18:49:09	228,965,946	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6567447781562805, "alphanum_fraction": 0.6643445491790771, "avg_line_length": 31.224489212036133, "blob_id": "084662764764b78c4e5da745c991bd4ee8e3b0c3", "content_id": "5980c86d73b85edeb7b3c18b4888bb50dcae8ed4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1579, "license_type": "no_license", "max_line_length": 113, "num_lines": 49, "path": "/PyPoll/main.py", "repo_name": "nnhamoinesu22/Python-Challenge", "src_encoding": "UTF-8", "text": "import os\nimport csv\n\nelection_data = os.path.join('02-Homework','03-Python','Instructions','PyPoll', 'Resources', 'election_data.csv')\nelection_data_csv = \"election_data.csv\"\n#election_analysis = os.path.join(\"analysis\", \"election_analysis.txt\")\n\ntotal_votes = 0\ncandidate_name = \"\" \ncandidate_votes = {}\ncandidate_percentages ={}\nwinner_votes = 0\nwinner = \"\"\n\nwith open(election_data, newline = \"\") as election_data_csv :\n election_data_csv_reader = csv.reader(election_data_csv, delimiter = \",\")\n next(election_data_csv_reader)\n for row in election_data_csv_reader:\n total_votes = total_votes + 1\n candidate_name = row[2]\n if candidate_name in candidate_votes:\n candidate_votes[candidate_name] = candidate_votes[candidate_name] + 1\n else:\n candidate_votes[candidate_name] = 1\n\n# percentage and winner\nfor person, vote_count in candidate_votes.items():\n candidate_percentages[person] = '{0:.0%}'.format(vote_count / total_votes)\n if vote_count > winner_votes:\n winner_votes = vote_count\n winner = person\n\n# results\ndashline = \"-------------------------\"\n#print(\"---------------------\")\n\nprint(\"Election Results\")\nprint(dashline)\nprint(f\"Total Votes: {total_votes}\")\nprint(dashline)\nfor person, vote_count in candidate_votes.items():\n print(f\"{person}: {candidate_percentages[person]} ({vote_count})\")\nprint(dashline)\nprint(f\"Winner: {winner}\")\nprint(dashline)\n\n# Print the results and export the data to our text file\n#with open(election_analysis, \"w\") as txt_file:\n #txt_file.write(output)\n" }, { "alpha_fraction": 0.6643109321594238, "alphanum_fraction": 0.6792304515838623, "avg_line_length": 39.95161437988281, "blob_id": "075fa1f2b7a982747f66c76fb7bd547e63633541", "content_id": "898de47df97ec9ecad5e6b59e6aa02e254ed057c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2547, "license_type": "no_license", "max_line_length": 109, "num_lines": 62, "path": "/PyBank/main.py", "repo_name": "nnhamoinesu22/Python-Challenge", "src_encoding": "UTF-8", "text": "import os\nimport csv\n\nbudget_data = os.path.join('02-Homework','03-Python','Instructions','PyBank', 'Resources', 'budget_data.csv')\n#02-Homework\\03-Python\\Instructions\\PyBank\\Resources\nbudget_analysis = os.path.join(\"./budget_analysis.txt\")#\"analysis\", \"budget_analysis.txt\")\n\nbudgetdata_csv = \"budget_data.csv\"\ntotal_months = 0\ntotal_profit_loss = 0\nprevious_profit_loss = 0\nprofit_loss_change = 0\nprofit_loss_change_list = []\nmonth_change = []\ngreatest_increase = 0\ngreatest_decrease = 9999999999999999\n\nwith open(budget_data) as budget_data_csv:\n budget_data_csv_reader = csv.DictReader(budget_data_csv)\n # loop through the data\n #At initial stage you should take previousProfit_Losses as first row\n #So skip the first row\n index=0\n for row in budget_data_csv_reader:\n if(index==0):\n total_months+=1\n total_profit_loss = total_profit_loss + int(row[\"Profit/Losses\"])\n previous_profit_loss = int(row[\"Profit/Losses\"])\n month_change = month_change + [row[\"Date\"]]\n index+=1\n continue\n\n # The total number of months included in the dataset\n\n total_months = total_months + 1\n # The net total amount of \"Profit/Losses\" over the entire period\n total_profit_loss = total_profit_loss + int(row[\"Profit/Losses\"])\n profit_loss_change = int(row[\"Profit/Losses\"]) - previous_profit_loss\n profit_loss_change_list.append(profit_loss_change)\n previous_profit_loss = int(row[\"Profit/Losses\"])\n month_change = month_change + [row[\"Date\"]]\n \n greatest_decrease=min(profit_loss_change_list)\n greatest_increase=max(profit_loss_change_list)\n #We have to add 1 because month associated with change is the next month\n greatest_decrease_month=profit_loss_change_list.index(greatest_decrease)+1\n greatest_increase_month=profit_loss_change_list.index(greatest_increase)+1\n output = (\n f\"\\nFinancial Analysis\\n\"\n f\"----------------------------\\n\"\n f\"Total Months: {total_months}\\n\"\n f\"Total Profit/Losess: ${total_profit_loss}\\n\"\n f\"Average Change: ${round(sum(profit_loss_change_list)/len(profit_loss_change_list),2)}\\n\"\n f\"Greatest increase in Profits: {month_change[greatest_increase_month]} (${(str(greatest_increase))})\\n\"\n f\"Greatest decrease in Profits: {month_change[greatest_decrease_month]} (${(str(greatest_decrease))})\\n\")\n \n # Print the output (to terminal)\n print(output)\n\n # Export the results to text file\n with open(budget_analysis, \"w\") as txt_file:\n txt_file.write(output)\n \n\n\n\n\n\n" } ]	2
astianseb/beer-over-api	https://github.com/astianseb/beer-over-api	0ac8169987568dd441ec4c485a161b44ca59cd78	a516ee109cf93f6440d99df135a6c76bae3c9895	c7b75162e41126837f9f247fa9cb8c562cd68843	refs/heads/master	2021-01-10T14:00:48.712569	2020-04-16T07:08:57	2020-04-16T07:08:57	51,922,074	0	0	null	2016-02-17T12:48:01	2016-02-17T12:51:23	2020-04-16T07:08:58	CSS	[ { "alpha_fraction": 0.6060606241226196, "alphanum_fraction": 0.6218708753585815, "avg_line_length": 21.294116973876953, "blob_id": "4f61b3a7fc9e365e4c08d910604ff086ceccaadf", "content_id": "6c1adab53cabb6cf603a36a6287881df49e42672", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 759, "license_type": "no_license", "max_line_length": 113, "num_lines": 34, "path": "/sample_flask.py", "repo_name": "astianseb/beer-over-api", "src_encoding": "UTF-8", "text": "#!/bin/python\n\n#feature-001\n\nfrom flask import Flask, jsonify, request, render_template\nimport uuid\nimport random\n\n# Initialize the Flask application\napp = Flask(__name__)\n\n\n# This route will return a list in JSON format\[email protected]('/')\ndef index():\n return render_template('index.html')\n \n\n\[email protected]('/brewme')\ndef clone():\n given_number = int(request.query_string)\n uuid_list = []\n beer_type_list = [\"ale\", \"brown-ale\", \"IPA\", \"AIPA\", \"lager\", \"wheat\"]\n for i in range(given_number):\n uuid_list.append({\"beer_number\": i, \"beer_type\": random.choice(beer_type_list), \"beer_ID\": uuid.uuid4()})\n return jsonify(beer_batch=uuid_list)\n\n\nif __name__ == '__main__':\n app.run(\n host=\"0.0.0.0\",\n port=int(\"5000\")\n )\n\n" }, { "alpha_fraction": 0.6875, "alphanum_fraction": 0.6875, "avg_line_length": 15, "blob_id": "c8556f952d88c5ed2ae6f6f0667c1d4fc58c23e9", "content_id": "b48cbbe91bc8bb540692786c83afc7288047652f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 16, "license_type": "no_license", "max_line_length": 15, "num_lines": 1, "path": "/README.md", "repo_name": "astianseb/beer-over-api", "src_encoding": "UTF-8", "text": "# beer-over-api\n" } ]	2
tianhan4/tensorflow2.0Tutorial	https://github.com/tianhan4/tensorflow2.0Tutorial	fda0493a15c6a710af72f38c90ba69bd9f167865	a7b16bdd211d26d080e02adafca8f1a825ab4d9d	c505f726716491c46dd74b33328fbe5bd4d8c64b	refs/heads/master	2020-05-16T21:57:06.656476	2019-08-19T02:51:29	2019-08-19T02:51:29	183,321,922	4	1	null	null	null	null	null	[ { "alpha_fraction": 0.570416271686554, "alphanum_fraction": 0.5828166604042053, "avg_line_length": 32.235294342041016, "blob_id": "5167e22baa961a30f3393ba8aeeac8b5e606b47a", "content_id": "72d38e974ba582c942677ff702ea4712d0e3ea64", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1129, "license_type": "no_license", "max_line_length": 92, "num_lines": 34, "path": "/solutions/utils.py", "repo_name": "tianhan4/tensorflow2.0Tutorial", "src_encoding": "UTF-8", "text": "import tensorflow as tf\nimport numpy as np\nfrom tensorflow import keras\nfrom tensorflow.keras import layers\nimport matplotlib.pyplot as plt\nprint(tf.__version__)\n\ndef show_images(dataset, class_names, predicts=None):\n fig, axes = plt.subplots(3, 3)\n fig.subplots_adjust(hspace=0.8, wspace=0.4)\n for i, (image, label) in enumerate(dataset):\n if i>= 9: \n break\n if image.shape[-1] == 1:\n revised_image = np.squeeze(image)\n else:\n revised_image = image\n axes.flat[i].imshow(revised_image)\n # Name of the true class.\n label_name = class_names[label]\n \n # Show true and predicted classes.\n if predicts is None:\n axes.flat[i].set_xlabel(\"True : {0}\".format(label_name))\n else:\n predict_name = class_names[predicts[i]]\n axes.flat[i].set_xlabel(\"True: {0}\\nPred: {1}\".format(label_name, predict_name))\n # Remove ticks from the plot.\n axes.flat[i].set_xticks([])\n axes.flat[i].set_yticks([])\n while(i < 8):\n i += 1\n axes.flat[i].axis('off')\n plt.show()" }, { "alpha_fraction": 0.7776442170143127, "alphanum_fraction": 0.7896634340286255, "avg_line_length": 45.19444274902344, "blob_id": "6ea20e8251dda116e26f5d3e106e2688a70df470", "content_id": "46e999942c09b36d53d24e5a03058c9e7a0a6793", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1664, "license_type": "no_license", "max_line_length": 191, "num_lines": 36, "path": "/README.md", "repo_name": "tianhan4/tensorflow2.0Tutorial", "src_encoding": "UTF-8", "text": "# tensorflow2.0Tutorial\n\nPython=3\n\n## Installation\n```\nsudo apt-get install build-essential\npip install tensorflow==2.0.0-alpha0\npip install numpy\npip install matplotlib\npip install pillow\n\n# Pls run this before distributing docker image to preload the data:\necho -e \"from tensorflow import keras\\nkeras.datasets.mnist.load_data()\" \| python\necho -e \"from tensorflow import keras\\nkeras.applications.VGG16(input_shape=(224,224,3), weights='imagenet',include_top=False)\" \| python\n```\n\n\n## Usage\nThis is a brief introduction of tailoring Tensorflow 2.0Alpha for deep learning tasks. Some new features of Tensorflow 2.0Alpha are demonstrated here such as Eagle mode and integrated Keras. \n\nSome boxes in Eager.ipynb, KerasTraining.ipynb and RawTraining.ipynb are left blanked for you to fill as exercise for workshop. The complete solution is in 'solutins' folder.\n\nThe reading order should be as follows.\n\n[Eager.ipynb](./Eager.ipynb) introduces basic operation of tensors and the difference between Eager mode and Graph mode in Tensorflow.\n\n[Data.ipynb](./Data.ipynb) is used for generating dataset for Tensorflow to use. You can use integrated pre-defined dataset or your own data.\n\n[Model.ipynb](./Model.ipynb) introduces three ways in Tensorflow to construct the same model. \n\n[RawTraining.ipynb](./RawTraining.ipynb) gives an example of training a model from scratch using raw Tensorflow functions.\n\n[KerasTraining.ipynb](./KerasTraining.ipynb) introduces how to perform training using Keras, which is more convenient.\n\n[Transfer_learning.ipynb](./Transfer_learning.ipynb) introduces how to use pre-trained model on your own data to fine-tune a specific model.\n\n" } ]	2
cforgeyj/fest_db	https://github.com/cforgeyj/fest_db	94bb26c8adb269ae5a430debb2bfd9c3ac5210d5	cc8fbb383eeca629d3b2887398344052518b828f	b447fb38001b0fc228010f45d94a12bf1ed34ae5	refs/heads/master	2020-06-20T20:15:54.341952	2019-07-16T17:01:40	2019-07-16T17:01:40	197,233,852	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.7200000286102295, "alphanum_fraction": 0.800000011920929, "avg_line_length": 24, "blob_id": "8d71751b488994216963a4be1407ff266d6829ec", "content_id": "c747bf0e1449e8a138f9f1e3687a48d986896194", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "INI", "length_bytes": 75, "license_type": "no_license", "max_line_length": 26, "num_lines": 3, "path": "/desktop.ini", "repo_name": "cforgeyj/fest_db", "src_encoding": "UTF-8", "text": "[LocalizedFileNames]\[email protected],0\[email protected],0\n" }, { "alpha_fraction": 0.5391641855239868, "alphanum_fraction": 0.5592601299285889, "avg_line_length": 30.056737899780273, "blob_id": "b49f04a55686f6b1af3c96089652aeb87cd4935d", "content_id": "a20169ada21604d1cf6ef9f97ef7c69a3b495498", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4379, "license_type": "no_license", "max_line_length": 91, "num_lines": 141, "path": "/festivals.py", "repo_name": "cforgeyj/fest_db", "src_encoding": "UTF-8", "text": "import sqlite3\nfrom sqlite3 import Error\n\ndef __init__(self, name, schema):\n # error handling\n if not name:\n raise RuntimeError(\"invalid table name\")\n if not schema:\n raise RuntimeError(\"invalid database schema\")\n\n # init fields and initiate database connection\n self.name = name\n self.schema = schema\n self.db_conn = sqlite3.connect(self.DB_NAME)\n\n # ensure the table is created\n self.create_table()\n\n\ndef create_connection(db_file):\n \"\"\" create a database connection to a SQLite database \"\"\"\n try:\n conn = sqlite3.connect(db_file)\n return conn\n except Error as e:\n print(e)\n return None\n\n\ndef create_table(conn, create_table_sql):\n \"\"\" create a table from the create_table_sql statement\n :param conn: Connection object\n :param create_table_sql: a CREATE TABLE statement\n :return:\n \"\"\"\n try:\n c = conn.cursor()\n c.execute(create_table_sql)\n except Error as e:\n print(e)\n\n\ndef create_show(conn, shows):\n \"\"\"\n Create a new project into the projects table\n :param conn:\n :param project:\n :return: project id\n \"\"\"\n sql = ''' INSERT INTO shows(name,location,month)\n VALUES(?,?,?) '''\n cur = conn.cursor()\n cur.execute(sql, shows)\n return cur.lastrowid\n\n\ndef select_show_by_location(conn, location):\n cur = conn.cursor()\n\n cur.execute(\"SELECT * FROM shows WHERE location=?\", (location, ))\n\n rows = cur.fetchall()\n\n for rows in rows:\n print(rows)\n\n\ndef select_show_by_month(conn, month):\n cur = conn.cursor()\n\n cur.execute(\"SELECT * FROM shows where month=?\", (month, ))\n\n rows = cur.fetchall()\n\n for rows in rows:\n print(rows)\n\n\ndef main():\n database = \"fests.db\"\n\n #workbook = xlrd.open_workbook('fests.xls')\n #ws = workbook.sheet_by_name('fests')\n sql_create_shows_table = \"\"\" CREATE TABLE IF NOT EXISTS shows (\n id integer PRIMARY KEY,\n name text NOT NULL,\n location text,\n month text\n ); \"\"\"\n\n # create a database connection\n conn = create_connection(database)\n with conn:\n #for row in range(ws.nrows):\n #create_show({\"name\": ws.cell(row, 0).value, \"location\": ws.cell(row, 1).value,\n # \"month\": ws.cell(row, 2).value})\n\n show_1 = ('Countdown', 'San Bernadino', 'January')\n show_2 = ('Snowglobe', 'Tahoe', 'January')\n show_3 = ('OMFG', 'San Diego', 'January')\n show_4 = ('LED Anniversary', 'San Diego', 'February')\n show_5 = ('CRSSD', 'San Diego', 'March')\n show_6 = ('Coachella', 'Indio', 'April')\n show_7 = ('StageCoach', 'Indio', 'April')\n show_8 = ('LED USA', 'San Diego', 'May')\n show_9 = ('EDC', 'Las Vegas', 'May')\n show_10 = ('Lightning in a Bottle', 'SLO', 'May')\n show_11 = ('Splash House', 'Palm Springs', 'June')\n show_12 = ('Audiotistic', 'San Francisco', 'July')\n show_13 = ('Outside Lands', 'San Francisco', 'August')\n show_14 = ('Splash House', 'Palm Springs', 'August')\n show_15 = ('Life is Beautiful', 'Las Vegas', 'September')\n show_16 = ('Kaaboo', 'San Diego', 'September')\n show_17 = ('CRSSD', 'San Diego', 'October')\n show_18 = ('Escape', 'San Bernadino', 'October')\n\n show_id1 = create_show(conn, show_1)\n show_id2 = create_show(conn, show_2)\n show_id3 = create_show(conn, show_3)\n show_id4 = create_show(conn, show_4)\n show_id5 = create_show(conn, show_5)\n show_id6 = create_show(conn, show_6)\n show_id7 = create_show(conn, show_7)\n show_id8 = create_show(conn, show_8)\n show_id9 = create_show(conn, show_9)\n show_id10 = create_show(conn, show_10)\n show_id11 = create_show(conn, show_11)\n show_id12 = create_show(conn, show_12)\n show_id13 = create_show(conn, show_13)\n show_id14 = create_show(conn, show_14)\n show_id15 = create_show(conn, show_15)\n show_id16 = create_show(conn, show_16)\n show_id17 = create_show(conn, show_17)\n show_id18 = create_show(conn, show_18)\n\n select_show_by_month(conn, \"April\")\n\n\n\nif __name__ == '__main__':\n main()\n" }, { "alpha_fraction": 0.6666666865348816, "alphanum_fraction": 0.6710719466209412, "avg_line_length": 34.842105865478516, "blob_id": "bea091253a71cae5b891966f0ea4ee8475fb970d", "content_id": "7746906e7563549a27dca265b78f93399795f168", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 681, "license_type": "no_license", "max_line_length": 113, "num_lines": 19, "path": "/import_fests.py", "repo_name": "cforgeyj/fest_db", "src_encoding": "UTF-8", "text": "import xlrd\nfrom festivals import festivals\n\n\n\n#constructor for creating a table in a database with the given schema\nshows = festivals(\"shows\", {\"name\": \"text\", \"location\": \"text\", \"month\": \"text\"})\n\n#open up the the excel file that we need to import and make sure we are using the correct sheet in the excel file\nworkbook = xlrd.open_workbook('fests.xls')\nws = workbook.sheet_by_name('fests')\nprint(ws)\n\n#iterate through all rows in the agenda\nfor row in range(ws.nrows):\n print(\"here\")\n #insert the row into the db table\n shows.insert({\"name\": ws.cell(row, 0).value, \"location\": ws.cell(row, 1).value,\n \"month\": ws.cell(row, 2).value})\n" } ]	3
graham33/monopoly	https://github.com/graham33/monopoly	f3ec33e8467f0e37e2b2448de703325fabe8f96b	aa2df921ed06ad22866941e31d18d569d7351443	1077e6e77e5e90457dd1632a4379a2916238233d	refs/heads/master	2021-06-28T00:36:12.674284	2017-09-17T11:04:27	2017-09-17T11:04:27	103,822,286	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.609375, "alphanum_fraction": 0.609375, "avg_line_length": 30.75, "blob_id": "6ec19d2ad63ebcf6e43b4934df062f1f8d148426", "content_id": "8e6f21f543a6c4b5d5a8bd4529693089e819f18f", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Makefile", "length_bytes": 128, "license_type": "permissive", "max_line_length": 51, "num_lines": 4, "path": "/main/templates/Makefile", "repo_name": "graham33/monopoly", "src_encoding": "UTF-8", "text": "\n%.html: ../../scripts/%.xml ../../scripts/route.xsl\n\txsltproc ../../scripts/route.xsl $< > $@\n\nall: original.html inorder.html\n" }, { "alpha_fraction": 0.6481481194496155, "alphanum_fraction": 0.6481481194496155, "avg_line_length": 29, "blob_id": "1f1f72bc78aa224fde3f31ecd767a91d58f516fd", "content_id": "591a39651d9813e2f56fb8243027dc91ab7e042d", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 540, "license_type": "permissive", "max_line_length": 80, "num_lines": 18, "path": "/main/views.py", "repo_name": "graham33/monopoly", "src_encoding": "UTF-8", "text": "# Create your views here.\n\nfrom django.http import HttpResponse, HttpResponseRedirect\nfrom django.shortcuts import render_to_response\n\ndef index(request):\n return render_to_response('index.html', {})\n\ndef route(request, route):\n \n return render_to_response('route.html', {\"route\": route,\n \"route_template\": route + \".html\"})\n\ndef map(request, route):\n return render_to_response('map.html', {\"route\": route })\n\ndef facebook(request):\n return render_to_response('facebook.html', {})\n" }, { "alpha_fraction": 0.8297872543334961, "alphanum_fraction": 0.8297872543334961, "avg_line_length": 22.5, "blob_id": "307f98dec7267d115fd72164a899fde0f2473d01", "content_id": "06bf14c6da774597f6a7002ecbfbe6ef15367cef", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 47, "license_type": "permissive", "max_line_length": 35, "num_lines": 2, "path": "/README.md", "repo_name": "graham33/monopoly", "src_encoding": "UTF-8", "text": "# monopoly\nOld monopolypubcrawl.org.uk website\n" }, { "alpha_fraction": 0.6577869057655334, "alphanum_fraction": 0.6608606576919556, "avg_line_length": 31.53333282470703, "blob_id": "e0fc572bf4d7e31c1bdd4cf63eccd7066d04f54b", "content_id": "d4611680f45c4f14fb780009b68bb1ffd352b0ad", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 976, "license_type": "permissive", "max_line_length": 71, "num_lines": 30, "path": "/halloffame/admin.py", "repo_name": "graham33/monopoly", "src_encoding": "UTF-8", "text": "from monopoly.halloffame.models import Crawler\nfrom django.contrib import admin\nfrom lxml import etree\n\ndocumentRoot = \"/var/www/monopolypubcrawl.org.uk/monopoly\";\n\ndef import_crawlers(modeladmin, request, queryset): \n filename = documentRoot + \"/halloffame.xml\"\n f = open(filename, \"r\")\n doc = etree.parse(f)\n num = 0\n people = doc.xpath(\"/halloffame/person\")\n for person in people:\n name = person.xpath(\"name/text()\")[0]\n print name\n num = num+1\n hotels = person.xpath(\"count(hotel)\")\n houses = person.xpath(\"count(house)\")\n dogs = person.xpath(\"count(dog)\")\n c = Crawler(name=name, hotels=hotels, houses=houses, dogs=dogs)\n c.save()\n\nimport_crawlers.short_description = \"Import crawler data from XML\"\n\nclass CrawlerAdmin(admin.ModelAdmin):\n list_display = ('name', 'hotels', 'houses', 'dogs')\n ordering = ['name']\n actions = [import_crawlers]\n\nadmin.site.register(Crawler, CrawlerAdmin)\n" }, { "alpha_fraction": 0.6339111328125, "alphanum_fraction": 0.6481167674064636, "avg_line_length": 24.92229652404785, "blob_id": "ddde9633b6d6d25d94327ecb2e6e00f8f05b4c13", "content_id": "72ef091da0c4e9c4ba2a3c99173556c61afba73c", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "JavaScript", "length_bytes": 7673, "license_type": "permissive", "max_line_length": 179, "num_lines": 296, "path": "/scripts/map.js", "repo_name": "graham33/monopoly", "src_encoding": "UTF-8", "text": "// map.js\n\n// globals\nvar map = null;\n\nvar colours = new Object();\ncolours[\"blue\"] = \"#0044EE\";\ncolours[\"brown\"] = \"#430000\";\ncolours[\"green\"] = \"#008800\";\ncolours[\"orange\"] = \"#EE4400\";\ncolours[\"pink\"] = \"#EE00BA\";\ncolours[\"purple\"] = \"#880088\";\ncolours[\"red\"] = \"#EE0000\";\ncolours[\"station\"] = \"#FFFFFF\";\ncolours[\"yellow\"] = \"#EEEE00\";\n\nfunction getChild(element, name) {\n var children = element.getElementsByTagName(name);\n if (children.length > 0)\n return children[0];\n else\n return null; \n}\n \nfunction getUrlParam(param) {\n var href = window.location.href;\n if ( href.indexOf(\"?\") > -1 ){\n var queryString = href.substr(href.indexOf(\"?\")).toLowerCase();\n var params = queryString.split(\"&\");\n for (var i=0; i<params.length; ++i) {\n if (params[i].indexOf(param.toLowerCase() + \"=\") > -1 ){\n var pair = params[i].split(\"=\");\n\treturn unescape(pair[1]);\n }\n }\n }\n return null;\n}\n\nvar baseIcon = new GIcon();\nbaseIcon.shadow = \"/site_media/images/pin_shadow.png\";\nbaseIcon.iconSize = new GSize(16, 28);\nbaseIcon.shadowSize = new GSize(40, 28);\nbaseIcon.iconAnchor = new GPoint(8, 28);\nbaseIcon.infoWindowAnchor = new GPoint(8, 2);\nbaseIcon.infoShadowAnchor = new GPoint(16, 20);\n\nvar markerIcons = new Array();\n\nfunction createIcon(colour) {\n var icon = new GIcon(baseIcon);\n icon.image = \"/site_media/images/marker_\" + colour + \".png\";\n markerIcons[colour] = icon;\t \n}\n\ncreateIcon(\"blue\");\ncreateIcon(\"brown\");\ncreateIcon(\"green\");\ncreateIcon(\"orange\");\ncreateIcon(\"pink\");\ncreateIcon(\"purple\");\ncreateIcon(\"red\");\ncreateIcon(\"station\");\ncreateIcon(\"yellow\");\n\n\nfunction Stop(point, pub) {\n this._point = point; \n this._stop = parseInt(pub.getAttribute(\"stop\"));\n this._colour = GXml.value(getChild(pub, \"colour\"));\n this._name = GXml.value(getChild(pub, \"name\"));\n this._square = GXml.value(getChild(pub, \"square\"));\n\n if (!markerIcons[this._colour]) alert(\"Can't find icon for colour \" + this._colour);\n\n this._marker = new GMarker(point, markerIcons[this._colour]);\n\n var overview = \"\";\n overview += \"<hr style='background-color: \" + colours[this._colour] + \"; width: 350px; height: 10px; border: 1px; border-style: solid; border-color: black; margin-top: 10px'/>\";\n overview += \"<h2>\" + this._stop + \". \" + this._square + \"</h2>\";\n overview += \"<img style='float: left; margin-right: 10px' src='\" + GXml.value(getChild(pub, \"thumbnail\")) + \"'/>\";\n overview += \"<div>\";\n overview += this._name + \"<br/>\";\n overview += GXml.value(getChild(pub, \"location\")) + \"<br/>\";\n overview += \"Time: \" + GXml.value(getChild(pub, \"time\"));\n overview += \"</div>\";\n overview += \"<div style='clear: both'> </div>\";\n\n var description = \"<p style='width: 350px; font-size: 9pt'>\" + GXml.value(getChild(pub, \"description\")) + \"</p>\";\n\n var directions = \"<p style='width: 350px; font-size: 9pt'>\" \n + GXml.value(getChild(pub, \"directions\"))\n + \"</p>\";\n\n this._infoTabs = [\n new GInfoWindowTab(\"Overview\", overview),\n new GInfoWindowTab(\"Directions\", directions),\n new GInfoWindowTab(\"Description\", description)\n ];\n}\n\nStop.prototype._point;\nStop.prototype._stop;\nStop.prototype._colour;\nStop.prototype._marker;\nStop.prototype._name;\nStop.prototype._square;\nStop.prototype._infoTabs;\n\nStop.prototype.getStop = function() {\n return this._stop;\n}\n\nStop.prototype.getColour = function() {\n return this._colour;\n}\n\nStop.prototype.getMarker = function() {\n return this._marker;\n}\n\nStop.prototype.getSquare = function() {\n return this._square;\n}\n\nStop.prototype.openInfoWindow = function() {\n this._marker.openInfoWindowTabsHtml(this._infoTabs);\n}\n\nStop.prototype.onClick = function() {\n this.openInfoWindow();\n}\n\nfunction Route(url) {\n var self = this;\n self._url = url;\n\n GDownloadUrl(url, function(data, responseCode) {\n var xml = GXml.parse(data);\n var pubs = xml.documentElement.getElementsByTagName(\"pub\");\n var line = new Array();\n\n self._stops = new Array();\n\n for (var i = 0; i < pubs.length; i++) { \n var location = getChild(pubs[i], (\"location\"));\n\n if (location != null) {\n\tvar latitude = location.getAttribute(\"latitude\");\n\tvar longitude = location.getAttribute(\"longitude\");\n\n\tif (latitude != null && longitude != null) {\n\t var point = new GLatLng(parseFloat(latitude), parseFloat(longitude));\t\n\n\t self._stops[i] = new Stop(point, pubs[i]);\t\t\n\t line[line.length] = point;\n\t}\n }\n }\n\n self._line = new GPolyline(line, \"#ff0000\", 5, 0.6);\n\n self.display();\n\n self._isInitialised = true;\n });\n\n} // Route\n\nRoute.prototype._url;\nRoute.prototype._line;\nRoute.prototype._stops;\nRoute.prototype._isInitialised = false;\n\nRoute.prototype.getUrl = function() {\n return this._url;\n}\n\nRoute.prototype.getStop = function(stop) {\n return this._stops[stop];\n}\n\nRoute.prototype.isInitialised = function() {\n return this._isInitialised;\n}\n\nfunction createMarker(stop) {\n GEvent.addListener(stop.getMarker(), \"click\", function() {\n stop.onClick();\n });\n map.addOverlay(stop.getMarker());\n}\n\nRoute.prototype.display = function() {\n\n var stopsDiv = document.getElementById(\"stops\");\n\n for (var i = 0; i < this._stops.length; i++) {\n createMarker(this._stops[i]);\n\n var frag = document.createDocumentFragment();\n var span = document.createElement(\"span\");\n span.style.backgroundColor = colours[this._stops[i].getColour()];\n span.appendChild(document.createTextNode('\\u00A0')); //  \n frag.appendChild(span);\n var link = document.createElement(\"a\");\n link.setAttribute(\"href\", \"javascript: currentRoute.getStop(\" + i + \").openInfoWindow();\");\n link.appendChild(document.createTextNode(this._stops[i].getStop() + \". \" + this._stops[i].getSquare()));\n frag.appendChild(link);\n frag.appendChild(document.createElement(\"br\"));\n\n stopsDiv.appendChild(frag);\n }\n\n map.addOverlay(this._line);\n}\n\nRoute.prototype.hide = function() {\n map.removeOverlay(this._line);\n\n for (var i = 0; i < this._stops.length; i++) {\n map.removeOverlay(this.getStop(i).getMarker());\n }\n\n var stopsDiv = document.getElementById(\"stops\");\n\n while (stopsDiv.hasChildNodes()) {\n stopsDiv.removeChild(stopsDiv.firstChild);\n }\n}\n\nvar routes = new Object();\nvar currentRoute = null;\nvar currentRouteName = null;\n\nfunction highlight(id) {\n var li = document.getElementById(id);\n if (li != null) {\n var elements = li.parentNode.getElementsByTagName(\"li\");\n \n for (var i=0; i<elements.length; ++i)\n elements[i].style.listStyle = \"none\";\n \n li.style.listStyle = \"circle\";\n }\n}\n\nfunction displayRoute(name) {\n var url = \"/scripts/\" + name + \".xml\";\n if (currentRoute != null && currentRoute == routes[url]) {\n return; // no need to redisplay\n }\n\n if (currentRoute != null) {\n currentRoute.hide();\n currentRoute = null;\n }\n\n if (currentRoute != null && !currentRoute.isInitialised()) {\n // it's still loading, leave it alone\n return;\n }\n\n if (routes[url]) {\n currentRoute = routes[url];\n currentRoute.display();\n } else { \n // creating the route will display it\n routes[url] = new Route(url);\n currentRoute = routes[url];\n }\n currentRouteName = name;\n\n highlight(url);\n}\n\nfunction printableVersion() {\n if (currentRoute != null) {\n document.location.href = \"/route/\" + currentRouteName + \"/\";\n }\n}\n\nfunction load(route) {\n\n if (GBrowserIsCompatible()) {\n map = new GMap2(document.getElementById(\"map\"));\n\n map.addControl(new GSmallMapControl());\n map.addControl(new GMapTypeControl());\n\n var point = new GLatLng(51.517876, -0.119905);\n map.setCenter(point, 13);\n \n displayRoute(route);\n } // is browser compatible\n} // load()\n" }, { "alpha_fraction": 0.6684931516647339, "alphanum_fraction": 0.6849315166473389, "avg_line_length": 29.33333396911621, "blob_id": "f78534e6dd27f3af5a2d3cd220961f66062ba7b3", "content_id": "c35884f17deb07feadb845d8b6c65a0cd40f3b6e", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 365, "license_type": "permissive", "max_line_length": 61, "num_lines": 12, "path": "/halloffame/models.py", "repo_name": "graham33/monopoly", "src_encoding": "UTF-8", "text": "from django.db import models\n\n# Create your models here.\n\nclass Crawler(models.Model):\n name = models.CharField(max_length=200, primary_key=True)\n hotels = models.IntegerField(\"hotels\", default=0)\n houses = models.IntegerField(\"houses\", default=0)\n dogs = models.IntegerField(\"dogs\", default=0)\n \n def __unicode__(self):\n return self.name\n\n" }, { "alpha_fraction": 0.5813007950782776, "alphanum_fraction": 0.5813007950782776, "avg_line_length": 37.4375, "blob_id": "0f5850716a9a8781d29b3f9f40075d4469dbb5a3", "content_id": "95720e11ec5f178163621d16b31566ee247f65a6", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1230, "license_type": "permissive", "max_line_length": 87, "num_lines": 32, "path": "/urls.py", "repo_name": "graham33/monopoly", "src_encoding": "UTF-8", "text": "from django.conf.urls import patterns, url, include\nfrom django.conf import settings\n\n# Uncomment the next two lines to enable the admin:\nfrom django.contrib import admin\nadmin.autodiscover()\n\nurlpatterns = patterns('',\n # Example:\n # (r'^monopoly/', include('monopoly.foo.urls')),\n\n (r'^/$', 'monopoly.main.views.index'),\n (r'^route/(\\w+)/$', 'monopoly.main.views.route'),\n (r'^map/(\\w+)/$', 'monopoly.main.views.map'),\n (r'^facebook/$', 'monopoly.main.views.facebook'),\n (r'^halloffame/$', 'monopoly.halloffame.views.halloffame'),\n\n # Uncomment the admin/doc line below and add 'django.contrib.admindocs' \n # to INSTALLED_APPS to enable admin documentation:\n # (r'^admin/doc/', include('django.contrib.admindocs.urls')),\n\n # Uncomment the next line to enable the admin:\n (r'^admin/', include(admin.site.urls)),\n)\n\nif settings.DEBUG:\n urlpatterns += patterns('',\n (r'^site_media/(?P<path>.)$', 'django.views.static.serve',\n {'document_root': 'site_media'}),\n (r'^scripts/(?P<path>.)$', 'django.views.static.serve',\n {'document_root': 'scripts'}),\n )\n" }, { "alpha_fraction": 0.695652186870575, "alphanum_fraction": 0.695652186870575, "avg_line_length": 18.428571701049805, "blob_id": "2447723e04955415862abd607ad876929a381f95", "content_id": "bed26b58d504f7b938dd7c33e4d2235e08e427e8", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 138, "license_type": "permissive", "max_line_length": 31, "num_lines": 7, "path": "/custom_filters/templatetags/custom_filters.py", "repo_name": "graham33/monopoly", "src_encoding": "UTF-8", "text": "from django import template \n\nregister = template.Library() \n \[email protected] \ndef django_range(value): \n return range(value) \n" }, { "alpha_fraction": 0.5634288787841797, "alphanum_fraction": 0.5887549519538879, "avg_line_length": 36.599430084228516, "blob_id": "4fcd7efff0aac00a24d2c82b9bbf8f460da7e3b4", "content_id": "296a0fb9f8af050d35050800edf7fd6944c78b5a", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "HTML", "length_bytes": 52752, "license_type": "permissive", "max_line_length": 633, "num_lines": 1403, "path": "/main/templates/original.html", "repo_name": "graham33/monopoly", "src_encoding": "UTF-8", "text": "<div style=\"text-align: center\">\n <h1>Original Route</h1>\n</div><p class=\"introduction\">The route encompasses all 26 streets and stations on\n the Monopoly board, leaving out the Electric Company, Water Works\n etc. However there are a few compromises: we don't visit the pubs\n in the order on the board and in some cases there simply isn't a pub\n on the actual street. Also we were recently asked to remove a pub\n from the list (the last one) so you'll have to use on of the\n alternatives. Public transport is used extensively, so you'll need\n a <b>Zone 1-2 Travelcard</b>. The times given are the times\n we expect to leave the pub. An <b>A-Z map</b> might also come\n in handy. Remember to be careful when crossing the road, especially\n as the night wears on!</p><h2>Starting Off</h2><p class=\"start\">Meet at <b>Elephant and Castle tube station</b>\n (Bakerloo and Northern lines) at <b>10:15</b> to leave\n promptly at <b>10:30</b>. Any latecomers can catch up at one\n of the later pubs. The meeting point is the main Elephant and\n Castle station entrance, not the shopping centre entrance which is\n on the opposite side of the roundabout. Follow signs for South Bank\n University inside the station to reach it.</p><h2>1. Old Kent Road</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"brown\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">\n Outside Elephant & Castle tube station the <b>1, 53, 63,\n 172, 188, 363 and 453</b> buses go to Old Kent Road from bus\n stop E near the tube station. Once on the bus, continue over\n the large roundabout and alight at the Bricklayer's Arms stop.\n Walk back to the roundabout and go right up Tower Bridge Road.\n You will see The George on your right.\n </p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The George</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Tower Bridge Road, near Old Kent Road</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Courage Best<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 11:10</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727808402/\">\n <img src=\"http://farm4.static.flickr.com/3427/3727808402_cf8a42be53_t.jpg\" alt=\"The George\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This pub now opens at 1030 on a Saturday, especially\n for the pub crawl!</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <h3 class=\"alternatives\">Alternatives</h3>\n <ul class=\"alternatives\">\n <li>\n <b>The World Turned Upside Down</b>\n <br/>\n <span class=\"comments\">The World Turned Upside down is located further up Old Kent Road past the Bricklayer's Arms bus stop. However it is usually closed on a Saturday morning.</span>\n </li>\n </ul>\n </td>\n </tr>\n</table><h2>2. Fenchurch Street</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"station\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Cross Tower Hill Road outside The George and get the\n <b>42</b> bus from the bus stop there. There may be other bus routes that go over Tower Bridge so check the bus stop information.This will take\n you north across Tower Bridge. Alight at the next stop, Tower\n Gateway DLR station. Continue up Minories and turn left into\n Crosswall. Continue straight through Crutched Friars until the\n road becomes Hart Street. At which point take the turn to the\n right, past The Goose pub and into the square. Enter Fenchurch\n Street station and go up the escalator. The Raven is behind and\n to the right. On the last visit, construction work had blocked up\n the main station entrance, and The Raven appeared to be\n closed.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Fen</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Fenchurch Street Station</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Young's<br/>London Pride<br/>Bass<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 11:40</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727809118/\">\n <img src=\"http://farm4.static.flickr.com/3478/3727809118_3d99742432_t.jpg\" alt=\"The Fen\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This is a small and quiet pub. There is a good view from the window seats, but there's no time to waste at this point.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <h3 class=\"alternatives\">Alternatives</h3>\n <ul class=\"alternatives\">\n <li>\n <b>The Pitcher and Piano</b>\n <br/>\n <span class=\"comments\">This is located just under the railway line near the Benjy's.</span>\n </li>\n <li>\n <b>The Windso</b>\n <br/>\n <span class=\"comments\">You passed this on the way in, but it probably won't\n\t be open. It used to be called the Goose</span>\n </li>\n </ul>\n </td>\n </tr>\n</table><h2>3. Whitechapel Road</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"brown\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Leave the station turning right at the bottom of the\n escalators. There is a branch of Benjy's here which sells, among\n other things, fortifying bacon sandwiches. Leave the square on\n the right hand side and turn right into Fenchurch Street.\n Continue until the road becomes Aldgate High Street and cross in\n front of St. Boltoph's Church. Cross the road via the subway on\n the corner of Middlesex street and continue in the same\n direction.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Aldgate Exchange</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\">**</td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Whitechapel Road</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Courage Best<br/>Directors<br/>Wadworth 6X<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 12:00</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727809618/\">\n <img src=\"http://farm3.static.flickr.com/2619/3727809618_493a38c85a_t.jpg\" alt=\"The Aldgate Exchange\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This pub has recently been redecorated and given a\n bit of an Ikea-style makeover, which is a shame. Still, it still has a\n reasonable selection of beers. It's also very conveniently\n located not too far down Whitechapel High Street.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <h3 class=\"alternatives\">Alternatives</h3>\n <ul class=\"alternatives\">\n <li>\n <b>The White Hart</b>\n <br/>\n <span class=\"comments\">Continue up Aldgate High street, past Aldgate East\n\ttube station until you reach The White Hart on your left.\n\tThis is a nice small pub with a good selection of beer, and\n\tthe opportunity to sit on the benches outside. It's also very\n\tclose to the tube station.</span>\n </li>\n <li>\n <b>The Pride of Spitalfields</b>\n <br/>\n <span class=\"comments\">This pub is some distance further on. Continue\n\twalking past the second Algate East station entrance and take\n\ta left up Osborn Street. Continue as this turns into Brick\n\tLane and take a right in a few streets time into Heneage\n\tStreet.</span>\n </li>\n </ul>\n </td>\n </tr>\n</table><h2>4. Liverpool Street</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"station\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">There are two options: walk to Liverpool Street or\n take the tube. Walking may well be faster if the Hammersmith and\n City line is closed or delayed. To walk, head back the way you\n came to Middlesex Street. Go all the way down this road past\n Petticoat Lane and you will see Liverpool Street station in front\n of you. To take the tube, walk the short distance to Aldgate East\n tube station. From here take the Hammersmith and City line to\n Liverpool Street. Walk up into the main station area and go up to\n street level at the Bishopsgate end. At the end of the station to\n the right is The Hamilton Hall.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Hamilton Hall</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Liverpool Street Station</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Theakston Best<br/>Courage Directors<br/>William Younger's Scotch Ale<br/>Ringwood Old Thumper<br/>London Pride<br/>Abbot Ale<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 12:40</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727006893/\">\n <img src=\"http://farm4.static.flickr.com/3453/3727006893_ce4255edd4_t.jpg\" alt=\"The Hamilton Hall\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This large bar used to be the ballroom of the Great\n Eastern Hotel, which explains the ornate ceilings. Time is\n allowed for those who have not eaten so far to order food here.\n It's also a good meeting point for people joining\n late.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>5. The Angel Islington</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"blue\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">There are two options: the bus or the tube. The bus\n is a lot less walking but the tube can be faster if the bus takes\n a long time to arrive. <b>If taking the bus</b>, leave the\n bar by the entrance inside the station by the toilets. Walk along\n the gallery to the other end of the station, past McDonalds\n (another food opportunity). Take the <b>214 bus from stop\n C</b>. This will take you through Finsbury Circus and along\n City Road until it reaches the Angel Islington. Alight just\n before the main junction where there is a green clock in the road\n to your left. Cross the side road and enter the passage way\n marked with a sign for The Old Red Lion. <b>If taking the\n tube</b>, walk around the back of Liverpool Street station past\n the UBS building, and then take the road that curves round to the\n right. Turn left down Moorgate where you will find Moorgate tube\n station, where you can take the Northern line to Angel. At Angel,\n walk across City Road at the cross roads, the front entrace to the\n Red Lion is a short distance down on the left.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Old Red Lion</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\">*</td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Angel, Islington</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Adnam's<br/>Abbot Ale<br/>Harvey's Sussex Best<br/>London Pride<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 13:15</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727810366/\">\n <img src=\"http://farm4.static.flickr.com/3501/3727810366_0298c6be0d_t.jpg\" alt=\"The Old Red Lion\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This is a nice traditional pub with a theatre above\n it. Enjoy the peace for a few moments before getting on the road\n again.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>6. Pentonville Road</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"blue\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Leave the Old Red Lion by the front door and walk right up to the junction. Turn left and cross, walking up Pentonville Road until you see The Castle on the right-hand side of the road.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Castle</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Pentonville Road</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Doom Bar<br/>Bitburger<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 13:35</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727007699/\">\n <img src=\"http://farm3.static.flickr.com/2657/3727007699_808e60dbf2_t.jpg\" alt=\"The Castle\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">Formerly the Pint Pot, this pub is comfortable but\n not what it used to be. Not much bitter, but its rating has gone\n up because it serves the excellent Doom Bar! Still, no time to\n hang around...</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>7. Kings Cross</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"station\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Leave The Castle, cross back onto the left side of\n Pentonville Road and walk uphill to the bus stop. The\n <b>30,73 and 214 buses</b> stop here and will take you\n down to Kings Cross station. It's walkable but better to get\n the bus. Alight from the bus just outside the station and walk\n to <b>Platform 8</b> to find the Duke of York (formerly\n Coopers).</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Duke of York</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Kings Cross Station</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Worthington Best<br/>Hancocks<br/>Bass<br/>Young's<br/>Theakston's Best<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 13:55</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727811140/\">\n <img src=\"http://farm3.static.flickr.com/2564/3727811140_da8f95338e_t.jpg\" alt=\"The Duke of York\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">Note this pub may be closed currently - alternatives are below. This pub is quite busy, but it has a good selection of beer.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <h3 class=\"alternatives\">Alternatives</h3>\n <ul class=\"alternatives\">\n <li>\n <b>O'Neills Euston Road</b>\n <br/>\n <span class=\"comments\">Across the road from the station and a bit further up the road.</span>\n </li>\n <li>\n <b>The Champagne Bar - St. Pancras Station</b>\n <br/>\n <span class=\"comments\">If you're a high-roller you could take a trip to the\n\tchampagne bar at the new (at the time of writing) St. Pancras\n\tstation. Enter the station at the side and go upstairs.</span>\n </li>\n </ul>\n </td>\n </tr>\n</table><h2>8. Euston Road</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"blue\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Leave the station by the side entrance and up Euston Road past St. Pancras until you reach The Rocket on the right hand side.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Rocket</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Euston Road</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Tetley's<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 14:30</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727812700/\">\n <img src=\"http://farm3.static.flickr.com/2495/3727812700_e3b2066003_t.jpg\" alt=\"The Rocket\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This is quite a modern and spacious pub. Its\n rating has gone down because, apart from a big selection of\n lagers, they only serve Tetley's!</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>9. Marylebone Station</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"station\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">This link is a little difficult. Carry on up Euston Road until you reach Euston Square (<b>note</b> not Euston) station. From here take the Hammersmith & City or Metropolitan line to Baker Street. Once there, leave by the Baker Street exit, turn right then left at the lights up Melcombe Street. Continue up here to Marylebone Station. Enter the station, turn left and go right to the end, where you will find the pub on your left.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Victoria & Albert</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\">**</td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Marylebone Station</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Black Sheep<br/>Greene King IPA<br/>Youngs<br/>London Pride<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 15:00</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727813312/\">\n <img src=\"http://farm3.static.flickr.com/2566/3727813312_80f34b75ee_t.jpg\" alt=\"The Victoria & Albert\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This is quite a large pub, with a good beer selection. It's also a good place to eat, since there are many food outlets in the station including a Burger King, a branch of Marks & Spencer among others.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <h3 class=\"alternatives\">Alternatives</h3>\n <ul class=\"alternatives\">\n <li>\n <b>Sports Bar and Grill</b>\n <br/>\n <span class=\"comments\">This pub is untested, but seems to be located close to Marylebone in Melcombe Place.</span>\n </li>\n </ul>\n </td>\n </tr>\n</table><h2>10. Park Lane</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"purple\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">This is probably the longest link between pubs, depending on how reliable London Transport is. Leave the station by the main entrance and walk straight ahead across the road to the bus stop. Here you need to catch a bus to Baker Street, preferably the number 2. The number 2 will take you all the way, but otherwise you will need to change at Baker Street to get a <b>2, 74 or 82 bus</b> in the direction of Hyde Park Corner. Alight on Park Lane just outside the London Hilton hotel. Continue southwards and take the left hand road, Old Park Lane. At the end of the road is the Rose & Crown.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Rose & Crown</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Old Park Lane</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Bombardier<br/>Greene King IPA<br/>Courage Directors<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 15:30</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727011255/\">\n <img src=\"http://farm4.static.flickr.com/3435/3727011255_59a1dc61a7_t.jpg\" alt=\"The Rose & Crown\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This is a comfortable pub with a good atmosphere.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>11. Mayfair</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"purple\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Walk back up Old Park Lane and turn right into Hertford Street. Continue to the end and turn left. Turn right in front of the Shepherds Tavern and walk down towards the Kings Arms at the end. Turn left and you will see The Grapes in a the small square of Shepherd's Market, Mayfair.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">Ye Grapes</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\">**</td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Shepherd's Market, Mayfair</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">London Pride<br/>Brakspear<br/>Doom Bar<br/>Greene King IPA<br/>Adnam's<br/>Youngs<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 15:50</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727011503/\">\n <img src=\"http://farm4.static.flickr.com/3456/3727011503_92302f7af0_t.jpg\" alt=\"Ye Grapes\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This is a very nice old pub in a lovely location. The beer selection is very good and it's pleasant both inside and outside.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>12. Piccadilly</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"yellow\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Leave the Grapes and walk straight ahead down White Horse Street. When you reach Piccadilly turn left and carry on for about 200 yards. After passing The Ritz on the opposite side, cross and head down Arlington Street. The Blue Posts is on the corner of this and Bennet Street.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Blue Posts</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Bennett Street, Piccadilly</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Courage Best<br/>Theakstons Best<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 16:10</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727012109/\">\n <img src=\"http://farm3.static.flickr.com/2632/3727012109_94ed787337_t.jpg\" alt=\"The Blue Posts\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This is the closest pub to Piccadilly. It's a good place to rest tired legs for a few minutes before carrying on.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>13. Pall Mall</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"pink\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Carry on down Bennet Street and cross St. James Street at the crossing. Walk down St. James Street until you reach King Street on the left. You should see the Golden Lion on the right hand side, but it will probably be closed. If so, walk down Crown Passage (to the right of the Golden Lion) to reach the Red Lion.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Red Lion</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\">*</td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Crown Passage, Pall Mall</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">London Pride<br/>Bass<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 16:30</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727012863/\">\n <img src=\"http://farm3.static.flickr.com/2654/3727012863_73b1ed3cc2_t.jpg\" alt=\"The Red Lion\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This is a small cosy pub with a rather difficult set of stairs to negotiate to reach the toilets.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <h3 class=\"alternatives\">Alternatives</h3>\n <ul class=\"alternatives\">\n <li>\n <b>The Golden Lion</b>\n <br/>\n <span class=\"comments\">You should pass this on the way in, but it seems to be closed on a Saturday.</span>\n </li>\n </ul>\n </td>\n </tr>\n</table><h2>14. Whitehall</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"pink\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Go down Crown Passage to Pall Mall and turn left. Continue until you reach Waterloo Place, cross the road and continue up Pall Mall. Go down Cockspur Street and continue on the right hand side to Whitehall. Carry on round the corner, past the Whitehall Theatre. The Lord Moon of the Mall is on the right.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Lord Moon of the Mall</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Whitehall</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Many and varied (it's a Wetherspoons)<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 16:50</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727816024/\">\n <img src=\"http://farm4.static.flickr.com/3500/3727816024_e52ef83482_t.jpg\" alt=\"The Lord Moon of the Mall\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">Another high-ceilinged Wetherspoons conversion, this is a spacious pub with a lot of beers to try.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <h3 class=\"alternatives\">Alternatives</h3>\n <ul class=\"alternatives\">\n <li>\n <b>The Clarence</b>\n <br/>\n <span class=\"comments\">This is just across the road from the Lord Moon of the Mall, and will probably be open.</span>\n </li>\n </ul>\n </td>\n </tr>\n</table><h2>15. Northumberland Avenue</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"pink\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Cross the road, going back to the lights if necessary, and walk down Whitehall past the The Clarence. Turn left here, go down Great Scotland Yard until you reach Northumberland Avenue. Cross the avenue and you'll see The Sherlock Holmes ahead at the bottom of Northumberland Street.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Sherlock Holmes</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Northumberland Street</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Boddingtons<br/>Old Speckled Hen<br/>Sherlock Holmes Ale<br/>Flowers Original<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 17:10</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727816348/\">\n <img src=\"http://farm3.static.flickr.com/2593/3727816348_23fee45f09_t.jpg\" alt=\"The Sherlock Holmes\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">A little corny, but the house ale is worth trying.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>16. Fleet Street</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"red\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Another reasonably long link. Go down Craven Passage\n to the left of the pub. Now there are two options: get the bus,\n or get the tube. The bus seems to be the best choice. To get to\n the bus stop, turn left just before the tunnel and walk up to The\n Strand. Cross the road (with care), and get the <b>11, 15 or\n 23</b> from stop <b>F</b> to Fleet Street. Stop before\n you reach Ludgate Hill and Ye Olde Cheshire Cheese is in a\n (signposted) passage to your left. To get the tube, keep going\n under the tunnel until you reach Villiers Street. There are some\n fast food establishments here for a quick take-away. Turn right\n and walk down to Embankment Station. Take the District or Circle\n line going east two stops to Blackfriars. Take Exit 8 from the\n station and walk up to Ludgate Circus. Take a left here down\n Fleet Street and about 100 yards on the right is the passage to\n the pub.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">Ye Olde Cheshire Cheese</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\">*</td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Fleet Street</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Sam Smith's Old Brewery Bitter<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 17:45</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727816778/\">\n <img src=\"http://farm4.static.flickr.com/3427/3727816778_7c594d6ee3_t.jpg\" alt=\"Ye Olde Cheshire Cheese\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">A famous old pub, apparently rebuilt in 1667. There are several small bars and seating areas. Watch out for the low doorways.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <h3 class=\"alternatives\">Alternatives</h3>\n <ul class=\"alternatives\">\n <li>\n <b>The Tipperary</b>\n <br/>\n <span class=\"comments\">If Ye Olde Cheshire Cheese is shut, cross back over Fleet Street and go into The Tipperary. A bit cramped downstairs but not too bad upstairs.</span>\n </li>\n </ul>\n </td>\n </tr>\n</table><h2>17. The Strand</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"red\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Go back out onto Fleet Street and continue walking.\n There is a McDonalds if more take-away food is required. You can\n get a bus, but it's easier to walk down. Go past the Royal Courts\n of Justice, past the BBC World Service in Bush House, and the\n church on an island in the centre of the road. Just past Waterloo\n Bridge we enter the Strand where you should see The Wellington\n straight ahead.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Wellington</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">The Strand</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Bass<br/>London Pride<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 18:15</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727015979/\">\n <img src=\"http://farm3.static.flickr.com/2671/3727015979_1d7c181910_t.jpg\" alt=\"The Wellington\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">The bar is long and thin and quite crowded, so best to sit outside if possible.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>18. Bow Street</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"orange\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Outside the pub turn left and walk up Wellington Road towards Covent Garden. On the corner as the road becomes Bow Street you'll see the Marquess of Anglesey to the right.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Marquess of Anglesey</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\">*</td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Bow Street</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Youngs Bitter<br/>Youngs Special<br/>Youngs Oregon Amber<br/>Waggledance<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 18:35</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727017681/\">\n <img src=\"http://farm3.static.flickr.com/2510/3727017681_b38aa4345f_t.jpg\" alt=\"The Marquess of Anglesey\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This pub isn't too bad but tends to get too crowded.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>19. Trafalgar Square</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"red\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Leave the pub and cross Wellington Road, following the crowd straight ahead to Covent Garden market square. Walk through to the South West corner into Henrietta Street. Continue straight on, across Bedford Street in the the alley (Bedford Court). Once you reach the end of this turn left down St. Martin's Lane, past The Coliseum and you'll see The Chandos on the left just before you reach Trafalgar Square.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Chandos</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">St. Martin's Place</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Old Brewery Bitter<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 19:00</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727820748/\">\n <img src=\"http://farm4.static.flickr.com/3491/3727820748_63e388aeec_t.jpg\" alt=\"The Chandos\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">Another busy pub, but very comfortable if you can find a seat.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>20. Leicester Square</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"yellow\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Come out of the pub and walk straight up Charing Cross Road away from the square. Cross the road at the zebra crossing just past the National Portrait Gallery. Take a left up the pedestrianised Irving Street which will lead you into Leicester Square. Just round the corner past the Odeon you'll see The Moon Under Water.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Moon Under Water</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Leicester Square</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Theakstons XB<br/>Theakstons Best<br/>Courage Directors<br/>London Pride<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 19:45</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727821258/\">\n <img src=\"http://farm3.static.flickr.com/2465/3727821258_9635a0c205_t.jpg\" alt=\"The Moon Under Water\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">Not so much a pub as a long thin room, this pub is constantly very crowded due to its location.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>21. Coventry Street</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"yellow\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Take a diagonal route across Leicester Square and exit by the Swiss Centre to your right. Here might be a good place for eating - there is a McDonalds, a KFC and a Pizza Hut if you're very ahead of schedule. Cross Whitcomb Street into Coventy Street and then take the first left down Oxenden Street. The Comedy is about halfway down on the right.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Comedy</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Oxenden Street</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Old Speckled Hen<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 20:15</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727018773/\">\n <img src=\"http://farm3.static.flickr.com/2512/3727018773_f67d66223e_t.jpg\" alt=\"The Comedy\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This pub has lost most of its character due to being refurbished, but it does have two spacious bars - one upstairs one downstairs.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <h3 class=\"alternatives\">Alternatives</h3>\n <ul class=\"alternatives\">\n <li>\n <b>The Tom Cribb</b>\n <br/>\n <span class=\"comments\">At the end of Oxenden Street you'll find the Tom Cribb should The Comedy be closed.</span>\n </li>\n </ul>\n </td>\n </tr>\n</table><h2>22. Regent Street</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"green\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Turn right out of the pub past the Tom Cribb and right again down Panton Street. Cross The Haymarket and go straight down Norris Street, near Regent Street.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Captain's Cabin</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Norris Street</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Courage Best<br/>Courage Directors<br/>Theakstons Best<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 20:35</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727821838/\">\n <img src=\"http://farm3.static.flickr.com/2502/3727821838_95e5979d55_t.jpg\" alt=\"The Captain's Cabin\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">A bit of a strange pub with an attempt at a seafaring theme.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>23. Vine Street</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"orange\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Unfortunately this stop is a bit complicated! Turn\n left then right out of the pub down Carlton Street onto Lower\n Regent Street. Head up to Piccadilly Circus, then left down\n Piccadilly. Cross at the second set of pedestrian lights in front\n of St. James' Church. Head up Swallow Street and you'll see Vine\n Street to your right. There used to be a bar on the corner here,\n but at the time of writing the space is being redeveloped\n (hopefully into a bar!). Carry on up Swallow Street and you'll\n pass two of your alternatives on your left: Bentley's Below and\n Gaucho's. Unfortunately these places are not likely to let a big\n group in at this time, so emerge onto Regent Street, go to the\n left and cross to enter Glasshouse Street on your right, where\n you'll find the Leicester Arms and The Warwick.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Leicester Arms</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\"></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Glasshouse Street</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Unknown<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 21:10</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727822550/\">\n <img src=\"http://farm3.static.flickr.com/2449/3727822550_a0b4dd5f85_t.jpg\" alt=\"The Leicester Arms\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">This is a fairly run of the mill pub, but at least it\n will probably let you in!</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <h3 class=\"alternatives\">Alternatives</h3>\n <ul class=\"alternatives\">\n <li>\n <b>The Warwick</b>\n <br/>\n <span class=\"comments\">This is a pub just across\n\tthe road from the Leicester Arms.</span>\n </li>\n <li>\n <b>Bentley's Below</b>\n <br/>\n <span class=\"comments\">This is a reasonably\n\tposh bar so difficult to get into. Be careful to go\n\tdownstairs and not into the restaurant upstairs. It's also\n\tnot advisable to enter in large groups. Last time we visited\n\tthey didn't seem to sell any kind of beer at all, so it was\n\twhiskeys all round.</span>\n </li>\n <li>\n <b>The Gaucho Grill</b>\n <br/>\n <span class=\"comments\">This is a restaurant, but there is a bar as well.\n\tIt's a little further up Swallow Street just before the\n\tcorner.</span>\n </li>\n </ul>\n </td>\n </tr>\n</table><h2>24. Marlborough Street</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"orange\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Come out of Swallow Street onto Regent Street. Turn left and start walking until you reach Beak Street on your right. Cross and go down it until you reach Carnaby Street. Walk up to the top where you will see Greate Marlborough Street with O'Neills on the corner.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">O'Neills</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\">*</td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Great Marlborough Street</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Murphys<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 21:40</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"http://www.flickr.com/photos/grahambennett/3727823310/\">\n <img src=\"http://farm3.static.flickr.com/2661/3727823310_0dfa72e274_t.jpg\" alt=\"O'Neills\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">Quite a spacious pub but it's nicer outside.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>25. Bond Street</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"green\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">Unfortunately we have had to remove the pub we usually have here (see the description for details), so we'll have to go for an untested one. Come out of the pub and go left along Great Marlborough Street, you'll see the Magistrates Court in front of you. Cross Regent Street at the end and go down Hanover Street to Hanover Square. Go round the square to the opposite North West corner and proceed down Tenterden Street. On Dering Street is the Hogshead.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">Hogshead (untested)</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\">Unknown</td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Dering Street, New Bond Street</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Unknown<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until 22:15</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"\">\n <img src=\"/site_media/images/unknown.png\" alt=\"Hogshead (untested)\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">The owner of the pub we previously had\n for this stop has asked us to remove his pub from the site. It\n appears he was having a lot of trouble from pub crawlers who were\n very noisy and disruptive. Once again please try to drink\n within your limits - this kind of thing only ruins the pub crawl\n for everybody else. If you know of a better choice please let us know.</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\"/>\n </tr>\n</table><h2>26. Oxford Street</h2><table class=\"stop\">\n <tr>\n <td colspan=\"2\" class=\"green\"> </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"directions\">We don't know of any pubs on this end of Oxford\n Street, so we have to go for a side street instead. Go out onto\n New Bond Street, turn right up Oxford Street and turn left about\n 30 yards further on into Woodstock Street. The Spread Eagle is\n just round the corner, opposite The Woodstock.</p>\n </td>\n </tr>\n <tr>\n <td style=\"text-align:center; width: 60%;\">\n <table class=\"pub\">\n <tr>\n <td class=\"pubname\" colspan=\"2\">The Spread Eagle</td>\n <td class=\"pubtitle\">Rating</td>\n <td class=\"pub\">Unknown</td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Location</td>\n <td class=\"pub\">Woodstock\n Street</td>\n <td class=\"pubtitle\" rowspan=\"2\">Beers</td>\n <td class=\"pub\" rowspan=\"2\">Unknown<br/></td>\n </tr>\n <tr>\n <td class=\"pubtitle\">Time</td>\n <td class=\"pub\">until the death</td>\n </tr>\n </table>\n </td>\n <td style=\"text-align: center; width: 40%;\">\n <a href=\"\">\n <img src=\"/site_media/images/unknown.png\" alt=\"The Spread Eagle\"/>\n </a>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <p class=\"description\">Unfortunately the owners of the pub we used to use\n have asked us to remove it, so we haven't personally tested this\n one. Let us know how you get on!</p>\n </td>\n </tr>\n <tr>\n <td colspan=\"2\">\n <h3 class=\"alternatives\">Alternatives</h3>\n <ul class=\"alternatives\">\n <li>\n <b>The Phoenix</b>\n <br/>\n <span class=\"comments\">This pub is on Cavendish Square, close to Oxford Circus. At least one crawler has reported success with this pub.</span>\n </li>\n <li>\n <b>The Last Bid (untested)</b>\n <br/>\n <span class=\"comments\">This pub is a\n\tlittle further down Woodstock Street on the right. We haven't\n\ttried it ourselves, but the reviews on BITE are\n\treasonable.</span>\n </li>\n </ul>\n </td>\n </tr>\n</table>\n" }, { "alpha_fraction": 0.7583333253860474, "alphanum_fraction": 0.7583333253860474, "avg_line_length": 38.88888931274414, "blob_id": "8b65ab1585b8c2125cf86a447442d6ce2fd336db", "content_id": "c70bf031b91513f71de4f906d6e8244fad211018", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 360, "license_type": "permissive", "max_line_length": 76, "num_lines": 9, "path": "/halloffame/views.py", "repo_name": "graham33/monopoly", "src_encoding": "UTF-8", "text": "# Create your views here.\n\nfrom django.http import HttpResponse, HttpResponseRedirect\nfrom django.shortcuts import render_to_response\nfrom monopoly.halloffame.models import Crawler\n\ndef halloffame(request):\n crawlers = Crawler.objects.all().order_by('-hotels', '-houses', '-dogs')\n return render_to_response('halloffame.html', { \"crawlers\" : crawlers})\n\n" } ]	10
yumanacamura/kinematic	https://github.com/yumanacamura/kinematic	70e6481f934bdcd82b4d2649090fe0f8e3f9b252	1328a4d4cd6a02daa546718bdfe69adf910d1e05	0b77ea628436bda980828c317e38278957e8dce4	refs/heads/master	2020-04-15T11:58:58.390596	2019-01-09T15:35:30	2019-01-09T15:35:30	164,654,497	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6495931148529053, "alphanum_fraction": 0.6984202861785889, "avg_line_length": 26.12986946105957, "blob_id": "ec83712edd3b692d2c5827ff53378b34fe20c995", "content_id": "d4882af71ffb012494360323a3e90fb26e690f94", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2089, "license_type": "no_license", "max_line_length": 111, "num_lines": 77, "path": "/train.py", "repo_name": "yumanacamura/kinematic", "src_encoding": "UTF-8", "text": "import pickle\nimport numpy as np\n\nimport keras\nfrom keras.models import Sequential, Model, load_model\nfrom keras.layers import Input, Reshape, Dropout, BatchNormalization, ZeroPadding2D, Dense, Activation, Flatten\nfrom keras.layers.advanced_activations import LeakyReLU\nfrom keras.layers.convolutional import UpSampling2D, Conv1D\nfrom keras.layers.merge import Concatenate\nimport tensorflow as tf\nfrom keras.backend import tensorflow_backend\nfrom keras.utils import np_utils\n\nnp.random.seed(0)\nnp.random.RandomState(0)\ntf.set_random_seed(0)\n\nconfig = tf.ConfigProto(gpu_options=tf.GPUOptions(allow_growth=True))\nsession = tf.Session(config=config)\ntensorflow_backend.set_session(session)\n\niterations = 2000\nbatch_size = 1024\ntest_interval = 200\nsave_interval = 2000\n\nFILENAME = './model/kinect.model'\n\n\nk_input = Input((4,)) #x,y,sin(theta),cos(theta)\n\nmodel = Dense(256, activation='relu')(k_input)\nmodel = Dropout(0.25)(model)\nmodel = Dense(128, activation='relu')(model)\nmodel = Dropout(0.25)(model)\nmodel = Dense(32, activation='relu')(model)\nmodel = Dropout(0.25)(model)\nmodel = Dense(16, activation='relu')(model)\nmodel = Dropout(0.25)(model)\n\nmodel = Dense(3, activation='linear')(model)\n\nkinect = Model(inputs=k_input, outputs=model)\n\nkinect.summary()\n\nkinect.compile(loss='mean_squared_error',optimizer='adam')\n\ndef theta2ans(theta):\n s = np.sin(theta).T\n c = np.cos(theta).T\n s12 = s[0]c[1] + c[0]s[1]\n c12 = c[0]c[1] - s[0]s[1]\n s123 = s12c[2] + c12s[2]\n c123 = c12c[2] - s12s[2]\n x = s[0] + s12 + s123\n y = c[0] + c12 + c123\n th = theta.sum(axis=1)\n\n return np.array([x,y,np.cos(th),np.sin(th)]).T\n\nfor iteration in range(iterations):\n theta = np.random.uniform(-np.pi/2, np.pi/2, (batch_size,3))\n ans = theta2ans(theta)\n loss = kinect.train_on_batch(ans,theta)\n\ntest_size = 10\ntheta = np.random.uniform(-np.pi/2, np.pi/2, (test_size,3))\nans = theta2ans(theta)\n\npredict = kinect.predict(ans)\nans2 = theta2ans(predict)\n\nfor i in range(test_size):\n print(i)\n print('\\t'.join(map(str,ans[i])))\n print('\\t'.join(map(str,ans2[i])))\n" } ]	1
mdrouillard/release_plan	https://github.com/mdrouillard/release_plan	2c7230ff40cf196f6da33634b93a105468e29829	d57398a3dbd0d055c1918639af5778cccc8ffe4b	784aadc3d82cf8318262f3ec69108d9dcb848ef5	refs/heads/week_projection	2021-01-10T07:31:44.378894	2016-03-13T19:05:32	2016-03-13T19:05:32	52,623,016	0	0	null	2016-02-26T18:06:09	2016-02-26T18:06:23	2016-03-13T19:05:32	Python	[ { "alpha_fraction": 0.7165514230728149, "alphanum_fraction": 0.7198048233985901, "avg_line_length": 53.622222900390625, "blob_id": "2f3e34036178f8af8efa5934ba1f3afd8291b852", "content_id": "a2e6d8d4f49b8a68ca2079b0964e1ffde06ce9a7", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2459, "license_type": "no_license", "max_line_length": 155, "num_lines": 45, "path": "/release_plan.py", "repo_name": "mdrouillard/release_plan", "src_encoding": "UTF-8", "text": "# get inputs for total number of points, number of days left, team size per platform\n\npoints = int(raw_input('How many points total?\\n'))\ndue_date = int(raw_input('How many working days until the due date?\\n')) # in future figure out how to calculate due date\ncurrent_team = int(raw_input('How many team members are on a platform?\\n'))\ndev_speed = int(raw_input('How many points can a dev get done in a day?\\n'))\n\n# convert points to number of days per platform. \nplatform_days = points / (dev_speed * 2)\n\n# devs could complete the number of points inputted in these number of days\none_dev = platform_days\ntwo_devs = platform_days/2\nthree_devs = platform_days/3\nfour_devs = platform_days/4\n\n# Print out the number of days per platform it would take to finish the points\nprint('\\nThat amount of points equates to ' + str(platform_days) + ' days per platform')\n\n# Is your current team big enough?\nif current_team * due_date > platform_days:\n\tprint('You can do it with your current team size!\\n')\nelif current_team * due_date == platform_days:\n\tprint(\"You're at full capacity. You have no more points to spend\")\nelse:\n\tprint(\"You're gonna need a bigger team!\\n\")\n\t\n# How many more points or less points can current team size handle\nteam_points_daily = dev_speed * current_team\ntotal_point_capacity = (team_points_daily * due_date)\nprint('Your current team can get ' + str(total_point_capacity) + ' points done by the due date.\\n')\n\n# Suggest adding or subtracting points based on team capacity\nif total_point_capacity > points:\n\tprint('You can add ' + str(total_point_capacity - points) + ' points to your scope\\n')\nelif total_point_capacity < points:\n\tprint('You need to remove ' + str(points - total_point_capacity) + ' points from your scope\\n')\nelse:\n\tprint(\"You're at capacity. Maintain the course.\\n\")\n\n# Project the impact of different team sizes\nprint('One developer on each platform would take ' + str(one_dev) + ' working days to complete the work or ' + str(float(one_dev)/5) + ' weeks.') \nprint('Two developers on each platform would take ' + str(two_devs) + ' working days to complete the work or ' + str(float(two_devs)/5) + ' weeks.')\nprint('Three developers on each platform would take ' + str(three_devs) + ' working days to complete the work or ' + str(float(three_devs)/5) + ' weeks.')\nprint('Four developers on each platform would take ' + str(four_devs) + ' working days to complete the work or ' + str(float(four_devs)/5) + ' weeks.\\n\\n')\n\n" } ]	1
shockjiang/repo2ndns	https://github.com/shockjiang/repo2ndns	2ce4ce923bd156974ffe3f4ceaa5e86f93589e7d	db1ec42b5105bed8e70134278d0df37f99a043b1	4d291b4315001a3325035d8b7e4acf3e24c42f3c	refs/heads/master	2016-09-05T10:17:13.931832	2014-12-04T00:33:29	2014-12-04T00:34:23	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.7513227462768555, "alphanum_fraction": 0.7513227462768555, "avg_line_length": 55.70000076293945, "blob_id": "8c1c76dfb2219835f928e1e67a3ff3e004da071c", "content_id": "2c1ed310e1e5fe03f34ec2cdfb36683412081e3a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 567, "license_type": "no_license", "max_line_length": 142, "num_lines": 10, "path": "/README.md", "repo_name": "shockjiang/repo2ndns", "src_encoding": "UTF-8", "text": "This subproject is used to transfer existing certificate in Repo-ng to NDNS. The parent project is NDNS: https://github.com/named-data/ndns\n\n - names.dat: list all the names of certificate that to be transfer\n - add-cert-to-ndns.py: script to fetch certificates from repo and import them to ndns using ndns-add-rr-from-file. Note that existing records\n will be removed and the latest version of the record from names.dat will be inserted\n\nAuthor:\n - [Xiaoke Jiang](http:://netarchlab.tsinghua.edu.cn/~shock/)\n\n - [Alexander Afanasyev](http://lasr.cs.ucla.edu/afanasyev/index.html)\n" }, { "alpha_fraction": 0.5997952818870544, "alphanum_fraction": 0.6090071797370911, "avg_line_length": 21.204545974731445, "blob_id": "0440f7a44c6ccba3681bd4789df829b7da468ed4", "content_id": "d424ffdd01564d029acc0e206341f5763ed1218e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 977, "license_type": "no_license", "max_line_length": 92, "num_lines": 44, "path": "/add-cert-to-ndns.py", "repo_name": "shockjiang/repo2ndns", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n\nimport pyndn as ndn\nimport os\nimport re\nimport sys\nimport argparse\n\nparser = argparse.ArgumentParser(description='Fetch certificates and import them into NDNS')\n\nparser.add_argument('file', metavar='file', type=str,\n help='''Input file containing certificate names''')\n\nargs = parser.parse_args()\n\nif (not args.file):\n parser.print_help()\n exit(1)\n\nif args.file == \"-\":\n file = sys.stdin\nelse:\n file = open(args.file)\n\nl = {}\n\nfor line in file:\n name = ndn.Name(line)\n key = str(name[:-1])\n if key not in l:\n l[key] = name\n else:\n if name[-1] > l[key][-1]:\n l[key] = name\n\nfor value in l.itervalues():\n zone = ndn.Name(re.sub(r'\\/KEY.*$', '', str(value)))\n type = value[-2]\n label = value[len(zone) + 1:-2]\n\n print \"%s (%s): %s %s\" % (zone, value, type, label)\n\n os.system(\"ndns-remove-rr %s %s %s\" % (zone, label, type))\n os.system(\"ndn-tlv-peek %s \| base64 \| ndns-add-rr-from-file %s -\" % (value, zone))\n" } ]	2
chongchuanbing/api_demo	https://github.com/chongchuanbing/api_demo	906f87a1857482c8c9f9f3764f2ed166d68c81d5	64e0091a33893ec92ea07cec68cb69e30093619b	37a34a0909ff18e4392a8b7cec89203d8ce3bca0	refs/heads/master	2020-08-13T20:24:48.383223	2019-03-07T08:47:35	2019-03-07T08:47:35	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6158523559570312, "alphanum_fraction": 0.6177395582199097, "avg_line_length": 31.222972869873047, "blob_id": "627926a72c5c6a14f60be506ff4602fb237c9261", "content_id": "e52eb291970af658bab7d7db117f2b2cbcfc1372", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4769, "license_type": "no_license", "max_line_length": 110, "num_lines": 148, "path": "/app/utils/cache_utils.py", "repo_name": "chongchuanbing/api_demo", "src_encoding": "UTF-8", "text": "import random\nfrom functools import wraps\n\nfrom app import app\nfrom app.config import CACHE_GLOBAL_PREFIX\nfrom app.utils.redis_helper import redis_manage\n\n\nclass CachePrefix:\n API_ADDRESS_BASE_LOC = 'address/baseLoc/'\n API_VER_CODE = 'verCode/'\n API_SALT = 'salt/'\n API_SID = 'sid/'\n API_TASK_DEVICE = 'taskDevice/'\n API_FREE_REGISTER = 'free/'\n API_DEVICE_UPGRADE = 'dUpgrade/'\n\n DB_VERSION_COUNT = 'versionCount/'\n DB_CDC_COUNT = 'cdcCount/'\n DB_VERSION_LIST = 'dvList/'\n DB_VERSION_ITEM = 'dvItem/'\n DB_DEVICE_CMD = 'deviceCmd/'\n DB_QR_GEN = 'qrGen/'\n DB_DEVICE = 'device/'\n DB_DEVICE_COUNT = 'deviceCount/'\n DB_DEVICE_CITY_LIST = 'deviceCityList/'\n DB_DEVICE_TYPE_MAP = 'deviceTypeMap/'\n DB_DEVICE_CHAN_CITY_LIST = 'deviceChanCityList/'\n DB_DEVICE_TYPE = 'deviceType/'\n DB_DEVICE_TYPE_AUTH = 'deviceTypeAuth/'\n DB_DEVICE_DEFINE = 'deviceDefine/'\n DB_DEVICE_CHANNEL = 'deviceChannel/'\n DB_DEVICE_CHANNEL_LIST = 'dcList/'\n DB_DEVICE_CHANNEL_MAP = 'dcMap/'\n DB_DEVICE_TYPE_DICT = 'deviceTypeDict/'\n DB_DEVICE_ALIAS = 'deviceAlias/'\n DB_CHAN_DEVICE_TYPE = 'chanDeviceType/'\n DB_USER_CMD = 'udCmd/'\n DB_USER_CMD_LIST = 'udCmdList/'\n DB_DEVICE_CHAN_BIND = 'deviceChanBind/'\n DB_MONITOR_LIST = 'monitorList/'\n DB_MONITOR_NEW_LIST = 'monitorNewList/'\n DB_DEVICE_DISCOUNT = 'deviceDiscount/'\n DB_DEVICE_ACTION = 'deviceAction/'\n DB_ORDER = 'order/'\n DB_ORDER_COUNT = 'orderCount/'\n DB_USER_LOGIN = 'userLogin/'\n DB_DEVICE_AGENT = 'deviceAgent/'\n DB_PERMISSION = 'permission/'\n DB_PERMISSION_LIST = 'permissionList/'\n DB_PERMISSION_BIND = 'permissionBind/'\n DB_ALARM_TODAY = 'alarmToday/'\n DB_CHAN_AGENT = 'deviceChanAgent/'\n DB_LOC_PROVINCE = 'locProvince/'\n DB_LOC_CITY = 'locCity/'\n DB_TAG = 'tag/'\n DB_DEVICE_TASK = 'task/'\n DB_DEVICE_BUFF = 'buff/'\n DB_GAME_ORDER = 'orderGame/'\n DB_WX_CONFIG = 'wxCfg/'\n DB_HX_PAY_ORDER = 'hxOrderId/'\n DB_WX_CODE = 'wxCode/'\n DB_CONFIG_LOG = 'configLog/'\n DB_TOTAL_INCOME = 'totalIncome/'\n DB_TODAY_INCOME = 'todayIncome/'\n DB_ALL_INCOME = 'allIncome/'\n DB_MONTH_INCOME = 'monthIncome/'\n DB_ALL_FANS = 'allFans/'\n DB_TODAY_FANS = 'todayFans/'\n DB_GRID_INFO = 'gridInfo/'\n DB_PLAYABLE = 'playable/'\n DB_PCD = 'pcd/'\n DB_DEVICE_START = 'deviceStart/'\n DB_GRID_ID_START = 'gridIdStart/'\n DB_CHAN_MONITOR_LIST = 'chanMonitorList/'\n\n\ndef api_cache(prefix='tm/', ignore_first=True, timeout=60, name='', noneable=False, random_timeout=None):\n def decorator(func):\n @wraps(func)\n def wrapper_fun(args, kwargs):\n\n none_flag = '!#$ None $#!'\n key_time = random_timeout[0] + random.randint(0, random_timeout[1]) if random_timeout else timeout\n pos_key = '/'.join([str(arg) for arg in args[1 if ignore_first else 0:]])\n kwargs_key = '/'.join([str(kwargs[key]) for key in kwargs])\n cache_key = CACHE_GLOBAL_PREFIX + prefix + pos_key + ('/' + kwargs_key if pos_key else kwargs_key)\n\n if name:\n cache_key += name\n\n cache = app.flask_cache.get(cache_key)\n if noneable and type(cache) is str and cache == none_flag:\n return\n if cache:\n return cache\n\n exe_res = func(args, *kwargs)\n\n if exe_res is not None:\n app.flask_cache.set(cache_key, exe_res, timeout=key_time)\n elif noneable:\n app.flask_cache.set(cache_key, none_flag, timeout=key_time)\n return exe_res\n return wrapper_fun\n return decorator\n\n\ndef clear_api_cache(prefix='tm/', args, *kwargs):\n\n pos_key = '/'.join([str(arg) for arg in args])\n kwargs_key = '/'.join([str(kwargs[key]) for key in kwargs])\n cache_key = CACHE_GLOBAL_PREFIX + prefix + pos_key + ('/' + kwargs_key if pos_key else kwargs_key)\n\n app.flask_cache.delete(cache_key)\n\n\ndef clear_cache_fuzzy(fuzzy_keys):\n\n if not fuzzy_keys:\n return\n\n pool = redis_manage.get_redis_pool()\n pipe = pool.pipeline()\n for fk in fuzzy_keys:\n pipe.keys('flask_cache_{}{}'.format(CACHE_GLOBAL_PREFIX, fk))\n\n find = pipe.execute()\n for line in find:\n for k in line:\n pipe.delete(k.decode())\n pipe.execute()\n\n\ndef get(cache_key):\n return app.flask_cache.get(CACHE_GLOBAL_PREFIX + cache_key)\n\n\ndef save(cache_key, data, timeout=50):\n return app.flask_cache.set(CACHE_GLOBAL_PREFIX + cache_key, data, timeout=timeout)\n\n\ndef remove(cache_key):\n return app.flask_cache.delete(CACHE_GLOBAL_PREFIX + cache_key)\n\n\nif __name__ == '__main__':\n clear_cache_fuzzy(CachePrefix.DB_DEVICE_CHANNEL_LIST, CachePrefix.DB_DEVICE_CHANNEL_MAP)\n" }, { "alpha_fraction": 0.4840989410877228, "alphanum_fraction": 0.685512363910675, "avg_line_length": 15.647058486938477, "blob_id": "9043bce25b31ca556806af8caaa8666edaddaeb1", "content_id": "cda9f958c936bda66ed4f2eceb6fd96852b14054", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 283, "license_type": "no_license", "max_line_length": 23, "num_lines": 17, "path": "/requirements.txt", "repo_name": "chongchuanbing/api_demo", "src_encoding": "UTF-8", "text": "Flask==1.0.2\nFlask_Script==2.0.6\nFlask_Cache==0.13.1\nFlask_Migrate==2.2.1\nFlask_SQLAlchemy==2.3.2\nlxml==4.2.3\nqrcode==6.0\nredis==2.10.6\nrequests==2.20.0\nSQLAlchemy==1.2.10\nFlask_Cors==3.0.6\nWerkzeug==0.14.1\ncelery==4.2.1\nPillow==5.4.1\ngevent==1.3.5\ngreenlet==0.4.14\ngunicorn==19.9.0\n" }, { "alpha_fraction": 0.6039531230926514, "alphanum_fraction": 0.6240848898887634, "avg_line_length": 24.073394775390625, "blob_id": "cef7ebd80bd792315e388dcfe2b592c8f0280ec1", "content_id": "752eb87eea4d1c18a1f1afdc79da734b2feae93a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2900, "license_type": "no_license", "max_line_length": 113, "num_lines": 109, "path": "/app/utils/img_util.py", "repo_name": "chongchuanbing/api_demo", "src_encoding": "UTF-8", "text": "import os\nimport random\nimport time\nfrom urllib.request import urlopen\nimport io\n\nimport qrcode\nfrom PIL import Image, ImageDraw, ImageFont\n\nfrom app.config import CDN_SERVER, HOST_ID, APP_ROOT\nfrom app.utils import ali_oss_helper\nfrom app.utils.auth_utils import md5\n\nALLOWED_EXTENSIONS = {'png', 'jpg', 'jpeg', 'gif', 'bmp'}\nALLOWED_VIDEO_EXTENSIONS = {'avi', 'rmvb', 'rm', 'asf', 'divx', 'mpg', 'mpeg', 'mpe', 'wmv', 'mp4', 'mkv', 'vob'}\n\n\nclass FileWrap:\n\n def __init__(self, fp):\n self.data = open(fp, 'rb').read()\n\n def read(self):\n return self.data\n\n\nmenlo = FileWrap(os.path.join(APP_ROOT, 'app', 'utils', 'Menlo.ttc'))\n\n\ndef allowed_file(filename):\n return '.' in filename and filename.rsplit('.', 1)[1] in ALLOWED_EXTENSIONS\n\n\ndef allowed_video(filename):\n return '.' in filename and filename.rsplit('.', 1)[1] in ALLOWED_VIDEO_EXTENSIONS\n\n\ndef get_and_save_img(img_url):\n file = io.BytesIO(urlopen(img_url).read())\n return save_img(file)\n\n\ndef _gen_file_name():\n now = str(int(time.time() 1000))\n return md5(now + HOST_ID) + now\n\n\ndef save_img(img):\n return save_file(img)\n\n\ndef save_file(new_file):\n ext = new_file.filename[new_file.filename.rfind('.'):]\n img_name = _gen_file_name() + ext\n return ali_oss_helper.save_img(img_name, new_file)\n\n\ndef save(file_name, content):\n ext = file_name[file_name.rfind('.'):]\n img_name = _gen_file_name() + ext\n return ali_oss_helper.save_img(img_name, content)\n\n\ndef get_img_url(thumb, img, high=-1, width=-1):\n\n if not img:\n return img\n\n if high != -1 and width != -1:\n return CDN_SERVER + img + '?x-oss-process=image/resize,m_fill,h_{},w_{}'.format(high, width)\n if thumb:\n return CDN_SERVER + img + '?x-oss-process=image/resize,m_fill,h_100,w_120'\n else:\n return CDN_SERVER + img\n\n\ndef gen_sn_qr(sn, text='', output=''):\n \"\"\"\n 生成sn码的二维码\n :param sn: 设备sn码，用于显示在二维码下方及图片名称\n :param text: 二维码内容，默认为空字符串则二维码内容为sn码, 如果内容带有{sn}则会自动将文本内容的{sn}填充为sn码\n :param output: 图片输出目录，默认为空表示当前目录\n :return:\n \"\"\"\n\n qr = qrcode.QRCode(version=5, box_size=5, border=4)\n\n if not text:\n text = sn\n elif '{sn}' in text:\n text = text.format(sn=sn)\n\n qr.add_data(text)\n qr.make(fit=True)\n img = qr.make_image()\n img = img.convert(\"RGBA\")\n\n bg = Image.new('RGB', (300, 300), (255, 255, 255))\n bg.paste(img, ((300 - img.width) // 2, 0))\n\n dr = ImageDraw.Draw(bg)\n font = ImageFont.truetype(menlo, 30)\n dr.text((100, img.height), sn, font=font, fill='#000000')\n bg.save(os.path.join(output if output else '.', sn + '.png'))\n\n\ndef save_cert(chan, local_file_name):\n\n return ali_oss_helper.save_cert('cert/'+chan, local_file_name)" }, { "alpha_fraction": 0.6647481918334961, "alphanum_fraction": 0.6733812689781189, "avg_line_length": 23.821428298950195, "blob_id": "ee67b8bc83d01f5f2c77dc3c9bbc160a0985cd0e", "content_id": "f97decb97ff34efba8a3029f66115241399dc992", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1390, "license_type": "no_license", "max_line_length": 93, "num_lines": 56, "path": "/server.py", "repo_name": "chongchuanbing/api_demo", "src_encoding": "UTF-8", "text": "import os\nimport time\n\nfrom flask import request, render_template\nfrom flask import send_from_directory, redirect\nfrom flask_cors import CORS\n\nfrom app import init_app_br\nfrom app.api.api_response import get_json_data\nfrom app.api.api_base import get_docs\nfrom app.app import create_app\nfrom app.config import in_product\nfrom app.utils import logger, cache_utils\nfrom db_base import db\n\napp = create_app()\n\nCORS(app, supports_credentials=True)\n# doc.init(app)\nlogger.init(app)\ndb.init_app(app)\ninit_app_br(app)\n\n\[email protected]('/test/cache', methods=['GET', 'POST', 'DELETE', 'PUT'])\ndef cache_test():\n result = cache_utils.get('testCache')\n if not result:\n result = 'test page, curr time = ' + str(time.ctime())\n cache_utils.save('testCache', result, timeout=5 * 60)\n return result\n\n\[email protected]_request\ndef call_before_request():\n\n if not in_product():\n print('Request path: {}, params: {}'.format(request.path, get_json_data()))\n\n # print('request.headers : ', request.headers)\n if request.method != 'OPTIONS':\n logger.api_logger.info('Request path: %s, params: %s', request.path, get_json_data())\n\n\[email protected]('/api-json', methods=['GET'])\ndef api_doc_json():\n return get_docs()\n\n\[email protected]('/api', methods=['GET'])\ndef api_doc():\n return render_template('api_doc.html')\n\n\nif __name__ == '__main__':\n app.run(host='0.0.0.0', port=12345)\n" }, { "alpha_fraction": 0.6198830604553223, "alphanum_fraction": 0.6627680063247681, "avg_line_length": 21.30434799194336, "blob_id": "81b78032be2f0d6df7fc890fda2583d262ffcc8f", "content_id": "e8ff68a72a682e300b0978f1f5e13efb9b5d05bc", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 525, "license_type": "no_license", "max_line_length": 92, "num_lines": 23, "path": "/gun.py", "repo_name": "chongchuanbing/api_demo", "src_encoding": "UTF-8", "text": "import multiprocessing\n\ndebug = False\ndeamon = False\nloglevel = 'info'\nbind = '0.0.0.0:12345'\nmax_requests = 50000\nworker_connections = 50000\npidfile = '/home/log/tissue/tissue_gun.pid'\n\nx_forwarded_for_header = \"X-Real-IP\"\n\n# 启动的进程数\nworkers = multiprocessing.cpu_count()\n# workers = 3\nworker_class = \"gevent\"\n\nloglevel = 'error'\naccesslog = '/home/log/api/access.log'\naccess_log_format = '%({X-Real-IP}i)s %(l)s %(u)s %(t)s \"%(r)s\" %(s)s %(b)s \"%(f)s\" \"%(a)s\"'\nerrorlog = '/home/log/api/error.log'\n\ntimeout = 60\n" }, { "alpha_fraction": 0.6976743936538696, "alphanum_fraction": 0.7325581312179565, "avg_line_length": 27.66666603088379, "blob_id": "b4a979032e21158e6728c19516663d2fc5ee427b", "content_id": "547961b74775f803de943d7617a0ced9451d5a73", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 172, "license_type": "no_license", "max_line_length": 94, "num_lines": 6, "path": "/app/utils/ip2addr/__init__.py", "repo_name": "chongchuanbing/api_demo", "src_encoding": "UTF-8", "text": "import os\n\nfrom app.config import APP_ROOT\nfrom .ip2Region import Ip2Region\n\nip2region = Ip2Region(os.path.sep.join((APP_ROOT, 'app', 'utils', 'ip2addr', 'ip2region.db')))\n" }, { "alpha_fraction": 0.5763505101203918, "alphanum_fraction": 0.6120799779891968, "avg_line_length": 34.08955383300781, "blob_id": "a2fa8acba1687831ca88485700c108c876c5479a", "content_id": "6847131e93d155325357c32b4dc09283a6d4e005", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 3269, "license_type": "no_license", "max_line_length": 111, "num_lines": 67, "path": "/README.md", "repo_name": "chongchuanbing/api_demo", "src_encoding": "UTF-8", "text": "# api_demo\n自动生成 Swagger API 文档\n\ndemo:\n\n```python\n\n\nfrom app.api.api_base import ApiBlueprint\n\napi = ApiBlueprint('demo')\n\n\[email protected]('/test', methods=['POST'], summary='v2测试接口',\n params=[api.boxing(PARAM_KEY1, '测试参数1', op_in=api.OP_BODY, require=False, params_type=api.TYPE_INT),\n api.boxing(PARAM_KEY2, '测试参数2', op_in=api.OP_BODY, params_type=api.TYPE_STRING)],\n resp={'list::列表数据': [{'a::返回数据a': 1, 'b::返回数据b': 2}],\n 'dict::字典数据': {'da::字典数据1': 'da_value', 'db::字典数据2': 2},\n 'val:bool数据:': True},\n errors=[(ERROR_TYPE1_V1, PARAM_KEY1 + ' 格式错误'), (ERROR_TYPE2_V2, '数据异常')])\ndef demo_test():\n return get_response('modify address success', data={})\n```\n\nApiBlueprint 收集路由信息统一向 flask 注册，在注册路由的同时收集 API 的参数，错误码及响应的数据结构，然后集中存储在内存中，\n前端获取 Swagger json 的时候再把收集的数据按 Swagger 语法生成json格式字符串存储在内容中供访问\n\n```python\n\n\n def boxing(cls, key, name, op_in='body', require=True, params_type='string', default=None):\n \"\"\"\n 通过参数生成api文档构造所需要的参数的模型的数据格式\n :param key: 参数的键\n :param name: 参数的描述信息\n :param op_in: 参数所在的部分，取值为path，query，header，body，\n :param require: 该参数是否是必须的，默认为必填\n :param params_type: 参数的类型，默认为string，取值有 integer，string，boolean，number，array，object，注意文件类型也是用string\n :param default: 参数的默认值，默认为None表示不显示默认值项\n :return:\n \"\"\"\n\n\n\n def route(self, rule, summary='', params=None, resp=None, errors=None, deprecated=False, *options):\n \"\"\"\n :param rule: 路径, 注册的接口访问路径\n :param summary: 接口的描述信息, 默认传递空字符串表示接口不写入文档\n :param params: 接口参数声明，默认为None表示不需要参数，\n 传递示例：[{'name': '参数名称', 'in': 'header', 'require': true, 'type': 'string'}, ...]\n\n :param resp: 接口data域数据声明，数据返回的json格式，在数据的key之后需要以::间隔中文描述，\n 例如： {'name::用户名': 'jeff', 'age::年龄': 17, 'account::用户账号': '1234567', ...}\n 如果是最终值没有键的，可以传递一个tuple，表示第一位是描述，第二位是示例值\n 例如: ('用户名', 'name')\n\n :param errors: 接口错误声明，默认为None表示接口没有其他错误信息，传递示例：[(error_code, desc), ...]\n :param deprecated: 接口已经废弃的标志\n :param options: flask路由注册的其他参数\n :return:\n \"\"\"\n```\n\n\nserver 启动后，例如在 0.0.0.0:5000 下启动，则访问 http://127.0.0.1:5000/api 即可访问在线 api 文档\n\n![FE90774DC916419A178D23A27F84FDF7](http://cdn.ibeelink.com/FE90774DC916419A178D23A27F84FDF7.png)\n" }, { "alpha_fraction": 0.5595238208770752, "alphanum_fraction": 0.6055340766906738, "avg_line_length": 21.852941513061523, "blob_id": "36a5cd2a246a624d1e385a2955f510b7503632a7", "content_id": "ad3b112f32e43f11d29e353b1c021ab92536f40a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3190, "license_type": "no_license", "max_line_length": 241, "num_lines": 136, "path": "/app/utils/auth_utils.py", "repo_name": "chongchuanbing/api_demo", "src_encoding": "UTF-8", "text": "# encoding=utf-8\nimport base64\nimport hashlib\nfrom Crypto.Cipher import DES3\n\nimport time\n\n# from app import app\nfrom app import app\n\nMATCH = 1\nNOT_FIND = -1\nTIME_OUT = -2\nMISMATCH = -3\n\nBS = DES3.block_size\n\n\ndef b64decode(content):\n return base64.b64decode(content).decode()\n\n\ndef b64encode(content):\n return base64.b64encode(content.encode()).decode()\n\n\ndef md5(src, upper=False):\n\n \"\"\"\n md5加密\n :param src: 原始内容\n :param upper: 结果大小写\n :return:\n \"\"\"\n\n md5_tool = hashlib.md5()\n md5_tool.update(src.encode(encoding='utf_8'))\n\n if upper:\n return md5_tool.hexdigest().upper()\n else:\n return md5_tool.hexdigest()\n\n\ndef sha1(src, upper=False):\n tool = hashlib.sha1()\n tool.update(src.encode('utf-8'))\n\n if upper:\n return tool.hexdigest().upper()\n else:\n return tool.hexdigest()\n\n\ndef sha256(src, upper=False):\n tool = hashlib.sha256()\n tool.update(src.encode('utf-8'))\n if upper:\n return tool.hexdigest().upper()\n else:\n return tool.hexdigest()\n\n\ndef check_ver_code(phone, edit_ver_code):\n\n \"\"\"\n 检查验证码\n :param phone: 用户手机号码\n :param edit_ver_code: 输入的验证码\n :return:\n \"\"\"\n\n cache_key = 'ver_code/' + phone\n ver_code = app.flask_cache.get(cache_key)\n\n if not ver_code:\n return NOT_FIND\n\n if ver_code != edit_ver_code.upper():\n return MISMATCH\n\n app.flask_cache.cache.delete(cache_key)\n return MATCH\n\n\ndef pad(s):\n return s + (BS - len(s) % BS) chr(BS - len(s) % BS).encode()\n\n\ndef unpad(s):\n return s[0:-ord(s[-1])]\n\n\nclass Prpcrypt(object):\n def __init__(self, key, iv):\n self.key = key\n self.mode = DES3.MODE_CBC\n self.iv = iv.encode()\n\n def encrypt(self, text):\n text = pad(text.encode())\n cryptor = DES3.new(self.key, self.mode, self.iv)\n x = len(text) % 8\n if x != 0:\n text = text + '\\0' * (8 - x)\n # print(text)\n self.ciphertext = cryptor.encrypt(text)\n return base64.standard_b64encode(self.ciphertext).decode(\"utf-8\")\n\n def decrypt(self, text):\n cryptor = DES3.new(self.key, self.mode, self.iv)\n de_text = base64.standard_b64decode(text.encode())\n plain_text = cryptor.decrypt(de_text)\n st = str(plain_text.decode('utf-8', 'ignore')).rstrip('\\0')\n out = unpad(st)\n return out\n\n\ndef hash_code(data):\n print('md5: ', md5(data))\n print('sha1: ', sha1(data))\n print('sha256: ', sha256(data))\n\n\nif __name__ == '__main__':\n pc = Prpcrypt('OWJjQbOBkOt3MjtGRWPGYcgP', 'LScJ5bkE')\n # # print(sha1(''))\n # # print(md5('123456'))\n # e = pc.encrypt(\"华永星\") # 加密内容\n d = pc.decrypt('6A7Jsw3jPH+q+vigThqvpmtblLTWmu00s00VySK3Yhu/cT0lwJZZTDO4Ka2W/x7LO0fAQOlLAq0mhCP5s68y0RDzsTgFNcDsftgNS8SVj+uzeNGn8+vOUrrTxz+nBRJ6EjCMVVl924Ivux0p5gwE11feJi8ifvT1E2i7xboqNcdrIypNtzxMzHcClC6PuPC70WBU4tp+MP52tuez/X4CyqhxIQdKNDbrT7lEqEUQ9c3SY/V/UkxdzQmSVTqSYAK5YS4KOOmPy/w+Ql4bP+RUw8f07XC5uLKxdzPiB71hOx12lXvsqqU2qHyVreLW+bpq3hMal6TTpVZv5Nkg9SHG5v4EpQexyTzahgfa3RwnYapj19RHTbP00sfrRJdA97aX')\n print(d)\n # print(\"加密后%s,解密后%s\" % (e, d))\n\n # hash_code('10004304' + '17')\n # print(sha1('jsapi_ticket=kgt8ON7yVITDhtdwci0qeW9NRvqUmgG_qWPadGfUN2F4NAQ8EEwdbmWSpN4trP1jPAR8D2hFNX42QaSLIyFDKg&noncestr=15887dc079e4f088bc84da1439be387f&timestamp=1543836951&url=http://tmp.beesmartnet.com/static/platform/index.html'))\n # print(sha1('ddddd'))\n" } ]	8
grbarker/Freyja	https://github.com/grbarker/Freyja	beaf75b68864236b1c4be2fbb079b0387df78efd	2060394b5f31bd10eacb5d7cdbc25276e30a54be	b89f1101ac31d9f0da5e33469a9dae000688163f	refs/heads/master	2022-10-09T13:13:51.979823	2019-07-14T21:46:45	2019-07-14T21:46:45	196,885,843	0	1	null	2019-07-14T21:37:54	2019-07-14T21:49:58	2022-09-16T18:05:57	Python	[ { "alpha_fraction": 0.6538289785385132, "alphanum_fraction": 0.6657736301422119, "avg_line_length": 49.897727966308594, "blob_id": "254edda46a188bf723386581e8409d1f02dbd6a8", "content_id": "6e8b281fc282d272cbcd854a2efe0586be772628", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8958, "license_type": "no_license", "max_line_length": 97, "num_lines": 176, "path": "/migrations/versions/55208dc0638d_add_back_altered_tables_removed_.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "\"\"\"Add back altered tables. Removed birthdate from Employee table as well. Unnecessary column.\n\nRevision ID: 55208dc0638d\nRevises: c34031564651\nCreate Date: 2018-11-28 17:27:38.201034\n\n\"\"\"\nfrom alembic import op\nimport sqlalchemy as sa\n\n\n# revision identifiers, used by Alembic.\nrevision = '55208dc0638d'\ndown_revision = 'c34031564651'\nbranch_labels = None\ndepends_on = None\n\n\ndef upgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.create_table('category',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('categoryname', sa.String(length=255), nullable=True),\n sa.Column('description', sa.Text(length=500), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_category_categoryname'), 'category', ['categoryname'], unique=True)\n op.create_table('employee',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('employeeID', sa.Integer(), nullable=True),\n sa.Column('password_hash', sa.String(length=128), nullable=True),\n sa.Column('lastname', sa.String(length=255), nullable=True),\n sa.Column('firstname', sa.String(length=255), nullable=True),\n sa.Column('notes', sa.Text(length=1000), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_employee_employeeID'), 'employee', ['employeeID'], unique=True)\n op.create_index(op.f('ix_employee_firstname'), 'employee', ['firstname'], unique=False)\n op.create_index(op.f('ix_employee_lastname'), 'employee', ['lastname'], unique=False)\n op.create_table('shipper',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('shippername', sa.String(length=255), nullable=True),\n sa.Column('phone', sa.String(length=25), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_shipper_phone'), 'shipper', ['phone'], unique=False)\n op.create_index(op.f('ix_shipper_shippername'), 'shipper', ['shippername'], unique=False)\n op.create_table('supplier',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('suppliername', sa.String(length=255), nullable=True),\n sa.Column('contactname', sa.String(length=255), nullable=True),\n sa.Column('address', sa.String(length=255), nullable=True),\n sa.Column('city', sa.String(length=255), nullable=True),\n sa.Column('postalcode', sa.String(length=255), nullable=True),\n sa.Column('country', sa.String(length=255), nullable=True),\n sa.Column('phone', sa.String(length=25), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_supplier_address'), 'supplier', ['address'], unique=False)\n op.create_index(op.f('ix_supplier_city'), 'supplier', ['city'], unique=False)\n op.create_index(op.f('ix_supplier_contactname'), 'supplier', ['contactname'], unique=False)\n op.create_index(op.f('ix_supplier_country'), 'supplier', ['country'], unique=False)\n op.create_index(op.f('ix_supplier_phone'), 'supplier', ['phone'], unique=False)\n op.create_index(op.f('ix_supplier_postalcode'), 'supplier', ['postalcode'], unique=False)\n op.create_index(op.f('ix_supplier_suppliername'), 'supplier', ['suppliername'], unique=False)\n op.create_table('user',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('username', sa.String(length=64), nullable=True),\n sa.Column('email', sa.String(length=120), nullable=True),\n sa.Column('password_hash', sa.String(length=128), nullable=True),\n sa.Column('about_me', sa.String(length=255), nullable=True),\n sa.Column('last_seen', sa.DateTime(), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_user_email'), 'user', ['email'], unique=True)\n op.create_index(op.f('ix_user_username'), 'user', ['username'], unique=True)\n op.create_table('customer',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('customername', sa.String(length=255), nullable=True),\n sa.Column('address', sa.String(length=255), nullable=True),\n sa.Column('city', sa.String(length=255), nullable=True),\n sa.Column('postalcode', sa.String(length=255), nullable=True),\n sa.Column('country', sa.String(length=255), nullable=True),\n sa.Column('user_id', sa.Integer(), nullable=True),\n sa.ForeignKeyConstraint(['user_id'], ['user.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_customer_address'), 'customer', ['address'], unique=False)\n op.create_index(op.f('ix_customer_city'), 'customer', ['city'], unique=False)\n op.create_index(op.f('ix_customer_country'), 'customer', ['country'], unique=False)\n op.create_index(op.f('ix_customer_customername'), 'customer', ['customername'], unique=False)\n op.create_index(op.f('ix_customer_postalcode'), 'customer', ['postalcode'], unique=False)\n op.create_table('followers',\n sa.Column('follower_id', sa.Integer(), nullable=True),\n sa.Column('followed_id', sa.Integer(), nullable=True),\n sa.ForeignKeyConstraint(['followed_id'], ['user.id'], ),\n sa.ForeignKeyConstraint(['follower_id'], ['user.id'], )\n )\n op.create_table('post',\n sa.Column('body', sa.String(length=140), nullable=True),\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('timestamp', sa.DateTime(), nullable=True),\n sa.Column('user_id', sa.Integer(), nullable=True),\n sa.ForeignKeyConstraint(['user_id'], ['user.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_post_timestamp'), 'post', ['timestamp'], unique=False)\n op.create_table('product',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('productname', sa.String(length=255), nullable=True),\n sa.Column('supplier_id', sa.Integer(), nullable=True),\n sa.Column('category_id', sa.Integer(), nullable=True),\n sa.Column('unit', sa.Integer(), nullable=True),\n sa.Column('price', sa.Numeric(), nullable=True),\n sa.ForeignKeyConstraint(['category_id'], ['category.id'], ),\n sa.ForeignKeyConstraint(['supplier_id'], ['supplier.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_product_productname'), 'product', ['productname'], unique=False)\n op.create_table('order',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('customer_id', sa.Integer(), nullable=True),\n sa.Column('orderdate', sa.Date(), nullable=True),\n sa.Column('shipper_id', sa.Integer(), nullable=True),\n sa.ForeignKeyConstraint(['customer_id'], ['customer.id'], ),\n sa.ForeignKeyConstraint(['shipper_id'], ['shipper.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_table('order_detail',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('order_id', sa.Integer(), nullable=True),\n sa.Column('product_id', sa.Integer(), nullable=True),\n sa.Column('quantity', sa.Integer(), nullable=True),\n sa.ForeignKeyConstraint(['order_id'], ['order.id'], ),\n sa.ForeignKeyConstraint(['product_id'], ['product.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n # ### end Alembic commands ###\n\n\ndef downgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.drop_table('order_detail')\n op.drop_table('order')\n op.drop_index(op.f('ix_product_productname'), table_name='product')\n op.drop_table('product')\n op.drop_index(op.f('ix_post_timestamp'), table_name='post')\n op.drop_table('post')\n op.drop_table('followers')\n op.drop_index(op.f('ix_customer_postalcode'), table_name='customer')\n op.drop_index(op.f('ix_customer_customername'), table_name='customer')\n op.drop_index(op.f('ix_customer_country'), table_name='customer')\n op.drop_index(op.f('ix_customer_city'), table_name='customer')\n op.drop_index(op.f('ix_customer_address'), table_name='customer')\n op.drop_table('customer')\n op.drop_index(op.f('ix_user_username'), table_name='user')\n op.drop_index(op.f('ix_user_email'), table_name='user')\n op.drop_table('user')\n op.drop_index(op.f('ix_supplier_suppliername'), table_name='supplier')\n op.drop_index(op.f('ix_supplier_postalcode'), table_name='supplier')\n op.drop_index(op.f('ix_supplier_phone'), table_name='supplier')\n op.drop_index(op.f('ix_supplier_country'), table_name='supplier')\n op.drop_index(op.f('ix_supplier_contactname'), table_name='supplier')\n op.drop_index(op.f('ix_supplier_city'), table_name='supplier')\n op.drop_index(op.f('ix_supplier_address'), table_name='supplier')\n op.drop_table('supplier')\n op.drop_index(op.f('ix_shipper_shippername'), table_name='shipper')\n op.drop_index(op.f('ix_shipper_phone'), table_name='shipper')\n op.drop_table('shipper')\n op.drop_index(op.f('ix_employee_lastname'), table_name='employee')\n op.drop_index(op.f('ix_employee_firstname'), table_name='employee')\n op.drop_index(op.f('ix_employee_employeeID'), table_name='employee')\n op.drop_table('employee')\n op.drop_index(op.f('ix_category_categoryname'), table_name='category')\n op.drop_table('category')\n # ### end Alembic commands ###\n" }, { "alpha_fraction": 0.6984207630157471, "alphanum_fraction": 0.7024961709976196, "avg_line_length": 41.69565200805664, "blob_id": "6c9875efd3614ec1095c3ab255fb82eac7d10d7a", "content_id": "1b2274b737f75efc0a99ddf8b918d222c70f4202", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1963, "license_type": "no_license", "max_line_length": 112, "num_lines": 46, "path": "/app/main/forms.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "##Form code initially taken from https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-iii-web-forms\n##then altered as necessary to fit the needs of the project\nfrom flask import request\nfrom flask_wtf import FlaskForm\nfrom wtforms import StringField, TextAreaField, PasswordField, BooleanField, SubmitField, SelectField\nfrom wtforms.validators import ValidationError, DataRequired, Email, EqualTo, Length\nfrom app.models import User, Employee\n\n\nclass EditProfileForm(FlaskForm):\n username = StringField('Username', validators=[DataRequired()])\n about_me = TextAreaField('About me', validators=[Length(min=0, max=140)])\n submit = SubmitField('Submit')\n\n##Next two pulled from https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-vii-error-handling\n def __init__(self, original_username, args, kwargs):\n super(EditProfileForm, self).__init__(args, *kwargs)\n self.original_username = original_username\n\n def validate_username(self, username):\n if username.data != self.original_username:\n user = User.query.filter_by(username=self.username.data).first()\n if user is not None:\n raise ValidationError('Please use a different username.')\n\n\nclass PostForm(FlaskForm):\n post = TextAreaField('Say something', validators=[\n DataRequired(), Length(min=1, max=140)])\n submit = SubmitField('Submit')\n\n\nclass SortForm(FlaskForm):\n sort_type = SelectField('Sort', coerce=int)\n submit = SubmitField('Sort')\n\n##From https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-xvi-full-text-search\nclass SearchForm(FlaskForm):\n q = StringField('Search', validators=[DataRequired()])\n\n def __init__(self, args, *kwargs):\n if 'formdata' not in kwargs:\n kwargs['formdata'] = request.args\n if 'csrf_enabled' not in kwargs:\n kwargs['csrf_enabled'] = False\n super(SearchForm, self).__init__(args, *kwargs)" }, { "alpha_fraction": 0.7174447178840637, "alphanum_fraction": 0.7616707682609558, "avg_line_length": 30.384614944458008, "blob_id": "404f46d429576fb03b3b6a59088ea2b3bada67d2", "content_id": "6026af27d3fe8bf0a012d0d7a08945bb61ba7b7a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 407, "license_type": "no_license", "max_line_length": 99, "num_lines": 13, "path": "/app/errors/handlers.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "## Pulled from https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-vii-error-handling\nfrom flask import render_template\nfrom app import db\nfrom app.errors import bp\n\[email protected](404)\ndef not_found_error(error):\n return render_template('errors/404.html'), 404\n\[email protected](500)\ndef internal_error(error):\n db.session.rollback()\n return render_template('errors/500.html'), 500" }, { "alpha_fraction": 0.71433424949646, "alphanum_fraction": 0.71535325050354, "avg_line_length": 45.74603271484375, "blob_id": "173c55f1d0d70e1c5ae45757e67af028e8f87edd", "content_id": "a2f1d04eb9e72955d52ecd9d206b9a36c51eaa05", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2944, "license_type": "no_license", "max_line_length": 109, "num_lines": 63, "path": "/app/auth/forms.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "from flask_wtf import FlaskForm\nfrom wtforms import StringField, PasswordField, BooleanField, SubmitField, TextAreaField, SelectField\nfrom wtforms.validators import ValidationError, DataRequired, Email, EqualTo, Length\nfrom app.models import User, Employee\n\n\nclass LoginForm(FlaskForm):\n username = StringField('Username', validators=[DataRequired()])\n password = PasswordField('Password', validators=[DataRequired()])\n remember_me = BooleanField('Remember Me')\n submit = SubmitField('Sign In')\n\n\nclass RegistrationForm(FlaskForm):\n username = StringField('Username', validators=[DataRequired()])\n email = StringField('Email', validators=[DataRequired(), Email()])\n password = PasswordField('Password', validators=[DataRequired()])\n password2 = PasswordField(\n 'Repeat Password', validators=[DataRequired(), EqualTo('password')])\n submit = SubmitField('Register')\n\n def validate_username(self, username):\n user = User.query.filter_by(username=username.data).first()\n if user is not None:\n raise ValidationError('Please use a different username.')\n\n def validate_email(self, email):\n user = User.query.filter_by(email=email.data).first()\n if user is not None:\n raise ValidationError('Please use a different email address.')\n\n\n\nclass EmployeeRegistrationForm(FlaskForm):\n employee_id = StringField('Employee ID', validators=[DataRequired()])\n lastname = StringField('Last name', validators=[DataRequired()])\n firstname = StringField('First name', validators=[DataRequired()])\n password = PasswordField('Password', validators=[DataRequired()])\n password2 = PasswordField(\n 'Repeat Password', validators=[DataRequired(), EqualTo('password')])\n submit = SubmitField('Register')\n\n def validate_employee_id(self, employee_id):\n employee = Employee.query.filter_by(employeeID=employee_id.data).first()\n if employee is not None:\n raise ValidationError('Please use a different ID number.')\n\n def validate_name(self, lastname, firstname):\n employee = Employee.query.filter_by(lastname=lastname.data, firstname=firstname.data).first()\n if employee is not None:\n raise ValidationError('This name is already in use. Please use a different first and last name.')\n\n##Pulled from https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-x-email-support\nclass ResetPasswordRequestForm(FlaskForm):\n email = StringField('Email', validators=[DataRequired(), Email()])\n submit = SubmitField('Request Password Reset')\n\n##from https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-x-email-support\nclass ResetPasswordForm(FlaskForm):\n password = PasswordField('Password', validators=[DataRequired()])\n password2 = PasswordField(\n 'Repeat Password', validators=[DataRequired(), EqualTo('password')])\n submit = SubmitField('Request Password Reset')" }, { "alpha_fraction": 0.659111738204956, "alphanum_fraction": 0.6731913685798645, "avg_line_length": 48.6363639831543, "blob_id": "8eb3b33bfbf6fa89295f45b92f67451a06971f9c", "content_id": "aa1d2dd7210d2c330ab138a1535443fd15d479fd", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8736, "license_type": "no_license", "max_line_length": 92, "num_lines": 176, "path": "/migrations/versions/10ef47bef304_remove_tables_to_alter_them_as_sqlite_.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "\"\"\"Remove tables to alter them as sqlite does not support droping or altering table columns.\n\nRevision ID: 10ef47bef304\nRevises: 9f614adf3ffa\nCreate Date: 2018-11-28 13:22:31.788466\n\n\"\"\"\nfrom alembic import op\nimport sqlalchemy as sa\n\n\n# revision identifiers, used by Alembic.\nrevision = '10ef47bef304'\ndown_revision = '9f614adf3ffa'\nbranch_labels = None\ndepends_on = None\n\n\ndef upgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.drop_index('ix_category_categoryname', table_name='category')\n op.drop_table('category')\n op.drop_table('followers')\n op.drop_index('ix_shipper_phone', table_name='shipper')\n op.drop_index('ix_shipper_shippername', table_name='shipper')\n op.drop_table('shipper')\n op.drop_index('ix_supplier_address', table_name='supplier')\n op.drop_index('ix_supplier_city', table_name='supplier')\n op.drop_index('ix_supplier_contactname', table_name='supplier')\n op.drop_index('ix_supplier_country', table_name='supplier')\n op.drop_index('ix_supplier_phone', table_name='supplier')\n op.drop_index('ix_supplier_postalcode', table_name='supplier')\n op.drop_index('ix_supplier_suppliername', table_name='supplier')\n op.drop_table('supplier')\n op.drop_table('order_detail')\n op.drop_index('ix_employee_firstname', table_name='employee')\n op.drop_index('ix_employee_lastname', table_name='employee')\n op.drop_table('employee')\n op.drop_table('order')\n op.drop_index('ix_post_timestamp', table_name='post')\n op.drop_table('post')\n op.drop_index('ix_customer_address', table_name='customer')\n op.drop_index('ix_customer_city', table_name='customer')\n op.drop_index('ix_customer_contactname', table_name='customer')\n op.drop_index('ix_customer_country', table_name='customer')\n op.drop_index('ix_customer_customername', table_name='customer')\n op.drop_index('ix_customer_postalcode', table_name='customer')\n op.drop_table('customer')\n op.drop_index('ix_product_productname', table_name='product')\n op.drop_table('product')\n op.drop_index('ix_user_email', table_name='user')\n op.drop_index('ix_user_username', table_name='user')\n op.drop_table('user')\n # ### end Alembic commands ###\n\n\ndef downgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.create_table('user',\n sa.Column('id', sa.INTEGER(), nullable=False),\n sa.Column('username', sa.VARCHAR(length=64), nullable=True),\n sa.Column('email', sa.VARCHAR(length=120), nullable=True),\n sa.Column('password_hash', sa.VARCHAR(length=128), nullable=True),\n sa.Column('about_me', sa.VARCHAR(length=255), nullable=True),\n sa.Column('last_seen', sa.DATETIME(), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index('ix_user_username', 'user', ['username'], unique=1)\n op.create_index('ix_user_email', 'user', ['email'], unique=1)\n op.create_table('product',\n sa.Column('id', sa.INTEGER(), nullable=False),\n sa.Column('productname', sa.VARCHAR(length=255), nullable=True),\n sa.Column('supplier_id', sa.INTEGER(), nullable=True),\n sa.Column('category_id', sa.INTEGER(), nullable=True),\n sa.Column('unit', sa.INTEGER(), nullable=True),\n sa.Column('price', sa.NUMERIC(), nullable=True),\n sa.ForeignKeyConstraint(['category_id'], ['category.id'], ),\n sa.ForeignKeyConstraint(['supplier_id'], ['supplier.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index('ix_product_productname', 'product', ['productname'], unique=False)\n op.create_table('customer',\n sa.Column('id', sa.INTEGER(), nullable=False),\n sa.Column('customername', sa.VARCHAR(length=255), nullable=True),\n sa.Column('contactname', sa.VARCHAR(length=255), nullable=True),\n sa.Column('address', sa.VARCHAR(length=255), nullable=True),\n sa.Column('city', sa.VARCHAR(length=255), nullable=True),\n sa.Column('postalcode', sa.VARCHAR(length=255), nullable=True),\n sa.Column('country', sa.VARCHAR(length=255), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index('ix_customer_postalcode', 'customer', ['postalcode'], unique=False)\n op.create_index('ix_customer_customername', 'customer', ['customername'], unique=False)\n op.create_index('ix_customer_country', 'customer', ['country'], unique=False)\n op.create_index('ix_customer_contactname', 'customer', ['contactname'], unique=False)\n op.create_index('ix_customer_city', 'customer', ['city'], unique=False)\n op.create_index('ix_customer_address', 'customer', ['address'], unique=False)\n op.create_table('post',\n sa.Column('body', sa.VARCHAR(length=140), nullable=True),\n sa.Column('id', sa.INTEGER(), nullable=False),\n sa.Column('timestamp', sa.DATETIME(), nullable=True),\n sa.Column('user_id', sa.INTEGER(), nullable=True),\n sa.ForeignKeyConstraint(['user_id'], ['user.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index('ix_post_timestamp', 'post', ['timestamp'], unique=False)\n op.create_table('order',\n sa.Column('id', sa.INTEGER(), nullable=False),\n sa.Column('customer_id', sa.INTEGER(), nullable=True),\n sa.Column('employee_id', sa.INTEGER(), nullable=True),\n sa.Column('orderdate', sa.DATE(), nullable=True),\n sa.Column('shipper_id', sa.INTEGER(), nullable=True),\n sa.ForeignKeyConstraint(['customer_id'], ['customer.id'], ),\n sa.ForeignKeyConstraint(['employee_id'], ['employee.id'], ),\n sa.ForeignKeyConstraint(['shipper_id'], ['shipper.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_table('employee',\n sa.Column('id', sa.INTEGER(), nullable=False),\n sa.Column('lastname', sa.VARCHAR(length=255), nullable=True),\n sa.Column('firstname', sa.VARCHAR(length=255), nullable=True),\n sa.Column('birthdate', sa.DATETIME(), nullable=True),\n sa.Column('notes', sa.TEXT(length=1000), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index('ix_employee_lastname', 'employee', ['lastname'], unique=False)\n op.create_index('ix_employee_firstname', 'employee', ['firstname'], unique=False)\n op.create_table('order_detail',\n sa.Column('id', sa.INTEGER(), nullable=False),\n sa.Column('order_id', sa.INTEGER(), nullable=True),\n sa.Column('product_id', sa.INTEGER(), nullable=True),\n sa.Column('quantity', sa.INTEGER(), nullable=True),\n sa.ForeignKeyConstraint(['order_id'], ['order.id'], ),\n sa.ForeignKeyConstraint(['product_id'], ['product.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_table('supplier',\n sa.Column('id', sa.INTEGER(), nullable=False),\n sa.Column('suppliername', sa.VARCHAR(length=255), nullable=True),\n sa.Column('contactname', sa.VARCHAR(length=255), nullable=True),\n sa.Column('address', sa.VARCHAR(length=255), nullable=True),\n sa.Column('city', sa.VARCHAR(length=255), nullable=True),\n sa.Column('postalcode', sa.VARCHAR(length=255), nullable=True),\n sa.Column('country', sa.VARCHAR(length=255), nullable=True),\n sa.Column('phone', sa.VARCHAR(length=25), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index('ix_supplier_suppliername', 'supplier', ['suppliername'], unique=False)\n op.create_index('ix_supplier_postalcode', 'supplier', ['postalcode'], unique=False)\n op.create_index('ix_supplier_phone', 'supplier', ['phone'], unique=False)\n op.create_index('ix_supplier_country', 'supplier', ['country'], unique=False)\n op.create_index('ix_supplier_contactname', 'supplier', ['contactname'], unique=False)\n op.create_index('ix_supplier_city', 'supplier', ['city'], unique=False)\n op.create_index('ix_supplier_address', 'supplier', ['address'], unique=False)\n op.create_table('shipper',\n sa.Column('id', sa.INTEGER(), nullable=False),\n sa.Column('shippername', sa.VARCHAR(length=255), nullable=True),\n sa.Column('phone', sa.VARCHAR(length=25), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index('ix_shipper_shippername', 'shipper', ['shippername'], unique=False)\n op.create_index('ix_shipper_phone', 'shipper', ['phone'], unique=False)\n op.create_table('followers',\n sa.Column('follower_id', sa.INTEGER(), nullable=True),\n sa.Column('followed_id', sa.INTEGER(), nullable=True),\n sa.ForeignKeyConstraint(['followed_id'], ['user.id'], ),\n sa.ForeignKeyConstraint(['follower_id'], ['user.id'], )\n )\n op.create_table('category',\n sa.Column('id', sa.INTEGER(), nullable=False),\n sa.Column('categoryname', sa.VARCHAR(length=255), nullable=True),\n sa.Column('description', sa.TEXT(length=500), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index('ix_category_categoryname', 'category', ['categoryname'], unique=1)\n # ### end Alembic commands ###\n" }, { "alpha_fraction": 0.6762468218803406, "alphanum_fraction": 0.7049873471260071, "avg_line_length": 35.96875, "blob_id": "13f2a4fb5234430bbfd6d65311ea05f41b3536c4", "content_id": "211908af619f7f1a501afea41620267b50c1c480", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1183, "license_type": "no_license", "max_line_length": 230, "num_lines": 32, "path": "/migrations/versions/18f4e0722456_add_employeeid_password_hash_columns_.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "\"\"\"Add employeeID, password_hash columns and add set_password, check_password, and avatar funcs to Employee table. This was to allow for two sets of users. The general public and employees will have different access and abilities.\n\nRevision ID: 18f4e0722456\nRevises: a9287f3ba5b0\nCreate Date: 2018-11-28 14:17:22.836263\n\n\"\"\"\nfrom alembic import op\nimport sqlalchemy as sa\n\n\n# revision identifiers, used by Alembic.\nrevision = '18f4e0722456'\ndown_revision = 'a9287f3ba5b0'\nbranch_labels = None\ndepends_on = None\n\n\ndef upgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.add_column('employee', sa.Column('employeeID', sa.Integer(), nullable=True))\n op.add_column('employee', sa.Column('password_hash', sa.String(length=128), nullable=True))\n op.create_index(op.f('ix_employee_employeeID'), 'employee', ['employeeID'], unique=True)\n # ### end Alembic commands ###\n\n\ndef downgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.drop_index(op.f('ix_employee_employeeID'), table_name='employee')\n op.drop_column('employee', 'password_hash')\n op.drop_column('employee', 'employeeID')\n # ### end Alembic commands ###\n" }, { "alpha_fraction": 0.628654956817627, "alphanum_fraction": 0.682748556137085, "avg_line_length": 23.428571701049805, "blob_id": "cd7797e4b3021d09561d4b9a678df6a77f265132", "content_id": "9bfdfb6c4552e1de2cf967a8567fe31d53ef68f1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 684, "license_type": "no_license", "max_line_length": 88, "num_lines": 28, "path": "/migrations/versions/5a099a3dde86_add_middlename_column_to_user_table.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "\"\"\"Add middlename column to user table.\n\nRevision ID: 5a099a3dde86\nRevises: 81162fe5d987\nCreate Date: 2018-11-29 00:29:52.750869\n\n\"\"\"\nfrom alembic import op\nimport sqlalchemy as sa\n\n\n# revision identifiers, used by Alembic.\nrevision = '5a099a3dde86'\ndown_revision = '81162fe5d987'\nbranch_labels = None\ndepends_on = None\n\n\ndef upgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.add_column('user', sa.Column('middlename', sa.String(length=255), nullable=True))\n # ### end Alembic commands ###\n\n\ndef downgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.drop_column('user', 'middlename')\n # ### end Alembic commands ###\n" }, { "alpha_fraction": 0.8049792647361755, "alphanum_fraction": 0.8049792647361755, "avg_line_length": 119.5, "blob_id": "90bab22f944bf216c65fb655c5c03fe6c9535052", "content_id": "33206c4a4172e1381eec477f96a042b90a62bfdd", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 241, "license_type": "no_license", "max_line_length": 231, "num_lines": 2, "path": "/README.md", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "# Freyja\nA shopping app that allows users to build profiles, interact with one another, and explore products. As of now it supports full text search, has custom built sort categories, and shows custom suggested products the user might like.\n" }, { "alpha_fraction": 0.6215911507606506, "alphanum_fraction": 0.6327816247940063, "avg_line_length": 35.79930877685547, "blob_id": "afe8bef3b7e0ffb6b1d76dec0203656b898e2730", "content_id": "46e1b7816b9475758721fa9723175c7de935a8e4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 10634, "license_type": "no_license", "max_line_length": 106, "num_lines": 289, "path": "/app/models.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "import base64\nimport jwt\nimport os\nfrom werkzeug.security import generate_password_hash, check_password_hash\nfrom hashlib import md5\nfrom flask import current_app, url_for\nfrom flask_login import UserMixin\nfrom datetime import datetime\nfrom time import time\nfrom app import db, login\nfrom app.search import add_to_index, remove_from_index, query_index\n\n\nclass SearchableMixin(object):\n @classmethod\n def search(cls, expression, page, per_page):\n ids, total = query_index(cls.__tablename__, expression, page, per_page)\n if total == 0:\n return cls.query.filter_by(id=0), 0\n when = []\n for i in range(len(ids)):\n when.append((ids[i], i))\n return cls.query.filter(cls.id.in_(ids)).order_by(\n db.case(when, value=cls.id)), total\n\n @classmethod\n def before_commit(cls, session):\n session._changes = {\n 'add': list(session.new),\n 'update': list(session.dirty),\n 'delete': list(session.deleted)\n }\n\n @classmethod\n def after_commit(cls, session):\n for obj in session._changes['add']:\n if isinstance(obj, SearchableMixin):\n add_to_index(obj.__tablename__, obj)\n for obj in session._changes['update']:\n if isinstance(obj, SearchableMixin):\n add_to_index(obj.__tablename__, obj)\n for obj in session._changes['delete']:\n if isinstance(obj, SearchableMixin):\n remove_from_index(obj.__tablename__, obj)\n session._changes = None\n\n @classmethod\n def reindex(cls):\n for obj in cls.query:\n add_to_index(cls.__tablename__, obj)\n\ndb.event.listen(db.session, 'before_commit', SearchableMixin.before_commit)\ndb.event.listen(db.session, 'after_commit', SearchableMixin.after_commit)\n\n\n\n\n##Pulled from https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-viii-followers\nfollowers = db.Table('followers',\n db.Column('follower_id', db.Integer, db.ForeignKey('user.id')),\n db.Column('followed_id', db.Integer, db.ForeignKey('user.id'))\n)\n\n\nclass User(UserMixin, db.Model):\n id = db.Column(db.Integer, primary_key=True)\n username = db.Column(db.String(64), index=True, unique=True)\n customername = db.Column(db.String(255), index=True)\n lastname = db.Column(db.String(255), index=True)\n middlename = db.Column(db.String(255))\n firstname = db.Column(db.String(255), index=True)\n email = db.Column(db.String(120), index=True, unique=True)\n password_hash = db.Column(db.String(128))\n about_me = db.Column(db.String(255))\n last_seen = db.Column(db.DateTime, default=datetime.utcnow)\n address = db.Column(db.String(255), index=True)\n city = db.Column(db.String(255), index=True)\n postalcode = db.Column(db.String(255), index=True)\n country = db.Column(db.String(255), index=True)\n orders = db.relationship('Order', backref='customer', lazy='dynamic')\n posts = db.relationship('Post', backref='author', lazy='dynamic')\n reviews = db.relationship('Review', backref='user', lazy='dynamic')\n ##Pulled from https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-viii-followers\n followed = db.relationship(\n 'User', secondary=followers,\n primaryjoin=(followers.c.follower_id == id),\n secondaryjoin=(followers.c.followed_id == id),\n backref=db.backref('followers', lazy='dynamic'), lazy='dynamic')\n\n def __repr__(self):\n return '<User {}>'.format(self.username)\n\n def set_password(self, password):\n self.password_hash = generate_password_hash(password)\n\n def check_password(self, password):\n return check_password_hash(self.password_hash, password)\n\n def avatar(self, size):\n digest = md5(self.email.lower().encode('utf-8')).hexdigest()\n return 'https://www.gravatar.com/avatar/{}?d=identicon&s={}'.format(\n digest, size)\n\n ##Next 3 pulled from https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-viii-followers\n def follow(self, user):\n if not self.is_following(user):\n self.followed.append(user)\n\n def unfollow(self, user):\n if self.is_following(user):\n self.followed.remove(user)\n\n def is_following(self, user):\n return self.followed.filter(\n followers.c.followed_id == user.id).count() > 0\n\n def followed_posts(self):\n followed = Post.query.join(\n followers, (followers.c.followed_id == Post.user_id)).filter(\n followers.c.follower_id == self.id)\n own = Post.query.filter_by(user_id=self.id)\n return followed.union(own).order_by(Post.timestamp.desc())\n\n ##next 2 pulled from https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-x-email-support\n def get_reset_password_token(self, expires_in=600):\n return jwt.encode(\n {'reset_password': self.id, 'exp': time() + expires_in},\n current_app.config['SECRET_KEY'], algorithm='HS256').decode('utf-8')\n\n @staticmethod\n def verify_reset_password_token(token):\n try:\n id = jwt.decode(token, current_app.config['SECRET_KEY'],\n algorithms=['HS256'])['reset_password']\n except:\n return\n return User.query.get(id)\n\n def to_dict(self, include_email=False):\n data = {\n 'id': self.id,\n 'username': self.username,\n 'lastname': self.lastname,\n 'middlename': self.middlename,\n 'firstname': self.firstname,\n 'last_seen': self.last_seen.isoformat() + 'Z',\n 'about_me': self.about_me,\n 'address': self.address,\n 'city': self.city,\n 'country': self.country,\n 'post_count': self.posts.count(),\n 'follower_count': self.followers.count(),\n 'followed_count': self.followed.count(),\n '_links': {\n 'avatar': self.avatar(128)\n }\n }\n if include_email:\n data['email'] = self.email\n return data\n\n\nclass Post(SearchableMixin, db.Model):\n __searchable__ = ['body']\n\n body = db.Column(db.String(140))\n id = db.Column(db.Integer, primary_key=True)\n timestamp = db.Column(db.DateTime, index=True, default=datetime.utcnow)\n user_id = db.Column(db.Integer, db.ForeignKey('user.id'))\n\n def __repr__(self):\n return '<Post {}>'.format(self.body)\n\n\nclass Category(SearchableMixin, db.Model):\n __searchable__ = ['categoryname']\n\n id = db.Column(db.Integer, primary_key=True)\n categoryname = db.Column(db.String(255), index=True, unique=True)\n description = db.Column(db.Text(500))\n products = db.relationship('Product', backref='category', lazy='dynamic')\n\n\nclass Employee(db.Model):\n id = db.Column(db.Integer, primary_key=True)\n employeeID = db.Column(db.Integer, index=True, unique=True)\n password_hash = db.Column(db.String(128))\n lastname = db.Column(db.String(255), index=True)\n firstname = db.Column(db.String(255), index=True)\n notes = db.Column(db.Text(1000))\n\n def __repr__(self):\n return '<Employee {}>'.format(self.id)\n\n def set_password(self, password):\n self.password_hash = generate_password_hash(password)\n\n def check_password(self, password):\n return check_password_hash(self.password_hash, password)\n\n def avatar(self, size):\n digest = md5(self.email.lower().encode('utf-8')).hexdigest()\n return 'https://www.gravatar.com/avatar/{}?d=identicon&s={}'.format(\n digest, size)\n\n\nclass Order(db.Model):\n id = db.Column(db.Integer, primary_key=True)\n user_id = db.Column(db.Integer, db.ForeignKey('user.id'))\n orderdate = db.Column(db.Date)\n shipper_id = db.Column(db.Integer, db.ForeignKey('shipper.id'))\n orderdetails = db.relationship('OrderDetail', backref='order', lazy='dynamic')\n\n\nclass OrderDetail(db.Model):\n id = db.Column(db.Integer, primary_key=True)\n order_id = db.Column(db.Integer, db.ForeignKey('order.id'))\n product_id = db.Column(db.Integer, db.ForeignKey('product.id'))\n quantity = db.Column(db.Integer)\n\n def to_dict(self):\n data = {\n 'id': self.id,\n 'order_id': self.order_id,\n 'product_id': self.product_id,\n 'order': self.order,\n 'product': self.product,\n 'quantity': self.quantity\n }\n return data\n\n\nclass Product(SearchableMixin, db.Model):\n __searchable__ = ['productname']\n id = db.Column(db.Integer, primary_key=True)\n productname = db.Column(db.String(255), index=True)\n supplier_id = db.Column(db.Integer, db.ForeignKey('supplier.id'))\n category_id = db.Column(db.Integer, db.ForeignKey('category.id'))\n unit = db.Column(db.Integer)\n price = db.Column(db.Numeric(scale=2, asdecimal=True))\n created = db.Column(db.DateTime, default=datetime.utcnow)\n orderdetails = db.relationship('OrderDetail', backref='product', lazy='dynamic')\n reviews = db.relationship('Review', backref='product', lazy='dynamic')\n\n\n def get_rating(self):\n ratings = []\n for rev in self.reviews:\n ratings.append(rev.rating)\n return sum(ratings)/float(len(ratings))\n\n\n\nclass Shipper(db.Model):\n id = db.Column(db.Integer, primary_key=True)\n shippername = db.Column(db.String(255), index=True)\n phone = db.Column(db.String(25), index=True)\n orders = db.relationship('Order', backref='shipper', lazy='dynamic')\n\n\nclass Supplier(SearchableMixin, db.Model):\n __searchable__ = ['suppliername']\n id = db.Column(db.Integer, primary_key=True)\n suppliername = db.Column(db.String(255), index=True)\n contactname = db.Column(db.String(255), index=True)\n address = db.Column(db.String(255), index=True)\n city = db.Column(db.String(255), index=True)\n postalcode = db.Column(db.String(255), index=True)\n country = db.Column(db.String(255), index=True)\n phone = db.Column(db.String(25), index=True)\n products = db.relationship('Product', backref='supplier', lazy='dynamic')\n\n\nclass Review(db.Model):\n id = db.Column(db.Integer, primary_key=True)\n rating = db.Column(db.Integer, index=True)\n review = db.Column(db.Text(1000))\n comments = db.Column(db.Text(300))\n user_id = db.Column(db.Integer, db.ForeignKey('user.id'))\n product_id= db.Column(db.Integer, db.ForeignKey('product.id'))\n\n def top_rated(self):\n r = Review.query.group_by(Review.product_id).order_by(func.avg()).all()\n return r\n\n\[email protected]_loader\ndef load_user(id):\n return User.query.get(int(id))" }, { "alpha_fraction": 0.703978419303894, "alphanum_fraction": 0.7577950954437256, "avg_line_length": 84.11616516113281, "blob_id": "c2e5cc354ca32c60ee2c2c91406270a3279b15c6", "content_id": "ed9af7f5f8c8d0983419ae7530a75055b5cb8bd7", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 33781, "license_type": "no_license", "max_line_length": 473, "num_lines": 396, "path": "/db_populator5in1.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "from datetime import datetime\nfrom app import db\nfrom app.models import User, Category, Supplier, Shipper, Employee\n\n\n\nu0 = User(username=\"MariaAnders\",customername=\"Alfreds Futterkiste\",lastname=None,middlename=None,firstname=\"Maria\",email=\"[email protected]\",address=\"Obere Str. 57\",city=\"Berlin\",postalcode=\"12209\",country=\"Germany\")\nu0.set_password(\"Maria\")\ndb.session.add(u0)\nu1 = User(username=\"AnaTrujillo\",customername=\"Ana Trujillo Emparedados y helados\",lastname=None,middlename=None,firstname=\"Ana\",email=\"[email protected]\",address=\"Avda. de la Constitución 2222\",city=\"México D.F.\",postalcode=\"05021\",country=\"Mexico\")\nu1.set_password(\"Ana\")\ndb.session.add(u1)\nu2 = User(username=\"AntonioMoreno\",customername=\"Antonio Moreno Taquería\",lastname=None,middlename=None,firstname=\"Antonio\",email=\"AntonioMorenoTaquerí[email protected]\",address=\"Mataderos 2312\",city=\"México D.F.\",postalcode=\"05023\",country=\"Mexico\")\nu2.set_password(\"Antonio\")\ndb.session.add(u2)\nu3 = User(username=\"ThomasHardy\",customername=\"Around the Horn\",lastname=None,middlename=None,firstname=\"Thomas\",email=\"[email protected]\",address=\"120 Hanover Sq.\",city=\"London\",postalcode=\"WA1 1DP\",country=\"UK\")\nu3.set_password(\"Thomas\")\ndb.session.add(u3)\nu4 = User(username=\"ChristinaBerglund\",customername=\"Berglunds snabbköp\",lastname=None,middlename=None,firstname=\"Christina\",email=\"Berglundssnabbkö[email protected]\",address=\"Berguvsvägen 8\",city=\"Luleå\",postalcode=\"S-958 22\",country=\"Sweden\")\nu4.set_password(\"Christina\")\ndb.session.add(u4)\nu5 = User(username=\"HannaMoos\",customername=\"Blauer See Delikatessen\",lastname=None,middlename=None,firstname=\"Hanna\",email=\"[email protected]\",address=\"Forsterstr. 57\",city=\"Mannheim\",postalcode=\"68306\",country=\"Germany\")\nu5.set_password(\"Hanna\")\ndb.session.add(u5)\nu6 = User(username=\"FrédériqueCiteaux\",customername=\"Blondel père et fils\",lastname=None,middlename=None,firstname=\"Frédérique\",email=\"Blondelpè[email protected]\",address=\"24, place Kléber\",city=\"Strasbourg\",postalcode=\"67000\",country=\"France\")\nu6.set_password(\"Frédérique\")\ndb.session.add(u6)\nu7 = User(username=\"MartínSommer\",customername=\"Bólido Comidas preparadas\",lastname=None,middlename=None,firstname=\"Martín\",email=\"Bó[email protected]\",address=\"C/ Araquil, 67\",city=\"Madrid\",postalcode=\"28023\",country=\"Spain\")\nu7.set_password(\"Martín\")\ndb.session.add(u7)\nu8 = User(username=\"LaurenceLebihans\",customername=\"Bon app'\",lastname=None,middlename=None,firstname=\"Laurence\",email=\"Bonapp'@example.com\",address=\"12, rue des Bouchers\",city=\"Marseille\",postalcode=\"13008\",country=\"France\")\nu8.set_password(\"Laurence\")\ndb.session.add(u8)\nu9 = User(username=\"ElizabethLincoln\",customername=\"Bottom-Dollar Marketse\",lastname=None,middlename=None,firstname=\"Elizabeth\",email=\"[email protected]\",address=\"23 Tsawassen Blvd.\",city=\"Tsawassen\",postalcode=\"T2F 8M4\",country=\"Canada\")\nu9.set_password(\"Elizabeth\")\ndb.session.add(u9)\nu10 = User(username=\"VictoriaAshworth\",customername=\"B's Beverages\",lastname=None,middlename=None,firstname=\"Victoria\",email=\"B'[email protected]\",address=\"Fauntleroy Circus\",city=\"London\",postalcode=\"EC2 5NT\",country=\"UK\")\nu10.set_password(\"Victoria\")\ndb.session.add(u10)\nu11 = User(username=\"PatricioSimpson\",customername=\"Cactus Comidas para llevar\",lastname=None,middlename=None,firstname=\"Patricio\",email=\"[email protected]\",address=\"Cerrito 333\",city=\"Buenos Aires\",postalcode=\"1010\",country=\"Argentina\")\nu11.set_password(\"Patricio\")\ndb.session.add(u11)\nu12 = User(username=\"FranciscoChang\",customername=\"Centro comercial Moctezuma\",lastname=None,middlename=None,firstname=\"Francisco\",email=\"[email protected]\",address=\"Sierras de Granada 9993\",city=\"México D.F.\",postalcode=\"05022\",country=\"Mexico\")\nu12.set_password(\"Francisco\")\ndb.session.add(u12)\nu13 = User(username=\"YangWang\",customername=\"Chop-suey Chinese\",lastname=None,middlename=None,firstname=\"Yang\",email=\"[email protected]\",address=\"Hauptstr. 29\",city=\"Bern\",postalcode=\"3012\",country=\"Switzerland\")\nu13.set_password(\"Yang\")\ndb.session.add(u13)\nu14 = User(username=\"PedroAfonso\",customername=\"Comércio Mineiro\",lastname=None,middlename=None,firstname=\"Pedro\",email=\"Comé[email protected]\",address=\"Av. dos Lusíadas, 23\",city=\"São Paulo\",postalcode=\"05432-043\",country=\"Brazil\")\nu14.set_password(\"Pedro\")\ndb.session.add(u14)\nu15 = User(username=\"ElizabethBrown\",customername=\"Consolidated Holdings\",lastname=None,middlename=None,firstname=\"Elizabeth\",email=\"[email protected]\",address=\"Berkeley Gardens 12 Brewery \",city=\"London\",postalcode=\"WX1 6LT\",country=\"UK\")\nu15.set_password(\"Elizabeth\")\ndb.session.add(u15)\nu16 = User(username=\"SvenOttlieb\",customername=\"Drachenblut Delikatessend\",lastname=None,middlename=None,firstname=\"Sven\",email=\"[email protected]\",address=\"Walserweg 21\",city=\"Aachen\",postalcode=\"52066\",country=\"Germany\")\nu16.set_password(\"Sven\")\ndb.session.add(u16)\nu17 = User(username=\"JanineLabrune\",customername=\"Du monde entier\",lastname=None,middlename=None,firstname=\"Janine\",email=\"[email protected]\",address=\"67, rue des Cinquante Otages\",city=\"Nantes\",postalcode=\"44000\",country=\"France\")\nu17.set_password(\"Janine\")\ndb.session.add(u17)\nu18 = User(username=\"AnnDevon\",customername=\"Eastern Connection\",lastname=None,middlename=None,firstname=\"Ann\",email=\"[email protected]\",address=\"35 King George\",city=\"London\",postalcode=\"WX3 6FW\",country=\"UK\")\nu18.set_password(\"Ann\")\ndb.session.add(u18)\nu19 = User(username=\"RolandMendel\",customername=\"Ernst Handel\",lastname=None,middlename=None,firstname=\"Roland\",email=\"[email protected]\",address=\"Kirchgasse 6\",city=\"Graz\",postalcode=\"8010\",country=\"Austria\")\nu19.set_password(\"Roland\")\ndb.session.add(u19)\nu20 = User(username=\"AriaCruz\",customername=\"Familia Arquibaldo\",lastname=None,middlename=None,firstname=\"Aria\",email=\"[email protected]\",address=\"Rua Orós, 92\",city=\"São Paulo\",postalcode=\"05442-030\",country=\"Brazil\")\nu20.set_password(\"Aria\")\ndb.session.add(u20)\nu21 = User(username=\"DiegoRoel\",customername=\"FISSA Fabrica Inter. Salchichas S.A.\",lastname=None,middlename=None,firstname=\"Diego\",email=\"[email protected]\",address=\"C/ Moralzarzal, 86\",city=\"Madrid\",postalcode=\"28034\",country=\"Spain\")\nu21.set_password(\"Diego\")\ndb.session.add(u21)\nu22 = User(username=\"MartineRancé\",customername=\"Folies gourmandes\",lastname=None,middlename=None,firstname=\"Martine\",email=\"[email protected]\",address=\"184, chaussée de Tournai\",city=\"Lille\",postalcode=\"59000\",country=\"France\")\nu22.set_password(\"Martine\")\ndb.session.add(u22)\nu23 = User(username=\"MariaLarsson\",customername=\"Folk och fä HB\",lastname=None,middlename=None,firstname=\"Maria\",email=\"Folkochfä[email protected]\",address=\"Åkergatan 24\",city=\"Bräcke\",postalcode=\"S-844 67\",country=\"Sweden\")\nu23.set_password(\"Maria\")\ndb.session.add(u23)\nu24 = User(username=\"PeterFranken\",customername=\"Frankenversand\",lastname=None,middlename=None,firstname=\"Peter\",email=\"[email protected]\",address=\"Berliner Platz 43\",city=\"München\",postalcode=\"80805\",country=\"Germany\")\nu24.set_password(\"Peter\")\ndb.session.add(u24)\nu25 = User(username=\"CarineSchmitt\",customername=\"France restauration\",lastname=None,middlename=None,firstname=\"Carine\",email=\"[email protected]\",address=\"54, rue Royale\",city=\"Nantes\",postalcode=\"44000\",country=\"France\")\nu25.set_password(\"Carine\")\ndb.session.add(u25)\nu26 = User(username=\"PaoloAccorti\",customername=\"Franchi S.p.A.\",lastname=None,middlename=None,firstname=\"Paolo\",email=\"[email protected]\",address=\"Via Monte Bianco 34\",city=\"Torino\",postalcode=\"10100\",country=\"Italy\")\nu26.set_password(\"Paolo\")\ndb.session.add(u26)\nu27 = User(username=\"LinoRodriguez\",customername=\"Furia Bacalhau e Frutos do Mar\",lastname=None,middlename=None,firstname=\"Lino\",email=\"[email protected]\",address=\"Jardim das rosas n. 32\",city=\"Lisboa\",postalcode=\"1675\",country=\"Portugal\")\nu27.set_password(\"Lino\")\ndb.session.add(u27)\nu28 = User(username=\"EduardoSaavedra\",customername=\"Galería del gastrónomo\",lastname=None,middlename=None,firstname=\"Eduardo\",email=\"Galeríadelgastró[email protected]\",address=\"Rambla de Cataluña, 23\",city=\"Barcelona\",postalcode=\"08022\",country=\"Spain\")\nu28.set_password(\"Eduardo\")\ndb.session.add(u28)\nu29 = User(username=\"JoséPedroFreyre\",customername=\"Godos Cocina Típica\",lastname=\"Freyre\",middlename=\"Pedro\",firstname=\"José\",email=\"GodosCocinaTí[email protected]\",address=\"C/ Romero, 33\",city=\"Sevilla\",postalcode=\"41101\",country=\"Spain\")\nu29.set_password(\"José\")\ndb.session.add(u29)\nu30 = User(username=\"AndréFonseca\",customername=\"Gourmet Lanchonetes\",lastname=None,middlename=None,firstname=\"André\",email=\"[email protected]\",address=\"Av. Brasil, 442\",city=\"Campinas\",postalcode=\"04876-786\",country=\"Brazil\")\nu30.set_password(\"André\")\ndb.session.add(u30)\nu31 = User(username=\"HowardSnyder\",customername=\"Great Lakes Food Market\",lastname=None,middlename=None,firstname=\"Howard\",email=\"[email protected]\",address=\"2732 Baker Blvd.\",city=\"Eugene\",postalcode=\"97403\",country=\"USA\")\nu31.set_password(\"Howard\")\ndb.session.add(u31)\nu32 = User(username=\"ManuelPereira\",customername=\"GROSELLA-Restaurante\",lastname=None,middlename=None,firstname=\"Manuel\",email=\"[email protected]\",address=\"5ª Ave. Los Palos Grandes\",city=\"Caracas\",postalcode=\"1081\",country=\"Venezuela\")\nu32.set_password(\"Manuel\")\ndb.session.add(u32)\nu33 = User(username=\"MarioPontes\",customername=\"Hanari Carnes\",lastname=None,middlename=None,firstname=\"Mario\",email=\"[email protected]\",address=\"Rua do Paço, 67\",city=\"Rio de Janeiro\",postalcode=\"05454-876\",country=\"Brazil\")\nu33.set_password(\"Mario\")\ndb.session.add(u33)\nu34 = User(username=\"CarlosHernández\",customername=\"HILARIÓN-Abastos\",lastname=None,middlename=None,firstname=\"Carlos\",email=\"HILARIÓ[email protected]\",address=\"Carrera 22 con Ave. Carlos Soublette #8-35\",city=\"San Cristóbal\",postalcode=\"5022\",country=\"Venezuela\")\nu34.set_password(\"Carlos\")\ndb.session.add(u34)\nu35 = User(username=\"YoshiLatimer\",customername=\"Hungry Coyote Import Store\",lastname=None,middlename=None,firstname=\"Yoshi\",email=\"[email protected]\",address=\"City Center Plaza 516 Main St.\",city=\"Elgin\",postalcode=\"97827\",country=\"USA\")\nu35.set_password(\"Yoshi\")\ndb.session.add(u35)\nu36 = User(username=\"PatriciaMcKenna\",customername=\"Hungry Owl All-Night Grocers\",lastname=None,middlename=None,firstname=\"Patricia\",email=\"[email protected]\",address=\"8 Johnstown Road\",city=\"Cork\",postalcode=\"\",country=\"Ireland\")\nu36.set_password(\"Patricia\")\ndb.session.add(u36)\nu37 = User(username=\"HelenBennett\",customername=\"Island Trading\",lastname=None,middlename=None,firstname=\"Helen\",email=\"[email protected]\",address=\"Garden House Crowther Way\",city=\"Cowes\",postalcode=\"PO31 7PJ\",country=\"UK\")\nu37.set_password(\"Helen\")\ndb.session.add(u37)\nu38 = User(username=\"PhilipCramer\",customername=\"Königlich Essen\",lastname=None,middlename=None,firstname=\"Philip\",email=\"Kö[email protected]\",address=\"Maubelstr. 90\",city=\"Brandenburg\",postalcode=\"14776\",country=\"Germany\")\nu38.set_password(\"Philip\")\ndb.session.add(u38)\nu39 = User(username=\"DanielTonini\",customername=\"La corne d'abondance\",lastname=None,middlename=None,firstname=\"Daniel\",email=\"Lacorned'[email protected]\",address=\"67, avenue de l'Europe\",city=\"Versailles\",postalcode=\"78000\",country=\"France\")\nu39.set_password(\"Daniel\")\ndb.session.add(u39)\nu40 = User(username=\"AnnetteRoulet\",customername=\"La maison d'Asie\",lastname=None,middlename=None,firstname=\"Annette\",email=\"Lamaisond'[email protected]\",address=\"1 rue Alsace-Lorraine\",city=\"Toulouse\",postalcode=\"31000\",country=\"France\")\nu40.set_password(\"Annette\")\ndb.session.add(u40)\nu41 = User(username=\"YoshiTannamuri\",customername=\"Laughing Bacchus Wine Cellars\",lastname=None,middlename=None,firstname=\"Yoshi\",email=\"[email protected]\",address=\"1900 Oak St.\",city=\"Vancouver\",postalcode=\"V3F 2K1\",country=\"Canada\")\nu41.set_password(\"Yoshi\")\ndb.session.add(u41)\nu42 = User(username=\"JohnSteel\",customername=\"Lazy K Kountry Store\",lastname=None,middlename=None,firstname=\"John\",email=\"[email protected]\",address=\"12 Orchestra Terrace\",city=\"Walla Walla\",postalcode=\"99362\",country=\"USA\")\nu42.set_password(\"John\")\ndb.session.add(u42)\nu43 = User(username=\"RenateMessner\",customername=\"Lehmanns Marktstand\",lastname=None,middlename=None,firstname=\"Renate\",email=\"[email protected]\",address=\"Magazinweg 7\",city=\"Frankfurt a.M. \",postalcode=\"60528\",country=\"Germany\")\nu43.set_password(\"Renate\")\ndb.session.add(u43)\nu44 = User(username=\"JaimeYorres\",customername=\"Let's Stop N Shop\",lastname=None,middlename=None,firstname=\"Jaime\",email=\"Let'[email protected]\",address=\"87 Polk St. Suite 5\",city=\"San Francisco\",postalcode=\"94117\",country=\"USA\")\nu44.set_password(\"Jaime\")\ndb.session.add(u44)\nu45 = User(username=\"CarlosGonzález\",customername=\"LILA-Supermercado\",lastname=None,middlename=None,firstname=\"Carlos\",email=\"[email protected]\",address=\"Carrera 52 con Ave. Bolívar #65-98 Llano Largo\",city=\"Barquisimeto\",postalcode=\"3508\",country=\"Venezuela\")\nu45.set_password(\"Carlos\")\ndb.session.add(u45)\nu46 = User(username=\"FelipeIzquierdo\",customername=\"LINO-Delicateses\",lastname=None,middlename=None,firstname=\"Felipe\",email=\"[email protected]\",address=\"Ave. 5 de Mayo Porlamar\",city=\"I. de Margarita\",postalcode=\"4980\",country=\"Venezuela\")\nu46.set_password(\"Felipe\")\ndb.session.add(u46)\nu47 = User(username=\"FranWilson\",customername=\"Lonesome Pine Restaurant\",lastname=None,middlename=None,firstname=\"Fran\",email=\"[email protected]\",address=\"89 Chiaroscuro Rd.\",city=\"Portland\",postalcode=\"97219\",country=\"USA\")\nu47.set_password(\"Fran\")\ndb.session.add(u47)\nu48 = User(username=\"GiovanniRovelli\",customername=\"Magazzini Alimentari Riuniti\",lastname=None,middlename=None,firstname=\"Giovanni\",email=\"[email protected]\",address=\"Via Ludovico il Moro 22\",city=\"Bergamo\",postalcode=\"24100\",country=\"Italy\")\nu48.set_password(\"Giovanni\")\ndb.session.add(u48)\nu49 = User(username=\"CatherineDewey\",customername=\"Maison Dewey\",lastname=None,middlename=None,firstname=\"Catherine\",email=\"[email protected]\",address=\"Rue Joseph-Bens 532\",city=\"Bruxelles\",postalcode=\"B-1180\",country=\"Belgium\")\nu49.set_password(\"Catherine\")\ndb.session.add(u49)\nu50 = User(username=\"JeanFresnière\",customername=\"Mère Paillarde\",lastname=None,middlename=None,firstname=\"Jean\",email=\"Mè[email protected]\",address=\"43 rue St. Laurent\",city=\"Montréal\",postalcode=\"H1J 1C3\",country=\"Canada\")\nu50.set_password(\"Jean\")\ndb.session.add(u50)\nu51 = User(username=\"AlexanderFeuer\",customername=\"Morgenstern Gesundkost\",lastname=None,middlename=None,firstname=\"Alexander\",email=\"[email protected]\",address=\"Heerstr. 22\",city=\"Leipzig\",postalcode=\"04179\",country=\"Germany\")\nu51.set_password(\"Alexander\")\ndb.session.add(u51)\nu52 = User(username=\"SimonCrowther\",customername=\"North/South\",lastname=None,middlename=None,firstname=\"Simon\",email=\"North/[email protected]\",address=\"South House 300 Queensbridge\",city=\"London\",postalcode=\"SW7 1RZ\",country=\"UK\")\nu52.set_password(\"Simon\")\ndb.session.add(u52)\nu53 = User(username=\"YvonneMoncada\",customername=\"Océano Atlántico Ltda.\",lastname=None,middlename=None,firstname=\"Yvonne\",email=\"OcéanoAtlá[email protected]\",address=\"Ing. Gustavo Moncada 8585 Piso 20-A\",city=\"Buenos Aires\",postalcode=\"1010\",country=\"Argentina\")\nu53.set_password(\"Yvonne\")\ndb.session.add(u53)\nu54 = User(username=\"RenePhillips\",customername=\"Old World Delicatessen\",lastname=None,middlename=None,firstname=\"Rene\",email=\"[email protected]\",address=\"2743 Bering St.\",city=\"Anchorage\",postalcode=\"99508\",country=\"USA\")\nu54.set_password(\"Rene\")\ndb.session.add(u54)\nu55 = User(username=\"HenriettePfalzheim\",customername=\"Ottilies Käseladen\",lastname=None,middlename=None,firstname=\"Henriette\",email=\"OttiliesKä[email protected]\",address=\"Mehrheimerstr. 369\",city=\"Köln\",postalcode=\"50739\",country=\"Germany\")\nu55.set_password(\"Henriette\")\ndb.session.add(u55)\nu56 = User(username=\"MarieBertrand\",customername=\"Paris spécialités\",lastname=None,middlename=None,firstname=\"Marie\",email=\"Parisspécialité[email protected]\",address=\"265, boulevard Charonne\",city=\"Paris\",postalcode=\"75012\",country=\"France\")\nu56.set_password(\"Marie\")\ndb.session.add(u56)\nu57 = User(username=\"GuillermoFernández\",customername=\"Pericles Comidas clásicas\",lastname=None,middlename=None,firstname=\"Guillermo\",email=\"PericlesComidasclá[email protected]\",address=\"Calle Dr. Jorge Cash 321\",city=\"México D.F.\",postalcode=\"05033\",country=\"Mexico\")\nu57.set_password(\"Guillermo\")\ndb.session.add(u57)\nu58 = User(username=\"GeorgPipps\",customername=\"Piccolo und mehr\",lastname=None,middlename=None,firstname=\"Georg\",email=\"[email protected]\",address=\"Geislweg 14\",city=\"Salzburg\",postalcode=\"5020\",country=\"Austria\")\nu58.set_password(\"Georg\")\ndb.session.add(u58)\nu59 = User(username=\"IsabeldeCastro\",customername=\"Princesa Isabel Vinhoss\",lastname=\"Castro\",middlename=\"de\",firstname=\"Isabel\",email=\"[email protected]\",address=\"Estrada da saúde n. 58\",city=\"Lisboa\",postalcode=\"1756\",country=\"Portugal\")\nu59.set_password(\"Isabel\")\ndb.session.add(u59)\nu60 = User(username=\"BernardoBatista\",customername=\"Que Delícia\",lastname=None,middlename=None,firstname=\"Bernardo\",email=\"QueDelí[email protected]\",address=\"Rua da Panificadora, 12\",city=\"Rio de Janeiro\",postalcode=\"02389-673\",country=\"Brazil\")\nu60.set_password(\"Bernardo\")\ndb.session.add(u60)\nu61 = User(username=\"LúciaCarvalho\",customername=\"Queen Cozinha\",lastname=None,middlename=None,firstname=\"Lúcia\",email=\"[email protected]\",address=\"Alameda dos Canàrios, 891\",city=\"São Paulo\",postalcode=\"05487-020\",country=\"Brazil\")\nu61.set_password(\"Lúcia\")\ndb.session.add(u61)\nu62 = User(username=\"HorstKloss\",customername=\"QUICK-Stop\",lastname=None,middlename=None,firstname=\"Horst\",email=\"[email protected]\",address=\"Taucherstraße 10\",city=\"Cunewalde\",postalcode=\"01307\",country=\"Germany\")\nu62.set_password(\"Horst\")\ndb.session.add(u62)\nu63 = User(username=\"SergioGutiérrez\",customername=\"Rancho grande\",lastname=None,middlename=None,firstname=\"Sergio\",email=\"[email protected]\",address=\"Av. del Libertador 900\",city=\"Buenos Aires\",postalcode=\"1010\",country=\"Argentina\")\nu63.set_password(\"Sergio\")\ndb.session.add(u63)\nu64 = User(username=\"PaulaWilson\",customername=\"Rattlesnake Canyon Grocery\",lastname=None,middlename=None,firstname=\"Paula\",email=\"[email protected]\",address=\"2817 Milton Dr.\",city=\"Albuquerque\",postalcode=\"87110\",country=\"USA\")\nu64.set_password(\"Paula\")\ndb.session.add(u64)\nu65 = User(username=\"MaurizioMoroni\",customername=\"Reggiani Caseifici\",lastname=None,middlename=None,firstname=\"Maurizio\",email=\"[email protected]\",address=\"Strada Provinciale 124\",city=\"Reggio Emilia\",postalcode=\"42100\",country=\"Italy\")\nu65.set_password(\"Maurizio\")\ndb.session.add(u65)\nu66 = User(username=\"JaneteLimeira\",customername=\"Ricardo Adocicados\",lastname=None,middlename=None,firstname=\"Janete\",email=\"[email protected]\",address=\"Av. Copacabana, 267\",city=\"Rio de Janeiro\",postalcode=\"02389-890\",country=\"Brazil\")\nu66.set_password(\"Janete\")\ndb.session.add(u66)\nu67 = User(username=\"MichaelHolz\",customername=\"Richter Supermarkt\",lastname=None,middlename=None,firstname=\"Michael\",email=\"[email protected]\",address=\"Grenzacherweg 237\",city=\"Genève\",postalcode=\"1203\",country=\"Switzerland\")\nu67.set_password(\"Michael\")\ndb.session.add(u67)\nu68 = User(username=\"AlejandraCamino\",customername=\"Romero y tomillo\",lastname=None,middlename=None,firstname=\"Alejandra\",email=\"[email protected]\",address=\"Gran Vía, 1\",city=\"Madrid\",postalcode=\"28001\",country=\"Spain\")\nu68.set_password(\"Alejandra\")\ndb.session.add(u68)\nu69 = User(username=\"JonasBergulfsen\",customername=\"Santé Gourmet\",lastname=None,middlename=None,firstname=\"Jonas\",email=\"Santé[email protected]\",address=\"Erling Skakkes gate 78\",city=\"Stavern\",postalcode=\"4110\",country=\"Norway\")\nu69.set_password(\"Jonas\")\ndb.session.add(u69)\nu70 = User(username=\"JosePavarotti\",customername=\"Save-a-lot Markets\",lastname=None,middlename=None,firstname=\"Jose\",email=\"[email protected]\",address=\"187 Suffolk Ln.\",city=\"Boise\",postalcode=\"83720\",country=\"USA\")\nu70.set_password(\"Jose\")\ndb.session.add(u70)\nu71 = User(username=\"HariKumar\",customername=\"Seven Seas Imports\",lastname=None,middlename=None,firstname=\"Hari\",email=\"[email protected]\",address=\"90 Wadhurst Rd.\",city=\"London\",postalcode=\"OX15 4NB\",country=\"UK\")\nu71.set_password(\"Hari\")\ndb.session.add(u71)\nu72 = User(username=\"JyttePetersen\",customername=\"Simons bistro\",lastname=None,middlename=None,firstname=\"Jytte\",email=\"[email protected]\",address=\"Vinbæltet 34\",city=\"København\",postalcode=\"1734\",country=\"Denmark\")\nu72.set_password(\"Jytte\")\ndb.session.add(u72)\nu73 = User(username=\"DominiquePerrier\",customername=\"Spécialités du monde\",lastname=None,middlename=None,firstname=\"Dominique\",email=\"Spécialité[email protected]\",address=\"25, rue Lauriston\",city=\"Paris\",postalcode=\"75016\",country=\"France\")\nu73.set_password(\"Dominique\")\ndb.session.add(u73)\nu74 = User(username=\"ArtBraunschweiger\",customername=\"Split Rail Beer & Ale\",lastname=None,middlename=None,firstname=\"Art\",email=\"SplitRailBeer&[email protected]\",address=\"P.O. Box 555\",city=\"Lander\",postalcode=\"82520\",country=\"USA\")\nu74.set_password(\"Art\")\ndb.session.add(u74)\nu75 = User(username=\"PascaleCartrain\",customername=\"Suprêmes délices\",lastname=None,middlename=None,firstname=\"Pascale\",email=\"Suprêmesdé[email protected]\",address=\"Boulevard Tirou, 255\",city=\"Charleroi\",postalcode=\"B-6000\",country=\"Belgium\")\nu75.set_password(\"Pascale\")\ndb.session.add(u75)\nu76 = User(username=\"LizNixon\",customername=\"The Big Cheese\",lastname=None,middlename=None,firstname=\"Liz\",email=\"[email protected]\",address=\"89 Jefferson Way Suite 2\",city=\"Portland\",postalcode=\"97201\",country=\"USA\")\nu76.set_password(\"Liz\")\ndb.session.add(u76)\nu77 = User(username=\"LiuWong\",customername=\"The Cracker Box\",lastname=None,middlename=None,firstname=\"Liu\",email=\"[email protected]\",address=\"55 Grizzly Peak Rd.\",city=\"Butte\",postalcode=\"59801\",country=\"USA\")\nu77.set_password(\"Liu\")\ndb.session.add(u77)\nu78 = User(username=\"KarinJosephs\",customername=\"Toms Spezialitäten\",lastname=None,middlename=None,firstname=\"Karin\",email=\"TomsSpezialitä[email protected]\",address=\"Luisenstr. 48\",city=\"Münster\",postalcode=\"44087\",country=\"Germany\")\nu78.set_password(\"Karin\")\ndb.session.add(u78)\nu79 = User(username=\"MiguelAngelPaolino\",customername=\"Tortuga Restaurante\",lastname=\"Paolino\",middlename=\"Angel\",firstname=\"Miguel\",email=\"[email protected]\",address=\"Avda. Azteca 123\",city=\"México D.F.\",postalcode=\"05033\",country=\"Mexico\")\nu79.set_password(\"Miguel\")\ndb.session.add(u79)\nu80 = User(username=\"AnabelaDomingues\",customername=\"Tradição Hipermercados\",lastname=None,middlename=None,firstname=\"Anabela\",email=\"Tradiçã[email protected]\",address=\"Av. Inês de Castro, 414\",city=\"São Paulo\",postalcode=\"05634-030\",country=\"Brazil\")\nu80.set_password(\"Anabela\")\ndb.session.add(u80)\nu81 = User(username=\"HelvetiusNagy\",customername=\"Trail's Head Gourmet Provisioners\",lastname=None,middlename=None,firstname=\"Helvetius\",email=\"Trail'[email protected]\",address=\"722 DaVinci Blvd.\",city=\"Kirkland\",postalcode=\"98034\",country=\"USA\")\nu81.set_password(\"Helvetius\")\ndb.session.add(u81)\nu82 = User(username=\"PalleIbsen\",customername=\"Vaffeljernet\",lastname=None,middlename=None,firstname=\"Palle\",email=\"[email protected]\",address=\"Smagsløget 45\",city=\"Århus\",postalcode=\"8200\",country=\"Denmark\")\nu82.set_password(\"Palle\")\ndb.session.add(u82)\nu83 = User(username=\"MarySaveley\",customername=\"Victuailles en stock\",lastname=None,middlename=None,firstname=\"Mary\",email=\"[email protected]\",address=\"2, rue du Commerce\",city=\"Lyon\",postalcode=\"69004\",country=\"France\")\nu83.set_password(\"Mary\")\ndb.session.add(u83)\nu84 = User(username=\"PaulHenriot\",customername=\"Vins et alcools Chevalier\",lastname=None,middlename=None,firstname=\"Paul\",email=\"[email protected]\",address=\"59 rue de l'Abbaye\",city=\"Reims\",postalcode=\"51100\",country=\"France\")\nu84.set_password(\"Paul\")\ndb.session.add(u84)\nu85 = User(username=\"RitaMüller\",customername=\"Die Wandernde Kuh\",lastname=None,middlename=None,firstname=\"Rita\",email=\"[email protected]\",address=\"Adenauerallee 900\",city=\"Stuttgart\",postalcode=\"70563\",country=\"Germany\")\nu85.set_password(\"Rita\")\ndb.session.add(u85)\nu86 = User(username=\"PirkkoKoskitalo\",customername=\"Wartian Herkku\",lastname=None,middlename=None,firstname=\"Pirkko\",email=\"[email protected]\",address=\"Torikatu 38\",city=\"Oulu\",postalcode=\"90110\",country=\"Finland\")\nu86.set_password(\"Pirkko\")\ndb.session.add(u86)\nu87 = User(username=\"PaulaParente\",customername=\"Wellington Importadora\",lastname=None,middlename=None,firstname=\"Paula\",email=\"[email protected]\",address=\"Rua do Mercado, 12\",city=\"Resende\",postalcode=\"08737-363\",country=\"Brazil\")\nu87.set_password(\"Paula\")\ndb.session.add(u87)\nu88 = User(username=\"KarlJablonski\",customername=\"White Clover Markets\",lastname=None,middlename=None,firstname=\"Karl\",email=\"[email protected]\",address=\"305 - 14th Ave. S. Suite 3B\",city=\"Seattle\",postalcode=\"98128\",country=\"USA\")\nu88.set_password(\"Karl\")\ndb.session.add(u88)\nu89 = User(username=\"MattiKarttunen\",customername=\"Wilman Kala\",lastname=None,middlename=None,firstname=\"Matti\",email=\"[email protected]\",address=\"Keskuskatu 45\",city=\"Helsinki\",postalcode=\"21240\",country=\"Finland\")\nu89.set_password(\"Matti\")\ndb.session.add(u89)\nu90 = User(username=\"Zbyszek\",customername=\"Wolski\",lastname=None,middlename=None,firstname=\"Zbyszek\",email=\"[email protected]\",address=\"ul. Filtrowa 68\",city=\"Walla\",postalcode=\"01-012\",country=\"Poland\")\nu90.set_password(\"Zbyszek\")\ndb.session.add(u90)\ndb.session.commit()\n\n\n\nsu1 = Supplier(suppliername=\"Exotic Liquid\",contactname=\"Charlotte Cooper\",address=\"49 Gilbert St.\",city=\"Londona\",postalcode=\"EC1 4SD\",country=\"UK\",phone=\"(171) 555-2222\")\ndb.session.add(su1)\nsu2 = Supplier(suppliername=\"New Orleans Cajun Delights\",contactname=\"Shelley Burke\",address=\"P.O. Box 78934\",city=\"New Orleans\",postalcode=\"70117\",country=\"USA\",phone=\"(100) 555-4822\")\ndb.session.add(su2)\nsu3 = Supplier(suppliername=\"Grandma Kelly's Homestead\",contactname=\"Regina Murphy\",address=\"707 Oxford Rd.\",city=\"Ann Arbor\",postalcode=\"48104\",country=\"USA\",phone=\"(313) 555-5735\")\ndb.session.add(su3)\nsu4 = Supplier(suppliername=\"Tokyo Traders\",contactname=\"Yoshi Nagase\",address=\"9-8 Sekimai Musashino-shi\",city=\"Tokyo\",postalcode=\"100\",country=\"Japan\",phone=\"(03) 3555-5011\")\ndb.session.add(su4)\nsu5 = Supplier(suppliername=\"Cooperativa de Quesos 'Las Cabras'\",contactname=\"Antonio del Valle Saavedra \",address=\"Calle del Rosal 4\",city=\"Oviedo\",postalcode=\"33007\",country=\"Spain\",phone=\"(98) 598 76 54\")\ndb.session.add(su5)\nsu6 = Supplier(suppliername=\"Mayumi's\",contactname=\"Mayumi Ohno\",address=\"92 Setsuko Chuo-ku\",city=\"Osaka\",postalcode=\"545\",country=\"Japan\",phone=\"(06) 431-7877\")\ndb.session.add(su6)\nsu7 = Supplier(suppliername=\"Pavlova, Ltd.\",contactname=\"Ian Devling\",address=\"74 Rose St. Moonie Ponds\",city=\"Melbourne\",postalcode=\"3058\",country=\"Australia\",phone=\"(03) 444-2343\")\ndb.session.add(su7)\nsu8 = Supplier(suppliername=\"Specialty Biscuits, Ltd.\",contactname=\"Peter Wilson\",address=\"29 King's Way\",city=\"Manchester\",postalcode=\"M14 GSD\",country=\"UK\",phone=\"(161) 555-4448\")\ndb.session.add(su8)\nsu9 = Supplier(suppliername=\"PB Knäckebröd AB\",contactname=\"Lars Peterson\",address=\"Kaloadagatan 13\",city=\"Göteborg\",postalcode=\"S-345 67\",country=\"Sweden \",phone=\"031-987 65 43\")\ndb.session.add(su9)\nsu10 = Supplier(suppliername=\"Refrescos Americanas LTDA\",contactname=\"Carlos Diaz\",address=\"Av. das Americanas 12.890\",city=\"São Paulo\",postalcode=\"5442\",country=\"Brazil\",phone=\"(11) 555 4640\")\ndb.session.add(su10)\nsu11 = Supplier(suppliername=\"Heli Süßwaren GmbH & Co. KG\",contactname=\"Petra Winkler\",address=\"Tiergartenstraße 5\",city=\"Berlin\",postalcode=\"10785\",country=\"Germany\",phone=\"(010) 9984510\")\ndb.session.add(su11)\nsu12 = Supplier(suppliername=\"Plutzer Lebensmittelgroßmärkte AG\",contactname=\"Martin Bein\",address=\"Bogenallee 51\",city=\"Frankfurt\",postalcode=\"60439\",country=\"Germany\",phone=\"(069) 992755\")\ndb.session.add(su12)\nsu13 = Supplier(suppliername=\"Nord-Ost-Fisch Handelsgesellschaft mbH\",contactname=\"Sven Petersen\",address=\"Frahmredder 112a\",city=\"Cuxhaven\",postalcode=\"27478\",country=\"Germany\",phone=\"(04721) 8713\")\ndb.session.add(su13)\nsu14 = Supplier(suppliername=\"Formaggi Fortini s.r.l.\",contactname=\"Elio Rossi\",address=\"Viale Dante, 75\",city=\"Ravenna\",postalcode=\"48100\",country=\"Italy\",phone=\"(0544) 60323\")\ndb.session.add(su14)\nsu15 = Supplier(suppliername=\"Norske Meierier\",contactname=\"Beate Vileid\",address=\"Hatlevegen 5\",city=\"Sandvika\",postalcode=\"1320\",country=\"Norway\",phone=\"(0)2-953010\")\ndb.session.add(su15)\nsu16 = Supplier(suppliername=\"Bigfoot Breweries\",contactname=\"Cheryl Saylor\",address=\"3400 - 8th Avenue Suite 210\",city=\"Bend\",postalcode=\"97101\",country=\"USA\",phone=\"(503) 555-9931\")\ndb.session.add(su16)\nsu17 = Supplier(suppliername=\"Svensk Sjöföda AB\",contactname=\"Michael Björn\",address=\"Brovallavägen 231\",city=\"Stockholm\",postalcode=\"S-123 45\",country=\"Sweden\",phone=\"08-123 45 67\")\ndb.session.add(su17)\nsu18 = Supplier(suppliername=\"Aux joyeux ecclésiastiques\",contactname=\"Guylène Nodier\",address=\"203, Rue des Francs-Bourgeois\",city=\"Paris\",postalcode=\"75004\",country=\"France\",phone=\"(1) 03.83.00.68\")\ndb.session.add(su18)\nsu19 = Supplier(suppliername=\"New England Seafood Cannery\",contactname=\"Robb Merchant\",address=\"Order Processing Dept. 2100 Paul Revere Blvd.\",city=\"Boston\",postalcode=\"02134\",country=\"USA\",phone=\"(617) 555-3267\")\ndb.session.add(su19)\nsu20 = Supplier(suppliername=\"Leka Trading\",contactname=\"Chandra Leka\",address=\"471 Serangoon Loop, Suite #402\",city=\"Singapore\",postalcode=\"0512\",country=\"Singapore\",phone=\"555-8787\")\ndb.session.add(su20)\nsu21 = Supplier(suppliername=\"Lyngbysild\",contactname=\"Niels Petersen\",address=\"Lyngbysild Fiskebakken 10\",city=\"Lyngby\",postalcode=\"2800\",country=\"Denmark\",phone=\"43844108\")\ndb.session.add(su21)\nsu22 = Supplier(suppliername=\"Zaanse Snoepfabriek\",contactname=\"Dirk Luchte\",address=\"Verkoop Rijnweg 22\",city=\"Zaandam\",postalcode=\"9999 ZZ\",country=\"Netherlands\",phone=\"(12345) 1212\")\ndb.session.add(su22)\nsu23 = Supplier(suppliername=\"Karkki Oy\",contactname=\"Anne Heikkonen\",address=\"Valtakatu 12\",city=\"Lappeenranta\",postalcode=\"53120\",country=\"Finland\",phone=\"(953) 10956\")\ndb.session.add(su23)\nsu24 = Supplier(suppliername=\"G'day, Mate\",contactname=\"Wendy Mackenzie\",address=\"170 Prince Edward Parade Hunter's Hill\",city=\"Sydney\",postalcode=\"2042\",country=\"Australia\",phone=\"(02) 555-5914\")\ndb.session.add(su24)\nsu25 = Supplier(suppliername=\"Ma Maison\",contactname=\"Jean-Guy Lauzon\",address=\"2960 Rue St. Laurent\",city=\"Montréal\",postalcode=\"H1J 1C3\",country=\"Canada\",phone=\"(514) 555-9022\")\ndb.session.add(su25)\nsu26 = Supplier(suppliername=\"Pasta Buttini s.r.l.\",contactname=\"Giovanni Giudici\",address=\"Via dei Gelsomini, 153\",city=\"Salerno\",postalcode=\"84100\",country=\"Italy\",phone=\"(089) 6547665\")\ndb.session.add(su26)\nsu27 = Supplier(suppliername=\"Escargots Nouveaux\",contactname=\"Marie Delamare\",address=\"22, rue H. Voiron\",city=\"Montceau\",postalcode=\"71300\",country=\"France\",phone=\"85.57.00.07\")\ndb.session.add(su27)\nsu28 = Supplier(suppliername=\"Gai pâturage\",contactname=\"Eliane Noz\",address=\"Bat. B 3, rue des Alpes\",city=\"Annecy\",postalcode=\"74000\",country=\"France\",phone=\"38.76.98.06\")\ndb.session.add(su28)\nsu29 = Supplier(suppliername=\"Forêts d'érables\",contactname=\"Chantal Goulet\",address=\"148 rue Chasseur\",city=\"Ste-Hyacinthe\",postalcode=\"J2S 7S8\",country=\"Canada\",phone=\"(514) 555-2955\")\ndb.session.add(su29)\ndb.session.commit()\n\n\n\ne0 = Employee(lastname=\"Davolio\",firstname=\"Nancy\",notes=\"Education includes a BA in psychology from Colorado State University. She also completed (The Art of the Cold Call). Nancy is a member of 'Toastmasters International'.\")\ndb.session.add(e0)\ne1 = Employee(lastname=\"Fuller\",firstname=\"Andrew\",notes=\"Andrew received his BTS commercial and a Ph.D. in international marketing from the University of Dallas. He is fluent in French and Italian and reads German. He joined the company as a sales representative, was promoted to sales manager and was then named vice president of sales. Andrew is a member of the Sales Management Roundtable, the Seattle Chamber of Commerce, and the Pacific Rim Importers Association.\")\ndb.session.add(e1)\ne2 = Employee(lastname=\"Leverling\",firstname=\"Janet\",notes=\"Janet has a BS degree in chemistry from Boston College). She has also completed a certificate program in food retailing management. Janet was hired as a sales associate and was promoted to sales representative.\")\ndb.session.add(e2)\ne3 = Employee(lastname=\"Peacock\",firstname=\"Margaret\",notes=\"Margaret holds a BA in English literature from Concordia College and an MA from the American Institute of Culinary Arts. She was temporarily assigned to the London office before returning to her permanent post in Seattle.\")\ndb.session.add(e3)\ne4 = Employee(lastname=\"Buchanan\",firstname=\"Steven\",notes=\"Steven Buchanan graduated from St. Andrews University, Scotland, with a BSC degree. Upon joining the company as a sales representative, he spent 6 months in an orientation program at the Seattle office and then returned to his permanent post in London, where he was promoted to sales manager. Mr. Buchanan has completed the courses 'Successful Telemarketing' and 'International Sales Management'. He is fluent in French.\")\ndb.session.add(e4)\ne5 = Employee(lastname=\"Suyama\",firstname=\"Michael\",notes=\"Michael is a graduate of Sussex University (MA, economics) and the University of California at Los Angeles (MBA, marketing). He has also taken the courses 'Multi-Cultural Selling' and 'Time Management for the Sales Professional'. He is fluent in Japanese and can read and write French, Portuguese, and Spanish.\")\ndb.session.add(e5)\ne6 = Employee(lastname=\"King\",firstname=\"Robert\",notes=\"Robert King served in the Peace Corps and traveled extensively before completing his degree in English at the University of Michigan and then joining the company. After completing a course entitled 'Selling in Europe', he was transferred to the London office.\")\ndb.session.add(e6)\ne7 = Employee(lastname=\"Callahan\",firstname=\"Laura\",notes=\"Laura received a BA in psychology from the University of Washington. She has also completed a course in business French. She reads and writes French.\")\ndb.session.add(e7)\ne8 = Employee(lastname=\"Dodsworth\",firstname=\"Anne\",notes=\"Anne has a BA degree in English from St. Lawrence College. She is fluent in French and German.\")\ndb.session.add(e8)\ne9 = Employee(lastname=\"West\",firstname=\"Adam\",notes=\"An old chum.\")\ndb.session.add(e9)\ndb.session.commit()\n\n\n\nc0 = Category(categoryname=\"Beverages\",description=\"Soft drinks, coffees, teas, beers, and ales\")\ndb.session.add(c0)\nc1 = Category(categoryname=\"Condiments\",description=\"Sweet and savory sauces, relishes, spreads, and seasonings\")\ndb.session.add(c1)\nc2 = Category(categoryname=\"Confections\",description=\"Desserts, candies, and sweet breads\")\ndb.session.add(c2)\nc3 = Category(categoryname=\"Dairy Products\",description=\"Cheeses\")\ndb.session.add(c3)\nc4 = Category(categoryname=\"Grains/Cereals\",description=\"Breads, crackers, pasta, and cereal\")\ndb.session.add(c4)\nc5 = Category(categoryname=\"Meat/Poultry\",description=\"Prepared meats\")\ndb.session.add(c5)\nc6 = Category(categoryname=\"Produce\",description=\"Dried fruit and bean curd\")\ndb.session.add(c6)\nc7 = Category(categoryname=\"Seafood\",description=\"Seaweed and fish\")\ndb.session.add(c7)\ndb.session.commit()\n\n\n\ns1 = Shipper(shippername=\"Speedy Express\",phone=\"(503) 555-9831\")\ndb.session.add(s1)\ns2 = Shipper(shippername=\"United Package\",phone=\"(503) 555-3199\")\ndb.session.add(s2)\ns3 = Shipper(shippername=\"Federal Shipping\",phone=\"(503) 555-9931\")\ndb.session.add(s3)\ndb.session.commit()\n\n" }, { "alpha_fraction": 0.5936455130577087, "alphanum_fraction": 0.5978260636329651, "avg_line_length": 36.34375, "blob_id": "eeb6633f7a227d7f70315d21241c45a7b93e1b9d", "content_id": "8f7cb7c11fa745e2c7f4bb3ffb1378cdbf22588f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1196, "license_type": "no_license", "max_line_length": 78, "num_lines": 32, "path": "/db_populator_dummy_posts.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "from app import create_app\napp = create_app()\napp.app_context().push()\n\nfrom app import db\nfrom app.models import \nimport random\n\nusers = User.query.all()\ndummy_posts = [\n 'hello', 'hi there', 'yarp', 'how are you', \"what's up people!\",\n 'what a test', 'haha', 'yes', 'no', 'I want some beer', 'Hello everyone!',\n 'How is everyone doing today?', \"I'm doing good\", \"I have a question\",\n \"Man do I love this website!\", \"I love makeup!\", \"I love beauty products\",\n \"Can anyone recommend an eye liner?\", \"Good morning\",\n \"Found some foundation that works well with my skin tone\",\n \"Artus makes the best lip gloss\", \"one\", \"two\", \"three\", \"fouir\", \"five\",\n \"six\", \"seven\", \"eight\", \"nine\", \"ten\", \"Party like it's 1999!\", \"Why?\",\n \"How?\", \"I can't wait for the next sale.\", \"thanks\", \"Thanks\"\n ]\n\nfor user in users:\n posts =[]\n while len(posts) < 7:\n random_post = random.choice(dummy_posts)\n if random_post not in posts:\n posts.append(random_post)\n post = Post(body = random_post, author=user)\n db.session.add(post)\ndb.session.commit()\n\nprint('!!!!!!!!!!___DUMMY_____POSTS_____SUCCESSFULLY_____ADDED___!!!!!!!!!!')\n\n" }, { "alpha_fraction": 0.6798256039619446, "alphanum_fraction": 0.7388592958450317, "avg_line_length": 41.02798843383789, "blob_id": "3e5e44f011febae394def0ca56b1cdff10f0ff42", "content_id": "4a8f79f8ab9ade352ea721fa7264ac293d369049", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 16530, "license_type": "no_license", "max_line_length": 138, "num_lines": 393, "path": "/db_populator_products.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "from app import db\nfrom app.models import Category, Supplier, Product\n\n\n\nsupplier = Supplier.query.get(int(1))\ncategory = Category.query.get(int(1))\np1 = Product(productname=\"Chais\", supplier=supplier, category=category, unit=\"10 boxes x 20 bags\", price=18)\ndb.session.add(p1)\n\nsupplier = Supplier.query.get(int(1))\ncategory = Category.query.get(int(1))\np2 = Product(productname=\"Chang\", supplier=supplier, category=category, unit=\"24 - 12 oz bottles\", price=19)\ndb.session.add(p2)\n\nsupplier = Supplier.query.get(int(1))\ncategory = Category.query.get(int(2))\np3 = Product(productname=\"Aniseed Syrup\", supplier=supplier, category=category, unit=\"12 - 55S0 ml bottles\", price=10)\ndb.session.add(p3)\n\nsupplier = Supplier.query.get(int(2))\ncategory = Category.query.get(int(2))\np4 = Product(productname=\"Chef Anton's Cajun Seasoning\", supplier=supplier, category=category, unit=\"48 - 6 oz jars\", price=22)\ndb.session.add(p4)\n\nsupplier = Supplier.query.get(int(2))\ncategory = Category.query.get(int(2))\np5 = Product(productname=\"Chef Anton's Gumbo Mix\", supplier=supplier, category=category, unit=\"36 boxes\", price=21.35)\ndb.session.add(p5)\n\nsupplier = Supplier.query.get(int(3))\ncategory = Category.query.get(int(2))\np6 = Product(productname=\"Grandma's Boysenberry Spread\", supplier=supplier, category=category, unit=\"12 - 8 oz jars\", price=25)\ndb.session.add(p6)\n\nsupplier = Supplier.query.get(int(3))\ncategory = Category.query.get(int(7))\np7 = Product(productname=\"Uncle Bob's Organic Dried Pears\", supplier=supplier, category=category, unit=\"12 - 1 lb pkgs.\", price=30)\ndb.session.add(p7)\n\nsupplier = Supplier.query.get(int(3))\ncategory = Category.query.get(int(2))\np8 = Product(productname=\"Northwoods Cranberry Sauce\", supplier=supplier, category=category, unit=\"12 - 12 oz jars\", price=40)\ndb.session.add(p8)\n\nsupplier = Supplier.query.get(int(4))\ncategory = Category.query.get(int(6))\np9 = Product(productname=\"Mishi Kobe Niku\", supplier=supplier, category=category, unit=\"18 - 500 g pkgs.\", price=97)\ndb.session.add(p9)\n\nsupplier = Supplier.query.get(int(4))\ncategory = Category.query.get(int(8))\np10 = Product(productname=\"Ikura\", supplier=supplier, category=category, unit=\"12 - 200 ml jars\", price=31)\ndb.session.add(p10)\n\nsupplier = Supplier.query.get(int(5))\ncategory = Category.query.get(int(4))\np11 = Product(productname=\"Queso Cabrales\", supplier=supplier, category=category, unit=\"1 kg pkg.\", price=21)\ndb.session.add(p11)\n\nsupplier = Supplier.query.get(int(5))\ncategory = Category.query.get(int(4))\np12 = Product(productname=\"Queso Manchego La Pastora\", supplier=supplier, category=category, unit=\"10 - 500 g pkgs.\", price=38)\ndb.session.add(p12)\n\nsupplier = Supplier.query.get(int(6))\ncategory = Category.query.get(int(8))\np13 = Product(productname=\"Konbu\", supplier=supplier, category=category, unit=\"2 kg box\", price=6)\ndb.session.add(p13)\n\nsupplier = Supplier.query.get(int(6))\ncategory = Category.query.get(int(7))\np14 = Product(productname=\"Tofu\", supplier=supplier, category=category, unit=\"40 - 100 g pkgs.\", price=23.25)\ndb.session.add(p14)\n\nsupplier = Supplier.query.get(int(6))\ncategory = Category.query.get(int(2))\np15 = Product(productname=\"Genen Shouyu\", supplier=supplier, category=category, unit=\"24 - 250 ml bottles\", price=15.5)\ndb.session.add(p15)\n\nsupplier = Supplier.query.get(int(7))\ncategory = Category.query.get(int(3))\np16 = Product(productname=\"Pavlova\", supplier=supplier, category=category, unit=\"32 - 500 g boxes\", price=17.45)\ndb.session.add(p16)\n\nsupplier = Supplier.query.get(int(7))\ncategory = Category.query.get(int(6))\np17 = Product(productname=\"Alice Mutton\", supplier=supplier, category=category, unit=\"20 - 1 kg tins\", price=39)\ndb.session.add(p17)\n\nsupplier = Supplier.query.get(int(7))\ncategory = Category.query.get(int(8))\np18 = Product(productname=\"Carnarvon Tigers\", supplier=supplier, category=category, unit=\"16 kg pkg.\", price=62.5)\ndb.session.add(p18)\n\nsupplier = Supplier.query.get(int(8))\ncategory = Category.query.get(int(3))\np19 = Product(productname=\"Teatime Chocolate Biscuits\", supplier=supplier, category=category, unit=\"10 boxes x 12 pieces\", price=9.2)\ndb.session.add(p19)\n\nsupplier = Supplier.query.get(int(8))\ncategory = Category.query.get(int(3))\np20 = Product(productname=\"Sir Rodney's Marmalade\", supplier=supplier, category=category, unit=\"30 gift boxes\", price=81)\ndb.session.add(p20)\n\nsupplier = Supplier.query.get(int(8))\ncategory = Category.query.get(int(3))\np21 = Product(productname=\"Sir Rodney's Scones\", supplier=supplier, category=category, unit=\"24 pkgs. x 4 pieces\", price=10)\ndb.session.add(p21)\n\nsupplier = Supplier.query.get(int(9))\ncategory = Category.query.get(int(5))\np22 = Product(productname=\"Gustaf's Knäckebröd\", supplier=supplier, category=category, unit=\"24 - 500 g pkgs.\", price=21)\ndb.session.add(p22)\n\nsupplier = Supplier.query.get(int(9))\ncategory = Category.query.get(int(5))\np23 = Product(productname=\"Tunnbröd\", supplier=supplier, category=category, unit=\"12 - 250 g pkgs.\", price=9)\ndb.session.add(p23)\n\nsupplier = Supplier.query.get(int(10))\ncategory = Category.query.get(int(1))\np24 = Product(productname=\"Guaraná Fantástica\", supplier=supplier, category=category, unit=\"12 - 355 ml cans\", price=4.5)\ndb.session.add(p24)\n\nsupplier = Supplier.query.get(int(11))\ncategory = Category.query.get(int(3))\np25 = Product(productname=\"NuNuCa Nuß-Nougat-Creme\", supplier=supplier, category=category, unit=\"20 - 450 g glasses\", price=14)\ndb.session.add(p25)\n\nsupplier = Supplier.query.get(int(11))\ncategory = Category.query.get(int(3))\np26 = Product(productname=\"Gumbär Gummibärchen\", supplier=supplier, category=category, unit=\"100 - 250 g bags\", price=31.23)\ndb.session.add(p26)\n\nsupplier = Supplier.query.get(int(11))\ncategory = Category.query.get(int(3))\np27 = Product(productname=\"Schoggi Schokolade\", supplier=supplier, category=category, unit=\"100 - 100 g pieces\", price=43.9)\ndb.session.add(p27)\n\nsupplier = Supplier.query.get(int(12))\ncategory = Category.query.get(int(7))\np28 = Product(productname=\"Rössle Sauerkraut\", supplier=supplier, category=category, unit=\"25 - 825 g cans\", price=45.6)\ndb.session.add(p28)\n\nsupplier = Supplier.query.get(int(12))\ncategory = Category.query.get(int(6))\np29 = Product(productname=\"Thüringer Rostbratwurst\", supplier=supplier, category=category, unit=\"50 bags x 30 sausgs.\", price=123.79)\ndb.session.add(p29)\n\nsupplier = Supplier.query.get(int(13))\ncategory = Category.query.get(int(8))\np30 = Product(productname=\"Nord-Ost Matjeshering\", supplier=supplier, category=category, unit=\"10 - 200 g glasses\", price=25.89)\ndb.session.add(p30)\n\nsupplier = Supplier.query.get(int(14))\ncategory = Category.query.get(int(4))\np31 = Product(productname=\"Gorgonzola Telino\", supplier=supplier, category=category, unit=\"12 - 100 g pkgs\", price=12.5)\ndb.session.add(p31)\n\nsupplier = Supplier.query.get(int(14))\ncategory = Category.query.get(int(4))\np32 = Product(productname=\"Mascarpone Fabioli\", supplier=supplier, category=category, unit=\"24 - 200 g pkgs.\", price=32)\ndb.session.add(p32)\n\nsupplier = Supplier.query.get(int(15))\ncategory = Category.query.get(int(4))\np33 = Product(productname=\"Geitost\", supplier=supplier, category=category, unit=\"500 g\", price=2.5)\ndb.session.add(p33)\n\nsupplier = Supplier.query.get(int(16))\ncategory = Category.query.get(int(1))\np34 = Product(productname=\"Sasquatch Ale\", supplier=supplier, category=category, unit=\"24 - 12 oz bottles\", price=14)\ndb.session.add(p34)\n\nsupplier = Supplier.query.get(int(16))\ncategory = Category.query.get(int(1))\np35 = Product(productname=\"Steeleye Stout\", supplier=supplier, category=category, unit=\"24 - 12 oz bottles\", price=18)\ndb.session.add(p35)\n\nsupplier = Supplier.query.get(int(17))\ncategory = Category.query.get(int(8))\np36 = Product(productname=\"Inlagd Sill\", supplier=supplier, category=category, unit=\"24 - 250 g jars\", price=19)\ndb.session.add(p36)\n\nsupplier = Supplier.query.get(int(17))\ncategory = Category.query.get(int(8))\np37 = Product(productname=\"Gravad lax\", supplier=supplier, category=category, unit=\"12 - 500 g pkgs.\", price=26)\ndb.session.add(p37)\n\nsupplier = Supplier.query.get(int(18))\ncategory = Category.query.get(int(1))\np38 = Product(productname=\"Côte de Blaye\", supplier=supplier, category=category, unit=\"12 - 75 cl bottles\", price=263.5)\ndb.session.add(p38)\n\nsupplier = Supplier.query.get(int(18))\ncategory = Category.query.get(int(1))\np39 = Product(productname=\"Chartreuse verte\", supplier=supplier, category=category, unit=\"750 cc per bottle\", price=18)\ndb.session.add(p39)\n\nsupplier = Supplier.query.get(int(19))\ncategory = Category.query.get(int(8))\np40 = Product(productname=\"Boston Crab Meat\", supplier=supplier, category=category, unit=\"24 - 4 oz tins\", price=18.4)\ndb.session.add(p40)\n\nsupplier = Supplier.query.get(int(19))\ncategory = Category.query.get(int(8))\np41 = Product(productname=\"Jack's New England Clam Chowder\", supplier=supplier, category=category, unit=\"12 - 12 oz cans\", price=9.65)\ndb.session.add(p41)\n\nsupplier = Supplier.query.get(int(20))\ncategory = Category.query.get(int(5))\np42 = Product(productname=\"Singaporean Hokkien Fried Mee\", supplier=supplier, category=category, unit=\"32 - 1 kg pkgs.\", price=14)\ndb.session.add(p42)\n\nsupplier = Supplier.query.get(int(20))\ncategory = Category.query.get(int(1))\np43 = Product(productname=\"Ipoh Coffee\", supplier=supplier, category=category, unit=\"16 - 500 g tins\", price=46)\ndb.session.add(p43)\n\nsupplier = Supplier.query.get(int(20))\ncategory = Category.query.get(int(2))\np44 = Product(productname=\"Gula Malacca\", supplier=supplier, category=category, unit=\"20 - 2 kg bags\", price=19.45)\ndb.session.add(p44)\n\nsupplier = Supplier.query.get(int(21))\ncategory = Category.query.get(int(8))\np45 = Product(productname=\"Røgede sild\", supplier=supplier, category=category, unit=\"1k pkg.\", price=9.5)\ndb.session.add(p45)\n\nsupplier = Supplier.query.get(int(21))\ncategory = Category.query.get(int(8))\np46 = Product(productname=\"Spegesild\", supplier=supplier, category=category, unit=\"4 - 450 g glasses\", price=12)\ndb.session.add(p46)\n\nsupplier = Supplier.query.get(int(22))\ncategory = Category.query.get(int(3))\np47 = Product(productname=\"Zaanse koeken\", supplier=supplier, category=category, unit=\"10 - 4 oz boxes\", price=9.5)\ndb.session.add(p47)\n\nsupplier = Supplier.query.get(int(22))\ncategory = Category.query.get(int(3))\np48 = Product(productname=\"Chocolade\", supplier=supplier, category=category, unit=\"10 pkgs.\", price=12.75)\ndb.session.add(p48)\n\nsupplier = Supplier.query.get(int(23))\ncategory = Category.query.get(int(3))\np49 = Product(productname=\"Maxilaku\", supplier=supplier, category=category, unit=\"24 - 50 g pkgs.\", price=20)\ndb.session.add(p49)\n\nsupplier = Supplier.query.get(int(23))\ncategory = Category.query.get(int(3))\np50 = Product(productname=\"Valkoinen suklaa\", supplier=supplier, category=category, unit=\"12 - 100 g bars\", price=16.25)\ndb.session.add(p50)\n\nsupplier = Supplier.query.get(int(24))\ncategory = Category.query.get(int(7))\np51 = Product(productname=\"Manjimup Dried Apples\", supplier=supplier, category=category, unit=\"50 - 300 g pkgs.\", price=53)\ndb.session.add(p51)\n\nsupplier = Supplier.query.get(int(24))\ncategory = Category.query.get(int(5))\np52 = Product(productname=\"Filo Mix\", supplier=supplier, category=category, unit=\"16 - 2 kg boxes\", price=7)\ndb.session.add(p52)\n\nsupplier = Supplier.query.get(int(24))\ncategory = Category.query.get(int(6))\np53 = Product(productname=\"Perth Pasties\", supplier=supplier, category=category, unit=\"48 pieces\", price=32.8)\ndb.session.add(p53)\n\nsupplier = Supplier.query.get(int(25))\ncategory = Category.query.get(int(6))\np54 = Product(productname=\"Tourtière\", supplier=supplier, category=category, unit=\"16 pies\", price=7.45)\ndb.session.add(p54)\n\nsupplier = Supplier.query.get(int(25))\ncategory = Category.query.get(int(6))\np55 = Product(productname=\"Pâté chinois\", supplier=supplier, category=category, unit=\"24 boxes x 2 pies\", price=24)\ndb.session.add(p55)\n\nsupplier = Supplier.query.get(int(26))\ncategory = Category.query.get(int(5))\np56 = Product(productname=\"Gnocchi di nonna Alice\", supplier=supplier, category=category, unit=\"24 - 250 g pkgs.\", price=38)\ndb.session.add(p56)\n\nsupplier = Supplier.query.get(int(26))\ncategory = Category.query.get(int(5))\np57 = Product(productname=\"Ravioli Angelo\", supplier=supplier, category=category, unit=\"24 - 250 g pkgs.\", price=19.5)\ndb.session.add(p57)\n\nsupplier = Supplier.query.get(int(27))\ncategory = Category.query.get(int(8))\np58 = Product(productname=\"Escargots de Bourgogne\", supplier=supplier, category=category, unit=\"24 pieces\", price=13.25)\ndb.session.add(p58)\n\nsupplier = Supplier.query.get(int(28))\ncategory = Category.query.get(int(4))\np59 = Product(productname=\"Raclette Courdavault\", supplier=supplier, category=category, unit=\"5 kg pkg.\", price=55)\ndb.session.add(p59)\n\nsupplier = Supplier.query.get(int(28))\ncategory = Category.query.get(int(4))\np60 = Product(productname=\"Camembert Pierrot\", supplier=supplier, category=category, unit=\"15 - 300 g rounds\", price=34)\ndb.session.add(p60)\n\nsupplier = Supplier.query.get(int(29))\ncategory = Category.query.get(int(2))\np61 = Product(productname=\"Sirop d'érable\", supplier=supplier, category=category, unit=\"24 - 500 ml bottles\", price=28.5)\ndb.session.add(p61)\n\nsupplier = Supplier.query.get(int(29))\ncategory = Category.query.get(int(3))\np62 = Product(productname=\"Tarte au sucre\", supplier=supplier, category=category, unit=\"48 pies\", price=49.3)\ndb.session.add(p62)\n\nsupplier = Supplier.query.get(int(7))\ncategory = Category.query.get(int(2))\np63 = Product(productname=\"Vegie-spread\", supplier=supplier, category=category, unit=\"15 - 625 g jars\", price=43.9)\ndb.session.add(p63)\n\nsupplier = Supplier.query.get(int(12))\ncategory = Category.query.get(int(5))\np64 = Product(productname=\"Wimmers gute Semmelknödel\", supplier=supplier, category=category, unit=\"20 bags x 4 pieces\", price=33.25)\ndb.session.add(p64)\n\nsupplier = Supplier.query.get(int(2))\ncategory = Category.query.get(int(2))\np65 = Product(productname=\"Louisiana Fiery Hot Pepper Sauce\", supplier=supplier, category=category, unit=\"32 - 8 oz bottles\", price=21.05)\ndb.session.add(p65)\n\nsupplier = Supplier.query.get(int(2))\ncategory = Category.query.get(int(2))\np66 = Product(productname=\"Louisiana Hot Spiced Okra\", supplier=supplier, category=category, unit=\"24 - 8 oz jars\", price=17)\ndb.session.add(p66)\n\nsupplier = Supplier.query.get(int(16))\ncategory = Category.query.get(int(1))\np67 = Product(productname=\"Laughing Lumberjack Lager\", supplier=supplier, category=category, unit=\"24 - 12 oz bottles\", price=14)\ndb.session.add(p67)\n\nsupplier = Supplier.query.get(int(8))\ncategory = Category.query.get(int(3))\np68 = Product(productname=\"Scottish Longbreads\", supplier=supplier, category=category, unit=\"10 boxes x 8 pieces\", price=12.5)\ndb.session.add(p68)\n\nsupplier = Supplier.query.get(int(15))\ncategory = Category.query.get(int(4))\np69 = Product(productname=\"Gudbrandsdalsost\", supplier=supplier, category=category, unit=\"10 kg pkg.\", price=36)\ndb.session.add(p69)\n\nsupplier = Supplier.query.get(int(7))\ncategory = Category.query.get(int(1))\np70 = Product(productname=\"Outback Lager\", supplier=supplier, category=category, unit=\"24 - 355 ml bottles\", price=15)\ndb.session.add(p70)\n\nsupplier = Supplier.query.get(int(15))\ncategory = Category.query.get(int(4))\np71 = Product(productname=\"Fløtemysost\", supplier=supplier, category=category, unit=\"10 - 500 g pkgs.\", price=21.5)\ndb.session.add(p71)\n\nsupplier = Supplier.query.get(int(14))\ncategory = Category.query.get(int(4))\np72 = Product(productname=\"Mozzarella di Giovanni\", supplier=supplier, category=category, unit=\"24 - 200 g pkgs.\", price=34.8)\ndb.session.add(p72)\n\nsupplier = Supplier.query.get(int(17))\ncategory = Category.query.get(int(8))\np73 = Product(productname=\"Röd Kaviar\", supplier=supplier, category=category, unit=\"24 - 150 g jars\", price=15)\ndb.session.add(p73)\n\nsupplier = Supplier.query.get(int(4))\ncategory = Category.query.get(int(7))\np74 = Product(productname=\"Longlife Tofu\", supplier=supplier, category=category, unit=\"5 kg pkg.\", price=10)\ndb.session.add(p74)\n\nsupplier = Supplier.query.get(int(12))\ncategory = Category.query.get(int(1))\np75 = Product(productname=\"Rhönbräu Klosterbier\", supplier=supplier, category=category, unit=\"24 - 0.5 l bottles\", price=7.75)\ndb.session.add(p75)\n\nsupplier = Supplier.query.get(int(23))\ncategory = Category.query.get(int(1))\np76 = Product(productname=\"Lakkalikööri\", supplier=supplier, category=category, unit=\"500 ml \", price=18)\ndb.session.add(p76)\n\nsupplier = Supplier.query.get(int(12))\ncategory = Category.query.get(int(2))\np77 = Product(productname=\"Original Frankfurter grüne Soße\", supplier=supplier, category=category, unit=\"12 boxes\", price=13)\ndb.session.add(p77)\n\ndb.session.commit()\n\nprint('Dummy products successfully added to the database!')" }, { "alpha_fraction": 0.6675240397453308, "alphanum_fraction": 0.758491039276123, "avg_line_length": 38.25288391113281, "blob_id": "5bb2b6b6b766034b4ace136ff621d4a30c891b58", "content_id": "0caba722ce6a8b93cf8be4e46b98bb91aa8ccd11", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 81645, "license_type": "no_license", "max_line_length": 63, "num_lines": 2080, "path": "/db_populator_orderdetails.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "from app import db\nfrom app.models import Order, Product, OrderDetail\n\n\norder = Order.query.get(int(10248))\nproduct = Product.query.get(int(11))\nod0 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od0)\norder = Order.query.get(int(10248))\nproduct = Product.query.get(int(42))\nod1 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od1)\norder = Order.query.get(int(10248))\nproduct = Product.query.get(int(72))\nod2 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od2)\norder = Order.query.get(int(10249))\nproduct = Product.query.get(int(14))\nod3 = OrderDetail(order=order, product=product, quantity=9)\ndb.session.add(od3)\norder = Order.query.get(int(10249))\nproduct = Product.query.get(int(51))\nod4 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od4)\norder = Order.query.get(int(10250))\nproduct = Product.query.get(int(41))\nod5 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od5)\norder = Order.query.get(int(10250))\nproduct = Product.query.get(int(51))\nod6 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od6)\norder = Order.query.get(int(10250))\nproduct = Product.query.get(int(65))\nod7 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od7)\norder = Order.query.get(int(10251))\nproduct = Product.query.get(int(22))\nod8 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od8)\norder = Order.query.get(int(10251))\nproduct = Product.query.get(int(57))\nod9 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od9)\norder = Order.query.get(int(10251))\nproduct = Product.query.get(int(65))\nod10 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od10)\norder = Order.query.get(int(10252))\nproduct = Product.query.get(int(20))\nod11 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od11)\norder = Order.query.get(int(10252))\nproduct = Product.query.get(int(33))\nod12 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od12)\norder = Order.query.get(int(10252))\nproduct = Product.query.get(int(60))\nod13 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od13)\norder = Order.query.get(int(10253))\nproduct = Product.query.get(int(31))\nod14 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od14)\norder = Order.query.get(int(10253))\nproduct = Product.query.get(int(39))\nod15 = OrderDetail(order=order, product=product, quantity=42)\ndb.session.add(od15)\norder = Order.query.get(int(10253))\nproduct = Product.query.get(int(49))\nod16 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od16)\norder = Order.query.get(int(10254))\nproduct = Product.query.get(int(24))\nod17 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od17)\norder = Order.query.get(int(10254))\nproduct = Product.query.get(int(55))\nod18 = OrderDetail(order=order, product=product, quantity=21)\ndb.session.add(od18)\norder = Order.query.get(int(10254))\nproduct = Product.query.get(int(74))\nod19 = OrderDetail(order=order, product=product, quantity=21)\ndb.session.add(od19)\norder = Order.query.get(int(10255))\nproduct = Product.query.get(int(2))\nod20 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od20)\norder = Order.query.get(int(10255))\nproduct = Product.query.get(int(16))\nod21 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od21)\norder = Order.query.get(int(10255))\nproduct = Product.query.get(int(36))\nod22 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od22)\norder = Order.query.get(int(10255))\nproduct = Product.query.get(int(59))\nod23 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od23)\norder = Order.query.get(int(10256))\nproduct = Product.query.get(int(53))\nod24 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od24)\norder = Order.query.get(int(10256))\nproduct = Product.query.get(int(77))\nod25 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od25)\norder = Order.query.get(int(10257))\nproduct = Product.query.get(int(27))\nod26 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od26)\norder = Order.query.get(int(10257))\nproduct = Product.query.get(int(39))\nod27 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od27)\norder = Order.query.get(int(10257))\nproduct = Product.query.get(int(77))\nod28 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od28)\norder = Order.query.get(int(10258))\nproduct = Product.query.get(int(2))\nod29 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od29)\norder = Order.query.get(int(10258))\nproduct = Product.query.get(int(5))\nod30 = OrderDetail(order=order, product=product, quantity=65)\ndb.session.add(od30)\norder = Order.query.get(int(10258))\nproduct = Product.query.get(int(32))\nod31 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od31)\norder = Order.query.get(int(10259))\nproduct = Product.query.get(int(21))\nod32 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od32)\norder = Order.query.get(int(10259))\nproduct = Product.query.get(int(37))\nod33 = OrderDetail(order=order, product=product, quantity=1)\ndb.session.add(od33)\norder = Order.query.get(int(10260))\nproduct = Product.query.get(int(41))\nod34 = OrderDetail(order=order, product=product, quantity=16)\ndb.session.add(od34)\norder = Order.query.get(int(10260))\nproduct = Product.query.get(int(57))\nod35 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od35)\norder = Order.query.get(int(10260))\nproduct = Product.query.get(int(62))\nod36 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od36)\norder = Order.query.get(int(10260))\nproduct = Product.query.get(int(70))\nod37 = OrderDetail(order=order, product=product, quantity=21)\ndb.session.add(od37)\norder = Order.query.get(int(10261))\nproduct = Product.query.get(int(21))\nod38 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od38)\norder = Order.query.get(int(10261))\nproduct = Product.query.get(int(35))\nod39 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od39)\norder = Order.query.get(int(10262))\nproduct = Product.query.get(int(5))\nod40 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od40)\norder = Order.query.get(int(10262))\nproduct = Product.query.get(int(7))\nod41 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od41)\norder = Order.query.get(int(10262))\nproduct = Product.query.get(int(56))\nod42 = OrderDetail(order=order, product=product, quantity=2)\ndb.session.add(od42)\norder = Order.query.get(int(10263))\nproduct = Product.query.get(int(16))\nod43 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od43)\norder = Order.query.get(int(10263))\nproduct = Product.query.get(int(24))\nod44 = OrderDetail(order=order, product=product, quantity=28)\ndb.session.add(od44)\norder = Order.query.get(int(10263))\nproduct = Product.query.get(int(30))\nod45 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od45)\norder = Order.query.get(int(10263))\nproduct = Product.query.get(int(74))\nod46 = OrderDetail(order=order, product=product, quantity=36)\ndb.session.add(od46)\norder = Order.query.get(int(10264))\nproduct = Product.query.get(int(2))\nod47 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od47)\norder = Order.query.get(int(10264))\nproduct = Product.query.get(int(41))\nod48 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od48)\norder = Order.query.get(int(10265))\nproduct = Product.query.get(int(17))\nod49 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od49)\norder = Order.query.get(int(10265))\nproduct = Product.query.get(int(70))\nod50 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od50)\norder = Order.query.get(int(10266))\nproduct = Product.query.get(int(12))\nod51 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od51)\norder = Order.query.get(int(10267))\nproduct = Product.query.get(int(40))\nod52 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od52)\norder = Order.query.get(int(10267))\nproduct = Product.query.get(int(59))\nod53 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od53)\norder = Order.query.get(int(10267))\nproduct = Product.query.get(int(76))\nod54 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od54)\norder = Order.query.get(int(10268))\nproduct = Product.query.get(int(29))\nod55 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od55)\norder = Order.query.get(int(10268))\nproduct = Product.query.get(int(72))\nod56 = OrderDetail(order=order, product=product, quantity=4)\ndb.session.add(od56)\norder = Order.query.get(int(10269))\nproduct = Product.query.get(int(33))\nod57 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od57)\norder = Order.query.get(int(10269))\nproduct = Product.query.get(int(72))\nod58 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od58)\norder = Order.query.get(int(10270))\nproduct = Product.query.get(int(36))\nod59 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od59)\norder = Order.query.get(int(10270))\nproduct = Product.query.get(int(43))\nod60 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od60)\norder = Order.query.get(int(10271))\nproduct = Product.query.get(int(33))\nod61 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od61)\norder = Order.query.get(int(10272))\nproduct = Product.query.get(int(20))\nod62 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od62)\norder = Order.query.get(int(10272))\nproduct = Product.query.get(int(31))\nod63 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od63)\norder = Order.query.get(int(10272))\nproduct = Product.query.get(int(72))\nod64 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od64)\norder = Order.query.get(int(10273))\nproduct = Product.query.get(int(10))\nod65 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od65)\norder = Order.query.get(int(10273))\nproduct = Product.query.get(int(31))\nod66 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od66)\norder = Order.query.get(int(10273))\nproduct = Product.query.get(int(33))\nod67 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od67)\norder = Order.query.get(int(10273))\nproduct = Product.query.get(int(40))\nod68 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od68)\norder = Order.query.get(int(10273))\nproduct = Product.query.get(int(76))\nod69 = OrderDetail(order=order, product=product, quantity=33)\ndb.session.add(od69)\norder = Order.query.get(int(10274))\nproduct = Product.query.get(int(71))\nod70 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od70)\norder = Order.query.get(int(10274))\nproduct = Product.query.get(int(72))\nod71 = OrderDetail(order=order, product=product, quantity=7)\ndb.session.add(od71)\norder = Order.query.get(int(10275))\nproduct = Product.query.get(int(24))\nod72 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od72)\norder = Order.query.get(int(10275))\nproduct = Product.query.get(int(59))\nod73 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od73)\norder = Order.query.get(int(10276))\nproduct = Product.query.get(int(10))\nod74 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od74)\norder = Order.query.get(int(10276))\nproduct = Product.query.get(int(13))\nod75 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od75)\norder = Order.query.get(int(10277))\nproduct = Product.query.get(int(28))\nod76 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od76)\norder = Order.query.get(int(10277))\nproduct = Product.query.get(int(62))\nod77 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od77)\norder = Order.query.get(int(10278))\nproduct = Product.query.get(int(44))\nod78 = OrderDetail(order=order, product=product, quantity=16)\ndb.session.add(od78)\norder = Order.query.get(int(10278))\nproduct = Product.query.get(int(59))\nod79 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od79)\norder = Order.query.get(int(10278))\nproduct = Product.query.get(int(63))\nod80 = OrderDetail(order=order, product=product, quantity=8)\ndb.session.add(od80)\norder = Order.query.get(int(10278))\nproduct = Product.query.get(int(73))\nod81 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od81)\norder = Order.query.get(int(10279))\nproduct = Product.query.get(int(17))\nod82 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od82)\norder = Order.query.get(int(10280))\nproduct = Product.query.get(int(24))\nod83 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od83)\norder = Order.query.get(int(10280))\nproduct = Product.query.get(int(55))\nod84 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od84)\norder = Order.query.get(int(10280))\nproduct = Product.query.get(int(75))\nod85 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od85)\norder = Order.query.get(int(10281))\nproduct = Product.query.get(int(19))\nod86 = OrderDetail(order=order, product=product, quantity=1)\ndb.session.add(od86)\norder = Order.query.get(int(10281))\nproduct = Product.query.get(int(24))\nod87 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od87)\norder = Order.query.get(int(10281))\nproduct = Product.query.get(int(35))\nod88 = OrderDetail(order=order, product=product, quantity=4)\ndb.session.add(od88)\norder = Order.query.get(int(10282))\nproduct = Product.query.get(int(30))\nod89 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od89)\norder = Order.query.get(int(10282))\nproduct = Product.query.get(int(57))\nod90 = OrderDetail(order=order, product=product, quantity=2)\ndb.session.add(od90)\norder = Order.query.get(int(10283))\nproduct = Product.query.get(int(15))\nod91 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od91)\norder = Order.query.get(int(10283))\nproduct = Product.query.get(int(19))\nod92 = OrderDetail(order=order, product=product, quantity=18)\ndb.session.add(od92)\norder = Order.query.get(int(10283))\nproduct = Product.query.get(int(60))\nod93 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od93)\norder = Order.query.get(int(10283))\nproduct = Product.query.get(int(72))\nod94 = OrderDetail(order=order, product=product, quantity=3)\ndb.session.add(od94)\norder = Order.query.get(int(10284))\nproduct = Product.query.get(int(27))\nod95 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od95)\norder = Order.query.get(int(10284))\nproduct = Product.query.get(int(44))\nod96 = OrderDetail(order=order, product=product, quantity=21)\ndb.session.add(od96)\norder = Order.query.get(int(10284))\nproduct = Product.query.get(int(60))\nod97 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od97)\norder = Order.query.get(int(10284))\nproduct = Product.query.get(int(67))\nod98 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od98)\norder = Order.query.get(int(10285))\nproduct = Product.query.get(int(1))\nod99 = OrderDetail(order=order, product=product, quantity=45)\ndb.session.add(od99)\norder = Order.query.get(int(10285))\nproduct = Product.query.get(int(40))\nod100 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od100)\norder = Order.query.get(int(10285))\nproduct = Product.query.get(int(53))\nod101 = OrderDetail(order=order, product=product, quantity=36)\ndb.session.add(od101)\norder = Order.query.get(int(10286))\nproduct = Product.query.get(int(35))\nod102 = OrderDetail(order=order, product=product, quantity=100)\ndb.session.add(od102)\norder = Order.query.get(int(10286))\nproduct = Product.query.get(int(62))\nod103 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od103)\norder = Order.query.get(int(10287))\nproduct = Product.query.get(int(16))\nod104 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od104)\norder = Order.query.get(int(10287))\nproduct = Product.query.get(int(34))\nod105 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od105)\norder = Order.query.get(int(10287))\nproduct = Product.query.get(int(46))\nod106 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od106)\norder = Order.query.get(int(10288))\nproduct = Product.query.get(int(54))\nod107 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od107)\norder = Order.query.get(int(10288))\nproduct = Product.query.get(int(68))\nod108 = OrderDetail(order=order, product=product, quantity=3)\ndb.session.add(od108)\norder = Order.query.get(int(10289))\nproduct = Product.query.get(int(3))\nod109 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od109)\norder = Order.query.get(int(10289))\nproduct = Product.query.get(int(64))\nod110 = OrderDetail(order=order, product=product, quantity=9)\ndb.session.add(od110)\norder = Order.query.get(int(10290))\nproduct = Product.query.get(int(5))\nod111 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od111)\norder = Order.query.get(int(10290))\nproduct = Product.query.get(int(29))\nod112 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od112)\norder = Order.query.get(int(10290))\nproduct = Product.query.get(int(49))\nod113 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od113)\norder = Order.query.get(int(10290))\nproduct = Product.query.get(int(77))\nod114 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od114)\norder = Order.query.get(int(10291))\nproduct = Product.query.get(int(13))\nod115 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od115)\norder = Order.query.get(int(10291))\nproduct = Product.query.get(int(44))\nod116 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od116)\norder = Order.query.get(int(10291))\nproduct = Product.query.get(int(51))\nod117 = OrderDetail(order=order, product=product, quantity=2)\ndb.session.add(od117)\norder = Order.query.get(int(10292))\nproduct = Product.query.get(int(20))\nod118 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od118)\norder = Order.query.get(int(10293))\nproduct = Product.query.get(int(18))\nod119 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od119)\norder = Order.query.get(int(10293))\nproduct = Product.query.get(int(24))\nod120 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od120)\norder = Order.query.get(int(10293))\nproduct = Product.query.get(int(63))\nod121 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od121)\norder = Order.query.get(int(10293))\nproduct = Product.query.get(int(75))\nod122 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od122)\norder = Order.query.get(int(10294))\nproduct = Product.query.get(int(1))\nod123 = OrderDetail(order=order, product=product, quantity=18)\ndb.session.add(od123)\norder = Order.query.get(int(10294))\nproduct = Product.query.get(int(17))\nod124 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od124)\norder = Order.query.get(int(10294))\nproduct = Product.query.get(int(43))\nod125 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od125)\norder = Order.query.get(int(10294))\nproduct = Product.query.get(int(60))\nod126 = OrderDetail(order=order, product=product, quantity=21)\ndb.session.add(od126)\norder = Order.query.get(int(10294))\nproduct = Product.query.get(int(75))\nod127 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od127)\norder = Order.query.get(int(10295))\nproduct = Product.query.get(int(56))\nod128 = OrderDetail(order=order, product=product, quantity=4)\ndb.session.add(od128)\norder = Order.query.get(int(10296))\nproduct = Product.query.get(int(11))\nod129 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od129)\norder = Order.query.get(int(10296))\nproduct = Product.query.get(int(16))\nod130 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od130)\norder = Order.query.get(int(10296))\nproduct = Product.query.get(int(69))\nod131 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od131)\norder = Order.query.get(int(10297))\nproduct = Product.query.get(int(39))\nod132 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od132)\norder = Order.query.get(int(10297))\nproduct = Product.query.get(int(72))\nod133 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od133)\norder = Order.query.get(int(10298))\nproduct = Product.query.get(int(2))\nod134 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od134)\norder = Order.query.get(int(10298))\nproduct = Product.query.get(int(36))\nod135 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od135)\norder = Order.query.get(int(10298))\nproduct = Product.query.get(int(59))\nod136 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od136)\norder = Order.query.get(int(10298))\nproduct = Product.query.get(int(62))\nod137 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od137)\norder = Order.query.get(int(10299))\nproduct = Product.query.get(int(19))\nod138 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od138)\norder = Order.query.get(int(10299))\nproduct = Product.query.get(int(70))\nod139 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od139)\norder = Order.query.get(int(10300))\nproduct = Product.query.get(int(66))\nod140 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od140)\norder = Order.query.get(int(10300))\nproduct = Product.query.get(int(68))\nod141 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od141)\norder = Order.query.get(int(10301))\nproduct = Product.query.get(int(40))\nod142 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od142)\norder = Order.query.get(int(10301))\nproduct = Product.query.get(int(56))\nod143 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od143)\norder = Order.query.get(int(10302))\nproduct = Product.query.get(int(17))\nod144 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od144)\norder = Order.query.get(int(10302))\nproduct = Product.query.get(int(28))\nod145 = OrderDetail(order=order, product=product, quantity=28)\ndb.session.add(od145)\norder = Order.query.get(int(10302))\nproduct = Product.query.get(int(43))\nod146 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od146)\norder = Order.query.get(int(10303))\nproduct = Product.query.get(int(40))\nod147 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od147)\norder = Order.query.get(int(10303))\nproduct = Product.query.get(int(65))\nod148 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od148)\norder = Order.query.get(int(10303))\nproduct = Product.query.get(int(68))\nod149 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od149)\norder = Order.query.get(int(10304))\nproduct = Product.query.get(int(49))\nod150 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od150)\norder = Order.query.get(int(10304))\nproduct = Product.query.get(int(59))\nod151 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od151)\norder = Order.query.get(int(10304))\nproduct = Product.query.get(int(71))\nod152 = OrderDetail(order=order, product=product, quantity=2)\ndb.session.add(od152)\norder = Order.query.get(int(10305))\nproduct = Product.query.get(int(18))\nod153 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od153)\norder = Order.query.get(int(10305))\nproduct = Product.query.get(int(29))\nod154 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od154)\norder = Order.query.get(int(10305))\nproduct = Product.query.get(int(39))\nod155 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od155)\norder = Order.query.get(int(10306))\nproduct = Product.query.get(int(30))\nod156 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od156)\norder = Order.query.get(int(10306))\nproduct = Product.query.get(int(53))\nod157 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od157)\norder = Order.query.get(int(10306))\nproduct = Product.query.get(int(54))\nod158 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od158)\norder = Order.query.get(int(10307))\nproduct = Product.query.get(int(62))\nod159 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od159)\norder = Order.query.get(int(10307))\nproduct = Product.query.get(int(68))\nod160 = OrderDetail(order=order, product=product, quantity=3)\ndb.session.add(od160)\norder = Order.query.get(int(10308))\nproduct = Product.query.get(int(69))\nod161 = OrderDetail(order=order, product=product, quantity=1)\ndb.session.add(od161)\norder = Order.query.get(int(10308))\nproduct = Product.query.get(int(70))\nod162 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od162)\norder = Order.query.get(int(10309))\nproduct = Product.query.get(int(4))\nod163 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od163)\norder = Order.query.get(int(10309))\nproduct = Product.query.get(int(6))\nod164 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od164)\norder = Order.query.get(int(10309))\nproduct = Product.query.get(int(42))\nod165 = OrderDetail(order=order, product=product, quantity=2)\ndb.session.add(od165)\norder = Order.query.get(int(10309))\nproduct = Product.query.get(int(43))\nod166 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od166)\norder = Order.query.get(int(10309))\nproduct = Product.query.get(int(71))\nod167 = OrderDetail(order=order, product=product, quantity=3)\ndb.session.add(od167)\norder = Order.query.get(int(10310))\nproduct = Product.query.get(int(16))\nod168 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od168)\norder = Order.query.get(int(10310))\nproduct = Product.query.get(int(62))\nod169 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od169)\norder = Order.query.get(int(10311))\nproduct = Product.query.get(int(42))\nod170 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od170)\norder = Order.query.get(int(10311))\nproduct = Product.query.get(int(69))\nod171 = OrderDetail(order=order, product=product, quantity=7)\ndb.session.add(od171)\norder = Order.query.get(int(10312))\nproduct = Product.query.get(int(28))\nod172 = OrderDetail(order=order, product=product, quantity=4)\ndb.session.add(od172)\norder = Order.query.get(int(10312))\nproduct = Product.query.get(int(43))\nod173 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od173)\norder = Order.query.get(int(10312))\nproduct = Product.query.get(int(53))\nod174 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od174)\norder = Order.query.get(int(10312))\nproduct = Product.query.get(int(75))\nod175 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od175)\norder = Order.query.get(int(10313))\nproduct = Product.query.get(int(36))\nod176 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od176)\norder = Order.query.get(int(10314))\nproduct = Product.query.get(int(32))\nod177 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od177)\norder = Order.query.get(int(10314))\nproduct = Product.query.get(int(58))\nod178 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od178)\norder = Order.query.get(int(10314))\nproduct = Product.query.get(int(62))\nod179 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od179)\norder = Order.query.get(int(10315))\nproduct = Product.query.get(int(34))\nod180 = OrderDetail(order=order, product=product, quantity=14)\ndb.session.add(od180)\norder = Order.query.get(int(10315))\nproduct = Product.query.get(int(70))\nod181 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od181)\norder = Order.query.get(int(10316))\nproduct = Product.query.get(int(41))\nod182 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od182)\norder = Order.query.get(int(10316))\nproduct = Product.query.get(int(62))\nod183 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od183)\norder = Order.query.get(int(10317))\nproduct = Product.query.get(int(1))\nod184 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od184)\norder = Order.query.get(int(10318))\nproduct = Product.query.get(int(41))\nod185 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od185)\norder = Order.query.get(int(10318))\nproduct = Product.query.get(int(76))\nod186 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od186)\norder = Order.query.get(int(10319))\nproduct = Product.query.get(int(17))\nod187 = OrderDetail(order=order, product=product, quantity=8)\ndb.session.add(od187)\norder = Order.query.get(int(10319))\nproduct = Product.query.get(int(28))\nod188 = OrderDetail(order=order, product=product, quantity=14)\ndb.session.add(od188)\norder = Order.query.get(int(10319))\nproduct = Product.query.get(int(76))\nod189 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od189)\norder = Order.query.get(int(10320))\nproduct = Product.query.get(int(71))\nod190 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od190)\norder = Order.query.get(int(10321))\nproduct = Product.query.get(int(35))\nod191 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od191)\norder = Order.query.get(int(10322))\nproduct = Product.query.get(int(52))\nod192 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od192)\norder = Order.query.get(int(10323))\nproduct = Product.query.get(int(15))\nod193 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od193)\norder = Order.query.get(int(10323))\nproduct = Product.query.get(int(25))\nod194 = OrderDetail(order=order, product=product, quantity=4)\ndb.session.add(od194)\norder = Order.query.get(int(10323))\nproduct = Product.query.get(int(39))\nod195 = OrderDetail(order=order, product=product, quantity=4)\ndb.session.add(od195)\norder = Order.query.get(int(10324))\nproduct = Product.query.get(int(16))\nod196 = OrderDetail(order=order, product=product, quantity=21)\ndb.session.add(od196)\norder = Order.query.get(int(10324))\nproduct = Product.query.get(int(35))\nod197 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od197)\norder = Order.query.get(int(10324))\nproduct = Product.query.get(int(46))\nod198 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od198)\norder = Order.query.get(int(10324))\nproduct = Product.query.get(int(59))\nod199 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od199)\norder = Order.query.get(int(10324))\nproduct = Product.query.get(int(63))\nod200 = OrderDetail(order=order, product=product, quantity=80)\ndb.session.add(od200)\norder = Order.query.get(int(10325))\nproduct = Product.query.get(int(6))\nod201 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od201)\norder = Order.query.get(int(10325))\nproduct = Product.query.get(int(13))\nod202 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od202)\norder = Order.query.get(int(10325))\nproduct = Product.query.get(int(14))\nod203 = OrderDetail(order=order, product=product, quantity=9)\ndb.session.add(od203)\norder = Order.query.get(int(10325))\nproduct = Product.query.get(int(31))\nod204 = OrderDetail(order=order, product=product, quantity=4)\ndb.session.add(od204)\norder = Order.query.get(int(10325))\nproduct = Product.query.get(int(72))\nod205 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od205)\norder = Order.query.get(int(10326))\nproduct = Product.query.get(int(4))\nod206 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od206)\norder = Order.query.get(int(10326))\nproduct = Product.query.get(int(57))\nod207 = OrderDetail(order=order, product=product, quantity=16)\ndb.session.add(od207)\norder = Order.query.get(int(10326))\nproduct = Product.query.get(int(75))\nod208 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od208)\norder = Order.query.get(int(10327))\nproduct = Product.query.get(int(2))\nod209 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od209)\norder = Order.query.get(int(10327))\nproduct = Product.query.get(int(11))\nod210 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od210)\norder = Order.query.get(int(10327))\nproduct = Product.query.get(int(30))\nod211 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od211)\norder = Order.query.get(int(10327))\nproduct = Product.query.get(int(58))\nod212 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od212)\norder = Order.query.get(int(10328))\nproduct = Product.query.get(int(59))\nod213 = OrderDetail(order=order, product=product, quantity=9)\ndb.session.add(od213)\norder = Order.query.get(int(10328))\nproduct = Product.query.get(int(65))\nod214 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od214)\norder = Order.query.get(int(10328))\nproduct = Product.query.get(int(68))\nod215 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od215)\norder = Order.query.get(int(10329))\nproduct = Product.query.get(int(19))\nod216 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od216)\norder = Order.query.get(int(10329))\nproduct = Product.query.get(int(30))\nod217 = OrderDetail(order=order, product=product, quantity=8)\ndb.session.add(od217)\norder = Order.query.get(int(10329))\nproduct = Product.query.get(int(38))\nod218 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od218)\norder = Order.query.get(int(10329))\nproduct = Product.query.get(int(56))\nod219 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od219)\norder = Order.query.get(int(10330))\nproduct = Product.query.get(int(26))\nod220 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od220)\norder = Order.query.get(int(10330))\nproduct = Product.query.get(int(72))\nod221 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od221)\norder = Order.query.get(int(10331))\nproduct = Product.query.get(int(54))\nod222 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od222)\norder = Order.query.get(int(10332))\nproduct = Product.query.get(int(18))\nod223 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od223)\norder = Order.query.get(int(10332))\nproduct = Product.query.get(int(42))\nod224 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od224)\norder = Order.query.get(int(10332))\nproduct = Product.query.get(int(47))\nod225 = OrderDetail(order=order, product=product, quantity=16)\ndb.session.add(od225)\norder = Order.query.get(int(10333))\nproduct = Product.query.get(int(14))\nod226 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od226)\norder = Order.query.get(int(10333))\nproduct = Product.query.get(int(21))\nod227 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od227)\norder = Order.query.get(int(10333))\nproduct = Product.query.get(int(71))\nod228 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od228)\norder = Order.query.get(int(10334))\nproduct = Product.query.get(int(52))\nod229 = OrderDetail(order=order, product=product, quantity=8)\ndb.session.add(od229)\norder = Order.query.get(int(10334))\nproduct = Product.query.get(int(68))\nod230 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od230)\norder = Order.query.get(int(10335))\nproduct = Product.query.get(int(2))\nod231 = OrderDetail(order=order, product=product, quantity=7)\ndb.session.add(od231)\norder = Order.query.get(int(10335))\nproduct = Product.query.get(int(31))\nod232 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od232)\norder = Order.query.get(int(10335))\nproduct = Product.query.get(int(32))\nod233 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od233)\norder = Order.query.get(int(10335))\nproduct = Product.query.get(int(51))\nod234 = OrderDetail(order=order, product=product, quantity=48)\ndb.session.add(od234)\norder = Order.query.get(int(10336))\nproduct = Product.query.get(int(4))\nod235 = OrderDetail(order=order, product=product, quantity=18)\ndb.session.add(od235)\norder = Order.query.get(int(10337))\nproduct = Product.query.get(int(23))\nod236 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od236)\norder = Order.query.get(int(10337))\nproduct = Product.query.get(int(26))\nod237 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od237)\norder = Order.query.get(int(10337))\nproduct = Product.query.get(int(36))\nod238 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od238)\norder = Order.query.get(int(10337))\nproduct = Product.query.get(int(37))\nod239 = OrderDetail(order=order, product=product, quantity=28)\ndb.session.add(od239)\norder = Order.query.get(int(10337))\nproduct = Product.query.get(int(72))\nod240 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od240)\norder = Order.query.get(int(10338))\nproduct = Product.query.get(int(17))\nod241 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od241)\norder = Order.query.get(int(10338))\nproduct = Product.query.get(int(30))\nod242 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od242)\norder = Order.query.get(int(10339))\nproduct = Product.query.get(int(4))\nod243 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od243)\norder = Order.query.get(int(10339))\nproduct = Product.query.get(int(17))\nod244 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od244)\norder = Order.query.get(int(10339))\nproduct = Product.query.get(int(62))\nod245 = OrderDetail(order=order, product=product, quantity=28)\ndb.session.add(od245)\norder = Order.query.get(int(10340))\nproduct = Product.query.get(int(18))\nod246 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od246)\norder = Order.query.get(int(10340))\nproduct = Product.query.get(int(41))\nod247 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od247)\norder = Order.query.get(int(10340))\nproduct = Product.query.get(int(43))\nod248 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od248)\norder = Order.query.get(int(10341))\nproduct = Product.query.get(int(33))\nod249 = OrderDetail(order=order, product=product, quantity=8)\ndb.session.add(od249)\norder = Order.query.get(int(10341))\nproduct = Product.query.get(int(59))\nod250 = OrderDetail(order=order, product=product, quantity=9)\ndb.session.add(od250)\norder = Order.query.get(int(10342))\nproduct = Product.query.get(int(2))\nod251 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od251)\norder = Order.query.get(int(10342))\nproduct = Product.query.get(int(31))\nod252 = OrderDetail(order=order, product=product, quantity=56)\ndb.session.add(od252)\norder = Order.query.get(int(10342))\nproduct = Product.query.get(int(36))\nod253 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od253)\norder = Order.query.get(int(10342))\nproduct = Product.query.get(int(55))\nod254 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od254)\norder = Order.query.get(int(10343))\nproduct = Product.query.get(int(64))\nod255 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od255)\norder = Order.query.get(int(10343))\nproduct = Product.query.get(int(68))\nod256 = OrderDetail(order=order, product=product, quantity=4)\ndb.session.add(od256)\norder = Order.query.get(int(10343))\nproduct = Product.query.get(int(76))\nod257 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od257)\norder = Order.query.get(int(10344))\nproduct = Product.query.get(int(4))\nod258 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od258)\norder = Order.query.get(int(10344))\nproduct = Product.query.get(int(8))\nod259 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od259)\norder = Order.query.get(int(10345))\nproduct = Product.query.get(int(8))\nod260 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od260)\norder = Order.query.get(int(10345))\nproduct = Product.query.get(int(19))\nod261 = OrderDetail(order=order, product=product, quantity=80)\ndb.session.add(od261)\norder = Order.query.get(int(10345))\nproduct = Product.query.get(int(42))\nod262 = OrderDetail(order=order, product=product, quantity=9)\ndb.session.add(od262)\norder = Order.query.get(int(10346))\nproduct = Product.query.get(int(17))\nod263 = OrderDetail(order=order, product=product, quantity=36)\ndb.session.add(od263)\norder = Order.query.get(int(10346))\nproduct = Product.query.get(int(56))\nod264 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od264)\norder = Order.query.get(int(10347))\nproduct = Product.query.get(int(25))\nod265 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od265)\norder = Order.query.get(int(10347))\nproduct = Product.query.get(int(39))\nod266 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od266)\norder = Order.query.get(int(10347))\nproduct = Product.query.get(int(40))\nod267 = OrderDetail(order=order, product=product, quantity=4)\ndb.session.add(od267)\norder = Order.query.get(int(10347))\nproduct = Product.query.get(int(75))\nod268 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od268)\norder = Order.query.get(int(10348))\nproduct = Product.query.get(int(1))\nod269 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od269)\norder = Order.query.get(int(10348))\nproduct = Product.query.get(int(23))\nod270 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od270)\norder = Order.query.get(int(10349))\nproduct = Product.query.get(int(54))\nod271 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od271)\norder = Order.query.get(int(10350))\nproduct = Product.query.get(int(50))\nod272 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od272)\norder = Order.query.get(int(10350))\nproduct = Product.query.get(int(69))\nod273 = OrderDetail(order=order, product=product, quantity=18)\ndb.session.add(od273)\norder = Order.query.get(int(10351))\nproduct = Product.query.get(int(38))\nod274 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od274)\norder = Order.query.get(int(10351))\nproduct = Product.query.get(int(41))\nod275 = OrderDetail(order=order, product=product, quantity=13)\ndb.session.add(od275)\norder = Order.query.get(int(10351))\nproduct = Product.query.get(int(44))\nod276 = OrderDetail(order=order, product=product, quantity=77)\ndb.session.add(od276)\norder = Order.query.get(int(10351))\nproduct = Product.query.get(int(65))\nod277 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od277)\norder = Order.query.get(int(10352))\nproduct = Product.query.get(int(24))\nod278 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od278)\norder = Order.query.get(int(10352))\nproduct = Product.query.get(int(54))\nod279 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od279)\norder = Order.query.get(int(10353))\nproduct = Product.query.get(int(11))\nod280 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od280)\norder = Order.query.get(int(10353))\nproduct = Product.query.get(int(38))\nod281 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od281)\norder = Order.query.get(int(10354))\nproduct = Product.query.get(int(1))\nod282 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od282)\norder = Order.query.get(int(10354))\nproduct = Product.query.get(int(29))\nod283 = OrderDetail(order=order, product=product, quantity=4)\ndb.session.add(od283)\norder = Order.query.get(int(10355))\nproduct = Product.query.get(int(24))\nod284 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od284)\norder = Order.query.get(int(10355))\nproduct = Product.query.get(int(57))\nod285 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od285)\norder = Order.query.get(int(10356))\nproduct = Product.query.get(int(31))\nod286 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od286)\norder = Order.query.get(int(10356))\nproduct = Product.query.get(int(55))\nod287 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od287)\norder = Order.query.get(int(10356))\nproduct = Product.query.get(int(69))\nod288 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od288)\norder = Order.query.get(int(10357))\nproduct = Product.query.get(int(10))\nod289 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od289)\norder = Order.query.get(int(10357))\nproduct = Product.query.get(int(26))\nod290 = OrderDetail(order=order, product=product, quantity=16)\ndb.session.add(od290)\norder = Order.query.get(int(10357))\nproduct = Product.query.get(int(60))\nod291 = OrderDetail(order=order, product=product, quantity=8)\ndb.session.add(od291)\norder = Order.query.get(int(10358))\nproduct = Product.query.get(int(24))\nod292 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od292)\norder = Order.query.get(int(10358))\nproduct = Product.query.get(int(34))\nod293 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od293)\norder = Order.query.get(int(10358))\nproduct = Product.query.get(int(36))\nod294 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od294)\norder = Order.query.get(int(10359))\nproduct = Product.query.get(int(16))\nod295 = OrderDetail(order=order, product=product, quantity=56)\ndb.session.add(od295)\norder = Order.query.get(int(10359))\nproduct = Product.query.get(int(31))\nod296 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od296)\norder = Order.query.get(int(10359))\nproduct = Product.query.get(int(60))\nod297 = OrderDetail(order=order, product=product, quantity=80)\ndb.session.add(od297)\norder = Order.query.get(int(10360))\nproduct = Product.query.get(int(28))\nod298 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od298)\norder = Order.query.get(int(10360))\nproduct = Product.query.get(int(29))\nod299 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od299)\norder = Order.query.get(int(10360))\nproduct = Product.query.get(int(38))\nod300 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od300)\norder = Order.query.get(int(10360))\nproduct = Product.query.get(int(49))\nod301 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od301)\norder = Order.query.get(int(10360))\nproduct = Product.query.get(int(54))\nod302 = OrderDetail(order=order, product=product, quantity=28)\ndb.session.add(od302)\norder = Order.query.get(int(10361))\nproduct = Product.query.get(int(39))\nod303 = OrderDetail(order=order, product=product, quantity=54)\ndb.session.add(od303)\norder = Order.query.get(int(10361))\nproduct = Product.query.get(int(60))\nod304 = OrderDetail(order=order, product=product, quantity=55)\ndb.session.add(od304)\norder = Order.query.get(int(10362))\nproduct = Product.query.get(int(25))\nod305 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od305)\norder = Order.query.get(int(10362))\nproduct = Product.query.get(int(51))\nod306 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od306)\norder = Order.query.get(int(10362))\nproduct = Product.query.get(int(54))\nod307 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od307)\norder = Order.query.get(int(10363))\nproduct = Product.query.get(int(31))\nod308 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od308)\norder = Order.query.get(int(10363))\nproduct = Product.query.get(int(75))\nod309 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od309)\norder = Order.query.get(int(10363))\nproduct = Product.query.get(int(76))\nod310 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od310)\norder = Order.query.get(int(10364))\nproduct = Product.query.get(int(69))\nod311 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od311)\norder = Order.query.get(int(10364))\nproduct = Product.query.get(int(71))\nod312 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od312)\norder = Order.query.get(int(10365))\nproduct = Product.query.get(int(11))\nod313 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od313)\norder = Order.query.get(int(10366))\nproduct = Product.query.get(int(65))\nod314 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od314)\norder = Order.query.get(int(10366))\nproduct = Product.query.get(int(77))\nod315 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od315)\norder = Order.query.get(int(10367))\nproduct = Product.query.get(int(34))\nod316 = OrderDetail(order=order, product=product, quantity=36)\ndb.session.add(od316)\norder = Order.query.get(int(10367))\nproduct = Product.query.get(int(54))\nod317 = OrderDetail(order=order, product=product, quantity=18)\ndb.session.add(od317)\norder = Order.query.get(int(10367))\nproduct = Product.query.get(int(65))\nod318 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od318)\norder = Order.query.get(int(10367))\nproduct = Product.query.get(int(77))\nod319 = OrderDetail(order=order, product=product, quantity=7)\ndb.session.add(od319)\norder = Order.query.get(int(10368))\nproduct = Product.query.get(int(21))\nod320 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od320)\norder = Order.query.get(int(10368))\nproduct = Product.query.get(int(28))\nod321 = OrderDetail(order=order, product=product, quantity=13)\ndb.session.add(od321)\norder = Order.query.get(int(10368))\nproduct = Product.query.get(int(57))\nod322 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od322)\norder = Order.query.get(int(10368))\nproduct = Product.query.get(int(64))\nod323 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od323)\norder = Order.query.get(int(10369))\nproduct = Product.query.get(int(29))\nod324 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od324)\norder = Order.query.get(int(10369))\nproduct = Product.query.get(int(56))\nod325 = OrderDetail(order=order, product=product, quantity=18)\ndb.session.add(od325)\norder = Order.query.get(int(10370))\nproduct = Product.query.get(int(1))\nod326 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od326)\norder = Order.query.get(int(10370))\nproduct = Product.query.get(int(64))\nod327 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od327)\norder = Order.query.get(int(10370))\nproduct = Product.query.get(int(74))\nod328 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od328)\norder = Order.query.get(int(10371))\nproduct = Product.query.get(int(36))\nod329 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od329)\norder = Order.query.get(int(10372))\nproduct = Product.query.get(int(20))\nod330 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od330)\norder = Order.query.get(int(10372))\nproduct = Product.query.get(int(38))\nod331 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od331)\norder = Order.query.get(int(10372))\nproduct = Product.query.get(int(60))\nod332 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od332)\norder = Order.query.get(int(10372))\nproduct = Product.query.get(int(72))\nod333 = OrderDetail(order=order, product=product, quantity=42)\ndb.session.add(od333)\norder = Order.query.get(int(10373))\nproduct = Product.query.get(int(58))\nod334 = OrderDetail(order=order, product=product, quantity=80)\ndb.session.add(od334)\norder = Order.query.get(int(10373))\nproduct = Product.query.get(int(71))\nod335 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od335)\norder = Order.query.get(int(10374))\nproduct = Product.query.get(int(31))\nod336 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od336)\norder = Order.query.get(int(10374))\nproduct = Product.query.get(int(58))\nod337 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od337)\norder = Order.query.get(int(10375))\nproduct = Product.query.get(int(14))\nod338 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od338)\norder = Order.query.get(int(10375))\nproduct = Product.query.get(int(54))\nod339 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od339)\norder = Order.query.get(int(10376))\nproduct = Product.query.get(int(31))\nod340 = OrderDetail(order=order, product=product, quantity=42)\ndb.session.add(od340)\norder = Order.query.get(int(10377))\nproduct = Product.query.get(int(28))\nod341 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od341)\norder = Order.query.get(int(10377))\nproduct = Product.query.get(int(39))\nod342 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od342)\norder = Order.query.get(int(10378))\nproduct = Product.query.get(int(71))\nod343 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od343)\norder = Order.query.get(int(10379))\nproduct = Product.query.get(int(41))\nod344 = OrderDetail(order=order, product=product, quantity=8)\ndb.session.add(od344)\norder = Order.query.get(int(10379))\nproduct = Product.query.get(int(63))\nod345 = OrderDetail(order=order, product=product, quantity=16)\ndb.session.add(od345)\norder = Order.query.get(int(10379))\nproduct = Product.query.get(int(65))\nod346 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od346)\norder = Order.query.get(int(10380))\nproduct = Product.query.get(int(30))\nod347 = OrderDetail(order=order, product=product, quantity=18)\ndb.session.add(od347)\norder = Order.query.get(int(10380))\nproduct = Product.query.get(int(53))\nod348 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od348)\norder = Order.query.get(int(10380))\nproduct = Product.query.get(int(60))\nod349 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od349)\norder = Order.query.get(int(10380))\nproduct = Product.query.get(int(70))\nod350 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od350)\norder = Order.query.get(int(10381))\nproduct = Product.query.get(int(74))\nod351 = OrderDetail(order=order, product=product, quantity=14)\ndb.session.add(od351)\norder = Order.query.get(int(10382))\nproduct = Product.query.get(int(5))\nod352 = OrderDetail(order=order, product=product, quantity=32)\ndb.session.add(od352)\norder = Order.query.get(int(10382))\nproduct = Product.query.get(int(18))\nod353 = OrderDetail(order=order, product=product, quantity=9)\ndb.session.add(od353)\norder = Order.query.get(int(10382))\nproduct = Product.query.get(int(29))\nod354 = OrderDetail(order=order, product=product, quantity=14)\ndb.session.add(od354)\norder = Order.query.get(int(10382))\nproduct = Product.query.get(int(33))\nod355 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od355)\norder = Order.query.get(int(10382))\nproduct = Product.query.get(int(74))\nod356 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od356)\norder = Order.query.get(int(10383))\nproduct = Product.query.get(int(13))\nod357 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od357)\norder = Order.query.get(int(10383))\nproduct = Product.query.get(int(50))\nod358 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od358)\norder = Order.query.get(int(10383))\nproduct = Product.query.get(int(56))\nod359 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od359)\norder = Order.query.get(int(10384))\nproduct = Product.query.get(int(20))\nod360 = OrderDetail(order=order, product=product, quantity=28)\ndb.session.add(od360)\norder = Order.query.get(int(10384))\nproduct = Product.query.get(int(60))\nod361 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od361)\norder = Order.query.get(int(10385))\nproduct = Product.query.get(int(7))\nod362 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od362)\norder = Order.query.get(int(10385))\nproduct = Product.query.get(int(60))\nod363 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od363)\norder = Order.query.get(int(10385))\nproduct = Product.query.get(int(68))\nod364 = OrderDetail(order=order, product=product, quantity=8)\ndb.session.add(od364)\norder = Order.query.get(int(10386))\nproduct = Product.query.get(int(24))\nod365 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od365)\norder = Order.query.get(int(10386))\nproduct = Product.query.get(int(34))\nod366 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od366)\norder = Order.query.get(int(10387))\nproduct = Product.query.get(int(24))\nod367 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od367)\norder = Order.query.get(int(10387))\nproduct = Product.query.get(int(28))\nod368 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od368)\norder = Order.query.get(int(10387))\nproduct = Product.query.get(int(59))\nod369 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od369)\norder = Order.query.get(int(10387))\nproduct = Product.query.get(int(71))\nod370 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od370)\norder = Order.query.get(int(10388))\nproduct = Product.query.get(int(45))\nod371 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od371)\norder = Order.query.get(int(10388))\nproduct = Product.query.get(int(52))\nod372 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od372)\norder = Order.query.get(int(10388))\nproduct = Product.query.get(int(53))\nod373 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od373)\norder = Order.query.get(int(10389))\nproduct = Product.query.get(int(10))\nod374 = OrderDetail(order=order, product=product, quantity=16)\ndb.session.add(od374)\norder = Order.query.get(int(10389))\nproduct = Product.query.get(int(55))\nod375 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od375)\norder = Order.query.get(int(10389))\nproduct = Product.query.get(int(62))\nod376 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od376)\norder = Order.query.get(int(10389))\nproduct = Product.query.get(int(70))\nod377 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od377)\norder = Order.query.get(int(10390))\nproduct = Product.query.get(int(31))\nod378 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od378)\norder = Order.query.get(int(10390))\nproduct = Product.query.get(int(35))\nod379 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od379)\norder = Order.query.get(int(10390))\nproduct = Product.query.get(int(46))\nod380 = OrderDetail(order=order, product=product, quantity=45)\ndb.session.add(od380)\norder = Order.query.get(int(10390))\nproduct = Product.query.get(int(72))\nod381 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od381)\norder = Order.query.get(int(10391))\nproduct = Product.query.get(int(13))\nod382 = OrderDetail(order=order, product=product, quantity=18)\ndb.session.add(od382)\norder = Order.query.get(int(10392))\nproduct = Product.query.get(int(69))\nod383 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od383)\norder = Order.query.get(int(10393))\nproduct = Product.query.get(int(2))\nod384 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od384)\norder = Order.query.get(int(10393))\nproduct = Product.query.get(int(14))\nod385 = OrderDetail(order=order, product=product, quantity=42)\ndb.session.add(od385)\norder = Order.query.get(int(10393))\nproduct = Product.query.get(int(25))\nod386 = OrderDetail(order=order, product=product, quantity=7)\ndb.session.add(od386)\norder = Order.query.get(int(10393))\nproduct = Product.query.get(int(26))\nod387 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od387)\norder = Order.query.get(int(10393))\nproduct = Product.query.get(int(31))\nod388 = OrderDetail(order=order, product=product, quantity=32)\ndb.session.add(od388)\norder = Order.query.get(int(10394))\nproduct = Product.query.get(int(13))\nod389 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od389)\norder = Order.query.get(int(10394))\nproduct = Product.query.get(int(62))\nod390 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od390)\norder = Order.query.get(int(10395))\nproduct = Product.query.get(int(46))\nod391 = OrderDetail(order=order, product=product, quantity=28)\ndb.session.add(od391)\norder = Order.query.get(int(10395))\nproduct = Product.query.get(int(53))\nod392 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od392)\norder = Order.query.get(int(10395))\nproduct = Product.query.get(int(69))\nod393 = OrderDetail(order=order, product=product, quantity=8)\ndb.session.add(od393)\norder = Order.query.get(int(10396))\nproduct = Product.query.get(int(23))\nod394 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od394)\norder = Order.query.get(int(10396))\nproduct = Product.query.get(int(71))\nod395 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od395)\norder = Order.query.get(int(10396))\nproduct = Product.query.get(int(72))\nod396 = OrderDetail(order=order, product=product, quantity=21)\ndb.session.add(od396)\norder = Order.query.get(int(10397))\nproduct = Product.query.get(int(21))\nod397 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od397)\norder = Order.query.get(int(10397))\nproduct = Product.query.get(int(51))\nod398 = OrderDetail(order=order, product=product, quantity=18)\ndb.session.add(od398)\norder = Order.query.get(int(10398))\nproduct = Product.query.get(int(35))\nod399 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od399)\norder = Order.query.get(int(10398))\nproduct = Product.query.get(int(55))\nod400 = OrderDetail(order=order, product=product, quantity=120)\ndb.session.add(od400)\norder = Order.query.get(int(10399))\nproduct = Product.query.get(int(68))\nod401 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od401)\norder = Order.query.get(int(10399))\nproduct = Product.query.get(int(71))\nod402 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od402)\norder = Order.query.get(int(10399))\nproduct = Product.query.get(int(76))\nod403 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od403)\norder = Order.query.get(int(10399))\nproduct = Product.query.get(int(77))\nod404 = OrderDetail(order=order, product=product, quantity=14)\ndb.session.add(od404)\norder = Order.query.get(int(10400))\nproduct = Product.query.get(int(29))\nod405 = OrderDetail(order=order, product=product, quantity=21)\ndb.session.add(od405)\norder = Order.query.get(int(10400))\nproduct = Product.query.get(int(35))\nod406 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od406)\norder = Order.query.get(int(10400))\nproduct = Product.query.get(int(49))\nod407 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od407)\norder = Order.query.get(int(10401))\nproduct = Product.query.get(int(30))\nod408 = OrderDetail(order=order, product=product, quantity=18)\ndb.session.add(od408)\norder = Order.query.get(int(10401))\nproduct = Product.query.get(int(56))\nod409 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od409)\norder = Order.query.get(int(10401))\nproduct = Product.query.get(int(65))\nod410 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od410)\norder = Order.query.get(int(10401))\nproduct = Product.query.get(int(71))\nod411 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od411)\norder = Order.query.get(int(10402))\nproduct = Product.query.get(int(23))\nod412 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od412)\norder = Order.query.get(int(10402))\nproduct = Product.query.get(int(63))\nod413 = OrderDetail(order=order, product=product, quantity=65)\ndb.session.add(od413)\norder = Order.query.get(int(10403))\nproduct = Product.query.get(int(16))\nod414 = OrderDetail(order=order, product=product, quantity=21)\ndb.session.add(od414)\norder = Order.query.get(int(10403))\nproduct = Product.query.get(int(48))\nod415 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od415)\norder = Order.query.get(int(10404))\nproduct = Product.query.get(int(26))\nod416 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od416)\norder = Order.query.get(int(10404))\nproduct = Product.query.get(int(42))\nod417 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od417)\norder = Order.query.get(int(10404))\nproduct = Product.query.get(int(49))\nod418 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od418)\norder = Order.query.get(int(10405))\nproduct = Product.query.get(int(3))\nod419 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od419)\norder = Order.query.get(int(10406))\nproduct = Product.query.get(int(1))\nod420 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od420)\norder = Order.query.get(int(10406))\nproduct = Product.query.get(int(21))\nod421 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od421)\norder = Order.query.get(int(10406))\nproduct = Product.query.get(int(28))\nod422 = OrderDetail(order=order, product=product, quantity=42)\ndb.session.add(od422)\norder = Order.query.get(int(10406))\nproduct = Product.query.get(int(36))\nod423 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od423)\norder = Order.query.get(int(10406))\nproduct = Product.query.get(int(40))\nod424 = OrderDetail(order=order, product=product, quantity=2)\ndb.session.add(od424)\norder = Order.query.get(int(10407))\nproduct = Product.query.get(int(11))\nod425 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od425)\norder = Order.query.get(int(10407))\nproduct = Product.query.get(int(69))\nod426 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od426)\norder = Order.query.get(int(10407))\nproduct = Product.query.get(int(71))\nod427 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od427)\norder = Order.query.get(int(10408))\nproduct = Product.query.get(int(37))\nod428 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od428)\norder = Order.query.get(int(10408))\nproduct = Product.query.get(int(54))\nod429 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od429)\norder = Order.query.get(int(10408))\nproduct = Product.query.get(int(62))\nod430 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od430)\norder = Order.query.get(int(10409))\nproduct = Product.query.get(int(14))\nod431 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od431)\norder = Order.query.get(int(10409))\nproduct = Product.query.get(int(21))\nod432 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od432)\norder = Order.query.get(int(10410))\nproduct = Product.query.get(int(33))\nod433 = OrderDetail(order=order, product=product, quantity=49)\ndb.session.add(od433)\norder = Order.query.get(int(10410))\nproduct = Product.query.get(int(59))\nod434 = OrderDetail(order=order, product=product, quantity=16)\ndb.session.add(od434)\norder = Order.query.get(int(10411))\nproduct = Product.query.get(int(41))\nod435 = OrderDetail(order=order, product=product, quantity=25)\ndb.session.add(od435)\norder = Order.query.get(int(10411))\nproduct = Product.query.get(int(44))\nod436 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od436)\norder = Order.query.get(int(10411))\nproduct = Product.query.get(int(59))\nod437 = OrderDetail(order=order, product=product, quantity=9)\ndb.session.add(od437)\norder = Order.query.get(int(10412))\nproduct = Product.query.get(int(14))\nod438 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od438)\norder = Order.query.get(int(10413))\nproduct = Product.query.get(int(1))\nod439 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od439)\norder = Order.query.get(int(10413))\nproduct = Product.query.get(int(62))\nod440 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od440)\norder = Order.query.get(int(10413))\nproduct = Product.query.get(int(76))\nod441 = OrderDetail(order=order, product=product, quantity=14)\ndb.session.add(od441)\norder = Order.query.get(int(10414))\nproduct = Product.query.get(int(19))\nod442 = OrderDetail(order=order, product=product, quantity=18)\ndb.session.add(od442)\norder = Order.query.get(int(10414))\nproduct = Product.query.get(int(33))\nod443 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od443)\norder = Order.query.get(int(10415))\nproduct = Product.query.get(int(17))\nod444 = OrderDetail(order=order, product=product, quantity=2)\ndb.session.add(od444)\norder = Order.query.get(int(10415))\nproduct = Product.query.get(int(33))\nod445 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od445)\norder = Order.query.get(int(10416))\nproduct = Product.query.get(int(19))\nod446 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od446)\norder = Order.query.get(int(10416))\nproduct = Product.query.get(int(53))\nod447 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od447)\norder = Order.query.get(int(10416))\nproduct = Product.query.get(int(57))\nod448 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od448)\norder = Order.query.get(int(10417))\nproduct = Product.query.get(int(38))\nod449 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od449)\norder = Order.query.get(int(10417))\nproduct = Product.query.get(int(46))\nod450 = OrderDetail(order=order, product=product, quantity=2)\ndb.session.add(od450)\norder = Order.query.get(int(10417))\nproduct = Product.query.get(int(68))\nod451 = OrderDetail(order=order, product=product, quantity=36)\ndb.session.add(od451)\norder = Order.query.get(int(10417))\nproduct = Product.query.get(int(77))\nod452 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od452)\norder = Order.query.get(int(10418))\nproduct = Product.query.get(int(2))\nod453 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od453)\norder = Order.query.get(int(10418))\nproduct = Product.query.get(int(47))\nod454 = OrderDetail(order=order, product=product, quantity=55)\ndb.session.add(od454)\norder = Order.query.get(int(10418))\nproduct = Product.query.get(int(61))\nod455 = OrderDetail(order=order, product=product, quantity=16)\ndb.session.add(od455)\norder = Order.query.get(int(10418))\nproduct = Product.query.get(int(74))\nod456 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od456)\norder = Order.query.get(int(10419))\nproduct = Product.query.get(int(60))\nod457 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od457)\norder = Order.query.get(int(10419))\nproduct = Product.query.get(int(69))\nod458 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od458)\norder = Order.query.get(int(10420))\nproduct = Product.query.get(int(9))\nod459 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od459)\norder = Order.query.get(int(10420))\nproduct = Product.query.get(int(13))\nod460 = OrderDetail(order=order, product=product, quantity=2)\ndb.session.add(od460)\norder = Order.query.get(int(10420))\nproduct = Product.query.get(int(70))\nod461 = OrderDetail(order=order, product=product, quantity=8)\ndb.session.add(od461)\norder = Order.query.get(int(10420))\nproduct = Product.query.get(int(73))\nod462 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od462)\norder = Order.query.get(int(10421))\nproduct = Product.query.get(int(19))\nod463 = OrderDetail(order=order, product=product, quantity=4)\ndb.session.add(od463)\norder = Order.query.get(int(10421))\nproduct = Product.query.get(int(26))\nod464 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od464)\norder = Order.query.get(int(10421))\nproduct = Product.query.get(int(53))\nod465 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od465)\norder = Order.query.get(int(10421))\nproduct = Product.query.get(int(77))\nod466 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od466)\norder = Order.query.get(int(10422))\nproduct = Product.query.get(int(26))\nod467 = OrderDetail(order=order, product=product, quantity=2)\ndb.session.add(od467)\norder = Order.query.get(int(10423))\nproduct = Product.query.get(int(31))\nod468 = OrderDetail(order=order, product=product, quantity=14)\ndb.session.add(od468)\norder = Order.query.get(int(10423))\nproduct = Product.query.get(int(59))\nod469 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od469)\norder = Order.query.get(int(10424))\nproduct = Product.query.get(int(35))\nod470 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od470)\norder = Order.query.get(int(10424))\nproduct = Product.query.get(int(38))\nod471 = OrderDetail(order=order, product=product, quantity=49)\ndb.session.add(od471)\norder = Order.query.get(int(10424))\nproduct = Product.query.get(int(68))\nod472 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od472)\norder = Order.query.get(int(10425))\nproduct = Product.query.get(int(55))\nod473 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od473)\norder = Order.query.get(int(10425))\nproduct = Product.query.get(int(76))\nod474 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od474)\norder = Order.query.get(int(10426))\nproduct = Product.query.get(int(56))\nod475 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od475)\norder = Order.query.get(int(10426))\nproduct = Product.query.get(int(64))\nod476 = OrderDetail(order=order, product=product, quantity=7)\ndb.session.add(od476)\norder = Order.query.get(int(10427))\nproduct = Product.query.get(int(14))\nod477 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od477)\norder = Order.query.get(int(10428))\nproduct = Product.query.get(int(46))\nod478 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od478)\norder = Order.query.get(int(10429))\nproduct = Product.query.get(int(50))\nod479 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od479)\norder = Order.query.get(int(10429))\nproduct = Product.query.get(int(63))\nod480 = OrderDetail(order=order, product=product, quantity=35)\ndb.session.add(od480)\norder = Order.query.get(int(10430))\nproduct = Product.query.get(int(17))\nod481 = OrderDetail(order=order, product=product, quantity=45)\ndb.session.add(od481)\norder = Order.query.get(int(10430))\nproduct = Product.query.get(int(21))\nod482 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od482)\norder = Order.query.get(int(10430))\nproduct = Product.query.get(int(56))\nod483 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od483)\norder = Order.query.get(int(10430))\nproduct = Product.query.get(int(59))\nod484 = OrderDetail(order=order, product=product, quantity=70)\ndb.session.add(od484)\norder = Order.query.get(int(10431))\nproduct = Product.query.get(int(17))\nod485 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od485)\norder = Order.query.get(int(10431))\nproduct = Product.query.get(int(40))\nod486 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od486)\norder = Order.query.get(int(10431))\nproduct = Product.query.get(int(47))\nod487 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od487)\norder = Order.query.get(int(10432))\nproduct = Product.query.get(int(26))\nod488 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od488)\norder = Order.query.get(int(10432))\nproduct = Product.query.get(int(54))\nod489 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od489)\norder = Order.query.get(int(10433))\nproduct = Product.query.get(int(56))\nod490 = OrderDetail(order=order, product=product, quantity=28)\ndb.session.add(od490)\norder = Order.query.get(int(10434))\nproduct = Product.query.get(int(11))\nod491 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od491)\norder = Order.query.get(int(10434))\nproduct = Product.query.get(int(76))\nod492 = OrderDetail(order=order, product=product, quantity=18)\ndb.session.add(od492)\norder = Order.query.get(int(10435))\nproduct = Product.query.get(int(2))\nod493 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od493)\norder = Order.query.get(int(10435))\nproduct = Product.query.get(int(22))\nod494 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od494)\norder = Order.query.get(int(10435))\nproduct = Product.query.get(int(72))\nod495 = OrderDetail(order=order, product=product, quantity=10)\ndb.session.add(od495)\norder = Order.query.get(int(10436))\nproduct = Product.query.get(int(46))\nod496 = OrderDetail(order=order, product=product, quantity=5)\ndb.session.add(od496)\norder = Order.query.get(int(10436))\nproduct = Product.query.get(int(56))\nod497 = OrderDetail(order=order, product=product, quantity=40)\ndb.session.add(od497)\norder = Order.query.get(int(10436))\nproduct = Product.query.get(int(64))\nod498 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od498)\norder = Order.query.get(int(10436))\nproduct = Product.query.get(int(75))\nod499 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od499)\norder = Order.query.get(int(10437))\nproduct = Product.query.get(int(53))\nod500 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od500)\norder = Order.query.get(int(10438))\nproduct = Product.query.get(int(19))\nod501 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od501)\norder = Order.query.get(int(10438))\nproduct = Product.query.get(int(34))\nod502 = OrderDetail(order=order, product=product, quantity=20)\ndb.session.add(od502)\norder = Order.query.get(int(10438))\nproduct = Product.query.get(int(57))\nod503 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od503)\norder = Order.query.get(int(10439))\nproduct = Product.query.get(int(12))\nod504 = OrderDetail(order=order, product=product, quantity=15)\ndb.session.add(od504)\norder = Order.query.get(int(10439))\nproduct = Product.query.get(int(16))\nod505 = OrderDetail(order=order, product=product, quantity=16)\ndb.session.add(od505)\norder = Order.query.get(int(10439))\nproduct = Product.query.get(int(64))\nod506 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od506)\norder = Order.query.get(int(10439))\nproduct = Product.query.get(int(74))\nod507 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od507)\norder = Order.query.get(int(10440))\nproduct = Product.query.get(int(2))\nod508 = OrderDetail(order=order, product=product, quantity=45)\ndb.session.add(od508)\norder = Order.query.get(int(10440))\nproduct = Product.query.get(int(16))\nod509 = OrderDetail(order=order, product=product, quantity=49)\ndb.session.add(od509)\norder = Order.query.get(int(10440))\nproduct = Product.query.get(int(29))\nod510 = OrderDetail(order=order, product=product, quantity=24)\ndb.session.add(od510)\norder = Order.query.get(int(10440))\nproduct = Product.query.get(int(61))\nod511 = OrderDetail(order=order, product=product, quantity=90)\ndb.session.add(od511)\norder = Order.query.get(int(10441))\nproduct = Product.query.get(int(27))\nod512 = OrderDetail(order=order, product=product, quantity=50)\ndb.session.add(od512)\norder = Order.query.get(int(10442))\nproduct = Product.query.get(int(11))\nod513 = OrderDetail(order=order, product=product, quantity=30)\ndb.session.add(od513)\norder = Order.query.get(int(10442))\nproduct = Product.query.get(int(54))\nod514 = OrderDetail(order=order, product=product, quantity=80)\ndb.session.add(od514)\norder = Order.query.get(int(10442))\nproduct = Product.query.get(int(66))\nod515 = OrderDetail(order=order, product=product, quantity=60)\ndb.session.add(od515)\norder = Order.query.get(int(10443))\nproduct = Product.query.get(int(11))\nod516 = OrderDetail(order=order, product=product, quantity=6)\ndb.session.add(od516)\norder = Order.query.get(int(10443))\nproduct = Product.query.get(int(28))\nod517 = OrderDetail(order=order, product=product, quantity=12)\ndb.session.add(od517)\n\ndb.session.commit()\n\nprint('Dummy OrderDetails added to db -- SUCCESS')" }, { "alpha_fraction": 0.4950331151485443, "alphanum_fraction": 0.692052960395813, "avg_line_length": 15.777777671813965, "blob_id": "b7d8a83f654a83efca5ade22d2455c9b3800267d", "content_id": "9a32deec98e8969503b79ceb5a4e0a74e6ee03aa", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 604, "license_type": "no_license", "max_line_length": 24, "num_lines": 36, "path": "/requirements.txt", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "alembic==1.0.5\nasn1crypto==0.24.0\nBabel==2.6.0\nblinker==1.4\ncffi==1.11.5\nClick==7.0\ncryptography==2.4.2\ndominate==2.3.5\nelasticsearch==6.3.1\nFlask==1.0.2\nFlask-Babel==0.12.2\nFlask-Bootstrap==3.3.7.1\nFlask-Login==0.4.1\nFlask-Mail==0.9.1\nFlask-Migrate==2.3.0\nFlask-Moment==0.6.0\nFlask-SQLAlchemy==2.3.2\nFlask-WTF==0.14.2\nidna==2.7\nitsdangerous==1.1.0\nJinja2==2.10\njwt==0.5.4\nMako==1.0.7\nMarkupSafe==1.1.0\npycparser==2.19\nPyJWT==1.6.4\npython-dateutil==2.7.5\npython-dotenv==0.9.1\npython-editor==1.0.3\npytz==2018.9\nsix==1.11.0\nSQLAlchemy==1.2.14\nurllib3==1.24.1\nvisitor==0.1.3\nWerkzeug==0.14.1\nWTForms==2.2.1\n" }, { "alpha_fraction": 0.5974812507629395, "alphanum_fraction": 0.7351134419441223, "avg_line_length": 35.05055618286133, "blob_id": "a2561e4ecc595fac2fb266353a31b8218aada0ac", "content_id": "ff44e3fa66abb61a151666cac00e796f059812c0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 35653, "license_type": "no_license", "max_line_length": 90, "num_lines": 989, "path": "/db_populator_orders.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "from datetime import datetime\nfrom app import db\nfrom app.models import User, Order, Shipper\n\n\n\nuser = User.query.get(int(90))\nshipper = Shipper.query.get(int(3))\no10248 = Order(id=10248, customer=user, orderdate=datetime(1996, 7, 4), shipper=shipper)\ndb.session.add(o10248)\n\nuser = User.query.get(int(81))\nshipper = Shipper.query.get(int(1))\no10249 = Order(id=10249, customer=user, orderdate=datetime(1996, 7, 5), shipper=shipper)\ndb.session.add(o10249)\n\nuser = User.query.get(int(34))\nshipper = Shipper.query.get(int(2))\no10250 = Order(id=10250, customer=user, orderdate=datetime(1996, 7, 8), shipper=shipper)\ndb.session.add(o10250)\n\nuser = User.query.get(int(84))\nshipper = Shipper.query.get(int(1))\no10251 = Order(id=10251, customer=user, orderdate=datetime(1996, 7, 8), shipper=shipper)\ndb.session.add(o10251)\n\nuser = User.query.get(int(76))\nshipper = Shipper.query.get(int(2))\no10252 = Order(id=10252, customer=user, orderdate=datetime(1996, 7, 9), shipper=shipper)\ndb.session.add(o10252)\n\nuser = User.query.get(int(34))\nshipper = Shipper.query.get(int(2))\no10253 = Order(id=10253, customer=user, orderdate=datetime(1996, 7, 10), shipper=shipper)\ndb.session.add(o10253)\n\nuser = User.query.get(int(14))\nshipper = Shipper.query.get(int(2))\no10254 = Order(id=10254, customer=user, orderdate=datetime(1996, 7, 11), shipper=shipper)\ndb.session.add(o10254)\n\nuser = User.query.get(int(68))\nshipper = Shipper.query.get(int(3))\no10255 = Order(id=10255, customer=user, orderdate=datetime(1996, 7, 12), shipper=shipper)\ndb.session.add(o10255)\n\nuser = User.query.get(int(88))\nshipper = Shipper.query.get(int(2))\no10256 = Order(id=10256, customer=user, orderdate=datetime(1996, 7, 15), shipper=shipper)\ndb.session.add(o10256)\n\nuser = User.query.get(int(35))\nshipper = Shipper.query.get(int(3))\no10257 = Order(id=10257, customer=user, orderdate=datetime(1996, 7, 16), shipper=shipper)\ndb.session.add(o10257)\n\nuser = User.query.get(int(20))\nshipper = Shipper.query.get(int(1))\no10258 = Order(id=10258, customer=user, orderdate=datetime(1996, 7, 17), shipper=shipper)\ndb.session.add(o10258)\n\nuser = User.query.get(int(13))\nshipper = Shipper.query.get(int(3))\no10259 = Order(id=10259, customer=user, orderdate=datetime(1996, 7, 18), shipper=shipper)\ndb.session.add(o10259)\n\nuser = User.query.get(int(55))\nshipper = Shipper.query.get(int(1))\no10260 = Order(id=10260, customer=user, orderdate=datetime(1996, 7, 19), shipper=shipper)\ndb.session.add(o10260)\n\nuser = User.query.get(int(61))\nshipper = Shipper.query.get(int(2))\no10261 = Order(id=10261, customer=user, orderdate=datetime(1996, 7, 19), shipper=shipper)\ndb.session.add(o10261)\n\nuser = User.query.get(int(65))\nshipper = Shipper.query.get(int(3))\no10262 = Order(id=10262, customer=user, orderdate=datetime(1996, 7, 22), shipper=shipper)\ndb.session.add(o10262)\n\nuser = User.query.get(int(20))\nshipper = Shipper.query.get(int(3))\no10263 = Order(id=10263, customer=user, orderdate=datetime(1996, 7, 23), shipper=shipper)\ndb.session.add(o10263)\n\nuser = User.query.get(int(24))\nshipper = Shipper.query.get(int(3))\no10264 = Order(id=10264, customer=user, orderdate=datetime(1996, 7, 24), shipper=shipper)\ndb.session.add(o10264)\n\nuser = User.query.get(int(7))\nshipper = Shipper.query.get(int(1))\no10265 = Order(id=10265, customer=user, orderdate=datetime(1996, 7, 25), shipper=shipper)\ndb.session.add(o10265)\n\nuser = User.query.get(int(87))\nshipper = Shipper.query.get(int(3))\no10266 = Order(id=10266, customer=user, orderdate=datetime(1996, 7, 26), shipper=shipper)\ndb.session.add(o10266)\n\nuser = User.query.get(int(25))\nshipper = Shipper.query.get(int(1))\no10267 = Order(id=10267, customer=user, orderdate=datetime(1996, 7, 29), shipper=shipper)\ndb.session.add(o10267)\n\nuser = User.query.get(int(33))\nshipper = Shipper.query.get(int(3))\no10268 = Order(id=10268, customer=user, orderdate=datetime(1996, 7, 30), shipper=shipper)\ndb.session.add(o10268)\n\nuser = User.query.get(int(89))\nshipper = Shipper.query.get(int(1))\no10269 = Order(id=10269, customer=user, orderdate=datetime(1996, 7, 31), shipper=shipper)\ndb.session.add(o10269)\n\nuser = User.query.get(int(87))\nshipper = Shipper.query.get(int(1))\no10270 = Order(id=10270, customer=user, orderdate=datetime(1996, 8, 1), shipper=shipper)\ndb.session.add(o10270)\n\nuser = User.query.get(int(75))\nshipper = Shipper.query.get(int(2))\no10271 = Order(id=10271, customer=user, orderdate=datetime(1996, 8, 1), shipper=shipper)\ndb.session.add(o10271)\n\nuser = User.query.get(int(65))\nshipper = Shipper.query.get(int(2))\no10272 = Order(id=10272, customer=user, orderdate=datetime(1996, 8, 2), shipper=shipper)\ndb.session.add(o10272)\n\nuser = User.query.get(int(63))\nshipper = Shipper.query.get(int(3))\no10273 = Order(id=10273, customer=user, orderdate=datetime(1996, 8, 5), shipper=shipper)\ndb.session.add(o10273)\n\nuser = User.query.get(int(85))\nshipper = Shipper.query.get(int(1))\no10274 = Order(id=10274, customer=user, orderdate=datetime(1996, 8, 6), shipper=shipper)\ndb.session.add(o10274)\n\nuser = User.query.get(int(49))\nshipper = Shipper.query.get(int(1))\no10275 = Order(id=10275, customer=user, orderdate=datetime(1996, 8, 7), shipper=shipper)\ndb.session.add(o10275)\n\nuser = User.query.get(int(80))\nshipper = Shipper.query.get(int(3))\no10276 = Order(id=10276, customer=user, orderdate=datetime(1996, 8, 8), shipper=shipper)\ndb.session.add(o10276)\n\nuser = User.query.get(int(52))\nshipper = Shipper.query.get(int(3))\no10277 = Order(id=10277, customer=user, orderdate=datetime(1996, 8, 9), shipper=shipper)\ndb.session.add(o10277)\n\nuser = User.query.get(int(5))\nshipper = Shipper.query.get(int(2))\no10278 = Order(id=10278, customer=user, orderdate=datetime(1996, 8, 12), shipper=shipper)\ndb.session.add(o10278)\n\nuser = User.query.get(int(44))\nshipper = Shipper.query.get(int(2))\no10279 = Order(id=10279, customer=user, orderdate=datetime(1996, 8, 13), shipper=shipper)\ndb.session.add(o10279)\n\nuser = User.query.get(int(5))\nshipper = Shipper.query.get(int(1))\no10280 = Order(id=10280, customer=user, orderdate=datetime(1996, 8, 14), shipper=shipper)\ndb.session.add(o10280)\n\nuser = User.query.get(int(69))\nshipper = Shipper.query.get(int(1))\no10281 = Order(id=10281, customer=user, orderdate=datetime(1996, 8, 14), shipper=shipper)\ndb.session.add(o10281)\n\nuser = User.query.get(int(69))\nshipper = Shipper.query.get(int(1))\no10282 = Order(id=10282, customer=user, orderdate=datetime(1996, 8, 15), shipper=shipper)\ndb.session.add(o10282)\n\nuser = User.query.get(int(46))\nshipper = Shipper.query.get(int(3))\no10283 = Order(id=10283, customer=user, orderdate=datetime(1996, 8, 16), shipper=shipper)\ndb.session.add(o10283)\n\nuser = User.query.get(int(44))\nshipper = Shipper.query.get(int(1))\no10284 = Order(id=10284, customer=user, orderdate=datetime(1996, 8, 19), shipper=shipper)\ndb.session.add(o10284)\n\nuser = User.query.get(int(63))\nshipper = Shipper.query.get(int(2))\no10285 = Order(id=10285, customer=user, orderdate=datetime(1996, 8, 20), shipper=shipper)\ndb.session.add(o10285)\n\nuser = User.query.get(int(63))\nshipper = Shipper.query.get(int(3))\no10286 = Order(id=10286, customer=user, orderdate=datetime(1996, 8, 21), shipper=shipper)\ndb.session.add(o10286)\n\nuser = User.query.get(int(67))\nshipper = Shipper.query.get(int(3))\no10287 = Order(id=10287, customer=user, orderdate=datetime(1996, 8, 22), shipper=shipper)\ndb.session.add(o10287)\n\nuser = User.query.get(int(66))\nshipper = Shipper.query.get(int(1))\no10288 = Order(id=10288, customer=user, orderdate=datetime(1996, 8, 23), shipper=shipper)\ndb.session.add(o10288)\n\nuser = User.query.get(int(11))\nshipper = Shipper.query.get(int(3))\no10289 = Order(id=10289, customer=user, orderdate=datetime(1996, 8, 26), shipper=shipper)\ndb.session.add(o10289)\n\nuser = User.query.get(int(15))\nshipper = Shipper.query.get(int(1))\no10290 = Order(id=10290, customer=user, orderdate=datetime(1996, 8, 27), shipper=shipper)\ndb.session.add(o10290)\n\nuser = User.query.get(int(61))\nshipper = Shipper.query.get(int(2))\no10291 = Order(id=10291, customer=user, orderdate=datetime(1996, 8, 27), shipper=shipper)\ndb.session.add(o10291)\n\nuser = User.query.get(int(81))\nshipper = Shipper.query.get(int(2))\no10292 = Order(id=10292, customer=user, orderdate=datetime(1996, 8, 28), shipper=shipper)\ndb.session.add(o10292)\n\nuser = User.query.get(int(80))\nshipper = Shipper.query.get(int(3))\no10293 = Order(id=10293, customer=user, orderdate=datetime(1996, 8, 29), shipper=shipper)\ndb.session.add(o10293)\n\nuser = User.query.get(int(65))\nshipper = Shipper.query.get(int(2))\no10294 = Order(id=10294, customer=user, orderdate=datetime(1996, 8, 30), shipper=shipper)\ndb.session.add(o10294)\n\nuser = User.query.get(int(85))\nshipper = Shipper.query.get(int(2))\no10295 = Order(id=10295, customer=user, orderdate=datetime(1996, 9, 2), shipper=shipper)\ndb.session.add(o10295)\n\nuser = User.query.get(int(46))\nshipper = Shipper.query.get(int(1))\no10296 = Order(id=10296, customer=user, orderdate=datetime(1996, 9, 3), shipper=shipper)\ndb.session.add(o10296)\n\nuser = User.query.get(int(7))\nshipper = Shipper.query.get(int(2))\no10297 = Order(id=10297, customer=user, orderdate=datetime(1996, 9, 4), shipper=shipper)\ndb.session.add(o10297)\n\nuser = User.query.get(int(37))\nshipper = Shipper.query.get(int(2))\no10298 = Order(id=10298, customer=user, orderdate=datetime(1996, 9, 5), shipper=shipper)\ndb.session.add(o10298)\n\nuser = User.query.get(int(67))\nshipper = Shipper.query.get(int(2))\no10299 = Order(id=10299, customer=user, orderdate=datetime(1996, 9, 6), shipper=shipper)\ndb.session.add(o10299)\n\nuser = User.query.get(int(49))\nshipper = Shipper.query.get(int(2))\no10300 = Order(id=10300, customer=user, orderdate=datetime(1996, 9, 9), shipper=shipper)\ndb.session.add(o10300)\n\nuser = User.query.get(int(86))\nshipper = Shipper.query.get(int(2))\no10301 = Order(id=10301, customer=user, orderdate=datetime(1996, 9, 9), shipper=shipper)\ndb.session.add(o10301)\n\nuser = User.query.get(int(76))\nshipper = Shipper.query.get(int(2))\no10302 = Order(id=10302, customer=user, orderdate=datetime(1996, 9, 10), shipper=shipper)\ndb.session.add(o10302)\n\nuser = User.query.get(int(30))\nshipper = Shipper.query.get(int(2))\no10303 = Order(id=10303, customer=user, orderdate=datetime(1996, 9, 11), shipper=shipper)\ndb.session.add(o10303)\n\nuser = User.query.get(int(80))\nshipper = Shipper.query.get(int(2))\no10304 = Order(id=10304, customer=user, orderdate=datetime(1996, 9, 12), shipper=shipper)\ndb.session.add(o10304)\n\nuser = User.query.get(int(55))\nshipper = Shipper.query.get(int(3))\no10305 = Order(id=10305, customer=user, orderdate=datetime(1996, 9, 13), shipper=shipper)\ndb.session.add(o10305)\n\nuser = User.query.get(int(69))\nshipper = Shipper.query.get(int(3))\no10306 = Order(id=10306, customer=user, orderdate=datetime(1996, 9, 16), shipper=shipper)\ndb.session.add(o10306)\n\nuser = User.query.get(int(48))\nshipper = Shipper.query.get(int(2))\no10307 = Order(id=10307, customer=user, orderdate=datetime(1996, 9, 17), shipper=shipper)\ndb.session.add(o10307)\n\nuser = User.query.get(int(2))\nshipper = Shipper.query.get(int(3))\no10308 = Order(id=10308, customer=user, orderdate=datetime(1996, 9, 18), shipper=shipper)\ndb.session.add(o10308)\n\nuser = User.query.get(int(37))\nshipper = Shipper.query.get(int(1))\no10309 = Order(id=10309, customer=user, orderdate=datetime(1996, 9, 19), shipper=shipper)\ndb.session.add(o10309)\n\nuser = User.query.get(int(77))\nshipper = Shipper.query.get(int(2))\no10310 = Order(id=10310, customer=user, orderdate=datetime(1996, 9, 20), shipper=shipper)\ndb.session.add(o10310)\n\nuser = User.query.get(int(18))\nshipper = Shipper.query.get(int(3))\no10311 = Order(id=10311, customer=user, orderdate=datetime(1996, 9, 20), shipper=shipper)\ndb.session.add(o10311)\n\nuser = User.query.get(int(86))\nshipper = Shipper.query.get(int(2))\no10312 = Order(id=10312, customer=user, orderdate=datetime(1996, 9, 23), shipper=shipper)\ndb.session.add(o10312)\n\nuser = User.query.get(int(63))\nshipper = Shipper.query.get(int(2))\no10313 = Order(id=10313, customer=user, orderdate=datetime(1996, 9, 24), shipper=shipper)\ndb.session.add(o10313)\n\nuser = User.query.get(int(65))\nshipper = Shipper.query.get(int(2))\no10314 = Order(id=10314, customer=user, orderdate=datetime(1996, 9, 25), shipper=shipper)\ndb.session.add(o10314)\n\nuser = User.query.get(int(38))\nshipper = Shipper.query.get(int(2))\no10315 = Order(id=10315, customer=user, orderdate=datetime(1996, 9, 26), shipper=shipper)\ndb.session.add(o10315)\n\nuser = User.query.get(int(65))\nshipper = Shipper.query.get(int(3))\no10316 = Order(id=10316, customer=user, orderdate=datetime(1996, 9, 27), shipper=shipper)\ndb.session.add(o10316)\n\nuser = User.query.get(int(48))\nshipper = Shipper.query.get(int(1))\no10317 = Order(id=10317, customer=user, orderdate=datetime(1996, 9, 30), shipper=shipper)\ndb.session.add(o10317)\n\nuser = User.query.get(int(38))\nshipper = Shipper.query.get(int(2))\no10318 = Order(id=10318, customer=user, orderdate=datetime(1996, 10, 1), shipper=shipper)\ndb.session.add(o10318)\n\nuser = User.query.get(int(80))\nshipper = Shipper.query.get(int(3))\no10319 = Order(id=10319, customer=user, orderdate=datetime(1996, 10, 2), shipper=shipper)\ndb.session.add(o10319)\n\nuser = User.query.get(int(87))\nshipper = Shipper.query.get(int(3))\no10320 = Order(id=10320, customer=user, orderdate=datetime(1996, 10, 3), shipper=shipper)\ndb.session.add(o10320)\n\nuser = User.query.get(int(38))\nshipper = Shipper.query.get(int(2))\no10321 = Order(id=10321, customer=user, orderdate=datetime(1996, 10, 3), shipper=shipper)\ndb.session.add(o10321)\n\nuser = User.query.get(int(58))\nshipper = Shipper.query.get(int(3))\no10322 = Order(id=10322, customer=user, orderdate=datetime(1996, 10, 4), shipper=shipper)\ndb.session.add(o10322)\n\nuser = User.query.get(int(39))\nshipper = Shipper.query.get(int(1))\no10323 = Order(id=10323, customer=user, orderdate=datetime(1996, 10, 7), shipper=shipper)\ndb.session.add(o10323)\n\nuser = User.query.get(int(71))\nshipper = Shipper.query.get(int(1))\no10324 = Order(id=10324, customer=user, orderdate=datetime(1996, 10, 8), shipper=shipper)\ndb.session.add(o10324)\n\nuser = User.query.get(int(39))\nshipper = Shipper.query.get(int(3))\no10325 = Order(id=10325, customer=user, orderdate=datetime(1996, 10, 9), shipper=shipper)\ndb.session.add(o10325)\n\nuser = User.query.get(int(8))\nshipper = Shipper.query.get(int(2))\no10326 = Order(id=10326, customer=user, orderdate=datetime(1996, 10, 10), shipper=shipper)\ndb.session.add(o10326)\n\nuser = User.query.get(int(24))\nshipper = Shipper.query.get(int(1))\no10327 = Order(id=10327, customer=user, orderdate=datetime(1996, 10, 11), shipper=shipper)\ndb.session.add(o10327)\n\nuser = User.query.get(int(28))\nshipper = Shipper.query.get(int(3))\no10328 = Order(id=10328, customer=user, orderdate=datetime(1996, 10, 14), shipper=shipper)\ndb.session.add(o10328)\n\nuser = User.query.get(int(75))\nshipper = Shipper.query.get(int(2))\no10329 = Order(id=10329, customer=user, orderdate=datetime(1996, 10, 15), shipper=shipper)\ndb.session.add(o10329)\n\nuser = User.query.get(int(46))\nshipper = Shipper.query.get(int(1))\no10330 = Order(id=10330, customer=user, orderdate=datetime(1996, 10, 16), shipper=shipper)\ndb.session.add(o10330)\n\nuser = User.query.get(int(9))\nshipper = Shipper.query.get(int(1))\no10331 = Order(id=10331, customer=user, orderdate=datetime(1996, 10, 16), shipper=shipper)\ndb.session.add(o10331)\n\nuser = User.query.get(int(51))\nshipper = Shipper.query.get(int(2))\no10332 = Order(id=10332, customer=user, orderdate=datetime(1996, 10, 17), shipper=shipper)\ndb.session.add(o10332)\n\nuser = User.query.get(int(87))\nshipper = Shipper.query.get(int(3))\no10333 = Order(id=10333, customer=user, orderdate=datetime(1996, 10, 18), shipper=shipper)\ndb.session.add(o10333)\n\nuser = User.query.get(int(84))\nshipper = Shipper.query.get(int(2))\no10334 = Order(id=10334, customer=user, orderdate=datetime(1996, 10, 21), shipper=shipper)\ndb.session.add(o10334)\n\nuser = User.query.get(int(37))\nshipper = Shipper.query.get(int(2))\no10335 = Order(id=10335, customer=user, orderdate=datetime(1996, 10, 22), shipper=shipper)\ndb.session.add(o10335)\n\nuser = User.query.get(int(60))\nshipper = Shipper.query.get(int(2))\no10336 = Order(id=10336, customer=user, orderdate=datetime(1996, 10, 23), shipper=shipper)\ndb.session.add(o10336)\n\nuser = User.query.get(int(25))\nshipper = Shipper.query.get(int(3))\no10337 = Order(id=10337, customer=user, orderdate=datetime(1996, 10, 24), shipper=shipper)\ndb.session.add(o10337)\n\nuser = User.query.get(int(55))\nshipper = Shipper.query.get(int(3))\no10338 = Order(id=10338, customer=user, orderdate=datetime(1996, 10, 25), shipper=shipper)\ndb.session.add(o10338)\n\nuser = User.query.get(int(51))\nshipper = Shipper.query.get(int(2))\no10339 = Order(id=10339, customer=user, orderdate=datetime(1996, 10, 28), shipper=shipper)\ndb.session.add(o10339)\n\nuser = User.query.get(int(9))\nshipper = Shipper.query.get(int(3))\no10340 = Order(id=10340, customer=user, orderdate=datetime(1996, 10, 29), shipper=shipper)\ndb.session.add(o10340)\n\nuser = User.query.get(int(73))\nshipper = Shipper.query.get(int(3))\no10341 = Order(id=10341, customer=user, orderdate=datetime(1996, 10, 29), shipper=shipper)\ndb.session.add(o10341)\n\nuser = User.query.get(int(25))\nshipper = Shipper.query.get(int(2))\no10342 = Order(id=10342, customer=user, orderdate=datetime(1996, 10, 30), shipper=shipper)\ndb.session.add(o10342)\n\nuser = User.query.get(int(44))\nshipper = Shipper.query.get(int(1))\no10343 = Order(id=10343, customer=user, orderdate=datetime(1996, 10, 31), shipper=shipper)\ndb.session.add(o10343)\n\nuser = User.query.get(int(89))\nshipper = Shipper.query.get(int(2))\no10344 = Order(id=10344, customer=user, orderdate=datetime(1996, 11, 1), shipper=shipper)\ndb.session.add(o10344)\n\nuser = User.query.get(int(63))\nshipper = Shipper.query.get(int(2))\no10345 = Order(id=10345, customer=user, orderdate=datetime(1996, 11, 4), shipper=shipper)\ndb.session.add(o10345)\n\nuser = User.query.get(int(65))\nshipper = Shipper.query.get(int(3))\no10346 = Order(id=10346, customer=user, orderdate=datetime(1996, 11, 5), shipper=shipper)\ndb.session.add(o10346)\n\nuser = User.query.get(int(21))\nshipper = Shipper.query.get(int(3))\no10347 = Order(id=10347, customer=user, orderdate=datetime(1996, 11, 6), shipper=shipper)\ndb.session.add(o10347)\n\nuser = User.query.get(int(86))\nshipper = Shipper.query.get(int(2))\no10348 = Order(id=10348, customer=user, orderdate=datetime(1996, 11, 7), shipper=shipper)\ndb.session.add(o10348)\n\nuser = User.query.get(int(75))\nshipper = Shipper.query.get(int(1))\no10349 = Order(id=10349, customer=user, orderdate=datetime(1996, 11, 8), shipper=shipper)\ndb.session.add(o10349)\n\nuser = User.query.get(int(41))\nshipper = Shipper.query.get(int(2))\no10350 = Order(id=10350, customer=user, orderdate=datetime(1996, 11, 11), shipper=shipper)\ndb.session.add(o10350)\n\nuser = User.query.get(int(20))\nshipper = Shipper.query.get(int(1))\no10351 = Order(id=10351, customer=user, orderdate=datetime(1996, 11, 11), shipper=shipper)\ndb.session.add(o10351)\n\nuser = User.query.get(int(28))\nshipper = Shipper.query.get(int(3))\no10352 = Order(id=10352, customer=user, orderdate=datetime(1996, 11, 12), shipper=shipper)\ndb.session.add(o10352)\n\nuser = User.query.get(int(59))\nshipper = Shipper.query.get(int(3))\no10353 = Order(id=10353, customer=user, orderdate=datetime(1996, 11, 13), shipper=shipper)\ndb.session.add(o10353)\n\nuser = User.query.get(int(58))\nshipper = Shipper.query.get(int(3))\no10354 = Order(id=10354, customer=user, orderdate=datetime(1996, 11, 14), shipper=shipper)\ndb.session.add(o10354)\n\nuser = User.query.get(int(4))\nshipper = Shipper.query.get(int(1))\no10355 = Order(id=10355, customer=user, orderdate=datetime(1996, 11, 15), shipper=shipper)\ndb.session.add(o10355)\n\nuser = User.query.get(int(86))\nshipper = Shipper.query.get(int(2))\no10356 = Order(id=10356, customer=user, orderdate=datetime(1996, 11, 18), shipper=shipper)\ndb.session.add(o10356)\n\nuser = User.query.get(int(46))\nshipper = Shipper.query.get(int(3))\no10357 = Order(id=10357, customer=user, orderdate=datetime(1996, 11, 19), shipper=shipper)\ndb.session.add(o10357)\n\nuser = User.query.get(int(41))\nshipper = Shipper.query.get(int(1))\no10358 = Order(id=10358, customer=user, orderdate=datetime(1996, 11, 20), shipper=shipper)\ndb.session.add(o10358)\n\nuser = User.query.get(int(72))\nshipper = Shipper.query.get(int(3))\no10359 = Order(id=10359, customer=user, orderdate=datetime(1996, 11, 21), shipper=shipper)\ndb.session.add(o10359)\n\nuser = User.query.get(int(7))\nshipper = Shipper.query.get(int(3))\no10360 = Order(id=10360, customer=user, orderdate=datetime(1996, 11, 22), shipper=shipper)\ndb.session.add(o10360)\n\nuser = User.query.get(int(63))\nshipper = Shipper.query.get(int(2))\no10361 = Order(id=10361, customer=user, orderdate=datetime(1996, 11, 22), shipper=shipper)\ndb.session.add(o10361)\n\nuser = User.query.get(int(9))\nshipper = Shipper.query.get(int(1))\no10362 = Order(id=10362, customer=user, orderdate=datetime(1996, 11, 25), shipper=shipper)\ndb.session.add(o10362)\n\nuser = User.query.get(int(17))\nshipper = Shipper.query.get(int(3))\no10363 = Order(id=10363, customer=user, orderdate=datetime(1996, 11, 26), shipper=shipper)\ndb.session.add(o10363)\n\nuser = User.query.get(int(19))\nshipper = Shipper.query.get(int(1))\no10364 = Order(id=10364, customer=user, orderdate=datetime(1996, 11, 26), shipper=shipper)\ndb.session.add(o10364)\n\nuser = User.query.get(int(3))\nshipper = Shipper.query.get(int(2))\no10365 = Order(id=10365, customer=user, orderdate=datetime(1996, 11, 27), shipper=shipper)\ndb.session.add(o10365)\n\nuser = User.query.get(int(29))\nshipper = Shipper.query.get(int(2))\no10366 = Order(id=10366, customer=user, orderdate=datetime(1996, 11, 28), shipper=shipper)\ndb.session.add(o10366)\n\nuser = User.query.get(int(83))\nshipper = Shipper.query.get(int(3))\no10367 = Order(id=10367, customer=user, orderdate=datetime(1996, 11, 28), shipper=shipper)\ndb.session.add(o10367)\n\nuser = User.query.get(int(20))\nshipper = Shipper.query.get(int(2))\no10368 = Order(id=10368, customer=user, orderdate=datetime(1996, 11, 29), shipper=shipper)\ndb.session.add(o10368)\n\nuser = User.query.get(int(75))\nshipper = Shipper.query.get(int(2))\no10369 = Order(id=10369, customer=user, orderdate=datetime(1996, 12, 2), shipper=shipper)\ndb.session.add(o10369)\n\nuser = User.query.get(int(14))\nshipper = Shipper.query.get(int(2))\no10370 = Order(id=10370, customer=user, orderdate=datetime(1996, 12, 3), shipper=shipper)\ndb.session.add(o10370)\n\nuser = User.query.get(int(41))\nshipper = Shipper.query.get(int(1))\no10371 = Order(id=10371, customer=user, orderdate=datetime(1996, 12, 3), shipper=shipper)\ndb.session.add(o10371)\n\nuser = User.query.get(int(62))\nshipper = Shipper.query.get(int(2))\no10372 = Order(id=10372, customer=user, orderdate=datetime(1996, 12, 4), shipper=shipper)\ndb.session.add(o10372)\n\nuser = User.query.get(int(37))\nshipper = Shipper.query.get(int(3))\no10373 = Order(id=10373, customer=user, orderdate=datetime(1996, 12, 5), shipper=shipper)\ndb.session.add(o10373)\n\nuser = User.query.get(int(91))\nshipper = Shipper.query.get(int(3))\no10374 = Order(id=10374, customer=user, orderdate=datetime(1996, 12, 5), shipper=shipper)\ndb.session.add(o10374)\n\nuser = User.query.get(int(36))\nshipper = Shipper.query.get(int(2))\no10375 = Order(id=10375, customer=user, orderdate=datetime(1996, 12, 6), shipper=shipper)\ndb.session.add(o10375)\n\nuser = User.query.get(int(51))\nshipper = Shipper.query.get(int(2))\no10376 = Order(id=10376, customer=user, orderdate=datetime(1996, 12, 9), shipper=shipper)\ndb.session.add(o10376)\n\nuser = User.query.get(int(72))\nshipper = Shipper.query.get(int(3))\no10377 = Order(id=10377, customer=user, orderdate=datetime(1996, 12, 9), shipper=shipper)\ndb.session.add(o10377)\n\nuser = User.query.get(int(24))\nshipper = Shipper.query.get(int(3))\no10378 = Order(id=10378, customer=user, orderdate=datetime(1996, 12, 10), shipper=shipper)\ndb.session.add(o10378)\n\nuser = User.query.get(int(61))\nshipper = Shipper.query.get(int(1))\no10379 = Order(id=10379, customer=user, orderdate=datetime(1996, 12, 11), shipper=shipper)\ndb.session.add(o10379)\n\nuser = User.query.get(int(37))\nshipper = Shipper.query.get(int(3))\no10380 = Order(id=10380, customer=user, orderdate=datetime(1996, 12, 12), shipper=shipper)\ndb.session.add(o10380)\n\nuser = User.query.get(int(46))\nshipper = Shipper.query.get(int(3))\no10381 = Order(id=10381, customer=user, orderdate=datetime(1996, 12, 12), shipper=shipper)\ndb.session.add(o10381)\n\nuser = User.query.get(int(20))\nshipper = Shipper.query.get(int(1))\no10382 = Order(id=10382, customer=user, orderdate=datetime(1996, 12, 13), shipper=shipper)\ndb.session.add(o10382)\n\nuser = User.query.get(int(4))\nshipper = Shipper.query.get(int(3))\no10383 = Order(id=10383, customer=user, orderdate=datetime(1996, 12, 16), shipper=shipper)\ndb.session.add(o10383)\n\nuser = User.query.get(int(5))\nshipper = Shipper.query.get(int(3))\no10384 = Order(id=10384, customer=user, orderdate=datetime(1996, 12, 16), shipper=shipper)\ndb.session.add(o10384)\n\nuser = User.query.get(int(75))\nshipper = Shipper.query.get(int(2))\no10385 = Order(id=10385, customer=user, orderdate=datetime(1996, 12, 17), shipper=shipper)\ndb.session.add(o10385)\n\nuser = User.query.get(int(21))\nshipper = Shipper.query.get(int(3))\no10386 = Order(id=10386, customer=user, orderdate=datetime(1996, 12, 18), shipper=shipper)\ndb.session.add(o10386)\n\nuser = User.query.get(int(70))\nshipper = Shipper.query.get(int(2))\no10387 = Order(id=10387, customer=user, orderdate=datetime(1996, 12, 18), shipper=shipper)\ndb.session.add(o10387)\n\nuser = User.query.get(int(72))\nshipper = Shipper.query.get(int(1))\no10388 = Order(id=10388, customer=user, orderdate=datetime(1996, 12, 19), shipper=shipper)\ndb.session.add(o10388)\n\nuser = User.query.get(int(10))\nshipper = Shipper.query.get(int(2))\no10389 = Order(id=10389, customer=user, orderdate=datetime(1996, 12, 20), shipper=shipper)\ndb.session.add(o10389)\n\nuser = User.query.get(int(20))\nshipper = Shipper.query.get(int(1))\no10390 = Order(id=10390, customer=user, orderdate=datetime(1996, 12, 23), shipper=shipper)\ndb.session.add(o10390)\n\nuser = User.query.get(int(17))\nshipper = Shipper.query.get(int(3))\no10391 = Order(id=10391, customer=user, orderdate=datetime(1996, 12, 23), shipper=shipper)\ndb.session.add(o10391)\n\nuser = User.query.get(int(59))\nshipper = Shipper.query.get(int(3))\no10392 = Order(id=10392, customer=user, orderdate=datetime(1996, 12, 24), shipper=shipper)\ndb.session.add(o10392)\n\nuser = User.query.get(int(71))\nshipper = Shipper.query.get(int(3))\no10393 = Order(id=10393, customer=user, orderdate=datetime(1996, 12, 25), shipper=shipper)\ndb.session.add(o10393)\n\nuser = User.query.get(int(36))\nshipper = Shipper.query.get(int(3))\no10394 = Order(id=10394, customer=user, orderdate=datetime(1996, 12, 25), shipper=shipper)\ndb.session.add(o10394)\n\nuser = User.query.get(int(35))\nshipper = Shipper.query.get(int(1))\no10395 = Order(id=10395, customer=user, orderdate=datetime(1996, 12, 26), shipper=shipper)\ndb.session.add(o10395)\n\nuser = User.query.get(int(25))\nshipper = Shipper.query.get(int(3))\no10396 = Order(id=10396, customer=user, orderdate=datetime(1996, 12, 27), shipper=shipper)\ndb.session.add(o10396)\n\nuser = User.query.get(int(60))\nshipper = Shipper.query.get(int(1))\no10397 = Order(id=10397, customer=user, orderdate=datetime(1996, 12, 27), shipper=shipper)\ndb.session.add(o10397)\n\nuser = User.query.get(int(71))\nshipper = Shipper.query.get(int(3))\no10398 = Order(id=10398, customer=user, orderdate=datetime(1996, 12, 30), shipper=shipper)\ndb.session.add(o10398)\n\nuser = User.query.get(int(83))\nshipper = Shipper.query.get(int(3))\no10399 = Order(id=10399, customer=user, orderdate=datetime(1996, 12, 31), shipper=shipper)\ndb.session.add(o10399)\n\nuser = User.query.get(int(19))\nshipper = Shipper.query.get(int(3))\no10400 = Order(id=10400, customer=user, orderdate=datetime(1997, 1, 1), shipper=shipper)\ndb.session.add(o10400)\n\nuser = User.query.get(int(65))\nshipper = Shipper.query.get(int(1))\no10401 = Order(id=10401, customer=user, orderdate=datetime(1997, 1, 1), shipper=shipper)\ndb.session.add(o10401)\n\nuser = User.query.get(int(20))\nshipper = Shipper.query.get(int(2))\no10402 = Order(id=10402, customer=user, orderdate=datetime(1997, 1, 2), shipper=shipper)\ndb.session.add(o10402)\n\nuser = User.query.get(int(20))\nshipper = Shipper.query.get(int(3))\no10403 = Order(id=10403, customer=user, orderdate=datetime(1997, 1, 3), shipper=shipper)\ndb.session.add(o10403)\n\nuser = User.query.get(int(49))\nshipper = Shipper.query.get(int(1))\no10404 = Order(id=10404, customer=user, orderdate=datetime(1997, 1, 3), shipper=shipper)\ndb.session.add(o10404)\n\nuser = User.query.get(int(47))\nshipper = Shipper.query.get(int(1))\no10405 = Order(id=10405, customer=user, orderdate=datetime(1997, 1, 6), shipper=shipper)\ndb.session.add(o10405)\n\nuser = User.query.get(int(62))\nshipper = Shipper.query.get(int(1))\no10406 = Order(id=10406, customer=user, orderdate=datetime(1997, 1, 7), shipper=shipper)\ndb.session.add(o10406)\n\nuser = User.query.get(int(56))\nshipper = Shipper.query.get(int(2))\no10407 = Order(id=10407, customer=user, orderdate=datetime(1997, 1, 7), shipper=shipper)\ndb.session.add(o10407)\n\nuser = User.query.get(int(23))\nshipper = Shipper.query.get(int(1))\no10408 = Order(id=10408, customer=user, orderdate=datetime(1997, 1, 8), shipper=shipper)\ndb.session.add(o10408)\n\nuser = User.query.get(int(54))\nshipper = Shipper.query.get(int(1))\no10409 = Order(id=10409, customer=user, orderdate=datetime(1997, 1, 9), shipper=shipper)\ndb.session.add(o10409)\n\nuser = User.query.get(int(10))\nshipper = Shipper.query.get(int(3))\no10410 = Order(id=10410, customer=user, orderdate=datetime(1997, 1, 10), shipper=shipper)\ndb.session.add(o10410)\n\nuser = User.query.get(int(10))\nshipper = Shipper.query.get(int(3))\no10411 = Order(id=10411, customer=user, orderdate=datetime(1997, 1, 10), shipper=shipper)\ndb.session.add(o10411)\n\nuser = User.query.get(int(87))\nshipper = Shipper.query.get(int(2))\no10412 = Order(id=10412, customer=user, orderdate=datetime(1997, 1, 13), shipper=shipper)\ndb.session.add(o10412)\n\nuser = User.query.get(int(41))\nshipper = Shipper.query.get(int(2))\no10413 = Order(id=10413, customer=user, orderdate=datetime(1997, 1, 14), shipper=shipper)\ndb.session.add(o10413)\n\nuser = User.query.get(int(21))\nshipper = Shipper.query.get(int(3))\no10414 = Order(id=10414, customer=user, orderdate=datetime(1997, 1, 14), shipper=shipper)\ndb.session.add(o10414)\n\nuser = User.query.get(int(36))\nshipper = Shipper.query.get(int(1))\no10415 = Order(id=10415, customer=user, orderdate=datetime(1997, 1, 15), shipper=shipper)\ndb.session.add(o10415)\n\nuser = User.query.get(int(87))\nshipper = Shipper.query.get(int(3))\no10416 = Order(id=10416, customer=user, orderdate=datetime(1997, 1, 16), shipper=shipper)\ndb.session.add(o10416)\n\nuser = User.query.get(int(73))\nshipper = Shipper.query.get(int(3))\no10417 = Order(id=10417, customer=user, orderdate=datetime(1997, 1, 16), shipper=shipper)\ndb.session.add(o10417)\n\nuser = User.query.get(int(63))\nshipper = Shipper.query.get(int(1))\no10418 = Order(id=10418, customer=user, orderdate=datetime(1997, 1, 17), shipper=shipper)\ndb.session.add(o10418)\n\nuser = User.query.get(int(68))\nshipper = Shipper.query.get(int(2))\no10419 = Order(id=10419, customer=user, orderdate=datetime(1997, 1, 20), shipper=shipper)\ndb.session.add(o10419)\n\nuser = User.query.get(int(88))\nshipper = Shipper.query.get(int(1))\no10420 = Order(id=10420, customer=user, orderdate=datetime(1997, 1, 21), shipper=shipper)\ndb.session.add(o10420)\n\nuser = User.query.get(int(61))\nshipper = Shipper.query.get(int(1))\no10421 = Order(id=10421, customer=user, orderdate=datetime(1997, 1, 21), shipper=shipper)\ndb.session.add(o10421)\n\nuser = User.query.get(int(27))\nshipper = Shipper.query.get(int(1))\no10422 = Order(id=10422, customer=user, orderdate=datetime(1997, 1, 22), shipper=shipper)\ndb.session.add(o10422)\n\nuser = User.query.get(int(31))\nshipper = Shipper.query.get(int(3))\no10423 = Order(id=10423, customer=user, orderdate=datetime(1997, 1, 23), shipper=shipper)\ndb.session.add(o10423)\n\nuser = User.query.get(int(51))\nshipper = Shipper.query.get(int(2))\no10424 = Order(id=10424, customer=user, orderdate=datetime(1997, 1, 23), shipper=shipper)\ndb.session.add(o10424)\n\nuser = User.query.get(int(41))\nshipper = Shipper.query.get(int(2))\no10425 = Order(id=10425, customer=user, orderdate=datetime(1997, 1, 24), shipper=shipper)\ndb.session.add(o10425)\n\nuser = User.query.get(int(29))\nshipper = Shipper.query.get(int(1))\no10426 = Order(id=10426, customer=user, orderdate=datetime(1997, 1, 27), shipper=shipper)\ndb.session.add(o10426)\n\nuser = User.query.get(int(59))\nshipper = Shipper.query.get(int(2))\no10427 = Order(id=10427, customer=user, orderdate=datetime(1997, 1, 27), shipper=shipper)\ndb.session.add(o10427)\n\nuser = User.query.get(int(66))\nshipper = Shipper.query.get(int(1))\no10428 = Order(id=10428, customer=user, orderdate=datetime(1997, 1, 28), shipper=shipper)\ndb.session.add(o10428)\n\nuser = User.query.get(int(37))\nshipper = Shipper.query.get(int(2))\no10429 = Order(id=10429, customer=user, orderdate=datetime(1997, 1, 29), shipper=shipper)\ndb.session.add(o10429)\n\nuser = User.query.get(int(20))\nshipper = Shipper.query.get(int(1))\no10430 = Order(id=10430, customer=user, orderdate=datetime(1997, 1, 30), shipper=shipper)\ndb.session.add(o10430)\n\nuser = User.query.get(int(10))\nshipper = Shipper.query.get(int(2))\no10431 = Order(id=10431, customer=user, orderdate=datetime(1997, 1, 30), shipper=shipper)\ndb.session.add(o10431)\n\nuser = User.query.get(int(75))\nshipper = Shipper.query.get(int(2))\no10432 = Order(id=10432, customer=user, orderdate=datetime(1997, 1, 31), shipper=shipper)\ndb.session.add(o10432)\n\nuser = User.query.get(int(60))\nshipper = Shipper.query.get(int(3))\no10433 = Order(id=10433, customer=user, orderdate=datetime(1997, 2, 3), shipper=shipper)\ndb.session.add(o10433)\n\nuser = User.query.get(int(24))\nshipper = Shipper.query.get(int(2))\no10434 = Order(id=10434, customer=user, orderdate=datetime(1997, 2, 3), shipper=shipper)\ndb.session.add(o10434)\n\nuser = User.query.get(int(16))\nshipper = Shipper.query.get(int(2))\no10435 = Order(id=10435, customer=user, orderdate=datetime(1997, 2, 4), shipper=shipper)\ndb.session.add(o10435)\n\nuser = User.query.get(int(7))\nshipper = Shipper.query.get(int(2))\no10436 = Order(id=10436, customer=user, orderdate=datetime(1997, 2, 5), shipper=shipper)\ndb.session.add(o10436)\n\nuser = User.query.get(int(87))\nshipper = Shipper.query.get(int(1))\no10437 = Order(id=10437, customer=user, orderdate=datetime(1997, 2, 5), shipper=shipper)\ndb.session.add(o10437)\n\nuser = User.query.get(int(79))\nshipper = Shipper.query.get(int(2))\no10438 = Order(id=10438, customer=user, orderdate=datetime(1997, 2, 6), shipper=shipper)\ndb.session.add(o10438)\n\nuser = User.query.get(int(51))\nshipper = Shipper.query.get(int(3))\no10439 = Order(id=10439, customer=user, orderdate=datetime(1997, 2, 7), shipper=shipper)\ndb.session.add(o10439)\n\nuser = User.query.get(int(71))\nshipper = Shipper.query.get(int(2))\no10440 = Order(id=10440, customer=user, orderdate=datetime(1997, 2, 10), shipper=shipper)\ndb.session.add(o10440)\n\nuser = User.query.get(int(55))\nshipper = Shipper.query.get(int(2))\no10441 = Order(id=10441, customer=user, orderdate=datetime(1997, 2, 10), shipper=shipper)\ndb.session.add(o10441)\n\nuser = User.query.get(int(20))\nshipper = Shipper.query.get(int(2))\no10442 = Order(id=10442, customer=user, orderdate=datetime(1997, 2, 11), shipper=shipper)\ndb.session.add(o10442)\n\nuser = User.query.get(int(66))\nshipper = Shipper.query.get(int(1))\no10443 = Order(id=10443, customer=user, orderdate=datetime(1997, 2, 12), shipper=shipper)\ndb.session.add(o10443)\n\ndb.session.commit()\n\nprint('Dummy Orders successfully added to database!')" }, { "alpha_fraction": 0.30298271775245667, "alphanum_fraction": 0.49069297313690186, "avg_line_length": 50.848838806152344, "blob_id": "6a9dc6811e81036593a094309f6663b83d42fa53", "content_id": "236a85508849888079fe2f9284d9d3113f7108e5", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4466, "license_type": "no_license", "max_line_length": 90, "num_lines": 86, "path": "/populator_maker_products.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "products_array = [\n (1,\"Chais\",1,1,\"10 boxes x 20 bags\",18),\n (2,\"Chang\",1,1,\"24 - 12 oz bottles\",19),\n (3,\"Aniseed Syrup\",1,2,\"12 - 55S0 ml bottles\",10),\n (4,\"Chef Anton\\'s Cajun Seasoning\",2,2,\"48 - 6 oz jars\",22),\n (5,\"Chef Anton\\'s Gumbo Mix\",2,2,\"36 boxes\",21.35),\n (6,\"Grandma\\'s Boysenberry Spread\",3,2,\"12 - 8 oz jars\",25),\n (7,\"Uncle Bob\\'s Organic Dried Pears\",3,7,\"12 - 1 lb pkgs.\",30),\n (8,\"Northwoods Cranberry Sauce\",3,2,\"12 - 12 oz jars\",40),\n (9,\"Mishi Kobe Niku\",4,6,\"18 - 500 g pkgs.\",97),\n (10,\"Ikura\",4,8,\"12 - 200 ml jars\",31),\n (11,\"Queso Cabrales\",5,4,\"1 kg pkg.\",21),\n (12,\"Queso Manchego La Pastora\",5,4,\"10 - 500 g pkgs.\",38),\n (13,\"Konbu\",6,8,\"2 kg box\",6),\n (14,\"Tofu\",6,7,\"40 - 100 g pkgs.\",23.25),\n (15,\"Genen Shouyu\",6,2,\"24 - 250 ml bottles\",15.5),\n (16,\"Pavlova\",7,3,\"32 - 500 g boxes\",17.45),\n (17,\"Alice Mutton\",7,6,\"20 - 1 kg tins\",39),\n (18,\"Carnarvon Tigers\",7,8,\"16 kg pkg.\",62.5),\n (19,\"Teatime Chocolate Biscuits\",8,3,\"10 boxes x 12 pieces\",9.2),\n (20,\"Sir Rodney\\'s Marmalade\",8,3,\"30 gift boxes\",81),\n (21,\"Sir Rodney\\'s Scones\",8,3,\"24 pkgs. x 4 pieces\",10),\n (22,\"Gustaf\\'s Knäckebröd\",9,5,\"24 - 500 g pkgs.\",21),\n (23,\"Tunnbröd\",9,5,\"12 - 250 g pkgs.\",9),\n (24,\"Guaraná Fantástica\",10,1,\"12 - 355 ml cans\",4.5),\n (25,\"NuNuCa Nuß-Nougat-Creme\",11,3,\"20 - 450 g glasses\",14),\n (26,\"Gumbär Gummibärchen\",11,3,\"100 - 250 g bags\",31.23),\n (27,\"Schoggi Schokolade\",11,3,\"100 - 100 g pieces\",43.9),\n (28,\"Rössle Sauerkraut\",12,7,\"25 - 825 g cans\",45.6),\n (29,\"Thüringer Rostbratwurst\",12,6,\"50 bags x 30 sausgs.\",123.79),\n (30,\"Nord-Ost Matjeshering\",13,8,\"10 - 200 g glasses\",25.89),\n (31,\"Gorgonzola Telino\",14,4,\"12 - 100 g pkgs\",12.5),\n (32,\"Mascarpone Fabioli\",14,4,\"24 - 200 g pkgs.\",32),\n (33,\"Geitost\",15,4,\"500 g\",2.5),\n (34,\"Sasquatch Ale\",16,1,\"24 - 12 oz bottles\",14),\n (35,\"Steeleye Stout\",16,1,\"24 - 12 oz bottles\",18),\n (36,\"Inlagd Sill\",17,8,\"24 - 250 g jars\",19),\n (37,\"Gravad lax\",17,8,\"12 - 500 g pkgs.\",26),\n (38,\"Côte de Blaye\",18,1,\"12 - 75 cl bottles\",263.5),\n (39,\"Chartreuse verte\",18,1,\"750 cc per bottle\",18),\n (40,\"Boston Crab Meat\",19,8,\"24 - 4 oz tins\",18.4),\n (41,\"Jack\\'s New England Clam Chowder\",19,8,\"12 - 12 oz cans\",9.65),\n (42,\"Singaporean Hokkien Fried Mee\",20,5,\"32 - 1 kg pkgs.\",14),\n (43,\"Ipoh Coffee\",20,1,\"16 - 500 g tins\",46),\n (44,\"Gula Malacca\",20,2,\"20 - 2 kg bags\",19.45),\n (45,\"Røgede sild\",21,8,\"1k pkg.\",9.5),\n (46,\"Spegesild\",21,8,\"4 - 450 g glasses\",12),\n (47,\"Zaanse koeken\",22,3,\"10 - 4 oz boxes\",9.5),\n (48,\"Chocolade\",22,3,\"10 pkgs.\",12.75),\n (49,\"Maxilaku\",23,3,\"24 - 50 g pkgs.\",20),\n (50,\"Valkoinen suklaa\",23,3,\"12 - 100 g bars\",16.25),\n (51,\"Manjimup Dried Apples\",24,7,\"50 - 300 g pkgs.\",53),\n (52,\"Filo Mix\",24,5,\"16 - 2 kg boxes\",7),\n (53,\"Perth Pasties\",24,6,\"48 pieces\",32.8),\n (54,\"Tourtière\",25,6,\"16 pies\",7.45),\n (55,\"Pâté chinois\",25,6,\"24 boxes x 2 pies\",24),\n (56,\"Gnocchi di nonna Alice\",26,5,\"24 - 250 g pkgs.\",38),\n (57,\"Ravioli Angelo\",26,5,\"24 - 250 g pkgs.\",19.5),\n (58,\"Escargots de Bourgogne\",27,8,\"24 pieces\",13.25),\n (59,\"Raclette Courdavault\",28,4,\"5 kg pkg.\",55),\n (60,\"Camembert Pierrot\",28,4,\"15 - 300 g rounds\",34),\n (61,\"Sirop d\\'érable\",29,2,\"24 - 500 ml bottles\",28.5),\n (62,\"Tarte au sucre\",29,3,\"48 pies\",49.3),\n (63,\"Vegie-spread\",7,2,\"15 - 625 g jars\",43.9),\n (64,\"Wimmers gute Semmelknödel\",12,5,\"20 bags x 4 pieces\",33.25),\n (65,\"Louisiana Fiery Hot Pepper Sauce\",2,2,\"32 - 8 oz bottles\",21.05),\n (66,\"Louisiana Hot Spiced Okra\",2,2,\"24 - 8 oz jars\",17),\n (67,\"Laughing Lumberjack Lager\",16,1,\"24 - 12 oz bottles\",14),\n (68,\"Scottish Longbreads\",8,3,\"10 boxes x 8 pieces\",12.5),\n (69,\"Gudbrandsdalsost\",15,4,\"10 kg pkg.\",36),\n (70,\"Outback Lager\",7,1,\"24 - 355 ml bottles\",15),\n (71,\"Fløtemysost\",15,4,\"10 - 500 g pkgs.\",21.5),\n (72,\"Mozzarella di Giovanni\",14,4,\"24 - 200 g pkgs.\",34.8),\n (73,\"Röd Kaviar\",17,8,\"24 - 150 g jars\",15),\n (74,\"Longlife Tofu\",4,7,\"5 kg pkg.\",10),\n (75,\"Rhönbräu Klosterbier\",12,1,\"24 - 0.5 l bottles\",7.75),\n (76,\"Lakkalikööri\",23,1,\"500 ml \",18),\n (77,\"Original Frankfurter grüne Soße\",12,2,\"12 boxes\",13)\n]\n\nfor p in products_array:\n print('''supplier = Supplier.query.get(int({}))\ncategory = Category.query.get(int({}))\np{} = Product(productname=\"{}\", supplier=supplier, category=category, unit=\"{}\", price={})\ndb.session.add(p{})\\n'''.format(p[2], p[3], p[0], p[1], p[4], p[5], p[0]))\nprint('db.session.commit()\\n\\n\\n\\n\\n\\n')\n" }, { "alpha_fraction": 0.5864661931991577, "alphanum_fraction": 0.5864661931991577, "avg_line_length": 25.649999618530273, "blob_id": "9079c7c6f770e7a03901e3d5a52e9e4121b3ae41", "content_id": "06762ce9c876485254ba41cc1f4ba0ebe106f8e7", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 532, "license_type": "no_license", "max_line_length": 109, "num_lines": 20, "path": "/freyja.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "from app import create_app, db\nfrom app.models import User, Post, Category, Employee, Order, OrderDetail, Product, Shipper, Supplier, Review\n\napp = create_app()\n\[email protected]_context_processor\ndef make_shell_context():\n return {\n 'db': db,\n 'User': User,\n 'Post': Post,\n 'Category': Category,\n 'Employee': Employee,\n 'OrderDetail': OrderDetail,\n 'Order': Order,\n 'Product': Product,\n 'Shipper': Shipper,\n 'Supplier': Supplier,\n 'Review': Review\n }" }, { "alpha_fraction": 0.6571506261825562, "alphanum_fraction": 0.6718325018882751, "avg_line_length": 50.08333206176758, "blob_id": "7898a5ee8cfd6f5357183e9f2431fd2baf418714", "content_id": "9e8770c0ca4c3ccdcb04ca69fe23e84175b75611", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 7356, "license_type": "no_license", "max_line_length": 97, "num_lines": 144, "path": "/migrations/versions/9f614adf3ffa_add_back_tables_after_altering_them.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "\"\"\"Add back tables after altering them.\n\nRevision ID: 9f614adf3ffa\nRevises: 7180ba27f86a\nCreate Date: 2018-11-28 00:29:05.680512\n\n\"\"\"\nfrom alembic import op\nimport sqlalchemy as sa\n\n\n# revision identifiers, used by Alembic.\nrevision = '9f614adf3ffa'\ndown_revision = '7180ba27f86a'\nbranch_labels = None\ndepends_on = None\n\n\ndef upgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.create_table('category',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('categoryname', sa.String(length=255), nullable=True),\n sa.Column('description', sa.Text(length=500), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_category_categoryname'), 'category', ['categoryname'], unique=True)\n op.create_table('customer',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('customername', sa.String(length=255), nullable=True),\n sa.Column('contactname', sa.String(length=255), nullable=True),\n sa.Column('address', sa.String(length=255), nullable=True),\n sa.Column('city', sa.String(length=255), nullable=True),\n sa.Column('postalcode', sa.String(length=255), nullable=True),\n sa.Column('country', sa.String(length=255), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_customer_address'), 'customer', ['address'], unique=False)\n op.create_index(op.f('ix_customer_city'), 'customer', ['city'], unique=False)\n op.create_index(op.f('ix_customer_contactname'), 'customer', ['contactname'], unique=False)\n op.create_index(op.f('ix_customer_country'), 'customer', ['country'], unique=False)\n op.create_index(op.f('ix_customer_customername'), 'customer', ['customername'], unique=False)\n op.create_index(op.f('ix_customer_postalcode'), 'customer', ['postalcode'], unique=False)\n op.create_table('employee',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('lastname', sa.String(length=255), nullable=True),\n sa.Column('firstname', sa.String(length=255), nullable=True),\n sa.Column('birthdate', sa.DateTime(), nullable=True),\n sa.Column('notes', sa.Text(length=1000), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_employee_firstname'), 'employee', ['firstname'], unique=False)\n op.create_index(op.f('ix_employee_lastname'), 'employee', ['lastname'], unique=False)\n op.create_table('shipper',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('shippername', sa.String(length=255), nullable=True),\n sa.Column('phone', sa.String(length=25), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_shipper_phone'), 'shipper', ['phone'], unique=False)\n op.create_index(op.f('ix_shipper_shippername'), 'shipper', ['shippername'], unique=False)\n op.create_table('supplier',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('suppliername', sa.String(length=255), nullable=True),\n sa.Column('contactname', sa.String(length=255), nullable=True),\n sa.Column('address', sa.String(length=255), nullable=True),\n sa.Column('city', sa.String(length=255), nullable=True),\n sa.Column('postalcode', sa.String(length=255), nullable=True),\n sa.Column('country', sa.String(length=255), nullable=True),\n sa.Column('phone', sa.String(length=25), nullable=True),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_supplier_address'), 'supplier', ['address'], unique=False)\n op.create_index(op.f('ix_supplier_city'), 'supplier', ['city'], unique=False)\n op.create_index(op.f('ix_supplier_contactname'), 'supplier', ['contactname'], unique=False)\n op.create_index(op.f('ix_supplier_country'), 'supplier', ['country'], unique=False)\n op.create_index(op.f('ix_supplier_phone'), 'supplier', ['phone'], unique=False)\n op.create_index(op.f('ix_supplier_postalcode'), 'supplier', ['postalcode'], unique=False)\n op.create_index(op.f('ix_supplier_suppliername'), 'supplier', ['suppliername'], unique=False)\n op.create_table('order',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('customer_id', sa.Integer(), nullable=True),\n sa.Column('employee_id', sa.Integer(), nullable=True),\n sa.Column('orderdate', sa.Date(), nullable=True),\n sa.Column('shipper_id', sa.Integer(), nullable=True),\n sa.ForeignKeyConstraint(['customer_id'], ['customer.id'], ),\n sa.ForeignKeyConstraint(['employee_id'], ['employee.id'], ),\n sa.ForeignKeyConstraint(['shipper_id'], ['shipper.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_table('product',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('productname', sa.String(length=255), nullable=True),\n sa.Column('supplier_id', sa.Integer(), nullable=True),\n sa.Column('category_id', sa.Integer(), nullable=True),\n sa.Column('unit', sa.Integer(), nullable=True),\n sa.Column('price', sa.Numeric(), nullable=True),\n sa.ForeignKeyConstraint(['category_id'], ['category.id'], ),\n sa.ForeignKeyConstraint(['supplier_id'], ['supplier.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_product_productname'), 'product', ['productname'], unique=False)\n op.create_table('order_detail',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('order_id', sa.Integer(), nullable=True),\n sa.Column('product_id', sa.Integer(), nullable=True),\n sa.Column('quantity', sa.Integer(), nullable=True),\n sa.ForeignKeyConstraint(['order_id'], ['order.id'], ),\n sa.ForeignKeyConstraint(['product_id'], ['product.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n # ### end Alembic commands ###\n\n\ndef downgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.drop_table('order_detail')\n op.drop_index(op.f('ix_product_productname'), table_name='product')\n op.drop_table('product')\n op.drop_table('order')\n op.drop_index(op.f('ix_supplier_suppliername'), table_name='supplier')\n op.drop_index(op.f('ix_supplier_postalcode'), table_name='supplier')\n op.drop_index(op.f('ix_supplier_phone'), table_name='supplier')\n op.drop_index(op.f('ix_supplier_country'), table_name='supplier')\n op.drop_index(op.f('ix_supplier_contactname'), table_name='supplier')\n op.drop_index(op.f('ix_supplier_city'), table_name='supplier')\n op.drop_index(op.f('ix_supplier_address'), table_name='supplier')\n op.drop_table('supplier')\n op.drop_index(op.f('ix_shipper_shippername'), table_name='shipper')\n op.drop_index(op.f('ix_shipper_phone'), table_name='shipper')\n op.drop_table('shipper')\n op.drop_index(op.f('ix_employee_lastname'), table_name='employee')\n op.drop_index(op.f('ix_employee_firstname'), table_name='employee')\n op.drop_table('employee')\n op.drop_index(op.f('ix_customer_postalcode'), table_name='customer')\n op.drop_index(op.f('ix_customer_customername'), table_name='customer')\n op.drop_index(op.f('ix_customer_country'), table_name='customer')\n op.drop_index(op.f('ix_customer_contactname'), table_name='customer')\n op.drop_index(op.f('ix_customer_city'), table_name='customer')\n op.drop_index(op.f('ix_customer_address'), table_name='customer')\n op.drop_table('customer')\n op.drop_index(op.f('ix_category_categoryname'), table_name='category')\n op.drop_table('category')\n # ### end Alembic commands ###\n" }, { "alpha_fraction": 0.5487651824951172, "alphanum_fraction": 0.6287747621536255, "avg_line_length": 70.1574478149414, "blob_id": "eae94cf8ce3e798cc31723426b3625caa18e9882", "content_id": "e14c664c9a26286524a14def766b4dd6f46c8ced", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 16798, "license_type": "no_license", "max_line_length": 470, "num_lines": 235, "path": "/pop_maker_us_cats_emps_ships_sups.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "from datetime import datetime\n\n\n\nprint('''from datetime import datetime\nfrom app import db\nfrom app.models import User, Category, Supplier, Shipper, Employee\\n\\n\\n''')\n\n\ncustomers_array = [\n (\"Alfreds Futterkiste\",\"Maria Anders\",\"Obere Str. 57\",\"Berlin\",\"12209\",\"Germany\"),\n (\"Ana Trujillo Emparedados y helados\",\"Ana Trujillo\",\"Avda. de la Constitución 2222\",\"México D.F.\",\"05021\",\"Mexico\"),\n (\"Antonio Moreno Taquería\",\"Antonio Moreno\",\"Mataderos 2312\",\"México D.F.\",\"05023\",\"Mexico\"),\n (\"Around the Horn\",\"Thomas Hardy\",\"120 Hanover Sq.\",\"London\",\"WA1 1DP\",\"UK\"),\n (\"Berglunds snabbköp\",\"Christina Berglund\",\"Berguvsvägen 8\",\"Luleå\",\"S-958 22\",\"Sweden\"),\n (\"Blauer See Delikatessen\",\"Hanna Moos\",\"Forsterstr. 57\",\"Mannheim\",\"68306\",\"Germany\"),\n (\"Blondel père et fils\",\"Frédérique Citeaux\",\"24, place Kléber\",\"Strasbourg\",\"67000\",\"France\"),\n (\"Bólido Comidas preparadas\",\"Martín Sommer\",\"C/ Araquil, 67\",\"Madrid\",\"28023\",\"Spain\"),\n (\"Bon app'\",\"Laurence Lebihans\",\"12, rue des Bouchers\",\"Marseille\",\"13008\",\"France\"),\n (\"Bottom-Dollar Marketse\",\"Elizabeth Lincoln\",\"23 Tsawassen Blvd.\",\"Tsawassen\",\"T2F 8M4\",\"Canada\"),\n (\"B's Beverages\",\"Victoria Ashworth\",\"Fauntleroy Circus\",\"London\",\"EC2 5NT\",\"UK\"),\n (\"Cactus Comidas para llevar\",\"Patricio Simpson\",\"Cerrito 333\",\"Buenos Aires\",\"1010\",\"Argentina\"),\n (\"Centro comercial Moctezuma\",\"Francisco Chang\",\"Sierras de Granada 9993\",\"México D.F.\",\"05022\",\"Mexico\"),\n (\"Chop-suey Chinese\",\"Yang Wang\",\"Hauptstr. 29\",\"Bern\",\"3012\",\"Switzerland\"),\n (\"Comércio Mineiro\",\"Pedro Afonso\",\"Av. dos Lusíadas, 23\",\"São Paulo\",\"05432-043\",\"Brazil\"),\n (\"Consolidated Holdings\",\"Elizabeth Brown\",\"Berkeley Gardens 12 Brewery \",\"London\",\"WX1 6LT\",\"UK\"),\n (\"Drachenblut Delikatessend\",\"Sven Ottlieb\",\"Walserweg 21\",\"Aachen\",\"52066\",\"Germany\"),\n (\"Du monde entier\",\"Janine Labrune\",\"67, rue des Cinquante Otages\",\"Nantes\",\"44000\",\"France\"),\n (\"Eastern Connection\",\"Ann Devon\",\"35 King George\",\"London\",\"WX3 6FW\",\"UK\"),\n (\"Ernst Handel\",\"Roland Mendel\",\"Kirchgasse 6\",\"Graz\",\"8010\",\"Austria\"),\n (\"Familia Arquibaldo\",\"Aria Cruz\",\"Rua Orós, 92\",\"São Paulo\",\"05442-030\",\"Brazil\"),\n (\"FISSA Fabrica Inter. Salchichas S.A.\",\"Diego Roel\",\"C/ Moralzarzal, 86\",\"Madrid\",\"28034\",\"Spain\"),\n (\"Folies gourmandes\",\"Martine Rancé\",\"184, chaussée de Tournai\",\"Lille\",\"59000\",\"France\"),\n (\"Folk och fä HB\",\"Maria Larsson\",\"Åkergatan 24\",\"Bräcke\",\"S-844 67\",\"Sweden\"),\n (\"Frankenversand\",\"Peter Franken\",\"Berliner Platz 43\",\"München\",\"80805\",\"Germany\"),\n (\"France restauration\",\"Carine Schmitt\",\"54, rue Royale\",\"Nantes\",\"44000\",\"France\"),\n (\"Franchi S.p.A.\",\"Paolo Accorti\",\"Via Monte Bianco 34\",\"Torino\",\"10100\",\"Italy\"),\n (\"Furia Bacalhau e Frutos do Mar\",\"Lino Rodriguez \",\"Jardim das rosas n. 32\",\"Lisboa\",\"1675\",\"Portugal\"),\n (\"Galería del gastrónomo\",\"Eduardo Saavedra\",\"Rambla de Cataluña, 23\",\"Barcelona\",\"08022\",\"Spain\"),\n (\"Godos Cocina Típica\",\"José Pedro Freyre\",\"C/ Romero, 33\",\"Sevilla\",\"41101\",\"Spain\"),\n (\"Gourmet Lanchonetes\",\"André Fonseca\",\"Av. Brasil, 442\",\"Campinas\",\"04876-786\",\"Brazil\"),\n (\"Great Lakes Food Market\",\"Howard Snyder\",\"2732 Baker Blvd.\",\"Eugene\",\"97403\",\"USA\"),\n (\"GROSELLA-Restaurante\",\"Manuel Pereira\",\"5ª Ave. Los Palos Grandes\",\"Caracas\",\"1081\",\"Venezuela\"),\n (\"Hanari Carnes\",\"Mario Pontes\",\"Rua do Paço, 67\",\"Rio de Janeiro\",\"05454-876\",\"Brazil\"),\n (\"HILARIÓN-Abastos\",\"Carlos Hernández\",\"Carrera 22 con Ave. Carlos Soublette #8-35\",\"San Cristóbal\",\"5022\",\"Venezuela\"),\n (\"Hungry Coyote Import Store\",\"Yoshi Latimer\",\"City Center Plaza 516 Main St.\",\"Elgin\",\"97827\",\"USA\"),\n (\"Hungry Owl All-Night Grocers\",\"Patricia McKenna\",\"8 Johnstown Road\",\"Cork\",\"\",\"Ireland\"),\n (\"Island Trading\",\"Helen Bennett\",\"Garden House Crowther Way\",\"Cowes\",\"PO31 7PJ\",\"UK\"),\n (\"Königlich Essen\",\"Philip Cramer\",\"Maubelstr. 90\",\"Brandenburg\",\"14776\",\"Germany\"),\n (\"La corne d'abondance\",\"Daniel Tonini\",\"67, avenue de l'Europe\",\"Versailles\",\"78000\",\"France\"),\n (\"La maison d'Asie\",\"Annette Roulet\",\"1 rue Alsace-Lorraine\",\"Toulouse\",\"31000\",\"France\"),\n (\"Laughing Bacchus Wine Cellars\",\"Yoshi Tannamuri\",\"1900 Oak St.\",\"Vancouver\",\"V3F 2K1\",\"Canada\"),\n (\"Lazy K Kountry Store\",\"John Steel\",\"12 Orchestra Terrace\",\"Walla Walla\",\"99362\",\"USA\"),\n (\"Lehmanns Marktstand\",\"Renate Messner\",\"Magazinweg 7\",\"Frankfurt a.M. \",\"60528\",\"Germany\"),\n (\"Let's Stop N Shop\",\"Jaime Yorres\",\"87 Polk St. Suite 5\",\"San Francisco\",\"94117\",\"USA\"),\n (\"LILA-Supermercado\",\"Carlos González\",\"Carrera 52 con Ave. Bolívar #65-98 Llano Largo\",\"Barquisimeto\",\"3508\",\"Venezuela\"),\n (\"LINO-Delicateses\",\"Felipe Izquierdo\",\"Ave. 5 de Mayo Porlamar\",\"I. de Margarita\",\"4980\",\"Venezuela\"),\n (\"Lonesome Pine Restaurant\",\"Fran Wilson\",\"89 Chiaroscuro Rd.\",\"Portland\",\"97219\",\"USA\"),\n (\"Magazzini Alimentari Riuniti\",\"Giovanni Rovelli\",\"Via Ludovico il Moro 22\",\"Bergamo\",\"24100\",\"Italy\"),\n (\"Maison Dewey\",\"Catherine Dewey\",\"Rue Joseph-Bens 532\",\"Bruxelles\",\"B-1180\",\"Belgium\"),\n (\"Mère Paillarde\",\"Jean Fresnière\",\"43 rue St. Laurent\",\"Montréal\",\"H1J 1C3\",\"Canada\"),\n (\"Morgenstern Gesundkost\",\"Alexander Feuer\",\"Heerstr. 22\",\"Leipzig\",\"04179\",\"Germany\"),\n (\"North/South\",\"Simon Crowther\",\"South House 300 Queensbridge\",\"London\",\"SW7 1RZ\",\"UK\"),\n (\"Océano Atlántico Ltda.\",\"Yvonne Moncada\",\"Ing. Gustavo Moncada 8585 Piso 20-A\",\"Buenos Aires\",\"1010\",\"Argentina\"),\n (\"Old World Delicatessen\",\"Rene Phillips\",\"2743 Bering St.\",\"Anchorage\",\"99508\",\"USA\"),\n (\"Ottilies Käseladen\",\"Henriette Pfalzheim\",\"Mehrheimerstr. 369\",\"Köln\",\"50739\",\"Germany\"),\n (\"Paris spécialités\",\"Marie Bertrand\",\"265, boulevard Charonne\",\"Paris\",\"75012\",\"France\"),\n (\"Pericles Comidas clásicas\",\"Guillermo Fernández\",\"Calle Dr. Jorge Cash 321\",\"México D.F.\",\"05033\",\"Mexico\"),\n (\"Piccolo und mehr\",\"Georg Pipps\",\"Geislweg 14\",\"Salzburg\",\"5020\",\"Austria\"),\n (\"Princesa Isabel Vinhoss\",\"Isabel de Castro\",\"Estrada da saúde n. 58\",\"Lisboa\",\"1756\",\"Portugal\"),\n (\"Que Delícia\",\"Bernardo Batista\",\"Rua da Panificadora, 12\",\"Rio de Janeiro\",\"02389-673\",\"Brazil\"),\n (\"Queen Cozinha\",\"Lúcia Carvalho\",\"Alameda dos Canàrios, 891\",\"São Paulo\",\"05487-020\",\"Brazil\"),\n (\"QUICK-Stop\",\"Horst Kloss\",\"Taucherstraße 10\",\"Cunewalde\",\"01307\",\"Germany\"),\n (\"Rancho grande\",\"Sergio Gutiérrez\",\"Av. del Libertador 900\",\"Buenos Aires\",\"1010\",\"Argentina\"),\n (\"Rattlesnake Canyon Grocery\",\"Paula Wilson\",\"2817 Milton Dr.\",\"Albuquerque\",\"87110\",\"USA\"),\n (\"Reggiani Caseifici\",\"Maurizio Moroni\",\"Strada Provinciale 124\",\"Reggio Emilia\",\"42100\",\"Italy\"),\n (\"Ricardo Adocicados\",\"Janete Limeira\",\"Av. Copacabana, 267\",\"Rio de Janeiro\",\"02389-890\",\"Brazil\"),\n (\"Richter Supermarkt\",\"Michael Holz\",\"Grenzacherweg 237\",\"Genève\",\"1203\",\"Switzerland\"),\n (\"Romero y tomillo\",\"Alejandra Camino\",\"Gran Vía, 1\",\"Madrid\",\"28001\",\"Spain\"),\n (\"Santé Gourmet\",\"Jonas Bergulfsen\",\"Erling Skakkes gate 78\",\"Stavern\",\"4110\",\"Norway\"),\n (\"Save-a-lot Markets\",\"Jose Pavarotti\",\"187 Suffolk Ln.\",\"Boise\",\"83720\",\"USA\"),\n (\"Seven Seas Imports\",\"Hari Kumar\",\"90 Wadhurst Rd.\",\"London\",\"OX15 4NB\",\"UK\"),\n (\"Simons bistro\",\"Jytte Petersen\",\"Vinbæltet 34\",\"København\",\"1734\",\"Denmark\"),\n (\"Spécialités du monde\",\"Dominique Perrier\",\"25, rue Lauriston\",\"Paris\",\"75016\",\"France\"),\n (\"Split Rail Beer & Ale\",\"Art Braunschweiger\",\"P.O. Box 555\",\"Lander\",\"82520\",\"USA\"),\n (\"Suprêmes délices\",\"Pascale Cartrain\",\"Boulevard Tirou, 255\",\"Charleroi\",\"B-6000\",\"Belgium\"),\n (\"The Big Cheese\",\"Liz Nixon\",\"89 Jefferson Way Suite 2\",\"Portland\",\"97201\",\"USA\"),\n (\"The Cracker Box\",\"Liu Wong\",\"55 Grizzly Peak Rd.\",\"Butte\",\"59801\",\"USA\"),\n (\"Toms Spezialitäten\",\"Karin Josephs\",\"Luisenstr. 48\",\"Münster\",\"44087\",\"Germany\"),\n (\"Tortuga Restaurante\",\"Miguel Angel Paolino\",\"Avda. Azteca 123\",\"México D.F.\",\"05033\",\"Mexico\"),\n (\"Tradição Hipermercados\",\"Anabela Domingues\",\"Av. Inês de Castro, 414\",\"São Paulo\",\"05634-030\",\"Brazil\"),\n (\"Trail's Head Gourmet Provisioners\",\"Helvetius Nagy\",\"722 DaVinci Blvd.\",\"Kirkland\",\"98034\",\"USA\"),\n (\"Vaffeljernet\",\"Palle Ibsen\",\"Smagsløget 45\",\"Århus\",\"8200\",\"Denmark\"),\n (\"Victuailles en stock\",\"Mary Saveley\",\"2, rue du Commerce\",\"Lyon\",\"69004\",\"France\"),\n (\"Vins et alcools Chevalier\",\"Paul Henriot\",\"59 rue de l'Abbaye\",\"Reims\",\"51100\",\"France\"),\n (\"Die Wandernde Kuh\",\"Rita Müller\",\"Adenauerallee 900\",\"Stuttgart\",\"70563\",\"Germany\"),\n (\"Wartian Herkku\",\"Pirkko Koskitalo\",\"Torikatu 38\",\"Oulu\",\"90110\",\"Finland\"),\n (\"Wellington Importadora\",\"Paula Parente\",\"Rua do Mercado, 12\",\"Resende\",\"08737-363\",\"Brazil\"),\n (\"White Clover Markets\",\"Karl Jablonski\",\"305 - 14th Ave. S. Suite 3B\",\"Seattle\",\"98128\",\"USA\"),\n (\"Wilman Kala\",\"Matti Karttunen\",\"Keskuskatu 45\",\"Helsinki\",\"21240\",\"Finland\"),\n (\"Wolski\",\"Zbyszek\",\"ul. Filtrowa 68\",\"Walla\",\"01-012\",\"Poland\")\n]\n\n\nfor u in customers_array:\n #Separate the names data into lastname, middlename, firstname\n name_list = u[1].split()\n firstname = name_list[0]\n #Make up usernames from the given contact names\n username = u[1].replace(\" \", \"\")\n #Make up dummy emails from the given customer names\n email = u[0].replace(\" \", \"\") + \"@example.com\"\n if len(name_list) > 2:\n middlename = name_list[1]\n lastname = name_list[2]\n middlenameinsert = 'middlename=\"' + middlename + '\"'\n lastnameinsert = 'lastname=\"' + lastname + '\"'\n else:\n middlename = None\n lastname = None\n middlenameinsert = 'middlename=None'\n lastnameinsert = 'lastname=None'\n print('''u{} = User(username=\"{}\",customername=\"{}\",{},{},firstname=\"{}\",email=\"{}\",address=\"{}\",city=\"{}\",postalcode=\"{}\",country=\"{}\")\\nu{}.set_password(\"{}\")\\ndb.session.add(u{})'''\n .format(\n customers_array.index(u),\n username, u[0], lastnameinsert, middlenameinsert,\n firstname, email, u[2], u[3], u[4],\n u[5], customers_array.index(u), firstname, customers_array.index(u)\n )\n )\nprint('db.session.commit()\\n\\n\\n')\n\n\n\nsuppliers_array = [\n (1,\"Exotic Liquid\",\"Charlotte Cooper\",\"49 Gilbert St.\",\"Londona\",\"EC1 4SD\",\"UK\",\"(171) 555-2222\"),\n (2,\"New Orleans Cajun Delights\",\"Shelley Burke\",\"P.O. Box 78934\",\"New Orleans\",\"70117\",\"USA\",\"(100) 555-4822\"),\n (3,\"Grandma Kelly's Homestead\",\"Regina Murphy\",\"707 Oxford Rd.\",\"Ann Arbor\",\"48104\",\"USA\",\"(313) 555-5735\"),\n (4,\"Tokyo Traders\",\"Yoshi Nagase\",\"9-8 Sekimai Musashino-shi\",\"Tokyo\",\"100\",\"Japan\",\"(03) 3555-5011\"),\n (5,\"Cooperativa de Quesos 'Las Cabras'\",\"Antonio del Valle Saavedra \",\"Calle del Rosal 4\",\"Oviedo\",\"33007\",\"Spain\",\"(98) 598 76 54\"),\n (6,\"Mayumi's\",\"Mayumi Ohno\",\"92 Setsuko Chuo-ku\",\"Osaka\",\"545\",\"Japan\",\"(06) 431-7877\"),\n (7,\"Pavlova, Ltd.\",\"Ian Devling\",\"74 Rose St. Moonie Ponds\",\"Melbourne\",\"3058\",\"Australia\",\"(03) 444-2343\"),\n (8,\"Specialty Biscuits, Ltd.\",\"Peter Wilson\",\"29 King's Way\",\"Manchester\",\"M14 GSD\",\"UK\",\"(161) 555-4448\"),\n (9,\"PB Knäckebröd AB\",\"Lars Peterson\",\"Kaloadagatan 13\",\"Göteborg\",\"S-345 67\",\"Sweden \",\"031-987 65 43\"),\n (10,\"Refrescos Americanas LTDA\",\"Carlos Diaz\",\"Av. das Americanas 12.890\",\"São Paulo\",\"5442\",\"Brazil\",\"(11) 555 4640\"),\n (11,\"Heli Süßwaren GmbH & Co. KG\",\"Petra Winkler\",\"Tiergartenstraße 5\",\"Berlin\",\"10785\",\"Germany\",\"(010) 9984510\"),\n (12,\"Plutzer Lebensmittelgroßmärkte AG\",\"Martin Bein\",\"Bogenallee 51\",\"Frankfurt\",\"60439\",\"Germany\",\"(069) 992755\"),\n (13,\"Nord-Ost-Fisch Handelsgesellschaft mbH\",\"Sven Petersen\",\"Frahmredder 112a\",\"Cuxhaven\",\"27478\",\"Germany\",\"(04721) 8713\"),\n (14,\"Formaggi Fortini s.r.l.\",\"Elio Rossi\",\"Viale Dante, 75\",\"Ravenna\",\"48100\",\"Italy\",\"(0544) 60323\"),\n (15,\"Norske Meierier\",\"Beate Vileid\",\"Hatlevegen 5\",\"Sandvika\",\"1320\",\"Norway\",\"(0)2-953010\"),\n (16,\"Bigfoot Breweries\",\"Cheryl Saylor\",\"3400 - 8th Avenue Suite 210\",\"Bend\",\"97101\",\"USA\",\"(503) 555-9931\"),\n (17,\"Svensk Sjöföda AB\",\"Michael Björn\",\"Brovallavägen 231\",\"Stockholm\",\"S-123 45\",\"Sweden\",\"08-123 45 67\"),\n (18,\"Aux joyeux ecclésiastiques\",\"Guylène Nodier\",\"203, Rue des Francs-Bourgeois\",\"Paris\",\"75004\",\"France\",\"(1) 03.83.00.68\"),\n (19,\"New England Seafood Cannery\",\"Robb Merchant\",\"Order Processing Dept. 2100 Paul Revere Blvd.\",\"Boston\",\"02134\",\"USA\",\"(617) 555-3267\"),\n (20,\"Leka Trading\",\"Chandra Leka\",\"471 Serangoon Loop, Suite #402\",\"Singapore\",\"0512\",\"Singapore\",\"555-8787\"),\n (21,\"Lyngbysild\",\"Niels Petersen\",\"Lyngbysild Fiskebakken 10\",\"Lyngby\",\"2800\",\"Denmark\",\"43844108\"),\n (22,\"Zaanse Snoepfabriek\",\"Dirk Luchte\",\"Verkoop Rijnweg 22\",\"Zaandam\",\"9999 ZZ\",\"Netherlands\",\"(12345) 1212\"),\n (23,\"Karkki Oy\",\"Anne Heikkonen\",\"Valtakatu 12\",\"Lappeenranta\",\"53120\",\"Finland\",\"(953) 10956\"),\n (24,\"G'day, Mate\",\"Wendy Mackenzie\",\"170 Prince Edward Parade Hunter's Hill\",\"Sydney\",\"2042\",\"Australia\",\"(02) 555-5914\"),\n (25,\"Ma Maison\",\"Jean-Guy Lauzon\",\"2960 Rue St. Laurent\",\"Montréal\",\"H1J 1C3\",\"Canada\",\"(514) 555-9022\"),\n (26,\"Pasta Buttini s.r.l.\",\"Giovanni Giudici\",\"Via dei Gelsomini, 153\",\"Salerno\",\"84100\",\"Italy\",\"(089) 6547665\"),\n (27,\"Escargots Nouveaux\",\"Marie Delamare\",\"22, rue H. Voiron\",\"Montceau\",\"71300\",\"France\",\"85.57.00.07\"),\n (28,\"Gai pâturage\",\"Eliane Noz\",\"Bat. B 3, rue des Alpes\",\"Annecy\",\"74000\",\"France\",\"38.76.98.06\"),\n (29,\"Forêts d'érables\",\"Chantal Goulet\",\"148 rue Chasseur\",\"Ste-Hyacinthe\",\"J2S 7S8\",\"Canada\",\"(514) 555-2955\")\n]\n\nfor su in suppliers_array:\n print('su{} = Supplier(suppliername=\"{}\",contactname=\"{}\",address=\"{}\",city=\"{}\",postalcode=\"{}\",country=\"{}\",phone=\"{}\")\\ndb.session.add(su{})'\n .format(su[0], su[1], su[2], su[3], su[4], su[5], su[6], su[7], su[0]))\nprint('db.session.commit()\\n\\n\\n')\n\n\n\n\nemployees_array = [\n (\"Davolio\",\"Nancy\",\"1968-12-08\",\"EmpID1.pic\",\"\"\"Education includes a BA in psychology from Colorado State University. She also completed (The Art of the Cold Call). Nancy is a member of 'Toastmasters International'.\"\"\"),\n (\"Fuller\",\"Andrew\",\"1952-02-19\",\"EmpID2.pic\",\"\"\"Andrew received his BTS commercial and a Ph.D. in international marketing from the University of Dallas. He is fluent in French and Italian and reads German. He joined the company as a sales representative, was promoted to sales manager and was then named vice president of sales. Andrew is a member of the Sales Management Roundtable, the Seattle Chamber of Commerce, and the Pacific Rim Importers Association.\"\"\"),\n (\"Leverling\",\"Janet\",\"1963-08-30\",\"EmpID3.pic\",\"\"\"Janet has a BS degree in chemistry from Boston College). She has also completed a certificate program in food retailing management. Janet was hired as a sales associate and was promoted to sales representative.\"\"\"),\n (\"Peacock\",\"Margaret\",\"1958-09-19\",\"EmpID4.pic\",\"\"\"Margaret holds a BA in English literature from Concordia College and an MA from the American Institute of Culinary Arts. She was temporarily assigned to the London office before returning to her permanent post in Seattle.\"\"\"),\n (\"Buchanan\",\"Steven\",\"1955-03-04\",\"EmpID5.pic\",\"\"\"Steven Buchanan graduated from St. Andrews University, Scotland, with a BSC degree. Upon joining the company as a sales representative, he spent 6 months in an orientation program at the Seattle office and then returned to his permanent post in London, where he was promoted to sales manager. Mr. Buchanan has completed the courses 'Successful Telemarketing' and 'International Sales Management'. He is fluent in French.\"\"\"),\n (\"Suyama\",\"Michael\",\"1963-07-02\",\"EmpID6.pic\",\"\"\"Michael is a graduate of Sussex University (MA, economics) and the University of California at Los Angeles (MBA, marketing). He has also taken the courses 'Multi-Cultural Selling' and 'Time Management for the Sales Professional'. He is fluent in Japanese and can read and write French, Portuguese, and Spanish.\"\"\"),\n (\"King\",\"Robert\",\"1960-05-29\",\"EmpID7.pic\",\"\"\"Robert King served in the Peace Corps and traveled extensively before completing his degree in English at the University of Michigan and then joining the company. After completing a course entitled 'Selling in Europe', he was transferred to the London office.\"\"\"),\n (\"Callahan\",\"Laura\",\"1958-01-09\",\"EmpID8.pic\",\"\"\"Laura received a BA in psychology from the University of Washington. She has also completed a course in business French. She reads and writes French.\"\"\"),\n (\"Dodsworth\",\"Anne\",\"1969-07-02\",\"EmpID9.pic\",\"\"\"Anne has a BA degree in English from St. Lawrence College. She is fluent in French and German.\"\"\"),\n (\"West\",\"Adam\",\"1928-09-19\",\"EmpID10.pic\",\"\"\"An old chum.\"\"\")\n]\n\nformatted_date_employees_array = [\n\n]\n\n\nfor e in employees_array:\n date = e[2].split(\"-\")\n formatted_date = datetime(int(date[0]), int(date[1]), int(date[2]))\n formatted_date_employee = (e[0], e[1], formatted_date, e[3], e[4])\n formatted_date_employees_array.append(formatted_date_employee)\n\n\nfor e in formatted_date_employees_array:\n print('e{} = Employee(lastname=\"{}\",firstname=\"{}\",notes=\"{}\")\\ndb.session.add(e{})'\n .format(formatted_date_employees_array.index(e), e[0], e[1], e[4], formatted_date_employees_array.index(e)))\nprint('db.session.commit()\\n\\n\\n')\n\n\n\ncategories_array = [\n (\"Beverages\",\"Soft drinks, coffees, teas, beers, and ales\"),\n (\"Condiments\",\"Sweet and savory sauces, relishes, spreads, and seasonings\"),\n (\"Confections\",\"Desserts, candies, and sweet breads\"),\n (\"Dairy Products\",\"Cheeses\"),\n (\"Grains/Cereals\",\"Breads, crackers, pasta, and cereal\"),\n (\"Meat/Poultry\",\"Prepared meats\"),\n (\"Produce\",\"Dried fruit and bean curd\"),\n (\"Seafood\",\"Seaweed and fish\")\n]\n\n\nfor c in categories_array:\n print('c{} = Category(categoryname=\"{}\",description=\"{}\")\\ndb.session.add(c{})'\n .format(categories_array.index(c), c[0], c[1], categories_array.index(c)))\nprint('db.session.commit()\\n\\n\\n')\n\n\n\nshippers_array = [\n (1,\"Speedy Express\",\"(503) 555-9831\"),\n (2,\"United Package\",\"(503) 555-3199\"),\n (3,\"Federal Shipping\",\"(503) 555-9931\")\n]\n\n\nfor s in shippers_array:\n print('s{} = Shipper(shippername=\"{}\",phone=\"{}\")\\ndb.session.add(s{})'.format(s[0], s[1], s[2], s[0]))\nprint('db.session.commit()\\n\\n')\n\n" }, { "alpha_fraction": 0.634509801864624, "alphanum_fraction": 0.6596078276634216, "avg_line_length": 30.875, "blob_id": "c05ce1527b934ad1794c8a31fb34a6a55bac90b1", "content_id": "9136aee372fa4c5ffa87040c890a5321098dc863", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1275, "license_type": "no_license", "max_line_length": 81, "num_lines": 40, "path": "/migrations/versions/6c9d78373dab_add_review_table_and_relationships_to_.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "\"\"\"Add Review table and relationships to Product and User table.\n\nRevision ID: 6c9d78373dab\nRevises: b8bcef009fb0\nCreate Date: 2019-01-08 17:19:41.947487\n\n\"\"\"\nfrom alembic import op\nimport sqlalchemy as sa\n\n\n# revision identifiers, used by Alembic.\nrevision = '6c9d78373dab'\ndown_revision = 'b8bcef009fb0'\nbranch_labels = None\ndepends_on = None\n\n\ndef upgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.create_table('review',\n sa.Column('id', sa.Integer(), nullable=False),\n sa.Column('rating', sa.Integer(), nullable=True),\n sa.Column('review', sa.Text(length=1000), nullable=True),\n sa.Column('comments', sa.Text(length=300), nullable=True),\n sa.Column('user_id', sa.Integer(), nullable=True),\n sa.Column('product_id', sa.Integer(), nullable=True),\n sa.ForeignKeyConstraint(['product_id'], ['product.id'], ),\n sa.ForeignKeyConstraint(['user_id'], ['user.id'], ),\n sa.PrimaryKeyConstraint('id')\n )\n op.create_index(op.f('ix_review_rating'), 'review', ['rating'], unique=False)\n # ### end Alembic commands ###\n\n\ndef downgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.drop_index(op.f('ix_review_rating'), table_name='review')\n op.drop_table('review')\n # ### end Alembic commands ###\n" }, { "alpha_fraction": 0.6320072412490845, "alphanum_fraction": 0.6717902421951294, "avg_line_length": 31.52941131591797, "blob_id": "3e1257d3223daa2f7b14a4d0ee9ff67da9682da3", "content_id": "dc9669d20e646e55e2e8c614f75ccf8c0f4ba236", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1106, "license_type": "no_license", "max_line_length": 87, "num_lines": 34, "path": "/migrations/versions/81162fe5d987_add_first_last_name_fields_to_user_table.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "\"\"\"Add first/last name fields to user table.\n\nRevision ID: 81162fe5d987\nRevises: 4e8beae024e9\nCreate Date: 2018-11-28 22:14:00.933976\n\n\"\"\"\nfrom alembic import op\nimport sqlalchemy as sa\n\n\n# revision identifiers, used by Alembic.\nrevision = '81162fe5d987'\ndown_revision = '4e8beae024e9'\nbranch_labels = None\ndepends_on = None\n\n\ndef upgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.add_column('user', sa.Column('firstname', sa.String(length=255), nullable=True))\n op.add_column('user', sa.Column('lastname', sa.String(length=255), nullable=True))\n op.create_index(op.f('ix_user_firstname'), 'user', ['firstname'], unique=False)\n op.create_index(op.f('ix_user_lastname'), 'user', ['lastname'], unique=False)\n # ### end Alembic commands ###\n\n\ndef downgrade():\n # ### commands auto generated by Alembic - please adjust! ###\n op.drop_index(op.f('ix_user_lastname'), table_name='user')\n op.drop_index(op.f('ix_user_firstname'), table_name='user')\n op.drop_column('user', 'lastname')\n op.drop_column('user', 'firstname')\n # ### end Alembic commands ###\n" }, { "alpha_fraction": 0.6457578539848328, "alphanum_fraction": 0.6494756937026978, "avg_line_length": 42.712501525878906, "blob_id": "85a0a970180e271ee5e52fb5341da433cb2ee898", "content_id": "47d4f0ae9c928356eaaaa5b4f1c37926c6f5be83", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 10490, "license_type": "no_license", "max_line_length": 118, "num_lines": 240, "path": "/app/main/routes.py", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "##Form code initially taken from https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-ii-templates\n##then altered as necessary to fit the needs of the project\nimport collections\nfrom sqlalchemy.sql import text\nfrom sqlalchemy import create_engine, desc, func\nfrom statistics import mean, median\nfrom flask import render_template, flash, redirect, url_for, request, session, current_app, g\nfrom sqlalchemy import asc, desc\nfrom werkzeug.urls import url_parse\nfrom datetime import datetime\nfrom flask_login import current_user, login_user, logout_user, login_required\nfrom app import db\nfrom app.main import bp\nfrom app.models import User, Post, Employee, Product, Review\nfrom app.main.forms import EditProfileForm, PostForm, SortForm, SearchForm\n\n\n\[email protected]('/product/<id>', methods=['GET', 'POST'])\ndef product(id):\n r = []\n product = Product.query.filter_by(id=id).first()\n for review in product.reviews:\n r.append(review.rating)\n rating = round(mean(r), 1)\n med = median(r)\n name = product.productname.capitalize()\n category = product.category\n #products is array of all the other products ordered by\n #the poeple who ordered the specified product\n products = []\n #The next array is the products bought together with the specified product\n #paired_products-->pp\n pps = []\n for od in product.orderdetails:\n orders = od.order.customer.orders.all()\n for o in orders:\n orderdetails = o.orderdetails.all()\n for od in orderdetails:\n product = od.product\n products.append(product)\n counted_products = collections.Counter(products).most_common(6)\n for od in product.orderdetails:\n order = od.order\n orderdetails = order.orderdetails.all()\n for od in orderdetails:\n p = od.product\n if p.id != product.id:\n pps.append(p)\n counted_pps = collections.Counter(pps).most_common(6)\n\n ##Not going to paginate the products as of now. The products are the top\n ##products also bought by people who ordered this product. The number has\n ##been limited to 8 so there is no need for pagination yet. It may be\n ##added later. Most likely there will just be a link to all the other\n ##products ordered by the people.Eventually the same functionality will\n ##be added for viewing a product.\n return render_template('product.html', title=name, product=product, name=name,\n rating=rating, category=category, products=counted_products,\n pps=counted_pps, median=med)\n\n\[email protected]('/products', methods=['GET', 'POST'])\ndef products():\n form = SortForm()\n page = request.args.get('page', 1, type=int)\n sort = request.args.get('sort', 1, type=int)\n top_rated = False\n ##The sort arg of the request url is taken and compared to the hardcoded choices to find the\n ##matching choice, which is then taken from its place and put at\n ##the front of the array. This is done becase the SelectField of the form defaults to showing\n ##the first choice before the drop down is opened and it was desired to have the currently\n ##applied sort to be showing so it didn't confuse the user by showing Featured when the products\n ##are actually sorted by Price: Low to High. This will need to be addressed again when the choices\n ##array is decided upon(i.e. static or dynamic). So far I only needed a static, hardcoded set to work with.\n choices = [(1, 'Featured'), (2, 'Top Rated'), (3, 'Price: Low to High'), (4, 'Price: High to Low'), (5, 'Newest')]\n for choice in choices:\n if sort == choice[0]:\n choices.remove(choice)\n choices.insert(0, choice)\n ##The desired choice is put in the beginning of the choices array so it is shown as the default.\n form.sort_type.choices = choices\n if sort == 1:\n products = Product.query.paginate(page, 24, False)\n elif sort == 2:\n top_rated = True\n rs = Review.query.\\\n with_entities(\n func.avg(Review.rating).label('average'),\n Review.product_id.label('product_id')).\\\n group_by(Review.product_id).subquery()\n products = db.session.query(Product, rs).\\\n join(rs, Product.id == rs.c.product_id).\\\n order_by(desc(rs.c.average)).paginate(page, 24, False)\n elif sort == 3:\n products = Product.query.order_by(asc(Product.price)).paginate(page, 24, False)\n elif sort == 4:\n products = Product.query.order_by(desc(Product.price)).paginate(page, 24, False)\n elif sort == 5:\n products = Product.query.order_by(desc(Product.created)).paginate(page, 24, False)\n next_url = url_for('main.products', page=products.next_num, sort=sort) \\\n if products.has_next else None\n prev_url = url_for('main.products', page=products.prev_num, sort=sort) \\\n if products.has_prev else None\n if form.validate_on_submit():\n page = request.args.get('page', 1, type=int)\n #flash('Page: ' + str(page))\n #flash('Sort: ' + str(form.sort_type.data))\n sort = form.sort_type.data\n return redirect(url_for('main.products', sort=sort))\n return render_template('products.html', title='Products',\n products=products.items, next_url=next_url,\n prev_url=prev_url, form=form, top_rated=top_rated)\n\n\[email protected]('/', methods=['GET', 'POST'])\[email protected]('/index', methods=['GET', 'POST'])\n@login_required\ndef index():\n form = PostForm()\n if form.validate_on_submit():\n post = Post(body=form.post.data, author=current_user)\n db.session.add(post)\n db.session.commit()\n flash('Your post is now live!')\n return redirect(url_for('main.index'))\n page = request.args.get('page', 1, type=int)\n posts = current_user.followed_posts().paginate(\n page, current_app.config['POSTS_PER_PAGE'], False)\n next_url = url_for('main.index', page=posts.next_num) \\\n if posts.has_next else None\n prev_url = url_for('main.index', page=posts.prev_num) \\\n if posts.has_prev else None\n return render_template('index.html', title='Home', form=form,\n posts=posts.items, next_url=next_url,\n prev_url=prev_url)\n\n\[email protected]('/explore')\n@login_required\ndef explore():\n page = request.args.get('page', 1, type=int)\n posts = Post.query.order_by(Post.timestamp.desc()).paginate(\n page, current_app.config['POSTS_PER_PAGE'], False)\n next_url = url_for('main.explore', page=posts.next_num) \\\n if posts.has_next else None\n prev_url = url_for('main.explore', page=posts.prev_num) \\\n if posts.has_prev else None\n return render_template(\"index.html\", title='Explore', posts=posts.items,\n next_url=next_url, prev_url=prev_url)\n\n\[email protected]('/user/<username>')\n@login_required\ndef user(username):\n user = User.query.filter_by(username=username).first_or_404()\n page = request.args.get('page', 1, type=int)\n posts = user.posts.order_by(Post.timestamp.desc()).paginate(\n page, current_app.config['POSTS_PER_PAGE'], False)\n next_url = url_for('main.user', username=user.username, page=posts.next_num) \\\n if posts.has_next else None\n prev_url = url_for('main.user', username=user.username, page=posts.prev_num) \\\n if posts.has_prev else None\n return render_template('user.html', user=user, posts=posts.items,\n next_url=next_url, prev_url=prev_url)\n\n\n##Taken from https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-vi-profile-page-and-avatars\[email protected]('/edit_profile', methods=['GET', 'POST'])\n@login_required\ndef edit_profile():\n form = EditProfileForm(current_user.username)\n if form.validate_on_submit():\n current_user.username = form.username.data\n current_user.about_me = form.about_me.data\n db.session.commit()\n flash('Your changes have been saved.')\n return redirect(url_for('main.edit_profile'))\n elif request.method == 'GET':\n form.username.data = current_user.username\n form.about_me.data = current_user.about_me\n return render_template('edit_profile.html', title='Edit Profile',\n form=form)\n\n\n##Next two pulled from https://blog.miguelgrinberg.com/post/the-flask-mega-tutorial-part-viii-followers\[email protected]('/follow/<username>')\n@login_required\ndef follow(username):\n user = User.query.filter_by(username=username).first()\n if user is None:\n flash('User {} not found.'.format(username))\n return redirect(url_for('main.index'))\n if user == current_user:\n flash('You cannot follow yourself!')\n return redirect(url_for('main.user', username=username))\n current_user.follow(user)\n db.session.commit()\n flash('You are following {}!'.format(username))\n return redirect(url_for('main.user', username=username))\n\n\[email protected]('/unfollow/<username>')\n@login_required\ndef unfollow(username):\n user = User.query.filter_by(username=username).first()\n if user is None:\n flash('User {} not found.'.format(username))\n return redirect(url_for('main.index'))\n if user == current_user:\n flash('You cannot unfollow yourself!')\n return redirect(url_for('main.user', username=username))\n current_user.unfollow(user)\n db.session.commit()\n flash('You are not following {}.'.format(username))\n return redirect(url_for('main.user', username=username))\n\n\[email protected]('/search')\n@login_required\ndef search():\n if not g.search_form.validate():\n return redirect(url_for('main.explore'))\n page = request.args.get('page', 1, type=int)\n posts, total = Post.search(g.search_form.q.data, page,\n current_app.config['POSTS_PER_PAGE'])\n next_url = url_for('main.search', q=g.search_form.q.data, page=page + 1) \\\n if total > page * current_app.config['POSTS_PER_PAGE'] else None\n prev_url = url_for('main.search', q=g.search_form.q.data, page=page - 1) \\\n if page > 1 else None\n return render_template('search.html', title='Search', posts=posts,\n next_url=next_url, prev_url=prev_url)\n\n\[email protected]_app_request\ndef before_request():\n if current_user.is_authenticated:\n current_user.last_seen = datetime.utcnow()\n db.session.commit()\n g.search_form = SearchForm()" }, { "alpha_fraction": 0.44236961007118225, "alphanum_fraction": 0.44558918476104736, "avg_line_length": 34.318180084228516, "blob_id": "4f4b6a141c9e3edc0a413fb1931263bc845448e4", "content_id": "f08171dbce42b343fe58fad5abe04999ad86d430", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "HTML", "length_bytes": 1553, "license_type": "no_license", "max_line_length": 60, "num_lines": 44, "path": "/app/templates/auth/register_employee.html", "repo_name": "grbarker/Freyja", "src_encoding": "UTF-8", "text": "{% extends \"base.html\" %}\n\n{% block app_content %}\n <h1>Employee Register</h1>\n <form action=\"\" method=\"post\">\n {{ form.hidden_tag() }}\n <p>\n {{ form.employee_id.label }}<br>\n {{ form.employee_id(class=\"form-control\") }}<br>\n {% for error in form.employee_id.errors %}\n <span style=\"color: red;\">[{{ error }}]</span>\n {% endfor %}\n </p>\n <p>\n {{ form.lastname.label }}<br>\n {{ form.lastname(class=\"form-control\") }}<br>\n {% for error in form.lastname.errors %}\n <span style=\"color: red;\">[{{ error }}]</span>\n {% endfor %}\n </p>\n <p>\n {{ form.firstname.label }}<br>\n {{ form.firstname(class=\"form-control\") }}<br>\n {% for error in form.firstname.errors %}\n <span style=\"color: red;\">[{{ error }}]</span>\n {% endfor %}\n </p>\n <p>\n {{ form.password.label }}<br>\n {{ form.password(class=\"form-control\") }}<br>\n {% for error in form.password.errors %}\n <span style=\"color: red;\">[{{ error }}]</span>\n {% endfor %}\n </p>\n <p>\n {{ form.password2.label }}<br>\n {{ form.password2(class=\"form-control\") }}<br>\n {% for error in form.password2.errors %}\n <span style=\"color: red;\">[{{ error }}]</span>\n {% endfor %}\n </p>\n <p>{{ form.submit(class=\"btn btn-default\") }}</p>\n </form>\n{% endblock %}" } ]	23
BrimmStone127/CodeChallenges	https://github.com/BrimmStone127/CodeChallenges	6fc5ea3616572f6fde7365cd3f002dd4814bbc2a	bb92c8e8903ce4d4abbe5e3d9ed6d2acfc832027	a6a26fd8a219a71009b220461a4c6478f273ccf4	refs/heads/main	2023-03-10T10:21:21.333274	2021-02-16T21:31:43	2021-02-16T21:31:43	339,478,777	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.4639115333557129, "alphanum_fraction": 0.5034924149513245, "avg_line_length": 36.13333511352539, "blob_id": "20caaa1de1a07bc44d2a05689d6b2d98f4b6d8c8", "content_id": "433b592bfb8bd8692a2a6092b141a8db521b3d00", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1718, "license_type": "no_license", "max_line_length": 181, "num_lines": 45, "path": "/Hazel/tests/test_valid_inspection_01.py", "repo_name": "BrimmStone127/CodeChallenges", "src_encoding": "UTF-8", "text": "import requests\r\n\r\ndef test_post():\r\n sent_data = {\r\n \"inspection_id\": 34078,\r\n \"inspection_date\": \"2018-06-02\",\r\n \"score\": 88,\r\n \"comments\": \"Discussed employee illness policy with PIC. Discussed clean up procedures with PIC.\",\r\n \"violations\": [{\r\n \"violation_id\": 1004,\r\n \"is_critical\": True,\r\n \"code\": \"5\",\r\n \"description\": \"Hands clean and properly washed\",\r\n \"comments\": \"Observed BOH employee handle raw chicken, rinse hands w/ water only, then handle non-food-contact surfaces and money. Corrected on site with notice to PIC.\"\r\n }, {\r\n \"violation_id\": 1005,\r\n \"is_critical\": True,\r\n \"code\": \"6\",\r\n \"description\": \"Proper hot holding temperatures\",\r\n \"comments\": \"Chicken @145f, beef @138f\"\r\n }, {\r\n \"violation_id\": 1006,\r\n \"is_critical\": False,\r\n \"code\": \"27\",\r\n \"description\": \"Gloves used properly\",\r\n \"comments\": \"\"\r\n }, {\r\n \"violation_id\": 1007,\r\n \"is_critical\": True,\r\n \"code\": \"8\",\r\n \"description\": \"Toxic substances properly identified, stored, and used\",\r\n \"comments\": \"Sanitizer stored above produce (COS)\"\r\n }],\r\n \"restaurant\": {\r\n \"restaurant_id\": 201,\r\n \"name\": \"SKINNER'S DINNERS\",\r\n \"street_address\": \"3325-A SKINNER HOLLOW RD\",\r\n \"city\": \"HAINES\",\r\n \"state\": \"OR\",\r\n \"postal_code\": \"97833\"\r\n }\r\n }\r\n\r\n response = requests.post('http://127.0.0.1:5000/api/v1/inspections/post', json=sent_data)\r\n assert response.status_code == 200\r\n\r\n" }, { "alpha_fraction": 0.7152009606361389, "alphanum_fraction": 0.73238205909729, "avg_line_length": 45, "blob_id": "6c46c1754de155fcd8ce8b1ff78c536eb574186a", "content_id": "9061577ade74b7eef0b737bcd3d66b7947f235e5", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 3434, "license_type": "no_license", "max_line_length": 254, "num_lines": 73, "path": "/Blue_Onion_Technical/README.txt", "repo_name": "BrimmStone127/CodeChallenges", "src_encoding": "UTF-8", "text": "[spacexdata.com](https://docs.spacexdata.com/) provides an API to query attributes about SpaceX launches (https://github.com/r-spacex/SpaceX-API/blob/master/docs/v4/README.md). For this exercise we are going to be working with one resource in particular:\r\n- The [Starlink Schema](https://github.com/r-spacex/SpaceX-API/blob/master/docs/v4/starlink/schema.md)\r\n\r\nFor this exercise, no need to pull directly from the API as we have a pull of historical data here in this repo in the starlink_historical_data.json\r\n\r\n## The Problem:\r\nWe want to be achieve a few goals:\r\n - To import the SpaceX Satellite data _as a time series_ into a database\r\n - To be able to query the data to determine the last known latitude/longitude of the satellite for a given time\r\n\r\n## The Task (Part 1):\r\n\r\nStand up your favorite kind of database (and ideally it would be in a form that would be runnable by us, via something like docker-compose).\r\n\r\n## The Task (Part 2):\r\n\r\nWrite a script (in whatever language that you prefer, though Ruby, Python, or Javascript would be ideal for us) to import the relevant fields in starlink_historical_data.json as a time series. The relevant fields are:\r\n - spaceTrack.creation_date (represents the time that the lat/lon records were recorded)\r\n - longitude\r\n - latitude\r\n - id (this is the starlink satellite id)\r\nAgain, the goal is that we want to be able to query the database for the last known position for a given starlink satellite.\r\nDon't hesitate to use any tools/tricks you know to load data quickly and easily!\r\n\r\n## The Task (Part 3):\r\n\r\nWrite a query to fetch the the last known position of a satellite (by id), given a time T. Include this query in your README or somewhere in the project submission\r\n\r\n## Bonus Task (Part 4):\r\n\r\nWrite some logic (via a combination of query + application logic, most likely) to fetch from the database the _closest_ satellite at a given time T, and a given a position on a globe as a (latitude, longitude) coordinate.\r\n\r\nNo need to derive any fancy match for distances for a point on the globe to a position above the earth. You can just use the Haversine formula. Example libraries to help here:\r\n\r\nFor Python: https://github.com/mapado/haversine\r\n\r\nFor Ruby: https://github.com/kristianmandrup/haversine\r\n\r\n\r\n\r\nTO RUN\r\n\r\nRequirements\r\n- Python3\r\n- psycopg2\r\n- Docker\r\n\r\n1. Pull Postgres Docker image\r\ndocker pull postgres\r\n\r\n2. Setup postgres database named dev-postgres to run locally on port 5432\r\ndocker run -d --name dev-postgres -p 5432:5432 -e POSTGRES_PASSWORD=admin123 postgres\r\n\r\n3. Open the instances bash shell and then connect to the database using psql\r\ndocker exec -it dev-postgres bash\r\npsql -h localhost -U postgres\r\n\r\n4. Using the psql shell, create a table named starlink to store all of our data\r\nCREATE TABLE starlink (id serial PRIMARY KEY, creation_date TIMESTAMP, satellite_id VARCHAR(50), longitude INT, latitude INT);\r\n\r\n5. Run the python script starlink.py to parse the starlink historical data and insert it into the starlink db.\r\npython startlink.py\r\n\r\n6. Using the psql terminal again, use this query to find the long and lat of a specific satellite at a given time\r\nSELECT longitude, latitude FROM starlink WHERE satellite_id = '60106f1fe900d60006e32cb2' AND creation_date = '2020-08-19 06:26:10';\r\n\r\n\r\n (__) (Have a nice day!) \r\n (oo) \r\n /-------\\/ \r\n / \| \|\|\r\n* \|\|----\|\|\r\n ^^ ^^ \r\n" }, { "alpha_fraction": 0.45668134093284607, "alphanum_fraction": 0.5110132098197937, "avg_line_length": 30.33333396911621, "blob_id": "f5e684ee6e05111cd1bb2ecaa62c4df59ab0fe8b", "content_id": "1d84431564efb0e3e8a62cb35519a41f0ed00c68", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 681, "license_type": "no_license", "max_line_length": 102, "num_lines": 21, "path": "/Hazel/tests/test_valid_inspection_02.py", "repo_name": "BrimmStone127/CodeChallenges", "src_encoding": "UTF-8", "text": "import requests\r\n\r\ndef test_post():\r\n sent_data = {\r\n \"inspection_id\": 59980,\r\n \"inspection_date\": \"2019-10-28\",\r\n \"score\": 100,\r\n \"comments\": \"No issues noted at time of inspection. License delivered at time of inspection.\",\r\n \"violations\": [],\r\n \"restaurant\": {\r\n \"restaurant_id\": 378,\r\n \"name\": \"Duke of Yorkshire Pub \",\r\n \"street_address\": \"2536 Yorkshire Circle\",\r\n \"city\": \"Wilson\",\r\n \"state\": \"NC\",\r\n \"postal_code\": \"\"\r\n }\r\n }\r\n\r\n response = requests.post('http://127.0.0.1:5000/api/v1/inspections/post', json=sent_data)\r\n assert response.status_code == 200\r\n\r\n" }, { "alpha_fraction": 0.42222222685813904, "alphanum_fraction": 0.644444465637207, "avg_line_length": 13.666666984558105, "blob_id": "61f2a2b3f2b16b7868be0fcfb2840208af1d5ca7", "content_id": "899bdff2b221b6ae05c0ddb0d55facb79f2a8d27", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 45, "license_type": "no_license", "max_line_length": 16, "num_lines": 3, "path": "/Hazel/requirements.txt", "repo_name": "BrimmStone127/CodeChallenges", "src_encoding": "UTF-8", "text": "flask==1.1.2\r\nrequests==2.25.0\r\npytest==6.1.2" }, { "alpha_fraction": 0.41322314739227295, "alphanum_fraction": 0.4573002755641937, "avg_line_length": 26.959999084472656, "blob_id": "7bc29aff7ca3fd0c912d1b4cd343058f5b630567", "content_id": "791bdd74a052f0ae1ed7ae57db92893baf33ab1d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 726, "license_type": "no_license", "max_line_length": 93, "num_lines": 25, "path": "/Hazel/tests/test_invalid_inspection_03.py", "repo_name": "BrimmStone127/CodeChallenges", "src_encoding": "UTF-8", "text": "import requests\r\n\r\ndef test_post():\r\n sent_data = {\r\n \"inspection_id\": 34078,\r\n \"score\": -1,\r\n \"comments\": \"multiple types of invalid behavior\",\r\n \"violations\": [{\r\n \"is_critical\": \"true\",\r\n \"code\": \"5\",\r\n \"description\": None,\r\n \"comments\": \"\"\r\n }],\r\n \"restaurant\": {\r\n \"restaurantID\": 201,\r\n \"name\": \"\",\r\n \"street_address\": \"SKINNER HOLLOW RD\",\r\n \"city\": \"HAINES\",\r\n \"state\": \"ORR\",\r\n \"postal_code\": \"97833-022\"\r\n }\r\n }\r\n\r\n response = requests.post('http://127.0.0.1:5000/api/v1/inspections/post', json=sent_data)\r\n assert response.status_code == 400\r\n\r\n" }, { "alpha_fraction": 0.4472680985927582, "alphanum_fraction": 0.5908513069152832, "avg_line_length": 22.65625, "blob_id": "60ddfcb9984a52bda90770aab0dc9f3ba3cfdb54", "content_id": "c93bd49772c2ea272c4f0b3c57fddfc63c33dd56", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 787, "license_type": "no_license", "max_line_length": 114, "num_lines": 32, "path": "/DF/DefenseStorm.py", "repo_name": "BrimmStone127/CodeChallenges", "src_encoding": "UTF-8", "text": "'''\r\nGiven the following log file structure:\r\n\r\n2020-09-29T01:59:14.214Z key5=15,key4=11,hello=1\r\n2020-09-29T02:00:31.011Z key3=22,key4=33,key5=16\r\n\r\nSum the values by key. So the expected result is: \r\n\r\nhello=1\r\nkey3=22\r\nkey4=44\r\nkey5=31\r\n'''\r\nlog_arr = [\"2020-09-29T01:59:14.214Z key5=15,key4=11,hello=1\", \"2020-09-29T02:00:31.011Z key3=22,key4=33,key5=16\"]\r\nunique_keys = {}\r\n\r\nfor x in log_arr:\r\n key = x.split(\" \")\r\n info = key[1]\r\n keys = info.split(\",\")\r\n\r\n for y in keys:\r\n entry = y.split(\"=\")\r\n key_name = entry[0]\r\n key_value = entry[1]\r\n\r\n if key_name in unique_keys:\r\n unique_keys[key_name] += int(key_value)\r\n if key_name not in unique_keys:\r\n unique_keys[key_name] = int(key_value)\r\n\r\nprint(unique_keys)" }, { "alpha_fraction": 0.429983526468277, "alphanum_fraction": 0.4975288212299347, "avg_line_length": 28.25, "blob_id": "ab9e9d0b70369d78f549464d91f5b4c65d40582c", "content_id": "c5a5c6285c38b43adcc16cae3e7735479db906c1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 607, "license_type": "no_license", "max_line_length": 93, "num_lines": 20, "path": "/Hazel/tests/test_invalid_inspection_02.py", "repo_name": "BrimmStone127/CodeChallenges", "src_encoding": "UTF-8", "text": "import requests\r\n\r\ndef test_post():\r\n sent_data = {\r\n \"inspection_id\": 34078,\r\n \"inspection_date\": \"2018-06-02\",\r\n \"score\": 94,\r\n \"comments\": \"violations array must exist\",\r\n \"restaurant\": {\r\n \"restaurant_id\": 201,\r\n \"name\": \"SKINNER'S DINNERS\",\r\n \"street_address\": \"3325-A SKINNER HOLLOW RD\",\r\n \"city\": \"HAINES\",\r\n \"state\": \"OR\",\r\n \"postal_code\": \"97833\"\r\n }\r\n }\r\n\r\n response = requests.post('http://127.0.0.1:5000/api/v1/inspections/post', json=sent_data)\r\n assert response.status_code == 400\r\n\r\n" }, { "alpha_fraction": 0.8545454740524292, "alphanum_fraction": 0.8545454740524292, "avg_line_length": 26.5, "blob_id": "fb5102ae696b1440a0c9bb654c2fbf27987b1905", "content_id": "8579f21da1904579abe95316452403b137004664", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 55, "license_type": "no_license", "max_line_length": 37, "num_lines": 2, "path": "/README.md", "repo_name": "BrimmStone127/CodeChallenges", "src_encoding": "UTF-8", "text": "# CodeChallenges\nRepository of Various Code Challenges\n" }, { "alpha_fraction": 0.3935091197490692, "alphanum_fraction": 0.44219067692756653, "avg_line_length": 27.81818199157715, "blob_id": "8105651bed2007f5f9cff182e46a40b2d466db81", "content_id": "298b69eb0a96aff9a993fef84282d139a972bead", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 986, "license_type": "no_license", "max_line_length": 93, "num_lines": 33, "path": "/Hazel/tests/test_valid_inspection_03.py", "repo_name": "BrimmStone127/CodeChallenges", "src_encoding": "UTF-8", "text": "import requests\r\n\r\ndef test_post():\r\n sent_data = {\r\n \"inspection_id\": 193875,\r\n \"inspection_date\": \"2020-01-15\",\r\n \"score\": 99,\r\n \"comments\": \"\",\r\n \"type\": \"routine\",\r\n \"violations\": [{\r\n \"violation_id\": 4981,\r\n \"is_critical\": False,\r\n \"is_repeat\": False,\r\n \"is_corrected_on_site\": True,\r\n \"code\": \"25\",\r\n \"description\": \"Personal cleanliness\",\r\n \"comments\": \"\"\r\n }],\r\n \"restaurant\": {\r\n \"restaurant_id\": 201,\r\n \"details\": {\r\n \"cuisine_type\": \"fast casual\"\r\n },\r\n \"name\": \"SKINNER'S DINNERS\",\r\n \"street_address\": \"3325-A SKINNER HOLLOW RD\",\r\n \"city\": \"HAINES\",\r\n \"state\": \"OR\",\r\n \"postal_code\": \"97833\"\r\n }\r\n }\r\n\r\n response = requests.post('http://127.0.0.1:5000/api/v1/inspections/post', json=sent_data)\r\n assert response.status_code == 200\r\n\r\n" }, { "alpha_fraction": 0.61574786901474, "alphanum_fraction": 0.6227127909660339, "avg_line_length": 45.87005615234375, "blob_id": "80509914f5fc28c0c6e94c0c992eff50bb7b995c", "content_id": "9a4cbf75083c1192f221e105b5ebfbd1a13c9345", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8471, "license_type": "no_license", "max_line_length": 149, "num_lines": 177, "path": "/Hazel/api.py", "repo_name": "BrimmStone127/CodeChallenges", "src_encoding": "UTF-8", "text": "import flask\r\nfrom flask import request, jsonify\r\nimport json\r\nimport datetime\r\nimport os.path\r\nfrom os import path\r\nimport re\r\n\r\n# 11/15/2020 Hazel Analytics Code Challenge\r\n# Author: Clay Brimm\r\n# REQUIREMENTS: \r\n# [X] Receive a JSON payload representing a public health inspection at a restaurant. The payload should be validated, then stored if valid. Whether\r\n# the payload is valid or invalid, an appropriate response should be returned.\r\n# [X] Given an inspection ID, return the associated record.\r\n# [X] [If time permits] Given a restaurant ID, return a summary of its inspection history based on all stored inspections. The summary should contain\r\n# dates and IDs of the restaurant's inspections, the average inspection score, and the average number of violations per inspection\r\n# [X] In addition to these endpoints, write basic unit tests that support your validation logic.\r\n\r\n# This application was made with Python 3.9.0 and Python Flask 1.1.2\r\n\r\n# Records are saved in a json object stored in a text file named data.txt. When first running the application the data.txt file should be \r\n# automatically created. \r\n\r\napp = flask.Flask(__name__)\r\napp.config[\"DEBUG\"] = True\r\n\r\n# Check to make sure data.txt exists\r\nif(not path.exists('data.txt')):\r\n # If data.txt does not exist: create it with an empty inspections array\r\n new_data = {}\r\n new_data['inspections'] = []\r\n with open('data.txt', 'w') as outfile:\r\n json.dump(new_data, outfile)\r\n\r\n# This is the GET endpoint for the restaurant summary. It should accept a restaurant_id argument and then go through the stored JSON file\r\n# and return all inspection IDs and inspection dates that have a matching restaurant_id, it will also return the restaurant's average \r\n# inspection score and the average violations per inspection\r\[email protected]('/api/v1/restaurant/summary', methods=['GET'])\r\ndef get_restaurant_summary():\r\n if 'restaurant_id' in request.args:\r\n with open('data.txt') as json_file:\r\n stored_data = json.load(json_file)\r\n arg_id = int(request.args['restaurant_id'])\r\n summary_string = 'Restaurant Summary: '\r\n inspection_ids = []\r\n inspection_dates = []\r\n inspection_count = 0\r\n inspection_score_sum = 0\r\n violation_sum = 0\r\n for p in stored_data['inspections']:\r\n if(p['restaurant']['restaurant_id'] == arg_id):\r\n inspection_count += 1\r\n inspection_score_sum += int(p['score'])\r\n violation_sum += len(p['violations'])\r\n inspection_ids.append(str(p['inspection_id']))\r\n inspection_dates.append(str(p['inspection_date']))\r\n if(inspection_count > 0):\r\n inspection_score_avg = str(inspection_score_sum / inspection_count)\r\n violation_avg = str(violation_sum / inspection_count)\r\n summary = {\r\n \"inspection_ids\":inspection_ids,\r\n \"inspection_dates\":inspection_dates,\r\n \"inspection_score_average\": inspection_score_avg,\r\n \"violations_average\": violation_avg\r\n }\r\n return(summary)\r\n else:\r\n error_msg = {'request_status'}\r\n return({'Error': 'There are no inspections with that restaurant_id'}, 400)\r\n\r\n# GET method that returns the associated method to the given inspection_id\r\[email protected]('/api/v1/inspections/get', methods=['GET'])\r\ndef get_inspection():\r\n if 'inspection_id' in request.args:\r\n with open('data.txt') as json_file:\r\n stored_data = json.load(json_file)\r\n arg_id = int(request.args['inspection_id'])\r\n for p in stored_data['inspections']:\r\n if(p['inspection_id'] == arg_id):\r\n return(str(p))\r\n return({'error': 'given inspection_id does not exist'}, 400)\r\n else:\r\n error_msg = {'error': 'inspection_id not provided. Please provide an inspection_id in the arguments of the GET request.'}\r\n return (error_msg, 400)\r\n\r\n# POST method that will take in a inspection json and validate it and if valid will store it in data.txt.\r\[email protected]('/api/v1/inspections/post', methods=['POST'])\r\ndef inspection_post():\r\n req_data = request.get_json()\r\n # validate_json will return an array of errors\r\n error_array = validate_json(req_data)\r\n\r\n # If there are no errors then write to data.txt and return a success message\r\n if not error_array:\r\n with open('data.txt') as json_file:\r\n data = json.load(json_file)\r\n temp = data['inspections']\r\n temp.append(req_data)\r\n write_json(data)\r\n return({'success':'JSON successfully posted'},200)\r\n else:\r\n error_json = {'errors': error_array}\r\n return(error_json, 400)\r\n\r\n# This separate function will take in the posted json and validate it based off the requirements I gathered from the example valid\r\n# and invalid inspections. \r\ndef validate_json(json_data):\r\n req_data = json_data\r\n error_array = []\r\n\r\n try:\r\n # From looking through the given invalid inspections, these variables should represent what I believe to be the required \r\n # fields for a post to be valid. The try-except will look for a key error to make sure all necessary fields exist.\r\n inspection_id = req_data['inspection_id']\r\n inspection_date = req_data['inspection_date']\r\n score = req_data['score']\r\n comments = req_data['comments']\r\n violations = req_data['violations']\r\n restaurant = req_data['restaurant']\r\n state = restaurant['state']\r\n city = restaurant['city']\r\n street_address = restaurant['street_address']\r\n postal_code = restaurant['postal_code']\r\n\r\n # Iterate over stored data to see if the new inspection_id already exists\r\n with open('data.txt') as json_file:\r\n stored_data = json.load(json_file)\r\n for p in stored_data['inspections']:\r\n if(p['inspection_id'] == inspection_id):\r\n error_array.append('inspection_id already exists') \r\n\r\n # Try - Except that will check if the date is formatted to YYYY-MM-DD\r\n try:\r\n inspection_datetime = datetime.datetime.strptime(inspection_date, '%Y-%m-%d')\r\n current_datetime = datetime.datetime.now()\r\n # Check to make sure the inspection date is not greater then the current datetime\r\n if(inspection_datetime > current_datetime):\r\n error_array.append('inspection_date is not possible')\r\n except ValueError:\r\n error_array.append( 'inspection_date needs to be formatted YYYY-MM-DD')\r\n\r\n # Check that the score is in between 0-100\r\n if(score < 0 or score > 100):\r\n error_array.append('Inspection score must be 0-100')\r\n\r\n #Check if state has a length of 2 and is only made of letters (this should be faster then a regex)\r\n if(len(state) != 2 and state.isalpha() != True):\r\n error_array.append('Restaurant state needs to abbreviated to two characters')\r\n\r\n #Regex to check for 4 digit house number with optional apartment number or letters followed by street name\r\n address_regex = re.compile(r'\\d{1,4}(-\\w+)?\\s.')\r\n match_object = address_regex.match(street_address)\r\n if(not match_object):\r\n error_array.append('Street Address is not formatted properly')\r\n\r\n #Regex to check city name\r\n city_regex = re.compile(r'^[a-zA-Z]+(?:[\\s-][a-zA-Z]+)$')\r\n match_object = city_regex.match(city)\r\n if(not match_object or len(city) < 2):\r\n error_array.append('City name is not formatted properly')\r\n\r\n #Postal code is not required but if it is given it should be 5 digits\r\n if(len(postal_code) != 5 and len(postal_code) != 0):\r\n error_array.append('Postal code must be 5 digits long')\r\n\r\n #Key error should catch any required json fields that are missing\r\n except KeyError as e:\r\n error_array.append('Required key is missing: \"%s\"' % str(e))\r\n \r\n return error_array\r\n\r\n# Function to write to the stored data - data.txt\r\ndef write_json(data):\r\n with open('data.txt', 'w') as outfile:\r\n json.dump(data, outfile)\r\n\r\napp.run()" }, { "alpha_fraction": 0.41776710748672485, "alphanum_fraction": 0.4717887043952942, "avg_line_length": 28.77777862548828, "blob_id": "5f26d9a820235c5e69dafae003a17f0986dcb08b", "content_id": "af147b66dd3b57d9e737a92b48c5998a09631ac4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 833, "license_type": "no_license", "max_line_length": 93, "num_lines": 27, "path": "/Hazel/tests/test_invalid_inspection_04.py", "repo_name": "BrimmStone127/CodeChallenges", "src_encoding": "UTF-8", "text": "import requests\r\n\r\ndef test_post():\r\n sent_data = {\r\n \"inspection_id\": 34078,\r\n \"inspection_date\": \"2018-06-02\",\r\n \"score\": 94,\r\n \"comments\": \"restaurant address components must be well-formed\",\r\n \"violations\": [{\r\n \"violation_id\": 1004,\r\n \"is_critical\": True,\r\n \"code\": \"5\",\r\n \"description\": \"Hands clean and properly washed\",\r\n \"comments\": \"\"\r\n }],\r\n \"restaurant\": {\r\n \"restaurant_id\": 201,\r\n \"name\": \"SKINNER'S DINNERS\",\r\n \"street_address\": \"3325-A\",\r\n \"city\": \"\",\r\n \"state\": \"OREGON\",\r\n \"postal_code\": \"9783\"\r\n }\r\n }\r\n\r\n response = requests.post('http://127.0.0.1:5000/api/v1/inspections/post', json=sent_data)\r\n assert response.status_code == 400\r\n\r\n" }, { "alpha_fraction": 0.5729089379310608, "alphanum_fraction": 0.5780903100967407, "avg_line_length": 28.066667556762695, "blob_id": "2a4fa279e33daf890dced2641520b2bfe371176f", "content_id": "9229b43ab7b2fdd3c82be44ab59763dfd23b6c73", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1351, "license_type": "no_license", "max_line_length": 114, "num_lines": 45, "path": "/Blue_Onion_Technical/starlink.py", "repo_name": "BrimmStone127/CodeChallenges", "src_encoding": "UTF-8", "text": "import psycopg2\r\nimport json\r\n\r\ndef main():\r\n print('Welcome to starlink.py')\r\n print('Parsing JSON File: starlink_historical_data.json...')\r\n starlink_data = parse_json()\r\n print('Parsing Complete.')\r\n sql_insert(starlink_data)\r\n\r\ndef parse_json():\r\n relevant_fields = []\r\n with open('./starlink_historical_data.json') as f:\r\n data = json.load(f)\r\n for i in data:\r\n satellite_id = i['id']\r\n creation_date = i['spaceTrack']['CREATION_DATE']\r\n latitude = i['latitude']\r\n longitude = i['longitude']\r\n entry_arr = [creation_date, satellite_id, latitude, longitude]\r\n relevant_fields.append(entry_arr)\r\n #print(relevant_fields)\r\n return relevant_fields\r\n \r\ndef sql_insert(data_arr):\r\n\r\n conn = psycopg2.connect(\r\n host=\"localhost\",\r\n database=\"postgres\",\r\n user=\"postgres\",\r\n password=\"admin123\")\r\n\r\n cur = conn.cursor()\r\n insert_sql = 'INSERT INTO starlink (creation_date, satellite_id, latitude, longitude) VALUES (%s, %s, %s, %s)'\r\n\r\n for entry in data_arr:\r\n try:\r\n data = (entry[0], entry[1], entry[2], entry[3])\r\n cur.execute(insert_sql, data)\r\n except (Exception, psycopg2.Error) as error:\r\n print(error.pgerror)\r\n conn.commit()\r\n\r\nif __name__ == \"__main__\":\r\n main()" } ]	12
keflavich/star-forming-regions	https://github.com/keflavich/star-forming-regions	0e4c56cad98c798b411716fa8f69921519273621	2d17d205efccf1103ad6e108a5d304102591e12c	da7a3bfb0d2e82baa427aa2056e92aed2231f836	refs/heads/master	2020-03-12T18:44:04.800452	2018-03-22T07:00:36	2018-03-22T07:00:36	130,768,069	1	0	null	null	null	null	null	[ { "alpha_fraction": 0.5939120650291443, "alphanum_fraction": 0.6122735142707825, "avg_line_length": 36.17233657836914, "blob_id": "ae6853446ba17693ad6a6faed47e90f70b06d78e", "content_id": "4dd3838fba755be90d075f9df4910340f7aa4bc4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 16393, "license_type": "no_license", "max_line_length": 369, "num_lines": 441, "path": "/README.md", "repo_name": "keflavich/star-forming-regions", "src_encoding": "UTF-8", "text": "# star-forming-regions\n\nAbout \"Name\"\n------------\n\n\"Name\" is a star-forming-region(s) modelling package that brings together analytical physical models from different authors (Ulrich, Keto, Pringle, Whitney) to compute density, velocity, temperature, abundance and gas-to-dust ratio 3D distributions.\n\n\"Name\" makes it possible to construct diverse distributions by mixing the available standard models within it. However, new models can be added to the package if needed. Users willing to contribute and nourish the package with new models are very welcome!\n\nIn addition, \"Name\" can couple different star forming regions together to recreate complex star forming systems as those being revealed by recent telescopes and interferometers. This feature was quite used by Izquierdo et al, 2018 to model the complex star forming system W33A MM1.\n\nWe made the \"Name\" output data to be compatible with [LIME](https://github.com/lime-rt/lime): To simulate real observations you need first to perform radiative transfer calculations and LIME does this for you in far-infrared and (sub-)millimeter wavelength.\n\nInstallation process\n--------------------\n\nDownload the package folder and place it in your prefered location :open_file_folder:. Then, modify the Python Module Search Path in your shell startup file as follows:\n\n#### for Bash shell (sh):\n\nIn your startup file (`~/.bash_profile` , `~/.bash_login` or `~/.bashrc` [Linux users], and `~/.profile` [Mac OS users]) include:\n\n```bash\nexport PYTHONPATH=${PYTHONPATH}:/path/to/package\n```\n\n#### for C Shell (csh; tcsh):\n\nIn your startup file (`~/.cshrc` , `~/.tcshrc` or `~/.login`) include:\n\n```csh\nsetenv PYTHONPATH $PYTHONPATH\\:/path/to/package\n```\n\n### External required packages\n\n* [Matplotlib](https://matplotlib.org/users/installing.html)\n* [Numpy](https://www.scipy.org/install.html)\n* [Pandas](http://pandas.pydata.org/pandas-docs/stable/install.html) :panda_face:\n* [Astropy](http://docs.astropy.org/en/stable/install.html) (optional, but recommended)\n* [IPython](https://ipython.org/install.html) (optional, but recommended)\n\n\nExamples\n--------\n\nIn this section I will show some examples to illustrate the main features of the package. Detailed information about modules, functions and parameters of specific models can be found in the help page of the package. For example, to see the help of the module `Model` and its function `density_Ulrich`, type in your Python or IPython Command-Line the following commands:\n\n```python\n>>> import Model\n>>> help(Model)\n>>> help(Model.density_Ulrich)\n```\n\n## Modelling a single star forming region :high_brightness:\n\n:large_blue_circle: Example 1. Creating a massive star forming region (with Ulrich envelope + Pringle disc):\n```python\n#-----------------\n#Package libraries\n#-----------------\nimport Model\nimport Resolution as Res\nimport Plot_model\nimport Utils as U #Module with useful units\n#-----------------\n#Extra libraries\n#-----------------\nimport numpy as np\nimport os\nimport time\n```\na. Define general parameters :page_with_curl::\n```python\nMStar = 7.0 * U.MSun\nMRate = 4e-4 * U.MSun_yr #Mass accretion rate \nRStar = 26 * U.RSun * ( MStar/U.MSun )*0.27 ( MRate / (1e-3U.MSun_yr) )0.41 \nLStar = 3.2e4 U.LSun\nTStar = U.TSun * ( (LStar/U.LSun) / (RStar/U.RSun)2 )0.25 \nRd = 152. * U.AU #Centrifugal radius \n```\n\nb. Create the grid that will host the region :house_with_garden::\n```python\n# Cubic grid, each edge ranges [-500, 500] AU.\n\nsizex = sizey = sizez = 500 * U.AU\nNx = Ny = Nz = 150 #Number of divisions for each axis\nGRID = Model.grid([sizex, sizey, sizez], [Nx, Ny, Nz])\nNPoints = GRID.NPoints #Number of nodes in the grid\n```\n\nc. Invoke the physical properties from a desired model(s) :pager::\n```python\n#--------\n#DENSITY\n#--------\nRho0 = Res.Rho0(MRate, Rd, MStar) #Base density for Ulrich model\nArho = 24.1 #Disc-envelope density factor\nRenv = 500 * U.AU #Envelope radius\nCavity = 40 * np.pi/180 #Cavity opening angle\ndensity = Model.density_Ulrich(RStar, Rd, Rho0, Arho, GRID, discFlag = True, envFlag = True,\n renv_max = Renv, ang_cavity = Cavity)\n\n#-----------\n#TEMPERATURE\n#-----------\nT10Env = 375. #Envelope temperature at 10 AU \nBT = 5. #Adjustable factor for disc temperature. Extra, or less, disc heating.\ntemperature = Model.temperature_Keto(TStar, Rd, T10Env, RStar, MStar, MRate, BT, density, GRID,\n ang_cavity = Cavity)\n\n#--------\n#VELOCITY\n#--------\nvel = Model.velocity_Ulrich(RStar, MStar, Rd, density, GRID)\n\n#-------------------------------\n#ABUNDANCE and GAS-to-DUST RATIO\n#-------------------------------\nab0 = 1.8e-7 #CH3CN abundance \nabundance = Model.abundance(ab0, NPoints) #Constant abundance\n\ngtd0 = 100. #Gas to dust ratio\ngtdratio = Model.gastodust(gtd0, NPoints) #Constant gtd ratio\n```\n\nd. Write the data into a file :memo::\n```python\n#-----------------------------\n#WRITING DATA with LIME format\n#-----------------------------\nModel.DataTab_LIME(density.total, temperature.total, vel, abundance, gtdratio, GRID)\n```\n\ne. Plot the results :fireworks::\n```python\n#------------------------------------\n#3D PLOTTING (weighting with density)\n#------------------------------------\ntag = 'Main'\nweight = 10Rho0\nr = GRID.rRTP[0] / U.AU #GRID.rRTP hosts [r, R, Theta, Phi] --> Polar GRID\nPlot_model.scatter3D(GRID, density.total, weight, NRand = 4000, colordim = r, axisunit = U.AU,\n\t palette = 'jet', colorscale = 'log', colorlabel = r'${\\rm log}_{10}(r [au])$',\n\t\t output = 'Points%s.png'%tag, show = True)\n\n#-------------------------------------\n#2D Plotting (density and temperature)\n#-------------------------------------\n\n#FACE-ON and EDGE-ON profiles:\n\n#Density: colormap\n#Temperature: contours\n\nPlot_model.profile2D(GRID.XYZ, density.total, contours = temperature.total, unit=U.AU,\n palette='jet', output = 'density_profiles.png', tag = 'Main', show = True)\n```\n\nThe resulting 3D distribution and 2D profiles:\n\n\n<p align=\"left\">\n <img src=\"/images/totalPointsMain.png\" width=\"500\"/>\n <img src=\"/images/Density_Temp_Main.png\" width=\"250\"/>\n</p>\n\nEdge-on and Face-on 3D distribution:\n\n<p align=\"center\">\n <img src=\"/images/totalPointsMain_a.png\" width=\"420\"/>\n <img src=\"/images/totalPointsMain_b.png\" width=\"420\"/>\n</p>\n\n<br>\n\n:large_blue_circle: Example 2.* Creating a low-mass star forming region with a composite model for the density (Envelope: Ulrich density + Disc: Burger density :hamburger:) and a different model for the temperature.\n\na. The general parameters :page_with_curl::\n```python\nMStar = 0.86 * U.MSun\nMRate = 5.e-6 * U.MSun_yr\nRStar = U.RSun * ( MStar/U.MSun )*0.8\nLStar = U.LSun ( MStar/U.MSun )*4\nTStar = U.TSun ( (LStar/U.LSun) / (RStar/U.RSun)2 )0.25\nRd = 264. * U.AU\n```\n\nb. The grid :house_with_garden::\n```python\n# Cubic grid, each edge ranges [-500, 500] AU.\n\nsizex = sizey = sizez = 500 * U.AU\nNx = Ny = Nz = 200 #Number of divisions for each axis\nGRID = Model.grid([sizex, sizey, sizez], [Nx, Ny, Nz])\nNPoints = GRID.NPoints #Number of nodes in the grid\n```\n\nc. The physical properties :pager:. Note how the final density Structure should be defined joining both, the envelope density and the disc density that were calculated separately from 2 different models:\n```python\n#-------------\n#DENSITY\n#-------------\n\n#--------\n#ENVELOPE\n#--------\nRho0 = Res.Rho0(MRate, Rd, MStar)\nArho = None\nRenv = 2.5 * Rd\ndensEnv = Model.density_Ulrich(RStar, Rd, Rho0, Arho, GRID, discFlag = False, envFlag = True,\n renv_max = Renv)\n#-------\n#DISC\n#-------\nH0sf = 0.03 #Disc scale height factor (H0 = 0.03 * RStar)\nArho = 5.25\nRdisc = 1.5 * Rd\ndensDisc = Model.density_Hamburgers(RStar, H0sf, Rd, Rho0, Arho, GRID, discFlag = True, envFlag = False,\n rdisc_max = Rdisc)\n#---------------------\n#The COMPOSITE DENSITY\n#---------------------\ndensity = Model.Struct( { 'total': densEnv.total + densDisc.total,\n 'disc': densDisc.total,\n 'env': densEnv.total,\n 'discFlag': True,\n 'envFlag': True,\n 'r_disc': densDisc.r_disc,\n 'r_env': densEnv.r_env,\n 'streamline': densEnv.streamline} )\n\n#-----------\n#TEMPERATURE\n#-----------\nT10Env = 250. #Envelope temperature at 10 AU\nTmin = 10. #Minimum possible temperature. Every node with T<Tmin will inherit Tmin.\nBT = 60. #Adjustable factor for disc temperature. Extra, or less, disc heating.\ntemperature = Model.temperature_Hamburgers(TStar, RStar, MStar, MRate, Rd, T10Env, H0sf, Tmin,\n BT, None, density, GRID, inverted = False)\n\n#--------\n#VELOCITY\n#--------\nvel = Model.velocity(RStar, MStar, Rd, density, GRID)\n\n#-------------------------------\n#ABUNDANCE and GAS-to-DUST RATIO\n#-------------------------------\nab0 = 5e-8 #CH3CN abundance vs H2\nabundance = Model.abundance(ab0, NPoints)\n\ngtd0 = 100. #Gas to dust ratio (H2 vs Dust)\ngtdratio = Model.gastodust(gtd0, NPoints)\n```\n\nd. Write the data into a file :memo::\n```python\n#-----------------------------\n#WRITING DATA with LIME format\n#-----------------------------\nModel.DataTab_LIME(density.total, temperature.total, vel, abundance, gtdratio, GRID)\n```\n\ne.** Plot the results :fireworks::\n```python\n#----------------------------------------\n#3D PLOTTING (weighting with temperature)\n#----------------------------------------\ntag = 'Burger'\nweight = 10T10Env\nPlot_model.scatter3D(GRID, temperature.total, weight, NRand = 4000, colordim = density.total/1e6, axisunit = U.AU,\n\t palette = 'hot', colorscale = 'log', colorlabel = r'${\\rm log}_{10}(\\rho [cm^{-3}])$',\n\t output = 'Points%s.png'%tag, show = True)\n\n#-------------------------------------\n#2D Plotting (density and temperature)\n#-------------------------------------\n\n#FACE-ON and EDGE-ON profiles:\n\n#Density: colormap\n#Temperature: contours\n\nPlot_model.profile2D(GRID.XYZ, density.total, contours = temperature.total, unit=U.AU,\n palette='jet', output = 'density_profiles.png', tag = 'Burger', show = True)\n```\n\nThe resulting 3D distribution and 2D profiles:\n\n\n<p align=\"left\">\n <img src=\"/images/totalPointsBurger.png\" width=\"500\"/>\n <img src=\"/images/Density_Temp_Burger.png\" width=\"250\"/>\n</p>\n\nEdge-on and Face-on 3D distribution:\n\n<p align=\"center\">\n <img src=\"/images/totalPointsBurger_a.png\" width=\"420\"/>\n <img src=\"/images/totalPointsBurger_b.png\" width=\"420\"/>\n</p>\n\n<br>\n\n## Modelling multiple star forming regions :partly_sunny::sunny:\n\n:large_blue_circle: Example 1.* I will use the last two examples to illustrate how to join them in a global grid. The spatial region that is shared by two or more sub-models will inherit physical properties by weighting them with the local density, as explained in section 3.2 of Izquierdo et al (2018).\n\n:white_check_mark: The execution codes for both star forming regions are identical until just before the \"writing\" section.\n\n:pencil2: As there is no longer a single model, geometric changes will probably be required in each sub-model to better reproduce real scenarios. Let's add a couple of lines in the latter codes to account for the centering, inclination and systemic velocity of each region.\n\nIn the first example:\n\n```python\n#-------------------------\n#ROTATION, VSYS, CENTERING\n#-------------------------\nxc, yc, zc = [-250U.AU, 350U.AU, 300U.AU]\nCENTER = [xc, yc, zc] #Center of the region in the global grid\nv_sys = 3320. #m/s\nnewProperties = Model.ChangeGeometry(GRID, center = CENTER, vsys = v_sys, vel = vel,\n\t \t \t rot_dict = { 'angles': [np.pi/4, 1.87np.pi], 'axis': ['x','z'] })\n```\n\nThe `GRID` and `vel` objects should inherit the modified properties that `newProperties` currently hosts :school::\n\n```python\n#At the minute, the Model library only modifies the XYZ lists.\n #It is enough information for LIME\nGRID.XYZ = newProperties.newXYZ\n\n#The velocity should inherit the new velocity distribution\n #(as we rotated the system and added a systemic velocity)\nvel.x, vel.y, vel.z = newProperties.newVEL\n```\n\nFinally, the writing process :pencil:. We have to specify that the model is actually a sub-model:\n\n```python\n#-----------------------------\n#WRITING DATA with LIME format\n#-----------------------------\ntag = '_Main' #A tag to identify the final files from others\nModel.DataTab_LIME(density.total, temperature.total, vel, abundance, gtdratio, GRID,\n\t\t is_submodel = True, tag = tag)\n```\n\n:white_check_mark: The second example region include the same additions, only differ in the first specific definitions:\n\n```python\n#-------------------------\n#ROTATION, VSYS, CENTERING\n#-------------------------\nxc, yc, zc = [350U.AU, -150U.AU, -200U.AU]\nCENTER = [xc, yc, zc] #Center of the region in the global grid\nv_sys = -2000. #m/s\nnewProperties = Model.ChangeGeometry(GRID, center = CENTER, vsys = v_sys, vel = vel,\n\t \t \t rot_dict = { 'angles': [-np.pi/2, np.pi/4], 'axis': ['y','z'] })\n```\n\n:o: PS: once a sub-model is defined, a new folder named \"Subgrids\" will be created in the current working directory. All the sub-model data files will be saved there automatically. This order must be respected so that other features of the package work well :exclamation:\n\n<br>\n\n### Overlapping sub-models :globe_with_meridians::heavy_plus_sign::globe_with_meridians:\nNow that we have the data of each sub-model separately, we should invoke a new library in order to properly overlap their physical properties in a single grid we call global grid* :earth_americas:.\n\nYou can overlap all the sub-models available in the \"Subgrids\" folder, or tell to the module explicitly the list of sub-models to overlap:\n\n```python\nimport BuildGlobalGrid as BGG\nimport Model\nimport Plot_model as Pm\nimport Utils as U\n\n#---------------\n#DEFINE THE GRID\n#---------------\nsizex = sizey = sizez = 1000 * U.AU\nNx = Ny = Nz = 120\nGRID = Model.grid([sizex, sizey, sizez], [Nx, Ny, Nz])\n\n#---------------\n#INVOKE BGG LIB\n#---------------\nglobal_prop = BGG.overlap(GRID, all = True)\n```\n\nThe next block is equivalent to the latter:\n```python\nimport BuildGlobalGrid as BGG\nimport Model\nimport Plot_model as Pm\nimport Utils as U\n\n#---------------\n#DEFINE THE GRID\n#---------------\nsizex = sizey = sizez = 1000 * U.AU\nNx = Ny = Nz = 120\nGRID = Model.grid([sizex, sizey, sizez], [Nx, Ny, Nz])\n\n#---------------\n#INVOKE BGG LIB\n#---------------\nlist_sub = ['datatab_Main.dat', 'datatab_Burger.dat']\nglobal_prop = BGG.overlap(GRID, submodels = list_sub)\n```\n\n:fireworks: Plotting the result: the 3D points distribution follow the density field (see the `weight` parameter) in both plots. The colormaps represent the density in one plot and the temperature in the other.\n```python\nGRID = global_prop.GRID \ndensity = global_prop.density / 1e6 #1e6 to convert from m^-3 to cm^-3\ntemperature = global_prop.temperature\n\nweight = 400 * np.mean(density)\n\n#-----------------\n#Plot for DENSITY\n#-----------------\nPm.scatter3D(GRID, density, weight, NRand = 7000, axisunit = U.AU, colorscale = 'log', palette = 'hot',\n \t colorlabel = r'${\\rm log}_{10}(\\rho [cm^{-3}])$', output = 'global_grid_dens.png')\n\n#--------------------\n#Plot for TEMPERATURE\n#--------------------\nPm.scatter3D(GRID, density, weight, colordim = temperature, NRand = 7000, axisunit = U.AU, colorscale = 'log',\n palette = 'brg', colorlabel = r'${\\rm log}_{10}(T$ $[K])$', output = 'global_grid_temp.png')\n```\n\n*Left: density colormap. Right: temperature colormap.\n\n<p align=\"center\">\n <img src=\"/images/global_grid_dens.png\" width=\"420\"/>\n <img src=\"/images/global_grid_temp.png\" width=\"420\"/>\n</p>\n\n<br>\n" }, { "alpha_fraction": 0.4475734233856201, "alphanum_fraction": 0.46460995078086853, "avg_line_length": 35.012107849121094, "blob_id": "3dfc101d4e663106630be2ecd39b71e0f47d3647", "content_id": "b37d21918ac50f74f18374efd61a561e56e8e970", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 35688, "license_type": "no_license", "max_line_length": 169, "num_lines": 991, "path": "/package/Model.py", "repo_name": "keflavich/star-forming-regions", "src_encoding": "UTF-8", "text": "from __future__ import print_function\nfrom Utils import \n\nimport numpy as np\nimport random\nimport pandas as pd\nimport inspect\nimport time\nimport sys\nimport os\n\nclass Struct:\n def __init__(self, *entries):\n self.__dict__.update(entries)\n\n\n#------------------------\n#SPATIAL (Spherical-)GRID\n#------------------------\n \ndef grid(XYZmax, NP, artist = False):\n\n \"\"\"\n XYZmax: Maximum physical domain of the grid\n Please provide XYZmax as a 3D-list. XYZmax=[Xmax,Ymax,Zmax]\n NP: Number of grid points for each coordinate\n Please provide NP as a 3D-list. NP=[Nx,Ny,Nz]\n \"\"\"\n\n print ('-------------------------------------------------\\n-------------------------------------------------')\n \n if artist: artist = 1\n XYZmax = np.array(XYZmax)\n\n #----------------\n #NUMBER OF POINTS\n #----------------\n #Each NP becomes odd if it's not. This is done to force the grid to contain the midplane too.\n NP_dum = [ NP[i] + 1 if NP[i]%2 == 0 else NP[i] for i in range(3) ] \n print('Changing the number of grid points to force it to contain the midplane...' \n if NP != NP_dum\n else '... ... ...')\n NP = NP_dum\n \n #--------\n #XYZ GRID\n #--------\n print ('Calculating Grid...')\n \n Xmax,Ymax,Zmax = XYZmax \n step = 2. XYZmax / NP\n #epsilon = [RSun / 1.] * 3\n \n #In case of artist: a dummy point is created at the end of each coordinate. Artist won't read them but they are necessary for it to work fine! \n XYZgrid = [np.linspace(-XYZmax[i], XYZmax[i] + artist * step[i], NP[i] + artist) for i in range(3)]\n\n X, Y, Z = XYZgrid\n \n #--------------------------------------\n #Extended Lists of distance coordinates\n #--------------------------------------\n rRxyzList = np.array([ ((x2 + y2 + z2)0.5, (x2 + y2)*0.5, x,y,z) for x in X for y in Y for z in Z])\n \n rList = rRxyzList[:,0] ; RList = rRxyzList[:,1]; xList = rRxyzList[:,2]; yList = rRxyzList[:,3]; zList = rRxyzList[:,4]\n rList = np.where(rList < 1., sorted(set(rList))[1] / 2 , rList ) # If r == 0: use the second minimum value of r divided by 2\n \n #\"set\" eliminates duplicates and \"sorted\" sorts values upward \n RList = np.where(RList < 1., sorted(set(RList))[1] / 2 , RList )\n \n #-----\n #THETA\n #-----\n thetaList = np.arccos(zList / rList)\n halfPi = 0.5 np.pi\n theta4vel = thetaList\n\n #If theta is under the xy plane, take its image above the plane.\n # This is done to avoid negative cosines in func streamline(), \n # taking advantage on the symmetry of discs and envelopes along xy. \n deltaTh = np.where(thetaList > np.pi/2, thetaList - halfPi, 0.)\n thetaList = thetaList - 2 * deltaTh\n\n #-----\n #PHI\n #-----\n phiList = np.arctan2(yList,xList)\n twoPi = 2 * np.pi\n phiList = np.where(phiList < 0, phiList + twoPi, phiList )\n #-----\n #-----\n\n XYZ = [xList,yList,zList]\n rRTP = [rList,RList,thetaList,phiList]\n\n\n print ('Number of grid nodes for x,y,z:', NP)\n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n \n return Struct( *{'XYZgrid': XYZgrid, 'XYZ': XYZ, 'rRTP': rRTP, 'theta4vel': theta4vel, 'NPoints': len(rList), 'Nodes': NP})\n\n\n\"\"\"\n#Not tested\n\n#How the grid_FIXED function should work: \n# 1: Provide the mapping function f(x) \n# 2: Provide the cleared function x(f) \n# 3: Provide the Maximum range of the coordinate \n# 4: Provide the Number of points to make the map \n# 5: (optional) Provide the coordinate datafile: \n# In this case must be done MU.grid_FIXED(0,0,0,0,\"x.dat\") \n# Remember that the code is built to doesn't take the last \n# value of the grid \n \n \nx=MU.grid_FIXED(lambda x: xx, lambda x: x*0.5,8.1900,15) \ny=MU.grid_FIXED(lambda x: x, lambda x: x,8.1900,15) \nz=MU.grid_FIXED(lambda x: x, lambda x: x,8.1900,15) \n \n \n#x=MU.grid_FIXED(0,0,0,0,\"x.dat\") \n#y=MU.grid_FIXED(0,0,0,0,\"y.dat\") \n#z=MU.grid_FIXED(0,0,0,0,\"z.dat\") \n \n \nGRID=[x,y,z] \n\ndef grid_FIXED(Fx=False,xF=False,Fmax=False,NP=False,File=False):\n\n#Fx->F(x) -> Mapping function\n#xF->x(F) -> Inverse function\n#Fmax -> Real maximum in the domain\n\n \n xList=[]\n fList=[]\n xmax=0\n\n if Fx:\n \n xmax = xF(Fmax) #Finding the virtual maximum of x, \n # such that the domain remains between\n # [-Fmax,Fmax] after calculating F(x)\n \n \n xList=np.arange(-xmax,xmax+2xmax/NP+2./NP,2xmax/NP)\n fList=Fx(xList)\n \n else: fList=np.loadtxt(File)/AU\n '''\n if (fList[-1]-Fmax)<1e-6Fmax:\n fList[0]=Fmax\n fList[-1]=Fmax\n '''\n \n \n return fList\n\"\"\"\n\n#---------------------------------\n#Spherical base --> Cartesian base\n#---------------------------------\n\ndef sphe_cart(V_sphe, theta, phi):\n \n #--------------------------------------------------------------\n #Wikipedia: Coordenadas esfericas, subseccion 'Base coordenada'\n #--------------------------------------------------------------\n \n if hasattr(theta, '__iter__') and hasattr(phi, '__iter__'): #A list of vectors\n #np.multiply and operator are esentially the same even in terms of time\n vx = np.multiply( V_sphe, np.array([np.sin(theta) * np.cos(phi), np.cos(theta) * np.cos(phi), -np.sin(phi)]).T ).sum(1) \n vy = np.multiply( V_sphe, np.array([np.sin(theta) * np.sin(phi), np.cos(theta) * np.sin(phi), np.cos(phi)]).T ).sum(1) \n vz = np.multiply( V_sphe, np.array([np.cos(theta) , -np.sin(theta), np.zeros(len(theta))]).T ).sum(1)\n \n else: #Just one vector\n \n vx = np.dot( V_sphe, np.array([np.sin(theta) * np.cos(phi), np.cos(theta) * np.cos(phi), -np.sin(phi)]) )\n vy = np.dot( V_sphe, np.array([np.sin(theta) * np.sin(phi), np.cos(theta) * np.sin(phi), np.cos(phi)]) )\n vz = np.dot( V_sphe, np.array([np.cos(theta) , -np.sin(theta), 0.]))\n\n V_cart=np.array([vx,vy,vz])\n print ('%s is done!'%inspect.stack()[0][3])\n\n return V_cart\n\n#-------------------------------------\n#STREAM LINES FOR DENSITY AND VELOCITY\n#-------------------------------------\n\ndef streamline(Rd, GRID):\n\n#Cartesian-grid to work in. [xList,yList,zList]\n\n#Values for cos(theta0), see Mendoza 2004\n\n rRTP = GRID.rRTP\n #------------\n #LISTS TO USE\n #------------\n rList, RList, thetaList = rRTP[:-1] #Phi is not used for streamlines\n rNorm = rList / Rd\n \n #----------------------------\n #MODEL. Mendoza et al. (2004)\n #----------------------------\n costheta = np.cos(thetaList)\n\n #Case r == Rd \n costheta0 = np.where( rNorm == 1., costheta*(1./3), 0. )\n\n #Case r > Rd \n term1 = abs(rNorm - 1) / 3. \n term1sqrt = 2 term1*0.5\n term1_15 = 2 term1*1.5 \n\n good_ind = np.where( rNorm > 1. )\n term2 = np.zeros(len(term1))\n term2[good_ind] = np.sinh( 1./3 np.arcsinh( rNorm[good_ind] * costheta[good_ind] / term1_15[good_ind] ) )\n\n costheta0 = np.where( rNorm > 1., term1sqrt * term2, costheta0 )\n\n #Case r < Rd and cond > 0\n cond = ( rNorm * 0.5 * costheta )2 - term13\n\n good_ind = np.where( (rNorm < 1.) & (cond > 0.) )\n term2[good_ind] = np.cosh( 1./3 * np.arccosh( rNorm[good_ind] * costheta[good_ind] / term1_15[good_ind] ) )\n\n costheta0 = np.where( (rNorm < 1.) & (cond > 0.) , term1sqrt * term2, costheta0 )\n\n #Case r < Rd and cond < 0\n good_ind = np.where( (rNorm < 1.) & (cond < 0.) )\n term2[good_ind] = np.cos( 1./3 * np.arccos( rNorm[good_ind] * costheta[good_ind] / term1_15[good_ind] ) )\n costheta0 = np.where( (rNorm < 1.) & (cond < 0.) , term1sqrt * term2, costheta0 )\n\n #Case costheta0 > 1.0 due to computational waste of the order of 1e-16 above 1.0\n costheta0 = np.where ( costheta0 > 1.0, 1.0, costheta0)\n\n print ('%s is done!'%inspect.stack()[0][3])\n\n return costheta0 \n\n#-------------------------------------\n#-------------------------------------\n\n#-------------------\n#DENSITY FUNCTION\n#-------------------\n\ndef density_Ulrich(RStar, Rd, rhoE0, Arho, GRID, discFlag=True, envFlag=False, rdisc_max = False, renv_max = False, ang_cavity = False):\n\n#RStar: Star radius\n#Rd: Centrifugal radius\n#rhoE0: density at Rd and theta=pi/2\n#Arho: Factor between envelope and disk densities\n#GRID: Cartesian-grid to work in. [xList,yList,zList] \n\n XYZgrid, XYZ, rRTP = GRID.XYZgrid, GRID.XYZ, GRID.rRTP\n NPoints = GRID.NPoints\n #------------\n #LISTS TO USE\n #------------\n zList = XYZ[2]\n rList, RList, thetaList = rRTP[:-1] #Phi is not used for density\n\n #----------------------------------------------\n #MODEL. Ulrich (1976) - Keto,E & Zhang,Q (2010)\n #----------------------------------------------\n\n #------------\n #DISC PROFILE\n #------------\n if discFlag:\n print ('Calculating Keplerian thin-disc density...')\n \n if not rdisc_max: rdisc_max = Rd #Keto's value for the disc to stop\n rhoD0 = Arho * rhoE0 #Normalization factor based on the envelope\n H0 = 0.01 * RStar #Scaleheight at RStar\n H = H0 * (RList / RStar)*1.25 #Scaleheight\n rhoDISC = np.where( RList <= rdisc_max, rhoD0 (Rd / RList)*2.25 np.exp(-0.5 * zList2 / H2), 1.0)#1.0e9 / 2)\n rhoDISC = np.where( rhoDISC < 1.0, 1.0, rhoDISC)\n else: \n print ('No Keplerian thin-disc was invoked!')\n rhoDISC = np.zeros(NPoints)\n \n #----------------\n #ENVELOPE PROFILE\n #----------------\n if ang_cavity: print ('Set cavity for density with aperture %.1f deg'%(ang_cavity * 180 / np.pi))\n \n if envFlag:\n print ('Calculating stream lines for Ulrich envelope...')\n if not renv_max: renv_max = np.max(XYZgrid[0]) #A sphere inscribed in the coordinate X.\n\n costheta = np.cos(thetaList)\n costheta0 = streamline(Rd,GRID)\n print ('Calculating Envelope density...')\n rhoENV = np.where( (rList <= renv_max) & (thetaList >= ang_cavity), ( (rhoE0 * (rList / Rd)*-1.5) \n ( (1 + (costheta / costheta0))*-0.5 ) \n (1 + (Rd / rList) * (3. * costheta02 - 1))-1 ), 1.0e9 )\n rhoENV = np.where( rhoENV < 1.0, 1.0, rhoENV)\n else:\n print ('No Envelope was invoked!')\n costheta0 = False\n rhoENV = np.zeros(NPoints)\n \n #----------------------------------------------\n #----------------------------------------------\n \n RHO = rhoDISC + rhoENV \n\n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n return Struct( *{'total': RHO, 'disc': rhoDISC, 'env': rhoENV, 'discFlag': discFlag, 'envFlag': envFlag, \n 'r_disc': rdisc_max, 'r_env': renv_max, 'streamline': costheta0} )\n\n\n#-------------------\n#-------------------\n\n#------------------------------\n#DENSITY (Hamburguers) FUNCTION\n#------------------------------\n\ndef density_Hamburgers(RStar, shFactor, Rd, rhoE0, Arho, GRID, discFlag=True, rdisc_max = False):\n\n#RStar: Star radius\n#shFactor: H0 = shFactor RStar\n#Rd: Centrifugal radius\n#rhoE0: density at Rd and theta=pi/2\n#Arho: Factor between envelope and disk densities\n#GRID\n\n XYZ, rRTP = GRID.XYZ, GRID.rRTP\n\n #------------\n #LISTS TO USE\n #------------\n zList = XYZ[2]\n rList, RList = rRTP[:-2] \n\n #----------------------------------------------\n #MODEL. Galvan-Madrid, A. Izquierdo (2017)\n #----------------------------------------------\n\n #------------\n #DISC PROFILE\n #------------\n if discFlag:\n print ('Calculating Burger-disc density...')\n if not rdisc_max: rdisc_max = Rd\n rhoD0 = Arho * rhoE0 \n H0 = shFactor * RStar\n H = H0 * (RList / RStar)*1.25 #Scaleheight\n rhoDISC = np.where( RList <= rdisc_max, rhoD0 (Rd / RList)*2.25 np.exp(-0.5 * zList2 / H2), 1.0)\n rhoDISC = np.where( rhoDISC < 1.0, 1.0, rhoDISC)\n else: \n print ('No Disc was invoked!')\n rhoDISC = np.zeros(GRID.NPoints)\n \n #----------------------------------------------\n #----------------------------------------------\n\n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n return Struct( {'total': rhoDISC, 'disc': rhoDISC, 'env': 0., 'discFlag': True, 'envFlag': False, 'r_disc': rdisc_max, 'r_env': False} ) \n\n#------------------------------\n#------------------------------\n\n#---------------------------\n#DENSITY (PowerLaw) FUNCTION\n#---------------------------\n\ndef density_Powerlaw(r_max, rho_mean, q, GRID):\n\n#rho_mean: Mean density of the Envelope \n#r_max: Maximum radius of the envelope \n#q: power-law for density\n#GRID: Cartesian-grid to work in. [xList,yList,zList] \n#Env: On/Off the Envelope\n\n #------------\n #LISTS TO USE\n #------------\n rList, NPoints = GRID.rRTP[0], GRID.NPoints #Due to spherical symmetry only r is needed\n\n #------------------------\n #MODEL. Envelope powerlaw\n #------------------------\n print ('Calculating Envelope density with power-law...')\n rqList = np.where(rList <= r_max , rListq, 0.)\n\n #As rho_mean = 1/NTotal * np.sum(rho0 * r*q), the normalization rho0 is calculated as follows: \n rho0 = NPoints rho_mean / np.sum(rqList)\n rhoENV = np.where( rho0 * rqList < 1.0, 1.0e9, rho0 * rqList )\n\n #------------------------\n #------------------------\n\n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n return Struct( {'total': rhoENV, 'disc': np.zeros(NPoints), 'env': rhoENV, 'discFlag': False, 'envFlag': True, 'r_disc': False, 'r_env': r_max} ) \n\n#---------------------------\n#---------------------------\n\n#---------------------------\n#DENSITY (Constant) FUNCTION\n#---------------------------\n\ndef density_Constant(Rd, GRID, discDens = 0, rdisc_max = False, envDens = 0, renv_max = False):\n\n rRTP = GRID.rRTP\n NPoints = GRID.NPoints\n #------------\n #LISTS TO USE\n #------------\n rList, RList = rRTP[:-2] \n\n #------------\n #DISC PROFILE\n #------------\n if discDens:\n print ('Setting constant Disc density...')\n if not rdisc_max: rdisc_max = Rd\n rhoDISC = np.where( RList <= rdisc_max, discDens, 1.0)\n else: \n print ('No Disc was invoked!')\n rhoDISC = np.zeros(NPoints)\n\n #----------------\n #ENVELOPE PROFILE\n #----------------\n if envDens:\n print ('Setting constant Envelope density...')\n if not renv_max: renv_max = np.max(GRID.XYZgrid[0])\n rhoENV = np.where( rList <= renv_max, envDens, 1.0)\n else: \n print ('No Envelope was invoked!')\n rhoENV = np.zeros(NPoints)\n \n #----------------------------------------------\n #----------------------------------------------\n RHO = rhoDISC + rhoENV\n \n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n return Struct( {'total': RHO, 'disc': rhoDISC, 'env': rhoENV, 'discFlag': bool(discDens), 'envFlag': bool(envDens), 'r_disc': rdisc_max, 'r_env': renv_max} ) \n\n#---------------------------\n#---------------------------\n\n#------------------\n#ABUNDANCE FUNCTION\n#------------------\n\ndef abundance(val, NPoints):\n\n abundList = np.ones(NPoints) * val\n \n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n return abundList \n\n#------------------\n#------------------\n\n#-----------------\n#GAS-TO-DUST RATIO\n#-----------------\n\ndef gastodust(val, NPoints):\n \n gtdratioList = np.ones(NPoints) * val\n \n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n return gtdratioList \n\n#-----------------\n#-----------------\n\n#----------------------\n#TEMPERATURE FUNCTION\n#----------------------\n\ndef temperature(TStar, Rd, T10Env, RStar, MStar, MRate, BT, p, density, GRID, ang_cavity = False):\n\n#TStar: Star temperature\n#T10Env: Envelope temperature at 10AU\n#RStar: Star radius\n#MStar: Star mass\n#MRate: Mass accretion rate\n#BT: Disc temperature factor\n#p: Temperature power law exponent \n#GRID: [xList,yList,zList]\n\n rRTP = GRID.rRTP\n #------------\n #LISTS TO USE\n #------------\n rList, RList, thetaList = rRTP[:-1] \n rhoDISC, rhoENV = density.disc, density.env\n\n #------------------------------\n #MODEL. Keto,E & Zhang,Q (2010)\n #------------------------------\n\n #------------\n #DISC Profile\n #------------\n if density.discFlag:\n print ('Calculating Keplerian thin-disc temperature...')\n rdisc = density.r_disc\n if density.envFlag:\n renv = density.r_env\n tempDISC = np.where( (RList <= rdisc) & (rList <= renv) , BT * (3G MStar * MRate / (4np.pi sigma * RList*3) (1 - (RStar / RList)0.5))0.25, 30.0)\n else: tempDISC = np.where( RList <= rdisc , BT * (3G MStar * MRate / (4np.pi sigma * RList*3) (1 - (RStar / RList)0.5))0.25, 30.0)\n else: tempDISC = 1.\n\n #----------------\n #ENVELOPE PROFILE\n #----------------\n if ang_cavity: print ('Set cavity for temperature with aperture %.1f deg'%(ang_cavity * 180 / np.pi))\n\n if density.envFlag:\n print ('Calculating Envelope temperature...')\n renv = density.r_env\n tempENV = np.where( (rList <= renv) & (thetaList >= ang_cavity), T10Env * 10*0.33 (rList / AU)*-0.33, 30.0)\n #tempENV = TStar (RStar / (2.rList))(2. / (4+p))\n else: tempENV = 1.\n \n #----------------------------------------------\n #----------------------------------------------\n\n #Weighted temperature with density \n TEMP = (tempDISC rhoDISC + tempENV * rhoENV) / density.total\n\n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n return Struct( *{'total': TEMP, 'disc': tempDISC, 'env': tempENV, 'discFlag': density.discFlag, 'envFlag': density.envFlag} )\n\n#----------------------\n#----------------------\n\n#---------------------------------\n#TEMPERATURE (Hamburgers) FUNCTION\n#---------------------------------\n\ndef temperature_Hamburgers(TStar, RStar, MStar, MRate, Rd, T10Env, shFactor, T_min, BT, p, density, GRID, inverted = False):\n\n#TStar: Star temperature\n#T10Env: Envelope temperature at 10AU\n#RStar: Star radius\n#MStar: Star mass\n#MRate: Mass accretion rate\n#BT: Disc temperature factor\n#p: Temperature power law exponent \n#GRID: [xList,yList,zList]\n\n XYZ, rRTP = GRID.XYZ, GRID.rRTP\n #------------\n #LISTS TO USE\n #------------\n rList, RList = rRTP[:-2] \n rhoDISC, rhoENV = density.disc, density.env\n\n #-----------------------------------------\n #MODEL. Galvan-Madrid, A. Izquierdo (2017)\n #-----------------------------------------\n\n #------------\n #DISC Profile\n #------------\n if density.discFlag:\n print ('Calculating Burger-disc temperature...')\n zList = XYZ[2]\n rdisc = density.r_disc\n H0 = shFactor RStar \n H = H0 * (RList / RStar)*1.25 #Whitney et al. (2003)\n \n if inverted: \n print ('Set inverted temperature for Burger-disc...')\n tempDISC = np.where( RList <= rdisc, ( BT (3G MStar * MRate / (4np.pi sigma * RList*3) (1 - (RStar / RList)0.5))0.25\n * np.exp(- 0.5 * zList2 / H2) ), 1.0) #Maximum in z = 0\n else: \n print ('Set not inverted temperature for Burger-disc...')\n tempDISC = np.where( RList <= rdisc, ( BT * (3G MStar * MRate / (4np.pi sigma * RList*3) (1 - (RStar / RList)0.5))0.25 \n * np.exp(- 0.5 * (abs(zList) - H)2 / H2) ), 1.0) #Maximum in z = H\n\n tempDISC = np.where( (RList <= rdisc) & (tempDISC <= T_min), T_min, tempDISC)\n\n else: tempDISC = 1.\n\n #----------------\n #ENVELOPE PROFILE\n #----------------\n if density.envFlag:\n print ('Calculating Envelope temperature...')\n renv = density.r_env\n tempENV = np.where( rList <= renv, T10Env * 10*0.33 (rList / AU)*-0.33, 1.0)\n #tempENV = TStar (RStar / (2.rList))(2. / (4+p))\n else: tempENV = 1.\n \n #----------------------------------------------\n #----------------------------------------------\n\n #Weighted temperature with density \n TEMP = (tempDISC rhoDISC + tempENV * rhoENV) / density.total\n\n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n return Struct( *{'total': TEMP, 'disc': tempDISC, 'env': tempENV, 'discFlag': density.discFlag, 'envFlag': density.envFlag} )\n\n#---------------------------------\n#---------------------------------\n\n#-------------------------------\n#TEMPERATURE (Constant) FUNCTION\n#-------------------------------\n\ndef temperature_Constant(density, GRID, discTemp = 0, envTemp = 0):\n\n rRTP = GRID.rRTP\n NPoints = GRID.NPoints\n #------------\n #LISTS TO USE\n #------------\n rList, RList = rRTP[:-2]\n rhoDISC, rhoENV = density.disc, density.env\n\n #------------\n #DISC PROFILE\n #------------\n if discTemp:\n if density.discFlag:\n print ('Setting constant Disc temperature...')\n tempDISC = np.where( RList <= density.r_disc, discTemp, 30.0)\n else: sys.exit('ERROR: The disc calculation was turned ON but there is no density distribution for disc!')\n else: tempDISC = 0.\n\n #----------------\n #ENVELOPE PROFILE\n #----------------\n if envTemp:\n if density.envFlag:\n print ('Setting constant Envelope density...')\n tempENV = np.where( rList <= density.r_env, envTemp, 30.0)\n else: sys.exit('ERROR: The envelope calculation was turned ON but there is no density distribution for envelope!')\n else: tempENV = 0.\n \n #----------------------------------------------\n #----------------------------------------------\n \n #Weighted temperature with density \n TEMP = (tempDISC rhoDISC + tempENV * rhoENV) / density.total\n \n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n return Struct( *{'total': TEMP, 'disc': tempDISC, 'env': tempENV, 'discFlag': bool(discTemp), 'envFlag': bool(envTemp)} )\n\n#-------------------------------\n#-------------------------------\n\n#----------------------\n#VELOCITY FUNCTION\n#----------------------\n\ndef velocity(RStar,MStar,Rd,density,GRID):\n\n#MStar: Star mass\n#Rd: Centrifugal radius\n#GRID: [xList,yList,zList]\n\n XYZgrid, XYZ, rRTP = GRID.XYZgrid, GRID.XYZ, GRID.rRTP\n NPoints = GRID.NPoints\n #------------\n #LISTS TO USE\n #------------\n rList, RList, thetaList, phiList = rRTP\n rhoDISC, rhoENV = density.disc, density.env\n theta4vel = GRID.theta4vel\n\n #------------------------------\n #MODEL. Keto,E & Zhang,Q (2010)\n #------------------------------\n\n #------------\n #DISC Profile\n #------------\n if density.discFlag:\n print ('Calculating Disc velocity...')\n rdisc = density.r_disc\n #Pure azimuthal component. It's assumed that the radial velocity in the rotationally supported disc is comparatively small (Keto 2010).\n vdisc = np.where( RList <= rdisc, (G MStar / RList)*0.5, 0.) \n else: vdisc = 0.\n\n #----------------\n #ENVELOPE PROFILE\n #----------------\n if density.envFlag:\n print ('Calculating Envelope velocity...')\n \n #-------------------------\n #Useful THETA Calculations\n #-------------------------\n costheta0 = density.streamline\n costheta, sintheta, theta0 = np.cos(thetaList), np.sin(thetaList), np.arccos(costheta0)\n sintheta0 = np.sin(theta0)\n\n #-------------------------\n #-------------------------\n renv = density.r_env\n vr = np.where( rList <= renv, - (G MStar / rList)*0.5 (1 + costheta / costheta0)*0.5, 0.)\n \n signo = np.where( theta4vel> np.pi/2, -1, 1) #To respect symmetry. (Using the thetaList from 0 to pi)\n good_ind = np.where( (thetaList != 0.) & (rList <= renv) ) #To avoid the polar angle for theta and phi. In the polar angle all the velocity is radial\n vtheta, vphi = np.zeros(NPoints), np.zeros(NPoints)\n\n vtheta[good_ind] = signo[good_ind] ( (G * MStar / rList[good_ind])*0.5 (costheta0[good_ind] - costheta[good_ind]) / sintheta[good_ind] * \n (1 + costheta[good_ind] / costheta0[good_ind])*0.5 )\n vphi[good_ind] = (G MStar / rList[good_ind])*0.5 (sintheta0[good_ind] / sintheta[good_ind]) * (1 - costheta[good_ind] / costheta0[good_ind])*0.5\n\n\n else: vr, vtheta, vphi = 0.,0.,0.\n \n #Weighted velocity with density. Vectorial sum.\n vr , vtheta, vphi = map( lambda x,y : (rhoDISC x + rhoENV * y) / density.total, \n [ 0, 0, vdisc ], [vr, vtheta, vphi] ) \n\n print ('Converting to cartesian coordinates...') \n vx, vy, vz = sphe_cart( list( zip(vr, vtheta, vphi) ), theta4vel, phiList)\n \n #----------------------------------------------\n #----------------------------------------------\n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n return Struct( *{'x': vx, 'y': vy, 'z': vz} )\n\n\n#----------------------\n#----------------------\n\n#--------------------------\n#VELOCITY (Random) FUNCTION\n#--------------------------\n\ndef velocity_random(v_disp,NPoints):\n\n print ('Calculating random (uniform) velocities...')\n v_disp = v_disp/np.sqrt(3) \n\n v_x = v_disp (2 * np.random.random(NPoints) - 1) \n v_y = v_disp * (2 * np.random.random(NPoints) - 1) \n v_z = v_disp * (2 * np.random.random(NPoints) - 1) \n\n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n return Struct( {'x': v_x, 'y': v_y, 'z': v_z} )\n\n#--------------------------\n#--------------------------\n\n#--------------------------------\n#CENTRAL HOLE FUNCTION (Optional)\n#--------------------------------\n\ndef MakeHole(T_min,T_max,dens_val,temp_val,abund_val,densList,tempList,abundList):\n\n#The hole is between T_min and T_max\n#T_min: Minimum temperature of the hole \n#T_max: Maximum temperature of the hole\n#dens_val: Density value for the hole\n#temp_val: Temperature value for the hole\n#densList: Density list to modify \n#tempList: Temperature list to build the hole\n \n print ('Calculating profiles for a hole...')\n \n densNew = np.where( (tempList >= T_min) & (tempList <= T_max), dens_val, densList)\n tempNew = np.where( (tempList >= T_min) & (tempList <= T_max), temp_val, tempList)\n abundNew = np.where( (tempList >= T_min) & (tempList <= T_max), abund_val, abundList)\n\n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n \n return Struct( {'dens': densNew, 'temp': tempNew, 'abund': abundNew})\n\n\n#--------------------------------\n#-------------------------------- \n\ndef PrintProperties(density, temperature, GRID): \n\n dx = GRID.XYZgrid[0][1] - GRID.XYZgrid[0][0]\n inddisc = np.where(temperature.disc > 2.)\n indtotal = np.where(temperature.total > 2.)\n Mu_MSun = 2 * Mu/MSun\n \n print ('Total mass (MSun):', np.sum(density.total) * dx*3 Mu_MSun)\n print ('Mean Total Temperature (Kelvin), weighted by density:', \n (np.sum(temperature.total[ indtotal ] * density.total[ indtotal ]) \n / np.sum(density.total[ indtotal ]) ))\n if density.discFlag:\n print ('Total Disc mass (MSun):', np.sum(density.disc) * dx*3 Mu_MSun)\n print ('Total Envelope mass (MSun):', np.sum(density.env) * dx*3 Mu_MSun)\n print ('Mean Disc Temperature (Kelvin), weighted by density:', \n (np.sum(temperature.disc[ inddisc ] * density.disc[ inddisc ])\n / np.sum(density.disc[ inddisc ]) ))\n \n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n \n#---------------\n#GEOMETRY STUFF \n#--------------- \n \ndef Rotation_Matrix(angle_dicts):\n \n Rot = []\n\n for item in angle_dicts:\n\n #Rotation along X\n if item['axis'] == 'x':\n \n thX = item['angle'] \n Rot.append( np.array([[1,0,0],\n [0,np.cos(thX),-np.sin(thX)],\n [0,np.sin(thX),np.cos(thX)]]) )\n print (\"Added: rotation matrix along '%s' axis, %.1f deg\"%('X',thX * 180/np.pi) )\n\n #Rotation along Y\n if item['axis'] == 'y':\n thY = item['angle'] \n Rot.append( np.array([[np.cos(thY),0,-np.sin(thY)],\n [0,1,0],\n [np.sin(thY),0,np.cos(thY)]]) )\n print (\"Added: rotation matrix along '%s' axis, %.1f deg\"%('Y',thY * 180/np.pi) )\n \n #Rotation along Z\n if item['axis'] == 'z':\n thZ = item['angle'] \n Rot.append( np.array([[np.cos(thZ),-np.sin(thZ),0],\n [np.sin(thZ),np.cos(thZ),0],\n [0,0,1]]) )\n print (\"Added: rotation matrix along '%s' axis, %.1f deg\"%('Z',thZ * 180/np.pi) )\n\n tmp = Rot[0]\n Rot_iter = iter(Rot[1:]) #Iterator for Rot_list from 2nd value: (matriz for matriz in Rot_list[1:])\n\n for i in range( len(Rot[1:]) ): \n tmp = np.dot( next(Rot_iter) , tmp )\n \n Rot_total = tmp\n\n print ('%s is done!'%inspect.stack()[0][3])\n \n return Rot_total\n\n\n\ndef ChangeGeometry(GRID, center = False ,rot_dict = False, vel = False, vsys = False):\n\n#order: indicates the order of the axes to make the rotation \n \n rotPos, rotVel, modCenter, modVsys = [False]4\n\n POS_vec = np.array(GRID.XYZ).T\n if vel == False and vsys: \n sys.exit('ERROR: A velocity distribution is needed for the systemic velocity to be added!')\n if vel:\n VEL_vec = np.array([vel.x, vel.y, vel.z]).T\n\n #---------------\n #ROTATION Matrix\n #---------------\n\n if rot_dict:\n print ('Calculating Rotation matrix...')\n rot_angles , axis_order = rot_dict['angles'], rot_dict['axis']\n\n if len(rot_angles) == len(axis_order):\n angle_dicts = ( {'axis': ax, 'angle': ang} for ax,ang in zip(axis_order, rot_angles) )\n else:\n sys.exit('ERROR: rot_angles and axis_order lists must have the same size!') \n \n NPoints = GRID.NPoints\n Rot_total = Rotation_Matrix(angle_dicts) \n print ('Rotating Position vectors...')\n XYZ_it = iter(POS_vec)\n POS_vec = np.array([ np.dot( Rot_total, next(XYZ_it) ) for i in range(NPoints) ])\n rotPos = True\n \n if vel:\n print ('Rotating Velocity vectors...')\n VEL_it = iter(VEL_vec)\n VEL_vec = np.array([ np.dot( Rot_total, next(VEL_it) ) for i in range(NPoints) ])\n rotVel = True\n else: \n print ('#################################################') \n print ('WARNING: The VELOCITY distribution to be rotated was not provided! If you are not interested in the velocity structure ignore this warning...')\n print ('#################################################')\n\n if center is not False:\n print ('Moving the object to the new center...')\n center = np.array(center)\n POS_vec = POS_vec + center\n modCenter = True\n\n if vsys: \n print ('Adding a systemic velocity along z...')\n vsys_vec = np.array([0,0,vsys])\n VEL_vec = VEL_vec + vsys_vec \n modVsys = True\n\n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n if (rotPos or modCenter) and (rotVel or modVsys): return Struct( { 'newXYZ': POS_vec.T , 'newVEL': VEL_vec.T } )\n elif rotPos or modCenter: return Struct( { 'newXYZ': POS_vec.T } )\n elif rotVel or modVsys: return Struct( { 'newVEL': VEL_vec.T })\n else: return 0\n\n#---------------\n#---------------\n\n#--------------\n#WRITING DATA\n#--------------\n\ndef DataTab_LIME(dens,temp,vel,abund,gtd,GRID, is_submodel = False, tag = False):\n \n import pandas\n\n if is_submodel:\n os.system('mkdir Subgrids')\n file0 = './Subgrids/datatab%s.dat'%tag\n file = open(file0,'w')\n x,y,z = GRID.XYZ\n print ('Writing Submodel data on %s'%file0)\n tmp = []\n for i in range(GRID.NPoints): \n #file.write(\"%d %e %e %e %e %e %e %e %e %e %e\\n\"%\n # (i,x[i],y[i],z[i],dens[i],temp[i],vel['x'][i],vel['y'][i],vel['z'][i],abund[i],gtd[i]))\n tmp.append( \"%d %e %e %e %e %e %e %e %e %e %e\\n\"% (i,x[i],y[i],z[i],dens[i],temp[i],vel.x[i],vel.y[i],vel.z[i],abund[i],gtd[i]))\n file.writelines(tmp)\n \n else:\n files=['datatab.dat','x.dat','y.dat','z.dat']\n sizefile='./npoints.dat'\n print ('Writing grid size on %s'%sizefile)\n sfile = open(sizefile,'w') \n Ns = GRID.Nodes\n sfile.write(\"%d %d %d %d\"%(Ns[0],Ns[1],Ns[2],GRID.NPoints))\n print ('Writing data on %s'%files[0])\n file = open(files[0],'w')\n\n for i in range(GRID.NPoints): \n file.write(\"%d %e %e %e %e %e %e %e\\n\"%\n (i,dens[i],temp[i],vel.x[i],vel.y[i],vel.z[i],abund[i],gtd[i]))\n\n df = [pandas.DataFrame(GRID.XYZgrid[i]) for i in range(3)]\n \n for i in range(1,4):\n print ('Writing data on %s'%files[i])\n df[i-1].to_csv(files[i],index=False,header=False,float_format='%e') \n \n sfile.close()\n \n file.close()\n \n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n\n#--------------\n#--------------\n" }, { "alpha_fraction": 0.5546895265579224, "alphanum_fraction": 0.570537805557251, "avg_line_length": 31.991378784179688, "blob_id": "ef42144597d0a76df361a7b1a03b6058c9517416", "content_id": "e02e345b86d0604c5c4c78e576611cf53a98e3e1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3849, "license_type": "no_license", "max_line_length": 146, "num_lines": 116, "path": "/package/create_cylinder.py", "repo_name": "keflavich/star-forming-regions", "src_encoding": "UTF-8", "text": "from __future__ import print_function\nfrom Utils import \nimport numpy as np\n\ndef velocity(M,R_l,r_seg,r): #(Big mass,Low mass position,Particle position) \n \n R_h = R_l + r_seg #High mass position = Low mass position + The segment between both masses \n r_rel = np.array(R_h) - np.array(r)\n\n #Virial theorem: (1/2)<T> = -(3/5)<V_total> in t -> inf. \n # in wiki english: 1/2 and 3/5 can be neglected \n\n d = np.linalg.norm(r_rel)\n speed = np.sqrt(GM/d)\n dir = r_rel / d\n vel = speed dir\n\n return speed, vel #returns speed, velocity\n\n\ndef segment_between_stars(M_pair,R_pair):\n \n M_pair = np.array(M_pair)\n R_pair = np.array(R_pair)\n \n ind = [1,0]\n if M_pair[0] > M_pair[1]: ind = [0,1]\n \n # Forcing the vector of the segment to point towards the bigger mass \n r_seg = R_pair[ind[0]] - R_pair[ind[1]] \n \n # Returns the position of the lower mass and the vector of the segment\n return R_pair[ind[1]] , r_seg\n\n \ndef make_cylinder(M_pair,DiskSizes,R_l,r_seg,drBIGGRID,width, function_R_rho, function_R_T, vsys=0, abund=5e-8, gtd=100., name = 'cylinder0.dat'):\n \n #width_x = width[0]\n #width_y = width[1]\n \n M = 0\n\n if M_pair[0] > M_pair[1]: M = M_pair[0]\n else: M = M_pair[1]\n \n\n Rdisk_l = DiskSizes[0]\n Rdisk_H = DiskSizes[1]\n \n drmax = drBIGGRID\n dr = drmax/4.\n\n r_seg_mag = np.linalg.norm(r_seg) #Magnitude of the segment between low mass and high mass\n r_seg_dir = r_seg/r_seg_mag #Direction of the segment\n\n #Guess of the number of points to generate: (approximation to a rectangular region)\n # Number of divisions along the main segment, \n # times the number of divisions perpendicular to the segment,\n # times the number of divisions in the perpendicular to both segments above\n \n Npoints = int(r_seg_mag/dr * width/dr * width/dr) \n print Npoints\n \n flag = True\n \n file = open(name,'w')\n\n x,y,z = (0,0,0)\n vx,vy,vz = (0,0,0)\n speed = 0\n vmean = []\n rho = 0\n T = 0\n\n for i in range(Npoints):\n \n r = np.random.uniform(Rdisk_l, r_seg_mag - Rdisk_H) #Random r from low_mass disk border until high_mass disk border\n R = np.random.uniform(0, width) #Random R from the segment \n\n r_vec = r * r_seg_dir #Random vector along the segment\n \n #a,b,c = r_vec\n \n rand_vec = np.random.uniform(-1,1,3) #Random vector to generate the perpendicular vector to the segment\n rand_vec = rand_vec/np.linalg.norm(rand_vec)\n \n rand_vec_plane = R * np.cross(r_seg_dir,rand_vec) #Perpendicular (random) vector to the segment\n \n Rl_r = r_vec + rand_vec_plane #Vector from low mass to the generated point in the cylinder \n r_real = R_l + Rl_r #Real position from the origin of coordinates \n \n x,y,z = r_real\n speed, (vx,vy,vz) = velocity(M,R_l,r_seg,r_real) #Velocity of the given r_real\n vmean.append(speed)\n \n vz = vz + vsys\n\n rho = function_R_rho(R) #Density of the given R\n T = function_R_T(R) #Temperature of the given R\n\n file.write('%d %e %e %e %e %e %e %e %e %e %e\\n'%(i,x,y,z,rho,T,vx,vy,vz,abund,gtd))\n \n \"\"\"\n while flag:\n x,y,z = np.random.uniform(0,500,3)\n #Equation of a plane with the normal unitary vector (a,b,c) in (x0,y0,z0): \n # f = a(x-x0) + b(y-y0) + c(z-z0) = 0 \n \"\"\"\n file.close()\n vmean = np.sum( np.array(vmean) ) / len(vmean)\n print (\"Mean tangential velocity:\", vmean, \"m/s\")\n cross_sec = np.pi width*2\n inflow_rate = vmean (rho * 2Mu) cross_sec / MSun * yr\n print (\"Mass inflow rate:\", inflow_rate, \"MSun/yr\")\n \n return r_seg_mag\n \n \n\n\n\n\n\n\n\n\n\n\n\n\n" }, { "alpha_fraction": 0.5288740992546082, "alphanum_fraction": 0.5475695729255676, "avg_line_length": 28, "blob_id": "67936cdad5e7e1613c770a924124d20bc20c2ea6", "content_id": "6f9f72352049417d484f4892968dead53b33216d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2407, "license_type": "no_license", "max_line_length": 114, "num_lines": 83, "path": "/package/Plot_model.py", "repo_name": "keflavich/star-forming-regions", "src_encoding": "UTF-8", "text": "from __future__ import print_function\nimport matplotlib.pyplot as plt\nimport matplotlib.cm as cm\nfrom mpl_toolkits.mplot3d import Axes3D\nimport numpy as np\nimport random\nimport inspect\n\n\ndef scatter3D(GRID, prop, weight, colordim = [False], NRand = 1000, axisunit = 1.0, palette = 'hot',\n colorscale = 'uniform', colorlabel = '', output = 'figscatter.png', show = True):\n\n print ('Plotting 3D model with %d random-weighted points...'%NRand)\n x,y,z = GRID.XYZ\n r = GRID.rRTP[0]\n NTotal = GRID.NPoints\n unit = axisunit\n scale = colorscale\n\n palette_c = getattr(cm , palette)\n\n #population = range(NTotal) #All the population\n population = list( np.where(abs(prop) > 2)[0] ) #Rejecting zero cells \n\n indices = []\n power = 0.6\n count = 0\n\n for i in range(NRand):\n rand = random.random()\n while 1:\n index = random.sample(population, 1) #Selects 1 point from the given list\n val = (prop[index]/weight)*power\n\n if val > rand:\n indices.append(index)\n count = 0\n k = 0\n break\n count += 1\n\n if count == 50:\n count = 0\n rand = random.random()\n\n colors = palette_c(np.linspace(0, 1, NRand))\n indices = np.array(indices).T[0]\n x,y,z = x[indices], y[indices], z[indices]\n r = r[indices]\n \n if not np.array(colordim).any(): colordim = prop\n \n if scale == 'uniform': prop2plot = np.sort(colordim[indices])\n elif scale == 'log': prop2plot = np.sort(np.log10(colordim[indices]))\n\n ind2plot = np.argsort(colordim[indices])\n\n\n x,y,z = x[ind2plot]/unit, y[ind2plot]/unit, z[ind2plot]/unit\n\n fig = plt.figure()\n ax = fig.gca(projection='3d') \n sp = ax.scatter(x,y,z, s = 5, c = prop2plot, cmap = palette, marker = '+')\n \n ax.set_xlabel('X (AU)')\n ax.set_ylabel('Y (AU)')\n ax.set_zlabel('Z (AU)')\n \n cbar = plt.colorbar(sp)\n cbar.ax.set_ylabel('%s'%colorlabel)\n\n if output == '': output = 'figure.png'\n\n print ('Saving image in %s'%output)\n plt.savefig(output, dpi = 1000)\n \n if show: plt.show()\n else:\n print ('The show-image mode is off!')\n plt.close()\n\n print ('%s is done!'%inspect.stack()[0][3])\n print ('-------------------------------------------------\\n-------------------------------------------------')\n" }, { "alpha_fraction": 0.5012317895889282, "alphanum_fraction": 0.5247480273246765, "avg_line_length": 32.05925750732422, "blob_id": "c3f4a2b656f5ad6064287266d4b8c86892c5eb2b", "content_id": "c91b699bea08bfbfdf0a37b05688f8878370bc4d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4465, "license_type": "no_license", "max_line_length": 137, "num_lines": 135, "path": "/examples/ExecModel_Burger_submodel.py", "repo_name": "keflavich/star-forming-regions", "src_encoding": "UTF-8", "text": "from __future__ import print_function\n#-----------------\n#Package libraries\n#-----------------\nimport Model\nimport Resolution as Res\nimport Plot_model\nimport Utils as U\n#-----------------\n#Extra libraries\n#-----------------\nimport numpy as np\nimport os\nimport time\n\nt0 = time.time()\n\n#------------------\n#General Parameters\n#------------------\nMStar = 0.86 U.MSun \nMRate = 5.e-6 * U.MSun_yr \nRStar = U.RSun * ( MStar/U.MSun )*0.8 \nLStar = U.LSun ( MStar/U.MSun )*4 \nTStar = U.TSun ( (LStar/U.LSun) / (RStar/U.RSun)2 )0.25 \nRd = 264. * U.AU\n\nprint ('RStar:', RStar/U.RSun, ', LStar:', LStar/U.LSun, ', TStar:', TStar)\n\n#---------------\n#GRID Definition\n#---------------\n#Cubic grid, each edge ranges [-500, 500] AU.\n\nsizex = sizey = sizez = 500 * U.AU\nNx = Ny = Nz = 50 #Number of divisions for each axis\nGRID = Model.grid([sizex, sizey, sizez], [Nx, Ny, Nz])\nNPoints = GRID.NPoints #Number of nodes in the grid\n\n#-------------\n#DENSITY\n#-------------\n\n#--------\n#ENVELOPE\n#--------\nRho0 = Res.Rho0(MRate, Rd, MStar)\nArho = None\nRenv = 2.5 * Rd\ndensEnv = Model.density_Ulrich(RStar, Rd, Rho0, Arho, GRID, discFlag = False, envFlag = True, \n renv_max = Renv)\n#-------\n#DISC\n#-------\nH0sf = 0.03 #Disc scale height factor (H0 = 0.03 * RStar)\nArho = 5.25\nRdisc = 1.5 * Rd\ndensDisc = Model.density_Hamburgers(RStar, H0sf, Rd, Rho0, Arho, GRID, discFlag = True, \n rdisc_max = Rdisc)\n#---------------------\n#The COMPOSITE DENSITY\n#---------------------\ndensity = Model.Struct( *{ 'total': densEnv.total + densDisc.total,\n 'disc': densDisc.total, \n 'env': densEnv.total,\n 'discFlag': True,\n 'envFlag': True,\n 'r_disc': densDisc.r_disc, \n 'r_env': densEnv.r_env,\n 'streamline': densEnv.streamline} )\n\n#-----------\n#TEMPERATURE\n#-----------\nT10Env = 250. #Envelope temperature at 10 AU\nTmin = 10. #Minimum possible temperature. Every node with T<Tmin will inherit Tmin. \nBT = 60. #Adjustable factor for disc temperature. Extra, or less, disc heating.\ntemperature = Model.temperature_Hamburgers(TStar, RStar, MStar, MRate, Rd, T10Env, H0sf, Tmin, \n BT, None, density, GRID, inverted = False)\n\n#--------\n#VELOCITY\n#--------\nvel = Model.velocity(RStar, MStar, Rd, density, GRID)\n\n#-------------------------------\n#ABUNDANCE and GAS-to-DUST RATIO\n#-------------------------------\nab0 = 5e-8 #CH3CN abundance vs H2\nabundance = Model.abundance(ab0, NPoints)\n\ngtd0 = 100. #Gas to dust ratio (H2 vs Dust)\ngtdratio = Model.gastodust(gtd0, NPoints)\n\n#-------------------------\n#ROTATION, VSYS, CENTERING\n#-------------------------\nxc, yc, zc = [350U.AU, -150U.AU, -200U.AU]\nCENTER = [xc, yc, zc] #Center of the region in the global grid\nv_sys = -2000. #m/s\nnewProperties = Model.ChangeGeometry(GRID, center = CENTER, vsys = v_sys, vel = vel,\n\t \t \t rot_dict = { 'angles': [np.pi/2, np.pi/3], 'axis': ['x','z'] })\n\n#At the minute, the Model library only modifies the XYZ lists. \n #It is enough information for LIME\nGRID.XYZ = newProperties.newXYZ\n\n#The velocity should inherit the new velocity distribution \n #(as we rotated the system and added a systemic velocity)\nvel.x, vel.y, vel.z = newProperties.newVEL \n\n#-----------------------------\n#WRITING DATA with LIME format\n#-----------------------------\ntag = '_Burger' #A tag to identify the final files from others\nModel.DataTab_LIME(density.total, temperature.total, vel, abundance, gtdratio, GRID, is_submodel = True, tag = tag)\n\n#-----------------------------\n#PRINTING resultant PROPERTIES\n#-----------------------------\nModel.PrintProperties(density, temperature, GRID)\n\n#-------\n#TIMING\n#-------\nprint ('Ellapsed time: %.3fs' % (time.time() - t0))\nprint ('-------------------------------------------------\\n-------------------------------------------------\\n')\n\n#----------------------------------------\n#3D PLOTTING (weighting with temperature)\n#----------------------------------------\ntag = 'Burger'\nweight = 10*T10Env\nPlot_model.scatter3D(GRID, temperature.total, weight, NRand = 4000, colordim = density.total / 1e6 , axisunit = U.AU, palette = 'hot', \n colorscale = 'log', colorlabel = r'${\\rm log}_{10}(\\rho [cm^{-3}])$', output = 'totalPoints%s.png'%tag, show = True)\n\n\n" } ]	5
Lyttoni/Hello2017	https://github.com/Lyttoni/Hello2017	af17e7874e4add7feaadac02c5db4ee125d34856	0269796d0bbde1891d92d7f265406aee213083f8	5f2be51dadd538218e94f38495986e47f5a64946	refs/heads/master	2018-04-12T21:31:42.956479	2017-05-19T06:12:19	2017-05-19T06:12:19	90,255,494	1	0	null	null	null	null	null	[ { "alpha_fraction": 0.7284644246101379, "alphanum_fraction": 0.7284644246101379, "avg_line_length": 31.25, "blob_id": "0fd4340b2ccb3e1e6afa2b0404afe2f7b96515ad", "content_id": "057fb3e912951e6d1b8c382b49f06e1da7b14c94", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 534, "license_type": "no_license", "max_line_length": 69, "num_lines": 16, "path": "/search/models.py", "repo_name": "Lyttoni/Hello2017", "src_encoding": "UTF-8", "text": "from datetime import datetime\r\n\r\nfrom django.db import models\r\nfrom mongoengine import connect, Document, StringField, DateTimeField\r\nconnect('whois',username='whois',password='Hello2017')\r\n\r\n\r\n# Create your models here.\r\n\r\nclass Information(Document):\r\n inetnum = StringField(required=True)\r\n netname = StringField(required=True)\r\n country = StringField(required=True)\r\n descr = StringField(required=True)\r\n source = StringField(required=True)\r\n date = DateTimeField(default=datetime.now(),required=True)\r\n\r\n" }, { "alpha_fraction": 0.47032323479652405, "alphanum_fraction": 0.4793332517147064, "avg_line_length": 40.080570220947266, "blob_id": "ef9b2cda18e89f33de6c6c8d33154c64c843d58c", "content_id": "641a70469315474c5487915740a4e673acd26de9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8925, "license_type": "no_license", "max_line_length": 120, "num_lines": 211, "path": "/whois/whois.py", "repo_name": "Lyttoni/Hello2017", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\r\n# -- coding: utf-8 --\r\n# @Time : 2017/4/24 15:48\r\n# @Author : Ze7ore\r\n# @File : whois.py\r\n# @Software: PyCharm\r\nimport queue\r\nimport re\r\nimport sys\r\nimport logging\r\nimport socket\r\nimport time\r\nimport threading\r\nfrom datetime import datetime\r\n\r\nimport pymongo\r\nimport mongo_proxy\r\nimport requests\r\n\r\nhttp_file = {\"arin\": \"http://ftp.arin.net/pub/stats/arin/delegated-arin-extended-latest\",\r\n \"ripencc\": \"http://ftp.ripe.net/pub/stats/ripencc/delegated-ripencc-extended-latest\",\r\n \"apnic\": \"http://ftp.apnic.net/stats/apnic/delegated-apnic-extended-latest\",\r\n \"lacnic\": \"http://ftp.lacnic.net/pub/stats/lacnic/delegated-lacnic-extended-latest\",\r\n \"afrinic\": \"http://ftp.afrinic.net/stats/afrinic/delegated-afrinic-extended-latest\"}\r\n\r\nwhois_server = {\"arin\": \"whois.arin.net\",\r\n \"ripencc\": \"whois.ripe.net\",\r\n \"apnic\": \"whois.apnic.net\",\r\n \"lacnic\": \"whois.lacnic.net\",\r\n \"afrinic\": \"whois.afrinic.net\"}\r\n\r\nfile_name = {\"arin\": \"delegated-arin-extended-latest\",\r\n \"ripencc\": \"delegated-ripencc-extended-latest\",\r\n \"apnic\": \"delegated-apnic-extended-latest\",\r\n \"lacnic\": \"delegated-lacnic-extended-latest\",\r\n \"afrinic\": \"delegated-afrinic-extended-latest\"}\r\n\r\nsocket.setdefaulttimeout(120) # socket timeout\r\n\r\nlogging.basicConfig(level=logging.DEBUG,\r\n format='%(asctime)s %(filename)s[line:%(lineno)d] %(levelname)s %(message)s',\r\n datefmt='%a, %d %b %Y %H:%M:%S',\r\n filename='Error.log',\r\n filemode='w')\r\n\r\n\r\nclass whois:\r\n def __init__(self, target_name):\r\n self.target_name = target_name # 作为五大区数据中心名 arin \| apnic ...\r\n self.base_filename = file_name[self.target_name]\r\n\r\n # IP请求数量被限制，最大数量：3\r\n if self.target_name in ['ripencc', 'afrinic']:\r\n self.threads = 3\r\n elif self.target_name == 'lacnic':\r\n self.threads = 1\r\n else:\r\n self.threads = 180\r\n self.semaphore = threading.Semaphore(self.threads) # Thread cound\r\n\r\n self.ip_queue = queue.Queue()\r\n self.load_ipv4_file()\r\n\r\n def client_mongodb(self):\r\n client = mongo_proxy.MongoProxy(pymongo.MongoClient(\"mongodb://whois:[email protected]:27017/whois\"))\r\n db = client.whois # DB\r\n collection = db.information # Document\r\n return collection\r\n\r\n # Return whois infomation\r\n def whois_request(self, domain, server, port=43):\r\n sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\r\n sock.connect((server, port))\r\n sock.send((\"%s\\r\\n\" % domain).encode(\"utf-8\"))\r\n buff = b\"\"\r\n while True:\r\n data = sock.recv(1024)\r\n if len(data) == 0:\r\n break\r\n buff += data\r\n\r\n buff = buff.decode('utf-8')\r\n sock.close()\r\n return buff\r\n\r\n def load_ipv4_file(self):\r\n fo = open(self.base_filename, 'r+')\r\n for line in fo:\r\n line = line.strip()\r\n pattern = re.compile(r'(^%s\\\|..\\\|ipv4\\\|)(.?)\\\|([^d]+d)' % self.target_name)\r\n put = pattern.search(line)\r\n if put:\r\n self.ip_queue.put(put.group(2))\r\n\r\n def scan(self):\r\n ip = self.ip_queue.get()\r\n try:\r\n output = self.whois_request(ip, whois_server[self.target_name])\r\n output = str(output)\r\n except (ConnectionResetError, ConnectionAbortedError):\r\n fo = open('Connection.log', 'a+')\r\n fo.write(ip + '\\n')\r\n fo.close()\r\n except (socket.timeout, TimeoutError, socket.gaierror) as msg:\r\n fo = open('timeout.log', 'a+')\r\n fo.write(ip + '\\n')\r\n fo.close()\r\n except UnicodeDecodeError as msg:\r\n fo = open('DecodeError.log', 'a+')\r\n fo.write(ip + '\\n')\r\n fo.close()\r\n else:\r\n if self.target_name in ['afrinic', 'apnic', 'ripencc']:\r\n try:\r\n inetnum = re.compile(r\"inetnum:(\\s+)([^\\n]+)\").search(output).group(2)\r\n except AttributeError as msg:\r\n fo = open('re_AttributeError.log', 'a+')\r\n fo.write(ip + str(msg) + '\\n')\r\n fo.close()\r\n print(ip + '\\n' + output)\r\n else:\r\n netname = re.compile(r\"netname:(\\s+)([^\\n]+)\").search(output).group(2)\r\n country = re.compile(r\"country:(\\s+)([^\\n]+)\").search(output).group(2)\r\n try:\r\n descr = re.compile(r\"descr:(\\s+)([^\\n]+)\").search(output).group(2)\r\n except:\r\n try:\r\n descr = re.compile(r\"org-name:(\\s+)([^\\n]+)\").search(output).group(2)\r\n except:\r\n fo = open('KeyError_descr.log','a+')\r\n fo.write(ip)\r\n fo.close()\r\n fo = open('KeyError_descr.log','a+')\r\n fo.write(ip)\r\n fo.close()\r\n descr = 'None'\r\n source = re.compile(r\"source:(\\s+)([^\\n]+)\").search(output).group(2)\r\n\r\n info = {'inetnum': inetnum, 'netname': netname, 'country': country, 'descr': descr,\r\n 'source': source,\r\n 'date': datetime.now()}\r\n\r\n elif self.target_name == 'lacnic':\r\n time.sleep(1)\r\n try:\r\n inetnum = re.compile(r\"inetnum:(\\s+)([^\\n]+)\").search(output).group(2)\r\n except AttributeError as msg:\r\n fo = open('re_AttributeError.log', 'a+')\r\n fo.write(ip + str(msg) + '\\n')\r\n fo.close()\r\n print(ip + '\\n' + output)\r\n else:\r\n netname = re.compile(r\"owner:(\\s+)([^\\n]+)\").search(output).group(2)\r\n try:\r\n country = re.compile(r\"country:(\\s+)([^\\n]+)\").search(output).group(2)\r\n except AttributeError as msg:\r\n country = 'None'\r\n descr = re.compile(r\"responsible:(\\s+)([^\\n]+)\").search(output).group(2)\r\n source = 'LACNIC'\r\n # created = re.compile(r\"created:(\\s+)([^\\n]+)\").search(output).group(2)\r\n # changed = re.compile(r\"changed:(\\s+)([^\\n]+)\").search(output).group(2)\r\n\r\n info = {'inetnum': inetnum, 'netname': netname, 'country': country, 'descr': 'responsible:' + descr,\r\n 'source': source, 'date': datetime.now()}\r\n\r\n elif self.target_name == 'arin' and 'NetRange' in output:\r\n try:\r\n inetnum = re.compile(r\"NetRange:(\\s+)([^\\n]+)\").search(output).group(2)\r\n netname = re.compile(r\"NetName:(\\s+)([^\\n]+)\").search(output).group(2)\r\n country = re.compile(r\"Country:(\\s+)([^\\n]+)\").search(output).group(2)\r\n descr = re.compile(r\"Organization:(\\s+)([^\\n]+)\").search(output).group(2)\r\n # created = re.compile(r\"RegDate:(\\s+)([^\\n]+)\").search(output).group(2)\r\n # changed = re.compile(r\"Updated:(\\s+)([^\\n]+)\").search(output).group(2)\r\n source = 'ARIN'\r\n except AttributeError as msg:\r\n fo = open('re_AttributeError.log', 'a+')\r\n fo.write(ip + str(msg) + '\\n')\r\n fo.close()\r\n print(ip + '\\n' + output)\r\n else:\r\n info = {'inetnum': inetnum, 'netname': netname, 'country': country, 'descr': descr,\r\n 'source': source, 'date': datetime.now()}\r\n\r\n # Insert MongoDB\r\n try:\r\n collection = self.client_mongodb()\r\n collection.insert(info)\r\n print(ip,'Success.')\r\n except UnboundLocalError:\r\n logging.info(\"Not info. %s\" % ip)\r\n\r\n self.semaphore.release()\r\n\r\n def run(self):\r\n while not self.ip_queue.empty():\r\n if self.semaphore.acquire():\r\n t = threading.Thread(target=self.scan)\r\n t.start()\r\n print('Threads:', threading.activeCount(), 'Queue:', self.ip_queue.qsize())\r\n\r\n def test(self):\r\n buff = self.whois_request(\"12.0.0.0\", whois_server['arin'])\r\n # inetnum = re.compile(r\"inetnum:(\\s+)([^\\n]+)\").search(buff).group(2)\r\n print(buff)\r\n\r\n\r\nif __name__ == '__main__':\r\n name = sys.argv[1]\r\n whois = whois(name)\r\n whois.run()\r\n # whois.test()\r\n" }, { "alpha_fraction": 0.6407727003097534, "alphanum_fraction": 0.6481710076332092, "avg_line_length": 36.619049072265625, "blob_id": "36b1f8e2100d0734741a67a18674dc5699ff803b", "content_id": "57589360e91b7741f321fb54f49c5b486e9006ee", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2495, "license_type": "no_license", "max_line_length": 107, "num_lines": 63, "path": "/search/views.py", "repo_name": "Lyttoni/Hello2017", "src_encoding": "UTF-8", "text": "import re\r\n\r\nfrom django.shortcuts import render, get_object_or_404, render_to_response\r\nfrom django.http import Http404\r\nfrom django.core import serializers\r\n\r\n# Create your views here.\r\n\r\nfrom django.http import HttpResponse\r\nfrom django.views.generic import ListView, TemplateView\r\nfrom django.core.paginator import PageNotAnInteger, Paginator, EmptyPage\r\n\r\nfrom .models import Information\r\n\r\n\r\nclass IndexView(TemplateView):\r\n template_name = 'search/index.html'\r\n\r\nclass AboutView(TemplateView):\r\n template_name = 'search/about.html'\r\n\r\nclass InstructionView(TemplateView):\r\n template_name = 'search/instruction.html'\r\n\r\ndef search_list(request):\r\n search_key = request.GET.get('search_key')\r\n search_type = request.GET.get('search_type')\r\n\r\n # Get Search Type and Values\r\n if request.method == 'POST' and len(request.POST['search_values']) > 0:\r\n search_values = request.POST['search_values']\r\n try:\r\n matchObj = re.match(r\"^([^=]+)=([^\\n]+)\", search_values)\r\n search_type = matchObj.group(1)\r\n search_key = matchObj.group(2)\r\n except:\r\n error = {'message': '无法理解你的意思呢...'}\r\n return render(request, 'search/index.html', {'error': error})\r\n\r\n if search_type == 'ip':\r\n whois = Information.objects(inetnum__icontains=search_key) # 不区分大小写的包含匹配\r\n elif search_type == 'netname':\r\n whois = Information.objects(netname__icontains=search_key)\r\n elif search_type == 'country':\r\n whois = Information.objects(country__iexact=search_key) # 不区分大小写的完全匹配\r\n elif search_type == 'source':\r\n whois = Information.objects(source__iexact=search_key)\r\n elif search_type == 'descr':\r\n whois = Information.objects(descr__icontains=search_key)\r\n else:\r\n whois = Information.objects.all()\r\n paginator = Paginator(whois, 25) # Show 25 contacts per page\r\n page = request.GET.get('page')\r\n try:\r\n contacts = paginator.page(page)\r\n except PageNotAnInteger:\r\n # If page is not an integer, deliver first page.\r\n contacts = paginator.page(1)\r\n except EmptyPage:\r\n # If page is out of range (e.g. 9999), deliver last page of results.\r\n contacts = paginator.page(paginator.num_pages)\r\n return render_to_response('search/search_list.html',\r\n {\"contacts\": contacts, 'search_key': search_key, 'search_type': search_type})\r\n" }, { "alpha_fraction": 0.5729166865348816, "alphanum_fraction": 0.6000000238418579, "avg_line_length": 28, "blob_id": "2220d812521ef70f68b3a695d42e5fc7ea9d189d", "content_id": "217472b81c5c5ab2c934c0312c1155f6e099dff7", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 480, "license_type": "no_license", "max_line_length": 80, "num_lines": 16, "path": "/search/urls.py", "repo_name": "Lyttoni/Hello2017", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\r\n# -- coding: utf-8 -*-\r\n# @Time : 2017/4/27 14:47\r\n# @Author : Ze7ore\r\n# @File : urls.py\r\n# @Software: PyCharm\r\nfrom django.conf.urls import url\r\n\r\nfrom . import views\r\n\r\nurlpatterns = [\r\n url(r'^$', views.IndexView.as_view(), name='index'),\r\n url(r'^about/$', views.AboutView.as_view(), name='about'),\r\n url(r'^instruction/$', views.InstructionView.as_view(), name='instruction'),\r\n url(r'^list/$', views.search_list, name='list'),\r\n]\r\n" } ]	4
mandafigura/Assignment-02_Image-Processing	https://github.com/mandafigura/Assignment-02_Image-Processing	b2f646ab462b0d4f3282e803c609d0c5448c4ed8	a1543bc55c8f70ad389b8c9736e42698eb412224	452dc42e0e4954033f271c9d5742b3a53f067ccf	refs/heads/master	2022-11-13T08:43:23.975833	2020-07-08T03:42:05	2020-07-08T03:42:05	257,739,588	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.5694960951805115, "alphanum_fraction": 0.5847142338752747, "avg_line_length": 31.025270462036133, "blob_id": "f296b46e0ee6773ec4849a017de2fb8a18b663cd", "content_id": "0c29a4c8ac7f60f1d6b3f910afaf1b7a62fda8e0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8939, "license_type": "no_license", "max_line_length": 125, "num_lines": 277, "path": "/submission/main.py", "repo_name": "mandafigura/Assignment-02_Image-Processing", "src_encoding": "UTF-8", "text": "# # # # # # # # # # # HEADER # # # # # # # # # # #\n# #\n# ALUNA: Amanda Carrijo Viana Figur #\n# ALUNO: Luiz Augusto Vieira Manoel #\n# CURSO: Mestrado em Ciências de Computação e #\n# Matemática Computacional (PPG-CCMC) #\n# ANO DE INGRESSO: 2020/2019 #\n# ASSIGNMENT 2 - FILTERING #\n# #\n## # # # # # # # # # # # # # # # # # # # # # # # ##\n\nimport imageio as img # mexe direitinho com as imagens\nimport matplotlib.pyplot as plt # plota as coisinhas\nimport numpy as np # mexe direitinho com números\n\n\n# Função que plota duas imagens lado a lado. r = referencia, m = modificada\ndef plot_compare(r, m):\n plt.figure(figsize=(12, 12))\n\n # defines a panel to show the images side by side\n plt.subplot(121) # panel with 1 row, 2 columns, to show the image at the first (1st) position\n plt.imshow(r, cmap=\"gray\")\n plt.axis('off') # remove axis with numbers\n\n plt.subplot(122) # panel with 1 row, 2 columns, to show the image at the second (2nd) position\n plt.imshow(m, cmap=\"gray\")\n plt.axis('off')\n\n plt.show()\n\n# normaliza uma imagem referência r\ndef image_normalization(r):\n a = np.amin(r) # menor intensidade da imagem como float pra calcular valores\n b = np.amax(r) # maior intensidade da imagem como float pra calcular valores\n # normaliza intensidades da imagem\n r = ((r - a) * 255) / (b - a)\n return r\n\n# Encontra o centro da matriz: verifica se o número de linhas e colunas\n# é par ou ímpar e adequa o centro conforme\ndef find_matrix_center(w):\n n, m = w.shape\n # linha\n if (n % 2 != 0):\n a = int((n - 1) / 2)\n else:\n a = int((n / 2) - 1)\n # coluna\n if (m % 2 != 0):\n b = int((m - 1) / 2)\n else:\n b = int((m / 2) - 1)\n return a,b\n\n\n# aplica a convolução w a uma imagem r=referencia e retorna a matriz modificada g como float32\n# OBS: APLICAR O PADDING NECESSÁRIO ANTES\ndef image_convolution(r, w):\n a,b = find_matrix_center(w)\n\n N, M = r.shape\n\n # flipped filter pra aplicar a convolução\n w_flip = np.flip(np.flip(w, 0), 1)\n\n # nova imagem para salvar os valores com a convolução aplicada\n g = np.zeros(r.shape, dtype=np.float32)\n\n # calculando o valor para cada pixel da imagem, ignorando os pixels das bordas (que aplicamos padding)\n for x in range(a, N - a):\n for y in range(b, M - b):\n # gets subimage\n sub_r = r[x - a: x + a + 1, y - b:y + b + 1]\n # computes g at (x,y)\n g[x, y] = np.sum(np.multiply(sub_r, w_flip))\n return g\n\n\ndef gaussian_kernel(x, ss):\n return (np.exp(((-1 * (x ** 2)) / (2 * (ss ** 2)))) / (2 * np.pi * (ss ** 2)))\n\n\ndef bilateral_convolution(r, gs, sr):\n N, M = r.shape\n n,m = gs.shape\n\n a, b = find_matrix_center(gs)\n\n # nova imagem para salvar os valores com a convolução aplicada\n g = np.zeros(r.shape, dtype=np.float32)\n\n #percorre a matriz da imagem\n for x in range(a, N - a):\n for y in range(b, M - b):\n If = 0\n Wp = 0\n # gets subimage\n sub_r = r[x - a: x + a + 1, y - b:y + b + 1]\n\n gr = np.zeros((n, m), dtype=np.float32)\n w = np.zeros((n, m), dtype=np.float32)\n\n for s_x in range(0, n):\n for s_y in range(0, m):\n gr[s_x, s_y] = gaussian_kernel((sub_r[s_x, s_y] - sub_r[a, b]), sr)\n\n w[s_x, s_y] = gs[s_x, s_y] * gr[s_x, s_y]\n\n Wp = Wp + w[s_x, s_y]\n If = If + (w[s_x, s_y] * sub_r[s_x, s_y])\n\n g[x, y] = If / Wp\n\n return g\n\n\n# Método 1\n# Função que aplica o filtro bilateral. Em ordem: Imagem de Referência, tamanho do filtro n\n# ----------------------------------------------- parâmetro sigma_s e parâmetro sigma_r\ndef bilateral_filter(r, n, ss, sr):\n w = np.zeros((n, n), dtype=np.float32)\n\n a,b = find_matrix_center(w)\n\n # Spatial component\n for x in range(0, n):\n for y in range(0, n):\n w[x, y] = gaussian_kernel(np.sqrt(((x - a) 2) + ((y - b) 2)), ss)\n\n r = r.astype(np.float32)\n w = w.astype(np.float32)\n\n m = bilateral_convolution(r, w, sr)\n\n return (m.astype(np.uint8))\n\n\n# Método 2\n# Função que aplica o filtro laplaciano e retorna a imagem modificada. Em ordem: Imagem de Referência, parâmetro c e kernel\ndef unsharp_mask(r, c, k):\n # determinando a matriz que utilizaremos para fazer a convolução\n if k == 1:\n w = np.array([[0, -1, 0], [-1, 4, -1], [0, -1, 0]])\n elif k == 2:\n w = np.array([[-1, -1, -1], [-1, 8, -1], [-1, -1, -1]])\n\n # converte matrizes pra precisão de ponto flutuante antes de todas as contas\n r = r.astype(np.float32)\n w = w.astype(np.float32)\n # convolucionando a imagem\n m = image_convolution(r, w)\n # normalizando a imagem modificada\n m = image_normalization(m)\n # aplicando a operação com o parâmetro c na imagem normalizada\n m = m * c + r\n # normalizando a imagem após o parâmetro c\n m = image_normalization(m)\n\n return (m.astype(np.uint8))\n\n\n# Método 3\n# função que aplica uma vinheta na imagem. Em ordem: Imagem de Referência, parâmetro sigma_col e parâmetro sigma_row\ndef vignette_filter(r, row, col):\n N, M = r.shape\n #cria matrizes necessárias e determina os valores como float\n Wrow = np.zeros(N)\n Wcol = np.zeros(M)\n Wrow = Wrow.astype(np.float32)\n Wcol = Wcol.astype(np.float32)\n r = r.astype(np.float32)\n m = np.zeros(r.shape, dtype=np.float32)\n\n a,b = find_matrix_center(r)\n\n #preenche a matriz linha e coluna com os valores calculados do Gaussian Kernel\n for x in range(0, N):\n Wrow[x] = gaussian_kernel(x - a, row)\n\n for y in range(0, M):\n Wcol[y] = gaussian_kernel(y - b, col)\n\n #um ajuste de estrutura dos dados pra poder ter um vetor coluna e fazer a multiplicação de matrizes\n Wrow = Wrow[np.newaxis]\n Wcol = Wcol[np.newaxis]\n\n Wrow = np.transpose(Wrow)\n\n w = np.multiply(Wrow, Wcol)\n\n #multiplica matriz termo a termo\n for x in range(0, N):\n for y in range(0, M):\n m[x, y] = r[x, y] * w[x, y]\n\n # normalizando a imagem modificada\n m = image_normalization(m)\n\n return (m.astype(np.uint8))\n\n\n# Função que prepara a imagem r=referencia pra aplicar a convulução com um padding de tamanho determinado de linhas e colunas\ndef image_padding(r, prow, pcol):\n r = np.pad(r, ((prow, prow), (pcol, pcol)),'constant') # (array, tamanho_do_padding, valor_do_padding_defaut_eh_zero)\n # print(r)\n return r\n\n\n# função que calcula o erro, recebe (respectivamente) a imagem de referência e a imagem modificada\ndef calculo_erro(r, m):\n # converte informações das intensidades para float (evitar erros nos cálculos)\n m = m.astype(np.float32)\n r = r.astype(np.float32)\n\n # cria uma matriz auxiliar na qual executaremos as contas necessárias\n aux = m - r # calcula a diferença entre cada termo da matriz modificada e da matriz referencia\n aux = np.power(aux, 2) # eleva cada termo da matriz ao quadrado\n soma = aux.sum() # soma todos os termos da matriz\n RSE = np.sqrt(soma) # a raiz quadrada da soma resulta no erro desejado\n\n # imprime o número RSE com 4 casas decimais de precisão e ajusta a identação\n print(f\"{RSE:.4f}\", sep='', end='')\n\n\n# função que salva a imagem caso a condição indique que sim\ndef save_img(img, name, condition):\n if condition == 1:\n img.imwrite(name, img)\n\n\n# Reading inputs\nfilename = str(input()).rstrip()\nmethod = int(input())\nsave = int(input())\n\ninput_img = img.imread(filename)\n\nif method == 1:\n # recebe parametros\n filter_size = int(input())\n sigma_s = float(input())\n sigma_r = float(input())\n\n # faz o padding da imagem\n pad_size = int((filter_size - 1) / 2)\n input_img = image_padding(input_img, pad_size, pad_size)\n\n # aplica o filtro\n output_img = bilateral_filter(input_img, filter_size, sigma_s, sigma_r)\n\n\n\nelif method == 2:\n # recebe parametros\n par_c = float(input())\n kernel = int(input())\n # faz o padding da imagem\n input_img = image_padding(input_img, 1, 1)\n # aplica o filtro\n output_img = unsharp_mask(input_img, par_c, kernel)\n\n\nelif method == 3:\n # recebe parametros\n sigma_row = float(input())\n sigma_col = float(input())\n\n # faz o padding da imagem\n input_img = image_padding(input_img, 1, 1)\n\n # aplica o filtro\n output_img = vignette_filter(input_img, sigma_row, sigma_col)\n\ncalculo_erro(input_img, output_img) # computa o erro RSE\nplot_compare(input_img,output_img) # compara imagens lado a lado\nsave_img(output_img, filename + \"_nova.png\", save) # salva a imagem modificada, caso indicado\n" }, { "alpha_fraction": 0.7307692170143127, "alphanum_fraction": 0.7582417726516724, "avg_line_length": 31, "blob_id": "f5ef9ccdb4f68b7635c35c41c43978efdac86bfc", "content_id": "36545a7209869e64c8b2efa70ecd3d0fd1837519", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 546, "license_type": "no_license", "max_line_length": 113, "num_lines": 17, "path": "/README.md", "repo_name": "mandafigura/Assignment-02_Image-Processing", "src_encoding": "UTF-8", "text": "# DIP Assignment\n\nImage Processing - SCC0251/SCC5830. First semester of 2020.\n\nAssignment 2 - Image enhancemenet\n\nAuthors:\n* Amanda Carrijo Viana Figur\n* Luiz Augusto Vieira Manoel\n\nFolders and files:\n* [Python code](./submission/main.py) contains the Python code used for run.codes submission\n* [Images](/images) contains images used in the demos\n* [Tests](/tests) contains two files .in used in the demos\n* [Notebook with Demo](Assignment_02_notebook.ipynb) is a notebook exemplifying functions developed and submitted\n\nWarning: The content on this repository is in portuguese.\n\n\n" } ]	2
quantunm/reinforcement_learning_exercises_src	https://github.com/quantunm/reinforcement_learning_exercises_src	6496d318db4895cd333a2f745d5d101cf829bc81	0d1b96903ef1e748cb2b5a1536ad3a69795d22a0	671740ce98fa511670b976830507fc2ef115808c	refs/heads/master	2020-06-29T06:29:10.057846	2019-10-03T10:02:16	2019-10-03T10:02:16	200,462,953	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.5588613152503967, "alphanum_fraction": 0.5813590288162231, "avg_line_length": 48.05855941772461, "blob_id": "9cae1521e6dad1f8e3f6af48d52e0b16b7248653", "content_id": "ce8c6b83a11452a5572ff506cf1d67b5781e7e29", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 10890, "license_type": "no_license", "max_line_length": 168, "num_lines": 222, "path": "/Chapter_4/car_rental.py", "repo_name": "quantunm/reinforcement_learning_exercises_src", "src_encoding": "UTF-8", "text": "#==================================================================\n# Python3\n# Copyright\n# 2019 Ye Xiang ([email protected])\n#==================================================================\n\nimport scipy.stats as sci_stats\nimport numpy as np\nimport matplotlib as mpltlib\nimport matplotlib.pyplot as mtplt\nimport seaborn as sbn\nimport math\n\nclass car_rental:\n def __init__(self):\n self.__init__all()\n\n def __init__all(self):\n self._max_car_num = 20 # maximum car number for each location\n self._gamma = 0.9 # discount rate\n self.__max_transfer_car_num = 5\n self.__accuracy = 0.01\n self._transfer_cost_per_car = 2\n self.__rental_credit_per_car = 10\n\n #Initialize policy and V(s) as zeros in 21X21 table, becauseof no more than 20 cars for each loaction\n self.__Vs = np.zeros((self._max_car_num + 1,self._max_car_num + 1))\n self.__policy = np.zeros(self.__Vs.shape, dtype = np.int32)\n\n #Record policy changes in iteration\n self.__history_policy = []\n\n self._requested_prob1 = self.__init_probabilities(self._max_car_num + 1, 3)\n self._returned_prob1 = self.__init_probabilities(self._max_car_num + 1, 3)\n self._requested_prob2 = self.__init_probabilities(self._max_car_num + 1, 4)\n self._returned_prob2 = self.__init_probabilities(self._max_car_num + 1, 2)\n\n #The probability that the request car number >= the car number in the morning.\n self._req_over_boundary_prob1 = self.__init_over_boundary_prob(self._requested_prob1)\n self._req_over_boundary_prob2 = self.__init_over_boundary_prob(self._requested_prob2)\n #The probability that the returned car number makes the car number >= the maximum car num in the evening.\n self._ret_over_boundary_prob1 = self.__init_over_boundary_prob(self._returned_prob1)\n self._ret_over_boundary_prob2 = self.__init_over_boundary_prob(self._returned_prob2)\n\n def __init_probabilities(self, array_size, poisson_lambda):\n arr = np.zeros(array_size)\n for i in range(0, array_size):\n arr[i] = sci_stats.poisson.pmf(k = i, mu = poisson_lambda)\n return arr\n\n def __init_over_boundary_prob(self, prob_in_boundary):\n # For example, when requested car number is 3, the car number in morning is 2, the self._req_over_boundary_prob1[2] stands for \n # all the request car number that makes the remain car number is 0, include requested car number is 2, 3, 4 & ...\n # so self._req_over_boundary_prob1[2] = 1 - self._requseted_prob1[0]- self._requseted_prob1[1]\n prob = np.zeros(len(prob_in_boundary) + 1)\n tmp = 0\n prob[0] = 1\n for i in range(1, len(prob_in_boundary) + 1):\n tmp += prob_in_boundary[i - 1]\n prob[i] = 1 - tmp\n return prob\n\n def _get_rental_reward(self, request_num, car_num):\n return min(self._max_car_num, min(request_num, car_num)) * self.__rental_credit_per_car\n\n def _get_action_cost(self, action):\n return abs(action) * self._transfer_cost_per_car\n \n\n def _calculate_Vs_by_policy(self, Vs,car_num1_in_evening, car_num2_in_evening, action):\n tmp_vs = 0.0\n prob_of_requested_car_num1 = 0\n prob_of_requested_car_num2 = 0\n prob_of_returned_car_num1 = 0\n prob_of_returned_car_num2 = 0\n car_num1_in_next_morning = max(0, min(car_num1_in_evening - action, self._max_car_num))\n car_num2_in_next_morning = max(0, min(car_num2_in_evening + action, self._max_car_num))\n rented_car_num1 = 0\n rented_car_num2 = 0\n car_num1_in_next_evening = 0\n car_num2_in_next_evening = 0\n action_cost = self._get_action_cost(action)\n \n for requested_car_num1 in range(0, car_num1_in_next_morning + 1):\n if requested_car_num1 >= car_num1_in_next_morning:\n #This case stands for all the request car numbers larger then the car number in next morning.\n prob_of_requested_car_num1 = self._req_over_boundary_prob1[car_num1_in_next_morning]\n else:\n prob_of_requested_car_num1 = self._requested_prob1[requested_car_num1]\n rented_car_num1 = min(requested_car_num1, car_num1_in_next_morning)\n\n for requested_car_num2 in range(0, car_num2_in_next_morning + 1):\n if requested_car_num2 >= car_num2_in_next_morning:\n #This case stands for all the request car numbers larger then the car number in next morning.\n prob_of_requested_car_num2 = self._req_over_boundary_prob2[car_num2_in_next_morning]\n else:\n prob_of_requested_car_num2 = self._requested_prob2[requested_car_num2]\n rented_car_num2 = min(requested_car_num2,car_num2_in_next_morning)\n reward = self._get_rental_reward(requested_car_num1, car_num1_in_next_morning) + self._get_rental_reward(requested_car_num2, car_num2_in_next_morning) \\\n - action_cost\n \n ret_num1_to_boundary = self._max_car_num - (car_num1_in_next_morning - rented_car_num1)\n for returned_car_num1 in range(0, ret_num1_to_boundary + 1):\n if returned_car_num1 >= ret_num1_to_boundary:\n #This case stands for all the returned numbers larger then ret_num1_to_boundary\n prob_of_returned_car_num1 = self._ret_over_boundary_prob1[ret_num1_to_boundary]\n else:\n prob_of_returned_car_num1 = self._returned_prob1[returned_car_num1]\n car_num1_in_next_evening = min(car_num1_in_next_morning - rented_car_num1 + returned_car_num1, self._max_car_num)\n\n ret_num2_to_boundary = self._max_car_num - (car_num2_in_next_morning - rented_car_num2)\n for returned_car_num2 in range(0, ret_num2_to_boundary + 1): \n if returned_car_num2 >= ret_num2_to_boundary:\n #This case stands for all the returned numbers larger then ret_num2_to_boundary\n prob_of_returned_car_num2 = self._ret_over_boundary_prob2[ret_num2_to_boundary]\n else:\n prob_of_returned_car_num2 = self._returned_prob2[returned_car_num2] \n car_num2_in_next_evening = min(car_num2_in_next_morning - rented_car_num2 + returned_car_num2, self._max_car_num)\n \n prob = prob_of_requested_car_num1 * prob_of_requested_car_num2 \\\n * prob_of_returned_car_num1 * prob_of_returned_car_num2\n tmp_vs += prob * (reward + self._gamma * Vs[car_num1_in_next_evening][car_num2_in_next_evening])\n \n return tmp_vs\n\n def __calculate_Vs(self, Vs, car_num1_in_evening, car_num2_in_evening):\n return self._calculate_Vs_by_policy(Vs, car_num1_in_evening, car_num2_in_evening, self.__policy[car_num1_in_evening][car_num2_in_evening])\n\n def __policy_evaluation(self):\n delta = self.__accuracy + 1 # initialize delta to a number larger than accuracy to enable while loop.\n while delta >= self.__accuracy: \n delta = 0.0 # reinitialize delta to 0\n Vs = self.__Vs.copy()\n for car_num1_in_evening in range(0, self._max_car_num + 1):\n for car_num2_in_evening in range(0, self._max_car_num + 1): \n v = self.__Vs[car_num1_in_evening][car_num2_in_evening] \n self.__Vs[car_num1_in_evening][car_num2_in_evening] = self.__calculate_Vs(Vs, car_num1_in_evening, car_num2_in_evening)\n err = abs(v - self.__Vs[car_num1_in_evening][car_num2_in_evening])\n delta = max(delta ,err)\n #print(self.__Vs)\n print('delta = {}'.format(delta))\n\n def __argmax_a_for_Vs(self, car_num1, car_num2):\n a = -car_num2\n vs = self._calculate_Vs_by_policy(self.__Vs, car_num1, car_num2, a)\n for i in range(-car_num2 + 1, car_num1 + 1):\n tmp_vs = self._calculate_Vs_by_policy(self.__Vs, car_num1, car_num2, i)\n if tmp_vs > vs:\n a = i\n vs = tmp_vs\n return a, vs\n\n\n def __policy_improvement(self):\n policy_stable = True\n for i in range(0, self._max_car_num + 1):\n for j in range(0, self._max_car_num + 1):\n old_policy = self.__policy[i][j]\n old_vs = self.__Vs[i][j]\n self.__policy[i][j], vs = self.__argmax_a_for_Vs(i,j)\n if self.__policy[i][j] != old_policy and abs(old_vs - vs) > self.__accuracy:\n policy_stable = False\n return policy_stable\n\n def policy_iteration(self, bRecord_iteration_history):\n self.__init__all()\n policy_stable = False\n if bRecord_iteration_history:\n self.__history_policy.append(self.__policy.copy())\n while not policy_stable:\n self.__policy_evaluation()\n policy_stable = self.__policy_improvement()\n print(self.__policy)\n if bRecord_iteration_history:\n self.__history_policy.append(self.__policy.copy())\n\n @property\n def policy(self):\n return self.__policy\n \n @property\n def history_policy(self):\n return self.__history_policy\n\n @property\n def max_car_num(self):\n return self._max_car_num\n\n @property\n def Vs(self):\n return self.__Vs\n\nif __name__ == '__main__':\n \n car_rental_instance = car_rental()\n car_rental_instance.policy_iteration(True)\n history_policy = car_rental_instance.history_policy\n value = car_rental_instance.Vs\n policy_num = len(history_policy)\n row = math.ceil((policy_num + 1) / 3)\n fig, axes = mtplt.subplots(row, 3, figsize=(20, row * 5))\n mtplt.subplots_adjust(left = 0.05, right = 0.95, bottom = 0.05, top = 0.95, wspace=0.2, hspace=0.3)\n axes = axes.flatten()\n \n for i in range(0, policy_num):\n sbn_fig = sbn.heatmap(np.flipud(history_policy[i]), ax=axes[i])\n sbn_fig.set_ylabel(\"cars at first location\")\n sbn_fig.set_xlabel(\"cars at second location\")\n sbn_fig.set_title(r\"$\\pi${}\".format(i))\n sbn_fig.set_yticks(list(reversed(range(0, car_rental_instance.max_car_num + 1))))\n sbn_fig.tick_params(labelsize = 8)\n\n sbn_fig = sbn.heatmap(np.flipud(value), ax=axes[-1], cmap=\"YlGnBu\")\n sbn_fig.set_ylabel(\"cars at first location\")\n sbn_fig.set_xlabel(\"cars at second location\")\n sbn_fig.set_title(r\"$v_$\")\n sbn_fig.set_yticks(list(reversed(range(0, car_rental_instance.max_car_num + 1))))\n sbn_fig.tick_params(labelsize = 8)\n\n \n mtplt.show()\n mtplt.close()" }, { "alpha_fraction": 0.5232791900634766, "alphanum_fraction": 0.5488012433052063, "avg_line_length": 40.4487190246582, "blob_id": "f73eb1ee3da70e898859e5331e593f720d329b19", "content_id": "7e5fdcda9c5ce79bbd1d38e422b6551d49af610a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 6465, "license_type": "no_license", "max_line_length": 155, "num_lines": 156, "path": "/Chapter_6/windy_gridworld.py", "repo_name": "quantunm/reinforcement_learning_exercises_src", "src_encoding": "UTF-8", "text": "#==================================================================\n# Python3\n# Copyright\n# 2019 Ye Xiang ([email protected])\n#==================================================================\n\nimport numpy as np\nimport copy\nimport matplotlib.pyplot as mplt_pyplt\n\nACTION_LEFT = 0\nACTION_UP = 1\nACTION_RIGHT = 2\nACTION_DOWN = 3\nACTION_LEFTUP = 4\nACTION_RIGHTUP = 5\nACTION_RIGHTDOWN = 6\nACTION_LEFTDOWN = 7\nACTION_STAY = 8\n\nACTIONS_TYPE_4 = 0\nACTIONS_TYPE_8 = 1\nACTIONS_TYPE_9 = 2\n\nclass CState:\n def __init__(self, x = 0, y = 0):\n self.X = int(x)\n self.Y = int(y)\n \n def __eq__(self, rhs):\n return self.X == rhs.X and self.Y == rhs.Y\n\n def __ne__(self, rhs):\n return self.X != rhs.X or self.Y != rhs.Y\n\nclass CWindy_gridworld:\n def __init__(self):\n self.__gridworld_width = 0\n self.__gridworld_height = 0\n self.__wind_strength = None\n self.__Q = None\n self.__actions = {}\n self.__epsilon = 0\n self.__alpha = 0\n self.__gamma = 0\n self.__state_start = CState(0, 3)\n self.__state_goal = CState(7, 3)\n self.__time_steps = 0\n self.__records = []\n self.__f_get_next_state = None\n \n def __initialize(self, stochastic_wind, actions_type, epsilon, alpha, gamma = 1):\n self.__gridworld_width = 10\n self.__gridworld_height = 7\n self.__wind_strength = np.zeros((self.__gridworld_width, self.__gridworld_height))\n self.__wind_strength[3:6, :] = 1\n self.__wind_strength[6:8, :] = 2\n self.__wind_strength[8, :] = 1\n self.__actions.clear()\n if(actions_type == ACTIONS_TYPE_4):\n self.__actions = { ACTION_LEFT:(-1, 0), ACTION_UP:(0, 1), ACTION_RIGHT:(1, 0), ACTION_DOWN:(0, -1)}\n elif(actions_type == ACTIONS_TYPE_8):\n self.__actions = {ACTION_LEFT:(-1, 0), ACTION_UP:(0, 1), ACTION_RIGHT:(1, 0), ACTION_DOWN:(0, -1), \n ACTION_LEFTUP:(-1, 1), ACTION_RIGHTUP:(1, 1), ACTION_RIGHTDOWN:(1, -1), ACTION_LEFTDOWN:(-1, -1)}\n elif(actions_type == ACTIONS_TYPE_9):\n self.__actions = {ACTION_LEFT:(-1, 0), ACTION_UP:(0, 1), ACTION_RIGHT:(1, 0), ACTION_DOWN:(0, -1), \n ACTION_STAY:(0 ,0), ACTION_LEFTUP:(-1, 1), ACTION_RIGHTUP:(1, 1), ACTION_RIGHTDOWN:(1, -1), ACTION_LEFTDOWN:(-1, -1)}\n else:\n raise TypeError('Invalid action type!')\n self.__Q = np.zeros((self.__gridworld_width, self.__gridworld_height, len(self.__actions)))\n self.__epsilon = epsilon\n self.__alpha = alpha\n self.__gamma = gamma\n self.__time_steps = 0\n self.__records = []\n if stochastic_wind:\n self.__f_get_next_state = self.__get_next_state_stochastic\n else:\n self.__f_get_next_state = self.__get_next_state\n\n\n def __get_next_state(self, state, action):\n temp = self.__actions[action]\n X = state.X + temp[0]\n Y = state.Y + temp[1] + self.__wind_strength[state.X][state.Y]\n X = max(0, min(X, self.__gridworld_width - 1))\n Y = max(0, min(Y, self.__gridworld_height - 1))\n return CState(X, Y)\n\n def __get_next_state_stochastic(self, state, action):\n temp = self.__actions[action]\n X = state.X + temp[0]\n wind_strength = self.__wind_strength[state.X][state.Y]\n Y = state.Y + temp[1] + wind_strength\n if wind_strength != 0:\n Y = Y + np.random.choice([-1, 0, 1])\n X = max(0, min(X, self.__gridworld_width - 1))\n Y = max(0, min(Y, self.__gridworld_height - 1))\n return CState(X, Y)\n\n def __get_action(self, state):\n if np.random.choice([True, False], p = [1 - self.__epsilon, self.__epsilon]):\n q_max = np.max(self.__Q[state.X][state.Y])\n indices = [i for i, val in enumerate(self.__Q[state.X][state.Y]) if val == q_max]\n return np.random.choice(indices)\n else:\n return np.random.choice(list(self.__actions.keys()))\n\n def __run_in_episode(self):\n state = copy.copy(self.__state_start)\n action = self.__get_action(state)\n while state != self.__state_goal:\n next_state = self.__f_get_next_state(state, action)\n next_action = self.__get_action(next_state)\n reward = -1 if next_state != self.__state_goal else 0\n Q_s_a = self.__Q[state.X][state.Y][action]\n self.__Q[state.X][state.Y][action] = Q_s_a + self.__alpha (reward + self.__gamma * self.__Q[next_state.X][next_state.Y][next_action] - Q_s_a)\n state = next_state\n action = next_action \n self.__time_steps += 1\n\n def Sarsa_on_policy(self, stochastic_wind = False, episodes = 200, actions_type = ACTIONS_TYPE_4, epsilon = 0.1, alpha = 0.1, gamma = 1):\n self.__initialize(stochastic_wind, actions_type, epsilon, alpha, gamma)\n for i in range(0, episodes):\n self.__run_in_episode()\n self.__records.append(self.__time_steps)\n print('epsode: %d; progress: %.2f'%(i + 1, i / episodes * 100), end='\\r')\n print('episode: %d; progress: 100%%' % (episodes))\n\n @property\n def records(self):\n return self.__records\n\nclass CPlot:\n def plot(self, records, title = ''):\n mplt_pyplt.plot(records, np.arange(1, len(records) + 1, 1))\n mplt_pyplt.xlabel('Time steps')\n mplt_pyplt.ylabel('Episodes')\n mplt_pyplt.title(title)\n mplt_pyplt.show()\n\nif __name__ == \"__main__\":\n wg = CWindy_gridworld()\n plt = CPlot()\n wg.Sarsa_on_policy()\n plt.plot(wg.records, 'Sarsa on policy\\n 4 Actions, ' + r'$\\alpha$ = 0.1, $\\epsilon$ = 0.1')\n wg.Sarsa_on_policy(actions_type = ACTIONS_TYPE_8)\n plt.plot(wg.records, 'Sarsa on policy\\n 8 Actions, ' + r'$\\alpha$ = 0.1, $\\epsilon$ = 0.1')\n wg.Sarsa_on_policy(actions_type = ACTIONS_TYPE_9)\n plt.plot(wg.records, 'Sarsa on policy\\n 9 Actions, ' + r'$\\alpha$ = 0.1, $\\epsilon$ = 0.1')\n wg.Sarsa_on_policy(True)\n plt.plot(wg.records, 'Sarsa on policy\\n 4 Actions, stochastic wind, ' + r'$\\alpha$ = 0.1, $\\epsilon$ = 0.1')\n wg.Sarsa_on_policy(True, actions_type = ACTIONS_TYPE_8)\n plt.plot(wg.records, 'Sarsa on policy\\n 8 Actions, stochastic wind, ' + r'$\\alpha$ = 0.1, $\\epsilon$ = 0.1')\n wg.Sarsa_on_policy(True, actions_type = ACTIONS_TYPE_9)\n plt.plot(wg.records, 'Sarsa on policy\\n 9 Actions, stochastic wind, ' + r'$\\alpha$ = 0.1, $\\epsilon$ = 0.1')" }, { "alpha_fraction": 0.537396252155304, "alphanum_fraction": 0.5575644373893738, "avg_line_length": 36.21268081665039, "blob_id": "393c8958f2ef10b2ded109842c5478e57239d126", "content_id": "ada9e8b358ac1696b75ac45b4be8f2a76d504f86", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 18197, "license_type": "no_license", "max_line_length": 126, "num_lines": 489, "path": "/Chapter_5/Blackjack.py", "repo_name": "quantunm/reinforcement_learning_exercises_src", "src_encoding": "UTF-8", "text": "#==================================================================\n# Python3\n# Copyright\n# 2019 Ye Xiang ([email protected])\n#==================================================================\n\nimport copy\nimport numpy as np\nfrom enum import Enum\nimport matplotlib.pyplot as mplt_pyplt\nfrom mpl_toolkits.mplot3d import Axes3D\nfrom progressbar import ProgressBar\nimport seaborn as sbn\n\nACTION_STICK = 0\nACTION_HIT = 1\n\nclass PlayerState:\n def __init__(self):\n self.card_sum = 0\n self.used_ace_num = 0\n self.dealers_showing = 0\n def reset(self):\n self.card_sum = 0\n self.used_ace_num = 0\n self.dealers_showing = 0\n\n def __eq__(self,rhs):\n if self.card_sum == rhs.card_sum \\\n and self.dealers_showing == rhs.dealers_showing \\\n and self.used_ace_num == rhs.used_ace_num:\n return True\n else:\n return False\n\nclass TrajectoryElement:\n def __init__(self, player_state = PlayerState(), action = ACTION_STICK, reward = 0.0):\n self.state = player_state\n self.action = action\n self.reward = reward\n\nclass Player:\n def __init__(self):\n self._trajectory = []\n #[sum, dealer's showing, used_ace_num]\n self._state = PlayerState() \n\n def _get_card(self):\n card = np.random.randint(1, 14)\n card = min(card, 10)\n return card\n\n def _get_action(self):\n return ACTION_HIT if self._state.card_sum < 20 else ACTION_STICK\n \n def start_game(self, dealers_showing_card):\n self._state.reset()\n self._state.dealers_showing = dealers_showing_card\n self._trajectory = []\n while self._state.card_sum < 12:\n card = self._get_card()\n self._update_state(card)\n \n def _update_state(self, card):\n if card == 1:\n self._state.card_sum += 11\n self._state.used_ace_num += 1\n else:\n self._state.card_sum += card\n while self._state.card_sum > 21 and self._state.used_ace_num > 0:\n self._state.card_sum -= 10\n self._state.used_ace_num -= 1 \n if self._state.card_sum >=12 and self._state.card_sum <= 21:\n self._trajectory.append(TrajectoryElement(player_state = copy.copy(self._state), \\\n reward = 0, action = self._get_action()))\n \n def play_game(self):\n while self._get_action() == ACTION_HIT and self._state.card_sum <= 21:\n card = self._get_card()\n self._update_state(card)\n\n def set_game_result(self, final_reward):\n self._trajectory[-1].reward = final_reward\n\n @property\n def sum(self):\n return self._state.card_sum\n\n @property\n def trajectory(self):\n return self._trajectory\n \n \n\nclass Dealer(Player):\n def _get_action(self):\n return ACTION_HIT if self._state.card_sum < 17 else ACTION_STICK\n\n def start_game(self):\n self._state.card_sum = 0\n self._state.used_ace_num = 0\n card1 = self._get_card()\n card2 = self._get_card()\n self._update_state(card1)\n self._update_state(card2) \n #return showing card randomly\n if np.random.choice([0, 1]) == 0:\n return card1\n else:\n return card2\n\n def _update_state(self, card):\n if card == 1:\n self._state.card_sum += 11\n self._state.used_ace_num += 1\n else:\n self._state.card_sum += card\n while self._state.card_sum > 21 and self._state.used_ace_num > 0:\n self._state.card_sum -= 10\n self._state.used_ace_num -= 1 \n\nclass Player_MC_ES(Player):\n \n def __init__(self):\n Player.__init__(self)\n self._policy = np.ones((10, 10, 2), dtype = np.int)\n self._policy[(20-12):(22-12), :, :] = ACTION_STICK\n self.__initial_state = False\n self.__initial_action = None\n\n def _get_action(self):\n if self.__initial_state:\n if self.__initial_action == None:\n self.__initial_action = np.random.choice([ACTION_STICK, ACTION_HIT])\n return self.__initial_action\n if self._state.card_sum <= 21:\n return self._policy[self._state.card_sum - 12][self._state.dealers_showing - 1][int(self._state.used_ace_num > 0)]\n else:\n return ACTION_STICK\n \n def start_game(self, dealers_showing_card):\n self.__initial_state = True\n self.__initial_action = None\n self._trajectory = []\n self._state.reset()\n self._state.dealers_showing = dealers_showing_card\n while self._state.card_sum < 12:\n card = self._get_card()\n self._update_state(card)\n self._trajectory.append(TrajectoryElement(player_state = copy.copy(self._state), reward = 0, \\\n action = self._get_action()))\n \n \n def play_game(self):\n while self._get_action() == ACTION_HIT and self._state.card_sum <= 21:\n self.__initial_state = False\n self.__initial_action = None\n card = self._get_card()\n self._update_state(card)\n \n\n def set_policy(self, state, val):\n self._policy[state.card_sum - 12,state.dealers_showing - 1][int(state.used_ace_num > 0)] = val\n\n @property\n def policy(self):\n return self._policy\n\nclass Player_target(Player):\n def start_game(self):\n self._state.reset()\n self._state.dealers_showing = 2\n self._state.card_sum = 13\n self._state.used_ace_num = 1\n self._trajectory = []\n self._trajectory.append(TrajectoryElement(player_state = self._state, \\\n action = self._get_action(), reward = 0))\n\n def get_action(self, state):\n return ACTION_HIT if state.card_sum < 20 else ACTION_STICK\n\nclass Player_behavior(Player_target):\n def _get_action(self):\n return np.random.choice([ACTION_STICK, ACTION_HIT])\n\nclass Blackjack:\n def __init__(self):\n self.__history_Vs = []\n #[card_sum, dealer's showing, usable ace]\n self.__Vs = np.zeros((10, 10, 2))\n self.__Vs_count = np.zeros((10,10,2), dtype = np.int)\n\n #[card_sum, dealer's showing, usable ace, action]\n self.__Q = np.zeros((10, 10, 2, 2))\n self.__Q_count = np.zeros((10, 10, 2, 2), dtype = np.int)\n\n self.__player = None\n self.__dealer = None\n\n self.__history_of_ordinary_importance_sampling = []\n self.__history_of_weight_importance_sampling = []\n\n def __get_game_result(self, players_sum, dealers_sum):\n reward = 0.0\n if players_sum > 21:\n if dealers_sum <= 21:\n reward = -1.0\n else:\n if dealers_sum > 21:\n reward = 1.0\n else:\n if players_sum > dealers_sum:\n reward = 1.0\n elif players_sum < dealers_sum:\n reward = -1.0 \n return reward\n\n def __reset(self):\n self.__history_Vs = []\n self.__Vs = np.zeros((10, 10, 2))\n self.__Vs_count = np.zeros((10,10,2), dtype = np.int)\n self.__Q = np.zeros((10, 10, 2, 2))\n self.__Q_count = np.zeros((10, 10, 2, 2), dtype = np.int)\n self.__history_of_ordinary_importance_sampling = []\n self.__history_of_weighted_importance_sampling = []\n\n def __is_state_first_appeared(self, state, trajectory):\n trj_len = len(trajectory)\n for j in range(0, trj_len):\n if trajectory[j].state == state:\n return False\n return True\n\n def __is_state_action_first_appeared(self, state, action, trajectory):\n trj_len = len(trajectory)\n for j in range(0, trj_len):\n if trajectory[j].state == state \\\n or trajectory[j].action == action:\n return False\n return True\n\n\n def __update_Vs(self, state, G):\n sum_index = state.card_sum - 12\n dealers_showing_index = state.dealers_showing - 1\n usable_ace_index = int(state.used_ace_num > 0) # 0--no usable ace, 1--usable ace\n v = self.__Vs[sum_index][dealers_showing_index][usable_ace_index]\n self.__Vs_count[sum_index][dealers_showing_index][usable_ace_index] += 1\n n = self.__Vs_count[sum_index][dealers_showing_index][usable_ace_index]\n self.__Vs[sum_index][dealers_showing_index][usable_ace_index] = v + (G - v) / n\n\n def __update_Q(self, state, action, G):\n sum_index = state.card_sum - 12\n dealers_showing_index = state.dealers_showing - 1\n usable_ace_index = int(state.used_ace_num > 0) # 0--no usable ace, 1--usable ace\n q = self.__Q[sum_index][dealers_showing_index][usable_ace_index][action]\n self.__Q_count[sum_index][dealers_showing_index][usable_ace_index][action] += 1\n n = self.__Q_count[sum_index][dealers_showing_index][usable_ace_index][action]\n self.__Q[sum_index][dealers_showing_index][usable_ace_index][action] = q + (G - q) / n\n return self.__Q[sum_index][dealers_showing_index][usable_ace_index]\n\n def MC_on_policy(self, episodes = 500000, first_visit_enabled = False, record_indices = []):\n self.__reset()\n record_index = 0\n pb = ProgressBar().start()\n self.__player = Player()\n self.__dealer = Dealer()\n for episode_index in range(0, episodes):\n dealers_showing = self.__dealer.start_game()\n self.__dealer.play_game()\n self.__player.start_game(dealers_showing)\n self.__player.play_game()\n\n reward = self.__get_game_result(self.__player.sum, self.__dealer.sum)\n self.__player.set_game_result(reward)\n\n G = 0.0\n trj = self.__player.trajectory\n trj_len = len(trj)\n for i in range(trj_len - 1, -1, -1):\n G = G + trj[i].reward\n state = trj[i].state\n if first_visit_enabled:\n if not self.__is_state_first_appeared(state, trj[:i]):\n continue\n self.__update_Vs(state, G)\n \n if record_indices[record_index] == episode_index + 1:\n self.__history_Vs.append(self.__Vs.copy())\n record_index += 1\n\n pb.update(int(episode_index /episodes * 100))\n pb.update(100)\n\n def MC_ES_on_policy(self, episodes = 500000, first_visit_enabled = False):\n self.__reset()\n self.__player = Player_MC_ES()\n self.__dealer = Dealer()\n pb = ProgressBar().start()\n for episode_index in range(0, episodes):\n dealers_showing_card = self.__dealer.start_game()\n self.__dealer.play_game()\n self.__player.start_game(dealers_showing_card)\n self.__player.play_game()\n\n reward = self.__get_game_result(self.__player.sum, self.__dealer.sum)\n self.__player.set_game_result(reward)\n\n G = 0.0\n trj = self.__player.trajectory\n trj_len = len(trj)\n for i in range(trj_len - 1, -1, -1):\n G = G + trj[i].reward\n state = trj[i].state\n action = trj[i].action\n if first_visit_enabled:\n if not self.__is_state_action_first_appeared(state, action, trj[:i]):\n continue \n Q_under_actions = self.__update_Q(state, action, G)\n pai = np.random.choice([act for act, q_under_action in enumerate(Q_under_actions) \\\n if q_under_action == np.max(Q_under_actions)])\n self.__player.set_policy(state, pai)\n pb.update(int(episode_index / episodes * 100))\n pb.update(100)\n \n print('used ace')\n print(self.__Q[:, :, 1, :])\n print(self.__player.policy[:, :, 1])\n print('no used ace')\n print(self.__Q[:, :, 0, :])\n print(self.__player.policy[:, :, 0])\n\n def MC_off_policy(self, episodes = 10000):\n self.__reset()\n self.__dealer = Dealer()\n \n nominator_sum = 0\n denominator_sum = 0\n\n for episode_index in range(0, episodes):\n self.__dealer.start_game()\n self.__dealer.play_game()\n player_target = Player_target()\n player_behavior = Player_behavior()\n player_behavior.start_game()\n player_behavior.play_game()\n reward = self.__get_game_result(player_behavior.sum, self.__dealer.sum)\n player_behavior.set_game_result(reward)\n trajectory = player_behavior.trajectory\n\n pai = 1\n b = 1\n for trj_element in trajectory:\n if trj_element.action == player_target.get_action(trj_element.state):\n b = 0.5\n else:\n pai = 0\n break #once pai == 0, rho = pai / b == 0. It's not necessary to continue for loop.\n rho = pai / b\n nominator_sum += rho reward\n denominator_sum += rho\n # Because s is the intial state, J(s) is equal to the iteration times for both first visit\n # and every visit method.\n self.__history_of_ordinary_importance_sampling.append(nominator_sum / (episode_index + 1))\n if denominator_sum == 0.0:\n self.__history_of_weighted_importance_sampling.append(0.0)\n else:\n self.__history_of_weighted_importance_sampling.append(nominator_sum / denominator_sum)\n \n def calculate_variance(self, episodes):\n X_average = -0.27726\n #X_average_square = (-0.27726)2\n list_VarX_ordinary = np.zeros(episodes)\n list_VarX_weighted = np.zeros(episodes)\n pb = ProgressBar().start()\n for i in range(0, 100):\n self.MC_off_policy(episodes)\n for j in range(0, episodes):\n var_ordinary = (self.__history_of_ordinary_importance_sampling[j] - X_average)2\n var_weighted = (self.__history_of_weighted_importance_sampling[j] - X_average)*2\n list_VarX_ordinary[j] = list_VarX_ordinary[j] + (var_ordinary - list_VarX_ordinary[j]) / (i + 1)\n list_VarX_weighted[j] = list_VarX_weighted[j] + (var_weighted - list_VarX_weighted[j]) / (i + 1)\n pb.update(i)\n pb.update(100)\n return list_VarX_ordinary, list_VarX_weighted\n\n\n @property\n def history_Vs(self):\n return self.__history_Vs\n\n @property\n def optimal_Vs(self):\n return np.max(self.__Q, axis = -1)\n \n @property\n def optimal_policy(self):\n return self.__player.policy\n\n @property \n def history_of_ordinary_importance_sampling(self):\n return self.__history_of_ordinary_importance_sampling\n\n @property \n def history_of_weighted_importance_sampling(self):\n return self.__history_of_weighted_importance_sampling\n\nclass CPlot:\n def __init__(self, supTitle):\n self.__X = np.arange(1, 11, 1)\n self.__Y = np.arange(12, 22, 1)\n self.__X_3d, self.__Y_3d = np.meshgrid(self.__X, self.__Y)\n self.__fig = mplt_pyplt.figure(figsize= mplt_pyplt.figaspect(0.8))\n self.__fig.suptitle(supTitle)\n\n def plot_Vs(self, Z, subplt_index, ax_title):\n ax = self.__fig.add_subplot(2, 2, subplt_index, projection = '3d', proj_type = \"persp\")\n ax.plot_surface(self.__X_3d, self.__Y_3d, Z)\n ax.set_proj_type('persp')\n ax.set_zlim(-1, 1)\n ax.set_xlabel('Dealer\\'s showing')\n ax.set_ylabel('Player\\'s sum')\n ax.set_title(ax_title)\n\n def plot_pai(self, Z, subplt_index, ax_title):\n axes = self.__fig.add_subplot(2, 2, subplt_index)\n sbn_fig = sbn.heatmap(np.flipud(Z), ax=axes, xticklabels = list(range(1, 11)), \\\n yticklabels = list(reversed(range(12, 22))))\n sbn_fig.set_xlabel('Dealer\\'s showing')\n sbn_fig.set_ylabel('Player\\'s sum')\n sbn_fig.set_title(ax_title) \n\n def plot_mean_square_error(self, err_ordinary, err_weighted):\n mplt_pyplt.plot(err_ordinary, label = 'ordinary importance sampling')\n mplt_pyplt.plot(err_weighted, label = 'weighted importance sampling')\n mplt_pyplt.xscale('log')\n mplt_pyplt.xlabel('Episodes (log scale)')\n mplt_pyplt.ylabel('Mean Square Error')\n mplt_pyplt.legend()\n \n def show(self):\n mplt_pyplt.show()\n\ndef test_MC_on_policy(first_visit):\n bj = Blackjack()\n bj.MC_on_policy(500000, first_visit, [10000, 500000])\n cplt = None \n if first_visit:\n cplt = CPlot('Monte Carlo (on-policy, first visit)')\n else:\n cplt = CPlot('Monte Carlo (on-policy, every visit)')\n \n cplt.plot_Vs(bj.history_Vs[0][:, :, 1], 1, \"Usable Ace\\nAfter 10,000 episodes\")\n cplt.plot_Vs(bj.history_Vs[1][:, :, 1], 2, \"Usable Ace\\nAfter 500,000 episodes\")\n cplt.plot_Vs(bj.history_Vs[0][:, :, 0], 3, \"No Usable Ace\\nAfter 10,000 episodes\")\n cplt.plot_Vs(bj.history_Vs[1][:, :, 0], 4, \"No Usable Ace\\nAfter 500,000 episodes\")\n cplt.show()\n\ndef test_MC_ES_on_policy(first_visit):\n bj = Blackjack()\n bj.MC_ES_on_policy(1000000, first_visit)\n cplt = None\n if first_visit:\n cplt = CPlot('Monte Carlo ES (on-policy, first visit)')\n else:\n cplt = CPlot('Monte Carlo ES (on-policy, every visit)') \n\n cplt.plot_pai(bj.optimal_policy[:, :, 1], 1, r\"$\\pi_$\"+\"\\nUsable Ace\")\n cplt.plot_Vs(bj.optimal_Vs[:, :, 1], 2, r\"$v_$\"+\"\\nUsable Ace\")\n cplt.plot_pai(bj.optimal_policy[:, :, 0], 3, r\"$\\pi_$\"+\"\\nNo Usable Ace\")\n cplt.plot_Vs(bj.optimal_Vs[:, :, 0], 4, r\"$v_$\"+\"\\nNo Usable Ace\")\n cplt.show()\n\ndef test_MC_off_policy():\n bj = Blackjack()\n trajectory_var_ordinary, trajectory_var_weighted = bj.calculate_variance(10000)\n cplt = CPlot('Mean square error of ordinary and weighted importance sampling')\n cplt.plot_mean_square_error(trajectory_var_ordinary, trajectory_var_weighted)\n cplt.show()\n\n\n\n\nif __name__ == \"__main__\":\n test_MC_on_policy(True)\n test_MC_on_policy(False)\n test_MC_ES_on_policy(True)\n test_MC_ES_on_policy(False)\n test_MC_off_policy()\n" }, { "alpha_fraction": 0.4980064630508423, "alphanum_fraction": 0.5181317925453186, "avg_line_length": 36.628570556640625, "blob_id": "7ec0a4fe9798e20d7a97badab78fe0ba01384ae4", "content_id": "cfa8e52b55e39171b4473f661e47571176e66ec0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5267, "license_type": "no_license", "max_line_length": 118, "num_lines": 140, "path": "/Chapter_4/gamblers_problem.py", "repo_name": "quantunm/reinforcement_learning_exercises_src", "src_encoding": "UTF-8", "text": "#==================================================================\n# Python3\n# Copyright\n# 2019 Ye Xiang ([email protected])\n#==================================================================\n\nimport numpy as np\nimport matplotlib as mpltlib\nimport matplotlib.pyplot as mtplt\n\nclass gamblers_problem:\n def __init__(self, ph = 0.4, dicimal_num = 9):\n self.__Ph = ph\n self.__win_goal = 100\n self.__dicimal_num = 9\n self.__Vs = np.zeros(self.__win_goal + 1)\n # Actually the terminal state value has no impact on the result.\n # This line can be removed.\n self.__Vs[self.__win_goal] = 1 \n self.__policy = np.zeros(self.__win_goal, dtype = np.int32)\n self.__history_Vs = []\n\n def __get_reward(self, state):\n return 1 if state >= self.__win_goal else 0\n\n def __calculate_Vs(self, vs, state): \n prob_win = self.__Ph\n prob_lose = 1 - self.__Ph\n max_vs = vs[state]\n for act in range(1, min(state, self.__win_goal - state) + 1):\n tempVs = prob_win (self.__get_reward(state + act) + vs[state + act]) \\\n + prob_lose * (self.__get_reward(state - act) + vs[state - act])\n if tempVs > max_vs:\n max_vs = tempVs\n return max_vs\n\n def value_iteration(self, bRecord_history):\n accuracy = pow(10, -self.__dicimal_num)\n delta = accuracy + 1\n self.__history_Vs.clear()\n while delta >= accuracy:\n delta = 0\n if bRecord_history:\n self.__history_Vs.append(self.__Vs.copy())\n vs = self.__Vs.copy()\n for i in range(1, self.__win_goal):\n v = self.__Vs[i]\n self.__Vs[i] = self.__calculate_Vs(vs, i)\n delta = max(delta, abs(v - self.__Vs[i]))\n print('delta = {}'.format(delta))\n\n def policy_improvement(self):\n prob_win = self.__Ph\n prob_lose = 1 - self.__Ph\n for i in range(1, self.__win_goal):\n max_vs = np.round(self.__Vs[i], self.__dicimal_num)\n max_actions = []\n for act in range(1, min(i, self.__win_goal - i) + 1):\n tempVs = np.round(prob_win * (self.__get_reward(i + act) + self.__Vs[i + act]) \\\n + prob_lose * (self.__get_reward(i - act) + self.__Vs[i - act]), self.__dicimal_num) \n if tempVs >= max_vs: # Here \">=\" is used to get the argmax action. If only use \">\", the argmax action \n max_vs = tempVs # may not be updated which will lead to unchanged status.\n if tempVs > max_vs:\n max_actions.clear()\n max_actions.append(act)\n self.__policy[i] = max_actions[0] # With ties broken arbitarily, in order to get the result as the book, \n # the first action leads to maximum Vs is selected. The optimal policy\n # is not unique. If you select any other argmax action, the policy will\n # be changed.\n\n @property\n def policy(self):\n return self.__policy\n\n @property\n def Vs(self):\n return self.__Vs\n\n @property\n def history_Vs(self):\n return self.__history_Vs\n\n @property\n def win_goal(self):\n return self.__win_goal\n\ndef run_gambler(prob_head = 0.4, dicimal_num = 9):\n gp = gamblers_problem(prob_head, dicimal_num)\n gp.value_iteration(True)\n gp.policy_improvement()\n fig, axes = mtplt.subplots(2, 1, figsize = (15, 8))\n axes = axes.flatten()\n mtplt.suptitle(r'$P_h$ = {0}, $\\theta$ = {1}'.format(prob_head, pow(10, -dicimal_num)))\n x = list(range(0, gp.win_goal))\n\n history_Vs_num = len(gp.history_Vs)\n for i in range(0, history_Vs_num):\n axes[0].plot(x, gp.history_Vs[i][0:gp.win_goal], label=r'$value${}'.format(i))\n axes[0].set_xlabel('Capital')\n axes[0].set_ylabel('Value estimates')\n #axes[0].legend()\n\n axes[1].plot(x, gp.policy, label=r'$\\pi_$')\n axes[1].set_xlabel('Capital')\n axes[1].set_ylabel('Policy (stakes)')\n axes[1].legend()\n print('policy = {}'.format(gp.policy))\n print('Vs = {}'.format(gp.Vs))\n mtplt.show()\n mtplt.close()\n\ndef run_gambler_2(prob_head = 0.4, dicimal_num_list = []):\n list_len = len(dicimal_num_list)\n if list_len < 1:\n return\n fig, axes = mtplt.subplots(list_len, 1, figsize = (15, 4 list_len))\n mtplt.subplots_adjust(left = 0.05, right = 0.95, bottom = 0.05, top = 0.95, wspace=0.2, hspace=0.3)\n axes = axes.flatten()\n\n for i in range(0, list_len): \n gp = gamblers_problem(prob_head, dicimal_num_list[i])\n gp.value_iteration(False)\n gp.policy_improvement()\n x = list(range(0, gp.win_goal))\n axes[i].plot(x, gp.policy, label=r'$\\pi_$')\n axes[i].set_xlabel(r'Capital ($p_h$ = {0}, $\\theta$ = {1})'.format(prob_head, pow(10,-dicimal_num_list[i])))\n axes[i].set_ylabel('Policy (stakes)')\n axes[i].legend()\n\n mtplt.show()\n mtplt.close()\n\nif __name__ == \"__main__\":\n \n run_gambler(0.4, 9)\n run_gambler(0.25, 9)\n run_gambler(0.55, 9)\n '''\n run_gambler_2(0.25, [1,3,5,7,9,11])\n '''" }, { "alpha_fraction": 0.5522510409355164, "alphanum_fraction": 0.5780479907989502, "avg_line_length": 50.15126037597656, "blob_id": "b270f04f1bfbba2b9e21f4b5b9ed7960feb5c8ee", "content_id": "94d45a16b6534dab7d2b00dcfb703dd804c52f2c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 6086, "license_type": "no_license", "max_line_length": 168, "num_lines": 119, "path": "/Chapter_4/exercise_4.7.py", "repo_name": "quantunm/reinforcement_learning_exercises_src", "src_encoding": "UTF-8", "text": "#==================================================================\n# Python3\n# Copyright\n# 2019 Ye Xiang ([email protected])\n#==================================================================\n\nimport car_rental as crl\nimport matplotlib as mpltlib\nimport matplotlib.pyplot as mtplt\nimport seaborn as sbn\nimport numpy as np\nimport math\n\nclass car_rental_ex_4_7(crl.car_rental):\n def __init__(self):\n crl.car_rental.__init__(self)\n self.__max_car_num_per_parking_lot = 10\n self.__parking_cost = 4\n\n def _get_action_cost(self, action):\n if action == -1:\n return 0\n else:\n return abs(action) self._transfer_cost_per_car\n\n def __get_parking_cost(self, car_num):\n if car_num > self.__max_car_num_per_parking_lot:\n return self.__parking_cost\n else:\n return 0\n \n\n def _calculate_Vs_by_policy(self, Vs,car_num1_in_evening, car_num2_in_evening, action):\n tmp_vs = 0.0\n prob_of_requested_car_num1 = 0\n prob_of_requested_car_num2 = 0\n prob_of_returned_car_num1 = 0\n prob_of_returned_car_num2 = 0\n car_num1_in_next_morning = max(0, min(car_num1_in_evening - action, self._max_car_num))\n car_num2_in_next_morning = max(0, min(car_num2_in_evening + action, self._max_car_num))\n rented_car_num1 = 0\n rented_car_num2 = 0\n car_num1_in_next_evening = 0\n car_num2_in_next_evening = 0\n action_cost = self._get_action_cost(action)\n parking_cost1 = self.__get_parking_cost(car_num1_in_next_morning)\n parking_cost2 = self.__get_parking_cost(car_num2_in_next_morning)\n \n for requested_car_num1 in range(0, car_num1_in_next_morning + 1):\n if requested_car_num1 >= car_num1_in_next_morning:\n #This case stands for all the request car numbers larger then the car number in next morning.\n prob_of_requested_car_num1 = self._req_over_boundary_prob1[car_num1_in_next_morning]\n else:\n prob_of_requested_car_num1 = self._requested_prob1[requested_car_num1]\n rented_car_num1 = min(requested_car_num1, car_num1_in_next_morning)\n\n for requested_car_num2 in range(0, car_num2_in_next_morning + 1):\n if requested_car_num2 >= car_num2_in_next_morning:\n #This case stands for all the request car numbers larger then the car number in next morning.\n prob_of_requested_car_num2 = self._req_over_boundary_prob2[car_num2_in_next_morning]\n else:\n prob_of_requested_car_num2 = self._requested_prob2[requested_car_num2]\n rented_car_num2 = min(requested_car_num2,car_num2_in_next_morning)\n reward = self._get_rental_reward(requested_car_num1, car_num1_in_next_morning) + self._get_rental_reward(requested_car_num2, car_num2_in_next_morning) \\\n - action_cost - parking_cost1 - parking_cost2\n \n ret_num1_to_boundary = self._max_car_num - (car_num1_in_next_morning - rented_car_num1)\n for returned_car_num1 in range(0, ret_num1_to_boundary + 1):\n if returned_car_num1 >= ret_num1_to_boundary:\n #This case stands for all the returned numbers larger then ret_num1_to_boundary\n prob_of_returned_car_num1 = self._ret_over_boundary_prob1[ret_num1_to_boundary]\n else:\n prob_of_returned_car_num1 = self._returned_prob1[returned_car_num1]\n car_num1_in_next_evening = min(car_num1_in_next_morning - rented_car_num1 + returned_car_num1, self._max_car_num)\n\n ret_num2_to_boundary = self._max_car_num - (car_num2_in_next_morning - rented_car_num2)\n for returned_car_num2 in range(0, ret_num2_to_boundary + 1): \n if returned_car_num2 >= ret_num2_to_boundary:\n #This case stands for all the returned numbers larger then ret_num2_to_boundary\n prob_of_returned_car_num2 = self._ret_over_boundary_prob2[ret_num2_to_boundary]\n else:\n prob_of_returned_car_num2 = self._returned_prob2[returned_car_num2] \n car_num2_in_next_evening = min(car_num2_in_next_morning - rented_car_num2 + returned_car_num2, self._max_car_num)\n \n prob = prob_of_requested_car_num1 * prob_of_requested_car_num2 \\\n * prob_of_returned_car_num1 * prob_of_returned_car_num2\n tmp_vs += prob * (reward + self._gamma * Vs[car_num1_in_next_evening][car_num2_in_next_evening])\n \n return tmp_vs\n\nif __name__ == '__main__':\n \n car_rental_instance = car_rental_ex_4_7()\n car_rental_instance.policy_iteration(True)\n history_policy = car_rental_instance.history_policy\n value = car_rental_instance.Vs\n policy_num = len(history_policy)\n row = math.ceil((policy_num + 1) / 3)\n fig, axes = mtplt.subplots(row, 3, figsize=(20, row * 5))\n mtplt.subplots_adjust(left = 0.05, right = 0.95, bottom = 0.05, top = 0.95, wspace=0.2, hspace=0.3)\n axes = axes.flatten()\n \n for i in range(0, policy_num):\n sbn_fig = sbn.heatmap(np.flipud(history_policy[i]), ax=axes[i])\n sbn_fig.set_ylabel(\"cars at first location\")\n sbn_fig.set_xlabel(\"cars at second location\")\n sbn_fig.set_title(r\"$\\pi${}\".format(i))\n sbn_fig.set_yticks(list(reversed(range(0, car_rental_instance.max_car_num + 1))))\n sbn_fig.tick_params(labelsize = 8)\n\n sbn_fig = sbn.heatmap(np.flipud(value), ax=axes[-1], cmap=\"YlGnBu\")\n sbn_fig.set_ylabel(\"cars at first location\")\n sbn_fig.set_xlabel(\"cars at second location\")\n sbn_fig.set_title(r\"$v_$\")\n sbn_fig.set_yticks(list(reversed(range(0, car_rental_instance.max_car_num + 1))))\n sbn_fig.tick_params(labelsize = 8)\n\n mtplt.show()\n mtplt.close()" }, { "alpha_fraction": 0.560967206954956, "alphanum_fraction": 0.5810016989707947, "avg_line_length": 34.92499923706055, "blob_id": "501a686dd69cbcdfceb8159e1dfa651af5bf5303", "content_id": "32358b92050bb4af8554cd7f2860bc18f0de1c4d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5790, "license_type": "no_license", "max_line_length": 103, "num_lines": 160, "path": "/Chapter_5/InfinityVariance.py", "repo_name": "quantunm/reinforcement_learning_exercises_src", "src_encoding": "UTF-8", "text": "#==================================================================\n# Python3\n# Copyright\n# 2019 Ye Xiang ([email protected])\n#==================================================================\n\nimport numpy as np\nimport matplotlib.pyplot as mplt_pyplt\nfrom progressbar import ProgressBar\nimport threading\n\nSTATE_TRANSITION = 0\nSTATE_TERMINAL = 1\n\nACTION_LEFT = 1\nACTION_RIGHT = 0\nclass TrajectoryElement:\n def __init__(self, state = STATE_TRANSITION, action = ACTION_LEFT, reward = 1):\n self.state = state\n self.action = action\n self.reward = reward\n\nclass PolicyTester():\n def __init__(self):\n self.__sampling_data = []\n\n def __generate_trajectory(self):\n trajectory = []\n state = STATE_TRANSITION\n action = np.random.choice([ACTION_LEFT, ACTION_RIGHT])\n reward = 0\n trajectory.append(TrajectoryElement(state, action, reward))\n\n if action == ACTION_RIGHT:\n state = STATE_TERMINAL\n reward = 0\n else:\n state = np.random.choice([STATE_TRANSITION, STATE_TERMINAL], p = [0.9, 0.1])\n if state == STATE_TERMINAL:\n reward = 1\n\n while state != STATE_TERMINAL: \n trajectory.append(TrajectoryElement(state, action, reward))\n action = np.random.choice([ACTION_LEFT, ACTION_RIGHT])\n if action == ACTION_RIGHT:\n state = STATE_TERMINAL\n reward = 0\n else:\n state = np.random.choice([STATE_TRANSITION, STATE_TERMINAL], p = [0.9, 0.1])\n if state == STATE_TERMINAL:\n reward = 1\n trajectory.append(TrajectoryElement(state, action, reward)) \n return trajectory\n \n def __calculate_rho(self, trajectory):\n b = 1.0\n pai = 1.0\n for trj in trajectory:\n b = 0.5\n if trj.action == ACTION_RIGHT: \n pai = 0 #The optimal policy should not act to right, because the reward is 0.\n break\n return pai / b\n\n def MC_off_policy_first_visit_ordinary(self, episodes):\n self.__sampling_data = []\n pb = ProgressBar().start()\n nominator_sum = 0.0\n for i in range(0, episodes):\n trajectory = self.__generate_trajectory()\n rho = self.__calculate_rho(trajectory)\n nominator_sum += rho * trajectory[-1].reward\n self.__sampling_data.append(nominator_sum / (i + 1))\n pb.update(int(i /episodes * 100))\n pb.update(100)\n\n def MC_off_policy_first_visit_weighted(self, episodes):\n self.__sampling_data = []\n pb = ProgressBar().start()\n nominator_sum = 0.0\n denominator_sum = 0.0\n for i in range(0, episodes):\n trajectory = self.__generate_trajectory()\n rho = self.__calculate_rho(trajectory) \n nominator_sum += rho * trajectory[-1].reward\n denominator_sum += rho\n Vs = nominator_sum / denominator_sum if denominator_sum != 0.0 else 0.0\n self.__sampling_data.append(Vs)\n pb.update(int(i /episodes * 100))\n pb.update(100)\n\n @property\n def sampling_data(self):\n return self.__sampling_data\n\nclass TestThread_ordinary(threading.Thread):\n def __init__(self, test_instance = None, episodes = 10000):\n threading.Thread.__init__(self)\n self.__test_instance = test_instance\n self.__episodes = episodes\n def run(self):\n if self.__test_instance == None:\n return\n self.__test_instance.MC_off_policy_first_visit_ordinary(self.__episodes)\n\n\ndef plot_ordinary(episodes, run_times):\n threads = []\n policy_testers = []\n for _ in range(0, run_times):\n policy_tester = PolicyTester()\n thread = TestThread_ordinary(policy_tester, episodes)\n threads.append(thread)\n policy_testers.append(policy_tester)\n thread.start()\n\n for t in threads:\n t.join()\n\n for pt in policy_testers:\n mplt_pyplt.plot(pt.sampling_data)\n mplt_pyplt.xscale('log')\n mplt_pyplt.ylim(0, 3)\n mplt_pyplt.xlabel('Episodes (log scale)')\n mplt_pyplt.ylabel('Monte-Carlo estimate of ' + r'$v_\\pi(s)$' + 'with ordinary importance sampling')\n mplt_pyplt.show()\n\ndef plot_weighted(episodes, run_times):\n for _ in range(0, run_times):\n policy_tester = PolicyTester()\n policy_tester.MC_off_policy_first_visit_weighted(episodes)\n mplt_pyplt.plot(policy_tester.sampling_data)\n mplt_pyplt.xscale('log')\n mplt_pyplt.ylim(0, 2)\n mplt_pyplt.xlabel('Episodes (log scale)')\n mplt_pyplt.ylabel('Monte-Carlo estimate of ' + r'$v_\\pi(s)$' + 'with weighted importance sampling')\n mplt_pyplt.show()\n\ndef set_priority(pid=None,priority=1):\n \"\"\" Set The Priority of a Windows Process. Priority is a value between 0-5 where\n 2 is normal priority. Default sets the priority of the current\n python process but can take any valid process ID. \"\"\"\n\n import win32api,win32process,win32con\n\n priorityclasses = [win32process.IDLE_PRIORITY_CLASS,\n win32process.BELOW_NORMAL_PRIORITY_CLASS,\n win32process.NORMAL_PRIORITY_CLASS,\n win32process.ABOVE_NORMAL_PRIORITY_CLASS,\n win32process.HIGH_PRIORITY_CLASS,\n win32process.REALTIME_PRIORITY_CLASS]\n if pid == None:\n pid = win32api.GetCurrentProcessId()\n handle = win32api.OpenProcess(win32con.PROCESS_ALL_ACCESS, True, pid)\n win32process.SetPriorityClass(handle, priorityclasses[priority])\n\nif __name__ == '__main__':\n set_priority(priority = 4)\n plot_ordinary(1000000, 10) \n plot_weighted(10000, 10) \n \n \n \n\n \n" }, { "alpha_fraction": 0.7866666913032532, "alphanum_fraction": 0.7866666913032532, "avg_line_length": 98.33333587646484, "blob_id": "fc6730ba0ea3d228d631f9d7e967053b2fd01d88", "content_id": "a696647a462b251e3d7fbcffb49e24efd1c7c54e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 300, "license_type": "no_license", "max_line_length": 131, "num_lines": 3, "path": "/README.md", "repo_name": "quantunm/reinforcement_learning_exercises_src", "src_encoding": "UTF-8", "text": "# reinforcement_learning_exercises_src\nThis is the source code for the exercises and examples in Richard S. Sutton and Andrew G. Barto's book \"Reinforcement Learning-An Introduction\". \nI write these codes for pratice when I study the book in my spare time, I can not make sure my implementation is absolutly correct. \n" } ]	7
aseibertDrexel/firstRepo	https://github.com/aseibertDrexel/firstRepo	4a12b22048b35ae3b4c35da7abf3026ee7beb630	914978d3d0841de4a5b1196fbab1afb79b61644f	50be6c48cbc3d2ad8430d4eea14361267e57c2a2	refs/heads/master	2022-04-26T04:29:30.390130	2020-04-28T15:15:53	2020-04-28T15:15:53	259,673,106	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.543379008769989, "alphanum_fraction": 0.5662100315093994, "avg_line_length": 11.75, "blob_id": "a1d22b958b70264407bfe4caf6f22efa7c2dbd02", "content_id": "0896930c62cb3de0827a318fa6dab6b5a8c79082", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 438, "license_type": "no_license", "max_line_length": 49, "num_lines": 32, "path": "/test_function.py", "repo_name": "aseibertDrexel/firstRepo", "src_encoding": "UTF-8", "text": "#Python Lambda Function - First Test\r\n#Andrew Seibert 4/24/2020\r\n\r\nimport json\r\n\r\ndef test_function(event, context):\r\n\r\n body={'message':'OK'}\r\n\r\n params = event['eventStringParameters']\r\n\r\n\r\n\r\n name =str(params['name'])\r\n\r\n helloString = \"Hello, did this work: \" + name\r\n\r\n body['helloString'] = helloString\r\n\r\n\r\n\r\n response={\r\n\r\n 'StatusCode':200,\r\n\r\n 'body':json.dumps(body),\r\n\r\n }\r\n\r\n\r\n\r\n return response" } ]	1
sadilchamishka/EmotionFYP	https://github.com/sadilchamishka/EmotionFYP	4b6108a6aaf7ef06d6ee2c6f13c78e007b0fb930	eab98a01f17e2af6190a9a71803c404e3dc410e9	5dc1f6f7663230f73b381a5228bb00a5dfa53c1f	refs/heads/master	2023-02-22T21:27:27.821660	2021-02-01T12:02:34	2021-02-01T12:02:34	333,349,476	4	1	null	2021-01-27T08:14:13	2021-01-29T10:59:26	2021-02-01T12:02:35	Python	[ { "alpha_fraction": 0.5491321682929993, "alphanum_fraction": 0.5531775951385498, "avg_line_length": 25.975351333618164, "blob_id": "87b81ea53c5b86afcecd07268d2fbfe8ba207fa7", "content_id": "ddbd8d519be1b38dcd53fe10f0e528b6c53fc18d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "JavaScript", "length_bytes": 7663, "license_type": "no_license", "max_line_length": 134, "num_lines": 284, "path": "/Emosense Frontend App/src/UploadConversation.js", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "import React, {useState } from 'react';\n\nimport {Button,Input} from '@material-ui/core';\nimport Paper from '@material-ui/core/Paper';\nimport Grid from '@material-ui/core/Grid';\nimport { green } from '@material-ui/core/colors';\nimport { withStyles,makeStyles } from '@material-ui/core/styles';\nimport { Animation } from '@devexpress/dx-react-chart';\nimport {\n Chart,\n ArgumentAxis,\n ValueAxis,\n LineSeries,\n Title,\n Legend,\n } from '@devexpress/dx-react-chart-material-ui';\n\nconst serverURL = \"http://localhost:5000/\";\n\nconst useStyles = makeStyles((theme) => ({\n paper1: {\n maxWidth: 730,\n margin: `${theme.spacing(1)}px auto`,\n padding: theme.spacing(2),\n textAlign: 'left',\n color: theme.palette.text.secondary,\n }\n }));\n\nconst ColorButton = withStyles((theme) => ({\n root: {\n color: theme.palette.getContrastText(green[700]),\n backgroundColor: green[400],\n '&:hover': {\n backgroundColor: green[800],\n },\n },\n }))(Button);\n\nfunction UploadConversation() {\n\nconst [maleChartData, setMaleChartData] = useState([]);\nconst [femaleChartData, setFemaleChartData] = useState([]);\nconst [attentionChartData, setAttentionChartData] = useState([]);\n\nconst [speakers, setSpeakers] = useState(\"\");\nconst classes = useStyles();\n\nconst submitUtterence = async () =>{\n let file = document.getElementById(\"f1\").files;\n let formData = new FormData();\n\n for (var index = 0; index < file.length; index++) { \n formData.append(index.toString(), file[index]);\n } \n \n var queryParam = \"?speakers=\";\n console.log(speakers);\n queryParam = queryParam.concat(speakers);\n const response = await fetch(serverURL.concat(\"conversation/offline\").concat(queryParam), {method: \"POST\", body: formData});\n const data = await response.json();\n\n var sp = speakers.split(',');\n var maleSpeaker = [];\n var femaleSpeaker = [];\n console.log(data);\n for (var index = 0; index < data['prediction'].length; index++) { \n if (sp[index]=='M'){\n maleSpeaker.push(data['prediction'][index]);\n } else {\n femaleSpeaker.push(data['prediction'][index]);\n }\n } \n setMaleChartData(maleSpeaker);\n setFemaleChartData(femaleSpeaker);\n setAttentionChartData(data.attention);\n \n}\n\nconst format = () => tick => tick;\nconst legendStyles = () => ({\n root: {\n display: 'flex',\n margin: 'auto',\n flexDirection: 'row',\n },\n});\nconst legendLabelStyles = theme => ({\n label: {\n paddingTop: theme.spacing(1),\n whiteSpace: 'nowrap',\n },\n});\nconst legendItemStyles = () => ({\n item: {\n flexDirection: 'column',\n },\n});\n\nconst legendRootBase = ({ classes, ...restProps }) => (\n <Legend.Root {...restProps} className={classes.root} />\n);\nconst legendLabelBase = ({ classes, ...restProps }) => (\n <Legend.Label className={classes.label} {...restProps} />\n);\nconst legendItemBase = ({ classes, ...restProps }) => (\n <Legend.Item className={classes.item} {...restProps} />\n);\nconst Root = withStyles(legendStyles, { name: 'LegendRoot' })(legendRootBase);\nconst Label = withStyles(legendLabelStyles, { name: 'LegendLabel' })(legendLabelBase);\nconst Item = withStyles(legendItemStyles, { name: 'LegendItem' })(legendItemBase);\n\nconst ValueLabel = (props) => {\n const { text } = props;\n return (\n <ValueAxis.Label\n {...props}\n text={`${text}%`}\n />\n );\n};\n\nconst titleStyles = {\n title: {\n whiteSpace: 'pre',\n },\n};\nconst TitleText = withStyles(titleStyles)(({ classes, ...props }) => (\n <Title.Text {...props} className={classes.title} />\n));\n\nconst addSpeaker = (event)=>{\n setSpeakers(event.target.value);\n}\n\n return (\n <div>\n <br></br>\n <Grid>\n <Paper className={classes.paper1}>\n <input type=\"file\" id=\"f1\" color=\"primary\" multiple/> &emsp;\n <input type=\"text\" value={speakers} onChange={addSpeaker}/>\n <ColorButton style={{float: 'right'}} onClick={submitUtterence} variant=\"contained\" color=\"primary\"> Predict </ColorButton>\n <br></br>\n </Paper>\n </Grid>\n <br></br><br></br>\n\n <Paper>\n <Chart\n data={maleChartData}\n className={classes.chart}\n >\n <ArgumentAxis tickFormat={format} />\n <ValueAxis\n max={50}\n labelComponent={ValueLabel}\n />\n\n <LineSeries\n name=\"Happy\"\n valueField=\"Happy\"\n argumentField=\"timestep\"\n />\n <LineSeries\n name=\"Sad\"\n valueField=\"Sad\"\n argumentField=\"timestep\"\n />\n <LineSeries\n name=\"Neutral\"\n valueField=\"Neutral\"\n argumentField=\"timestep\"\n />\n <LineSeries\n name=\"Angry\"\n valueField=\"Angry\"\n argumentField=\"timestep\"\n />\n <LineSeries\n name=\"Excited\"\n valueField=\"Excited\"\n argumentField=\"timestep\"\n />\n <LineSeries\n name=\"Frustrated\"\n valueField=\"Frustrated\"\n argumentField=\"timestep\"\n />\n <Legend position=\"bottom\" rootComponent={Root} itemComponent={Item} labelComponent={Label} />\n <Title\n text=\"Emotion Variation of First Speaker\"\n textComponent={TitleText}\n />\n <Animation />\n </Chart>\n </Paper>\n\n\n <br></br><br></br>\n <Paper>\n <Chart\n data={femaleChartData}\n className={classes.chart}\n >\n <ArgumentAxis tickFormat={format} />\n <ValueAxis\n max={50}\n labelComponent={ValueLabel}\n />\n\n <LineSeries\n name=\"Happy\"\n valueField=\"Happy\"\n argumentField=\"timestep\"\n />\n <LineSeries\n name=\"Sad\"\n valueField=\"Sad\"\n argumentField=\"timestep\"\n />\n <LineSeries\n name=\"Neutral\"\n valueField=\"Neutral\"\n argumentField=\"timestep\"\n />\n <LineSeries\n name=\"Angry\"\n valueField=\"Angry\"\n argumentField=\"timestep\"\n />\n <LineSeries\n name=\"Excited\"\n valueField=\"Excited\"\n argumentField=\"timestep\"\n />\n <LineSeries\n name=\"Frustrated\"\n valueField=\"Frustrated\"\n argumentField=\"timestep\"\n />\n <Legend position=\"bottom\" rootComponent={Root} itemComponent={Item} labelComponent={Label} />\n <Title\n text=\"Emotion Variation of Second Speaker\"\n textComponent={TitleText}\n />\n <Animation />\n </Chart>\n </Paper>\n\n <br></br><br></br>\n <Paper>\n <Chart\n data={attentionChartData}\n className={classes.chart}\n >\n <ArgumentAxis tickFormat={format} />\n <ValueAxis\n max={50}\n labelComponent={ValueLabel}\n />\n <LineSeries\n name=\"Forward\"\n valueField=\"Forward\"\n argumentField=\"timestep\"\n />\n <LineSeries\n name=\"Backward\"\n valueField=\"Backward\"\n argumentField=\"timestep\"\n /> \n <Legend position=\"bottom\" rootComponent={Root} itemComponent={Item} labelComponent={Label} />\n <Title\n text=\"Emotional Attention over the Conversation\"\n textComponent={TitleText}\n />\n <Animation />\n </Chart>\n </Paper>\n </div>\n );\n}\n\nexport default UploadConversation;\n\n\n" }, { "alpha_fraction": 0.6786786913871765, "alphanum_fraction": 0.705955982208252, "avg_line_length": 35.66972351074219, "blob_id": "309a2e2d5fe846e3478de60608404f362535c0e7", "content_id": "9f61a21fe5b6eabcdfdd5c322a807dc9522662af", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3996, "license_type": "no_license", "max_line_length": 165, "num_lines": 109, "path": "/Research Work/Training/Utterence_Emotion_Prediction.py", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "import torch\nimport torch.optim as optim\nfrom torch.utils.data import DataLoader\nfrom torch.utils.data.sampler import SubsetRandomSampler\nfrom torch.utils.data import Dataset\n\nfrom sklearn.metrics import f1_score, confusion_matrix, accuracy_score,classification_report, precision_recall_fscore_support\nimport pickle\nimport numpy as np\nfrom datetime import datetime\n\nclass IEMOCAPDataset(Dataset):\n\n def __init__(self, path, train=True):\n self.videoAudio, self.videoLabels, self.videoSpeakers, self.trainVid, self.testVid = pickle.load(open(path, 'rb'), encoding='latin1')\n self.dataset = []\n self.label = []\n dialogs = [x for x in (self.trainVid if train else self.testVid)]\n\n for dialog in dialogs:\n for utterence,label in zip(self.videoAudio[dialog],self.videoLabels[dialog]):\n self.dataset.append(utterence)\n self.label.append(label)\n \n self.len = len(self.label)\n\n def __getitem__(self, index):\n return torch.FloatTensor(self.dataset[index]), torch.tensor([self.label[index]])\n\n def __len__(self):\n return self.len\n\ndef get_train_valid_sampler(trainset, valid=0.1):\n size = len(trainset)\n idx = list(range(size))\n split = int(validsize)\n return SubsetRandomSampler(idx[split:]), SubsetRandomSampler(idx[:split])\n\ndef get_IEMOCAP_loaders(path, batch_size=32):\n trainset = IEMOCAPDataset(path=path)\n train_sampler, valid_sampler = get_train_valid_sampler(trainset, 0.1)\n train_loader = DataLoader(trainset, batch_size=batch_size,sampler=train_sampler)\n valid_loader = DataLoader(trainset, batch_size=batch_size,sampler=valid_sampler)\n\n testset = IEMOCAPDataset(path=path, train=False)\n test_loader = DataLoader(testset, batch_size=batch_size)\n\n return train_loader, valid_loader, test_loader\n\ndef train_or_eval_model(model, loss_function, dataloader,optimizer, train=True):\n preds = []\n labels = []\n if train:\n model.train()\n else:\n model.eval()\n\n for data in dataloader:\n if train:\n optimizer.zero_grad()\n\n features, label = data\n log_prob = model(features) \n \n label = label.view(-1) \n loss = loss_function(log_prob, label)\n\n if train:\n loss.backward()\n optimizer.step()\n \n pred_ = torch.argmax(log_prob,1)\n preds.append(pred_.data.cpu().numpy())\n labels.append(label.data.cpu().numpy())\n\n if preds!=[]:\n preds = np.concatenate(preds)\n labels = np.concatenate(labels)\n\n return preds,labels\n\nn_classes=6\ngru_input_dim=512\ngru_hidden_dim=512\nlinear_hidden_dim=512\ndropout=0.5\n\nbatch_size = 32\nn_epochs = 500\nloss_weights = torch.FloatTensor([1/0.086747, 1/0.144406, 1/0.227883, 1/0.160585, 1/0.127711, 1/0.252668])\n\ntrain_loader,valid_loader, test_loader = get_IEMOCAP_loaders('/content/drive/My Drive/EmotionRNN2/dataformodel_20_bins.pkl',batch_size)\nmodel = Model(n_classes,gru_input_dim,gru_hidden_dim,linear_hidden_dim,dropout)\nloss_function = CrossEntropyLoss(loss_weights) \noptimizer = optim.Adam(model.parameters(), lr=0.0001, weight_decay=0.00001)\n\nfor e in range(n_epochs): \n train_pred,train_label = train_or_eval_model(model, loss_function, train_loader,optimizer)\n valid_pred,valid_label = train_or_eval_model(model,loss_function,valid_loader,None,train=False)\n test_pred,test_label = train_or_eval_model(model,loss_function,test_loader,None,train=False)\n train_acc = round(accuracy_score(train_label,train_pred)100,2)\n valid_acc = round(accuracy_score(valid_label,valid_pred)100,2)\n test_acc = round(accuracy_score(test_label,test_pred)100,2)\n print(\"Train Accuracy: \",train_acc,\" Validation Accuracy \",valid_acc,\" Test Accuracy: \",test_acc)\n if test_acc>46:\n print(confusion_matrix(test_label,test_pred))\n print(classification_report(test_label,test_pred,digits=4))\n if test_acc>47:\n torch.save(model.state_dict(), '/content/drive/My Drive/FYP_Final_Work/'+str(datetime.now())+\"-\"+str(test_acc)+'wave2vec_20_mean_utterence_pediction_model.pt')" }, { "alpha_fraction": 0.5338015556335449, "alphanum_fraction": 0.546678364276886, "avg_line_length": 25.28461456298828, "blob_id": "ef9c0b86c5eb0774e59d6a171471570a90a602fc", "content_id": "7825c266053b0d85c949860963f8007285348d02", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "JavaScript", "length_bytes": 3417, "license_type": "no_license", "max_line_length": 134, "num_lines": 130, "path": "/Emosense Frontend App/src/UploadUtterence.js", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "import React, {useState } from 'react';\nimport {emotionProbDict} from './Util'\n\n//******************************//\nimport RadarChart from 'react-svg-radar-chart';\nimport 'react-svg-radar-chart/build/css/index.css'\n//*****************************//\n\nimport {Button,Input} from '@material-ui/core';\nimport Paper from '@material-ui/core/Paper';\nimport Grid from '@material-ui/core/Grid';\nimport { green } from '@material-ui/core/colors';\nimport { withStyles,makeStyles } from '@material-ui/core/styles';\nimport {\n Chart,\n BarSeries,\n Title,\n ArgumentAxis,\n ValueAxis,\n} from '@devexpress/dx-react-chart-material-ui';\n\nimport { Animation } from '@devexpress/dx-react-chart';\nimport plutchik from 'plutchik.png';\n\nconst serverURL = \"http://localhost:5000/\";\n\n//*****************************//\nconst captions = {\n // columns\n happy: 'Happy',\n excited: 'Excited',\n sad: 'Sad', \n frustration: 'Frustration',\n angry: 'Angry',\n };\n//*****************************//\n \nconst useStyles = makeStyles((theme) => ({\n paper1: {\n maxWidth: 730,\n margin: `${theme.spacing(1)}px auto`,\n padding: theme.spacing(2),\n textAlign: 'left',\n color: theme.palette.text.secondary,\n }\n }));\n\nconst ColorButton = withStyles((theme) => ({\n root: {\n color: theme.palette.getContrastText(green[700]),\n backgroundColor: green[400],\n '&:hover': {\n backgroundColor: green[800],\n },\n },\n }))(Button);\n\nfunction UploadUtterence() {\n\nconst [predictions, setPredictions] = useState(emotionProbDict(0));\n\n//*****************************//\nconst [radarChartData, setRadarChartData] = useState([{ data: { happy: 0,\n\t\t\t \t\t\t\t\texcited: 0,\n\t\t\t\t\t\t\t\tsad: 0,\n\t\t\t\t\t\t\t\tangry: 0,\n\t\t\t\t\t\t\t\tfrustration: 0 } } ]);\n//*****************************//\n\nconst classes = useStyles();\n\nconst submitUtterence = async () =>{\n let file = document.getElementById(\"f1\").files[0];\n let formData = new FormData();\n formData.append(\"audio\", file);\n const response = await fetch(serverURL.concat(\"utterence\"), {method: \"POST\", body: formData});\n const data = await response.json();\n \n const responsePredictions = emotionProbDict(data);\n setPredictions(responsePredictions);\n \n //*****************************//\n const data_ = data[\"prediction\"];\n\n setRadarChartData([{ data: { happy: data_[0],\n\t\t\t excited: data_[4],\n\t\t\t sad: data_[1],\n\t\t\t angry: data_[3],\n\t\t\t frustration: data_[5]}, meta: {color: 'blue'} } ]);\n //******************************//\n}\n\n return (\n <div>\n <br></br>\n <Grid>\n <Paper className={classes.paper1}>\n <Input type=\"file\" id=\"f1\" color=\"primary\"></Input> &emsp;\n <ColorButton style={{float: 'right'}} onClick={submitUtterence} variant=\"contained\" color=\"primary\"> Predict </ColorButton>\n \n </Paper>\n\n </Grid>\n\n \n <Paper>\n <Chart data={predictions}>\n <ArgumentAxis />\n <ValueAxis max={7} />\n\n <BarSeries\n valueField=\"probability\"\n argumentField=\"emotion\"\n />\n <Title text=\"Emotion Prediction\" />\n <Animation />\n </Chart>\n </Paper>\n \n <img src={plutchik} width='670' height='500'/>\n\n \n <RadarChart captions={captions} data={radarChartData} size={500} />\n\n\n </div>\n );\n}\n\nexport default UploadUtterence;\n" }, { "alpha_fraction": 0.7105126976966858, "alphanum_fraction": 0.7239772081375122, "avg_line_length": 43.930233001708984, "blob_id": "cd32f14d414c4e8c24c904f8acd2a5c97eb576ec", "content_id": "8d0beb9384d1885b883c1b51c17203cfa0a7deb9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1931, "license_type": "no_license", "max_line_length": 192, "num_lines": 43, "path": "/Research Work/Feature Extraction/openSMILE_Feature_Extraction.py", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "#!/bin/python\n# python2\n# Extract acoustic features (only llds) (csv)\n\nimport os\n\n# Audio folders\nfolder_audio_train = \"/home/madhavi/Downloads/train_wav/\" # Folder containing the audio files of the training partition\nfolder_audio_test = \"/home/madhavi/Downloads/test_wav/\" # Folder containing the audio files of the test partition\n\n#SMILExtract -C config/ComParE_2016.conf -I exampleaudio/opensmile.wav -O speechenergy.csv\n\n# openSMILE\nexe_opensmile = \"/home/madhavi/Downloads/opensmile-2.3.0/bin/linux_x64_standalone_static/SMILExtract\" # MODIFY this path to the SMILExtract (version 2.3) executable\npath_config = \"/home/madhavi/Downloads/opensmile-2.3.0/config/ComParE_2016.conf\" # MODIFY this path to the config file of openSMILE 2.3 - under Windows (cygwin): no POSIX\n\n# Output files\noutfilename_train = \"new_audio_llds_train.csv\"\noutfilename_test = \"new_audio_llds_test.csv\"\n\n# Clear LLD files\nif os.path.exists(outfilename_train):\n os.remove(outfilename_train)\nif os.path.exists(outfilename_test):\n os.remove(outfilename_test)\n\nopensmile_options = \"-configfile \" + path_config + \" -appendcsvlld 1 -timestampcsvlld 1 -headercsvlld 1\"\n\n# Extract features for train\nfor fn in os.listdir(folder_audio_train):\n infilename = folder_audio_train + fn\n instancename = os.path.splitext(fn)[0]\n outfilename = outfilename_train\n opensmile_call = exe_opensmile + \" \" + opensmile_options + \" -inputfile \" + infilename + \" -lldcsvoutput \" + outfilename + \" -instname \" + instancename\n os.system(opensmile_call)\n\n# Extract features for test\nfor fn in os.listdir(folder_audio_test):\n infilename = folder_audio_test + fn\n instancename = os.path.splitext(fn)[0]\n outfilename = outfilename_test\n opensmile_call = exe_opensmile + \" \" + opensmile_options + \" -inputfile \" + infilename + \" -lldcsvoutput \" + outfilename + \" -instname \" + instancename\n os.system(opensmile_call)" }, { "alpha_fraction": 0.65625, "alphanum_fraction": 0.7406250238418579, "avg_line_length": 44.85714340209961, "blob_id": "bc1076791b0195490c5dd3da425bf1b48ba6cfc8", "content_id": "1613f3e42a84e7ea03162ffc61da486668e0e187", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 320, "license_type": "no_license", "max_line_length": 106, "num_lines": 7, "path": "/Research Work/PreProcessing/Bag_of_audio_words.sh", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "IOTRAIN=\"-i new_audio_llds_train.csv -o new_xbow_train.arff -B codebook\"\n\njava -Xmx10000m -jar openXBOW.jar $IOTRAIN -standardizeInput -log -size 1000 -a 5 -attributes nt1[65]2[65]\n\nIOTEST=\"-i new_audio_llds_test.csv -o new_xbow_test.arff -b codebook\"\n\n!java -Xmx10000m -jar openXBOW.jar $IOTEST -attributes nt1[65]2[65]" }, { "alpha_fraction": 0.6866310238838196, "alphanum_fraction": 0.6967914700508118, "avg_line_length": 26.91044807434082, "blob_id": "b981c3f55182ad173bbba11ee2416523fc22a3be", "content_id": "72fad7065fa3cce65df774f79ebe0c7f19ce7dd0", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1870, "license_type": "permissive", "max_line_length": 106, "num_lines": 67, "path": "/Emosense Web API/app.py", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "from flask import Flask, request, jsonify\nfrom UtterenceModel import predictUtterence\nfrom DeepLearntFeatures import featureMean,feature20BinMeans\nfrom ConversationModel import predictConversationOffline, predictConversationOnline\nfrom flask_cors import CORS\n\napp = Flask(__name__)\ncors = CORS(app)\n\nutterence_folder = './utterences/'\n\[email protected](\"/\")\ndef home():\n\t\treturn \"success\"\n\[email protected](\"/utterence\",methods = ['POST'])\ndef utterenceEmotionPrediction():\n\t\tfile = request.files['audio']\n\t\tutterence_path = utterence_folder+'utt.wav'\n\t\tfile.save(utterence_path)\n\t\tprediction = predictUtterence(utterence_path)\n\t\treturn jsonify({'prediction': prediction[0]})\n\[email protected](\"/conversation/offline\",methods = ['POST'])\ndef conversationEmotionPredictionOffline():\n\t\tfiles = request.files\n\t\tdata = request.args['speakers']\t\n\t\tprediction,attention_f,attention_b = predictConversationOffline(files,data)\n\t\t\n\t\temotion_predictions = []\n\t\tattentions = []\n\t\t\n\t\ti=0\n\t\tfor p, q, r in zip(prediction.tolist(), attention_f[0][0], attention_b[0][0]):\n\t\t\ttemp = {}\n\t\t\tatt = {}\n\n\t\t\ttemp['timestep'] = i\n\t\t\ttemp['Happy'] = p[0]\n\t\t\ttemp['Sad'] = p[1]\n\t\t\ttemp['Neutral'] = p[2]\n\t\t\ttemp['Angry'] = p[3]\n\t\t\ttemp['Excited'] = p[4]\n\t\t\ttemp['Frustrated'] = p[5]\n\n\t\t\tatt['timestep'] = i\n\t\t\tatt['Forward'] = q\n\t\t\tatt['Backward'] = r\n\n\t\t\temotion_predictions.append(temp)\n\t\t\tattentions.append(att)\n\n\t\t\ti+=1\n\n\t\t#return jsonify({'prediction': prediction.tolist(), 'attentionf':attention_f, 'attentionb':attention_b})\n\t\treturn jsonify({'prediction':emotion_predictions, 'attention':attentions}) \n\[email protected](\"/conversation/online\",methods = ['POST'])\ndef conversationEmotionPredictionOnline():\n\t\tfiles = request.files\n\t\tdata = request.args['speakers']\t\n\t\tprediction = predictConversationOnline(files,data)\n\t\tprint(prediction)\n\t\treturn \"success\"\n\nif __name__ == \"__main__\":\n\t\tapp.run(host='0.0.0.0')\n" }, { "alpha_fraction": 0.5123966932296753, "alphanum_fraction": 0.5165289044380188, "avg_line_length": 28.33333396911621, "blob_id": "6e0e99bbb4a46595061bf755f32c1bbe8d69460a", "content_id": "5c8fd13b3a145d84961cf8a0e851cca4987e89cb", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "JavaScript", "length_bytes": 968, "license_type": "no_license", "max_line_length": 96, "num_lines": 33, "path": "/Emosense Frontend App/src/Nav.js", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "\nimport React from 'react';\nimport './Nav.css';\nimport {Link} from 'react-router-dom';\n\nfunction Nav() {\n\n const navStyle = {\n color:'white'\n };\n\n return (\n <div>\n <nav1>\n\n <div className=\"split1 left\">Detect Distress</div>\n <div className=\"split2 right\">Predict Emotions</div>\n \n\n </nav1>\n <nav>\n <ul className=\"nav-links\">\n <Link style={navStyle} to=\"/uploaddistress\"> Upload Speech</Link> \n <Link style={navStyle} to=\"/recorddistress\"> Record Speech</Link> \n <Link style={navStyle} to=\"/uploadutterence\"> Upload Utterence</Link> \n <Link style={navStyle} to=\"/recordutterence\"> Record Utterence </Link>\n <Link style={navStyle} to=\"/uploadconversation\"> Upload Conversation </Link>\n </ul>\n </nav>\n </div>\n )\n}\n\nexport default Nav;" }, { "alpha_fraction": 0.6374235153198242, "alphanum_fraction": 0.6420868635177612, "avg_line_length": 28.84347915649414, "blob_id": "116dca66e2b1f3939c1978bf42a27c663b547396", "content_id": "73ffd55d04d4d5b071ddbb31a0aaf0963702bdcd", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "JavaScript", "length_bytes": 3431, "license_type": "no_license", "max_line_length": 141, "num_lines": 115, "path": "/Emosense Frontend App/src/RecordUtterence.js", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "import React, { useEffect, useState } from 'react';\nimport Paper from '@material-ui/core/Paper';\n\nimport {generateWaveFile,emotionProbDict} from './Util'\nimport {\n Chart,\n BarSeries,\n Title,\n ArgumentAxis,\n ValueAxis,\n } from '@devexpress/dx-react-chart-material-ui';\n\nimport './RecordUtterence.css';\nimport { Animation } from '@devexpress/dx-react-chart';\n\nvar leftchannel = [];\nvar recorder = null;\nvar recordingLength = 0;\nvar mediaStream = null;\nvar context = null; \nvar serverURL = \"http://localhost:5000/\";\n\nfunction RecordUtterence() {\n\nconst [recordButtonStyle, setRecordButtonStyle] = useState('notRec');\nconst [predictions, setPredictions] = useState(emotionProbDict(0));\n\nconst sendWave = async (formData) => {\n var response = await fetch(serverURL.concat(\"utterence\"), {\n method: 'POST',\n body: formData\n });\n\n const data = await response.json();\n const prob = emotionProbDict(data);\n setPredictions(prob);\n}\n\nconst recordAudio = () => {\n\n if (recordButtonStyle=='notRec'){\n\n setRecordButtonStyle('Rec');\n // Initialize recorder\n navigator.getUserMedia = navigator.getUserMedia \|\| navigator.webkitGetUserMedia \|\| navigator.mozGetUserMedia \|\| navigator.msGetUserMedia;\n navigator.getUserMedia(\n {\n audio: true\n },\n function (e) {\n console.log(\"Conversation is Recording\");\n\n // creates the audio context\n window.AudioContext = window.AudioContext \|\| window.webkitAudioContext;\n context = new AudioContext();\n mediaStream = context.createMediaStreamSource(e); // creates an audio node from the microphone incoming stream\n\n // bufferSize: the onaudioprocess event is called when the buffer is full\n var bufferSize = 2048;\n var numberOfInputChannels = 2; // Two channels, but one channel is used to reduce the size of audio file\n var numberOfOutputChannels = 2;\n\n if (context.createScriptProcessor) {\n recorder = context.createScriptProcessor(bufferSize, numberOfInputChannels, numberOfOutputChannels);\n } else {\n recorder = context.createJavaScriptNode(bufferSize, numberOfInputChannels, numberOfOutputChannels);\n }\n\n recorder.onaudioprocess = function (e) {\n leftchannel.push(new Float32Array(e.inputBuffer.getChannelData(0)));\n console.log(\"BUFFERING\");\n recordingLength += bufferSize;\n }\n\n // we connect the recorder\n mediaStream.connect(recorder);\n recorder.connect(context.destination);\n },\n function (e) {\n console.error(e);\n });\n\n } else{\n setRecordButtonStyle('notRec');\n recorder.disconnect(context.destination);\n mediaStream.disconnect(recorder);\n sendWave(generateWaveFile(leftchannel,recordingLength));\n }\n \n}\n return (\n <div>\n <br></br><br></br> \n <button id=\"recButton\" onClick={recordAudio} className={recordButtonStyle}></button>\n <p>Click the button to start/stop recording</p> \n \n <Paper>\n <Chart data={predictions}>\n <ArgumentAxis />\n <ValueAxis max={7} />\n\n <BarSeries\n valueField=\"probability\"\n argumentField=\"emotion\"\n />\n <Title text=\"Emotion Prediction\" />\n <Animation />\n </Chart>\n </Paper>\n \n </div>\n );\n}\n\nexport default RecordUtterence;" }, { "alpha_fraction": 0.6516537666320801, "alphanum_fraction": 0.6544686555862427, "avg_line_length": 27.440000534057617, "blob_id": "53a282acd57a35a571550ecfca21d147fb640b40", "content_id": "9c163e873f953b033e26a2313f81c66dcca7c82d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1421, "license_type": "no_license", "max_line_length": 86, "num_lines": 50, "path": "/Research Work/Models/UtterenceModel.py", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "import torch\nimport torch.nn as nn\nimport torch.nn.functional as F\nimport torch.optim as optim\n\nclass EmotionRNNcell(nn.Module):\n \n def __init__(self,gru_input_dim,gru_hidden_dim,dropout):\n\n super(EmotionRNNcell, self).__init__()\n self.dropout = nn.Dropout(dropout)\n self.gru_cell = nn.GRUCell(gru_input_dim,gru_hidden_dim)\n \n def forward(self, U):\n u_ = torch.zeros(U.size()[0],gru_hidden_dim)\n U = U.permute(1,0,2)\n for u in U:\n u_ = self.gru_cell(u,u_)\n u_ = self.dropout(u_)\n return u_\n\nclass Model(nn.Module):\n \n def __init__(self,n_classes,gru_input_dim,gru_hidden_dim,linear_hidden_dim,dropout):\n \n super(Model, self).__init__()\n self.n_classes = n_classes\n self.dropout = nn.Dropout(dropout)\n self.emotion_rnn_cell = EmotionRNNcell(gru_input_dim,gru_hidden_dim,dropout)\n\n self.linear = nn.Linear(gru_hidden_dim,linear_hidden_dim)\n self.smax_fc = nn.Linear(linear_hidden_dim,n_classes)\n\n def forward(self,x):\n x_ = self.emotion_rnn_cell(x)\n x_ = F.relu(self.linear(x_))\n x_ = self.dropout(x_)\n log_prob = F.log_softmax(self.smax_fc(x_)) \n return log_prob\n\nclass CrossEntropyLoss(nn.Module):\n \n def __init__(self, weight=None):\n super(CrossEntropyLoss, self).__init__()\n self.weight = weight\n self.loss = nn.CrossEntropyLoss(weight=weight)\n\n def forward(self, pred, target):\n loss = self.loss(pred, target)\n return loss" }, { "alpha_fraction": 0.7569444179534912, "alphanum_fraction": 0.7847222089767456, "avg_line_length": 27.799999237060547, "blob_id": "3d3c4cdae94e48a81dadc56fae3e741f0b093cae", "content_id": "78f313afbd7e84e693d63a90638de21358370907", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 144, "license_type": "permissive", "max_line_length": 81, "num_lines": 5, "path": "/Emosense Web API/README.md", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "# EMOSENSE\n[Wave2vec Large](https://dl.fbaipublicfiles.com/fairseq/wav2vec/wav2vec_large.pt)\n\n### Requirements\npip3 install -r requirements.txt\n" }, { "alpha_fraction": 0.5382488369941711, "alphanum_fraction": 0.5843318104743958, "avg_line_length": 23.08888816833496, "blob_id": "14047d4b300c54adde637ea27a1d269dc148be18", "content_id": "7e4a184357a0df747c8334f8c6e4e31196e9ee7c", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1085, "license_type": "permissive", "max_line_length": 68, "num_lines": 45, "path": "/Emosense Web API/DeepLearntFeatures.py", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "import torch\nfrom fairseq.models.wav2vec import Wav2VecModel\nimport librosa\nimport pickle\n\ncp = torch.load('wav2vec_large.pt',map_location=torch.device('cpu'))\nmodel = Wav2VecModel.build_model(cp['args'], task=None)\nmodel.load_state_dict(cp['model'])\nmodel.eval()\n\ndef featureExtraction(file):\n y, sr = librosa.load(file,sr=16000) # y -> (t)\n b = torch.from_numpy(y).unsqueeze(0) # b -> (1, t)\n z = model.feature_extractor(b) # z -> (1, 512, t)\n z = model.feature_aggregator(z) # z -> (1, 512, t)\n\n return z\n\ndef featureMean(file):\n z = featureExtraction(file)\n z = torch.mean(z,2).squeeze(0) # z -> (1, 512) -> (512)\n return z.tolist()\n\ndef feature20BinMeans(file):\n z = featureExtraction(file) \n #z = torch.mean(z,2).squeeze(0) # z -> (1, 512) -> (512)\n z = z.squeeze(0)\n\n start = 0\n end = 0\n a = []\n\n\n hop = int(z.size()[1]/20)\n\n if hop==0:\n print(j)\n return 0\n for k in range(20):\n end = end + hop\n d = z[:,start:end]\n d = torch.mean(d,dim=1)\n a.append(d.tolist())\n start = end\n return a\n\n" }, { "alpha_fraction": 0.6073781251907349, "alphanum_fraction": 0.6324110627174377, "avg_line_length": 32.75555419921875, "blob_id": "0df900693aadfbc52097844584ddf42e3b38f2cf", "content_id": "8f059c692dca016ab6294ccd79e43c34d586436d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1518, "license_type": "no_license", "max_line_length": 113, "num_lines": 45, "path": "/Research Work/Feature Extraction/Deep_Learnt_Feature_Extraction.py", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "import torch\nfrom fairseq.models.wav2vec import Wav2VecModel\nimport librosa\nimport numpy as np\nimport pickle\n\ncp = torch.load('/content/drive/My Drive/EmotionRNN2/wav2vec_large.pt',map_location=torch.device('cpu'))\nmodel = Wav2VecModel.build_model(cp['args'], task=None)\nmodel.load_state_dict(cp['model'])\nmodel.eval()\n\ndata = pickle.load(open('/content/drive/My Drive/Emotion RNN/IEMOCAP_features_raw.pkl','rb'), encoding=\"latin1\")\nvideoIDs, videoSpeakers, videoLabels, videoText, videoAudio, videoVisual, videoSentence, trainVid, testVid = data\n\nbase = '/content/drive/My Drive/FYP/IEMOCAP_full_release/Session'\ndataset_for_experiment = {}\n\nfor i in videoIDs:\n file = base + i[4] + '/sentences/wav/' + i + '/'\n data = []\n for j in videoIDs[i]:\n y, sr = librosa.load(file+j+'.wav',sr=16000) # y -> (t)\n b = torch.from_numpy(y).unsqueeze(0) # b -> (1, t)\n z = model.feature_extractor(b) # z -> (1, 512, t)\n z = model.feature_aggregator(z).squeeze(0) # z -> (1, 512, t) -> (512, t)\n\n start = 0\n end = 0 \n a = []\n hop = int(z.size()[1]/20)\n if hop==0:\n print(j)\n for k in range(20):\n end = end + hop\n d = z[:,start:end]\n d = torch.mean(d,dim=1)\n a.append(d.tolist())\n start = end\n \n data.append(a)\n\n dataset_for_experiment[i] = data\n\nwith open(\"/content/drive/My Drive/EmotionRNN2/dataformodel_20_bins.pkl\", \"wb\") as f:\n pickle.dump((dataset_for_experiment,videoLabels,videoSpeakers,trainVid,testVid), f)" }, { "alpha_fraction": 0.6174058318138123, "alphanum_fraction": 0.6360669732093811, "avg_line_length": 30.28272247314453, "blob_id": "47b1d382882a9f968e7b61185404de5c67688673", "content_id": "8a58810f3378b69054dd2327ddf6b6099519c78e", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 11950, "license_type": "permissive", "max_line_length": 183, "num_lines": 382, "path": "/Emosense Web API/ConversationModel.py", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "import torch\nimport torch.nn as nn\nimport torch.nn.functional as F\nfrom torch.nn.utils.rnn import pad_sequence\nimport pandas as pd\nfrom DeepLearntFeatures import featureMean\nfrom torch.utils.data import Dataset\nfrom torch.utils.data import DataLoader\nimport numpy as np\nimport json\nimport os\n\nclass SimpleAttention(nn.Module):\n\n\tdef __init__(self, input_dim):\n\t\tsuper(SimpleAttention, self).__init__()\n\t\tself.input_dim = input_dim\n\t\tself.scalar = nn.Linear(self.input_dim,1,bias=False)\n\n\tdef forward(self, M, x=None):\n\t\t\"\"\"\n\t\tM -> (seq_len, batch, vector)\n\t\tx -> dummy argument for the compatibility with MatchingAttention\n\t\t\"\"\"\n\t\tscale = self.scalar(M) # seq_len, batch, 1\n\t\talpha = F.softmax(scale, dim=0).permute(1,2,0) # batch, 1, seq_len\n\t\tattn_pool = torch.bmm(alpha, M.transpose(0,1))[:,0,:] # batch, vector\n\n\t\treturn attn_pool, alpha\n\nclass MatchingAttention(nn.Module):\n\n\tdef __init__(self, mem_dim, cand_dim, alpha_dim=None, att_type='general'):\n\t\tsuper(MatchingAttention, self).__init__()\n\t\tassert att_type!='concat' or alpha_dim!=None\n\t\tassert att_type!='dot' or mem_dim==cand_dim\n\t\tself.mem_dim = mem_dim\n\t\tself.cand_dim = cand_dim\n\t\tself.att_type = att_type\n\t\tif att_type=='general':\n\t\t\tself.transform = nn.Linear(cand_dim, mem_dim, bias=False)\n\t\tif att_type=='general2':\n\t\t\tself.transform = nn.Linear(cand_dim, mem_dim, bias=True)\n\t\t\t#torch.nn.init.normal_(self.transform.weight,std=0.01)\n\t\telif att_type=='concat':\n\t\t\tself.transform = nn.Linear(cand_dim+mem_dim, alpha_dim, bias=False)\n\t\t\tself.vector_prod = nn.Linear(alpha_dim, 1, bias=False)\n\n\tdef forward(self, M, x, mask=None):\n\t\t\"\"\"\n\t\tM -> (seq_len, batch, mem_dim)\n\t\tx -> (batch, cand_dim)\n\t\tmask -> (batch, seq_len)\n\t\t\"\"\"\n\t\tif type(mask)==type(None):\n\t\t\tmask = torch.ones(M.size(1), M.size(0)).type(M.type())\n\n\t\tif self.att_type=='dot':\n\t\t\t# vector = cand_dim = mem_dim\n\t\t\tM_ = M.permute(1,2,0) # batch, vector, seqlen\n\t\t\tx_ = x.unsqueeze(1) # batch, 1, vector\n\t\t\talpha = F.softmax(torch.bmm(x_, M_), dim=2) # batch, 1, seqlen\n\t\telif self.att_type=='general':\n\t\t\tM_ = M.permute(1,2,0) # batch, mem_dim, seqlen\n\t\t\tx_ = self.transform(x).unsqueeze(1) # batch, 1, mem_dim\n\t\t\talpha = F.softmax(torch.bmm(x_, M_), dim=2) # batch, 1, seqlen\n\t\telif self.att_type=='general2':\n\t\t\tM_ = M.permute(1,2,0) # batch, mem_dim, seqlen\n\t\t\tx_ = self.transform(x).unsqueeze(1) # batch, 1, mem_dim\n\t\t\talpha_ = F.softmax((torch.bmm(x_, M_))mask.unsqueeze(1), dim=2) # batch, 1, seqlen\n\t\t\talpha_masked = alpha_mask.unsqueeze(1) # batch, 1, seqlen\n\t\t\talpha_sum = torch.sum(alpha_masked, dim=2, keepdim=True) # batch, 1, 1\n\t\t\talpha = alpha_masked/alpha_sum # batch, 1, 1 ; normalized\n\t\t\t#import ipdb;ipdb.set_trace()\n\t\telse:\n\t\t\tM_ = M.transpose(0,1) # batch, seqlen, mem_dim\n\t\t\tx_ = x.unsqueeze(1).expand(-1,M.size()[0],-1) # batch, seqlen, cand_dim\n\t\t\tM_x_ = torch.cat([M_,x_],2) # batch, seqlen, mem_dim+cand_dim\n\t\t\tmx_a = F.tanh(self.transform(M_x_)) # batch, seqlen, alpha_dim\n\t\t\talpha = F.softmax(self.vector_prod(mx_a),1).transpose(1,2) # batch, 1, seqlen\n\n\t\tattn_pool = torch.bmm(alpha, M.transpose(0,1))[:,0,:] # batch, mem_dim\n\n\t\treturn attn_pool, alpha\n\n\nclass DialogueRNNCell(nn.Module):\n\n\tdef __init__(self, D_m, D_g, D_p, D_e, listener_state=False,\n\t\t\t\t\t\t\tcontext_attention='simple', D_a=100, dropout=0.5):\n\t\tsuper(DialogueRNNCell, self).__init__()\n\n\t\tself.D_m = D_m\n\t\tself.D_g = D_g\n\t\tself.D_p = D_p\n\t\tself.D_e = D_e\n\n\t\tself.listener_state = listener_state\n\t\tself.g_cell = nn.GRUCell(D_m+D_p,D_g)\n\t\tself.p_cell = nn.GRUCell(D_m+D_g,D_p)\n\t\tself.e_cell = nn.RNNCell(D_p,D_e)\n\t\tif listener_state:\n\t\t\tself.l_cell = nn.GRUCell(D_m+D_p,D_p)\n\n\t\tself.dropout = nn.Dropout(dropout)\n\n\t\tif context_attention=='simple':\n\t\t\tself.attention = SimpleAttention(D_g)\n\t\telse:\n\t\t\tself.attention = MatchingAttention(D_g, D_g, D_a, context_attention)\n\n\tdef _select_parties(self, X, indices):\n\t\tq0_sel = []\n\t\tfor idx, j in zip(indices, X):\n\t\t\tq0_sel.append(j[idx].unsqueeze(0))\n\t\tq0_sel = torch.cat(q0_sel,0)\n\t\treturn q0_sel\n\n\tdef forward(self, U, qmask, g_hist, q0, e0):\n\t\t\"\"\"\n\t\tU -> batch, D_m\n\t\tqmask -> batch, party\n\t\tg_hist -> t-1, batch, D_g\n\t\tq0 -> batch, party, D_p\n\t\te0 -> batch, self.D_e\n\t\t\"\"\"\n\t\tqm_idx = torch.argmax(qmask, 1)\n\t\tq0_sel = self._select_parties(q0, qm_idx)\n\t\tg_ = self.g_cell(torch.cat([U,q0_sel], dim=1),\n\t\t\t\ttorch.zeros(U.size()[0],self.D_g).type(U.type()) if g_hist.size()[0]==0 else\n\t\t\t\tg_hist[-1])\n\t\tg_ = self.dropout(g_)\n\t\tif g_hist.size()[0]==0:\n\t\t\tc_ = torch.zeros(U.size()[0],self.D_g).type(U.type())\n\t\t\talpha = None\n\t\telse:\n\t\t\tc_, alpha = self.attention(g_hist,g_)\n\t\t# c_ = torch.zeros(U.size()[0],self.D_g).type(U.type()) if g_hist.size()[0]==0\\\n\t\t# else self.attention(g_hist,U)[0] # batch, D_g\n\t\tU_c_ = torch.cat([U,c_], dim=1).unsqueeze(1).expand(-1,qmask.size()[1],-1)\n\t\tqs_ = self.p_cell(U_c_.contiguous().view(-1,self.D_m+self.D_g),\n\t\t\t\tq0.view(-1, self.D_p)).view(U.size()[0],-1,self.D_p)\n\t\tqs_ = self.dropout(qs_)\n\n\t\tif self.listener_state:\n\t\t\tU_ = U.unsqueeze(1).expand(-1,qmask.size()[1],-1).contiguous().view(-1,self.D_m)\n\t\t\tss_ = self._select_parties(qs_, qm_idx).unsqueeze(1).\\\n\t\t\t\t\texpand(-1,qmask.size()[1],-1).contiguous().view(-1,self.D_p)\n\t\t\tU_ss_ = torch.cat([U_,ss_],1)\n\t\t\tql_ = self.l_cell(U_ss_,q0.view(-1, self.D_p)).view(U.size()[0],-1,self.D_p)\n\t\t\tql_ = self.dropout(ql_)\n\t\telse:\n\t\t\tql_ = q0\n\t\tqmask_ = qmask.unsqueeze(2)\n\t\tq_ = ql_(1-qmask_) + qs_qmask_\n\t\te0 = torch.zeros(qmask.size()[0], self.D_e).type(U.type()) if e0.size()[0]==0\\\n\t\t\t\telse e0\n\t\te_ = self.e_cell(self._select_parties(q_,qm_idx), e0)\n\t\te_ = self.dropout(e_)\n\n\t\treturn g_,q_,e_,alpha\n\nclass DialogueRNN(nn.Module):\n\n\tdef __init__(self, D_m, D_g, D_p, D_e, listener_state=False,\n\t\t\t\t\t\t\tcontext_attention='simple', D_a=100, dropout=0.5):\n\t\tsuper(DialogueRNN, self).__init__()\n\n\t\tself.D_m = D_m\n\t\tself.D_g = D_g\n\t\tself.D_p = D_p\n\t\tself.D_e = D_e\n\t\tself.dropout = nn.Dropout(dropout)\n\n\t\tself.dialogue_cell = DialogueRNNCell(D_m, D_g, D_p, D_e,\n\t\t\t\t\t\t\tlistener_state, context_attention, D_a, dropout)\n\n\tdef forward(self, U, qmask):\n\t\t\"\"\"\n\t\tU -> seq_len, batch, D_m\n\t\tqmask -> seq_len, batch, party\n\t\t\"\"\"\n\n\t\tg_hist = torch.zeros(0).type(U.type()) # 0-dimensional tensor\n\t\tq_ = torch.zeros(qmask.size()[1], qmask.size()[2],\n\t\t\t\t\t\t\t\t\tself.D_p).type(U.type()) # batch, party, D_p\n\t\te_ = torch.zeros(0).type(U.type()) # batch, D_e\n\t\te = e_\n\n\t\talpha = []\n\t\tfor u_,qmask_ in zip(U, qmask):\n\t\t\tg_, q_, e_, alpha_ = self.dialogue_cell(u_, qmask_, g_hist, q_, e_)\n\t\t\tg_hist = torch.cat([g_hist, g_.unsqueeze(0)],0)\n\t\t\te = torch.cat([e, e_.unsqueeze(0)],0)\n\t\t\tif type(alpha_)!=type(None):\n\t\t\t\talpha.append(alpha_[:,0,:])\n\n\t\treturn e,alpha # seq_len, batch, D_e\n\nclass BiModel(nn.Module):\n\n\tdef __init__(self, D_m, D_g, D_p, D_e, D_h,\n\t\t\t\t n_classes=7, listener_state=False, context_attention='simple', D_a=100, dropout_rec=0.5,\n\t\t\t\t dropout=0.5):\n\t\tsuper(BiModel, self).__init__()\n\n\t\tself.D_m = D_m\n\t\tself.D_g = D_g\n\t\tself.D_p = D_p\n\t\tself.D_e = D_e\n\t\tself.D_h = D_h\n\t\tself.n_classes = n_classes\n\t\tself.dropout = nn.Dropout(dropout)\n\t\tself.dropout_rec = nn.Dropout(dropout+0.15)\n\t\tself.dialog_rnn_f = DialogueRNN(D_m, D_g, D_p, D_e,listener_state,\n\t\t\t\t\t\t\t\t\tcontext_attention, D_a, dropout_rec)\n\t\tself.dialog_rnn_r = DialogueRNN(D_m, D_g, D_p, D_e,listener_state,\n\t\t\t\t\t\t\t\t\tcontext_attention, D_a, dropout_rec)\n\t\tself.linear = nn.Linear(2D_e, 2D_h)\n\t\tself.smax_fc = nn.Linear(2D_h, n_classes)\n\t\tself.matchatt = MatchingAttention(2D_e,2D_e,att_type='general2')\n\n\tdef _reverse_seq(self, X, mask):\n\t\t\"\"\"\n\t\tX -> seq_len, batch, dim\n\t\tmask -> batch, seq_len\n\t\t\"\"\"\n\t\tX_ = X.transpose(0,1)\n\t\tmask_sum = torch.sum(mask, 1).int()\n\n\t\txfs = []\n\t\tfor x, c in zip(X_, mask_sum):\n\t\t\txf = torch.flip(x[:c], [0])\n\t\t\txfs.append(xf)\n\n\t\treturn pad_sequence(xfs)\n\n\n\tdef forward(self, U, qmask, umask,att2=True):\n\t\t\"\"\"\n\t\tU -> seq_len, batch, D_m\n\t\tqmask -> seq_len, batch, party\n\t\t\"\"\"\n\t\temotions_f, alpha_f = self.dialog_rnn_f(U, qmask) # seq_len, batch, D_e\n\t\temotions_f = self.dropout_rec(emotions_f)\n\t\trev_U = self._reverse_seq(U, umask)\n\t\trev_qmask = self._reverse_seq(qmask, umask)\n\t\temotions_b, alpha_b = self.dialog_rnn_r(rev_U, rev_qmask)\n\t\temotions_b = self._reverse_seq(emotions_b, umask)\n\t\temotions_b = self.dropout_rec(emotions_b)\n\t\temotions = torch.cat([emotions_f,emotions_b],dim=-1)\n\t\tif att2:\n\t\t\tatt_emotions = []\n\t\t\talpha = []\n\t\t\tfor t in emotions:\n\t\t\t\tatt_em, alpha_ = self.matchatt(emotions,t,mask=umask)\n\t\t\t\tatt_emotions.append(att_em.unsqueeze(0))\n\t\t\t\talpha.append(alpha_[:,0,:])\n\t\t\tatt_emotions = torch.cat(att_emotions,dim=0)\n\t\t\thidden = F.relu(self.linear(att_emotions))\n\t\telse:\n\t\t\thidden = F.relu(self.linear(emotions))\n\t\t#hidden = F.relu(self.linear(emotions))\n\t\thidden = self.dropout(hidden)\n\t\tlog_prob = F.log_softmax(self.smax_fc(hidden), 2) # seq_len, batch, n_classes\n\t\treturn log_prob, alpha, alpha_f, alpha_b\n\n\nclass Conversation(Dataset):\n\n\tdef __init__(self, features,speakers):\n\t\tself.videoAudio, self.videoSpeakers = features,speakers\n\t\tself.keys = [key for key in self.videoAudio]\n\t\tself.len = len(self.keys)\n\n\tdef __getitem__(self, index):\n\t\tvid = self.keys[index]\n\t\treturn torch.FloatTensor(self.videoAudio[vid]), torch.FloatTensor([[1,0] if x=='M' else [0,1] for x in self.videoSpeakers[vid]]), torch.FloatTensor([1]len(self.videoSpeakers[vid]))\n\n\tdef __len__(self):\n\t\treturn self.len\n\n\tdef collate_fn(self, data):\n\t\tdat = pd.DataFrame(data)\n\t\treturn [pad_sequence(dat[i]) if i<2 else pad_sequence(dat[i], True) if i<4 else dat[i].tolist() for i in dat]\n\ndef train_or_eval_model(model, features, speakers, batch_size=1, num_workers=0, pin_memory=False):\n\tpreds = []\n\talpha_f1 = []\n\talpha_b1 = []\n\n\ttestset = Conversation(features,speakers)\n\ttest_loader = DataLoader(testset,\n\t\t\t\t\t\t\t batch_size=batch_size,\n\t\t\t\t\t\t\t collate_fn=testset.collate_fn,\n\t\t\t\t\t\t\t num_workers=num_workers,\n\t\t\t\t\t\t\t pin_memory=pin_memory)\n\n\tfor data in test_loader:\n\t\tacouf, qmask, umask = data\n\t\tlog_prob, alpha, alpha_f, alpha_b = model(acouf, qmask,umask) # seq_len, batch, n_classes\n\t\tlp_ = log_prob.transpose(0,1).contiguous().view(-1,log_prob.size()[2]) # batchseq_len, n_classes\n\t\tpred_ = torch.exp(lp_)\n\t\t#pred_ = torch.argmax(lp_,1) # batchseq_len\n\t\tpreds.append(pred_.data.cpu().numpy())\n\t\talpha_f1.append(alpha[0].tolist())\n\t\talpha_b1.append(alpha[1].tolist())\n\n\tif preds!=[]:\n\t\tpreds = np.concatenate(preds)\n\telse:\n\t\treturn float('nan'),float('nan'), float('nan')\n\n\treturn preds, alpha_f1, alpha_b1\n\ndef predictConversationOffline(utterences, speakers):\n\tfeature = {}\n\tspeaker = {}\n\tlist1 = []\n\tspeakers = speakers.split(\",\")\n\n\tfor _,file in utterences.items():\n\t\tfile.save('utterence.wav')\n\t\tlist1.append(featureMean('utterence.wav'))\n\n\tfeature['conv'] = list1\n\tspeaker['conv'] = speakers\n\n\tpredictions = train_or_eval_model(model,feature,speaker)\n\treturn predictions\n\ndef predictConversationOnline(utterences, speakers):\n\tfeature = {}\n\tspeaker = {}\n\tlist1 = []\n\n\tfor _,file in utterences.items():\n\t\tfile.save('utterence.wav')\n\t\tlist1.append(featureMean('utterence.wav'))\n\n\n\tif not os.path.exists(\"data.json\"): # first utterence of the conv\n\t\toldData = {\"features\":[],\"speakers\": []}\n\telse:\n\t\twith open('data.json', 'r') as infile:\n\t\t\toldData = json.load(infile)\n\t# update old data\n\toldData[\"features\"].append(list1)\n\toldData[\"speakers\"].append(speakers)\n\n\t# update data.json file\n\twith open('data.json', 'w') as outfile:\t\n\t\tjson.dump(oldData, outfile)\n\n #send utterence/speaker sequence up to now\n\n\tfeature['conv'] = oldData[\"features\"]\n\n\tspeaker['conv'] = oldData[\"speakers\"]\n\n\tpredictions = train_or_eval_model(model,feature,speaker)\n\t#only return the last prediction\n\treturn predictions\n\n\nD_m = 512\nD_g = 150\nD_p = 150\nD_e = 100\nD_h = 100\nD_a = 100 # concat attention\nn_classes = 6\n\nmodel = BiModel(D_m, D_g, D_p, D_e, D_h,\n\t\t\t\t n_classes=n_classes,\n\t\t\t\t listener_state=False,\n\t\t\t\t context_attention='general',\n\t\t\t\t dropout_rec=0.1,\n\t\t\t\t dropout=0.1)\n\nmodel.load_state_dict(torch.load('conversationModel.pt'))\nmodel.eval()\n" }, { "alpha_fraction": 0.7234042286872864, "alphanum_fraction": 0.7872340679168701, "avg_line_length": 8.399999618530273, "blob_id": "7bf65bd2e8eef9992091d816efb89759cbd474f3", "content_id": "7706feabbf5469b188a158b0a297941cce95034d", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 47, "license_type": "permissive", "max_line_length": 14, "num_lines": 5, "path": "/Emosense Web API/requirements.txt", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "Flask\nlibrosa==0.4.2\nfairseq\nflask_cors\npandas\n" }, { "alpha_fraction": 0.6961613297462463, "alphanum_fraction": 0.7085230946540833, "avg_line_length": 26.428571701049805, "blob_id": "f3ed627e150901f9d1bd4901dad1d6a2ef0ff731", "content_id": "dfa6f0f72009c1473970dcef550e351144a4015b", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1537, "license_type": "permissive", "max_line_length": 85, "num_lines": 56, "path": "/Emosense Web API/UtterenceModel.py", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "import torch\nimport torch.nn as nn\nimport torch.nn.functional as F\nimport pickle\nfrom DeepLearntFeatures import \n\nclass EmotionRNNcell(nn.Module):\n\n\tdef __init__(self,gru_input_dim,gru_hidden_dim,dropout):\n\n\t\tsuper(EmotionRNNcell, self).__init__()\n\t\tself.dropout = nn.Dropout(dropout)\n\t\tself.gru_cell = nn.GRUCell(gru_input_dim,gru_hidden_dim)\n\n\tdef forward(self, U):\n\t\tu_ = torch.zeros(U.size()[0],gru_hidden_dim)\n\t\tU = U.permute(1,0,2)\n\t\tfor u in U:\n\t\t\tu_ = self.gru_cell(u,u_)\n\t\t\tu_ = self.dropout(u_)\n\t\treturn u_\n\nclass Model(nn.Module):\n\n\tdef __init__(self,n_classes,gru_input_dim,gru_hidden_dim,linear_hidden_dim,dropout):\n\t\tsuper(Model, self).__init__()\n\t\tself.n_classes = n_classes\n\t\tself.dropout = nn.Dropout(dropout)\n\t\tself.emotion_rnn_cell = EmotionRNNcell(gru_input_dim,gru_hidden_dim,dropout)\n\n\t\tself.linear = nn.Linear(gru_hidden_dim,linear_hidden_dim)\n\t\tself.smax_fc = nn.Linear(linear_hidden_dim,n_classes)\n\n\tdef forward(self,x):\n\t\tx_ = self.emotion_rnn_cell(x)\n\t\tx_ = F.relu(self.linear(x_))\n\t\tx_ = self.dropout(x_)\n\t\tlog_prob = F.log_softmax(self.smax_fc(x_))\n\t\treturn log_prob\n\nn_classes=6\ngru_input_dim=512\ngru_hidden_dim=512\nlinear_hidden_dim=512\ndropout=0.5\n\nmodel = Model(n_classes,gru_input_dim,gru_hidden_dim,linear_hidden_dim,dropout)\nmodel.load_state_dict(torch.load('utterenceModel.pt'))\nmodel.eval()\n\ndef predictUtterence(file):\n\t\tfeature = feature20BinMeans(file);\n\t\tfeature = torch.FloatTensor(feature)\n\t\tfeature = feature.unsqueeze(0)\n\t\tlog_prob = model(feature)\n\t\treturn torch.exp(log_prob).tolist()\n\n" }, { "alpha_fraction": 0.534643828868866, "alphanum_fraction": 0.5529668927192688, "avg_line_length": 40.20500183105469, "blob_id": "6ccf069eeabedea4fc3fa15f19353da270bffd57", "content_id": "d1172b1ac91f457728bdeeedf02d49cbe7a5dc13", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8241, "license_type": "no_license", "max_line_length": 192, "num_lines": 200, "path": "/Research Work/Training/Conversational_Emotion_Prediction.py", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "import numpy as np\nnp.random.seed(1234)\nimport torch\nimport torch.nn as nn\nfrom torch.utils.data import DataLoader\nfrom torch.utils.data.sampler import SubsetRandomSampler\nimport torch.optim as optim\nfrom datetime import datetime\nimport argparse\nimport time\nimport pickle\n\nfrom sklearn.metrics import f1_score, confusion_matrix, accuracy_score, classification_report, precision_recall_fscore_support\nfrom torch.utils.data import Dataset\nfrom torch.nn.utils.rnn import pad_sequence\nimport pandas as pd\n\nfrom ConversationModel import BiModel\n\nclass IEMOCAPDataset(Dataset):\n\n def __init__(self, path, train=True):\n self.videoAudio, self.videoLabels, self.videoSpeakers, self.trainVid, self.testVid = pickle.load(open('/content/drive/My Drive/EmotionRNN2/dataformodel.pkl', 'rb'), encoding='latin1')\n\n \n '''\n joy, trust, fear, surprise, sadness, anticipation, anger, and disgust.= basic 8 emotions\n\n \n label index mapping = {'hap':0, 'sad':1, 'neu':2, 'ang':3, 'exc':4, 'fru':5} -= we have here\n '''\n self.keys = [x for x in (self.trainVid if train else self.testVid)]\n\n self.len = len(self.keys)\n\n def __getitem__(self, index):\n vid = self.keys[index]\n return torch.FloatTensor(self.videoAudio[vid]),\\\n torch.FloatTensor([[1,0] if x=='M' else [0,1] for x in\\\n self.videoSpeakers[vid]]),\\\n torch.FloatTensor([1]len(self.videoLabels[vid])),\\\n torch.LongTensor(self.videoLabels[vid]),\\\n vid\n\n def __len__(self):\n return self.len\n\n def collate_fn(self, data):\n dat = pd.DataFrame(data)\n return [pad_sequence(dat[i]) if i<2 else pad_sequence(dat[i], True) if i<4 else dat[i].tolist() for i in dat]\n\ndef get_train_valid_sampler(trainset, valid=0.1):\n size = len(trainset)\n idx = list(range(size))\n split = int(validsize)\n return SubsetRandomSampler(idx[split:]), SubsetRandomSampler(idx[:split])\n\ndef get_IEMOCAP_loaders(path, batch_size=32, valid=0.1, num_workers=0, pin_memory=False):\n trainset = IEMOCAPDataset(path=path)\n train_sampler, valid_sampler = get_train_valid_sampler(trainset, valid)\n train_loader = DataLoader(trainset,\n batch_size=batch_size,\n sampler=train_sampler,\n collate_fn=trainset.collate_fn,\n num_workers=num_workers,\n pin_memory=pin_memory)\n valid_loader = DataLoader(trainset,\n batch_size=batch_size,\n sampler=valid_sampler,\n collate_fn=trainset.collate_fn,\n num_workers=num_workers,\n pin_memory=pin_memory)\n\n testset = IEMOCAPDataset(path=path, train=False)\n test_loader = DataLoader(testset,\n batch_size=batch_size,\n collate_fn=testset.collate_fn,\n num_workers=num_workers,\n pin_memory=pin_memory)\n\n return train_loader, valid_loader, test_loader\n\ndef train_or_eval_model(model, loss_function, dataloader, epoch, optimizer=None, train=False):\n losses = []\n preds = []\n labels = []\n masks = []\n alphas, alphas_f, alphas_b, vids = [], [], [], []\n assert not train or optimizer!=None\n if train:\n model.train()\n else:\n model.eval()\n for data in dataloader:\n if train:\n optimizer.zero_grad()\n # import ipdb;ipdb.set_trace()\n acouf, qmask, umask, label =\\\n [d.cuda() for d in data[:-1]] if cuda else data[:-1]\n #log_prob = model(torch.cat((textf,acouf,visuf),dim=-1), qmask,umask) # seq_len, batch, n_classes\n log_prob, alpha, alpha_f, alpha_b = model(acouf, qmask,umask) # seq_len, batch, n_classes\n lp_ = log_prob.transpose(0,1).contiguous().view(-1,log_prob.size()[2]) # batchseq_len, n_classes\n labels_ = label.view(-1) # batchseq_len\n loss = loss_function(lp_, labels_, umask)\n\n pred_ = torch.argmax(lp_,1) # batchseq_len\n preds.append(pred_.data.cpu().numpy())\n labels.append(labels_.data.cpu().numpy())\n masks.append(umask.view(-1).cpu().numpy())\n\n losses.append(loss.item()masks[-1].sum())\n if train:\n loss.backward() \n optimizer.step()\n else:\n alphas += alpha\n alphas_f += alpha_f\n alphas_b += alpha_b\n vids += data[-1]\n\n if preds!=[]:\n preds = np.concatenate(preds)\n labels = np.concatenate(labels)\n masks = np.concatenate(masks)\n else:\n return float('nan'), float('nan'), [], [], [], float('nan'),[]\n\n avg_loss = round(np.sum(losses)/np.sum(masks),4)\n avg_accuracy = round(accuracy_score(labels,preds,sample_weight=masks)100,2)\n avg_fscore = round(f1_score(labels,preds,sample_weight=masks,average='weighted')100,2)\n return avg_loss, avg_accuracy, labels, preds, masks,avg_fscore, [alphas, alphas_f, alphas_b, vids]\n\nif __name__ == '__main__':\n #batch_size = args.\n batch_size = 2\n n_classes = 6\n #cuda = args.cuda\n cuda = False\n #n_epochs = args.epochs\n n_epochs = 100\n\n \n D_m = 2000\n D_g = 300\n D_p = 300\n D_e = 200\n D_h = 200\n\n D_a = 200 # concat attention\n \n model = BiModel(D_m, D_g, D_p, D_e, D_h,\n n_classes=n_classes,\n listener_state=False,\n context_attention='general',\n dropout_rec=0.1,\n dropout=0.1) \n if cuda:\n model.cuda()\n loss_weights = torch.FloatTensor([\n 1/0.086747,\n 1/0.144406,\n 1/0.227883,\n 1/0.160585,\n 1/0.127711,\n 1/0.252668,\n ])\n\n loss_function = MaskedNLLLoss(loss_weights) \n \n optimizer = optim.Adam(model.parameters(),\n lr=0.0001,\n weight_decay=0.00001)\n\n train_loader, valid_loader, test_loader =\\\n get_IEMOCAP_loaders('/content/drive/My Drive/Emotion RNN/IEMOCAP_features_raw.pkl',\n valid=0.1,\n batch_size=batch_size,\n num_workers=2)\n\n best_test, best_label, best_pred, best_mask = None, None, None, None\n best_uwa = None\n for e in range(n_epochs):\n start_time = time.time()\n train_loss, train_acc, _,_,_,train_fscore,_= train_or_eval_model(model, loss_function,\n train_loader, e, optimizer, True)\n valid_loss, valid_acc, _,_,_,val_fscore,_= train_or_eval_model(model, loss_function, valid_loader, e)\n test_loss, test_acc, test_label, test_pred, test_mask, test_fscore, attentions = train_or_eval_model(model, loss_function, test_loader, e)\n\n dict1 = classification_report(test_label,test_pred,sample_weight=test_mask,digits=4,output_dict=True)\n test_uwa = dict1['macro avg']['recall']\n print(test_uwa)\n if test_acc > 61 and test_uwa > 0.58:\n print(\"*\"+str(test_acc)+\"\"+str(test_uwa)+\"*\")\n print(classification_report(test_label,test_pred,sample_weight=test_mask,digits=4))\n print(confusion_matrix(test_label,test_pred,sample_weight=test_mask))\n torch.save(model.state_dict(), '/content/drive/My Drive/Emotion RNN/sadil/'+str(datetime.now())+\"-\"+str(test_acc)+\"-\"+str(test_uwa)+'rnn_model_loss_wiegts.pt')\n\n print('epoch {} train_loss {} train_acc {} train_fscore{} valid_loss {} valid_acc {} val_fscore{} test_loss {} test_acc {} test_fscore {} time {}'.\\\n format(e+1, train_loss, train_acc, train_fscore, valid_loss, valid_acc, val_fscore,\\\n test_loss, test_acc, test_fscore, round(time.time()-start_time,2)))\n" }, { "alpha_fraction": 0.7736111283302307, "alphanum_fraction": 0.8111110925674438, "avg_line_length": 50.42856979370117, "blob_id": "36769f2d5afe091e425921c2fbd3f9c4e3734272", "content_id": "f5fe610bd26ac494c885d1656c07eea06adf3ffc", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 720, "license_type": "no_license", "max_line_length": 139, "num_lines": 14, "path": "/README.md", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "# EmotionFYP\n\n## Emotion Detection Pipeline.\n![alt text](https://github.com/sadilchamishka/EmotionFYP/blob/master/Emosense%20Frontend%20App/Emotion%20detection%20pipeline.jpg?raw=true)\n\n## Confusion Matrix for IEMOCAP dataset\n![alt text](https://github.com/sadilchamishka/EmotionFYP/blob/master/Emosense%20Frontend%20App/Confusion%20Matrix.jpg?raw=true)\n\n## Prediction for angry and frustrated speech.\n![alt text](https://github.com/sadilchamishka/EmotionFYP/blob/master/Emosense%20Frontend%20App/Angry%20Utterence.png?raw=true)\n\n\n## Prediction emotional conversation between 2 people.\n![alt text](https://github.com/sadilchamishka/EmotionFYP/blob/master/Emosense%20Frontend%20App/Emotional%20Conversation.png?raw=true)\n" }, { "alpha_fraction": 0.5577526092529297, "alphanum_fraction": 0.5936821699142456, "avg_line_length": 35.70796585083008, "blob_id": "9f40cb151373a308f893d5f7b4e3caed92b21ccf", "content_id": "f1688c41baea0c43aed5c36b6b35dbafeafb887e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "JavaScript", "length_bytes": 4147, "license_type": "no_license", "max_line_length": 262, "num_lines": 113, "path": "/Emosense Frontend App/src/Util.js", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "var sampleRate = 44100;\nvar blob = null;\n\n// Downsample the buffer\nfunction downsampleBuffer(buffer) {\n if (16000 === sampleRate) {\n return buffer;\n }\n var sampleRateRatio = sampleRate / 16000;\n var newLength = Math.round(buffer.length / sampleRateRatio);\n var result = new Float32Array(newLength);\n var offsetResult = 0;\n var offsetBuffer = 0;\n while (offsetResult < result.length) {\n var nextOffsetBuffer = Math.round((offsetResult + 1) sampleRateRatio);\n var accum = 0,\n count = 0;\n for (var i = offsetBuffer; i < nextOffsetBuffer && i < buffer.length; i++) {\n accum += buffer[i];\n count++;\n }\n result[offsetResult] = accum / count;\n offsetResult++;\n offsetBuffer = nextOffsetBuffer;\n }\n return result;\n }\n\nfunction writeString(view, offset, string) {\n for (let i = 0; i < string.length; i++) {\n view.setUint8(offset + i, string.charCodeAt(i));\n }\n }\n \nfunction floatTo16BitPCM(output, offset, input) {\n for (let i = 0; i < input.length; i++, offset += 2) {\n let s = Math.max(-1, Math.min(1, input[i]));\n output.setInt16(offset, s < 0 ? s * 0x8000 : s * 0x7FFF, true);\n }\n }\n\nfunction flattenArray(channelBuffer, recordingLength) {\n var result = new Float32Array(recordingLength);\n var offset = 0;\n for (var i = 0; i < channelBuffer.length; i++) {\n var buffer = channelBuffer[i];\n result.set(buffer, offset);\n offset += buffer.length;\n }\n return result;\n}\n\nexport function generateWaveFile(leftchannel,recordingLength) {\n var leftBuffer = flattenArray(leftchannel, recordingLength); \n var downsampledBuffer = downsampleBuffer(leftBuffer, 16000);\n \n var buffer = new ArrayBuffer(44 + downsampledBuffer.length * 2);\n var view = new DataView(buffer);\n\n // RIFF chunk descriptor\n writeString(view, 0, 'RIFF');\n view.setUint32(4, 32 + downsampledBuffer.length * 2, true);\n writeString(view, 8, 'WAVE');\n // FMT sub-chunk\n writeString(view, 12, 'fmt ');\n view.setUint32(16, 16, true); // chunkSize\n view.setUint16(20, 1, true); // wFormatTag\n view.setUint16(22, 1, true); // wChannels: stereo (2 channels)\n view.setUint32(24, 16000, true); // dwSamplesPerSec\n view.setUint32(28, 16000 * 2, true); // dwAvgBytesPerSec\n view.setUint16(32, 2, true); // wBlockAlign\n view.setUint16(34, 16, true); // wBitsPerSample\n // data sub-chunk\n writeString(view, 36, 'data');\n view.setUint32(40, downsampledBuffer.length * 2, true);\n\n floatTo16BitPCM(view, 44, downsampledBuffer);\n\n // write the PCM samples\n \n // our final blob\n blob = new Blob([view], { type: 'audio/wav' });\n var formData = new FormData();\n formData.append(\"audio\", blob, \"audio.wav\");\n return formData;\n}\n\nexport function emotionProbDict(data){\n if (data==0){\n return [{ emotion: 'Happy', probability: 0.0 }, { emotion: 'Sad', probability: 0.0 }, { emotion: 'Neutral', probability: 0.0 }, { emotion: 'Angry', probability: 0.0 }, { emotion: 'Excited', probability: 0.0 },{ emotion: 'Frustrated', probability: 0.0 }];\n } else {\n data = data[\"prediction\"];\n const responsePredictions = [{ emotion: 'Happy', probability: data[0] },\n { emotion: 'Sad', probability: data[1] },\n { emotion: 'Neutral', probability: data[2] },\n { emotion: 'Angry', probability: data[3] },\n { emotion: 'Excited', probability: data[4] },\n { emotion: 'Frustrated', probability: data[5] }];\n return responsePredictions;\n }\n \n}\n\nexport function distressProbDict(data){\n if (data==1000){\n return [{ status: 'Normal', probability: 0.0 }, { status: 'Distress', probability: 0.0 }];\n } else {\n const responsePredictions = [{ status: 'Normal', probability: data.prediction[0] },\n { status: 'Distress', probability: data.prediction[1] }];\n return responsePredictions;\n }\n \n}" }, { "alpha_fraction": 0.6298227310180664, "alphanum_fraction": 0.6319082379341125, "avg_line_length": 32.068965911865234, "blob_id": "44875f0843d4acbb4e66ccd517ec5c872aa252a8", "content_id": "a81ccba777e83f01e6ede10835cdc5be7efaad4c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "JavaScript", "length_bytes": 959, "license_type": "no_license", "max_line_length": 82, "num_lines": 29, "path": "/Emosense Frontend App/src/App.js", "repo_name": "sadilchamishka/EmotionFYP", "src_encoding": "UTF-8", "text": "import {BrowserRouter as Router, Switch, Route} from 'react-router-dom';\nimport './App.css';\nimport Nav from './Nav';\nimport UploadUtterence from './UploadUtterence';\nimport RecordUtterence from './RecordUtterence';\nimport UploadConversation from './UploadConversation';\nimport UploadSpeech from './UploadSpeech';\nimport RecordSpeech from './RecordSpeech';\n\nfunction App() {\n\n return (\n <div className=\"App\">\n <h1>EMOSENSE</h1>\n <Router>\n <Nav/>\n <Switch>\n <Route path=\"/uploaddistress\" component={UploadSpeech}/>\n <Route path=\"/recorddistress\" component={RecordSpeech}/>\n <Route path=\"/uploadutterence\" component={UploadUtterence}/>\n <Route path=\"/recordutterence\" component={RecordUtterence}/>\n <Route path=\"/uploadconversation\" component={UploadConversation}/>\n </Switch>\n </Router>\n </div>\n );\n}\n\nexport default App;\n" } ]	19
kediaharshit/KeyDistributionCenter	https://github.com/kediaharshit/KeyDistributionCenter	fbc123957588dbcf1b8f61c25f0f592deb6ceeb5	2c949f402649646b732e2bc6a9e49ccdbbc8ece9	1f1a7330dfaaf901abe451a62da9b3d14786d657	refs/heads/master	2023-04-08T02:48:17.574808	2021-04-15T06:50:25	2021-04-15T06:50:25	356,169,341	1	0	null	null	null	null	null	[ { "alpha_fraction": 0.4956861734390259, "alphanum_fraction": 0.5356033444404602, "avg_line_length": 25.8978328704834, "blob_id": "faf4fdcf8a1da6730af5a60eb2bf8da4635e085c", "content_id": "89f06340ba8c8c4f57e74ef51cf9b74ceee1f197", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8693, "license_type": "no_license", "max_line_length": 79, "num_lines": 323, "path": "/client.py", "repo_name": "kediaharshit/KeyDistributionCenter", "src_encoding": "UTF-8", "text": "import base64\nimport sys\nimport os\nimport time\nimport socket\nimport random\nimport hashlib\nfrom cryptography.hazmat.primitives import hashes\nfrom cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes\n\ndef generateRandomString(l):\n mk = \"\"\n for _ in range(l):\n x = random.randint(0,61)\n if(x<26):\n mk += chr(ord('A')+x)\n elif(x<52):\n mk += chr(ord('a')+x-26)\n else:\n mk += chr(ord('0')+x-52)\n return mk\n\ndef sender(args):\n counter = 0\n for i in range(1, len(args)-1):\n if args[i]=='-n':\n NAME = args[i+1].ljust(12)\n counter += 1\n elif args[i]=='-o':\n OTHER = args[i+1].ljust(12)\n counter += 1\n elif args[i]=='-i':\n INPUTFILE = args[i+1]\n counter+=1\n elif args[i]=='-a':\n KDCIP = args[i+1]\n counter += 1\n elif args[i]=='-p':\n KDCPORT = int(args[i+1])\n counter += 1\n\n\n if counter != 5:\n print(\"Invalid arguments\")\n return\n\n #connect to kdc\n IV = b'\\x00'16\n MYPORT = 10001\n s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\n IP = '127.0.0.1'.ljust(16)\n s.bind((IP, MYPORT))\n print(\"Using port \", MYPORT)\n s.connect((KDCIP, KDCPORT))\n\n print(\"Registering to KDC - \", NAME)\n # send initial regisitration msg\n masterKey = generateRandomString(12)\n # print(masterKey)\n # msg size = 5+16+1+8+1+12+1+12+1 = 57 bytes \n msg = \"\|301\|\"+ IP +\"\|\"+str(MYPORT).ljust(8)+\"\|\"+masterKey+\"\|\"+NAME+\"\|\"\n s.sendall(bytes(msg, 'utf-8'))\n data = s.recv(1024)\n\n data = data.decode('utf-8').split('\|')\n \n if(data[1]!= '302'):\n print(\"KDC registration failed\")\n exit(0)\n s.close()\n print(\"Registration successful !!!\")\n print(\"Sleeping ...\")\n time.sleep(15)\n\n # generate key from master key using md5\n sender_key = hashlib.md5(bytes(masterKey, 'utf-8')).digest()\n \n #ask for details of other\n nonce1 = generateRandomString(16)\n text = bytes(NAME+ \"\|\" +OTHER+ \"\|\" +nonce1, 'utf-8')\n \n # print(text)\n if len(text)%16 > 0:\n pad = 16-len(text)%16\n text = text + (b'\\x00'pad)\n # print(text)\n\n cipher = Cipher(algorithms.AES(sender_key), modes.CBC(IV))\n encryptor = cipher.encryptor()\n enc_text = encryptor.update(text) + encryptor.finalize() \n # print(enc_text)\n\n enc_text64 = base64.b64encode(enc_text)\n enc_text64 = enc_text64.decode('utf-8')\n\n msg = bytes(\"\|305\|\"+enc_text64+\"\|\"+NAME+\"\|\", 'utf-8')\n\n print(\"Querying KDC for session with - \", OTHER)\n s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\n s.bind((IP, MYPORT))\n s.connect((KDCIP, KDCPORT))\n s.sendall(msg)\n # print(msg)\n\n reply = s.recv(1024)\n s.close()\n parts = reply.decode('utf-8').split('\|')\n # print(parts)\n opcode = parts[1]\n if(opcode!='306'):\n print(\"Failed !!!\")\n exit(0)\n\n E_ka64 = parts[2]\n E_ka = base64.b64decode(E_ka64)\n # 160 bytes\n # print(E_ka)\n sender_key = hashlib.md5(bytes(masterKey, 'utf-8')).digest()\n cipher = Cipher(algorithms.AES(sender_key), modes.CBC(IV))\n dec = cipher.decryptor()\n msg = dec.update(E_ka)\n # print(len(msg)) #160 bytes\n\n msg2 = msg[:80]\n E_kb = msg[80:]\n\n i = len(msg2)-1\n while(msg2[i]==0):\n i = i-1\n msg2 = msg2[0:i+1]\n \n msg2 = msg2.decode('utf-8').split('\|')\n\n unique_session_code = msg2[0]\n print(\"Successfully received address and session key from KDC ...\")\n s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\n s.bind((IP, MYPORT))\n s.connect((msg2[4], int(msg2[5])))\n\n E_kb64 = base64.b64encode(E_kb).decode('utf-8')\n\n print(\"Sending session key to - \", OTHER)\n transfer_req = \"\|309\|\" + E_kb64 + \"\|\" + NAME + \"\|\"\n s.sendall(bytes(transfer_req, 'utf-8'))\n\n time.sleep(2)\n # encrypt file data\n inpF = open(INPUTFILE, 'r')\n data = inpF.read()\n inpF.close()\n\n session_key = hashlib.md5(bytes(unique_session_code, 'utf-8')).digest()\n # print(session_key)\n cipher = Cipher(algorithms.AES(session_key), modes.CBC(IV))\n encr = cipher.encryptor()\n\n data = bytes(data, 'utf-8')\n if len(data)%16>0:\n pad = 16-len(data)%16\n data = data + (b'\\x00'pad)\n\n enc_data = encr.update(data) + encr.finalize()\n\n print(\"Sending encrypted file to \", OTHER)\n s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\n s.bind((IP, MYPORT))\n s.connect((msg2[4], int(msg2[5])))\n \n enc_data64 = base64.b64encode(enc_data).decode('utf-8')\n\n sending = enc_data64\n s.sendall(bytes(sending, 'utf-8'))\n s.close()\n print(\"FINISHED \\n Exiting ...\")\n return\n\ndef receiver(args):\n counter = 0\n for i in range(1, len(args)-1):\n if args[i]=='-n':\n NAME = args[i+1].ljust(12)\n counter += 1\n elif args[i]=='-o':\n OUTFILE = args[i+1]\n counter += 1\n elif args[i]=='-s':\n OUTENC = args[i+1]\n counter+=1\n elif args[i]=='-a':\n KDCIP = args[i+1]\n counter += 1\n elif args[i]=='-p':\n KDCPORT = int(args[i+1])\n counter += 1\n\n if counter != 5:\n print(\"Invalid arguments\")\n return\n \n #connect to kdc\n IV = b'\\x00'16\n MYPORT = 10002\n s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\n IP = '127.0.0.1'.ljust(16)\n s.bind((IP, MYPORT))\n s.connect((KDCIP, KDCPORT))\n print(\"Using port \", MYPORT)\n print(\"Registering with KDC - \", NAME)\n # send initial regisitration msg\n masterKey = generateRandomString(12)\n # msg size = 5 + 16 + 1 + 8+ 1 + 12 + 1 + 12 + 1 = 57 bytes\n msg = \"\|301\|\"+IP+\"\|\"+str(MYPORT).ljust(8)+\"\|\"+masterKey+\"\|\"+NAME+\"\|\"\n s.sendall(bytes(msg, 'utf-8'))\n data = s.recv(1024)\n\n data = data.decode('utf-8').split('\|')\n \n if(data[1]!= '302'):\n print(\"KDC registration failed\")\n exit(0)\n s.close()\n print(\"Registration successful !!!\")\n\n time.sleep(2)\n\n s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\n s.bind((IP, MYPORT))\n s.listen(2)\n\n conn, addr = s.accept()\n print(\"Connection request from \", addr)\n data = conn.recv(1024)\n msg = data.decode('utf-8')\n # print(msg)\n\n opcode = msg[1:4]\n if opcode=='309':\n parts = msg.split('\|')\n\n E_kb64 = parts[2]\n E_kb = base64.b64decode(E_kb64) \n\n recv_key = hashlib.md5(bytes(masterKey, 'utf-8')).digest() \n cipher = Cipher(algorithms.AES(recv_key), modes.CBC(IV))\n decr = cipher.decryptor() \n msg3 = decr.update(E_kb) + decr.finalize()\n\n i = len(msg3)-1\n while(msg3[i]==0):\n i -= 1\n msg3 = msg3[0:i+1].decode('utf-8').split('\|')\n # print(msg3)\n conn.close()\n\n unique_session_code = msg3[0] \n session_key = hashlib.md5(bytes(unique_session_code, 'utf-8')).digest()\n # print(session_key)\n print(\"Received Session key from - \", msg3[1])\n # receive the file / message\n conn, addr = s.accept()\n data = conn.recv(4096)\n msg = data.decode('utf-8')\n \n print(\"Connected to \", addr)\n\n enc_data64 = msg\n\n encF = open(OUTENC, 'w')\n encF.write(enc_data64)\n encF.close()\n print(\"Writing encrypted message in base64 format to -\", OUTENC)\n enc_data = base64.b64decode(enc_data64)\n # print(enc_data) \n\n cipher = Cipher(algorithms.AES(session_key), modes.CBC(IV))\n decr = cipher.decryptor()\n data = decr.update(enc_data) + decr.finalize()\n\n i = len(data)-1\n while(data[i]==0):\n i -= 1\n data = data[0:i+1]\n # print(data.decode('utf-8'))\n\n outF = open(OUTFILE, 'w')\n outF.write(data.decode('utf-8'))\n outF.close()\n print(\"Writing decoded message to -\", OUTFILE)\n conn.close()\n s.close()\n print(\"Exiting ...\")\n return\n \n else:\n print(\"Did not receive code 309 for incoming message \\n Exiting ...\")\n conn.close()\n s.close()\n exit(0)\n return\n\n\nif __name__=='__main__':\n argc = len(sys.argv)\n if(argc < 12):\n print(\"Insufficient arguments\")\n exit(0)\n\n NAME = \"\"\n MODE = \"\"\n\n for i in range(1, argc-1):\n if (sys.argv[i]=='-n'):\n NAME = sys.argv[i+1]\n elif (sys.argv[i]=='-m'):\n MODE = sys.argv[i+1]\n \n if(MODE == 'S'):\n sender(sys.argv)\n elif(MODE == 'R'):\n receiver(sys.argv)\n else:\n print(\"invalid MODE\")\n exit(0)\n\n " }, { "alpha_fraction": 0.70917147397995, "alphanum_fraction": 0.7347425818443298, "avg_line_length": 56.509803771972656, "blob_id": "6d8f500ac1a5de406323bf5a14fea17b04ba22ca", "content_id": "4e761cef3f45e8054a09c421e53058cbb44113c8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 2933, "license_type": "no_license", "max_line_length": 278, "num_lines": 51, "path": "/readme.md", "repo_name": "kediaharshit/KeyDistributionCenter", "src_encoding": "UTF-8", "text": "# CS6500 - Assignment 3 \n## KDC based key establishment\nThe objective of this assignment is to implement the KDC-based key establishment (exchange) for use with symmetric key encryption algorithms. The data encryption algorithm to be used for client-client and KDC-client communication is: AES-128-CBC, i.e. 128-bit key with CBC mode.\n\nWe have implemented 3 roles here:\n##### 1. KDC-server\nThis acts as the center on which users register with their ID and Address. Each user also has aa unique master key shared with the server, which is used to generate a shared key between a specific user and the server. <br />\nAny registered user (say A) can query this KDC server to get the address and a session key of another registered user (say B) and some enrypted data which proves authenticity of user A to user B. Also a session key is generated to share data from A to B. <br />\nThe arguments are as provided in the assignment statement. Example run:\n```console\n$ python3 kdc.py -p 12345 -o logs.txt -f pwd.txt\n```\nHere: <br />\n12345 - is the port on which the server listens to. <br />\nout.txt - is the log file. <br />\npwd.txt - is the file in which the server stores the details of registered users.\n##### 2. Client (Sender type)\nAfter regisitering with the KDC server, this type of client wishes to get the details of another registered user so that they can send some message/file. <br />\nThe arguments are as provided in the assignment statement. Example run:\n```console\n$ python3 client.py -n alice -m S -o bob -i inp.txt -a 127.0.0.1 -p 12345\n```\nHere: <br />\nalice - is the name/ID of the user. <br />\nS - signifies that the program acts as a sender. <br />\nbob - is the name of the person alice wants to send file to. <br />\ninp.txt - is the file to be sent to bob. <br />\n127.0.0.1 - the IP of KDC server. <br />\n12345 - the PORT number of KDC server \n\n##### 3. Client (Receiver type)\nAfter registration with KDC server, this type of client listens to the registered port and waits for encrypted messages from other usuers.<br />\nThe arguments are as provided in the assignment statement. Example run:\n```console\n$ python3 client.py -n bob -m R -s out_enc.txt -o out.txt -a 127.0.0.1 -p 12345\n```\nHere: <br />\nbob - is the name/ID of use. <br />\nR - signifies that the program acts as receiver client. <br />\nout_enc.txt - file where the encrypted message is stored in base64 encoding. <br />\nout.txt - file where message is stored after decryption. <br />\n127.0.0.1 - the IP of KDC server. <br />\n12345 - the port of KDC server.\n\n###### TYPESCRIPTS\nExperimented with 3 terminal windows, one corresponding to a example run given above. Terrminal typescripts are recorded with the above example instance. Attached inside the typescripts folder.<br />\nFirst start the server program. Then start the client programs. Used \n```console\n$ col -bp < bin_file > file.txt\n```\nto convert the binary files into readable text format.\n" }, { "alpha_fraction": 0.43312332034111023, "alphanum_fraction": 0.46354636549949646, "avg_line_length": 29.866666793823242, "blob_id": "1efae4a30d203dd5ff836ce2d48533942a5be46f", "content_id": "c001038ef6f04c0e206e1c2fac70a7e9cb2968de", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5555, "license_type": "no_license", "max_line_length": 112, "num_lines": 180, "path": "/kdc.py", "repo_name": "kediaharshit/KeyDistributionCenter", "src_encoding": "UTF-8", "text": "import base64\nimport sys\nimport os\nimport socket\nimport random\nimport hashlib\nfrom cryptography.hazmat.primitives import hashes\nfrom cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes\n\nclass Registrants:\n def __init__(self, ip, port, mk):\n self.ip = ip\n self.port = port\n self.mk = mk\n\ndef generateSessionKey(l):\n mk = \"\"\n for _ in range(l):\n x = random.randint(0,61)\n if(x<26):\n mk += chr(ord('A')+x)\n elif(x<52):\n mk += chr(ord('a')+x-26)\n else:\n mk += chr(ord('0')+x-52)\n return mk\n\nif __name__=='__main__':\n argc = len(sys.argv)\n if(argc < 7):\n print(\"Insufficient arguments\")\n exit(0)\n\n counter=0\n\n PORT = 0\n PWD = \"\"\n LOGS = \"\"\n\n for i in range(1, argc-1):\n if(sys.argv[i] == '-p'):\n PORT = int(sys.argv[i+1])\n counter += 1\n elif(sys.argv[i]=='-o'):\n LOGS = sys.argv[i+1]\n counter += 1\n elif(sys.argv[i]== '-f'):\n PWD = sys.argv[i+1]\n counter += 1\n \n if (counter != 3):\n print(\"invalid arguments, use: kdc -p port -o outfile -f pwdfile\")\n exit(0)\n \n logfile = open(LOGS, 'w')\n users = {}\n #bind to socket\n s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) \n s.bind(('', PORT))\n\n print(\"Listening on port \", PORT)\n print(\"For details see - \", LOGS)\n print(\"Press Ctrl+C to exit\")\n s.listen(2)\n\n while True:\n conn, addr = s.accept()\n logfile.write(\"Connected to \"+ str(addr) +\"\\n\")\n \n data = conn.recv(1024)\n msg = data.decode('utf-8')\n # print(msg)\n\n opcode = msg[1:4]\n if (opcode == '301'):\n parts = msg.split('\|')\n # print(parts)\n obj = Registrants(parts[2], parts[3], parts[4])\n users[parts[5]] = obj\n \n pwdfile = open(PWD,'w')\n for x in users.keys():\n b64mk = base64.b64encode(bytes(users[x].mk, 'utf-8'))\n data = \":\" + x + \":\"+ users[x].ip +\":\"+ users[x].port+\":\"+ b64mk.decode('utf-8') +\":\"\n pwdfile.write(data + \"\\n\")\n pwdfile.close() \n\n reply = \"\|302\|\" + parts[5] + \"\|\"\n conn.sendall(bytes(reply, 'utf-8'))\n conn.close()\n logfile.write(\"Registered \" + parts[5] + '\\n')\n logfile.write(\"Closing connection...\\n\")\n\n elif (opcode=='305'):\n parts = msg.split('\|')\n \n sender_name = parts[3]\n masterKey = users[sender_name].mk\n sender_key = hashlib.md5(bytes(masterKey, 'utf-8')).digest()\n\n enc_text64 = parts[2]\n enc_text = base64.b64decode(enc_text64)\n # print(enc_text)\n\n IV = b'\\x00'16\n cipher = Cipher(algorithms.AES(sender_key), modes.CBC(IV))\n decryptor = cipher.decryptor()\n text = decryptor.update(enc_text) + decryptor.finalize()\n # print(text)\n\n i = len(text) -1\n while(text[i]==0):\n i = i-1\n \n text = text[0:i+1]\n # print(text)\n \n text = text.decode('utf-8').split('\|')\n ID_A = text[0]\n ID_B = text[1]\n nonce1 = text[2]\n\n # generate a session key\n K_s = generateSessionKey(8)\n\n if ID_A not in users.keys():\n logfile.write(\"Unregistered user is asking for query\\n\")\n s.sendall(bytes(\"\|404\| Register please\", 'utf-8'))\n conn.close()\n continue\n elif ID_B not in users.keys():\n logfile.write(\"Asing for Unregistered user\\n\")\n s.sendall(bytes(\"\|404\| User not found\", 'utf-8'))\n conn.close()\n continue\n\n details_A = users[ID_A]\n details_B = users[ID_B]\n\n # reply = \|306 \| E_A(msg2 \|\| E_b(msg3))\n msg3 = K_s + \"\|\" + ID_A + \"\|\" + ID_B + \"\|\" + nonce1 + \"\|\" + details_A.ip + \"\|\" + details_A.port\n # print(msg3)\n msg2 = K_s + \"\|\" + ID_A + \"\|\" + ID_B + \"\|\" + nonce1 + \"\|\" + details_B.ip + \"\|\" + details_B.port +\"\|\"\n # print(msg2)\n\n mk_A = details_A.mk\n mk_B = details_B.mk\n keyA = hashlib.md5(bytes(mk_A, 'utf-8')).digest()\n keyB = hashlib.md5(bytes(mk_B, 'utf-8')).digest()\n cipherA = Cipher(algorithms.AES(keyA), modes.CBC(IV))\n cipherB = Cipher(algorithms.AES(keyB), modes.CBC(IV))\n enc1 = cipherA.encryptor()\n enc2 = cipherB.encryptor()\n\n msg3 = bytes(msg3, 'utf-8')\n if len(msg3)%16 > 0:\n pad = 16-len(msg3)%16\n msg3 = msg3 + (b'\\x00'pad)\n # made 80 bytes\n E_kb = enc2.update(msg3) + enc2.finalize()\n\n msg2 = bytes(msg2, 'utf-8')\n if len(msg2)%16>0:\n pad = 16-len(msg2)%16\n msg2 = msg2 + (b'\\x00'*pad)\n \n msg2 = msg2 + E_kb\n E_ka = enc1.update(msg2) + enc1.finalize() \n # print(E_ka)\n E_ka64 = base64.b64encode(E_ka).decode(\"utf-8\")\n\n reply = \"\|306\|\" + E_ka64\n\n conn.sendall(bytes(reply, 'utf-8'))\n conn.close()\n logfile.write(\"Sent \" + ID_A +\" details of \"+ ID_B+ '\\n')\n logfile.write(\"Closing connection...\\n\")\n \n s.close()\n logfile.close()" } ]	3
orysovan/orm	https://github.com/orysovan/orm	76cbb964d2856a95b093df0fc278dec4f950bce2	8dca6ac3bcefb5d80cd899910311f40994e0bcbf	ace4ce1e2af6ada20af64f3bd6ac474af17eea55	refs/heads/master	2015-08-13T16:04:16.871456	2014-12-19T10:15:39	2014-12-19T10:15:39	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.800000011920929, "alphanum_fraction": 0.800000011920929, "avg_line_length": 19, "blob_id": "9f27e29d31ab634bcb989c7b2566df7b444bc174", "content_id": "e480c2adce58031b6688503b25da8999848a9206", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 80, "license_type": "no_license", "max_line_length": 70, "num_lines": 4, "path": "/README.md", "repo_name": "orysovan/orm", "src_encoding": "UTF-8", "text": "orm\n===\n\nAllows to manipulate database entities and relations as Python objects\n" }, { "alpha_fraction": 0.554716169834137, "alphanum_fraction": 0.5560493469238281, "avg_line_length": 34.29435348510742, "blob_id": "acc76a731155eb99439875718dc00c69e0254a58", "content_id": "6cafb578ff0510376f5e88b557011e140d01e50f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 9001, "license_type": "no_license", "max_line_length": 108, "num_lines": 248, "path": "/orm.py", "repo_name": "orysovan/orm", "src_encoding": "UTF-8", "text": "\"\"\"Allows to manipulate database entities and relations as Python objects. \"\"\"\r\n#!/usr/local/bin/python3\r\n\r\nimport db_conn\r\nimport datetime\r\n\r\nINSERT = \"\"\"INSERT INTO {table_name} ({field_names}) VALUES ({field_values});\"\"\"\r\nSELECT = \"\"\"SELECT * FROM {table_name} WHERE {table_name}_id = {id_value};\"\"\"\r\nSELECT_FROM_CHILD = \"\"\"SELECT * FROM {child_table} \r\nWHERE {parent}_id = {id_value};\"\"\"\r\nSELECT_ALL = \"\"\"SELECT * FROM {table_name};\"\"\"\r\nUPDATE = \"\"\"UPDATE {table_name} SET {fields} \r\nWHERE {table_name}_id = {id_value};\"\"\"\r\nDELETE = \"\"\"DELETE FROM {table_name} WHERE {table_name}_id = {id_value};\"\"\"\r\nNATURAL_JOIN = \"\"\"SELECT * FROM {sibling_name} NATURAL JOIN {associate_entity}\r\nWHERE {table_name}_id = {id_value};\"\"\"\r\n\r\nclass Entity(object):\r\n \"\"\"Class that describes functionality for \r\n interacting with databases via Python\"\"\"\r\n _db = db_conn.DBConnection()\r\n\r\n def __init__(self, record_id=None):\r\n self._fields_dict = {}\r\n self._record_id = record_id\r\n self._table_name = self.__class__.__name__.lower()\r\n self._loaded = False\r\n\r\n def __setattr__(self, attr, attr_value):\r\n if attr in self._fields:\r\n self._fields_dict['%s_%s' % (self._table_name, attr)] = attr_value\r\n elif attr in self._foreign_keys:\r\n self._fields_dict[attr] = attr_value\r\n else:\r\n object.__setattr__(self, attr, attr_value)\r\n\r\n def __getattr__(self, attr):\r\n if attr in self._fields:\r\n self._load()\r\n return self._fields_dict['%s_%s' % (self._table_name, attr)]\r\n elif attr in self._foreign_keys:\r\n return self._fields_dict[attr]\r\n elif attr in self._parents:\r\n return self._build_parent(attr)\r\n elif attr in self._children:\r\n return self._build_child(attr)\r\n elif attr in self._siblings:\r\n return self._build_siblings(attr)\r\n else:\r\n try:\r\n return self.__dict__['attr']\r\n except KeyError:\r\n pass\r\n raise AttributeError\r\n\r\n def __str__(self):\r\n (field_names, field_values) = self._build_fields()\r\n tmp = ', '.join('%s = %s' % (field, value) \\\r\n for field, value in zip(field_names, field_values))\r\n \r\n return \"{} with ID {}: {}\".format(self.__class__.__name__, \r\n self._record_id, tmp)\r\n\r\n\r\n def _build_parent(self, parent_name):\r\n \"\"\"Implements functionality like: \r\n select * from category c join article a on (c.category_id = a.category_id) where a.article_id = 110;\r\n Here table `category` is parent table, `article` is self._table_name,\r\n `a.article_id` equals self._record_id, autoinceremented if not defined\"\"\"\r\n import models\r\n\r\n parent_id = self._fields_dict['%s_id' % parent_name]\r\n parent_class = parent_name.title()\r\n parent = getattr(models, parent_class)\r\n return parent(parent_id)\r\n\r\n def _build_child(self, child_name):\r\n \"\"\"Implement functionality like:\r\n select * from article a join category c on (a.category_id = c.category_id) where a.category_id = 1;\r\n Here `article` is a child table, `category` is self._table_name,\r\n `a.category_id` equals self._record_id\"\"\"\r\n import models\r\n\r\n parent_name = self._table_name\r\n statement = SELECT_FROM_CHILD.format(child_table = child_name, \\\r\n parent = parent_name, \\\r\n id_value = self._record_id)\r\n self._db.cursor.execute(statement)\r\n rows = self._db.cursor.fetchall()\r\n entities = []\r\n child_class = child_name.title()\r\n child = getattr(models, child_class)\r\n\r\n for row in rows:\r\n entity = child(row['%s_id' % child_name])\r\n entity._fields_dict = row\r\n entity._loaded = True\r\n entities.append(entity)\r\n return entities\r\n\r\n def _build_siblings(self, sibling_name):\r\n \"\"\"Implements functionality like:\r\n select * from article natural join tag_article where tag_id = 1;\r\n\r\n Here `article` is a sibling table (second of two tables connected with many-to-many relation), \r\n `tag_article` is associative table, which implements \r\n many-to-many relation between `tag` and `article` tables, \r\n `tag_id` equals to self._record_id.\"\"\"\r\n\r\n import models\r\n\r\n statement = NATURAL_JOIN.format(table_name = self._table_name, \r\n sibling_name = sibling_name, \\\r\n associate_entity = '_'.join(sorted([sibling_name, self._table_name], reverse = True)), \\\r\n id_value = self._record_id)\r\n\r\n self._db.cursor.execute(statement)\r\n rows = self._db.cursor.fetchall()\r\n entities = []\r\n sibling_class = sibling_name.title()\r\n sibling = getattr(models, sibling_class)\r\n\r\n\r\n for row in rows:\r\n entity = sibling(row['%s_id' % sibling_name])\r\n entity._fields_dict = row\r\n entity._loaded = True\r\n entities.append(entity)\r\n return entities\r\n\r\n\r\n def _load(self):\r\n \"\"\"Loads data from db into memory\"\"\"\r\n if not self._loaded:\r\n statement = SELECT.format(table_name = self._table_name, \\\r\n id_value = self._record_id)\r\n self._db.cursor.execute(statement)\r\n self._fields_dict = self._db.cursor.fetchone()\r\n self._loaded = True\r\n\r\n\r\n def _build_fields(self):\r\n \"\"\"Transforms data from self._fields_dict into db suitable format\"\"\"\r\n field_names = []\r\n field_values = []\r\n\r\n for field_name, field_value in self._fields_dict.items():\r\n field_names.append(field_name)\r\n if isinstance(field_value, str):\r\n field_values.append(\"'%s'\" % field_value)\r\n elif isinstance(field_value, datetime.datetime):\r\n field_values.append(field_value.strftime('%Y-%m-%d %H:%M:%S:%f%Z'))\r\n else: \r\n field_values.append(field_value)\r\n\r\n return field_names, field_values\r\n\r\n def update(self):\r\n \"\"\"Updates data in db\"\"\"\r\n (field_names, field_values) = self._build_fields()\r\n tmp = ', '.join('%s = %s' % (field, value) \\\r\n for field, value in zip(field_names, field_values))\r\n\r\n statement = UPDATE.format(table_name = self._table_name, \\\r\n fields = tmp, id_value = self._record_id)\r\n\r\n self._db.cursor.execute(statement)\r\n\r\n def insert(self):\r\n \"\"\"Inserts data into table. self._record_id must be undefined.\r\n Selects new record_id from db after insertion.\"\"\"\r\n (field_names, field_values) = self._build_fields()\r\n table_name = self._table_name\r\n statement = INSERT.format(table_name = table_name, \\\r\n field_names = ', '.join(field_names), \\\r\n field_values = ', '.join(field_values))\r\n\r\n self._db.cursor.execute(statement)\r\n\r\n get_id = \"\"\"SELECT * FROM {0} WHERE {1};\"\"\".format(table_name, \\\r\n ' AND '.join('%s = %s' % (field, value) for field, value in zip(field_names, field_values)))\r\n self._db.cursor.execute(get_id)\r\n self._record_id = self._db.cursor.fetchone()['%s_id' % table_name]\r\n\r\n\r\n def delete(self):\r\n \"\"\"Deletes data from table\"\"\"\r\n if self._record_id:\r\n statement = DELETE.format(table_name = self._table_name, \\\r\n id_value = self._record_id)\r\n\r\n self._db.cursor.execute(statement)\r\n else: \r\n raise RuntimeError\r\n\r\n @classmethod\r\n def all(cls):\r\n \"\"\"Selects all records from table.\"\"\"\r\n table_name = cls.__name__.lower()\r\n class_name = cls\r\n statement = SELECT_ALL.format(table_name = table_name)\r\n\r\n cls._db.cursor.execute(statement)\r\n rows = cls._db.cursor.fetchall()\r\n entities = []\r\n\r\n for row in rows:\r\n entity = class_name(row['%s_id' % table_name])\r\n entity._fields_dict = row\r\n entity._loaded = True\r\n entities.append(entity)\r\n\r\n return entities\r\n\r\n\r\n def save(self):\r\n \"\"\"If self._record_id is undefined, insert data, otherwise update.\"\"\"\r\n if self._record_id:\r\n self.update()\r\n self._db.commit()\r\n else:\r\n self.insert() \r\n self._db.commit()\r\n\r\ndef main():\r\n \"\"\"Test functionality\"\"\"\r\n import models\r\n\r\n category_ = models.Category(3)\r\n article_ = models.Article()\r\n article_.title = 'Database - 1'\r\n article_.text = \"Here database homework will be placed\"\r\n article_.save()\r\n article_.category_id = 3\r\n article_.save()\r\n \r\n title = article_.category.title\r\n print(title)\r\n\r\n for article in category_.article: \r\n print(article)\r\n\r\n tag_ = models.Tag(1)\r\n for article in tag_.article:\r\n print(article)\r\n\r\nif __name__ == \"__main__\":\r\n main()\r\n" }, { "alpha_fraction": 0.5435630679130554, "alphanum_fraction": 0.5448634624481201, "avg_line_length": 23.633333206176758, "blob_id": "8adade35114e0e91246575af507c88b900e9b776", "content_id": "be92c6003e2ca1dbacf907a61252c3a932152117", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 769, "license_type": "no_license", "max_line_length": 55, "num_lines": 30, "path": "/models.py", "repo_name": "orysovan/orm", "src_encoding": "UTF-8", "text": "\"\"\"Module contains classes describing data model\"\"\"\r\n#!/usr/local/bin/python3\r\n\r\nfrom orm import Entity\r\n\r\nclass Article(Entity):\r\n \"\"\"Class describes article table\"\"\"\r\n _fields = ['title', 'text', 'updated', 'created']\r\n _parents = ['category']\r\n _children = []\r\n _siblings = ['tag']\r\n _foreign_keys = ['category_id']\r\n \r\n \r\nclass Category(Entity):\r\n \"\"\"Class describes category table\"\"\"\r\n _fields = ['title', 'updated', 'created']\r\n _parents = []\r\n _children = ['article']\r\n _siblings = []\r\n _foreign_keys = []\r\n \r\n \r\nclass Tag(Entity):\r\n \"\"\"Class describes tag table\"\"\"\r\n _fields = ['value', 'created', 'updated']\r\n _parents = []\r\n _children = []\r\n _siblings = ['article']\r\n _foreign_keys = []\r\n" }, { "alpha_fraction": 0.6302211284637451, "alphanum_fraction": 0.6449631452560425, "avg_line_length": 35, "blob_id": "51ddab59b5ba5b6daf9b8ce03d0e4a7661208743", "content_id": "14dd5ea59f54fed3f291852722c74fb588281a0b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 814, "license_type": "no_license", "max_line_length": 74, "num_lines": 22, "path": "/db_conn.py", "repo_name": "orysovan/orm", "src_encoding": "UTF-8", "text": "\"\"\"Module contains class that creates connection to \r\npostgresql database and describes commit and rollback methods.\"\"\"\r\n#!/usr/local/bin/python3\r\n\r\nimport psycopg2, psycopg2.extras\r\n\r\nclass DBConnection(object):\r\n \"\"\"Class creates connection to postgresql database \r\n and describes commit and rollback methods.\"\"\"\r\n def __init__(self):\r\n self._default_db = psycopg2.connect(dbname='forum', user='forum', \r\n password='forum', host='10.1.11.24', \r\n connection_factory=psycopg2.extras.RealDictConnection)\r\n self.cursor = self._default_db.cursor()\r\n \r\n def commit(self):\r\n \"\"\"Commit changes to database.\"\"\"\r\n self._default_db.commit()\r\n\r\n def rollback(self):\r\n \"\"\"Rollback changes from database.\"\"\"\r\n self._default_db.rollback()\r\n" } ]	4
emanonGarcia/express-yourself	https://github.com/emanonGarcia/express-yourself	bf71739c50e903f043780b886cfc9c1b22157f2d	3988c7cf43bf33298f058c095cedf46254eddf20	a1e6781ed3212abdd9c4fe40a19b613325408685	refs/heads/master	2021-01-22T23:33:58.588773	2017-04-19T03:31:23	2017-04-19T03:31:23	85,654,636	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.7235543131828308, "alphanum_fraction": 0.726375162601471, "avg_line_length": 18.69444465637207, "blob_id": "3585aad3dba3a28e816071ab24330528b2fe65f7", "content_id": "fb1971a5ab7ffd17ae53bfa5628a12a311dbc83f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 709, "license_type": "no_license", "max_line_length": 155, "num_lines": 36, "path": "/README.md", "repo_name": "emanonGarcia/express-yourself", "src_encoding": "UTF-8", "text": "# Express Yourself\n\nHere we play with regular expressions to find emails, phone numbers, dates, and binary numbers in strings. \n\n## Getting started\n\nDownload or clone the repo. Each script can be run from the Terminal in the local director. \n\n### Prerequisites\n\nPython3\n\n```\npip install python3\n```\n\npytest\n\n```\npip install -r requirements\n```\n\n## Running the tests\n\nOnce pytest is installed execute this command with /test:\n\n```\npy.test test_file [-v]\n```\n\ntest_file is one of three test suites test_extractor.py, test_separator.py, and test_validator.py and the option flag -v with print a verbose test response\n\n\n## Authors\n\n* Luis Garcia - Initial work - [emanonGarcia](https://github.com/emanonGarcia)\n" }, { "alpha_fraction": 0.3673225939273834, "alphanum_fraction": 0.40548598766326904, "avg_line_length": 30.05555534362793, "blob_id": "1b25665c65766155e1ad452f497690ff2999af54", "content_id": "8eb328b2d096c93c0105e0f684d80040c9e07bf8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1677, "license_type": "no_license", "max_line_length": 83, "num_lines": 54, "path": "/textminer/separator.py", "repo_name": "emanonGarcia/express-yourself", "src_encoding": "UTF-8", "text": "import re\n\n\ndef words(input):\n matches = re.findall(r'[A-Za-z0-9\\-][A-Za-z][A-Za-z0-9]', input)\n if len(matches) != 0:\n return matches\n\n\ndef phone_number(input):\n m = re.search(r'[(](?P<area>[0-9]{3})[\\D]'\n r'(?P<first>[0-9]{3})[\\D](?P<last>[0-9]{4})', input)\n if m:\n return {'area_code': m.group('area'),\n 'number': m.group('first') + \"-\" + m.group('last')}\n\n return m\n\n\ndef money(input):\n m = re.search(r'^(?P<curr>[$]{1})'\n r'(?P<amnt>[0-9]+([.]{1}[0-9]{2})$'\n r'\|([0-9]+([,]{1}[0-9]{3})+([.]{1}[0-9]{2})))', input)\n if m:\n return {'currency': m.group('curr'),\n 'amount': float(re.sub(',', '', m.group('amnt')))}\n # return m\n\n\ndef zipcode(text):\n m = re.search(r'^(?P<first5>[0-9]{5})'\n r'([-](?P<plus4>[0-9]{4})){0,1}$', text)\n if m:\n return {'zip': m.group('first5'),\n 'plus4': m.group('plus4')}\n # return m\n\n\ndef date(input):\n pattern = r'(?P<month>[0-9]{1,2})(?P<day>[?/]{1}[0-9]+)(?P<year>[?/]{1}[0-9]+)'\n m = re.search(pattern, input)\n\n\n n = re.search(r'^(?P<year>[0-9]{4})'\n r'(?P<month>[-]{1}[0-9]{2})'\n r'(?P<day>[-]{1}[0-9]+)', input)\n if m:\n return {'month': int(re.sub('/', '', m.group('month'))),\n 'day': int(re.sub('/', '', m.group('day'))),\n 'year': int(re.sub('/', '', m.group('year')))}\n if n:\n return {'month': int(re.sub('-', '', n.group('month'))),\n 'day': int(re.sub('-', '', n.group('day'))),\n 'year': int(re.sub('-', '', n.group('year')))}\n" }, { "alpha_fraction": 0.49425286054611206, "alphanum_fraction": 0.545976996421814, "avg_line_length": 23.85714340209961, "blob_id": "2a4aedbf8cf19e2c22912d4e134c98ca7a6fa5a0", "content_id": "d222ebd9bb11a470176499a9e5d54c9f023aface", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 174, "license_type": "no_license", "max_line_length": 65, "num_lines": 7, "path": "/textminer/extractor.py", "repo_name": "emanonGarcia/express-yourself", "src_encoding": "UTF-8", "text": "import re\n\ndef phone_numbers(text):\n return re.findall(r'[(][0-9)]{3}[)] [0-9]{3}-[0-9]{4}', text)\n\ndef emails(input):\n return re.findall(r\"[a-z\\.]\\@[a-z\\.]\", input)\n" }, { "alpha_fraction": 0.4950859844684601, "alphanum_fraction": 0.5503685474395752, "avg_line_length": 20.421052932739258, "blob_id": "ce1fcb2d5ca6f797b640a0710586420d824d8240", "content_id": "d5f986011df8c5a6360a3f6b272ba0db33b789fd", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 814, "license_type": "no_license", "max_line_length": 78, "num_lines": 38, "path": "/textminer/validator.py", "repo_name": "emanonGarcia/express-yourself", "src_encoding": "UTF-8", "text": "import re\n\n\ndef binary(string):\n return re.findall(r'^([0-1]+)$', string)\n\n\ndef binary_even(string):\n return re.findall(r'^([0-1]+0)$', string)\n\n\ndef hex(string):\n return re.findall(r'^[A-Fa-f0-9]+$', string)\n\n\ndef word(string):\n return re.search(r'^\\b[\\w-][a-zA-Z]+\\b$', string)\n\n\ndef words(string, count=None):\n result = re.findall(r'\\b[\\w][-][A-Za-z]+\\b', string)\n return len(result) == count if count else result\n\n\ndef phone_number(string):\n return re.search(r'[(]?[0-9]{3}[)]?[\\D]?[0-9]{3}[\\D]?[0-9]{4}', string)\n\n\ndef money(string):\n return re.search(r'^\\${1}[0-9]{1,3}?(\\,?[0-9]{3})*(\\.[0-9]{2})?$', string)\n\n\ndef zipcode(string):\n return re.search(r'^[0-9]{5}(-[0-9]{4})?$', string)\n\n\ndef date(string):\n return re.search(r'^[0-9]{1,4}[-/][0-9]{1,2}[-/][0-9]{2,4}', string)\n" } ]	4
viveksoundrapandi/downloadalbums	https://github.com/viveksoundrapandi/downloadalbums	5d912f7e3b1b77c454aa942e036b6a18edb57184	d61f7afaf49563cebc79bb66d4d37bb725266be2	0070d47037f0fcab3f58c1947d1d9a2a63f2652c	refs/heads/master	2021-05-28T08:10:56.304189	2014-04-05T08:56:17	2014-04-05T08:56:17	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6962025165557861, "alphanum_fraction": 0.6962025165557861, "avg_line_length": 18.75, "blob_id": "7cbd35899edbabf8e042bf187063bc35bb9778e1", "content_id": "c08549daf5d982cbd0136d9e805d62daf716206f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 79, "license_type": "no_license", "max_line_length": 47, "num_lines": 4, "path": "/README.md", "repo_name": "viveksoundrapandi/downloadalbums", "src_encoding": "UTF-8", "text": "downloadalbums\n==============\n\nGit repo for downloadlabums.appspot.com website\n" }, { "alpha_fraction": 0.6641570925712585, "alphanum_fraction": 0.669721782207489, "avg_line_length": 32.184783935546875, "blob_id": "60afec84bd9b36cc2e55d97a0e78d0e3113ecb98", "content_id": "c7b082027ab4cab2a79bdc4f5512ade04c8fd755", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3055, "license_type": "no_license", "max_line_length": 136, "num_lines": 92, "path": "/aldown/views.py", "repo_name": "viveksoundrapandi/downloadalbums", "src_encoding": "UTF-8", "text": "# Create your views here.\nfrom django.http import HttpResponseRedirect,HttpResponse\nfrom django.shortcuts import render_to_response\nimport zip\nimport urllib\nimport logging\nimport os\nfrom shutil import rmtree as remove_dir\nfrom django.utils import simplejson\nfrom django.views.decorators.csrf import csrf_exempt, csrf_protect\nfrom shutil import make_archive\nfrom django.core.servers.basehttp import FileWrapper\nimport sys\ntry:\n from google.appengine.ext import db\n from google.appengine.api import urlfetch\nexcept:\n sys.path.append(\"/home/ubuntu/google_appengine/\")\n from google_custom.appengine.ext import db\n from google_custom.appengine.api import urlfetch\n\nimport zipfile\nimport StringIO\nclass Album(db.Model):\n title = db.StringProperty()\n picture = db.BlobProperty(default=None)\n\nlog = logging.getLogger(__name__)\ndef getAlbum(title):\n result = db.GqlQuery(\"SELECT * FROM Album WHERE title =:1\", title).fetch(1000)\n if (len(result) > 0):\n return result\n else:\n return None\ndef deleteAlbum(title):\n results = db.GqlQuery(\"SELECT * FROM Album WHERE title =:1\", title).fetch(1000)\n db.delete(results)\n\ndef home(request):\n if request.method==\"GET\":\n return render_to_response(\"aldown.html\",{})\n@csrf_exempt\ndef home_post(request):\n log.info(request.POST)\n file_name = \"/tmp/albums/\"+request.POST['name']\n deleteAlbum(request.POST['name']) \n for i in request.POST.getlist('li1[]'):\n album = Album()\n album.title = request.POST['name']\n album.picture = db.Blob(urlfetch.Fetch(i).content)\n album.put()\n\n# output = StringIO.StringIO()\n# z = zipfile.ZipFile(output,'w')\n# files = getAlbum(request.POST['name'])\n# for i,fil in enumerate(files):\n# my_data = fil.picture\n# z.writestr(str(i)+\".jpeg\", my_data)\n#\n# z.close()\n# # fix for Linux zip files read in Windows \n# for file in z.filelist: \n# file.create_system = 0 \n# response = HttpResponse(mimetype=\"application/zip\") \n# response[\"Content-Disposition\"] = \"attachment; filename=two_files.zip\" \n# \n# output.seek(0) \n# response.write(output.read()) \n# return response\n return HttpResponse(simplejson.dumps({'redirect_url':'/aldown/download/'+request.POST['name']+\".zip/\"}),mimetype=\"application/json\")\n\ndef download(request,file_name=\"\"):\n log.info(file_name)\n if file_name:\n file_name=file_name.encode('ascii', 'ignore')\n\tfile_path = file_name[:-4]\n output = StringIO.StringIO()\n z = zipfile.ZipFile(output,'w')\n files = getAlbum(file_path)\n for i,fil in enumerate(files):\n my_data = fil.picture\n z.writestr(str(i)+\".jpeg\", my_data)\n\n z.close()\n # fix for Linux zip files read in Windows \n for file in z.filelist:\n file.create_system = 0\n response = HttpResponse(mimetype=\"application/zip\")\n response['Content-Disposition'] = 'attachment; filename='+file_name.replace(\" \",\"_\")\n output.seek(0) \n response.write(output.read()) \n return response\n\t\n" } ]	2
Shanmuga-raj/Youtube-Video-Downloader	https://github.com/Shanmuga-raj/Youtube-Video-Downloader	031cccb5435f86c7b58f8dc9efe320748d135abb	1659ce0f3e55a2358245b97de006dadf1000172f	bb9963025892a320c84774b59a3f64faaebe1b24	refs/heads/master	2023-06-26T02:33:27.243075	2021-07-31T14:53:51	2021-07-31T14:53:51	338,485,640	0	1	MIT	2021-02-13T03:07:11	2021-03-10T15:53:24	2021-03-16T07:16:10	Python	[ { "alpha_fraction": 0.5975074768066406, "alphanum_fraction": 0.6016616821289062, "avg_line_length": 24.48235321044922, "blob_id": "61973f9ad02a18a4039dec3f12de595630b41f8f", "content_id": "bb857108388ab9c985ae882961a800dadc0b9182", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4333, "license_type": "permissive", "max_line_length": 87, "num_lines": 170, "path": "/Youtube-Downloader.py", "repo_name": "Shanmuga-raj/Youtube-Video-Downloader", "src_encoding": "UTF-8", "text": "from pytube import Playlist, YouTube\nfrom collections import defaultdict\n\nimport kivy\nfrom kivy.app import App\nfrom kivy.lang import Builder\nfrom kivy.core.window import Window\nfrom kivy.uix.screenmanager import ScreenManager, Screen\nfrom kivy.properties import StringProperty, ListProperty\n\n\ndef playlist(url):\n\n pl=Playlist(url)\n x = []\n for l in pl.video_urls:\n yt = YouTube(l)\n x.append(yt.title)\n return x,pl\n\n\ndef get_video(yt):\n\n streams = yt.streams.filter(progressive=True)\n streams_dict = defaultdict(list)\n j = 0\n for stream in streams:\n j += 1\n streams_dict[str(j)].append(stream.resolution)\n streams_dict[str(j)].append(stream.itag)\n\n resolution_list = []\n for iter, res in streams_dict.items(): \n y = iter+\". \"+res[0]\n resolution_list.append(y)\n\n return (streams_dict, resolution_list)\n\n\ndef get_caption(yt):\n\n captions = yt.captions\n caption_dict = defaultdict(list)\n\n if not captions: return [\"No Caption available\"]\n\n else:\n i = 0\n for caption in captions:\n i += 1\n caption_dict[str(i)].append(caption.name)\n caption_dict[str(i)].append(caption.code)\n\n caption_list = []\n for iter, lang in caption_dict.items():\n x = iter+\". \"+lang[0]\n caption_list.append(x)\n\n return (caption_dict, caption_list)\n\n\ndef download_caption(yt, selected_caption):\n\n yt = YouTube(yt)\n caption_dict = get_caption(yt)[0]\n caption = yt.captions[caption_dict[selected_caption.split(\".\")[0]][1]]\n title = ''.join(i for i in yt.title if i.isalnum() or i.isspace())\n file = open(title+\".srt\", \"w\", encoding=\"utf-8\")\n file.write(caption.generate_srt_captions())\n file.close()\n\n\ndef download_video(yt, selected_resolution):\n\n yt = YouTube(yt)\n streams_dict = get_video(yt)[0]\n stream = yt.streams.get_by_itag(streams_dict[selected_resolution.split(\".\")[0]][1])\n stream.download()\n\n\nclass Main(Screen):\n\n def single(self, url):\n\n try:\n yt = YouTube(url)\n self.manager.get_screen(\"b\").title = yt.title\n self.manager.get_screen(\"b\").invi = url\n self.manager.get_screen(\"b\").img_link = yt.thumbnail_url\n self.manager.get_screen(\"b\").cap_list = get_caption(yt)[1]\n self.manager.get_screen(\"b\").res_list = get_video(yt)[1]\n\n except:\n self.manager.get_screen(\"b\").title = \"Invalid URL\"\n \n\n def play(self , url):\n \n try:\n lst ,url_list = playlist(url)\n yt = YouTube(url_list[0])\n self.manager.get_screen(\"c\").title = yt.title\n self.manager.get_screen(\"c\").invi = url\n self.manager.get_screen(\"c\").img_link = yt.thumbnail_url\n self.manager.get_screen(\"c\").cap_list = get_caption(yt)[1]\n self.manager.get_screen(\"c\").res_list = get_video(yt)[1]\n self.manager.get_screen(\"c\").vdo_list = lst\n \n except:\n self.manager.get_screen(\"c\").title = \"Invalid URL\"\n \n\n\n\nclass Single(Screen):\n\n title = StringProperty('')\n invi = StringProperty('')\n img_link = StringProperty('')\n cap_list = ListProperty([])\n res_list = ListProperty([])\n\n\n def download(self, yt_url, selected_resolution, selected_caption):\n \n download_caption(yt_url, selected_caption)\n download_video(yt_url, selected_resolution)\n\n\nclass Album(Screen):\n\n title = StringProperty('')\n invi = StringProperty('')\n img_link = StringProperty('')\n cap_list = ListProperty([])\n res_list = ListProperty([])\n vdo_list = ListProperty([])\n \n def all(self,url):\n p = Playlist(url)\n for video in p.videos:\n video.streams.first().download()\n \n\n def download(self, url, title, selected_resolution, selected_caption):\n\n lst ,url_list = playlist(url)\n idx = lst.index(title)\n selected_vdo = url_list[idx]\n\n download_caption(selected_vdo, selected_caption)\n download_video(selected_vdo, selected_resolution)\n \n \n \nclass Winmanager(ScreenManager):\n pass\n\n\nkv = Builder.load_file(\"main.kv\")\n\n\nclass YoutubeDownloaderApp(App):\n def build(self):\n return kv\n\n\n\nif __name__== \"__main__\" :\n YoutubeDownloaderApp().run() " }, { "alpha_fraction": 0.7228571176528931, "alphanum_fraction": 0.7291428446769714, "avg_line_length": 69, "blob_id": "60ab9a7a4bc9dd5ed516b666e53dc279712708c5", "content_id": "59274e3f59a4af4a19acd2d2d4d50e4d69f0c44b", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1752, "license_type": "permissive", "max_line_length": 373, "num_lines": 25, "path": "/README.md", "repo_name": "Shanmuga-raj/Youtube-Video-Downloader", "src_encoding": "UTF-8", "text": "# Youtube Video Downloader:\nA Simple Terminal App to Download Youtube Videos and Playlist with subtitles using Python-3.x\n*\n\n###### MODULES USED IN THIS PROJECT:\n1. Pytube\n2. Collections\n3. Pyfiglet (optional)\n4. re (optional)\n\n###### 1. PYTUBE:     `python -m pip install pytube`\n             Pytube is a very serious, lightweight, dependency-free Python library (and command-line utility) for downloading YouTube Videos. To install it from pypi with pip run the above command (https://python-pytube.readthedocs.io/en/latest/).\n\n###### 2. COLLECTIONS: \n             This module implements specialized container datatypes providing alternatives to Python’s general purpose built-in containers, dict, list, set, and tuple (https://docs.python.org/3/library/collections.html).\n\n###### 3. PYFIGLET:     `pip install pyfiglet`\n             Pyfiglet is a full port of FIGlet (http://www.figlet.org/) into pure python. It takes ASCII text and renders it in ASCII art fonts.\n\n###### 4. RE:\n             Python has a built-in package called re, which can be used to work with Regular Expressions. A RegEx, or Regular Expression, is a sequence of characters that forms a search pattern. It can be used to check if a string contains the specified search pattern. (https://docs.python.org/3/library/re.html)\n\n\n\nCheck me on:** [LinkedIn](https://www.linkedin.com/in/its-shanmugaraj/), [reddit](https://www.reddit.com/user/Shanmuga-raj), [Keybase](https://keybase.io/shanmugaraj).\n" } ]	2
JeffreyBradley772/Maze	https://github.com/JeffreyBradley772/Maze	56fa50817bd8e03656edd07fb3929efdb3be197f	93f1204dddc268464d3399d84640018e9e3c156d	7a0ffd264c241f1a1a493c66b6a47decc5c59fd8	refs/heads/master	2022-12-31T10:34:49.857841	2020-10-04T16:29:30	2020-10-04T16:29:30	300,139,809	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.508991003036499, "alphanum_fraction": 0.5209790468215942, "avg_line_length": 27.04347801208496, "blob_id": "c9630efdd00885e7d31f028c12e50b8bc1728f90", "content_id": "4f02f8eaa9b8258f4685e1c973f39981c8a5f53a", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2002, "license_type": "permissive", "max_line_length": 78, "num_lines": 69, "path": "/maze.py", "repo_name": "JeffreyBradley772/Maze", "src_encoding": "UTF-8", "text": "from grid import Grid\r\nfrom linkedStack import LinkedStack\r\n\r\ndef getOut(startRow, startCol, maze, showProcess=False):\r\n \"\"\"Finds a way out of the maze, if it exists.\"\"\"\r\n choices = LinkedStack()\r\n choices.push(findStartPos(maze))\r\n \r\n while not choices.isEmpty():\r\n c = choices.pop()\r\n if maze[c[1]][c[0]] == \"G\":\r\n return True\r\n else:\r\n maze[c[1]][c[0]] = \".\"\r\n \r\n if showProcess:\r\n print(maze)\r\n input()\r\n \r\n \r\n for newX, newY in [(c[0]+1, c[1]), (c[0]-1, c[1]),\r\n (c[0], c[1]+1), (c[0], c[1]-1)]:\r\n \r\n if newX >= 0 and newX < maze.getWidth() and \\\r\n newY >= 0 and newY < maze.getHeight() and \\\r\n maze[newY][newX] not in \".\":\r\n choices.push((newX, newY))\r\n \r\n return False\r\n\r\ndef getMazeFromFile():\r\n \"\"\"Reads the maze from a text file and returns a grid thatrepresents it.\"\"\"\r\n name = input(\"Enter a file name for the maze: \")\r\n fileObj = open(name, 'r')\r\n firstLine = list(map(int, fileObj.readline().strip().split()))\r\n rows = firstLine[0]\r\n columns = firstLine[1]\r\n maze = Grid(rows, columns, \"\")\r\n for row in range(rows):\r\n line = fileObj.readline().strip()\r\n column = 0\r\n for ch in line:\r\n maze[row][column] = ch\r\n column += 1\r\n return maze\r\n\r\ndef findStartPos(maze):\r\n \"\"\"Returns the position of the start symbol in the grid.\"\"\"\r\n for row in range(maze.getHeight()):\r\n for column in range(maze.getWidth()):\r\n if maze[row][column] == 'S':\r\n return(column, row)\r\n \r\n return(-1, -1)\r\n\r\ndef main():\r\n maze = getMazeFromFile()\r\n print(maze)\r\n (startRow, startCol) = findStartPos(maze)\r\n success = getOut(startRow, startCol, maze, True)\r\n if success:\r\n print(\"Maze solved:\")\r\n print(maze)\r\n else:\r\n print(\"No path out of this maze\")\r\n \r\n \r\nif __name__ == \"__main__\":\r\n main()" }, { "alpha_fraction": 0.6765375733375549, "alphanum_fraction": 0.6765375733375549, "avg_line_length": 24.823530197143555, "blob_id": "6425b100c445c722cbf52425d21daba3b86e53a4", "content_id": "313907a3a585f7b4b4c617af5cce204a02cf4bc6", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 439, "license_type": "permissive", "max_line_length": 59, "num_lines": 17, "path": "/abstractStack.py", "repo_name": "JeffreyBradley772/Maze", "src_encoding": "UTF-8", "text": "\"\"\"\nFile: abstractstack.py\nAuthor: Jeffrey Bradley\n\"\"\"\n\nfrom abstractCollection import AbstractCollection\n\nclass AbstractStack(AbstractCollection):\n \"\"\"Represents an abstract stack.\"\"\"\n\n def __init__(self, sourceCollection):\n \"\"\"Initializes the stack at this level.\"\"\"\n AbstractCollection.__init__(self, sourceCollection)\n\n def add(self, item):\n \"\"\"For compatibility with other collections.\"\"\"\n self.push(item)\n" }, { "alpha_fraction": 0.752212405204773, "alphanum_fraction": 0.752212405204773, "avg_line_length": 27, "blob_id": "7498c28f52a3c33c701c75fe52c80efc18ac50a8", "content_id": "6b4bc1280a66d8c04610577de728a8807577e2ff", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 113, "license_type": "permissive", "max_line_length": 53, "num_lines": 4, "path": "/README.md", "repo_name": "JeffreyBradley772/Maze", "src_encoding": "UTF-8", "text": "# Maze\n\nmaze.py asks for a maze.txt file to then run through \nusing a linked stack to ultimately find the goal. \n" } ]	3
mbahri/arxiv_bulk_renamer	https://github.com/mbahri/arxiv_bulk_renamer	95e1f3b4ee9b119e6c950af871dc34b2ea31e0c1	7df13a4203d22151de5b071ba1fc85d21bfa04df	fddac3922c6195140c788d34a5e0f39e0a823774	refs/heads/main	2023-04-08T07:39:27.989166	2021-04-12T19:43:04	2021-04-12T19:43:04	357,308,911	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6090750694274902, "alphanum_fraction": 0.6221640706062317, "avg_line_length": 23.393617630004883, "blob_id": "d254b326d9cc688a7d9f4b0440b49e7d9782d3e2", "content_id": "bff1a10e2efe359f7fbfb51387a8841031b9a097", "detected_licenses": [ "MIT", "LicenseRef-scancode-warranty-disclaimer" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2292, "license_type": "permissive", "max_line_length": 78, "num_lines": 94, "path": "/bulk_rename_arxiv.py", "repo_name": "mbahri/arxiv_bulk_renamer", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n#-- coding: utf-8 --\n\n\"\"\"\n@Author: Mehdi Bahri\n@Contact: [email protected]\n@File: bulk_rename_arxiv.py\n@Time: 2021/04/12 08:08 PM\n\"\"\"\n\nimport os\nimport re\nimport sys\nimport glob\nimport pathlib\n\nfrom collections import defaultdict\n\nimport arxiv\n\n\ndef get_valid_filename(s):\n \"\"\"\n Return the given string converted to a string that can be used for a clean\n filename. Remove leading and trailing spaces; convert other spaces to\n underscores; and remove anything that is not an alphanumeric, dash,\n underscore, or dot.\n\n >>> get_valid_filename(\"john's portrait in 2004.jpg\")\n 'johns_portrait_in_2004.jpg'\n\n https://github.com/django/django/blob/master/django/utils/text.py\n Copyright (c) Django Software Foundation and individual contributors.\n All rights reserved.\n \"\"\"\n s = str(s).strip().replace(' ', ' ')\n s = str(s).strip().replace(' ', '_')\n return re.sub(r'(?u)[^-\\w.]', '', s)\n\n\np = re.compile(\"^[0-9]{4}\\.[0-9]{5}\")\npdfs = pathlib.Path('.').rglob('.pdf')\n\nids = []\nids_name_map = defaultdict(list)\nhas_duplicates = defaultdict(bool)\nduplicate_data = defaultdict(list)\n\nfor n in pdfs:\n id_ = p.match(n.name)\n if id_:\n the_id = id_[0]\n if len(ids_name_map[the_id]) > 0:\n has_duplicates[the_id] = True\n print(f'Detected duplicates for id {the_id}')\n else:\n ids.append(the_id)\n\n ids_name_map[the_id].append(n)\n\nprint(sorted(ids))\n\nprint(\"{} ids to query\".format(len(ids)))\n\nentries = arxiv.query(id_list=ids)\n\nprint(\"Query done\")\n\nprint(\"Renaming...\")\nfor base, entry in zip(ids, entries):\n new_name = get_valid_filename(entry['title'])\n paths = ids_name_map[base]\n\n # OK because the list should only contain each id once\n if has_duplicates[base]:\n duplicate_data[base] = []\n\n for path in paths:\n target = os.path.join(path.parent, f'{base}_{new_name}.pdf')\n path.rename(target)\n if has_duplicates[base]:\n duplicate_data[base].append(target)\nprint('Done')\n\nprint('\\n*****\\n')\n\nprint('The following duplicate ids were found:')\nif len(duplicate_data.keys()) == 0:\n print('None.')\nelse:\n for dup_id, paths in duplicate_data.items():\n print(f'{dup_id}:')\n for path in paths:\n print(path)" }, { "alpha_fraction": 0.7734513282775879, "alphanum_fraction": 0.7734513282775879, "avg_line_length": 39.42856979370117, "blob_id": "4e62c66d72e90f02276660adf97b3aab058544ca", "content_id": "afd9f1aba30d8d55fca159f22d7c83836b7e4d11", "detected_licenses": [ "MIT", "LicenseRef-scancode-warranty-disclaimer" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 565, "license_type": "permissive", "max_line_length": 125, "num_lines": 14, "path": "/README.md", "repo_name": "mbahri/arxiv_bulk_renamer", "src_encoding": "UTF-8", "text": "# arxiv_bulk_renamer\nBulk renames PDFs of arXiv papers recursively + finds duplicates\n\n## Usage\n\nPlace the script at the root of a directory containing PDF files whose names begin by an arXiv paper identified (xxxx.yyyyy).\nRun\n```\npython bulk_rename_arxiv.py\n```\nThe script will recursively probe the directory for PDFs, query the list of ids to get paper names, and rename all files.\nIf any duplicates are found, the list of duplicate files will be printed at the end.\n\nWarning: The script will not ask for user confirmation at any point, use at your own risk!**" } ]	2
wqw547243068/tensorflow-learn	https://github.com/wqw547243068/tensorflow-learn	ef0e51246a81ca2f870b8fea4d70b2dfb593bd9e	c40424b65db411b78303eb5517dcd11263ce3e85	010899a0a47bfb8f5e6ccf5aa15778884b120c79	refs/heads/master	2021-06-25T17:10:33.765938	2019-08-01T10:02:50	2019-08-01T10:02:50	110,321,138	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6702367663383484, "alphanum_fraction": 0.6804960370063782, "avg_line_length": 40.839622497558594, "blob_id": "262da6d8a7cec9f84cd295821cc409728eb8af9f", "content_id": "8547a9c8039f3ecd5fe88f2b8d9f990014827eef", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8870, "license_type": "no_license", "max_line_length": 157, "num_lines": 212, "path": "/Google_MLCC/python/logistic_regression.py", "repo_name": "wqw547243068/tensorflow-learn", "src_encoding": "UTF-8", "text": "import math\n\nimport numpy as np\nimport pandas as pd\nimport tensorflow as tf\nfrom IPython import display\nfrom matplotlib import cm, gridspec\nfrom matplotlib import pyplot as plt\nfrom sklearn import metrics\nfrom tensorflow.python.data import Dataset\n\ntf.logging.set_verbosity(tf.logging.ERROR)\npd.options.display.max_rows = 10\npd.options.display.float_format = '{:.1f}'.format\n\ncalifornia_housing_dataframe = pd.read_csv(\"https://storage.googleapis.com/mledu-datasets/california_housing_train.csv\", sep=\",\")\n\ncalifornia_housing_dataframe = california_housing_dataframe.reindex(np.random.permutation(california_housing_dataframe.index))\n\n\ndef preprocess_features(california_housing_dataframe):\n selected_features = california_housing_dataframe[[\"latitude\",\n \"longitude\",\n \"housing_median_age\",\n \"total_rooms\",\n \"total_bedrooms\",\n \"population\",\n \"households\",\n \"median_income\"]]\n preprocess_features = selected_features.copy()\n display.display(selected_features.dtypes)\n preprocess_features['rooms_per_person'] = california_housing_dataframe['total_rooms'] / california_housing_dataframe['population']\n\n return preprocess_features\n\n\ndef preprocess_targets(california_housing_dataframe):\n output_targets = pd.DataFrame()\n\n output_targets['median_house_value_is_high'] = (california_housing_dataframe['median_house_value'] > 265000).astype(float)\n return output_targets\n\n\ndef construct_feature_columns(input_features):\n return set([tf.feature_column.numeric_column(my_feature) for my_feature in input_features])\n\n\ndef my_input_fn(features, targets, batch_size=1, shuffle=True, num_epochs=None):\n features = {key: np.array(value) for key, value in dict(features).items()}\n\n ds = Dataset.from_tensor_slices((features, targets))\n ds = ds.batch(batch_size).repeat(num_epochs)\n\n if shuffle:\n ds = ds.shuffle(100000)\n\n features, labels = ds.make_one_shot_iterator().get_next()\n return features, labels\n\n\ndef train_linear_regressor_model(learning_rate,\n steps,\n batch_size,\n training_examples,\n training_targets,\n validation_examples,\n validation_targets):\n periods = 10\n steps_per_period = steps / periods\n\n my_optimizer = tf.train.GradientDescentOptimizer(learning_rate=learning_rate)\n my_optimizer = tf.contrib.estimator.clip_gradients_by_norm(my_optimizer, 5.0)\n linear_regressor = tf.estimator.LinearRegressor(\n feature_columns=construct_feature_columns(training_examples),\n optimizer=my_optimizer\n )\n\n def training_input_fn(): return my_input_fn(training_examples, training_targets['median_house_value_is_high'], batch_size=batch_size)\n\n def predict_training_input_fn(): return my_input_fn(training_examples, training_targets['median_house_value_is_high'], num_epochs=1, shuffle=False)\n\n def predict_validation_input_fn(): return my_input_fn(validation_examples, validation_targets['median_house_value_is_high'], num_epochs=1, shuffle=False)\n\n print(\"Training model...\")\n print(\"RMSE (on training data):\")\n training_rmse = []\n validation_rmse = []\n for period in range(0, periods):\n # Train the model, starting from the prior state.\n linear_regressor.train(\n input_fn=training_input_fn,\n steps=steps_per_period\n )\n\n # Take a break and compute predictions.\n training_predictions = linear_regressor.predict(input_fn=predict_training_input_fn)\n training_predictions = np.array([item['predictions'][0] for item in training_predictions])\n\n validation_predictions = linear_regressor.predict(input_fn=predict_validation_input_fn)\n validation_predictions = np.array([item['predictions'][0] for item in validation_predictions])\n\n # Compute training and validation loss.\n training_root_mean_squared_error = math.sqrt(\n metrics.mean_squared_error(training_predictions, training_targets))\n validation_root_mean_squared_error = math.sqrt(\n metrics.mean_squared_error(validation_predictions, validation_targets))\n\n # Occasionally print the current loss.\n print(\" period %02d : %0.2f\" % (period, training_root_mean_squared_error))\n # Add the loss metrics from this period to our list.\n training_rmse.append(training_root_mean_squared_error)\n validation_rmse.append(validation_root_mean_squared_error)\n print (\"Model training finished.\")\n\n plt.ylabel('RMSE')\n plt.xlabel('Periods')\n plt.title('RMSE vs Periods')\n plt.tight_layout()\n plt.plot(training_rmse, label=\"training\")\n plt.plot(validation_rmse, label=\"validation\")\n plt.legend()\n\n return linear_regressor\n\n\ndef train_linear_classifier_model(\n learning_rate,\n steps,\n batch_size,\n training_examples,\n training_targets,\n validation_examples,\n validation_targets):\n periods = 10\n steps_per_period = steps / periods\n\n my_optimizer = tf.train.GradientDescentOptimizer(learning_rate=learning_rate)\n my_optimizer = tf.contrib.esitmator.clip_gradients_by_norm(my_optimizer, 5.0)\n\n linear_classifier = tf.estimator.LinearClassifier(feature_columns=construct_feature_columns(training_examples), optimizer=my_optimizer)\n\n def training_input_fn(): return my_input_fn(training_examples, training_targets['median_house_value_is_high'], batch_size=batch_size)\n\n def predict_training_input_fn(): return my_input_fn(training_examples, training_targets['median_house_value_is_high'], num_epochs=1, shuffle=False)\n\n def predict_validation_input_fn(): return my_input_fn(validation_examples, validation_targets['median_house_value_is_high'], num_epochs=1, shuffle=False)\n\n print('Training model...')\n print(\"RMSE (on training data):\")\n training_log_loss = []\n validation_log_loss = []\n\n for period in range(0, periods):\n linear_classifier.train(input_fn=training_input_fn, steps=steps_per_period)\n training_probabilities = linear_classifier.predict(input_fn=predict_training_input_fn)\n training_probabilities = np.array([item['probabilities'] for item in training_probabilities])\n validation_probabilites = linear_classifier.predict(input_fn=predict_validation_input_fn)\n validation_probabilites = np.array([item['probabilities'] for item in validation_probabilites])\n # Computer LogLoss\n training_log_loss = metrics.log_loss(training_targets, training_predictions)\n validation_log_loss = metrics.log_loss(validation_targets, validation_predictions)\n\n print(\" period %02d : %0.2f\") % (period, training_root_mean_squared_error)\n training_log_loss.append(training_log_loss)\n validation_log_loss.append(validation_log_loss)\n print('Model trianing finished.')\n\n plt.ylabel('LogLoss')\n plt.xlabel('Periods')\n plt.title('LogLoss vs. Periods')\n plt.tight_layout()\n plt.plot(training_log_loss, label('training'))\n plt.plot(validation_log_loss, label('validation'))\n plt.legent()\n\n\ntraining_examples = preprocess_features(california_housing_dataframe.head(12000))\ntraining_targets = preprocess_targets(california_housing_dataframe.head(12000))\n\n# Choose the last 5000 (out of 17000) examples for validation.\nvalidation_examples = preprocess_features(california_housing_dataframe.tail(5000))\nvalidation_targets = preprocess_targets(california_housing_dataframe.tail(5000))\n\n# Double-check that we've done the right thing.\nprint (\"Training examples summary:\")\ndisplay.display(training_examples.describe())\nprint (\"Validation examples summary:\")\ndisplay.display(validation_examples.describe())\n\nprint (\"Training targets summary:\")\ndisplay.display(training_targets.describe())\nprint (\"Validation targets summary:\")\ndisplay.display(validation_targets.describe())\n\nlinear_regressor = train_linear_regressor_model(\n learning_rate=0.000001,\n steps=200,\n batch_size=20,\n training_examples=training_examples,\n training_targets=training_targets,\n validation_examples=validation_examples,\n validation_targets=validation_targets)\n\nlinear_classifier = train_linear_classifier_model(\n learning_rate=0.000005,\n steps=500,\n batch_size=20,\n training_examples=training_examples,\n training_targets=training_targets,\n validation_examples=validation_examples,\n validation_targets=validation_targets\n)\n" }, { "alpha_fraction": 0.7248800992965698, "alphanum_fraction": 0.7398238182067871, "avg_line_length": 39.759090423583984, "blob_id": "1f470a3b5d1e07d24494c73b0db4de8bbd05d4cb", "content_id": "f4c892c04cb76e4dc8f13b7dc3d79986ab226d39", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8967, "license_type": "no_license", "max_line_length": 158, "num_lines": 220, "path": "/Google_MLCC/python/intro_to_neural_nets.py", "repo_name": "wqw547243068/tensorflow-learn", "src_encoding": "UTF-8", "text": "import math\n\nimport numpy as np\nimport pandas as pd\nimport tensorflow as tf\nfrom IPython import display\nfrom matplotlib import cm, gridspec\nfrom matplotlib import pyplot as plt\nfrom sklearn import metrics\nfrom tensorflow.python.data import Dataset\n\ntf.logging.set_verbosity(tf.logging.ERROR)\npd.options.display.max_rows = 10\npd.options.display.float_format = '{:.1f}'.format\n\n\ndef preprocess_features(california_housing_dataframe):\n selected_features = california_housing_dataframe[\n [\"latitude\",\n \"longitude\",\n \"housing_median_age\",\n \"total_rooms\",\n \"total_bedrooms\",\n \"population\",\n \"households\",\n \"median_income\"\n ]]\n processed_features = selected_features.copy()\n processed_features[\"rooms_per_person\"] = processed_features[\"total_rooms\"] / processed_features[\"population\"]\n\n return processed_features\n\n\ndef preprocess_targets(california_housing_dataframe):\n output_targets = pd.DataFrame()\n output_targets[\"median_house_value\"] = california_housing_dataframe[\"median_house_value\"] / 1000.0\n return output_targets\n\n\ndef construct_feature_columns(input_features):\n return set([tf.feature_column.numeric_column(my_feature) for my_feature in input_features])\n\n\ndef linear_scale(series):\n min_val = series.min()\n max_val = series.max()\n scale = (max_val - min_val) / 2.0\n return series.apply(lambda x: ((x - min_val) / scale) - 1.0)\n\n\ndef normalize_linear_scale(examples_dataframe):\n normalized_dataframe = pd.DataFrame()\n for col in examples_dataframe:\n normalized_dataframe[col] = linear_scale(examples_dataframe[col])\n return normalized_dataframe\n\n\ndef log_normalize(series):\n return series.apply(lambda x: math.log(x + 1.0))\n\n\ndef clip(series, clip_to_min, clip_to_max):\n return series.apply(lambda x: (min(max(x, clip_to_min), clip_to_max)))\n\n\ndef binary_threshold(series, threshold):\n return series.apply(lambda x: (1 if x > threshold else 0))\n\n\ndef normalize(example_data_frame):\n normalized_dataframe = pd.DataFrame()\n normalized_dataframe['households'] = log_normalize(example_data_frame['households'])\n normalized_dataframe['median_income'] = log_normalize(example_data_frame['median_income'])\n normalized_dataframe['total_bedrooms'] = log_normalize(example_data_frame['total_bedrooms'])\n\n normalized_dataframe['housing_median_age'] = linear_scale(example_data_frame['housing_median_age'])\n normalized_dataframe['latitude'] = linear_scale(example_data_frame['latitude'])\n normalized_dataframe['longitude'] = linear_scale(example_data_frame['longitude'])\n\n normalized_dataframe['population'] = linear_scale(clip(example_data_frame['population'], 0, 5000))\n normalized_dataframe['rooms_per_person'] = linear_scale(clip(example_data_frame['rooms_per_person'], 0, 5))\n normalized_dataframe['total_rooms'] = linear_scale(clip(example_data_frame['total_rooms'], 0, 10000))\n\n return normalized_dataframe\n\n\ndef my_input_fn(features, targets, batch_size=1, shuffle=True, num_epochs=None):\n features = {key: np.array(value) for key, value in dict(features).items()}\n ds = Dataset.from_tensor_slices((features, targets))\n ds = ds.batch(batch_size).repeat(num_epochs)\n\n if shuffle:\n ds = ds.shuffle(10000)\n\n features, labels = ds.make_one_shot_iterator().get_next()\n return features, labels\n\n\ndef train_nn_regression_model(my_optimizer, steps, batch_size, hidden_units, training_examples, training_targets, validation_examples, validation_targets):\n periods = 10\n steps_per_period = steps / periods\n\n my_optimizer = tf.contrib.estimator.clip_gradients_by_norm(my_optimizer, 5.0)\n\n dnn_regressor = tf.estimator.DNNRegressor(feature_columns=construct_feature_columns(training_examples), hidden_units=hidden_units, optimizer=my_optimizer)\n\n def training_input_fn(): return my_input_fn(training_examples, training_targets['median_house_value'], batch_size=batch_size)\n\n def predict_training_input_fn(): return my_input_fn(training_examples, training_targets['median_house_value'], shuffle=False, num_epochs=1)\n\n def predict_validation_input_fn(): return my_input_fn(validation_examples, validation_targets['median_house_value'], shuffle=False, num_epochs=1)\n\n print(\"Training model...\")\n print(\"RMSE (on training data):\")\n training_rmse = []\n validation_rmse = []\n\n for period in range(0, periods):\n dnn_regressor.train(input_fn=training_input_fn, steps=steps_per_period)\n\n training_predictions = dnn_regressor.predict(input_fn=predict_training_input_fn)\n training_predictions = np.array([item['predictions'][0] for item in training_predictions])\n\n validation_predictions = dnn_regressor.predict(input_fn=predict_validation_input_fn)\n validation_predictions = np.array([item['predictions'][0] for item in validation_predictions])\n\n training_root_mean_squared_error = math.sqrt(metrics.mean_squared_error(training_predictions, training_targets))\n validation_root_mean_squared_error = math.sqrt(metrics.mean_squared_error(validation_predictions, validation_targets))\n\n print(\" period %02d : %0.2f\" % (period, training_root_mean_squared_error))\n training_rmse.append(training_root_mean_squared_error)\n validation_rmse.append(validation_root_mean_squared_error)\n print(\"Model training finished.\")\n\n plt.ylabel(\"RMSE\")\n plt.xlabel(\"Periods\")\n plt.title(\"RMSE vs. Periods\")\n plt.tight_layout()\n plt.plot(training_rmse, label=\"training\")\n plt.plot(validation_rmse, label=\"validation\")\n plt.legend()\n\n print(\"Final RMSE (on training data): %0.2f\" % training_root_mean_squared_error)\n print(\"Final RMSE (on validation data): %0.2f\" % validation_root_mean_squared_error)\n\n return dnn_regressor, training_rmse, validation_rmse\n\n\ncalifornia_housing_dataframe = pd.read_csv('data/california_housing_train.csv', sep=\",\")\n\ncalifornia_housing_dataframe = california_housing_dataframe.reindex(np.random.permutation(california_housing_dataframe.index))\nnormalized_dataframe = normalize_linear_scale(preprocess_features(california_housing_dataframe))\nnormalized_training_examples = normalized_dataframe.head(12000)\nnormalized_validation_examples = normalized_dataframe.tail(5000)\n\ntraining_dataframe = california_housing_dataframe.head(12000)\nvalidation_dataframe = california_housing_dataframe.tail(50000)\n\ntraining_examples = preprocess_features(training_dataframe)\ntraining_targets = preprocess_targets(training_dataframe)\n\nvalidation_examples = preprocess_features(validation_dataframe)\nvalidation_targets = preprocess_targets(validation_dataframe)\n\n_ = normalized_training_examples.hist(bins=20, figsize=(18, 12), xlabelsize=10)\n\nprint('Training examples summary:')\ndisplay.display(training_examples.describe())\nprint('Validation examples summary:')\ndisplay.display(validation_examples.describe())\n\nprint('Training targets summary:')\ndisplay.display(training_targets.describe())\nprint('Validation targets summary:')\ndisplay.display(validation_targets.describe())\n\nnormalized_dataframe = normalize_linear_scale(preprocess_features(california_housing_dataframe))\nnormalized_training_examples = normalized_dataframe.head(12000)\nnormalized_validation_examples = normalized_dataframe.tail(5000)\n\n_, gradient_training_looses, gradient_validation_losses = train_nn_regression_model(\n my_optimizer=tf.train.GradientDescentOptimizer(learning_rate=0.0007),\n steps=2000,\n batch_size=800,\n hidden_units=[10, 10, 8, 6, 4, 2],\n training_examples=training_examples,\n training_targets=training_targets,\n validation_examples=validation_examples,\n validation_targets=validation_targets)\n\n_, adagrad_training_losses, adagrad_validation_losses = train_nn_regression_model(\n my_optimizer=tf.train.AdagradOptimizer(learning_rate=0.5),\n steps=2000,\n batch_size=50,\n hidden_units=[10, 10],\n training_examples=normalized_training_examples,\n training_targets=training_targets,\n validation_examples=normalized_validation_examples,\n validation_targets=validation_targets)\n\n_, adam_training_losses, adam_validation_losses = train_nn_regression_model(\n my_optimizer=tf.train.AdamOptimizer(learning_rate=0.009),\n steps=2000,\n batch_size=50,\n hidden_units=[10, 10],\n training_examples=normalized_training_examples,\n training_targets=training_targets,\n validation_examples=normalized_validation_examples,\n validation_targets=validation_targets)\n\nplt.ylabel(\"RMSE\")\nplt.xlabel(\"Periods\")\nplt.title(\"Root Mean Squared Error vs. Periods\")\nplt.plot(gradient_training_looses, label='Gradient training')\nplt.plot(gradient_validation_losses, label='Gradient validation')\nplt.plot(adagrad_training_losses, label='Adagrad training')\nplt.plot(adagrad_validation_losses, label='Adagrad validation')\nplt.plot(adam_training_losses, label='Adam training')\nplt.plot(adam_validation_losses, label='Adam validation')\n_ = plt.legend()\n" }, { "alpha_fraction": 0.6372372508049011, "alphanum_fraction": 0.7135134935379028, "avg_line_length": 35.173912048339844, "blob_id": "2612f6dfcbf57766754236baafd9e9b393e239a3", "content_id": "2a965464ba592a7f9a7d9a410ee0327f715caabc", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 5002, "license_type": "no_license", "max_line_length": 236, "num_lines": 92, "path": "/NLP/word2vec/readme.md", "repo_name": "wqw547243068/tensorflow-learn", "src_encoding": "UTF-8", "text": "\n# 词向量\n\n## Wordvec\n\n### 简介\nword2vec 是 Google 于 2013 年开源推出的一个用于获取 word vector 的工具包，它简单、高效，因此引起了很多人的关注。对word2vec数学原理感兴趣的可以移步word2vec 中的数学原理详解，这里就不具体介绍。word2vec对词向量的训练有两种方式，一种是CBOW模型，即通过上下文来预测中心词；另一种skip-Gram模型，即通过中心词来预测上下文。其中CBOW对小型数据比较适合，而skip-Gram模型在大型的训练语料中表现更好。\n两种模型结构如下：\n![graph](https://pic3.zhimg.com/80/v2-ec1758da5fe00e7bb6d5f73524f19d4c_hd.jpg)\n\n### 源码\n- word2vec的源码github上可以找到点[这里](https://github.com/tensorflow/tensorflow/blob/r0.12/tensorflow/examples/tutorials/word2vec/word2vec_basic.py)，这里面已经实现了对英文的训练\n- [简易版word2vec](https://www.jianshu.com/p/f682066f0586) ![简易版word2vec](https://upload-images.jianshu.io/upload_images/712028-2848429c222bd45d.png?imageMogr2/auto-orient/strip%7CimageView2/2/w/1000/format/webp)\n\n### 步骤\n对中文的训练步骤有：\n- 对文本进行分词，采用的jieba分词\n- 将语料中的所有词组成一个列表，为构建词频统计，词典及反转词典。因为计算机不能理解中文，我们必须把文字转换成数值来替代。\n- 构建skip-Gram模型需要的训练数据：由于这里采用的是skip-Gram模型进行训练，即通过中心词预测上下文。因此中心词相当于x，上下文的词相当于y。这里我们设置上下文各为一个词，假设我要对“恐怕顶多只需要三年时间”这段话生成样本，我们应该通过“顶多”预测“恐怕”和“只”；通过“只”预测“顶多”和“需要”依次下去即可。最终的训练样本应该为（顶多，恐怕），（顶多，只），（只，顶多），（只，需要），（需要，只），（需要，三年）。\n- 【2018-9-30】附数据处理流程：[图解word2vec](https://www.jianshu.com/p/f682066f0586)\n![flow1](https://upload-images.jianshu.io/upload_images/712028-beca102c0d97bfaa.png?imageMogr2/auto-orient/strip%7CimageView2/2/w/1000/format/webp)\n![flow2](https://upload-images.jianshu.io/upload_images/712028-b2f6369819a63854.png?imageMogr2/auto-orient/strip%7CimageView2/2/w/1000/format/webp)\n### gensim实现\n- 安装\n```shell\nsudo pip install gensim\n```\n- 核心代码\n - 训练\n```python\ninp='lastread.txt'\noutp1 = 'wiki.zh.text.model'\noutp2 = 'wiki.zh.text.vector'\nmodel = Word2Vec(LineSentence(inp), size=400, window=5, min_count=5, workers=4)\nmodel.save(outp1)\nmodel.save_word2vec_format(outp2, binary=False)\n```\n - 使用\n ```python\n # ①获取相似词\n result = model.most_similar(u'远方')\n for each in result:\n print each[0] , each[1]\n # 远处 0.66281914711\n # 遥远 0.579495191574\n # ②计算两者间的余弦相似性，0.853490406767\n sim1 = model.similarity(u'男朋友', u'女朋友')\n # ③计算集合相似性\n list1 = [u'我', u'今天', u'很', u'伤心']\n list2 = [u'中国',u'是', u'新', u'市场']\n list3 = [u'心情', u'不好', u'想', u'打', u'人']\n list_sim1 = model.n_similarity(list1, list2)\n print list_sim1\n list_sim2 = model.n_similarity(list1, list3)\n print list_sim2\n # ④选取不同类型的词\n list = [u'纽约', u'北京', u'美国', u'西安']\nprint model.doesnt_match(list) # 美国\nlist = [u'纽约', u'北京', u'华盛顿', u'女神'] # 女神\nprint model.doesnt_match(list)\n ```\n- [用gensim训练word2vec](https://zhuanlan.zhihu.com/p/29200034)\n\n### tensorflow实现\n- 参考地址：[使用tensorflow实现word2vec中文词向量的训练](https://zhuanlan.zhihu.com/p/28979653),[代码](https://github.com/Deermini/word2vec-tensorflow)\n#### 准备工作\n环境准备：\n```shell\nsudo pip install -r requirement.txt \n```\n#### 数据集\n- 语料：斗殴苍穹,https://github.com/Deermini/word2vec-tensorflow/raw/master/doupocangqiong.txt\n- 停用词表: stop_word.txt\n\n#### 训练\n- 经过大约三小时的训练后，使用s-TNE把词向量降至2维进行可视化，部分词可视化结果如下：\n![effect](https://pic3.zhimg.com/80/v2-091fc27bb5a5bbd942da4b702d580199_hd.jpg)\n\n随机对几个词进行验证，得到的结果为：\n\n```\nNearest to 萧炎: 萧炎, 他, 韩枫, 林焱, 古元, 萧厉, 她, 叶重,\nNearest to 灵魂: 灵魂, 斗气, 触手可及, 乌钢, 探头探脑, 能量, 庄严, 晋阶,\nNearest to 火焰: 火焰, 异火, 能量, 黑雾, 火苗, 砸场, 雷云, 火海,\nNearest to 天阶: 天阶, 地阶, 七品, 相媲美, 斗帝, 碧蛇, 稍有不慎, 玄阶,\nNearest to 云岚宗: 云岚宗, 炎盟, 魔炎谷, 磐门, 丹塔, 萧家, 叶家, 花宗,\nNearest to 乌坦城: 乌坦城, 加玛, 大殿, 丹域, 兽域, 大厅, 帝国, 内院,\nNearest to 惊诧: 惊诧, 惊愕, 诧异, 震惊, 惊骇, 惊叹, 错愕, 好笑,\n```\n\n\n# 其它\n- 其它方法\n\n" }, { "alpha_fraction": 0.7008345127105713, "alphanum_fraction": 0.7101243734359741, "avg_line_length": 43.10416793823242, "blob_id": "6fb0fdc16c3f71f3d48d7e0e782d5ad1a7e8a1b8", "content_id": "2f2798195f6520066aef24cda360f654e635492b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 6351, "license_type": "no_license", "max_line_length": 143, "num_lines": 144, "path": "/Google_MLCC/python/feature_sets.py", "repo_name": "wqw547243068/tensorflow-learn", "src_encoding": "UTF-8", "text": "import math\n\nimport numpy as np\nimport pandas as pd\nimport tensorflow as tf\nfrom IPython import display\nfrom matplotlib import cm, gridspec\nfrom matplotlib import pyplot as plt\nfrom sklearn import metrics\nfrom tensorflow.python.data import Dataset\n\ntf.logging.set_verbosity(tf.logging.ERROR)\npd.options.display.max_rows = 10\npd.options.display.float_format = '{:.1f}'.format\n\ncalifornia_housing_dataframe = pd.read_csv('https://storage.googleapis.com/mledu-datasets/california_housing_train.csv', sep=\",\")\ncalifornia_housing_dataframe = california_housing_dataframe.reindex(np.random.permutation(california_housing_dataframe.index))\n# display.display(california_housing_dataframe.describe())\n\n\ndef preprocess_features(california_housing_dataframe):\n selected_features = california_housing_dataframe[['latitude',\n 'longitude',\n 'housing_median_age',\n 'total_rooms',\n 'total_bedrooms',\n 'population',\n 'households',\n 'median_income']]\n preprocess_features = selected_features.copy()\n preprocess_features['rooms_perperson'] = preprocess_features['total_rooms'] / preprocess_features['population']\n return preprocess_features\n\n\ndef preprocess_targets(california_housing_dataframe):\n output_targets = pd.DataFrame()\n output_targets['median_house_value'] = california_housing_dataframe['median_house_value'] / 1000.0\n return output_targets\n\n\ndef construct_feature_columns(input_features):\n return set([tf.feature_column.numeric_column(my_feature) for my_feature in input_features])\n\n\ndef my_input_fn(features, targets, batch_size=1, shuffle=False, num_epochs=None):\n features = {key: np.array(value) for key, value in dict(features).items()}\n\n ds = tf.data.Dataset.from_tensor_slices((features, targets))\n ds = ds.batch(batch_size).repeat(num_epochs)\n\n if shuffle:\n ds = ds.shuffle(10000)\n\n features, labels = ds.make_one_shot_iterator().get_next()\n return features, labels\n\ndef select_and_transform_features(source_df):\n Latitude_Ranges = zip(range(32, 44), range(33, 45))\n selected_examples = pd.DataFrame()\n selected_examples['median_income'] = source_df['median_income']\n for r in Latitude_Ranges:\n selected_examples[\"latitude_%d_to_%d\" % (r[0], r[1])] = source_df['latitude'].apply(lambda l: 1.0 if l >= r[0] and l < r[1] else 0.0)\n\n return selected_examples\n\ndef train_model(learning_rate, steps, batch_size, training_examples, training_targets, validation_examples, validation_targets):\n periods = 10\n steps_per_period = steps / periods\n\n my_optimizer = tf.train.GradientDescentOptimizer(learning_rate=learning_rate)\n my_optimizer = tf.contrib.estimator.clip_gradients_by_norm(my_optimizer, 5.0)\n linear_regressor = tf.estimator.LinearRegressor(feature_columns=construct_feature_columns(training_examples), optimizer=my_optimizer)\n\n training_input_fn = lambda: my_input_fn(training_examples,training_targets['median_house_value'],batch_size=batch_size)\n predict_training_input_fn = lambda: my_input_fn(training_examples,training_targets['median_house_value'],num_epochs=1,shuffle=False)\n predict_validation_input_fn = lambda: my_input_fn(validation_examples, validation_targets['median_house_value'],num_epochs=1,shuffle=False)\n\n print ('Training model...')\n print ('RMSE (on training data):')\n training_rmse = []\n validation_rmse = []\n\n for period in range(0, periods):\n linear_regressor.train(input_fn=training_input_fn, steps=steps_per_period)\n training_predictions = linear_regressor.predict(input_fn=predict_training_input_fn)\n training_predictions = np.array([item['predictions'][0] for item in training_predictions])\n\n validation_predictions = linear_regressor.predict(input_fn = predict_validation_input_fn)\n validation_predictions = np.array([item['predictions'][0] for item in validation_predictions])\n\n training_root_mean_squared_error = math.sqrt(metrics.mean_squared_error(training_predictions,training_targets))\n validation_root_mean_squared_error = math.sqrt(metrics.mean_squared_error(validation_predictions,validation_targets))\n print (' period %02d : %0.2f' %(period, training_root_mean_squared_error))\n training_rmse.append(training_root_mean_squared_error)\n validation_rmse.append(validation_root_mean_squared_error)\n print ('Model training finished')\n\n\n\ntraining_dataframe = california_housing_dataframe.head(12000)\nvalidation_dataframe = california_housing_dataframe.tail(5000)\ntraining_examples = preprocess_features(training_dataframe)\ntraining_targets = preprocess_targets(training_dataframe)\nvalidation_examples = preprocess_features(validation_dataframe)\nvalidation_targets = preprocess_targets(validation_dataframe)\n\nprint('Training examples summary:')\ndisplay.display(training_examples.describe())\nprint('Validation examples summary:')\ndisplay.display(validation_examples.describe())\n\nprint('Training targets summary:')\ndisplay.display(training_targets.describe())\nprint('Validation targets summary:')\ndisplay.display(validation_targets.describe())\n\ncorrelation_dataframe = training_examples.copy()\ncorrelation_dataframe['target'] = training_targets['median_house_value']\n\ndisplay.display(correlation_dataframe.corr())\nplt.scatter(training_examples[\"latitude\"], training_targets[\"median_house_value\"])\n\nselected_training_examples = select_and_transform_features(training_examples)\nselected_validation_examples = select_and_transform_features(validation_examples)\n\nminimal_features = [\n 'median_income',\n]\n\n\nassert minimal_features, \"You must select at least one feature!\"\n\nminimal_training_examples = training_examples[minimal_features]\nminimal_validation_examples = validation_examples[minimal_features]\n\ntrain_model(\n learning_rate=0.01,\n steps=500,\n batch_size=5,\n training_examples=selected_training_examples,\n training_targets=training_targets,\n validation_examples=selected_validation_examples,\n validation_targets=validation_targets,\n)\n" }, { "alpha_fraction": 0.7058823704719543, "alphanum_fraction": 0.7058823704719543, "avg_line_length": 15, "blob_id": "7fea1c02138a67067c9235d767d9b32f099a3f79", "content_id": "981c6784ce83c3004afa9bf96609e2e54519a5f6", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 17, "license_type": "no_license", "max_line_length": 15, "num_lines": 1, "path": "/tensorflow.js/README.md", "repo_name": "wqw547243068/tensorflow-learn", "src_encoding": "UTF-8", "text": "# tensorflow.js\n\n" }, { "alpha_fraction": 0.7053571343421936, "alphanum_fraction": 0.7053571343421936, "avg_line_length": 10.100000381469727, "blob_id": "8241f2f06002b8abb9be33e3581a297746c25209", "content_id": "1290a3ab69daf5405105632cc6704347146e0422", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 178, "license_type": "no_license", "max_line_length": 51, "num_lines": 10, "path": "/README.md", "repo_name": "wqw547243068/tensorflow-learn", "src_encoding": "UTF-8", "text": "# Tensorflow学习汇总\n\n## 示例代码\n### 多层全连接网络\n包含的功能：网络定义、tensorboard、dropout、batch normalnazation\n\n### GPU使用\n\n\n### 分布式\n\n" }, { "alpha_fraction": 0.5978090763092041, "alphanum_fraction": 0.6145966649055481, "avg_line_length": 38.46067428588867, "blob_id": "cda1cfb926539ec619667ec2e1a3ab95ac47a6c5", "content_id": "15d09c7bbd7a358ef2ce0187f92b36dc43089b18", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 7641, "license_type": "no_license", "max_line_length": 177, "num_lines": 178, "path": "/test/tf_test.py", "repo_name": "wqw547243068/tensorflow-learn", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# __ coding: utf-8 __\nimport os\n#import shutil\nimport tensorflow as tf\nfrom sklearn.datasets import load_digits\nfrom sklearn.cross_validation import train_test_split\nfrom sklearn.preprocessing import LabelBinarizer\n#import numpy as np\nimport matplotlib.pyplot as plt\n\n# 创建一个神经网络层\ndef add_layer(input, in_size, out_size, layer_name, activation_function=None):\n \"\"\"\n input: 神经网络层的输入\n in_zize: 输入数据的大小\n out_size: 输出数据的大小\n layer_name 神经网络层的名字\n activation_function: 神经网络激活函数，默认没有\n \"\"\"\n with tf.name_scope('%s'%(layer_name)):\n # 定义神经网络的初始化权重\n with tf.name_scope('w'):\n Weights = tf.Variable(tf.random_normal([in_size, out_size]))\n\t tf.summary.histogram(layer_name+'/w', Weights)\n # 定义神经网络的偏置\n with tf.name_scope('b'):\n biases = tf.Variable(tf.zeros([1, out_size]) + 0.1)\n\t tf.summary.histogram(layer_name + '/b', biases)\n # 计算wx+b\n with tf.name_scope('wx_b'):\n W_mul_x_plus_b = tf.matmul(input, Weights) + biases\n\t tf.summary.histogram(layer_name + '/wx_b', W_mul_x_plus_b)\n # 进行dropout，可以注释和不注释来对比dropout的效果\n\tW_mul_x_plus_b = tf.nn.dropout(W_mul_x_plus_b, keep_prob)\n\ttf.summary.histogram(layer_name + '/wx_b_drop', W_mul_x_plus_b)\n\t # 根据是否有激活函数进行处理\n\tif activation_function is None:\n\t output = W_mul_x_plus_b\n\telse:\n\t output = activation_function(W_mul_x_plus_b)\n\t# 查看权重变化\n\ttf.summary.histogram(layer_name + '/output', output)\n return output\n\ndef draw(train_list):\n \"\"\" 绘制训练曲线，便于观察 \"\"\"\n #[step, loss_train, loss_test, accuracy_train, accuracy_test]\n plt.figure('training process')\n step_list = [i[0] for i in train_list] # step\n loss_train = [i[1] for i in train_list] # loss\n loss_test = [i[2] for i in train_list] # loss_dev\n accuracy_train = [i[3] for i in train_list] # accuracy\n accuracy_test = [i[4] for i in train_list] # accuracy_dev\n plt.subplot(211)\n plt.plot(step_list, loss_train, loss_test, '.')\n plt.legend(['train', 'test'])\n plt.grid()\n plt.ylabel('loss')\n plt.title('loss & accuracy')\n plt.subplot(212)\n plt.plot(step_list, accuracy_train, accuracy_test)\n plt.xlabel('epoch')\n plt.ylabel('accuracy')\n plt.grid()\n #plt.title('accuracy')\n plt.savefig('out.png')\n plt.show()\n\ndef main():\n digits = load_digits() # 加载数据\n X = digits.data # 输入数据\n y = digits.target # 输出数据\n #显示图片样例\n \"\"\"\n import numpy as np\n plt.imshow(np.reshape(X[0],[8,8]))\n plt.show()\n \"\"\"\n # 标签变换 ont-hot编码\n y = LabelBinarizer().fit_transform(y)\n # 训练集和测试集划分\n X_train, X_test, y_train, y_test = train_test_split(X, y, test_size=.3)\n #=========model==========\n # 定义dropout的placeholder\n keep_prob = tf.placeholder(tf.float32, name='keep_prob')\n # 输入数据64个特征\n with tf.name_scope('input'):\n xs = tf.placeholder(tf.float32, [None, 64], name='x') # 8x8\n # tensorboard上显示图片\n tf.summary.image('xs', tf.reshape(xs, [-1,8,8,1]), 10)\n ys = tf.placeholder(tf.float32, [None, 10], name='y')\n # 添加隐藏层和输出层\n layer1 = add_layer(xs, 64, 50, 'layer1', activation_function=tf.nn.tanh)\n layer2 = add_layer(layer1, 50, 80, 'layer2', activation_function=tf.nn.sigmoid)\n layer3 = add_layer(layer2, 80, 40, 'layer3', activation_function=tf.nn.tanh) # relu报错\n layer4 = add_layer(layer3, 40, 30, 'layer4', activation_function=tf.nn.tanh) # relu报错\n layer5 = add_layer(layer4, 30, 30, 'layer5', activation_function=tf.nn.tanh) # relu报错\n layer6 = add_layer(layer5, 30, 30, 'layer6', activation_function=tf.nn.tanh) # relu报错\n prediction = add_layer(layer6, 30, 10, 'prediction', activation_function=tf.nn.softmax)\n #pre = tf.nn.softmax(layer2, name=\"pre\")\n #========================\n # 计算loss\n with tf.name_scope('loss'):\n loss = tf.reduce_mean(-tf.reduce_sum(ys tf.log(prediction), reduction_indices=[1]))\n # 存储loss\n tf.summary.scalar('loss', loss)\n # 神经网络训练\n with tf.name_scope('train'):\n train_step = tf.train.GradientDescentOptimizer(0.5).minimize(loss)\n # 准确率\n with tf.name_scope('accuracy'):\n correct_predictions = tf.equal(tf.argmax(prediction, 1), tf.argmax(ys, 1))\n accuracy = tf.reduce_mean(tf.cast(correct_predictions, \"float\"))\n tf.summary.scalar('accuracy', accuracy) #可视化观看常量\n # 定义Session\n sess = tf.Session()\n # 收集所有的数据\n merged = tf.summary.merge_all()\n main_dir = '.'\n # 将数据写入到tensorboard中\n log_dir = '%s/log/dropout'%(main_dir)\n # tensorflow管理文件夹\n if tf.gfile.Exists(log_dir):\n print 'tf:日志目录已存在，删除%s'%(log_dir)\n tf.gfile.DeleteRecursively(log_dir)\n #__import__('shutil').rmtree(log_dir) # 简洁版\n # python方式管理文件夹\n '''\n if os.path.isdir(log_dir):\n print 'python:日志目录已存在，删除%s'%(log_dir)\n shutil.rmtree(log_dir)\n '''\n train_writer = tf.summary.FileWriter(\"%s/train\"%(log_dir), sess.graph)\n test_writer = tf.summary.FileWriter(\"%s/test\"%(log_dir), sess.graph)\n # step, init前定义\n step = tf.Variable(0, name=\"step\", trainable=False)\n # 根据tensorflow版本选择初始化函数\n if int((tf.__version__).split('.')[1]) < 12 and int((tf.__version__).split('.')[0]) < 1:\n init = tf.initialize_all_variables()\n else:\n init = tf.global_variables_initializer()\n # 模型保存\n #saver = tf.train.saver()\n saver = tf.train.Saver(tf.all_variables(), max_to_keep=5) # 保留最近5个模型\n model_dir = '%s/model/dropout'%(main_dir)\n if not tf.gfile.Exists(model_dir):\n tf.gfile.MakeDirs(model_dir)\n else:\n tf.gfile.DeleteRecursively(model_dir)\n tf.gfile.MakeDirs(model_dir)\n # 执行初始化\n sess.run(init)\n delta = 10\n train_info = []\n # 进行训练迭代\n for i in range(500):\n # 执行训练，dropout为1-0.5=0.5\n current_step = tf.train.global_step(sess, step)\n feed_dict_train = {xs: X_train, ys: y_train, keep_prob: 1.0}\n feed_dict_test = {xs: X_test, ys: y_test, keep_prob: 0.8}\n step_train, loss_train, accuracy_train = sess.run([step, loss, accuracy], feed_dict_train)\n loss_test, accuracy_test = sess.run([loss, accuracy], feed_dict_test)\n train_info.append([step_train, loss_train, loss_test, accuracy_train, accuracy_test])\n if i % delta == 0:\n # 记录损失\n train_result = sess.run(merged, feed_dict={xs: X_train, ys: y_train, keep_prob: 1.0})\n test_result = sess.run(merged, feed_dict={xs: X_test, ys: y_test, keep_prob: 1.0})\n train_writer.add_summary(train_result, i)\n test_writer.add_summary(test_result, i)\n print '第%s步, train_loss=%s, train accurcy=%s, test_loss=%s, test accuracy=%s'%(i, loss_train, accuracy_train, loss_test, accuracy_test) #pylint:disable=line-too-long\n path = saver.save(sess, model_dir+'/checkpoint', global_step=current_step)\n #saver.restore(sess, '../temp/nn_model')\n print \"Saved model checkpoint to {}\\n\".format(path)\n draw(train_info)\n\nif __name__ == '__main__':\n main()\n \n" }, { "alpha_fraction": 0.6758974194526672, "alphanum_fraction": 0.6882051229476929, "avg_line_length": 40.40926742553711, "blob_id": "2b55097207cc44be483297f7450b7004271ba54d", "content_id": "ed867bec8abad89463cf302a8bb0fc045f71a42e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 10725, "license_type": "no_license", "max_line_length": 110, "num_lines": 259, "path": "/Google_MLCC/python/multi-class_classfication_of_handwritten_digits.py", "repo_name": "wqw547243068/tensorflow-learn", "src_encoding": "UTF-8", "text": "import glob\nimport io\nimport math\nimport os\n\nimport numpy as np\nimport pandas as pd\nimport seaborn as sns\nimport tensorflow as tf\nfrom IPython import display\nfrom matplotlib import cm, gridspec\nfrom matplotlib import pyplot as plt\nfrom sklearn import metrics\nfrom tensorflow.python.data import Dataset\n\ntf.logging.set_verbosity(tf.logging.ERROR)\npd.options.display.max_rows = 10\npd.options.display.float_format = '{:.1f}'.format\n\n\ndef parse_labels_and_features(dataset):\n labels = dataset[0]\n features = dataset.loc[:, 1:784]\n features = features / 255\n return labels, features\n\n\ndef construct_feature_columns():\n return set([tf.feature_column.numeric_column('pixels', shape=784)])\n\n\ndef create_training_input_fn(features, labels, batch_size, num_epochs=None, shuffle=True):\n def _input_fn(num_epochs=None, shuffle=True):\n idx = np.random.permutation(features.index)\n raw_features = {'pixels': features.reindex(idx)}\n raw_targets = np.array(labels[idx])\n\n ds = Dataset.from_tensor_slices((raw_features, raw_targets))\n ds = ds.batch(batch_size).repeat(num_epochs)\n\n if shuffle:\n ds = ds.shuffle(10000)\n\n feature_batch, label_batch = ds.make_one_shot_iterator().get_next()\n return feature_batch, label_batch\n return _input_fn\n\n\ndef create_perdict_input_fn(features, labels, batch_size):\n def _input_fn():\n raw_features = {'pixels': features.values}\n raw_targets = np.array(labels)\n\n ds = Dataset.from_tensor_slices((raw_features, raw_targets))\n ds = ds.batch(batch_size)\n\n feature_batch, label_batch = ds.make_one_shot_iterator().get_next()\n return feature_batch, label_batch\n return _input_fn\n\n\ndef train_linear_regression_model(\n learning_rate,\n steps,\n batch_size,\n training_examples,\n training_targets,\n validation_examples,\n validation_targets):\n periods = 10\n steps_per_period = steps / periods\n\n predict_training_input_fn = create_perdict_input_fn(training_examples, training_targets, batch_size)\n predict_validation_input_fn = create_perdict_input_fn(validation_examples, validation_targets, batch_size)\n training_input_fn = create_training_input_fn(training_examples, training_targets, batch_size)\n\n my_optimizer = tf.train.AdagradOptimizer(learning_rate=learning_rate)\n my_optimizer = tf.contrib.estimator.clip_gradients_by_norm(my_optimizer, 5.0)\n classifier = tf.estimator.LinearClassifier(feature_columns=construct_feature_columns(),\n n_classes=10,\n optimizer=my_optimizer,\n config=tf.estimator.RunConfig(keep_checkpoint_max=1))\n print('Training Model...')\n print('LogLoss error (on validation data):')\n training_errors = []\n validation_errors = []\n for period in range(0, periods):\n classifier.train(input_fn=training_input_fn, steps=steps_per_period)\n training_predictions = list(classifier.predict(input_fn=predict_training_input_fn))\n training_probabilities = np.array([item['probabilities'] for item in training_predictions])\n training_pred_class_id = np.array([item['class_ids'][0] for item in training_predictions])\n training_pred_one_hot = tf.keras.utils.to_categorical(training_pred_class_id, 10)\n\n validation_predictions = list(classifier.predict(input_fn=predict_validation_input_fn))\n validation_probabilities = np.array([item['probabilities'] for item in validation_predictions])\n validation_pred_class_id = np.array([item['class_ids'][0] for item in validation_predictions])\n validation_pred_one_hot = tf.keras.utils.to_categorical(validation_pred_class_id, 10)\n\n training_log_loss = metrics.log_loss(training_targets, training_pred_one_hot)\n validation_log_loss = metrics.log_loss(validation_targets, validation_pred_one_hot)\n\n print(\" period %02d : %0.2f\" % (period, validation_log_loss))\n\n training_errors.append(training_log_loss)\n validation_errors.append(validation_log_loss)\n print(\"Model trianing finished\")\n _ = map(os.remove, glob.glob(os.path.join(classifier.model_dir, 'events.out.tfevents')))\n\n final_predictions = classifier.predict(input_fn=predict_validation_input_fn)\n final_predictions = np.array([item['class_ids'][0] for item in final_predictions])\n accuracy = metrics.accuracy_score(validation_targets, final_predictions)\n print(\"Final accuracy (on validation data): %0.2f\" % accuracy)\n\n plt.ylabel('Logloss')\n plt.xlabel('Periods')\n plt.title(\"LogLoss vs. Periods\")\n plt.plot(training_errors, label='Training')\n plt.plot(validation_errors, label='Validation')\n plt.legend()\n plt.show()\n\n cm = metrics.confusion_matrix(validation_targets, final_predictions)\n cm_normalized = cm.astype('float') / cm.sum(axis=1)[:, np.newaxis]\n\n ax = sns.heatmap(cm_normalized, cmap=\"bone_r\")\n ax.set_aspect(1)\n plt.title('Confusion matrix')\n plt.ylabel('True Label')\n plt.xlabel('Predicted Label')\n plt.show()\n\n return classifier\n\n\ndef train_nn_regression_model(\n learning_rate,\n steps,\n batch_size,\n hidden_units,\n training_examples,\n training_targets,\n validation_examples,\n validation_targets):\n periods = 10\n steps_per_period = steps / periods\n\n predict_training_input_fn = create_perdict_input_fn(training_examples, training_targets, batch_size)\n predict_validation_input_fn = create_perdict_input_fn(validation_examples, validation_targets, batch_size)\n training_input_fn = create_training_input_fn(training_examples, training_targets, batch_size)\n\n my_optimizer = tf.train.AdagradOptimizer(learning_rate=learning_rate)\n my_optimizer = tf.contrib.estimator.clip_gradients_by_norm(my_optimizer, 5.0)\n classifier = tf.estimator.DNNClassifier(feature_columns=construct_feature_columns(),\n hidden_units=hidden_units,\n n_classes=10,\n optimizer=my_optimizer,\n config=tf.estimator.RunConfig(keep_checkpoint_max=1))\n print('Training Model...')\n print('LogLoss error (on validation data):')\n training_errors = []\n validation_errors = []\n for period in range(0, periods):\n classifier.train(input_fn=training_input_fn, steps=steps_per_period)\n training_predictions = list(classifier.predict(input_fn=predict_training_input_fn))\n training_probabilities = np.array([item['probabilities'] for item in training_predictions])\n training_pred_class_id = np.array([item['class_ids'][0] for item in training_predictions])\n training_pred_one_hot = tf.keras.utils.to_categorical(training_pred_class_id, 10)\n\n validation_predictions = list(classifier.predict(input_fn=predict_validation_input_fn))\n validation_probabilities = np.array([item['probabilities'] for item in validation_predictions])\n validation_pred_class_id = np.array([item['class_ids'][0] for item in validation_predictions])\n validation_pred_one_hot = tf.keras.utils.to_categorical(validation_pred_class_id, 10)\n\n training_log_loss = metrics.log_loss(training_targets, training_pred_one_hot)\n validation_log_loss = metrics.log_loss(validation_targets, validation_pred_one_hot)\n\n print(\" period %02d : %0.2f\" % (period, validation_log_loss))\n\n training_errors.append(training_log_loss)\n validation_errors.append(validation_log_loss)\n print(\"Model trianing finished\")\n _ = map(os.remove, glob.glob(os.path.join(classifier.model_dir, 'events.out.tfevents')))\n\n final_predictions = classifier.predict(input_fn=predict_validation_input_fn)\n final_predictions = np.array([item['class_ids'][0] for item in final_predictions])\n accuracy = metrics.accuracy_score(validation_targets, final_predictions)\n print(\"Final accuracy (on validation data): %0.2f\" % accuracy)\n\n plt.ylabel('Logloss')\n plt.xlabel('Periods')\n plt.title(\"LogLoss vs. Periods\")\n plt.plot(training_errors, label='Training')\n plt.plot(validation_errors, label='Validation')\n plt.legend()\n plt.show()\n\n cm = metrics.confusion_matrix(validation_targets, final_predictions)\n cm_normalized = cm.astype('float') / cm.sum(axis=1)[:, np.newaxis]\n\n ax = sns.heatmap(cm_normalized, cmap=\"bone_r\")\n ax.set_aspect(1)\n plt.title('Confusion matrix')\n plt.ylabel('True Label')\n plt.xlabel('Predicted Label')\n plt.show()\n\n return classifier\n\n\nmnist_dataframe = pd.read_csv('data/mnist_train_small.csv', sep=\",\", header=None)\nmnist_test_dataframe = pd.read_csv('data/mnist_test.csv', sep=',', header=None)\nmnist_dataframe = mnist_dataframe.head(10000)\nmnist_dataframe = mnist_dataframe.reindex(np.random.permutation(mnist_dataframe.index))\ndisplay.display(mnist_dataframe.head())\n\ntraining_targets, training_examples = parse_labels_and_features(mnist_dataframe[:7500])\ntesting_targets, testing_examples = parse_labels_and_features(mnist_test_dataframe)\ndisplay.display(training_examples.describe())\n\nvalidation_targets, validation_examples = parse_labels_and_features(mnist_dataframe[7500:10000])\ndisplay.display(validation_examples.describe())\n\nrand_example = np.random.choice(training_examples.index)\n_, ax = plt.subplots()\nax.matshow(training_examples.loc[rand_example].values.reshape(28, 28))\nax.set_title('Label:%i' % training_targets.loc[rand_example])\nax.grid(False)\n\nclassifier = train_nn_regression_model(\n learning_rate=0.05,\n steps=1000,\n batch_size=30,\n hidden_units=[100, 100],\n training_examples=training_examples,\n training_targets=training_targets,\n validation_examples=validation_examples,\n validation_targets=validation_targets)\n\ntest_predictions = classifier.predict(input_fn=predict_test_input_fn)\ntest_predictions = np.array([item['class_ids'][0] for item in test_predictions])\n\naccuracy = metrics.accuracy_score(testing_targets, test_predictions)\nprint(\"Accuracy on test data: %0.2f\" % accuracy)\n\nprint(classifier.get_variable_names())\n\nweights0 = classifier.get_variable_value('dnn/hiddenlayer_0/kernel')\n\nprint('weighs 0 shape:', weights0.shape)\nnum_nodes = weights0.shape[1]\nnum_rows = int(math.ceil(num_nodes / 10.0))\nfig, axes = plt.subplots(num_rows, 10, figsize=(20, 2 * num_rows))\nfor coef, ax in zip(weights0.T, axes.ravel()):\n # Weights in coef is reshaped from 1x784 to 28x28.\n ax.matshow(coef.reshape(28, 28), cmap=plt.cm.pink)\n ax.set_xticks(())\n ax.set_yticks(())\n\nplt.show()\n" } ]	8
d34th4ck3r/youtube-dl	https://github.com/d34th4ck3r/youtube-dl	be154355763bd9688cb540da44dbec0159867b84	d741e55a423a09c40b3c5e19551f432a050353d7	5ae78d1cc8de87eaf361aea5fd069b84d3154fd7	refs/heads/master	2020-02-28T12:38:59.332283	2013-08-19T08:27:42	2013-08-19T08:27:42	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.25, "alphanum_fraction": 0.5357142686843872, "avg_line_length": 26, "blob_id": "9f752d16b30de5aae5a31bc58cc95e45542ca7ac", "content_id": "8c93a275c1ca3b7ad344571e1499498b8dbc529a", "detected_licenses": [ "Unlicense", "LicenseRef-scancode-public-domain" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 28, "license_type": "permissive", "max_line_length": 26, "num_lines": 1, "path": "/youtube_dl/version.py", "repo_name": "d34th4ck3r/youtube-dl", "src_encoding": "UTF-8", "text": "\n__version__ = '2013.08.17'\n" } ]	1
Layne-wu/producer-and-consumer	https://github.com/Layne-wu/producer-and-consumer	72ec27496efbe03ee3bdf8c2485c32e1b52c785d	e0651b74e2e7c7c83aa2ec8a14bb5b40764043e2	fc5d8f5710736b4c7a8081d5422ecc23f3a744e3	refs/heads/master	2021-09-27T17:37:03.681368	2018-11-10T03:39:58	2018-11-10T03:39:58	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.5866336822509766, "alphanum_fraction": 0.5996286869049072, "avg_line_length": 20.83783721923828, "blob_id": "fbf47ac304480dcae35ef42f0891b44e44b96397", "content_id": "68adec3b58da884b74fe33c04f5b5936784d3fe4", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2364, "license_type": "permissive", "max_line_length": 58, "num_lines": 74, "path": "/生产者消费者模型.py", "repo_name": "Layne-wu/producer-and-consumer", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# -- coding:utf-8 --\n# Author:Wwl\n\nimport time,random\nfrom multiprocessing import Process,JoinableQueue\n# 制作热狗\ndef make_hotdog(queue,name):\n for i in range(3):\n time.sleep(random.randint(1,2))\n print(\"%s 制作了一个热狗 %s\" % (name,i))\n # 生产得到的数据\n data = \"%s生产的热狗%s\" % (name,i)\n # 存到队列中\n queue.put(data)\n # 装入一个特别的数据告诉消费方没有了\n #queue.put(None)\n\n# 吃热狗\ndef eat_hotdog(queue,name):\n while True:\n data = queue.get()\n time.sleep(random.randint(1, 2))\n print(\"%s 吃了%s\" % (name,data))\n # 该函数就是用来记录一共给消费方多少数据了就是get次数\n queue.task_done()\n\n\nif __name__ == '__main__':\n #创建队列\n q = JoinableQueue()\n p1 = Process(target=make_hotdog,args=(q,\"邵钻钻的热狗店\"))\n p2 = Process(target=make_hotdog, args=(q, \"egon的热狗店\"))\n p3 = Process(target=make_hotdog, args=(q, \"老王的热狗店\"))\n\n\n c1 = Process(target=eat_hotdog, args=(q,\"思聪\"))\n c2 = Process(target=eat_hotdog, args=(q, \"李哲\"))\n\n p1.start()\n p2.start()\n p3.start()\n\n # 将消费者作为主进程的守护进程\n c1.daemon = True\n c2.daemon = True\n\n\n c1.start()\n c2.start()\n\n # 让主进程等三家店全都做完后....\n p1.join()\n p2.join()\n p3.join()\n\n\n # 如何知道生产方生产完了并且消费方也吃完了\n\n # 方法一:等待做有店都做完热狗在放None\n # # 添加结束标志注意这种方法有几个消费者就加几个None 不太合适不清楚将来有多少消费者\n # q.put(None)\n # q.put(None)\n\n # 主进程等到队列结束时再继续那队列什么时候算结束? 生产者已经生产完了并且消费者把数据全取完了\n q.join() # 已经明确生产放一共有多少数据\n\n # 现在需要知道什么时候做完热狗了生产者不知道消费者也不知道\n # 只有队列知道\n\n print(\"主进程over\")\n # 生产方不生产了然而消费方不知道所以一直等待 get函数阻塞\n # 三家店都放了一个空表示没热狗了但是消费者只有两个他们只要看见None 就认为没有了\n # 于是进程也就结束了造成一些数据没有被处理\n" } ]	1
chenhangjun/Spam_SMS_Classify	https://github.com/chenhangjun/Spam_SMS_Classify	a986e4c07bf8118817038e5f8eb6351d6c248028	3c622113c27cd4500e5e5e90b390c876697e65c4	6f373321ee739b82a91df171cceddbfebc8309b4	refs/heads/master	2021-05-17T14:25:40.790944	2020-05-09T09:41:20	2020-05-09T09:41:20	254,359,537	2	0	null	null	null	null	null	[ { "alpha_fraction": 0.575554609298706, "alphanum_fraction": 0.5985767841339111, "avg_line_length": 28.862499237060547, "blob_id": "9a246d7403e5190a622be000118b3f00c34ba3b2", "content_id": "6f2a8ed1736f62a251e190723b249ecafb43ecfe", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2587, "license_type": "no_license", "max_line_length": 97, "num_lines": 80, "path": "/SignUp.py", "repo_name": "chenhangjun/Spam_SMS_Classify", "src_encoding": "UTF-8", "text": "from tkinter import \nfrom tkinter.messagebox import \nimport pymysql\n\n\nclass SignUp(object):\n\n def __init__(self, master=None):\n\n self.db = pymysql.connect(\"localhost\", \"chenhangjun\", \"1030416518\", \"InfoDB\", charset='utf8')\n self.cursor = self.db.cursor()\n\n self.root = master # 定义内部变量root\n self.root = Toplevel()\n self.root.title(\"注册\")\n self.root.geometry('%dx%d' % (400, 250)) # 设置窗口大小\n self.username = StringVar()\n self.password1 = StringVar()\n self.password2 = StringVar()\n self.createPage()\n\n\n def createPage(self):\n\n self.page = Frame(self.root) # 创建Frame\n self.page.pack()\n Label(self.page).grid(row=0, stick=W)\n Label(self.page, text='账号: ').grid(row=1, stick=W, pady=10)\n Entry(self.page, textvariable=self.username).grid(row=1, column=1, stick=E)\n Label(self.page, text='密码: ').grid(row=2, stick=W, pady=10)\n Entry(self.page, textvariable=self.password1, show='').grid(row=2, column=1, stick=E)\n Label(self.page, text='重复密码: ').grid(row=3, stick=W, pady=10)\n Entry(self.page, textvariable=self.password2, show='').grid(row=3, column=1, stick=E)\n Button(self.page, text='确定', command=self.confirm).grid(row=4, stick=W, pady=10)\n Button(self.page, text='取消', command=self.pageQuit).grid(row=4, column=1, stick=E)\n\n\n def pageQuit(self):\n\n self.db.close()\n self.root.destroy()\n\n\n def confirm(self):\n\n name = self.username.get()\n pwd1 = self.password1.get()\n pwd2 = self.password2.get()\n\n if name == '':\n showinfo(title='错误', message='请填写账号！')\n elif pwd1 == '':\n showinfo(title='错误', message='请填写密码！')\n elif pwd2 == '':\n showinfo(title='错误', message='请重复密码！')\n elif pwd1 != pwd2:\n showinfo(title='错误', message='两次密码输入不一致！')\n else:\n sql1 = \"SELECT * FROM USER WHERE USER_NAME = '%s'\" % (name)\n sql2 = \"INSERT INTO USER(USER_NAME, PASSWORD) VALUES('%s', '%s')\" % (name, pwd1)\n\n self.cursor.execute(sql1)\n res = self.cursor.fetchall()\n\n if res != ():\n showinfo(title='错误', message='该账号已存在！')\n else:\n try:\n # 执行sql语句\n self.cursor.execute(sql2)\n # 提交到数据库执行\n self.db.commit()\n showinfo(title='恭喜', message='注册成功！')\n except:\n # 发生错误时回滚\n self.db.rollback()\n print(\"error\")\n finally:\n self.db.close()\n self.root.destroy()\n" }, { "alpha_fraction": 0.6029411554336548, "alphanum_fraction": 0.6113445162773132, "avg_line_length": 24.51785659790039, "blob_id": "7c62e39b67dc096bc8187f3ac75bb95622492d25", "content_id": "4165be92a150069b52a845283f9d57dd9d60fee5", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1664, "license_type": "no_license", "max_line_length": 89, "num_lines": 56, "path": "/TextProcess.py", "repo_name": "chenhangjun/Spam_SMS_Classify", "src_encoding": "UTF-8", "text": "import csv\nimport numpy as np\nimport re\nfrom zhon.hanzi import punctuation\nimport jieba\nimport pandas as pd\n\n# 读取数据\ncsvFile = open(\"dataset.csv\", \"r\")\nreader = csv.reader(csvFile)\n# type(reader) == _csv.reader\nrows = [row for row in reader]\n# type(rows) == list\ndata = np.array(rows)\n# type(data) == numpy.ndarray\n# data.shape == (50000, 2)\n# 第一列为标签，第二列为短信内容\n# 获取短信内容（文本）\ntext = data[:,1]\n# type(text.element) == numpy.str_\n\n# words 存放jieba分词结果 type(words_temp) == list\nwords = []\n\n# 根据原始分词得到的高频停用词\nstop_words = ['有', '和', '是', '在', '我', '了', '的']\n\nremove_chars = '[0-9’a-zA-Z!\"#$%&\\'()\\\\\\\\+,-./:;<=>?@?★…‘’[\\\\]^_`{\|}~(\\s)]+'\n# 逐行去除特殊字符、数字英文（地址链接）和标点\nfor i in range(0, len(text)):\n newstr = re.sub(remove_chars, '', text[i])\n text[i] = re.sub(\"[{}]+\".format(punctuation), \"\", newstr)\n # print(text[i])\n # 进行分词/\n # words.append(jieba.lcut(text[i])) # 不管停用词，直接添加\n list_words = jieba.lcut(text[i])\n for word in list_words:\n if word in stop_words:\n list_words.remove(word)\n words.append(list_words)\n\n# print(len(words[0]))\n\nwith open('words.csv','w',newline='') as f:\n writer=csv.writer(f)\n for word in words:\n data=','.join(word)\n writer.writerow([data])\n\n# data_in = pd.DataFrame(words)\n# try:\n# # csv_headers = ['sentence']\n# data_in.to_csv('words.csv', header=False, index=False, mode='a+', encoding='utf-8')\n#\n# except UnicodeEncodeError:\n# print(\"编码错误, 该数据无法写到文件中, 直接忽略该数据\")" }, { "alpha_fraction": 0.5700757503509521, "alphanum_fraction": 0.6141098737716675, "avg_line_length": 18.738317489624023, "blob_id": "c13c433ff648ef4715edb0887462f7e5e0ca2d32", "content_id": "9503b7086c2dd32b76fd003a77a17f45a5137a62", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2228, "license_type": "no_license", "max_line_length": 85, "num_lines": 107, "path": "/NBTest.py", "repo_name": "chenhangjun/Spam_SMS_Classify", "src_encoding": "UTF-8", "text": "import numpy as np\nimport csv\nfrom NaiveBayes import NaiveBayes\nimport matplotlib.pyplot as plt\n\n# 读取数据\ncsvFile = open(\"dataset.csv\", \"r\")\nreader = csv.reader(csvFile)\nrows = [row for row in reader]\ndata = np.array(rows)\n# 获取标签\nY_data_str = data[:, 0]\n\nY_data_int = np.zeros(len(Y_data_str), dtype=int)\n\n# Y_data_str 值的类型从字符转化为int\nfor i in range(0, len(Y_data_str)):\n Y_data_int[i] = int(Y_data_str[i])\n\n\n# 获取短信分词\ncsvFile = open(\"words.csv\", \"r\")\nreader = csv.reader(csvFile)\nrows = [row for row in reader]\ndata = np.array(rows)\n# data.shape == (50000, 1)\ndata = data[:,0]\n# ==> data.shape == (50000,)\n\nwords = []\nfor obj in data:\n words.append(obj.split(','))\n# len(words) == 50000\n\n\n\nN1 = int(len(Y_data_int) * 0.8)\n\n#数据集按4:1 划分为训练集：测试集\nY_train = Y_data_int[0 : N1]\nX_train = words[0 : N1]\nY_test = Y_data_int[N1 : len(Y_data_int)]\nX_test = words[N1: len(words)]\n\nx_axis = np.zeros(1001)\naccuracy = np.zeros(1001)\nprecision = np.zeros(1001)\n\n# str = 0.45\n# end = 0.50\n\n\n# for i in range(0, 1001):\n# para = str + (end - str) * 0.001 * i\n # print(\"para = %f\" %(para))\n # x_axis[i] = para\n\npara = 0.4743\nNB = NaiveBayes()\nNB.fit(X_train, Y_train, para)\n\nNB.save()\n\n\n'''\ncount = 0 \nPSpam = 0\nTSpam = 0\n\nfor j in range(0, len(Y_test)):\n tag = NB.predict(X_test[j])\n if Y_test[j] == tag:\n count += 1\n # 1为spam, 0为ham，与标签一致\n if tag == 1:\n PSpam += 1\n if Y_test[j] == 1:\n TSpam += 1\n # else:\n # print(X_test[j], i, tag)\n\nlength = len(Y_test)\n\nprint(\"With Laplacial correction\")\nprint(\"Threshold is %f\" % para)\nprint(\"准确率： %.2f%% 查准率： %.2f%%\" %(((count / length) * 100),((TSpam / PSpam) * 100)))\n'''\n'''\n accuracy[i] = count / length * 100\n if TSpam == 0:\n precision[i] = 0\n else:\n precision[i] = TSpam / PSpam * 100\n \n\n\n# sub_axix = filter(lambda x: x % 200 == 0, x_axis)\n# plt.title('NaiveBayes--Laplacian correction')\nplt.title('NaiveBayes--without Laplacian correction')\nplt.plot(x_axis, accuracy, color='red', label='accuracy')\nplt.plot(x_axis, precision, color='blue', label='precision')\nplt.legend() # 显示图例\n\nplt.xlabel('threshold')\nplt.ylabel('percentage')\nplt.show()\n'''\n" }, { "alpha_fraction": 0.7008547186851501, "alphanum_fraction": 0.7008547186851501, "avg_line_length": 13.625, "blob_id": "580dea1733e9b905391676a8f19ec87925676f0f", "content_id": "6ec9758c05eb4c011310e2e115428401872ed40b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 121, "license_type": "no_license", "max_line_length": 21, "num_lines": 8, "path": "/UIMain.py", "repo_name": "chenhangjun/Spam_SMS_Classify", "src_encoding": "UTF-8", "text": "from tkinter import \nfrom Login import \n\nroot = Tk()\nroot.title('登录')\nLogin(root)\n# MainPage(root)\nroot.mainloop()\n" }, { "alpha_fraction": 0.5536277890205383, "alphanum_fraction": 0.5892744660377502, "avg_line_length": 24.336000442504883, "blob_id": "7813eb939c764bd603b15b271cffd8c64b7b39a2", "content_id": "d0fe6dcbd456f73ecde6e97b30e439c23d27d869", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3382, "license_type": "no_license", "max_line_length": 98, "num_lines": 125, "path": "/MainPage.py", "repo_name": "chenhangjun/Spam_SMS_Classify", "src_encoding": "UTF-8", "text": "from tkinter import \nimport json\nimport math\nfrom zhon.hanzi import punctuation\nimport jieba\n\n\nclass MainPage(object):\n\n def __init__(self, master=None):\n\n self.content = ''\n self.result = ''\n self.root = master # 定义内部变量root\n self.root = Tk(className='垃圾短信识别') # 窗口标题\n self.root.geometry('%dx%d' % (600, 400)) # 设置窗口大小\n self.root.resizable(0, 0)\n # 输入框\n self.text_1 = Text(self.root, width=62, height=12)\n # label 3 显示结果\n self.label_3 = Label(self.root)\n self.createPage()\n self.ham_map, self.spam_map = self.ReadModel('modeldict.json')\n\n\n def createPage(self):\n\n # 添加一个label\n self.page = Frame(self.root) # 创建Frame\n self.page.pack()\n Label(self.page).grid(row=0, stick=W)\n\n '''\n Label(self.page, text='输入短信').grid(row=1, column=1, stick=W)\n Entry(self.page, textvariable=self.content, width=70).grid(row=3, column=1)\n Label(self.page, text='判定结果为：').grid(row=5, stick=W, pady=10)\n Label(self.page, text=self.result).grid(row=5, stick=W, pady=10)\n Button(self.page, text='判定', command=self.Judge).grid(row=5, column=7, stick=W)\n '''\n # 添加一个label\n label_1 = Label(self.root)\n label_1['text'] = '输入短信:'\n label_1.place(x=50, y=50)\n\n self.text_1.place(x=50, y=90)\n\n # label 2\n label_2 = Label(self.root)\n label_2['text'] = '判定结果为:'\n label_2.place(x=50, y=320)\n\n\n self.label_3.place(x=130, y=320)\n\n # button\n button = Button(self.root, text='判定', command=self.Judge)\n button.place(x=500, y=310)\n\n\n def Judge(self):\n\n # 获取输入内容\n sentence = self.text_1.get('0.0', 'end')\n # 分词\n stop_words = ['有', '和', '是', '在', '我', '了', '的']\n remove_chars = '[0-9’a-zA-Z!\"#$%&\\'()\\\\\\\\+,-./:;<=>?@?★…‘’[\\\\]^_`{\|}~(\\s)]+'\n newstr = re.sub(remove_chars, '', sentence)\n sentence = re.sub(\"[{}]+\".format(punctuation), \"\", newstr)\n list_words = jieba.lcut(sentence)\n for word in list_words:\n if word in stop_words:\n list_words.remove(word)\n\n # 预测\n tag = self.Predict(list_words)\n # 修改标签显示\n if tag == 1:\n self.result = '垃圾邮件'\n else:\n self.result = '正常邮件'\n\n self.label_3['text'] = self.result\n\n\n def Predict(self, text):\n\n\n ham_words_count = 323632\n spam_words_count = 97890\n ham_count = 35978\n spam_count = 4022\n words_set_size = 62133\n para = 0.4743\n\n ham_probability = ham_count / (ham_count + spam_count)\n spam_probability = spam_count / (ham_count + spam_count)\n\n ham_pro = 0.0\n spam_pro = 0.0\n\n for word in text:\n ham_pro += math.log((self.ham_map.get(word, 0) + 1) / (ham_words_count + words_set_size))\n spam_pro += math.log((self.spam_map.get(word, 0) + 1) / (spam_words_count + words_set_size))\n\n ham_pro += math.log(ham_probability)\n spam_pro += math.log(spam_probability)\n\n # 1为spam, 0为ham，与标签一致\n # return int(spam_pro >= ham_pro)\n tot = spam_pro + ham_pro\n threshold = tot para\n if spam_pro >= threshold:\n return 1\n else:\n return 0\n\n\n def ReadModel(self, filename):\n\n with open(filename) as f:\n dictObj = json.load(f)\n ham_map = dictObj['ham']\n spam_map = dictObj['spam']\n\n return ham_map, spam_map\n\n\n\n" }, { "alpha_fraction": 0.5776209831237793, "alphanum_fraction": 0.5987903475761414, "avg_line_length": 25.79729652404785, "blob_id": "1e795aff4304ae66a04e4b17fe4f99d006fa4a82", "content_id": "10dee7734e141da0cfe84b3769f5207fe6c58d63", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2118, "license_type": "no_license", "max_line_length": 97, "num_lines": 74, "path": "/Login.py", "repo_name": "chenhangjun/Spam_SMS_Classify", "src_encoding": "UTF-8", "text": "from tkinter import \nfrom tkinter.messagebox import \nfrom MainPage import \nfrom SignUp import \nimport pymysql\n\n\n\nclass Login(object):\n\n def __init__(self, master=None):\n\n self.db = pymysql.connect(\"localhost\", \"chenhangjun\", \"1030416518\", \"InfoDB\", charset='utf8')\n self.cursor = self.db.cursor()\n\n self.root = master # 定义内部变量root\n self.root.geometry('%dx%d' % (300, 180)) # 设置窗口大小\n self.username = StringVar()\n self.password = StringVar()\n self.createPage()\n\n\n def createPage(self):\n\n self.page = Frame(self.root) # 创建Frame\n self.page.pack()\n Label(self.page).grid(row=0, stick=W)\n Label(self.page, text='账号: ').grid(row=1, stick=W, pady=10)\n Entry(self.page, textvariable=self.username).grid(row=1, column=1, stick=E)\n Label(self.page, text='密码: ').grid(row=2, stick=W, pady=10)\n Entry(self.page, textvariable=self.password, show='').grid(row=2, column=1, stick=E)\n Button(self.page, text='登录', command=self.loginCheck).grid(row=3, stick=W, pady=10)\n Button(self.page, text='注册', command=self.signUp).grid(row=3, column=1, stick=E)\n\n\n def loginCheck(self):\n\n name = self.username.get()\n pwd1 = self.password.get()\n\n if name == '':\n showinfo(title='错误', message='请输入账号！')\n elif pwd1 == '':\n showinfo(title='错误', message='请输入密码！')\n else:\n sql = \"SELECT PASSWORD FROM USER WHERE USER_NAME = '%s'\" % (name)\n\n try:\n # 执行SQL语句\n self.cursor.execute(sql)\n # 获取所有记录列表\n pwd2 = self.cursor.fetchall() # pwd2 为 tuple， ((\"pwd\", ), )\n\n if pwd2 == ():\n showinfo(title='错误', message='账号不存在！')\n elif pwd1 == pwd2[0][0]:\n self.db.close()\n MainPage(self.root)\n self.root.destroy()\n\n else:\n showinfo(title='错误', message='密码错误！')\n\n except:\n print(\"except\")\n self.db.close()\n\n\n def signUp(self):\n\n # self.root.withdraw()\n SignUp(self.root)\n # print(\"signup\")\n # self.root.destroy()\n\n" }, { "alpha_fraction": 0.5800792574882507, "alphanum_fraction": 0.5945104956626892, "avg_line_length": 27.707317352294922, "blob_id": "180c72ad8371ae0f89394981d937fe8af002c0c2", "content_id": "d5d96bfa63d2d32cf43edbe2ffd5297352436635", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4016, "license_type": "no_license", "max_line_length": 112, "num_lines": 123, "path": "/NaiveBayes.py", "repo_name": "chenhangjun/Spam_SMS_Classify", "src_encoding": "UTF-8", "text": "import math\nimport json\n\n# 参考：https://www.cnblogs.com/liweiwei1419/p/9870956.html\n\nclass NaiveBayes:\n\n def __init__(self):\n\n self.ham_count = 0 # 非垃圾短信数量\n self.spam_count = 0 # 垃圾短信数量\n\n self.ham_words_count = 0 # 非垃圾短信总次数\n self.spam_words_count = 0 # 垃圾短信总词数\n\n self.ham_words = list() # 非垃圾短信词语列表\n self.spam_words = list() # 垃圾短信词语列表\n\n self.words_set = set() # 两类短信所有词语的集合，不重复\n self.words_set_size = 0\n\n self.ham_map = dict() # 非垃圾短信词频统计\n self.spam_map = dict() # 垃圾短信词频统计\n\n # 先验概率 P(c)\n self.ham_probability = 0\n self.spam_probability = 0\n self.para = 0\n\n def fit(self, X_train, Y_train, para):\n self.build_words_set(X_train, Y_train)\n self.word_count()\n self.para = para\n\n\n # 建立单词集合\n def build_words_set(self, X_train, Y_train):\n\n for words, y in zip(X_train, Y_train):\n if y == 0:\n # 非垃圾短信\n self.ham_count += 1\n self.ham_words_count += len(words)\n for word in words:\n self.ham_words.append(word)\n self.words_set.add(word)\n if y == 1:\n # 垃圾短信\n self.spam_count += 1\n self.spam_words_count += len(words)\n for word in words:\n self.spam_words.append(word)\n self.words_set.add(word)\n\n self.words_set_size = len(self.words_set)\n\n\n # 统计词频并计算先验概率\n def word_count(self):\n\n # 统计各类中各词的频次\n for word in self.ham_words:\n # 默认初值为0\n self.ham_map[word] = self.ham_map.setdefault(word, 0) + 1\n\n for word in self.spam_words:\n self.spam_map[word] = self.spam_map.setdefault(word, 0) + 1\n\n # 【下面两行计算先验概率】\n # 非垃圾短信的概率\n self.ham_probability = self.ham_count / (self.ham_count + self.spam_count)\n # 垃圾短信的概率\n self.spam_probability = self.spam_count / (self.ham_count + self.spam_count)\n\n\n def predict(self, sentence_words):\n\n # 基于词袋模型的朴素贝叶斯算法; 多项式模型的平滑/拉普拉斯平滑\n # P(x_i\|c) = P(“某个词”\|c) = (c类短信中出现“某个词”的次数的总和+1) /\n # c类短信中所有词出现次数（计算重复次数）的总和 + 总不重复的词语数量\n\n ham_pro = 0.0\n spam_pro = 0.0\n\n for word in sentence_words:\n # if self.ham_map.get(word, 0) != 0:\n # ham_pro += math.log(self.ham_map.get(word, 0) / self.ham_words_count)\n # else:\n # ham_pro += math.log((self.ham_map.get(word, 0) + 1) / (self.ham_words_count + self.words_set_size))\n # if self.spam_map.get(word, 0) != 0:\n # spam_pro += math.log(self.spam_map.get(word, 0) / self.spam_words_count)\n # else:\n # spam_pro += math.log((self.spam_map.get(word, 0) + 1) / (self.spam_words_count + self.words_set_size))\n\n ham_pro += math.log((self.ham_map.get(word, 0) + 1) / (self.ham_words_count + self.words_set_size))\n spam_pro += math.log((self.spam_map.get(word, 0) + 1) / (self.spam_words_count + self.words_set_size))\n\n ham_pro += math.log(self.ham_probability)\n spam_pro += math.log(self.spam_probability)\n\n # 1为spam, 0为ham，与标签一致\n # return int(spam_pro >= ham_pro)\n tot = spam_pro + ham_pro\n threshold = tot self.para\n if spam_pro >= threshold:\n return 1\n else :\n return 0\n\n def save(self):\n dictObj = {'ham':self.ham_map, 'spam':self.spam_map}\n\n jsObj = json.dumps(dictObj)\n\n fileObject = open('modeldict.json', 'w')\n fileObject.write(jsObj)\n fileObject.close()\n\n # print(\"ham_words_count = %d\" %self.ham_words_count)\n # print(\"spam_words_count = %d\" % self.spam_words_count)\n # print(\"ham_count = %d\" %self.ham_count)\n # print(\"spam_words_count = %d\" %self.spam_count)\n # print(\"words_set_size = %d\" %self.words_set_size)\n\n\n\n" }, { "alpha_fraction": 0.7030651569366455, "alphanum_fraction": 0.7260536551475525, "avg_line_length": 20.79166603088379, "blob_id": "7e2f5c8012719af3706cbb095d44c1ba216fdfb7", "content_id": "bd54c57010a5b608fa5474e30dbb92933916c566", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1086, "license_type": "no_license", "max_line_length": 188, "num_lines": 24, "path": "/README.md", "repo_name": "chenhangjun/Spam_SMS_Classify", "src_encoding": "UTF-8", "text": "# Spam_SMS_Classify\n一个中文文本分类项目 (NLP)\n\n\n\n#### 数据集\n\n------\n\n来源：<https://github.com/hrwhisper/SpamMessage/tree/master/data/> 带标签数据集.txt\n\n\t注：不确定这边来源的数据集是否是原创\n\n说明：本项目选取了该数据集中的五万条数据作为训练/测试集dataset.csv，用python略作处理并转存了格式，未\t\t 选取其中的异常样本（即含有希腊字母、日文等非常规字符的样本或由纯数字字母以及标点符号组成的样本）。\n\n\t其中spam = 5041, ham = 44959，比例大约为1 : 9。\n\n\n\n#### 停用词表\n\n------\n\n\t本项目所使用的停用词表仅包含7个单字词，stop_words = ['有', '和', '是', '在', '我', '了', '的']。在对样本的文本进行分词后，观察分得词语的词频，所得的词语和相应的词频输出到了dict.csv文件，在其中提取出最高频的几个，并且对体现文本特征基本没有效果的单字词作为停用词表。在应用了停用词表后，对短信分类的准确率有了一定程度的提升。" } ]	8
baizz-maker/HOMEWORK	https://github.com/baizz-maker/HOMEWORK	bb2f80454b0d427c24d51e26ae60537dee2a1de7	7f3bd137186e5fed85bf9d02d786268a959dffea	1f427e245bd9242cbb22ed2e4bf70d4c8cf193b6	refs/heads/master	2020-07-29T13:52:48.134145	2019-09-28T02:44:14	2019-09-28T02:44:14	209,829,922	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.38376250863075256, "alphanum_fraction": 0.39985692501068115, "avg_line_length": 21.933883666992188, "blob_id": "87d09343ed1e46b9ed5e4d4efd5695b583b25ee6", "content_id": "231d81768436ffe858ef7e9a337024802dc12178", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3322, "license_type": "no_license", "max_line_length": 59, "num_lines": 121, "path": "/spoonplus2.py", "repo_name": "baizz-maker/HOMEWORK", "src_encoding": "UTF-8", "text": "def menu():\n print(\"键入a返回功能菜单\\n\"\"键入b退出程序\")\n\n\ndef tittle():\n print(\"输入1进行加解密\\n\" \"输入2进行键值转换\\n\" \"输入3进行QRcode指令\")\n\n\ndef wrong():\n print(\"非法操作\")\n\n\nimport base64\ntittle()\ni=input(\"请键入选择：\")\nwhile i==\"1\":\n print(\" 键入1进行加密\\n\" \"键入2进行解密\\n\")\n ii=input(\"请键入选择：\")\n if (ii==\"1\"):\n result=input(\"请键入待加密字符串：\")\n try:\n print(base64.b64encode(result.encode('utf-8')))\n menu()\n i=input(\"请键入选择：\")\n if i==\"a\":\n tittle()\n i=input(\"请输入选择：\")\n else:\n print(\"感谢使用\")\n break\n except:\n wrong()\n menu()\n i=input(\"请键入选择：\")\n if i == \"a\":\n tittle()\n i = input(\"请输入选择：\")\n else:\n print(\"感谢使用\")\n break\n elif(ii==\"2\"):\n result=input(\"请键入待解密字符串：\")\n try:\n print(base64.b64encode(result.decode(\"utf-8\")))\n menu()\n i=input(\"请键入选择：\")\n except:\n wrong()\n menu()\n i=input(\"请键入选择：\")\n if i == \"a\":\n tittle()\n i = input(\"请输入选择：\")\n else:\n print(\"感谢使用\")\n break\nwhile i==\"2\":\n print('请分别输入几组字符串\\n'\"格式：键+空格+键+。。。\\n\"\"值+空格+值+。。。\\n\")\n p=input(\"请键入键：\")\n q=input(\"请输入值：\")\n try:\n list1 = p.split(\" \")\n list2 = q.split(\" \")\n dict1 = dict(zip(list1, list2))\n dict2 = {}\n for key, value in dict1.items():\n if value not in dict2:\n dict2[value] = [key]\n else:\n dict2[value].append(key)\n print(dict2)\n import json\n result1=json.dumps(dict1)\n result2=dict2\n print(\"json字符串为:\\n\",result1)\n print(\"新字典为:\\n\",result2)\n print(\"其类型分别为：\\n\",type(result1),type(result2))\n menu()\n i=input(\"请键入选择：\")\n if i == \"a\":\n tittle()\n i = input(\"请输入选择：\")\n else:\n print(\"感谢使用\")\n break\n except:\n wrong()\n menu()\n i=input(\"请键入选择：\")\n if i==\"a\":\n tittle()\n i= input(\"请输入选择；\")\n else:\n print(\"感谢使用\")\n break\nwhile i==\"3\":\n import qrcode\n h=input(\"请输入文件名：\")\n try:\n f1=open(h,\"r\")\n f2=f1.read()\n img=qrcode.make(data=f2)\n img.save(\"二维码.jpg\")\n menu()\n i=input(\"请键入选择：\")\n if i == \"a\":\n tittle()\n i = input(\"请输入选择；\")\n else:\n print(\"感谢使用\")\n break\n except:\n wrong()\n menu()\n i = input(\"请键入选择：\")\n if i == \"a\":\n tittle()\n i = input(\"请输入选择；\")\n else:\n print(\"感谢使用\")\n break\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n" } ]	1
elsiormoreira/scraping_quotes_project	https://github.com/elsiormoreira/scraping_quotes_project	3afb1d6da840c1dff0a79ee45a61039690cc175f	fcc2b1a640d96446577625a35520284a556e23f6	cb81ddbe0f7f22e5058b31e595f9d3c8b7490156	refs/heads/master	2020-05-25T02:47:02.276333	2019-05-23T17:37:31	2019-05-23T17:37:31	187,586,757	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.5547282099723816, "alphanum_fraction": 0.5554728507995605, "avg_line_length": 36.33333206176758, "blob_id": "c6e33702c6f57c82298685a2539fbdd5c73b7beb", "content_id": "24319feb8bce6b61c10aef5163ad766aaf8a196c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1343, "license_type": "no_license", "max_line_length": 77, "num_lines": 36, "path": "/scraping_quotes/spiders/quotes.py", "repo_name": "elsiormoreira/scraping_quotes_project", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\nimport scrapy\n\n\nclass QuotesSpider(scrapy.Spider):\n # gigve a spider name\n name = 'quotes'\n # list of url where spider will begin to crawl\n start_urls = ['http://quotes.toscrape.com/']\n\n def parse(self, response):\n # print what the spider is doing\n print('Wait a moment, please. I am access the site: ' + response.url)\n \n # loop on each quote on page and extract info using css selector\n for quote in response.css('div.quote'): \n \t# create a dictionary to store the scraped info\n item = {\n # extract author info\n 'author': quote.css('small.author::text').get(), \n # extract quote text\n 'text': quote.css('span.text::text').get(),\n # extract tags\n 'tag': quote.css('a.tag::text').getall(),\n }\n # give the scraped info to scrapy\n yield item\n\n # extract new page url\n next_page_url = response.css('li.next > a::attr(href)').get()\n # check if there is a new page\n if next_page_url:\n # create an absolute url\n next_page_url = response.urljoin(next_page_url)\n # create a request for the new page\n yield scrapy.Request(url = next_page_url, callback = self.parse)" } ]	1
adityalahariya/neural_network	https://github.com/adityalahariya/neural_network	f3c119fdeef8dcad67b95a32872847d2b14978e5	593d736c558be305bf268ec28e6a8b16dd2eb0cf	89a7c1d3e20931856d690c62b3e7392fa4b57dc0	refs/heads/main	2023-08-25T04:40:37.053544	2021-10-20T09:23:40	2021-10-20T09:23:40	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.7941176295280457, "alphanum_fraction": 0.7941176295280457, "avg_line_length": 16, "blob_id": "0820c567909e3e5d30512a8161acb74c8c50c00c", "content_id": "150d6b3d9729bfe13e1f30017444b0b1a156c28b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 34, "license_type": "no_license", "max_line_length": 16, "num_lines": 2, "path": "/README.md", "repo_name": "adityalahariya/neural_network", "src_encoding": "UTF-8", "text": "# neural_network\na neural neywork\n" }, { "alpha_fraction": 0.6785046458244324, "alphanum_fraction": 0.6906542181968689, "avg_line_length": 25.121952056884766, "blob_id": "391a554b4170e52a8c3bae659fb3da312e3de18e", "content_id": "d76806b06c6bc50dd16fe05ce02ecd4b49cf7fcf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1070, "license_type": "no_license", "max_line_length": 109, "num_lines": 41, "path": "/activation_functions.py", "repo_name": "adityalahariya/neural_network", "src_encoding": "UTF-8", "text": "import math\n\n\n# Classical sigmoid activation function: https://en.wikipedia.org/wiki/Sigmoid_function\ndef sigmoid(x):\n return 1.0 / (1 + math.exp(-x))\n\n\n# Rectified linear unit: https://en.wikipedia.org/wiki/Rectifier_(neural_networks)\ndef relu(x):\n return max(0, x)\n\n\n# Leaky rectified linear unit: https://en.wikipedia.org/wiki/Rectifier_(neural_networks)#Leaky_ReLU\n# Can be used to avoid the problem of dying neurons\ndef leaky_relu(x):\n return p_relu(x, 0.01)\n\n\n# Parametric rectified linear unit: https://en.wikipedia.org/wiki/Rectifier_(neural_networks)#Parametric_ReLU\ndef p_relu(x, p):\n if x >= 0:\n return x\n else:\n return p * x\n\n\n# Softplus activation function: https://en.wikipedia.org/wiki/Activation_function\ndef softplus(x):\n return math.log(1 + math.exp(x))\n\n#Binary step function : https://en.wikipedia.org/wiki/Step_function\ndef Binary_step(x):\n if x<0:\n return 0\n else:\n return 1\n\n#Swish activation function :https://en.wikipedia.org/wiki/Swish_function\ndef swish(x,b):\n return x/(1+math.exp(-b*x))" } ]	2
TheoLvs/carbonify	https://github.com/TheoLvs/carbonify	bb3f4048be943ab89ae2810e6a86c89725333bb5	a657d3be94607b6899e856391855f578f8168cd7	52996f4a84a626d225c62cf887779911a2f2ce9f	refs/heads/main	2023-06-18T10:19:07.391980	2021-07-20T15:44:37	2021-07-20T15:44:37	386,304,555	2	0	null	null	null	null	null	[ { "alpha_fraction": 0.5654774904251099, "alphanum_fraction": 0.5782952308654785, "avg_line_length": 37.3278694152832, "blob_id": "e95aa20f5996bf63ce2144cf63e62f794ba996ea", "content_id": "5b6bbcd49552020b062eaa83db17fc9ffc72868c", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 9396, "license_type": "permissive", "max_line_length": 175, "num_lines": 244, "path": "/carbonify/basecarbone.py", "repo_name": "TheoLvs/carbonify", "src_encoding": "UTF-8", "text": "import pandas as pd\nimport plotly.express as px\nfrom nltk.tokenize import wordpunct_tokenize\n\nclass BaseCarbone:\n def __init__(self,path,lang = \"français\"):\n\n self.lang = lang\n self.data,self._category_cols = self._prepare_data(path,lang)\n\n @property\n def categories(self):\n return self.data[self._category_cols]\n\n def _prepare_data(self,path,lang):\n\n def clean_text_split(text):\n tokens = wordpunct_tokenize(text)\n tokens = [x for x in tokens if len(x) > 2]\n return tokens\n\n # Reading and filtering columns in other languages\n data = pd.read_csv(path,sep = \";\",encoding = \"latin1\",low_memory = False)\n data = data[[x for x in data.columns if \"espagnol\" not in x and \"anglais\" not in x]]\n\n # Rename columns to more user friendly col names \n data = data.rename(columns = {\n f\"Tags {lang}\":\"tags\",\n \"Code de la catégorie\":\"category\",\n f\"Nom base {lang}\":\"name_base\",\n f\"Nom attribut {lang}\":\"name_attribute\",\n f\"Nom frontière {lang}\":\"name_attribute2\",\n \"Type de l'élément\":\"element_type\",\n \"Statut de l'élément\":\"element_status\",\n \"Structure\":\"structure\",\n \"Identifiant de l'élément\":\"element_id\",\n \"Type Ligne\":\"row_type\",\n f\"Unité {lang}\":\"unit\",\n \"Localisation géographique\":\"geography\",\n f\"Sous-localisation géographique {lang}\":\"subgeography\",\n \"Total poste non décomposé\":\"emissions\",\n })\n\n # Filter archived rows\n data = data.loc[data[\"element_status\"].str.lower().str.contains(\"valide\")]\n data = data.reset_index(drop = True)\n\n # Clean text fields, concatenate and propertly tokenize for indexation\n data[\"name_base\"] = data[\"name_base\"].str.replace('\"',\"\").str.strip()\n data[\"tags\"] = data[\"tags\"].str.replace('\"',\"\").str.strip()\n data[\"text\"] = data[[\"name_base\",\"name_attribute\",\"tags\",\"category\"]].apply(lambda x : \" \".join(x.dropna()),axis = 1).str.lower()\n data[\"text_split\"] = data[\"text\"].map(clean_text_split)\n data[\"name\"] = data[[\"name_base\",\"name_attribute\"]].apply(lambda x : \" \".join(x.dropna()),axis = 1)\n data[\"full_name\"] = data[[\"name_base\",\"name_attribute\",\"name_attribute2\"]].apply(lambda x : \" \".join(x.dropna()),axis = 1)\n data[\"emissions_clean\"] = data[[\"unit\",\"emissions\"]].apply(lambda x : f\"{x['emissions']} ({x['unit']})\",axis = 1)\n\n # Convert emissions to numeric\n def convert_to_num(x):\n try:\n return float(x.replace(\",\",\".\"))\n except:\n return x\n\n data[\"emissions\"] = data[\"emissions\"].map(convert_to_num)\n\n # Add categories to the columns\n categories = (data[\"category\"]\n .str.split(\" > \")\n .apply(pd.Series)\n )\n category_cols = [f\"category{i+1}\" for i in range(len(categories.columns))]\n categories.columns = category_cols\n data = pd.concat([data,categories],axis = 1)\n\n return data,category_cols\n\n def show_data(self,data = None,kind = \"treemap\",detailed_path = False,color_by_emissions=True,kwargs):\n\n assert kind in [\"treemap\",\"sunburst\",\"icicle\"]\n\n # Take all data if not provided\n if data is None:\n data = self.data\n\n # Remove category cols with all NaNs\n all_nans = data[self._category_cols].isnull().sum() == len(data)\n all_nans = all_nans[all_nans].index.tolist()\n data = data.drop(columns = all_nans)\n category_cols = [x for x in self._category_cols if x not in all_nans]\n\n # Fill NaN for visualization\n data = data.fillna(\" \")\n\n if detailed_path:\n path = [px.Constant(\"all\")] + category_cols + [\"name_base\",\"name_attribute\",\"name_attribute2\",\"geography\",\"subgeography\"]\n else:\n path = [px.Constant(\"all\")] + category_cols + [\"name_base\"]\n\n params = {\n # \"values\":\"emissions\",\n \"hover_data\":[\"emissions\",\"unit\"],\n \"custom_data\":[\"element_id\",\"emissions\",\"unit\"],\n }\n\n if color_by_emissions:\n params.update({\n \"color\":\"emissions\",\n \"color_continuous_scale\":\"RdBu_r\",\n })\n\n # Treemap visualization (also called Mondrian)\n if kind == \"treemap\":\n fig = px.treemap(data,path = path,maxdepth = 6,params,kwargs)\n \n if color_by_emissions:\n fig.update_traces(\n root_color=\"lightgrey\",\n hovertemplate=\"<b>%{label}</b> - Count: %{value}<br>Emissions: %{color:.5f} %{customdata[2]}<br>Id: %{customdata[0]}\"\n )\n\n return fig\n\n # Sunburst visualization (circular structure chart)\n elif kind == \"sunburst\":\n fig = px.sunburst(data,path = path[1:],maxdepth = 4,params,kwargs)\n return fig\n\n # icicle visualization (rectangular structure chart)\n elif kind == \"icicle\":\n fig = px.icicle(data,path = path[1:],maxdepth = 4,params,kwargs)\n fig.update_traces(root_color=\"lightgrey\")\n return fig \n\n\n def search(self,query,kind = None,without_split = True,color_by_emissions = True,kwargs):\n\n results = self.data.loc[self.data[\"text_split\"].map(lambda x : query in x)].copy()\n\n if without_split:\n results = results.query(\"row_type=='Elément'\")\n \n # If no visualization\n if kind is None:\n return results\n else:\n fig = self.show_data(data = results.copy(),kind = kind,detailed_path = True,color_by_emissions = color_by_emissions,*kwargs)\n fig.update_layout(title=f\"Base Carbone results for query='{query}'\")\n return results,fig\n \n\n def search_word(self,query):\n return self.data.loc[self.data[\"text\"].str.contains(query)]\n\n\n def search_by_id(self,element_id,return_value = False,print_unit = True):\n results = self.data.query(f\"element_id=={element_id} and row_type=='Elément'\")\n assert len(results) == 1\n results = results.iloc[0]\n\n name = results[\"full_name\"]\n value = results[\"emissions\"]\n unit = results[\"unit\"]\n\n if return_value:\n if print_unit: print(results[\"unit\"])\n return results[\"emissions\"]\n else:\n return results[[\"full_name\",\"emissions\",\"unit\"]].to_dict()\n\n def compare(self,element_id,with_id,raise_unit_error = True,metadata = True):\n\n element = self.search_by_id(element_id,return_value = False)\n with_element = self.search_by_id(with_id,return_value = False)\n\n if element[\"unit\"] != with_element[\"unit\"]:\n message = f\"Warning - First element unit is {element['unit']} and second one is {with_element['unit']}\"\n if raise_unit_error:\n raise Exception(message)\n else:\n print(message)\n\n comparison = element[\"emissions\"] / with_element[\"emissions\"]\n\n if metadata:\n return comparison,element,with_element\n else:\n return comparison\n\n\n\n def evaluate_transportation_by_plane(self,distance,condensation_trails = True,round_trip = False,cargo = False):\n \"\"\"\n HYPOTHESIS \n \n > Long and short courriers\n - Les courts courriers ont un rayon d’action d’environ 500 kilomètres (ex : avions à hélices) : il s'agit de liaisons entre villes françaises (métropole) par exemple.\n - Les moyens courriers ont un rayon d’action de 5000 kilomètres (Pour Air France, ils correspondent aux vols desservant l’Europe et l’Afrique du Nord). Exemple : A320.\n - Les longs courriers sont des avions de ligne pouvant voler sur 15 000 kilomètres de distance. Il s'agit de vols transocéaniques par exemple. Exemple : A340.\n Source https://www.bilans-ges.ademe.fr/forum/viewtopic.php?t=4192\n\n > Trails \n https://www.carbone4.com/trainees-de-condensation-impact-climat\n\n > Cargo\n We assume big cargos above 100T\n We also suppose cargos are full with 100T load\n \"\"\"\n\n # Ids in the Base Carbone for plane transportation\n if not cargo:\n SHORT_IDS = (28130,28129)\n MID_IDS = (28132,28131)\n LONG_IDS = (28134,28133)\n else:\n SHORT_IDS = (28065,28066)\n MID_IDS = (28063,28064) \n LONG_IDS = (28055,28056)\n\n # Condensation trails filter\n condensation_idx = 0 if condensation_trails else 1\n\n # Find the right id for short, medium and long trips\n if distance < 500:\n element_id = SHORT_IDS[condensation_idx]\n elif distance < 5000:\n element_id = MID_IDS[condensation_idx]\n else:\n element_id = LONG_IDS[condensation_idx]\n\n # Prepare emissions ratio\n emissions_ratio = self.search_by_id(element_id)[\"emissions\"]\n\n # Compute final emissions\n emissions = emissions_ratio distance\n\n # Add round trip bonus\n if round_trip:\n emissions = 2\n \n return emissions\n\n\n def evaluate_transportation_by_train(self,distance,tgv = True):\n pass\n\n \n" }, { "alpha_fraction": 0.5558823347091675, "alphanum_fraction": 0.6382352709770203, "avg_line_length": 22.44827651977539, "blob_id": "3fe9c605a447444c6bccf77c46efd54c328441e0", "content_id": "ee88f42e716b3152d3c2e20561be404ad9c55d6c", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "TOML", "length_bytes": 680, "license_type": "permissive", "max_line_length": 80, "num_lines": 29, "path": "/pyproject.toml", "repo_name": "TheoLvs/carbonify", "src_encoding": "UTF-8", "text": "[tool.poetry]\nname = \"carbonify\"\nversion = \"0.1.1\"\ndescription = \"Open source library for carbon accounting and Lifecycle analysis\"\nauthors = [\"Theo Alves Da Costa <[email protected]>\"]\nlicense = \"MIT\"\nreadme = \"README.md\"\n\n[tool.poetry.dependencies]\npython = \"^3.8\"\npandas = \"^1.3.0\"\nnumpy = \"^1.21.0\"\nmatplotlib = \"^3.4.2\"\nplotly = \"^5.1.0\"\nnltk = \"^3.6.2\"\ntqdm = \"^4.61.2\"\nstreamlit = \"^0.84.1\"\n\n[tool.poetry.dev-dependencies]\npywin32 = { version = \"^227\", markers = \"sys_platform == 'win32'\" }\njupyter = \"^1.0.0\"\nmkdocs = \"^1.2.1\"\nmkdocs-material = \"^7.1.10\"\nmknotebooks = \"^0.7.0\"\nmkdocstrings = \"^0.15.2\"\n\n[build-system]\nrequires = [\"poetry-core>=1.0.0\"]\nbuild-backend = \"poetry.core.masonry.api\"\n" }, { "alpha_fraction": 0.7680525183677673, "alphanum_fraction": 0.7680525183677673, "avg_line_length": 30.76744270324707, "blob_id": "d055b8720c237708d69316368b72bfa7746c9458", "content_id": "eb198e504f6535d67c007724424f1e59e3e970ac", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1371, "license_type": "permissive", "max_line_length": 151, "num_lines": 43, "path": "/docs/index.md", "repo_name": "TheoLvs/carbonify", "src_encoding": "UTF-8", "text": "# Carbonify\n## Open source library for carbon accounting and Lifecycle analysis\n![](assets/banner_carbonify.png)\n\nManipulating carbon data is complex and requires both climate expertise and the knowledge of the right data source to make valid hypothesis.\n\nThe Carbonify* python library and tools are aimed to democratize data manipulation of carbon data to facilitate accounting and lifecycle analysis. \n\n\n!!! warning \"Experimental\"\n This library is extremely experimental, under active development and alpha-release\n Don't expect the documentation to be up-to-date or all features to be tested\n Please contact [us](mailto:[email protected]) if you have any question\n\n\n## Features\n### Current features\n- Easy access to Base Carbone by ADEME with data indexing\n- Data visualization and search functionalities to easily find carbon ratios\n\n\n## Installation\n### Install from PyPi\nThe library is available on [PyPi](https://pypi.org/project/carbonify/) via \n```\npip install carbonify\n```\n\n### For developers\n- You can clone the github repo / fork and develop locally\n- Poetry is used for environment management, dependencies and publishing, after clone you can run \n\n```\n# To setup the environment\npoetry install\n\n# To run Jupyter notebook or a python console\npoetry run jupyter notebook\npoetry run python\n```\n\n## Contributors\n- [Ekimetrics](https://ekimetrics.com/)\n\n\n\n\n\n" }, { "alpha_fraction": 0.8888888955116272, "alphanum_fraction": 0.8888888955116272, "avg_line_length": 36, "blob_id": "0e9099d3b77675aaf9c166086db998d19b45d1d9", "content_id": "6d299aac6c20cf339f085e60b8d27b751f613d7e", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 36, "license_type": "permissive", "max_line_length": 36, "num_lines": 1, "path": "/carbonify/__init__.py", "repo_name": "TheoLvs/carbonify", "src_encoding": "UTF-8", "text": "from .basecarbone import BaseCarbone" }, { "alpha_fraction": 0.6601941585540771, "alphanum_fraction": 0.7961165308952332, "avg_line_length": 19.799999237060547, "blob_id": "2eacee8ad9236965e427b7133e325583c08d16cc", "content_id": "09cb813fd396744ae9614abdeebeb9142c4a172f", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "TOML", "length_bytes": 103, "license_type": "permissive", "max_line_length": 34, "num_lines": 5, "path": "/.streamlit/config.toml", "repo_name": "TheoLvs/carbonify", "src_encoding": "UTF-8", "text": "[theme]\nbase=\"dark\"\nprimaryColor=\"#00add0\"\nbackgroundColor=\"#16293c\"\nsecondaryBackgroundColor=\"#233850\"" }, { "alpha_fraction": 0.732726514339447, "alphanum_fraction": 0.7347952127456665, "avg_line_length": 32.109588623046875, "blob_id": "3b6ccef52a537ba661588f703f9a32f6922a5b02", "content_id": "edfe25ec8e3fe7f7abe53b0ad15e631e1f440f01", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 2417, "license_type": "permissive", "max_line_length": 176, "num_lines": 73, "path": "/README.md", "repo_name": "TheoLvs/carbonify", "src_encoding": "UTF-8", "text": "# Carbonify\n## Open source library for carbon accounting and Lifecycle analysis\n![](docs/assets/banner_carbonify.png)\n\nManipulating carbon data is complex and requires both climate expertise and the knowledge of the right data source to make valid hypothesis.\n\nThe Carbonify python library and tools are aimed to democratize data manipulation of carbon data to facilitate accounting and lifecycle analysis. \n\n\n!!! warning \"Experimental\"\n This library is extremely experimental, under active development and alpha-release\n Don't expect the documentation to be up-to-date or all features to be tested\n Please contact [us](mailto:[email protected]) if you have any question\n\n\n## Features\n### Current features\n- Easy access to Base Carbone by ADEME with data indexing\n- Data visualization and search functionalities to easily find carbon ratios\n\n\n## Installation\n### Install from PyPi\nThe library is available on [PyPi](https://pypi.org/project/carbonify/) via \n```\npip install carbonify\n```\n\n### For developers\n- You can clone the github repo / fork and develop locally\n- Poetry is used for environment management, dependencies and publishing, after clone you can run \n\n```\n# To setup the environment\npoetry install\n\n# To run Jupyter notebook or a python console\npoetry run jupyter notebook\npoetry run python\n```\n\n## Contributors\n- [Ekimetrics](https://ekimetrics.com/)\n\n\n\n## Project Structure\n```\n- carbonify/ # Your python library\n- data/\n - raw/\n - processed/\n- docs/\n- tests/ # Where goes each unitary test in your folder\n- scripts/ # Where each automation script will go\n- requirements.txt # Where you should put the libraries version used in your library\n```\n\n\n## References\n\n### Base Carbone\n- [Base Carbone](https://data.ademe.fr/datasets/base-carbone(r)) by ADEME - [Documentation](https://www.bilans-ges.ademe.fr/fr/accueil/contenu/index/page/presentation/siGras/0)\n- [Agribalyse](https://data.ademe.fr/datasets/agribalyse-synthese) by ADEME - [Documentation](https://doc.agribalyse.fr/documentation/conditions-dusage-des-donnees)\n- https://www.hellocarbo.com/blog/calculer/base-carbone/\n\n### LCA \n- [CarbonFact.co](https://carbonfact.co/)\n- https://www.carbonify.app/products/apple-iphone-12-us-64gb\n\n### EDA components\n- https://blog.streamlit.io/the-streamlit-agraph-component/\n- https://github.com/ChrisChross/streamlit-agraph\n" }, { "alpha_fraction": 0.5797507762908936, "alphanum_fraction": 0.5894080996513367, "avg_line_length": 37.68674850463867, "blob_id": "b29ebb2c4b6324cfe8b3d4a36f13bce97f01281c", "content_id": "ad02344367aea8ebbc943413757a7b0f6cc429a2", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3239, "license_type": "permissive", "max_line_length": 170, "num_lines": 83, "path": "/index.py", "repo_name": "TheoLvs/carbonify", "src_encoding": "UTF-8", "text": "import streamlit as st\n\n# Page Configuration\nst.set_page_config(page_title=\"Carbonify Tool\",page_icon=\"🌎\",layout=\"wide\",initial_sidebar_state=\"expanded\")\n\n\nfrom carbonify import BaseCarbone\n\n#------------------------------------------------------------------------------------------\n# PARAMETERS\n#------------------------------------------------------------------------------------------\n\n\n# Retrieving data from base carbone and caching the result for streamlit reuse\[email protected](allow_output_mutation=True)\ndef get_basecarbone():\n PATH = \"data/raw/base_carbone.csv\"\n baca = BaseCarbone(PATH)\n return baca\nbaca = get_basecarbone()\n\n\n#------------------------------------------------------------------------------------------\n# SIDEBAR\n#------------------------------------------------------------------------------------------\n\nst.sidebar.image(\"docs/logo-blanc-jaune.svg\")\nst.sidebar.write(\"## CARBONIFY 🌎\")\n\n#------------------------------------------------------------------------------------------\n# MAIN PAGE\n#------------------------------------------------------------------------------------------\n\nst.write(\"# Carbonify - Base Carbone\")\nst.write(\"## Rechercher une donnée carbone\")\nst.write(\"Recherchez une information particulière pour observer la visualisation et facilement trouver votre donnée carbone.\\nEssayez avec train 🚅 ou avion ✈\")\nst.write(\"\")\n\n\n\nquery = st.text_input(\"Recherche carbone\")\nif query != \"\":\n\n results,fig = baca.search(query,kind = \"treemap\",color_by_emissions = True,height = 600)\n st.plotly_chart(fig,use_container_width = True)\n st.write(\"Retrouvez ces mêmes informations dans un tableau\")\n st.write(results)\n\n\n\nst.write(\"## Comparateur d'émissions\")\n\ncomp1 = st.text_input(\"Entrez un ID de la base carbone\")\ncomp2 = st.text_input(\"Entrez un autre ID de la base carbone à comparer avec le premier\")\n\nif comp1 != \"\" and comp2 != \"\":\n comp1 = int(comp1)\n comp2 = int(comp2)\n\n comparison,element1,element2 = baca.compare(comp1,comp2,metadata = True,raise_unit_error = False)\n if comparison < 1:\n comparison = 1/comparison\n element1,element2 = element2,element1\n\n st.success(f\"{element1['full_name']} ({element1['unit']}) émet {comparison:.3f} fois plus que {element2['full_name']} ({element2['unit']}) \")\n\nst.write(\"## Calculateur d'émissions\")\nratio_id = st.text_input(\"Entrez un ID de la base carbone à considérer pour le ratio_id\")\nfactor = st.number_input(\"Entrez la valeur à multiplier au ratio_id pour obtenir les émissions (par exemple la distance pour des émissions / km\")\n\nif ratio_id != \"\":\n ratio_id = int(ratio_id)\n emissions_ratio = baca.search_by_id(ratio_id)\n emissions = emissions_ratio[\"emissions\"] * factor\n\n st.success(f\"{emissions:.3f} kCO2eq émis en utilisant le ratio {emissions_ratio['full_name']} (en {emissions_ratio['unit']})\")\n\n\nst.write(\"## Exploration de la base carbone\")\nst.write(\"La [Base Carbone](https://data.ademe.fr/datasets/base-carbone(r)) de l'ADEME contient de nombreuses données carbone catégorisées dans une hiérarchie complexe:\")\n\nfig = baca.show_data(kind = \"treemap\",color_by_emissions = False,height = 800)\nst.plotly_chart(fig,use_container_width = True)" } ]	7
ref-humbold/AlgoLib	https://github.com/ref-humbold/AlgoLib	00529d14f974b7c31a5bc5784b4a271f5a5fcb85	a50f37aaa4a1b0bc337b7b9a09d1b57dbe85b98f	548f17a1b76faa27ce743c36220d8aad4ff8c34c	refs/heads/master	2018-10-28T16:47:55.466062	2018-10-07T15:49:37	2018-10-07T15:49:37	57,390,376	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.5371337532997131, "alphanum_fraction": 0.5757437944412231, "avg_line_length": 33.66929244995117, "blob_id": "074abefd82d9ffb2c3d6b07be4654567f7b435fe", "content_id": "cd8a8a3bfbfb6133bd37e87c2d5c1ea5aa61bcf1", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4404, "license_type": "permissive", "max_line_length": 94, "num_lines": 127, "path": "/AlgoLib_Python/tests/test_undirected_graph.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA GRAFÓW NIESKIEROWANYCH\"\"\"\nimport unittest\nfrom algolib.graphs import DirectedSimpleGraph, UndirectedSimpleGraph\n\n\nclass UndirectedSimpleGraphTest(unittest.TestCase):\n def __init__(self, args, kwargs):\n super().__init__(args, *kwargs)\n self.__test_object = None\n\n def setUp(self):\n self.__test_object = UndirectedSimpleGraph(10)\n\n def tearDown(self):\n self.__test_object = None\n\n def test_vertices_number(self):\n result = self.__test_object.vertices_number\n\n self.assertEqual(10, result)\n\n def test_get_vertices(self):\n result = self.__test_object.get_vertices()\n\n self.assertListEqual([0, 1, 2, 3, 4, 5, 6, 7, 8, 9], sorted(result))\n\n def test_add_vertex(self):\n result = self.__test_object.add_vertex()\n\n self.assertEqual(10, result)\n self.assertEqual(11, self.__test_object.vertices_number)\n\n def test_edges_number(self):\n self.__test_object.add_edge(7, 7)\n self.__test_object.add_edge(1, 5)\n self.__test_object.add_edge(2, 4)\n self.__test_object.add_edge(8, 0)\n self.__test_object.add_edge(6, 3)\n self.__test_object.add_edge(3, 6)\n self.__test_object.add_edge(9, 3)\n self.__test_object.add_edge(8, 0)\n\n result = self.__test_object.edges_number\n\n self.assertEqual(6, result)\n\n def test_get_edges(self):\n self.__test_object.add_edge(7, 7)\n self.__test_object.add_edge(1, 5)\n self.__test_object.add_edge(2, 4)\n self.__test_object.add_edge(8, 0)\n self.__test_object.add_edge(6, 3)\n self.__test_object.add_edge(3, 6)\n self.__test_object.add_edge(9, 3)\n self.__test_object.add_edge(8, 0)\n\n result = self.__test_object.get_edges()\n\n self.assertListEqual([(0, 8), (1, 5), (2, 4), (3, 6), (3, 9), (7, 7)], sorted(result))\n\n def test_add_edge(self):\n self.__test_object.add_edge(1, 5)\n self.__test_object.add_edge(1, 5)\n self.__test_object.add_edge(5, 1)\n self.__test_object.add_edge(1, 1)\n\n self.assertEqual(2, self.__test_object.edges_number)\n self.assertListEqual([1, 5], sorted(self.__test_object.get_neighbours(1)))\n self.assertListEqual([1], sorted(self.__test_object.get_neighbours(5)))\n\n def test_get_neighbours(self):\n self.__test_object.add_edge(1, 1)\n self.__test_object.add_edge(1, 3)\n self.__test_object.add_edge(1, 4)\n self.__test_object.add_edge(1, 7)\n self.__test_object.add_edge(1, 9)\n self.__test_object.add_edge(2, 1)\n self.__test_object.add_edge(6, 1)\n\n result = self.__test_object.get_neighbours(1)\n\n self.assertListEqual([1, 2, 3, 4, 6, 7, 9], sorted(result))\n\n def test_get_outdegree(self):\n self.__test_object.add_edge(1, 1)\n self.__test_object.add_edge(1, 3)\n self.__test_object.add_edge(1, 4)\n self.__test_object.add_edge(1, 7)\n self.__test_object.add_edge(1, 9)\n self.__test_object.add_edge(2, 1)\n self.__test_object.add_edge(6, 1)\n\n result = self.__test_object.get_outdegree(1)\n\n self.assertEqual(7, result)\n\n def test_get_indegree(self):\n self.__test_object.add_edge(1, 1)\n self.__test_object.add_edge(3, 1)\n self.__test_object.add_edge(4, 1)\n self.__test_object.add_edge(7, 1)\n self.__test_object.add_edge(9, 1)\n self.__test_object.add_edge(1, 2)\n self.__test_object.add_edge(1, 6)\n\n result = self.__test_object.get_indegree(1)\n\n self.assertEqual(7, result)\n\n def test_as_directed(self):\n self.__test_object.add_edge(7, 7)\n self.__test_object.add_edge(1, 5)\n self.__test_object.add_edge(2, 4)\n self.__test_object.add_edge(8, 0)\n self.__test_object.add_edge(6, 3)\n self.__test_object.add_edge(3, 6)\n self.__test_object.add_edge(9, 3)\n self.__test_object.add_edge(8, 0)\n\n result = self.__test_object.as_directed()\n\n self.assertIsInstance(result, DirectedSimpleGraph)\n self.assertListEqual(sorted(self.__test_object.get_vertices()),\n sorted(result.get_vertices()))\n self.assertListEqual([(0, 8), (1, 5), (2, 4), (3, 6), (3, 9), (4, 2), (5, 1), (6, 3),\n (7, 7), (8, 0), (9, 3)], sorted(result.get_edges()))\n" }, { "alpha_fraction": 0.5734622478485107, "alphanum_fraction": 0.5750738382339478, "avg_line_length": 39.36666488647461, "blob_id": "d9e68c3bce7dc525cc4076036150defd7090e4c0", "content_id": "4ac056918bce48fd5c8f2833d14f8ce846de4ea0", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3765, "license_type": "permissive", "max_line_length": 81, "num_lines": 90, "path": "/AlgoLib_Python/algolib/graphs/cutting.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"WYSZUKIWANIE MOSTÓW I PUNKTÓW ARTYKULACJI W GRAFIE\"\"\"\r\n\r\n\r\ndef find_edge_cut(ugraph):\r\n \"\"\"Wyznaczanie mostów w grafie.\r\n :param ugraph: graf nieskierowany\r\n :returns: lista krawędzi będących mostami\"\"\"\r\n return _GraphCutting(ugraph).edge_cut()\r\n\r\n\r\ndef find_vertex_cut(ugraph):\r\n \"\"\"Wyznaczanie punktów artykulacji w grafie.\r\n :param ugraph: graf nieskierowany\r\n :returns: lista punktów artykulacji\"\"\"\r\n return _GraphCutting(ugraph).vertex_cut()\r\n\r\n\r\nclass _GraphCutting:\r\n def __init__(self, graph):\r\n # Reprezentacja grafu nieskierowanego.\r\n self.__graph = graph\r\n # Ojciec w drzewie DFS.\r\n self.__dfs_parents = [None] graph.vertices_number\r\n # Lista synów w drzewie DFS.\r\n self.__dfs_children = [[] for _ in self.__graph.get_vertices()]\r\n # Głębokość w drzewie DFS.\r\n self.__dfs_depths = [None] * graph.vertices_number\r\n # Wartości funkcji LOW.\r\n self.__low_values = [None] * graph.vertices_number\r\n\r\n def edge_cut(self):\r\n \"\"\"Znajdowanie mostów.\r\n :returns: lista krawędzi będących mostami\"\"\"\r\n for v in self.__graph.get_vertices():\r\n if self.__dfs_depths[v] is None:\r\n self.__dfs(v, None, 0)\r\n\r\n return ((min(v, self.__dfs_parents[v]), max(v, self.__dfs_parents[v]))\r\n for v in self.__graph.get_vertices() if self.__has_bridge(v))\r\n\r\n def vertex_cut(self):\r\n \"\"\"Znajdowanie punktów artykulacji.\r\n :returns: lista punktów artykulacji\"\"\"\r\n for v in self.__graph.get_vertices():\r\n if self.__dfs_depths[v] is None:\r\n self.__dfs(v, None, 0)\r\n\r\n return (v for v in self.__graph.get_vertices() if self.__is_separator(v))\r\n\r\n def __has_bridge(self, vertex):\r\n \"\"\"Sprawdzanie, czy od wierzchołka wychodzi krawędź będąca mostem.\r\n :param vertex: wierzchołek\r\n :returns: czy wierzchołek incydentny z mostem\"\"\"\r\n return self.__low_values[vertex] == self.__dfs_depths[vertex] \\\r\n and not self.__is_dfs_root(vertex)\r\n\r\n def __is_separator(self, vertex):\r\n \"\"\"Sprawdzanie, czy wierzchołek jest punktem artykulacji.\r\n :param vertex: wierzchołek\r\n :returns: czy wierzchołek to punkt artykulacji\"\"\"\r\n return len(self.__dfs_children[vertex]) > 1 \\\r\n if self.__is_dfs_root(vertex) \\\r\n else any(self.__low_values[ch] >= self.__dfs_depths[vertex]\r\n for ch in self.__dfs_children[vertex])\r\n\r\n def __is_dfs_root(self, vertex):\r\n \"\"\"Sprawdzanie, czy wierzchołek jest korzeniem drzewa DFS\r\n :param vertex: wierzchołek\r\n :returns: czy wierzchołek to korzeń\"\"\"\r\n return self.__dfs_depths[vertex] == 0\r\n\r\n def __dfs(self, vertex, parent, depth):\r\n \"\"\"Algorytm DFS wyliczający funkcję LOW.\r\n :param vertex: aktualny wierzchołek\r\n :param parent: ojciec wierzchołka\r\n :param depth: głębokość\"\"\"\r\n self.__dfs_parents[vertex] = parent\r\n self.__dfs_depths[vertex] = depth\r\n self.__low_values[vertex] = depth\r\n\r\n for neighbour in self.__graph.get_neighbours(vertex):\r\n if self.__dfs_depths[neighbour] is None:\r\n self.__dfs_children[vertex].append(neighbour)\r\n self.__dfs(neighbour, vertex, depth + 1)\r\n self.__low_values[vertex] = min(self.__low_values[vertex],\r\n self.__low_values[neighbour])\r\n elif neighbour != parent:\r\n self.__low_values[vertex] = min(self.__low_values[vertex],\r\n self.__dfs_depths[neighbour])\r\n" }, { "alpha_fraction": 0.564010739326477, "alphanum_fraction": 0.6060877442359924, "avg_line_length": 28.394737243652344, "blob_id": "a07cfa507e7bbeed71134d09e67e6f6d9d9f7618", "content_id": "668f7ee547d1a3961059ebafc500e3698035e935", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1117, "license_type": "permissive", "max_line_length": 99, "num_lines": 38, "path": "/AlgoLib_Cpp/src/algolib/sorting.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY SORTOWANIA\n#include \"algolib/sorting.hpp\"\n\nint detail::choose_pivot(int size)\n{\n srand(time(0));\n\n int candidate1 = rand() % size, candidate2 = rand() % size, candidate3 = rand() % size;\n\n if(std::min(candidate2, candidate3) <= candidate1\n && candidate1 <= std::max(candidate2, candidate3))\n return candidate2;\n\n if(std::min(candidate1, candidate3) <= candidate2\n && candidate2 <= std::max(candidate1, candidate3))\n return candidate2;\n\n return candidate3;\n}\n\nvoid algolib::angle_sort(std::vector<point2D_t> & points)\n{\n auto angle = [](const point2D_t & pt) {\n double ang = atan2(pt.second, pt.first) * 180.0 / M_PI;\n\n return pt.second >= 0.0 ? ang : ang + 360.0;\n };\n\n auto radius = [](const point2D_t & pt) { return pt.first * pt.first + pt.second * pt.second; };\n\n auto comparator = [&](const point2D_t & pt1, const point2D_t & pt2) -> bool {\n double angle1 = angle(pt1), angle2 = angle(pt2);\n\n return angle1 != angle2 ? angle1 < angle2 : radius(pt1) <= radius(pt2);\n };\n\n std::sort(points.begin(), points.end(), comparator);\n}\n" }, { "alpha_fraction": 0.6383739709854126, "alphanum_fraction": 0.6471544504165649, "avg_line_length": 27.738317489624023, "blob_id": "004dda810b8451c8aacc91002ce57eb857e7022f", "content_id": "ff8495d602f7f71cd106eb282cb8c0f8e92d1cd2", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 3076, "license_type": "permissive", "max_line_length": 96, "num_lines": 107, "path": "/AlgoLib_Cpp/src/algolib/graphs/directed_graph.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURY GRAFÓW SKIEROWANYCH\n#include \"algolib/graphs/directed_graph.hpp\"\n\nnamespace algr = algolib::graphs;\n\n#pragma region directed_simple_graph\n\nsize_t algr::directed_simple_graph::get_edges_number() const\n{\n size_t edges_number = 0;\n\n for(const auto & v : get_vertices())\n edges_number += get_outdegree(v);\n\n return edges_number;\n}\n\nstd::vector<edge_t> algr::directed_simple_graph::get_edges() const\n{\n std::vector<edge_t> edges;\n\n for(const auto & v : get_vertices())\n for(const auto & u : get_neighbours(v))\n edges.emplace_back(v, u);\n\n return edges;\n}\n\nvoid algr::directed_simple_graph::add_edge(vertex_t vertex1, vertex_t vertex2)\n{\n if(vertex1 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex1));\n\n if(vertex2 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex2));\n\n graphrepr[vertex1].emplace(vertex2, DEFAULT_WEIGHT);\n}\n\nsize_t algr::directed_simple_graph::get_indegree(vertex_t vertex) const\n{\n if(vertex >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex));\n\n std::vector<edge_t> edges = get_edges();\n\n return std::accumulate(edges.begin(), edges.end(), 0, [&](size_t acc, edge_t e) {\n return std::get<1>(e) == vertex ? acc + 1 : acc;\n });\n}\n\nvoid algr::directed_simple_graph::reverse()\n{\n std::vector<std::set<wvertex_t>> revgraph(get_vertices_number(), std::set<wvertex_t>());\n\n for(auto e : get_edges())\n revgraph[std::get<1>(e)].emplace(std::get<0>(e), DEFAULT_WEIGHT);\n\n graphrepr = std::move(revgraph);\n}\n\n#pragma endregion\n#pragma region directed_weighted_simple_graph\n\nstd::vector<wedge_t> algr::directed_weighted_simple_graph::get_weighted_edges() const\n{\n std::vector<wedge_t> wedges;\n\n for(const auto & v : get_vertices())\n for(const auto & u : get_weighted_neighbours(v))\n wedges.emplace_back(v, std::get<0>(u), std::get<1>(u));\n\n return wedges;\n}\n\nvoid algr::directed_weighted_simple_graph::add_weighted_edge(vertex_t vertex1, vertex_t vertex2,\n weight_t weight)\n{\n if(vertex1 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex1));\n\n if(vertex2 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex2));\n\n graphrepr[vertex1].emplace(vertex2, weight);\n}\n\nstd::vector<wvertex_t>\n algr::directed_weighted_simple_graph::get_weighted_neighbours(vertex_t vertex) const\n{\n if(vertex >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex));\n\n return std::vector<wvertex_t>(graphrepr[vertex].begin(), graphrepr[vertex].end());\n}\n\nvoid algr::directed_weighted_simple_graph::reverse()\n{\n std::vector<std::set<wvertex_t>> revgraph(get_vertices_number(), std::set<wvertex_t>());\n\n for(auto e : get_weighted_edges())\n revgraph[std::get<1>(e)].emplace(std::get<0>(e), std::get<2>(e));\n\n graphrepr = std::move(revgraph);\n}\n\n#pragma endregion\n" }, { "alpha_fraction": 0.6340425610542297, "alphanum_fraction": 0.6402320861816406, "avg_line_length": 22.288288116455078, "blob_id": "59756a24b10b761d9a243c46cf0838a7e123f8ec", "content_id": "e0514e2f55199183f820ab9b0c827ad731918bac", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 2592, "license_type": "permissive", "max_line_length": 99, "num_lines": 111, "path": "/AlgoLib_Java/src/refhumbold/algolib/graphs/ForestGraph.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "package refhumbold.algolib.graphs;\n\nimport java.util.Collection;\n\nimport refhumbold.algolib.structures.DisjointSets;\nimport refhumbold.algolib.tuples.ComparablePair;\nimport refhumbold.algolib.tuples.Pair;\n\npublic class ForestGraph\n implements UndirectedGraph\n{\n private UndirectedSimpleGraph graph;\n private DisjointSets<Integer> components;\n\n public ForestGraph(int n)\n {\n this.graph = new UndirectedSimpleGraph(n);\n this.components = new DisjointSets<>(this.graph.getVertices());\n }\n\n public ForestGraph(int n, Iterable<Pair<Integer, Integer>> edges)\n throws NoSuchVertexException\n {\n this(n);\n\n for(Pair<Integer, Integer> e : edges)\n this.addEdge(e.getFirst(), e.getSecond());\n }\n\n /*\n @return liczba drzew w grafie\n /\n public int getTreesNumber()\n {\n return components.size();\n }\n\n @Override\n public int getVerticesNumber()\n {\n return graph.getVerticesNumber();\n }\n\n @Override\n public int getEdgesNumber()\n {\n return graph.getEdgesNumber();\n }\n\n @Override\n public Collection<Integer> getVertices()\n {\n return graph.getVertices();\n }\n\n @Override\n public Collection<ComparablePair<Integer, Integer>> getEdges()\n {\n return graph.getEdges();\n }\n\n @Override\n public Integer addVertex()\n {\n Integer vertex = graph.addVertex();\n components.addElem(vertex);\n\n return vertex;\n }\n\n @Override\n public void addEdge(Integer vertex1, Integer vertex2)\n throws NoSuchVertexException\n {\n if(isSameTree(vertex1, vertex2))\n throw new CycleException(\n \"Edge from vertex \" + vertex1 + \" to vertex \" + vertex2 + \" will create a cycle.\");\n\n components.unionSet(vertex1, vertex2);\n graph.addEdge(vertex1, vertex2);\n }\n\n @Override\n public Collection<Integer> getNeighbours(Integer vertex)\n {\n return graph.getNeighbours(vertex);\n }\n\n @Override\n public int getOutdegree(Integer vertex)\n {\n return graph.getOutdegree(vertex);\n }\n\n @Override\n public int getIndegree(Integer vertex)\n {\n return graph.getIndegree(vertex);\n }\n\n /\n Sprawdzanie, czy wierzchołki należą do tego samego drzewa.\n * @param vertex1 pierwszy wierzchołek\n * @param vertex2 drugi wierzchołek\n * @return czy wierzchołki są w jednym drzewie\n /\n public boolean isSameTree(Integer vertex1, Integer vertex2)\n {\n return components.isSameSet(vertex1, vertex2);\n }\n}\n" }, { "alpha_fraction": 0.4352799654006958, "alphanum_fraction": 0.481637567281723, "avg_line_length": 27.152542114257812, "blob_id": "4cd4918f7815a4f05980f7998c16bb2784ccb292", "content_id": "f1f5b14669eacb48b36959983178e67bc6d7bd3f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 1663, "license_type": "permissive", "max_line_length": 92, "num_lines": 59, "path": "/AlgoLib_Java/test/refhumbold/algolib/graphs/MSTTest.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMÓW MINIMALNEGO DRZEWA SPINAJĄCEGO\npackage refhumbold.algolib.graphs;\n\nimport java.util.Arrays;\nimport org.junit.After;\nimport org.junit.Assert;\nimport org.junit.Before;\nimport org.junit.Test;\n\nimport refhumbold.algolib.tuples.Triple;\n\npublic class MSTTest\n{\n private UndirectedWeightedSimpleGraph graph;\n\n @Before\n public void setUp()\n {\n graph = new UndirectedWeightedSimpleGraph(5, Arrays.asList(Triple.make(0, 1, -1.0),\n Triple.make(0, 2, 4.0),\n Triple.make(1, 2, 9.0),\n Triple.make(1, 3, 7.0),\n Triple.make(1, 4, 12.0),\n Triple.make(2, 4, 6.0),\n Triple.make(3, 4, 3.0)));\n }\n\n @After\n public void tearDown()\n {\n graph = null;\n }\n\n @Test\n public void testKruskal()\n {\n double result = MST.kruskal(graph);\n\n Assert.assertEquals(12.0, result, 0.000001);\n }\n\n @Test\n public void testPrim()\n {\n double result = MST.prim(graph, 0);\n\n Assert.assertEquals(12.0, result, 0.000001);\n }\n\n @Test\n public void testPrimWhenDifferentSources()\n {\n double result1 = MST.prim(graph, 1);\n double result4 = MST.prim(graph, 4);\n\n Assert.assertEquals(12.0, result1, 0.000001);\n Assert.assertEquals(12.0, result4, 0.000001);\n }\n}\n" }, { "alpha_fraction": 0.5933595299720764, "alphanum_fraction": 0.6126383543014526, "avg_line_length": 26.19417381286621, "blob_id": "49dc304ba59432d1a1a9db8c9dd5d3818a87df5b", "content_id": "2c532a807476701c976b817916233767f3e803c0", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2804, "license_type": "permissive", "max_line_length": 96, "num_lines": 103, "path": "/AlgoLib_Python/tests/test_disjoint_sets.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA STRUKTURY ZBIORÓW ROZŁĄCZNYCH\"\"\"\nimport unittest\nfrom algolib.structures import DisjointSets\n\n\nclass DisjointSetsTest(unittest.TestCase):\n def __init__(self, args, *kwargs):\n super().__init__(args, *kwargs)\n self.__test_object = None\n\n def setUp(self):\n self.__test_object = DisjointSets(range(10))\n\n def tearDown(self):\n self.__test_object = None\n\n def test_len(self):\n result = len(self.__test_object)\n\n self.assertEqual(10, result)\n\n def test_in_when_contains(self):\n result = 4 in self.__test_object\n\n self.assertTrue(result)\n\n def test_in_when_not_contains(self):\n result = 17 in self.__test_object\n\n self.assertFalse(result)\n\n def test_add_elem_when_new_element(self):\n elem = 20\n\n self.__test_object.add_elem(elem)\n\n self.assertIn(elem, self.__test_object)\n self.assertEqual(elem, self.__test_object.find_set(elem))\n\n def test_add_elem_when_present_element(self):\n elem = 7\n\n with self.assertRaises(ValueError):\n self.__test_object.add_elem(elem)\n\n def test_find_set(self):\n elem = 4\n\n result = self.__test_object.find_set(elem)\n\n self.assertEqual(elem, result)\n\n def test_union_set_when_different_sets(self):\n elem1 = 4\n elem2 = 6\n\n self.__test_object.union_set(elem1, elem2)\n\n self.assertTrue(self.__test_object.is_same_set(elem1, elem2))\n self.assertEqual(self.__test_object.find_set(elem1), self.__test_object.find_set(elem2))\n\n def test_union_set_when_same_sets_1(self):\n elem = 4\n\n self.__test_object.union_set(elem, elem)\n\n self.assertTrue(self.__test_object.is_same_set(elem, elem))\n self.assertEqual(self.__test_object.find_set(elem), self.__test_object.find_set(elem))\n\n def test_union_set_when_same_sets_2(self):\n elem1 = 3\n elem2 = 8\n\n self.__test_object.union_set(elem1, elem2)\n self.__test_object.union_set(elem2, elem1)\n\n self.assertTrue(self.__test_object.is_same_set(elem1, elem2))\n self.assertEqual(self.__test_object.find_set(elem1), self.__test_object.find_set(elem2))\n\n def test_is_same_set_when_different_sets(self):\n elem1 = 4\n elem2 = 6\n\n result = self.__test_object.is_same_set(elem1, elem2)\n\n self.assertFalse(result)\n\n def test_is_same_set_when_same_set_1(self):\n elem = 4\n\n result = self.__test_object.is_same_set(elem, elem)\n\n self.assertTrue(result)\n\n def test_is_same_set_when_same_sets_2(self):\n elem1 = 3\n elem2 = 8\n\n self.__test_object.union_set(elem1, elem2)\n result = self.__test_object.is_same_set(elem1, elem2)\n\n self.assertTrue(result)\n" }, { "alpha_fraction": 0.5997536778450012, "alphanum_fraction": 0.6126847267150879, "avg_line_length": 34.30434799194336, "blob_id": "bee9a81f0638074a4513ccd4c7ce1e1b7e645056", "content_id": "2ce3276c00059f9c91471911835404dbaa5fe2ee", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1628, "license_type": "permissive", "max_line_length": 92, "num_lines": 46, "path": "/AlgoLib_Python/algolib/math/sieve.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"ALGORYTM WYZNACZANIA LICZB PIERWSZYCH PRZEZ SITO ERASTOTENESA\"\"\"\nfrom math import sqrt\n\n\ndef find_primes(numbers):\n \"\"\"Wyznaczanie liczb pierwszych.\n :param numbers: granice przedziału\n :returns: lista liczb pierwszych\"\"\"\n if len(numbers) == 1:\n return _find_primes_range(0, numbers[0])\n elif len(numbers) == 2:\n return _find_primes_range(numbers[0], numbers[1])\n else:\n raise TypeError(\"Expected 1 or 2 arguments, got {0}.\".format(len(numbers)))\n\n\ndef _find_primes_range(min_number, max_number):\n \"\"\"Wyznaczanie liczb pierwszych na przedziale domknietym.\n :param min_number: dolna granica przedziału\n :param max_number: górna granica przedziału\n :returns: lista liczb pierwszych\"\"\"\n if max_number < min_number:\n raise ValueError(\"Second argument must be grater or equal to the first argument.\")\n\n if max_number < 2:\n return []\n\n is_prime = [i == 2 or (i > 2 and i % 2 == 1) for i in range(min_number, max_number + 1)]\n base_primes = [True] * int(sqrt(max_number) / 2)\n\n for i, prime in enumerate(base_primes):\n if prime:\n num = 2 * i + 3\n begin = num * num - min_number if min_number < num * num else -min_number % num\n\n for j in range((num * num - 3) // 2, len(base_primes), num):\n base_primes[j] = False\n\n for j in range(begin, len(is_prime), num):\n is_prime[j] = False\n\n for i, prime in enumerate(is_prime):\n print(min_number + i, prime, end=\"\|\")\n\n return (min_number + i for i, prime in enumerate(is_prime) if prime)\n" }, { "alpha_fraction": 0.5777682065963745, "alphanum_fraction": 0.6156828999519348, "avg_line_length": 25.83237075805664, "blob_id": "eaaadc4bffd42d37fb056d436d14e61d2a0b5661", "content_id": "fdf5d368cbb12a56796a918eba6a6e08baa825a8", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 4643, "license_type": "permissive", "max_line_length": 97, "num_lines": 173, "path": "/AlgoLib_Cpp/test/directed_graph_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA GRAFÓW SKIEROWANYCH\n#include <gtest/gtest.h>\n#include \"algolib/graphs/directed_graph.hpp\"\n\nnamespace algr = algolib::graphs;\n\nclass DirectedSimpleGraphTest : public ::testing::Test\n{\nprotected:\n algr::directed_simple_graph test_object;\n\npublic:\n DirectedSimpleGraphTest() : test_object{algr::directed_simple_graph(10)}\n {\n }\n\n virtual ~DirectedSimpleGraphTest()\n {\n }\n};\n\nTEST_F(DirectedSimpleGraphTest, testGetVerticesNumber)\n{\n size_t result = test_object.get_vertices_number();\n\n EXPECT_EQ(10, result);\n}\n\nTEST_F(DirectedSimpleGraphTest, testGetVertices)\n{\n std::vector<vertex_t> result = test_object.get_vertices();\n\n std::sort(result.begin(), result.end());\n\n EXPECT_EQ(std::vector<vertex_t>({0, 1, 2, 3, 4, 5, 6, 7, 8, 9}), result);\n}\n\nTEST_F(DirectedSimpleGraphTest, testAddVertex)\n{\n vertex_t result = test_object.add_vertex();\n\n EXPECT_EQ(10, result);\n EXPECT_EQ(11, test_object.get_vertices_number());\n}\n\nTEST_F(DirectedSimpleGraphTest, testGetEdgesNumber)\n{\n test_object.add_edge(7, 7);\n test_object.add_edge(1, 5);\n test_object.add_edge(2, 4);\n test_object.add_edge(8, 0);\n test_object.add_edge(6, 3);\n test_object.add_edge(3, 6);\n test_object.add_edge(9, 3);\n test_object.add_edge(8, 0);\n\n size_t result = test_object.get_edges_number();\n\n EXPECT_EQ(7, result);\n}\n\nTEST_F(DirectedSimpleGraphTest, testGetEdges)\n{\n test_object.add_edge(7, 7);\n test_object.add_edge(1, 5);\n test_object.add_edge(2, 4);\n test_object.add_edge(8, 0);\n test_object.add_edge(6, 3);\n test_object.add_edge(3, 6);\n test_object.add_edge(9, 3);\n test_object.add_edge(8, 0);\n\n std::vector<edge_t> result = test_object.get_edges();\n\n std::sort(result.begin(), result.end());\n\n EXPECT_EQ(\n std::vector<edge_t>({std::make_tuple(1, 5), std::make_tuple(2, 4), std::make_tuple(3, 6),\n std::make_tuple(6, 3), std::make_tuple(7, 7), std::make_pair(8, 0),\n std::make_pair(9, 3)}),\n result);\n}\n\nTEST_F(DirectedSimpleGraphTest, testAddEdge)\n{\n test_object.add_edge(1, 5);\n test_object.add_edge(1, 5);\n test_object.add_edge(1, 1);\n\n std::vector<vertex_t> result1 = test_object.get_neighbours(1);\n std::vector<vertex_t> result5 = test_object.get_neighbours(5);\n\n std::sort(result1.begin(), result1.end());\n std::sort(result5.begin(), result5.end());\n\n EXPECT_EQ(2, test_object.get_edges_number());\n EXPECT_EQ(std::vector<vertex_t>({1, 5}), result1);\n EXPECT_EQ(std::vector<vertex_t>(), result5);\n}\n\nTEST_F(DirectedSimpleGraphTest, testGetNeighbours)\n{\n test_object.add_edge(1, 1);\n test_object.add_edge(1, 3);\n test_object.add_edge(1, 4);\n test_object.add_edge(1, 7);\n test_object.add_edge(1, 9);\n test_object.add_edge(2, 1);\n test_object.add_edge(6, 1);\n\n std::vector<vertex_t> result = test_object.get_neighbours(1);\n\n std::sort(result.begin(), result.end());\n\n EXPECT_EQ(std::vector<vertex_t>({1, 3, 4, 7, 9}), result);\n}\n\nTEST_F(DirectedSimpleGraphTest, testGetOutdegree)\n{\n test_object.add_edge(1, 1);\n test_object.add_edge(1, 3);\n test_object.add_edge(1, 4);\n test_object.add_edge(1, 7);\n test_object.add_edge(1, 9);\n test_object.add_edge(2, 1);\n test_object.add_edge(6, 1);\n\n size_t result = test_object.get_outdegree(1);\n\n EXPECT_EQ(5, result);\n}\n\nTEST_F(DirectedSimpleGraphTest, testGetIndegree)\n{\n test_object.add_edge(1, 1);\n test_object.add_edge(3, 1);\n test_object.add_edge(4, 1);\n test_object.add_edge(7, 1);\n test_object.add_edge(9, 1);\n test_object.add_edge(1, 2);\n test_object.add_edge(1, 6);\n\n size_t result = test_object.get_indegree(1);\n\n EXPECT_EQ(5, result);\n}\n\nTEST_F(DirectedSimpleGraphTest, testReverse)\n{\n test_object.add_edge(1, 2);\n test_object.add_edge(3, 5);\n test_object.add_edge(4, 9);\n test_object.add_edge(5, 4);\n test_object.add_edge(5, 7);\n test_object.add_edge(6, 2);\n test_object.add_edge(6, 6);\n test_object.add_edge(7, 8);\n test_object.add_edge(9, 1);\n test_object.add_edge(9, 6);\n\n test_object.reverse();\n\n std::vector<edge_t> result = test_object.get_edges();\n\n std::sort(result.begin(), result.end());\n\n EXPECT_EQ(\n std::vector<edge_t>({std::make_tuple(1, 9), std::make_tuple(2, 1), std::make_tuple(2, 6),\n std::make_tuple(4, 5), std::make_tuple(5, 3), std::make_tuple(6, 6),\n std::make_tuple(6, 9), std::make_tuple(7, 5), std::make_tuple(8, 7),\n std::make_tuple(9, 4)}),\n result);\n}\n" }, { "alpha_fraction": 0.5469664931297302, "alphanum_fraction": 0.5724993944168091, "avg_line_length": 26.01898765563965, "blob_id": "cf5269919b0a92da1da67dc6cdc5aed81b46f326", "content_id": "9dfd5d4654d9795679cab236f0355c7e4cbf1d3a", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4269, "license_type": "permissive", "max_line_length": 92, "num_lines": 158, "path": "/AlgoLib_Python/tests/test_avl_tree.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA DRZEWA AVL\"\"\"\nimport unittest\nfrom algolib.structures import AVLTree\n\n\nclass AVLTreeTest(unittest.TestCase):\n def __init__(self, args, kwargs):\n super().__init__(args, kwargs)\n self.__test_object = None\n self.__numbers = [10, 6, 14, 97, 24, 37, 2, 30, 45, 18, 51, 71, 68, 26]\n\n def setUp(self):\n self.__test_object = AVLTree(self.__numbers)\n\n def tearDown(self):\n self.__test_object = None\n\n def test_str(self):\n result = str(self.__test_object)\n\n self.assertEqual(\"{\|2, 6, 10, 14, 18, 24, 26, 30, 37, 45, 51, 68, 71, 97\|}\", result)\n\n def test_empty_when_empty(self):\n self.__test_object = AVLTree()\n\n result = self.__test_object.empty()\n\n self.assertTrue(result)\n\n def test_empty_when_not_empty(self):\n result = self.__test_object.empty()\n\n self.assertFalse(result)\n\n def test_len_when_empty(self):\n self.__test_object = AVLTree()\n\n result = len(self.__test_object)\n\n self.assertEqual(0, result)\n\n def test_len_when_not_empty(self):\n result = len(self.__test_object)\n\n self.assertEqual(len(self.__numbers), result)\n\n def test_in_when_present_element(self):\n for i in self.__numbers:\n result = i in self.__test_object\n\n self.assertTrue(result)\n\n def test_in_when_outer_element(self):\n for i in [111, 140, 187]:\n result = i in self.__test_object\n\n self.assertFalse(result)\n\n def test_iterator(self):\n result = []\n\n iterator = iter(self.__test_object)\n\n while True:\n try:\n result.append(next(iterator))\n except StopIteration:\n break\n\n self.assertListEqual(sorted(self.__numbers), result)\n\n def test_reversed(self):\n result = []\n\n iterator = reversed(self.__test_object)\n\n while True:\n try:\n result.append(next(iterator))\n except StopIteration:\n break\n\n self.assertListEqual(sorted(self.__numbers, reverse=True), result)\n\n def test_add_when_new_element(self):\n for i in [111, 140, 187]:\n result = self.__test_object.add(i)\n\n self.assertTrue(result)\n self.assertIn(i, self.__test_object)\n\n def test_add_when_present_element(self):\n for i in [14, 24, 30, 45]:\n result = self.__test_object.add(i)\n\n self.assertFalse(result)\n self.assertIn(i, self.__test_object)\n\n def test_remove_when_present_element(self):\n for i in [14, 24, 30, 45]:\n result = self.__test_object.remove(i)\n\n self.assertTrue(result)\n self.assertNotIn(i, self.__test_object)\n\n def test_remove_root_when_two_elements1(self):\n root = 27\n elem = 11\n\n self.__test_object = AVLTree([root, elem])\n\n result = self.__test_object.remove(root)\n\n self.assertTrue(result)\n self.assertNotIn(root, self.__test_object)\n self.assertIn(elem, self.__test_object)\n\n def test_remove_root_when_two_elements2(self):\n root = 11\n elem = 27\n self.__test_object = AVLTree([root, elem])\n\n result = self.__test_object.remove(root)\n\n self.assertTrue(result)\n self.assertNotIn(root, self.__test_object)\n self.assertIn(elem, self.__test_object)\n\n def test_remove_root_when_one_element(self):\n root = 0\n self.__test_object = AVLTree([root])\n\n result = self.__test_object.remove(root)\n\n self.assertTrue(result)\n self.assertNotIn(root, self.__test_object)\n self.assertTrue(self.__test_object.empty())\n\n def test_remove_when_empty(self):\n self.__test_object = AVLTree()\n\n result = self.__test_object.remove(0)\n\n self.assertFalse(result)\n self.assertTrue(self.__test_object.empty())\n\n def test_remove_when_outer_element(self):\n for i in [111, 140, 187]:\n result = self.__test_object.remove(i)\n\n self.assertFalse(result)\n self.assertNotIn(i, self.__test_object)\n\n def test_clear(self):\n self.__test_object.clear()\n\n self.assertTrue(self.__test_object.empty())\n" }, { "alpha_fraction": 0.4741930365562439, "alphanum_fraction": 0.4759103059768677, "avg_line_length": 28.749290466308594, "blob_id": "14f16014d1551c6cc9dfcd73ed31a9e9b19be9cf", "content_id": "63c6a5fb791c7f206cfa23cbce53aeb1a25f15f3", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 31616, "license_type": "permissive", "max_line_length": 100, "num_lines": 1057, "path": "/AlgoLib_Cpp/include/algolib/structures/avl_tree.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\n * @file avl_tree.h\n * DRZEWO AVL\n /\n#ifndef _AVL_TREE_HPP_\n#define _AVL_TREE_HPP_\n\n#include <cstdlib>\n#include <cmath>\n#include <exception>\n#include <stdexcept>\n#include <algorithm>\n#include <functional>\n#include <initializer_list>\n#include <iterator>\n\nnamespace algolib\n{\n namespace structures\n {\n#pragma region avl_tree\n\n template <typename E, typename C = std::less<E>>\n class avl_tree\n {\n protected:\n class avl_node;\n class avl_inner_node;\n class avl_root_node;\n\n class avl_iterator;\n class avl_succ_iterator;\n class avl_pred_iterator;\n\n using node_pointer = avl_node ;\n\n public:\n using iterator = avl_succ_iterator;\n using reverse_iterator = avl_pred_iterator;\n\n private:\n /// Korzeń drzewa.\n node_pointer tree = new avl_root_node();\n\n /// Liczba elementów drzewa.\n size_t elems = 0;\n\n /// Komparator\n C cmp;\n\n public:\n explicit avl_tree(const C & cmp = C()) : cmp{cmp}\n {\n }\n\n avl_tree(std::initializer_list<E> init_list, const C & cmp = C()) : cmp{cmp}\n {\n for(auto i : init_list)\n insert(i);\n }\n\n ~avl_tree()\n {\n delete tree;\n }\n\n avl_tree(const avl_tree & avl)\n : tree{new avl_root_node(avl.tree)}, elems{avl.elems}, cmp{cmp}\n {\n }\n\n avl_tree(avl_tree && avl) : elems{std::move(avl.elems)}, cmp{cmp}\n {\n std::swap(this->tree, avl.tree);\n }\n\n avl_tree<E, C> & operator=(const avl_tree<E, C> & avl);\n avl_tree<E, C> & operator=(avl_tree<E, C> && avl);\n\n /// @return iterator na początku\n iterator begin() const;\n\n /// @return iterator na końcu\n iterator end() const;\n\n /// @return odwrócony iterator na początku\n reverse_iterator rbegin() const;\n\n /// @return odwrócony iterator na końcu\n reverse_iterator rend() const;\n\n /// @return liczba elemenów drzewa\n size_t size() const\n {\n return elems;\n }\n\n /// @return czy drzewo jest puste\n bool empty() const\n {\n return get_inner_root() == nullptr;\n }\n\n /\n Sprawdzanie występowania elementu w drzewie.\n * @param element wartość do znalezienia\n * @return iterator na wartość w drzewie\n /\n iterator find(const E & element) const;\n\n /\n Dodawanie elementu do drzewa.\n * @param element wartość do dodania\n * @return iterator na nowy element z infromacją o jego dodaniu\n /\n std::pair<iterator, bool> insert(const E & element);\n\n /\n Usuwanie elementu z drzewa.\n * @param element wartość do usunięcia\n /\n void erase(const E & element);\n\n /// Usuwanie wszystkich elementów z drzewa.\n void clear();\n\n private:\n /\n Usuwanie elementu z pamięci.\n * @param node węzeł do usunięcia\n /\n void destroy_node(node_pointer node)\n {\n node->set_left(nullptr);\n node->set_right(nullptr);\n --elems;\n delete node;\n }\n\n /// @return wewnętrzny korzeń drzewa\n node_pointer get_inner_root() const\n {\n return tree->get_parent();\n }\n\n /// @param node węzeł, który zostanie wewnętrznym korzeniem\n void set_inner_root(node_pointer node)\n {\n tree->set_parent(node);\n }\n\n /\n Sprawdzanie, czy węzeł jest wewnętrznym korzeniem.\n * @param node węzeł\n * @return czy węzeł to korzeń\n /\n bool is_inner_root(node_pointer node)\n {\n return node->get_parent()->get_height() == 0;\n }\n\n /\n Wskazanie poddrzewa, w którym może znaleźć się element.\n * @param node węzeł\n * @param element element\n * @return korzeń poddrzewa z elementem\n /\n node_pointer get_subtree(node_pointer node, const E & element) const;\n\n /\n Wyszukiwanie ojca węzła z daną wartością.\n * @param element wartość do znalezienia\n * @return ojciec węzła z wartością\n /\n node_pointer find_node_parent(const E & element) const;\n\n /\n Usuwanie elementu z korzenia drzewa.\n * @param root korzeń drzewa\n /\n void delete_root(node_pointer root);\n\n /\n Usuwanie elementu z węzła wewnętrznego drzewa.\n * @param node węzeł do usunięcia\n /\n void delete_node(node_pointer node);\n\n /\n Zamiana poddrzewa ukorzenionego w danym węźle.\n * @param node1 węzeł do zamiany\n * @param node2 korzeń nowego poddrzewa\n /\n void replace_subtree(node_pointer node1, node_pointer node2);\n\n /\n Rotowanie węzła wzdłuż krawędzi z jego ojcem.\n * @param node węzeł do rotacji\n /\n void rotate(node_pointer node);\n\n /\n Przywracanie balansowania na ścieżce od wierzchołka do korzenia.\n * @param node wierzchołek początkowy\n /\n void balance(node_pointer node);\n\n /\n Wyliczanie balansu wierzchołka.\n * @param node węzeł\n * @return wartość balansu\n /\n int count_balance(node_pointer node);\n };\n\n template <typename E, typename C>\n avl_tree<E, C> & avl_tree<E, C>::operator=(const avl_tree<E, C> & avl)\n {\n delete this->tree;\n this->tree = new avl_root_node(avl.tree);\n this->elems = avl.elems;\n this->cmp = avl.cmp;\n\n return this;\n }\n\n template <typename E, typename C>\n avl_tree<E, C> & avl_tree<E, C>::operator=(avl_tree<E, C> && avl)\n {\n std::swap(this->tree, avl.tree);\n std::swap(this->elems, avl.elems);\n std::swap(this->cmp, avl.cmp);\n\n return this;\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::iterator avl_tree<E, C>::begin() const\n {\n return iterator(get_inner_root()->minimum());\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::iterator avl_tree<E, C>::end() const\n {\n return iterator(tree);\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::reverse_iterator avl_tree<E, C>::rbegin() const\n {\n return reverse_iterator(get_inner_root()->maximum());\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::reverse_iterator avl_tree<E, C>::rend() const\n {\n return reverse_iterator(tree);\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::iterator avl_tree<E, C>::find(const E & element) const\n {\n if(empty())\n return end();\n\n avl_tree<E, C>::node_pointer node_parent = find_node_parent(element);\n\n if(node_parent == nullptr)\n return iterator(get_inner_root());\n\n avl_tree<E, C>::node_pointer the_node = get_subtree(node_parent, element);\n\n if(the_node == nullptr)\n return end();\n\n return iterator(the_node);\n }\n\n template <typename E, typename C>\n std::pair<typename avl_tree<E, C>::iterator, bool> avl_tree<E, C>::insert(const E & element)\n {\n avl_tree<E, C>::node_pointer node_parent = find_node_parent(element);\n avl_tree<E, C>::node_pointer the_node =\n node_parent == nullptr ? get_inner_root() : get_subtree(node_parent, element);\n\n if(the_node != nullptr)\n return std::make_pair(iterator(the_node), false);\n\n avl_tree<E, C>::node_pointer new_node = new avl_inner_node(element);\n\n if(node_parent != nullptr)\n {\n if(cmp(element, node_parent->get_element()))\n node_parent->set_left(new_node);\n else\n node_parent->set_right(new_node);\n\n balance(node_parent);\n }\n else\n set_inner_root(new_node);\n\n ++elems;\n\n return std::make_pair(iterator(new_node), true);\n }\n\n template <typename E, typename C>\n void avl_tree<E, C>::erase(const E & element)\n {\n avl_tree<E, C>::node_pointer node_parent = find_node_parent(element);\n avl_tree<E, C>::node_pointer the_node =\n node_parent == nullptr ? get_inner_root() : get_subtree(node_parent, element);\n\n if(the_node == nullptr)\n return;\n\n if(node_parent == nullptr)\n delete_root(the_node);\n else\n delete_node(the_node);\n }\n\n template <typename E, typename C>\n void avl_tree<E, C>::clear()\n {\n delete get_inner_root();\n set_inner_root(nullptr);\n elems = 0;\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::node_pointer\n avl_tree<E, C>::get_subtree(avl_tree<E, C>::node_pointer node, const E & element) const\n {\n if(!cmp(element, node->get_element()) && !cmp(node->get_element(), element))\n return node;\n else if(cmp(element, node->get_element()))\n return node->get_left();\n else\n return node->get_right();\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::node_pointer\n avl_tree<E, C>::find_node_parent(const E & element) const\n {\n typename avl_tree<E, C>::node_pointer tree_iter = get_inner_root();\n typename avl_tree<E, C>::node_pointer iter_parent = nullptr;\n\n while(tree_iter != nullptr && (cmp(tree_iter->get_element(), element)\n \|\| cmp(element, tree_iter->get_element())))\n {\n iter_parent = tree_iter;\n tree_iter = get_subtree(tree_iter, element);\n }\n\n return iter_parent;\n }\n\n template <typename E, typename C>\n void avl_tree<E, C>::delete_root(avl_tree<E, C>::node_pointer root)\n {\n if(root->get_left() != nullptr && root->get_right() != nullptr)\n delete_node(root);\n else\n {\n node_pointer new_root =\n root->get_left() != nullptr ? root->get_left() : root->get_right();\n\n set_inner_root(new_root);\n destroy_node(root);\n }\n }\n\n template <typename E, typename C>\n void avl_tree<E, C>::delete_node(avl_tree<E, C>::node_pointer node)\n {\n if(node->get_left() != nullptr && node->get_right() != nullptr)\n {\n avl_tree<E, C>::node_pointer succ = node->get_right()->minimum();\n\n std::swap(succ->get_element(), node->get_element());\n delete_node(succ);\n }\n else\n {\n avl_tree<E, C>::node_pointer son =\n node->get_left() != nullptr ? node->get_left() : node->get_right();\n avl_tree<E, C>::node_pointer node_parent = node->get_parent();\n\n replace_subtree(node, son);\n balance(node_parent);\n destroy_node(node);\n }\n }\n\n template <typename E, typename C>\n void avl_tree<E, C>::replace_subtree(avl_tree<E, C>::node_pointer node1,\n avl_tree<E, C>::node_pointer node2)\n {\n if(is_inner_root(node1))\n set_inner_root(node2);\n else if(node1->is_left_son())\n node1->get_parent()->set_left(node2);\n else if(node1->is_right_son())\n node1->get_parent()->set_right(node2);\n\n node1->set_parent(nullptr);\n }\n\n template <typename E, typename C>\n void avl_tree<E, C>::rotate(avl_tree<E, C>::node_pointer node)\n {\n if(is_inner_root(node))\n return;\n\n avl_tree<E, C>::node_pointer upper_node = node->get_parent();\n\n if(node->is_right_son())\n {\n upper_node->set_right(node->get_left());\n replace_subtree(upper_node, node);\n node->set_left(upper_node);\n }\n else if(node->is_left_son())\n {\n upper_node->set_left(node->get_right());\n replace_subtree(upper_node, node);\n node->set_right(upper_node);\n }\n }\n\n template <typename E, typename C>\n void avl_tree<E, C>::balance(avl_tree<E, C>::node_pointer node)\n {\n while(node->get_height() > 0)\n {\n node->count_height();\n\n int new_balance = count_balance(node);\n\n if(new_balance >= 2)\n {\n if(count_balance(node->get_left()) > 0)\n rotate(node->get_left());\n else if(count_balance(node->get_left()) < 0)\n {\n rotate(node->get_left()->get_right());\n rotate(node->get_left());\n }\n }\n else if(new_balance <= -2)\n {\n if(count_balance(node->get_right()) < 0)\n rotate(node->get_right());\n else if(count_balance(node->get_right()) > 0)\n {\n rotate(node->get_right()->get_left());\n rotate(node->get_right());\n }\n }\n\n node = node->get_parent();\n }\n }\n\n template <typename E, typename C>\n int avl_tree<E, C>::count_balance(avl_tree<E, C>::node_pointer node)\n {\n int left_height = node->get_left() == nullptr ? 0 : node->get_left()->get_height();\n int right_height = node->get_right() == nullptr ? 0 : node->get_right()->get_height();\n\n return left_height - right_height;\n }\n\n#pragma endregion\n#pragma region avl_node\n\n template <typename E, typename C>\n class avl_tree<E, C>::avl_node\n {\n public:\n avl_node()\n {\n }\n\n virtual ~avl_node() = default;\n avl_node(const avl_node & node) = default;\n avl_node(avl_node && node) = delete;\n avl_node & operator=(const avl_node & node) = default;\n avl_node & operator=(avl_node && node) = delete;\n\n virtual E & get_element() = 0;\n\n virtual size_t get_height() = 0;\n\n virtual node_pointer get_left() = 0;\n\n virtual void set_left(node_pointer node) = 0;\n\n virtual node_pointer get_right() = 0;\n\n virtual void set_right(node_pointer node) = 0;\n\n virtual node_pointer get_parent() = 0;\n\n virtual void set_parent(node_pointer node) = 0;\n\n /*\n Kopiowanie obiektu węzła.\n * @return kopia obiektu\n /\n virtual node_pointer clone() = 0;\n\n /\n Sprawdzanie, czy węzeł jest lewym synem.\n * @return czy węzeł to lewy syn\n /\n virtual bool is_left_son() = 0;\n\n /\n Sprawdzanie, czy węzeł jest prawym synem.\n * @return czy węzeł to prawy syn\n /\n virtual bool is_right_son() = 0;\n\n /// Wyliczanie wysokości wierzchołka.\n virtual void count_height() = 0;\n\n /\n Wyszukiwanie minimum w poddrzewie.\n * @return węzeł z minimalną wartością w poddrzewie\n /\n virtual node_pointer minimum() = 0;\n\n /\n Wyszukiwanie maksimum w ukorzenionym poddrzewie.\n * @return węzeł z maksymalną wartością w poddrzewie\n /\n virtual node_pointer maximum() = 0;\n };\n\n#pragma endregion\n#pragma region avl_inner_node\n\n template <typename E, typename C>\n class avl_tree<E, C>::avl_inner_node : public avl_tree<E, C>::avl_node\n {\n private:\n /// Wartość w węźle.\n E element;\n\n /// Wysokość węzła.\n int height = 1;\n\n /// Lewy syn węzła.\n node_pointer left = nullptr;\n\n /// Prawy syn węzła.\n node_pointer right = nullptr;\n\n /// Ojciec węzła.\n node_pointer parent = nullptr;\n\n public:\n avl_inner_node(const E & elem) : avl_tree<E, C>::avl_node(), element{elem}\n {\n }\n\n ~avl_inner_node();\n avl_inner_node(const avl_inner_node & node);\n avl_inner_node(avl_inner_node && node) = delete;\n avl_inner_node & operator=(const avl_inner_node & node);\n avl_inner_node & operator=(avl_inner_node && node) = delete;\n\n E & get_element()\n {\n return element;\n }\n\n size_t get_height()\n {\n return this->height;\n }\n\n node_pointer get_left()\n {\n return this->left;\n }\n\n void set_left(node_pointer node)\n {\n this->left = node;\n\n if(this->left != nullptr)\n this->left->set_parent(this);\n\n count_height();\n }\n\n node_pointer get_right()\n {\n return this->right;\n }\n\n void set_right(node_pointer node)\n {\n this->right = node;\n\n if(this->right != nullptr)\n this->right->set_parent(this);\n\n count_height();\n }\n\n node_pointer get_parent()\n {\n return this->parent;\n }\n\n void set_parent(node_pointer node)\n {\n this->parent = node;\n }\n\n node_pointer clone()\n {\n return new avl_inner_node(this);\n }\n\n bool is_left_son();\n\n bool is_right_son();\n\n void count_height();\n\n node_pointer minimum();\n\n node_pointer maximum();\n };\n\n template <typename E, typename C>\n avl_tree<E, C>::avl_inner_node::~avl_inner_node()\n {\n if(left != nullptr)\n delete left;\n\n if(right != nullptr)\n delete right;\n }\n\n template <typename E, typename C>\n avl_tree<E, C>::avl_inner_node::avl_inner_node(const avl_tree<E, C>::avl_inner_node & node)\n : avl_tree<E, C>::avl_node(), element{node.element}, height{node.height}\n {\n this->set_left(node.left->clone());\n this->set_right(node.right->clone());\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::avl_inner_node & avl_tree<E, C>::avl_inner_node::\n operator=(const avl_tree<E, C>::avl_inner_node & node)\n {\n this->element = node.element;\n this->height = node.height;\n delete this->left;\n this->set_left(node.left->clone());\n delete this->right;\n this->set_right(node.right->clone());\n\n return this;\n }\n\n template <typename E, typename C>\n bool avl_tree<E, C>::avl_inner_node::is_left_son()\n {\n return parent != nullptr && parent->get_left() == this;\n }\n\n template <typename E, typename C>\n bool avl_tree<E, C>::avl_inner_node::is_right_son()\n {\n return parent != nullptr && parent->get_right() == this;\n }\n\n template <typename E, typename C>\n void avl_tree<E, C>::avl_inner_node::count_height()\n {\n int left_height = left == nullptr ? 0 : left->get_height();\n int right_height = right == nullptr ? 0 : right->get_height();\n\n height = std::max(left_height, right_height) + 1;\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::node_pointer avl_tree<E, C>::avl_inner_node::minimum()\n {\n return left == nullptr ? this : left->minimum();\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::node_pointer avl_tree<E, C>::avl_inner_node::maximum()\n {\n return right == nullptr ? this : right->maximum();\n }\n\n#pragma endregion\n#pragma region avl_root_node\n\n template <typename E, typename C>\n class avl_tree<E, C>::avl_root_node : public avl_tree<E, C>::avl_node\n {\n private:\n /// Wewnętrzne wierzchołki.\n node_pointer inner = nullptr;\n\n public:\n avl_root_node() : avl_tree<E, C>::avl_node()\n {\n }\n\n ~avl_root_node()\n {\n if(inner != nullptr)\n delete inner;\n }\n\n avl_root_node(const avl_root_node & node) : avl_tree<E, C>::avl_node()\n {\n this->set_parent(node.inner->clone());\n }\n\n avl_root_node(avl_root_node && node) = delete;\n avl_root_node & operator=(const avl_root_node & node);\n avl_root_node & operator=(avl_root_node && node) = delete;\n\n E & get_element()\n {\n throw std::logic_error(\"Operation not permited.\");\n }\n\n size_t get_height()\n {\n return 0;\n }\n\n node_pointer get_left()\n {\n return nullptr;\n }\n\n void set_left(node_pointer)\n {\n }\n\n node_pointer get_right()\n {\n return nullptr;\n }\n\n void set_right(node_pointer)\n {\n }\n\n node_pointer get_parent()\n {\n return inner;\n }\n\n void set_parent(node_pointer node)\n {\n inner = node;\n\n if(inner != nullptr)\n inner->set_parent(this);\n }\n\n node_pointer clone()\n {\n return new avl_root_node(this);\n }\n\n bool is_left_son()\n {\n return false;\n }\n\n bool is_right_son()\n {\n return false;\n }\n\n void count_height()\n {\n }\n\n node_pointer minimum()\n {\n return this;\n }\n\n node_pointer maximum()\n {\n return this;\n }\n };\n\n template <typename E, typename C>\n typename avl_tree<E, C>::avl_root_node & avl_tree<E, C>::avl_root_node::\n operator=(const avl_tree<E, C>::avl_root_node & node)\n {\n if(this->inner != nullptr)\n delete this->inner;\n\n this->set_parent(node.inner->clone());\n\n return this;\n }\n\n#pragma endregion\n#pragma region avl_iterator\n\n template <typename E, typename C>\n class avl_tree<E, C>::avl_iterator\n {\n protected:\n /// Aktualny węzeł.\n avl_tree<E, C>::node_pointer current_node;\n\n public:\n explicit avl_iterator(avl_tree<E, C>::node_pointer node) : current_node{node}\n {\n }\n\n /\n Dereferencja iteratora.\n * @return wartość w iteratorze\n /\n E & operator() const;\n\n /*\n Uzyskanie składowej spod iteratora.\n * @return wartość w iteratorze\n /\n E operator->() const;\n\n /*\n Porównanie iteratorów na równość.\n * @return czy iteratory wskazują na ten sam węzeł\n /\n bool operator==(const avl_iterator & it) const;\n\n /\n Porównanie iteratorów na różność.\n * @return czy iteratory wskazują na różne węzły\n /\n bool operator!=(const avl_iterator & it) const;\n\n protected:\n /\n Wyznaczanie następnika węzła w drzewie.\n * @param node węzeł\n * @return węzeł z następną wartością\n /\n avl_tree<E, C>::node_pointer successor(avl_tree<E, C>::node_pointer node);\n\n /\n Wyznaczanie poprzednika węzła w drzewie.\n * @param node węzeł\n * @return węzeł z poprzednią wartością\n /\n avl_tree<E, C>::node_pointer predecessor(avl_tree<E, C>::node_pointer node);\n };\n\n template <typename E, typename C>\n E & avl_tree<E, C>::avl_iterator::operator() const\n {\n return this->current_node->get_element();\n }\n\n template <typename E, typename C>\n E * avl_tree<E, C>::avl_iterator::operator->() const\n {\n return &this->current_node->get_element();\n }\n\n template <typename E, typename C>\n bool avl_tree<E, C>::avl_iterator::operator==(const avl_tree<E, C>::avl_iterator & it) const\n {\n return this->current_node == it.current_node;\n }\n\n template <typename E, typename C>\n bool avl_tree<E, C>::avl_iterator::operator!=(const avl_tree<E, C>::avl_iterator & it) const\n {\n return this->current_node != it.current_node;\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::node_pointer\n avl_tree<E, C>::avl_iterator::successor(avl_tree<E, C>::node_pointer node)\n {\n avl_tree<E, C>::node_pointer succ = node;\n\n if(node->get_right() != nullptr)\n return node->get_right()->minimum();\n\n while(succ->get_height() > 0 && !succ->is_left_son())\n succ = succ->get_parent();\n\n return succ->get_height() <= 0 ? succ : succ->get_parent();\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::node_pointer\n avl_tree<E, C>::avl_iterator::predecessor(avl_tree<E, C>::node_pointer node)\n {\n avl_tree<E, C>::node_pointer pred = node;\n\n if(node->get_left() != nullptr)\n return node->get_left()->maximum();\n\n while(pred->get_height() > 0 && !pred->is_right_son())\n pred = pred->get_parent();\n\n return pred->get_height() <= 0 ? pred : pred->get_parent();\n }\n\n#pragma endregion\n#pragma region avl_succ_iterator\n\n template <typename E, typename C>\n class avl_tree<E, C>::avl_succ_iterator : public avl_tree<E, C>::avl_iterator\n {\n public:\n explicit avl_succ_iterator(avl_tree<E, C>::node_pointer node) : avl_iterator(node)\n {\n }\n\n avl_succ_iterator & operator++();\n\n avl_succ_iterator operator++(int);\n\n avl_succ_iterator & operator--();\n\n avl_succ_iterator operator--(int);\n };\n\n template <typename E, typename C>\n typename avl_tree<E, C>::avl_succ_iterator & avl_tree<E, C>::avl_succ_iterator::operator++()\n {\n if(this->current_node->get_height() > 0)\n this->current_node = this->successor(this->current_node);\n\n return this;\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::avl_succ_iterator avl_tree<E, C>::avl_succ_iterator::\n operator++(int)\n {\n avl_tree<E, C>::avl_succ_iterator result = this;\n\n ++(this);\n\n return result;\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::avl_succ_iterator & avl_tree<E, C>::avl_succ_iterator::operator--()\n {\n this->current_node = this->current_node->get_height() > 0\n ? this->predecessor(this->current_node)\n : this->current_node->get_parent()->maximum();\n\n return this;\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::avl_succ_iterator avl_tree<E, C>::avl_succ_iterator::\n operator--(int)\n {\n avl_tree<E, C>::avl_iterator result = this;\n\n --(this);\n\n return result;\n }\n\n#pragma endregion\n#pragma region avl_pred_iterator\n\n template <typename E, typename C>\n class avl_tree<E, C>::avl_pred_iterator : public avl_tree<E, C>::avl_iterator\n {\n public:\n explicit avl_pred_iterator(avl_tree<E, C>::node_pointer node) : avl_iterator(node)\n {\n }\n\n avl_pred_iterator & operator++();\n\n avl_pred_iterator operator++(int);\n\n avl_pred_iterator & operator--();\n\n avl_pred_iterator operator--(int);\n };\n\n template <typename E, typename C>\n typename avl_tree<E, C>::avl_pred_iterator & avl_tree<E, C>::avl_pred_iterator::operator++()\n {\n if(this->current_node->get_height() > 0)\n this->current_node = this->predecessor(this->current_node);\n\n return this;\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::avl_pred_iterator avl_tree<E, C>::avl_pred_iterator::\n operator++(int)\n {\n avl_tree<E, C>::avl_pred_iterator result = this;\n\n ++(this);\n\n return result;\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::avl_pred_iterator & avl_tree<E, C>::avl_pred_iterator::operator--()\n {\n this->current_node = this->current_node->get_height() > 0\n ? this->successor(this->current_node)\n : this->current_node->get_parent()->minimum();\n\n return this;\n }\n\n template <typename E, typename C>\n typename avl_tree<E, C>::avl_pred_iterator avl_tree<E, C>::avl_pred_iterator::\n operator--(int)\n {\n avl_tree<E, C>::avl_pred_iterator result = this;\n\n --(this);\n\n return result;\n }\n\n#pragma endregion\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.5465502738952637, "alphanum_fraction": 0.5864505171775818, "avg_line_length": 25.733333587646484, "blob_id": "5a54840ffebb824550455d1ed8363cf1797b8030", "content_id": "096bca225c803adc4ea138fb017969bad1b2414c", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2408, "license_type": "permissive", "max_line_length": 99, "num_lines": 90, "path": "/AlgoLib_Python/tests/test_lca.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA ALGORYTMU NAJNIŻSZEGO WSPÓLNEGO PRZODKA\"\"\"\nimport unittest\nfrom algolib.graphs import find_lca, ForestGraph\n\n\nclass LCATest(unittest.TestCase):\n def __init__(self, args, kwargs):\n super().__init__(args, kwargs)\n self.__trees = None\n\n def setUp(self):\n self.__trees = ForestGraph(\n 12, [(0, 1), (0, 2), (1, 3), (1, 4), (1, 5), (2, 6), (4, 7), (6, 8), (6, 9), (10, 11)])\n\n def tearDown(self):\n self.__trees = None\n\n def test_find_lca_when_vertices_not_in_same_tree(self):\n vertex1 = 1\n vertex2 = 11\n\n with self.assertRaises(ValueError):\n find_lca(self.__trees, vertex1, vertex2)\n\n def test_find_lca_when_root_not_in_same_tree(self):\n vertex1 = 1\n vertex2 = 9\n root = 10\n\n with self.assertRaises(ValueError):\n find_lca(self.__trees, vertex1, vertex2, root)\n\n def test_find_lca_when_same_vertex(self):\n vertex = 6\n\n result = find_lca(self.__trees, vertex, vertex)\n\n self.assertEqual(vertex, result)\n\n def test_find_lca_when_vertices_changed(self):\n vertex1 = 5\n vertex2 = 7\n\n result1 = find_lca(self.__trees, vertex1, vertex2)\n result2 = find_lca(self.__trees, vertex2, vertex1)\n\n self.assertEqual(1, result1)\n self.assertEqual(1, result2)\n\n def test_find_lca_when_vertices_in_different_subtrees(self):\n vertex1 = 5\n vertex2 = 7\n\n result = find_lca(self.__trees, vertex1, vertex2)\n\n self.assertEqual(1, result)\n\n def test_find_lca_when_root_is_lca(self):\n vertex1 = 3\n vertex2 = 9\n root = 0\n\n result = find_lca(self.__trees, vertex1, vertex2, root)\n\n self.assertEqual(root, result)\n\n def test_find_lca_when_vertices_are_offsprings(self):\n vertex1 = 8\n vertex2 = 2\n\n result = find_lca(self.__trees, vertex1, vertex2)\n\n self.assertEqual(vertex2, result)\n\n def test_find_lca_root_is_one_of_vertices_1(self):\n vertex1 = 11\n vertex2 = 10\n\n result = find_lca(self.__trees, vertex1, vertex2, vertex1)\n\n self.assertEqual(vertex1, result)\n\n def test_find_lca_when_root_is_one_of_vertices_2(self):\n vertex1 = 4\n vertex2 = 0\n\n result = find_lca(self.__trees, vertex1, vertex2, vertex2)\n\n self.assertEqual(vertex2, result)\n" }, { "alpha_fraction": 0.6019086837768555, "alphanum_fraction": 0.6073619723320007, "avg_line_length": 28.93877601623535, "blob_id": "c38a510890dba91b724dd05f01671d3d5bf0a6cc", "content_id": "257a4e95a2afa8ac34f47c5ed74eb0736a6bf928", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 1467, "license_type": "permissive", "max_line_length": 134, "num_lines": 49, "path": "/AlgoLib_Java/src/refhumbold/algolib/tuples/ComparableTriple.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// PORÓWNYWALNA TRÓJKA\npackage refhumbold.algolib.tuples;\n\npublic final class ComparableTriple<F extends Comparable<? super F>, S extends Comparable<? super S>, T extends Comparable<? super T>>\n extends Triple<F, S, T>\n implements Comparable<Triple<F, S, T>>\n{\n public ComparableTriple(F first, S second, T third)\n {\n super(first, second, third);\n }\n\n public static <F extends Comparable<F>, S extends Comparable<S>, T extends Comparable<T>> ComparableTriple<F, S, T> make(\n F first, S second, T third)\n {\n return new ComparableTriple<>(first, second, third);\n }\n\n public static <F extends Comparable<F>, S extends Comparable<S>, T extends Comparable<T>> ComparableTriple<F, S, T> from(\n Triple<F, S, T> triple)\n {\n return new ComparableTriple<>(triple.first, triple.second, triple.third);\n }\n\n @Override\n public int compareTo(Triple<F, S, T> t)\n {\n if(this.first == null)\n return t.first == null ? 0 : -1;\n\n int comparedFirst = this.first.compareTo(t.first);\n\n if(comparedFirst != 0)\n return comparedFirst;\n\n if(this.second == null)\n return t.getSecond() == null ? 0 : -1;\n\n int comparedSecond = this.second.compareTo(t.second);\n\n if(comparedSecond != 0)\n return comparedSecond;\n\n if(this.third == null)\n return t.getThird() == null ? 0 : -1;\n\n return this.third.compareTo(t.third);\n }\n}\n" }, { "alpha_fraction": 0.5997331738471985, "alphanum_fraction": 0.6004002690315247, "avg_line_length": 24.406780242919922, "blob_id": "35148b7bc194ddcc981b340496e874cc7220ef89", "content_id": "f562246cf83ff86137c49183e6b8dd885ed82314", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1509, "license_type": "permissive", "max_line_length": 78, "num_lines": 59, "path": "/AlgoLib_Cpp/include/algolib/math/primes.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY DLA LICZB PIERWSZYCH\n#ifndef _PRIMES_HPP_\n#define _PRIMES_HPP_\n\n#include <cstdlib>\n#include <ctime>\n#include <algorithm>\n\n#include \"maths.hpp\"\n\nnamespace detail\n{\n /\n * Rozkładanie liczby do testu Millera-Rabina.\n * @param number rozkładana liczba\n * @return rozkład liczby\n /\n std::pair<long long int, long long int> distribute(long long int number);\n}\n\nnamespace algolib\n{\n namespace math\n {\n /\n Wyznaczanie liczb pierwszych na przedziale domkniętym.\n * @param min_number dolna granica przedziału\n * @param max_number górna granica przedziału\n * @return lista liczb pierwszych\n /\n std::vector<size_t> find_primes(size_t min_number, size_t max_number);\n\n /\n Wyznaczanie liczb pierwszych od zera.\n * @param max_number górna granica\n * @return lista liczb pierwszych\n /\n inline std::vector<size_t> find_primes(size_t max_number)\n {\n return find_primes(0, max_number);\n }\n\n /\n Test pierwszości Fermata.\n * @param number testowana liczba\n * @return czy liczba prawdopodobnie jest pierwsza\n /\n bool test_fermat(long long int number);\n\n /\n Test pierwszości Millera-Rabina.\n * @param number testowana liczba\n * @return czy liczba prawdopodobnie jest pierwsza\n /\n bool test_miller(long long int number);\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.5384615659713745, "alphanum_fraction": 0.5992980599403381, "avg_line_length": 23.248226165771484, "blob_id": "51e2d18ab94ce40917891f65cbbca33f18dce140", "content_id": "4bdd654f61e94f2c6d1288b8549a3a8643082e29", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 6839, "license_type": "permissive", "max_line_length": 77, "num_lines": 282, "path": "/AlgoLib_Python/tests/test_maths.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA ALGORYTMÓW MATEMATYCZNYCH\"\"\"\nimport unittest\nfrom math import isnan\nfrom algolib.math import gcd, lcm, power_mod, mult_mod\n\n\nclass MathsTest(unittest.TestCase):\n def __init__(self, args, *kwargs):\n super().__init__(args, *kwargs)\n\n def setUp(self):\n pass\n\n def tearDown(self):\n pass\n\n def test_gcd_when_numbers_are_composite(self):\n number1 = 161\n number2 = 46\n\n result = gcd(number1, number2)\n\n self.assertEqual(23, result)\n\n def test_gcd_when_numbers_are_prime(self):\n number1 = 127\n number2 = 41\n\n result = gcd(number1, number2)\n\n self.assertEqual(1, result)\n\n def test_gcd_when_numbers_are_mutually_prime(self):\n number1 = 119\n number2 = 57\n\n result = gcd(number1, number2)\n\n self.assertEqual(1, result)\n\n def test_gcd_when_one_of_numbers_is_multiple_of_another(self):\n number1 = 272\n number2 = 34\n\n result = gcd(number1, number2)\n\n self.assertEqual(number2, result)\n\n def test_gcd_when_one_of_numbers_is_zero(self):\n number1 = 96\n number2 = 0\n\n result = gcd(number1, number2)\n\n self.assertEqual(number1, result)\n\n def test_lcm_when_numbers_are_composite(self):\n number1 = 161\n number2 = 46\n\n result = lcm(number1, number2)\n\n self.assertEqual(322, result)\n\n def test_lcm_when_numbers_are_prime(self):\n number1 = 127\n number2 = 41\n\n result = lcm(number1, number2)\n\n self.assertEqual(5207, result)\n\n def test_lcm_when_numbers_are_mutually_prime(self):\n number1 = 119\n number2 = 57\n\n result = lcm(number1, number2)\n\n self.assertEqual(6783, result)\n\n def test_lcm_when_one_of_numbers_is_multiple_of_another(self):\n number1 = 272\n number2 = 34\n\n result = lcm(number1, number2)\n\n self.assertEqual(number1, result)\n\n def test_lcm_when_one_of_numbers_is_zero(self):\n number1 = 96\n number2 = 0\n\n result = lcm(number1, number2)\n\n self.assertEqual(number2, result)\n\n def test_power_mod_when_base_is_zero(self):\n number1 = 0\n number2 = 14\n number3 = 0\n\n result = power_mod(number1, number2, number3)\n\n self.assertEqual(number1, result)\n\n def test_power_mod_when_exponent_is_zero(self):\n number1 = 14\n number2 = 0\n number3 = 0\n\n result = power_mod(number1, number2, number3)\n\n self.assertEqual(1, result)\n\n def test_power_mod_when_base_and_exponent_are_zero(self):\n number1 = 0\n number2 = 0\n number3 = 0\n\n result = power_mod(number1, number2, number3)\n\n self.assertTrue(isnan(result))\n\n def test_power_mod_when_base_and_exponent_are_positive(self):\n number1 = 3\n number2 = 10\n number3 = 0\n\n result = power_mod(number1, number2, number3)\n\n self.assertEqual(59049, result)\n\n def test_power_mod_when_base_is_negative_and_exponent_is_even(self):\n number1 = -3\n number2 = 10\n number3 = 0\n\n result = power_mod(number1, number2, number3)\n\n self.assertEqual(59049, result)\n\n def test_power_mod_when_base_is_negative_and_exponent_is_odd(self):\n number1 = -3\n number2 = 9\n number3 = 0\n\n result = power_mod(number1, number2, number3)\n\n self.assertEqual(-19683, result)\n\n def test_power_mod_when_exponent_is_negative(self):\n number1 = 3\n number2 = -10\n number3 = 0\n\n with self.assertRaises(ArithmeticError):\n power_mod(number1, number2, number3)\n\n def test_power_mod_when_modulo_and_base_are_positive(self):\n number1 = 5\n number2 = 11\n number3 = 10000\n\n result = power_mod(number1, number2, number3)\n\n self.assertEqual(8125, result)\n\n def test_power_mod_when_modulo_is_positive_and_base_is_negative(self):\n number1 = -5\n number2 = 11\n number3 = 10000\n\n result = power_mod(number1, number2, number3)\n\n self.assertEqual(1875, result)\n\n def test_power_mod_when_modulo_is_negative(self):\n number1 = 5\n number2 = 11\n number3 = -10000\n\n with self.assertRaises(ArithmeticError):\n power_mod(number1, number2, number3)\n\n def test_mult_mod_when_factor1_is_zero(self):\n number1 = 0\n number2 = 14\n number3 = 0\n\n result = mult_mod(number1, number2, number3)\n\n self.assertEqual(number1, result)\n\n def test_power_mod_when_factor2_is_zero(self):\n number1 = 14\n number2 = 0\n number3 = 0\n\n result = mult_mod(number1, number2, number3)\n\n self.assertEqual(number2, result)\n\n def test_mult_mod_when_factors_are_zero(self):\n number1 = 0\n number2 = 0\n number3 = 0\n\n result = mult_mod(number1, number2, number3)\n\n self.assertEqual(number1, result)\n\n def test_mult_mod_when_factor1_is_negative_and_factor2_is_positive(self):\n number1 = -3\n number2 = 10\n number3 = 0\n\n result = mult_mod(number1, number2, number3)\n\n self.assertEqual(-30, result)\n\n def test_mult_mod_when_factor1_is_positive_and_factor2_is_negative(self):\n number1 = 3\n number2 = -10\n number3 = 0\n\n result = mult_mod(number1, number2, number3)\n\n self.assertEqual(-30, result)\n\n def test_mult_mod_when_factors_are_negative(self):\n number1 = -3\n number2 = -10\n number3 = 0\n\n result = mult_mod(number1, number2, number3)\n\n self.assertEqual(30, result)\n\n def test_mult_mod_when_modulo_and_factors_are_positive(self):\n number1 = 547\n number2 = 312\n number3 = 10000\n\n result = mult_mod(number1, number2, number3)\n\n self.assertEqual(664, result)\n\n def test_mult_mod_when_modulo_is_positive_and_factor1_is_negative(self):\n number1 = -547\n number2 = 312\n number3 = 10000\n\n result = mult_mod(number1, number2, number3)\n\n self.assertEqual(9336, result)\n\n def test_mult_mod_when_modulo_is_positive_and_factor2_is_negative(self):\n number1 = 547\n number2 = -312\n number3 = 10000\n\n result = mult_mod(number1, number2, number3)\n\n self.assertEqual(9336, result)\n\n def test_mult_mod_when_modulo_is_positive_and_factors_are_negative(self):\n number1 = -547\n number2 = -312\n number3 = 10000\n\n result = mult_mod(number1, number2, number3)\n\n self.assertEqual(664, result)\n\n def test_mult_mod_when_modulo_is_negative(self):\n number1 = 547\n number2 = 312\n number3 = -10000\n\n with self.assertRaises(ArithmeticError):\n mult_mod(number1, number2, number3)\n" }, { "alpha_fraction": 0.2969993054866791, "alphanum_fraction": 0.36901605129241943, "avg_line_length": 41.90419006347656, "blob_id": "9be8bbcee98f2b8e0a4536f3c72806d9f9d02cfc", "content_id": "fb0c2938362c6b684f48e3e880323a28c2d09af0", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 7169, "license_type": "permissive", "max_line_length": 96, "num_lines": 167, "path": "/AlgoLib_Java/test/refhumbold/algolib/graphs/PathsTest.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMÓW WYZNACZANIA NAJKRÓTSZYCH ŚCIEŻEK\npackage refhumbold.algolib.graphs;\n\nimport java.util.Arrays;\nimport java.util.List;\nimport org.junit.After;\nimport org.junit.Assert;\nimport org.junit.Before;\nimport org.junit.Test;\n\nimport refhumbold.algolib.tuples.Triple;\n\npublic class PathsTest\n{\n private DirectedWeightedSimpleGraph diwgraph;\n private UndirectedWeightedSimpleGraph uwgraph;\n\n @Before\n public void setUp()\n {\n diwgraph = new DirectedWeightedSimpleGraph(10, Arrays.asList(Triple.make(0, 1, 4.0),\n Triple.make(1, 4, 7.0),\n Triple.make(1, 7, 12.0),\n Triple.make(2, 4, 6.0),\n Triple.make(2, 6, 8.0),\n Triple.make(3, 0, 3.0),\n Triple.make(3, 7, 5.0),\n Triple.make(4, 5, 1.0),\n Triple.make(4, 3, 10.0),\n Triple.make(5, 6, 4.0),\n Triple.make(5, 8, 2.0),\n Triple.make(6, 5, 7.0),\n Triple.make(7, 5, 2.0),\n Triple.make(7, 8, 6.0),\n Triple.make(8, 9, 10.0),\n Triple.make(9, 6, 3.0)));\n\n uwgraph = new UndirectedWeightedSimpleGraph(10, Arrays.asList(Triple.make(0, 1, 4.0),\n Triple.make(1, 4, 7.0),\n Triple.make(1, 7, 12.0),\n Triple.make(2, 6, 8.0),\n Triple.make(3, 0, 3.0),\n Triple.make(3, 7, 5.0),\n Triple.make(4, 5, 1.0),\n Triple.make(4, 3, 10.0),\n Triple.make(5, 8, 2.0),\n Triple.make(7, 5, 2.0),\n Triple.make(7, 8, 6.0),\n Triple.make(9, 6, 3.0)));\n }\n\n @After\n public void tearDown()\n {\n diwgraph = null;\n uwgraph = null;\n }\n\n @Test\n public void testBellmanFordWhenDirectedGraph()\n {\n Integer source = 1;\n\n diwgraph.addWeightedEdge(2, 1, -2.0);\n\n List<Double> result = Paths.bellmanFord(diwgraph, source);\n\n Assert.assertArrayEquals(\n new Double[]{20.0, 0.0, Graph.INF, 17.0, 7.0, 8.0, 12.0, 12.0, 10.0, 20.0},\n result.toArray());\n }\n\n @Test\n public void testBellmanFordWhenUndirectedGraph()\n {\n Integer source = 1;\n\n List<Double> result = Paths.bellmanFord(uwgraph.asDirected(), source);\n double i = Graph.INF;\n\n Assert.assertArrayEquals(new Double[]{4.0, 0.0, i, 7.0, 7.0, 8.0, i, 10.0, 10.0, i},\n result.toArray());\n }\n\n @Test(expected = IllegalStateException.class)\n public void testBellmanFordWhenNegativeCycle()\n {\n Integer source = 1;\n\n diwgraph.addWeightedEdge(8, 3, -20.0);\n\n Paths.bellmanFord(diwgraph, source);\n }\n\n @Test\n public void testDijkstraWhenDirectedGraph()\n {\n Integer source = 1;\n\n List<Double> result = Paths.dijkstra(diwgraph, source);\n\n Assert.assertArrayEquals(\n new Double[]{20.0, 0.0, Graph.INF, 17.0, 7.0, 8.0, 12.0, 12.0, 10.0, 20.0},\n result.toArray());\n }\n\n @Test\n public void testDijkstraWhenUndirectedGraph()\n {\n Integer source = 1;\n\n List<Double> result = Paths.dijkstra(uwgraph, source);\n double i = Graph.INF;\n\n Assert.assertArrayEquals(new Double[]{4.0, 0.0, i, 7.0, 7.0, 8.0, i, 10.0, 10.0, i},\n result.toArray());\n }\n\n @Test(expected = IllegalStateException.class)\n public void testDijkstraWhenNegativeEdge()\n {\n Integer source = 1;\n\n diwgraph.addWeightedEdge(2, 1, -2.0);\n\n Paths.dijkstra(diwgraph, source);\n }\n\n @Test\n public void testFloydWarshallWhenDirectedGraph()\n {\n diwgraph.addWeightedEdge(2, 1, -2.0);\n\n double[][] result = Paths.floydWarshall(diwgraph);\n double i = Graph.INF;\n\n Assert.assertArrayEquals(\n new double[][]{{0.0, 4.0, i, 21.0, 11.0, 12.0, 16.0, 16.0, 14.0, 24.0},\n {20.0, 0.0, i, 17.0, 7.0, 8.0, 12.0, 12.0, 10.0, 20.0},\n {18.0, -2.0, 0.0, 15.0, 5.0, 6.0, 8.0, 10.0, 8.0, 18.0},\n {3.0, 7.0, i, 0.0, 14.0, 7.0, 11.0, 5.0, 9.0, 19.0},\n {13.0, 17.0, i, 10.0, 0.0, 1.0, 5.0, 15.0, 3.0, 13.0},\n {i, i, i, i, i, 0.0, 4.0, i, 2.0, 12.0},\n {i, i, i, i, i, 7.0, 0, i, 9.0, 19.0},\n {i, i, i, i, i, 2.0, 6.0, 0.0, 4.0, 14.0},\n {i, i, i, i, i, 20.0, 13.0, i, 0.0, 10.0},\n {i, i, i, i, i, 10.0, 3.0, i, 12.0, 0.0}}, result);\n }\n\n @Test\n public void testFloydWarshallWhenUndirectedGraph()\n {\n double[][] result = Paths.floydWarshall(uwgraph.asDirected());\n Double i = Graph.INF;\n\n Assert.assertArrayEquals(new double[][]{{0.0, 4.0, i, 3.0, 11.0, 10.0, i, 8.0, 12.0, i},\n {4.0, 0.0, i, 7.0, 7.0, 8.0, i, 10.0, 10.0, i},\n {i, i, 0.0, i, i, i, 8.0, i, i, 11.0},\n {3.0, 7.0, i, 0.0, 8.0, 7.0, i, 5.0, 9.0, i},\n {11.0, 7.0, i, 8.0, 0.0, 1.0, i, 3.0, 3.0, i},\n {10, 8, i, 7.0, 1.0, 0.0, i, 2.0, 2.0, i},\n {i, i, 8.0, i, i, i, 0.0, i, i, 3.0},\n {8.0, 10.0, i, 5.0, 3.0, 2.0, i, 0.0, 4.0, i},\n {12.0, 10.0, i, 9.0, 3.0, 2.0, i, 4.0, 0.0, i},\n {i, i, 11.0, i, i, i, 3.0, i, i, 0.0}}, result);\n }\n}\n" }, { "alpha_fraction": 0.533351480960846, "alphanum_fraction": 0.5347127914428711, "avg_line_length": 24.685314178466797, "blob_id": "fa0e731a3e02b17260a3206f037b7f46bfeb9dd2", "content_id": "2f82f460b46ac4ec8238b8616aa1b8ba51c13805", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C#", "length_bytes": 3717, "license_type": "permissive", "max_line_length": 80, "num_lines": 143, "path": "/AlgoLib_Csharp/src/Graph.cs", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURY GRAFÓW\nusing System;\nusing System.Linq;\nusing System.Collections.Generic;\n\nnamespace Algolib.Graphs\n{\n public interface IGraph\n {\n /// <summary>\n /// Oznaczenie nieskończoności.\n /// </summary>\n double Inf\n {\n get;\n }\n\n /// <summary>\n /// Liczba wierzchołków.\n /// </summary>\n uint VerticesNumber\n {\n get;\n }\n\n /// <summary>\n /// Liczba krawędzi.\n /// </summary>\n uint EdgesNumber\n {\n get;\n }\n\n /// <returns>lista wierzchołków</returns>\n IEnumerable<uint> GetVertices();\n\n /// <returns>lista krawędzi</returns>\n IEnumerable<Tuple<uint, uint>> GetEdges();\n\n /// <summary>\n /// Dodawanie nowego wierzchołka.\n /// </summary>\n /// <returns>oznaczenie wierzchołka</returns>\n uint AddVertex();\n\n /// <summary>\n /// Dodawanie nowej krawędzi.\n /// </summary>\n /// <param name=\"v\">początkowy wierzchołek</param>\n /// <param name=\"u\">końcowy wierzchołek</param>\n void AddEdge(uint v, uint u);\n\n /// <param name=\"v\">numer wierzchołka</param>\n /// <returns>lista sąsiadów wierzchołka</returns>\n IEnumerable<uint> GetNeighbours(uint v);\n\n /// <param name=\"v\">numer wierzchołka</param>\n /// <returns>stopień wyjściowy wierzchołka</returns>\n uint GetOutdegree(uint v);\n\n /// <param name=\"v\">numer wierzchołka</param>\n /// <returns>stopień wejściowy wierzchołka</returns>\n uint GetIndegree(uint v);\n }\n\n public interface IWeightedGraph : IGraph\n {\n /// <returns>lista krawędzi z wagami</returns>\n IEnumerable<Tuple<uint, uint, double>> GetWeightedEdges();\n\n /// <summary>\n /// Dodawanie nowej krawędzi z jej wagą.\n /// </summary>\n /// <param name=\"v\">początkowy wierzchołek</param>\n /// <param name=\"u\">końcowy wierzchołek</param>\n /// <param name=\"wg\">waga krawędzi</param>\n void AddWeightedEdge(uint v, uint u, double wg);\n\n /// <param name=\"v\">numer wierzchołka</param>\n /// <returns>lista sąsiadów wierzchołka wraz z wagami krawędzi</returns>\n IEnumerable<Tuple<uint, double>> GetWeightedNeighbours(uint v);\n }\n\n public abstract class SimpleGraph : IGraph\n {\n /// <summary>\n /// Domyślna waga krawędzi.\n /// </summary>\n protected static const double DEFAULT_WEIGHT = 1.0;\n\n /// <summary>\n /// Lista sąsiedztwa grafu.\n /// </summary>\n protected List<HashSet<Tuple<uint, double>> graphrepr;\n\n public double Inf\n {\n get\n {\n return Double.PositiveInfinity;\n }\n }\n\n public uint VerticesNumber\n {\n get\n {\n return graphrepr.Count;\n }\n }\n\n public abstract uint EdgesNumber\n {\n get;\n }\n\n public IEnumerable<uint> GetVertices()\n {\n return Enumerable.Range(0, VerticesNumber);\n }\n\n public abstract IEnumerable<Tuple<uint, uint>> GetEdges();\n\n uint AddVertex()\n {\n graphrepr.Add(new HashSet<Tuple<uint, double>>());\n\n return graphrepr.Count - 1;\n }\n\n public IEnumerable<uint> GetNeighbours(uint v)\n {\n return graphrepr[v].Select(wv => wv.Item1);\n }\n\n public uint GetOutdegree(uint v)\n {\n return graphrepr[v].Count;\n }\n\n public abstract uint GetIndegree(uint v);\n }\n}\n" }, { "alpha_fraction": 0.5236533880233765, "alphanum_fraction": 0.5632318258285522, "avg_line_length": 32.622047424316406, "blob_id": "89152f98c152d59e8ee4ec0ca746ec9cc8b31fa6", "content_id": "f5e528daae4369a93649ea9bd7b490a2efd01e92", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4271, "license_type": "permissive", "max_line_length": 94, "num_lines": 127, "path": "/AlgoLib_Python/tests/test_directed_graph.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA GRAFÓW SKIEROWANYCH\"\"\"\nimport unittest\nfrom algolib.graphs import DirectedSimpleGraph\n\n\nclass DirectedSimpleGraphTest(unittest.TestCase):\n def __init__(self, args, *kwargs):\n super().__init__(args, *kwargs)\n self.__test_object = None\n\n def setUp(self):\n self.__test_object = DirectedSimpleGraph(10)\n\n def tearDown(self):\n self.__test_object = None\n\n def test_vertices_number(self):\n result = self.__test_object.vertices_number\n\n self.assertEqual(10, result)\n\n def test_get_vertices(self):\n result = self.__test_object.get_vertices()\n\n self.assertListEqual([0, 1, 2, 3, 4, 5, 6, 7, 8, 9],\n sorted(result))\n\n def test_add_vertex(self):\n result = self.__test_object.add_vertex()\n\n self.assertEqual(10, result)\n self.assertEqual(11, self.__test_object.vertices_number)\n\n def test_edges_number(self):\n self.__test_object.add_edge(7, 7)\n self.__test_object.add_edge(1, 5)\n self.__test_object.add_edge(2, 4)\n self.__test_object.add_edge(8, 0)\n self.__test_object.add_edge(6, 3)\n self.__test_object.add_edge(3, 6)\n self.__test_object.add_edge(9, 3)\n self.__test_object.add_edge(8, 0)\n\n result = self.__test_object.edges_number\n\n self.assertEqual(7, result)\n\n def test_get_edges(self):\n self.__test_object.add_edge(7, 7)\n self.__test_object.add_edge(1, 5)\n self.__test_object.add_edge(2, 4)\n self.__test_object.add_edge(8, 0)\n self.__test_object.add_edge(6, 3)\n self.__test_object.add_edge(3, 6)\n self.__test_object.add_edge(9, 3)\n self.__test_object.add_edge(8, 0)\n\n result = self.__test_object.get_edges()\n\n self.assertListEqual([(1, 5), (2, 4), (3, 6), (6, 3), (7, 7), (8, 0), (9, 3)],\n sorted(result))\n\n def test_add_edge(self):\n self.__test_object.add_edge(1, 5)\n self.__test_object.add_edge(1, 5)\n self.__test_object.add_edge(1, 1)\n\n self.assertEqual(2, self.__test_object.edges_number)\n self.assertListEqual([1, 5], sorted(self.__test_object.get_neighbours(1)))\n self.assertListEqual([], sorted(self.__test_object.get_neighbours(5)))\n\n def test_get_neighbours(self):\n self.__test_object.add_edge(1, 1)\n self.__test_object.add_edge(1, 3)\n self.__test_object.add_edge(1, 4)\n self.__test_object.add_edge(1, 7)\n self.__test_object.add_edge(1, 9)\n self.__test_object.add_edge(2, 1)\n self.__test_object.add_edge(6, 1)\n\n result = self.__test_object.get_neighbours(1)\n\n self.assertListEqual([1, 3, 4, 7, 9], sorted(result))\n\n def test_get_outdegree(self):\n self.__test_object.add_edge(1, 1)\n self.__test_object.add_edge(1, 3)\n self.__test_object.add_edge(1, 4)\n self.__test_object.add_edge(1, 7)\n self.__test_object.add_edge(1, 9)\n self.__test_object.add_edge(2, 1)\n self.__test_object.add_edge(6, 1)\n\n result = self.__test_object.get_outdegree(1)\n\n self.assertEqual(5, result)\n\n def test_get_indegree(self):\n self.__test_object.add_edge(1, 1)\n self.__test_object.add_edge(3, 1)\n self.__test_object.add_edge(4, 1)\n self.__test_object.add_edge(7, 1)\n self.__test_object.add_edge(9, 1)\n self.__test_object.add_edge(1, 2)\n self.__test_object.add_edge(1, 6)\n\n result = self.__test_object.get_indegree(1)\n\n self.assertEqual(5, result)\n\n def test_reverse(self):\n self.__test_object.add_edge(1, 2)\n self.__test_object.add_edge(3, 5)\n self.__test_object.add_edge(4, 9)\n self.__test_object.add_edge(5, 4)\n self.__test_object.add_edge(5, 7)\n self.__test_object.add_edge(6, 2)\n self.__test_object.add_edge(6, 6)\n self.__test_object.add_edge(7, 8)\n self.__test_object.add_edge(9, 1)\n self.__test_object.add_edge(9, 6)\n\n self.__test_object.reverse()\n\n self.assertListEqual([(1, 9), (2, 1), (2, 6), (4, 5), (5, 3), (6, 6), (6, 9),\n (7, 5), (8, 7), (9, 4)], sorted(self.__test_object.get_edges()))\n" }, { "alpha_fraction": 0.599094569683075, "alphanum_fraction": 0.6081488728523254, "avg_line_length": 36.230770111083984, "blob_id": "13eaa5c6f96beca25924dcb7748f40c28f8f4ea1", "content_id": "bb9e02916b3a85443775d331ff12db4519e19f25", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2003, "license_type": "permissive", "max_line_length": 82, "num_lines": 52, "path": "/AlgoLib_Python/algolib/structures/disjoint_sets.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"STRUKTURA ZBIORÓW ROZŁĄCZNYCH UNION-FIND\"\"\"\r\n\r\n\r\nclass DisjointSets:\r\n def __init__(self, universe=None):\r\n # Słownik reprezentantów elementów.\r\n self.__represents = {} if universe is None else {i: i for i in universe}\r\n # Liczba zbiorów.\r\n self.__elems = len(self.__represents)\r\n\r\n def __len__(self):\r\n \"\"\":returns: liczba zbiorów\"\"\"\r\n return self.__elems\r\n\r\n def __contains__(self, element):\r\n \"\"\":param element: element\r\n :returns: czy element w jednym ze zbiorów\"\"\"\r\n return element in self.__represents\r\n\r\n def add_elem(self, element):\r\n \"\"\"Dodawanie nowego elementu jako singleton.\r\n :param element: nowy element\"\"\"\r\n if element in self.__represents:\r\n raise ValueError(\"Value {0} already present.\".format(element))\r\n\r\n self.__represents[element] = element\r\n self.__elems += 1\r\n\r\n def find_set(self, element):\r\n \"\"\"Ustalanie reprezentanta zbioru.\r\n :param element: element ze zbioru\r\n :returns: reprezentant elementu\"\"\"\r\n if self.__represents[element] != element:\r\n self.__represents[element] = self.find_set(self.__represents[element])\r\n\r\n return self.__represents[element]\r\n\r\n def union_set(self, element1, element2):\r\n \"\"\"Scalanie dwóch zbiorów.\r\n :param element1: element pierwszego zbioru\r\n :param element2: element drugiego zbioru\"\"\"\r\n if not self.is_same_set(element1, element2):\r\n self.__represents[self.find_set(element2)] = self.find_set(element1)\r\n self.__elems -= 1\r\n\r\n def is_same_set(self, element1, element2):\r\n \"\"\"Sprawdzanie, czy elementy należą do tego samego zbioru.\r\n :param element1: element pierwszego zbioru\r\n :param element2: element drugiego zbioru\r\n :returns: czy elementy znajdują się w jednym zbiorze\"\"\"\r\n return self.find_set(element1) == self.find_set(element2)\r\n" }, { "alpha_fraction": 0.6399108171463013, "alphanum_fraction": 0.6399108171463013, "avg_line_length": 22, "blob_id": "d9d539db123252b843a8206b436866cd3106adc6", "content_id": "79e54c7f9476043a65d03bf2a8eeba21527b3454", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 925, "license_type": "permissive", "max_line_length": 70, "num_lines": 39, "path": "/AlgoLib_Cpp/include/algolib/kmr.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// SŁOWNIK PODSŁÓW BAZOWYCH Z ALGORYTMEM KARPA-MILLERA-ROSENBERGA\n#ifndef _KMR_HPP_\n#define _KMR_HPP_\n\n#include <cstdlib>\n#include <algorithm>\n#include <map>\n#include <string>\n#include <tuple>\n#include <vector>\n\nnamespace detail\n{\n /\n Budowa podsłów złożonych z pojedynczych znaków.\n * @param text słowo\n * @return słownik podsłów bazowych\n /\n std::map<std::string, int> sign_letters(const std::string & text);\n\n /\n Budowa nowych podsłów o podwojonej długości.\n * @param new_length nowa długość podsłów\n /\n void double_length(int new_length, const std::string & text,\n std::map<std::string, int> & factors);\n}\n\nnamespace algolib\n{\n /\n Budowa słownika podsłów bazowych.\n * @param text słowo\n * @return słownik podsłów bazowych\n /\n std::map<std::string, int> kmr(const std::string & text);\n}\n\n#endif\n" }, { "alpha_fraction": 0.5169538855552673, "alphanum_fraction": 0.5953307151794434, "avg_line_length": 30.017240524291992, "blob_id": "abd55b2f68280b8bc13e047936af35626554d66e", "content_id": "4fe4147e4faac4b28bd1a179cd4231e005a6f919", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1801, "license_type": "permissive", "max_line_length": 75, "num_lines": 58, "path": "/AlgoLib_Python/tests/test_maximum_subarray.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA PODCIĄGU SPÓJNEGO O MAKSYMALNEJ SUMIE\"\"\"\nimport unittest\nfrom algolib import find_maximum_subarray, find_maximal_sum\n\n\nclass MaximumSubarrayTest(unittest.TestCase):\n def __init__(self, args, *kwargs):\n super().__init__(args, *kwargs)\n self.__sequence = None\n\n def setUp(self):\n pass\n\n def tearDown(self):\n self.__sequence = None\n\n def test_find_maximum_subarray1(self):\n self.__sequence = [3.5, 4.8, -1.6, 7.7, 2.1, -9.3, 0.8]\n\n result = find_maximum_subarray(self.__sequence)\n\n self.assertListEqual([3.5, 4.8, -1.6, 7.7, 2.1], result)\n\n def test_find_maximum_subarray2(self):\n self.__sequence = [-9.3, -1.2, 3.5, 4.8, -10.6, 7.7, 2.1, 0.8, 4.0]\n\n result = find_maximum_subarray(self.__sequence)\n\n self.assertListEqual([7.7, 2.1, 0.8, 4.0], result)\n\n def test_find_maximum_subarray_when_all_elements_are_negative(self):\n self.__sequence = [-9.0, -2.4, -3.07, -1.93, -12.67]\n\n result = find_maximum_subarray(self.__sequence)\n\n self.assertListEqual([], result)\n\n def test_find_maximumal_sum1(self):\n self.__sequence = [3.5, 4.8, -1.6, 7.7, 2.1, -9.3, 0.8]\n\n result = find_maximal_sum(self.__sequence)\n\n self.assertAlmostEqual(16.5, result, delta=0.000001)\n\n def test_find_maximumal_sum2(self):\n self.__sequence = [-9.3, -1.2, 3.5, 4.8, -10.6, 7.7, 2.1, 0.8, 4.0]\n\n result = find_maximal_sum(self.__sequence)\n\n self.assertAlmostEqual(14.6, result, delta=0.000001)\n\n def test_find_maximumal_sum_when_all_elements_are_negative(self):\n self.__sequence = [-9.0, -2.4, -3.07, -1.93, -12.67]\n\n result = find_maximal_sum(self.__sequence)\n\n self.assertAlmostEqual(0.0, result, delta=0.0)\n" }, { "alpha_fraction": 0.4967295229434967, "alphanum_fraction": 0.5151981711387634, "avg_line_length": 24.233009338378906, "blob_id": "2f190501e74e6dacdf6b4b4894a42ed3d9a260cb", "content_id": "3cf9d0ce0aaf548cb180b1f22edb9412089e9930", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2599, "license_type": "permissive", "max_line_length": 93, "num_lines": 103, "path": "/AlgoLib_Cpp/src/algolib/math/primes.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY DLA LICZB PIERWSZYCH\n#include \"algolib/math/primes.hpp\"\n\nnamespace alma = algolib::math;\n\nstd::vector<size_t> alma::find_primes(size_t min_number, size_t max_number)\n{\n if(max_number < min_number)\n throw std::invalid_argument(\n \"Second argument must be grater or equal to the first argument.\");\n\n std::vector<size_t> primes;\n std::vector<bool> is_prime;\n std::vector<bool> base_primes(static_cast<int>(sqrt(max_number) / 2), true);\n\n for(size_t i = min_number; i <= max_number; ++i)\n is_prime.push_back(i == 2 \|\| (i > 2 && i % 2 != 0));\n\n for(size_t i = 0; i < base_primes.size(); ++i)\n {\n size_t p = 2 i + 3;\n size_t begin = min_number < p * p ? p * p - min_number : (p - min_number % p) % p;\n\n for(size_t j = (p * p - 3) / 2; j < base_primes.size(); j += p)\n base_primes[j] = false;\n\n for(size_t j = begin; j < is_prime.size(); j += p)\n is_prime[j] = false;\n }\n\n for(size_t i = 0; i < is_prime.size(); ++i)\n if(is_prime[i])\n primes.push_back(min_number + i);\n\n return primes;\n}\n\nstd::pair<long long int, long long int> detail::distribute(long long int number)\n{\n long long int power = 2LL, exponent = 1LL;\n\n while(number % power == 0)\n {\n ++exponent;\n power <<= 1;\n }\n\n --exponent;\n\n return std::make_pair(exponent, number / (1 << exponent));\n}\n\nbool alma::test_fermat(long long int number)\n{\n if(number == 2 \|\| number == 3)\n return true;\n\n if(number < 2 \|\| number % 2 == 0 \|\| number % 3 == 0)\n return false;\n\n for(int i = 0; i < 12; ++i)\n {\n long long int rdv = 1 + rand() % (number - 1);\n\n if(gcd(rdv, number) > 1 \|\| power_mod(rdv, number - 1, number) != 1)\n return false;\n }\n\n return true;\n}\n\nbool alma::test_miller(long long int number)\n{\n if(number == 2 \|\| number == 3)\n return true;\n\n if(number < 2 \|\| number % 2 == 0 \|\| number % 3 == 0)\n return false;\n\n auto distribution = detail::distribute(number - 1);\n\n for(int i = 0; i < 12; ++i)\n {\n long long int rdv = 1 + rand() % (number - 1);\n\n if(power_mod(rdv, distribution.second, number) != 1)\n {\n bool is_composite = true;\n\n for(long long int j = 0LL; j < distribution.first; ++j)\n {\n long long int pwm = power_mod(rdv, (1LL << j) * distribution.second, number);\n\n is_composite = is_composite && pwm != number - 1;\n }\n\n if(is_composite)\n return false;\n }\n }\n\n return true;\n}\n" }, { "alpha_fraction": 0.46831199526786804, "alphanum_fraction": 0.5889701247215271, "avg_line_length": 28.044248580932617, "blob_id": "78a0330fb8af3154574281d3f8d3597bfea7ba01", "content_id": "da6540256c861ae3925c9075c866677b13f42ea6", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 3283, "license_type": "permissive", "max_line_length": 100, "num_lines": 113, "path": "/AlgoLib_Java/test/refhumbold/algolib/math/PrimesTest.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMÓW DLA LICZB PIERWSZYCH\npackage refhumbold.algolib.math;\n\nimport java.util.Collection;\nimport org.junit.After;\nimport org.junit.Assert;\nimport org.junit.Before;\nimport org.junit.Test;\n\npublic class PrimesTest\n{\n @Before\n public void setUp()\n {\n }\n\n @After\n public void tearDown()\n {\n }\n\n @Test(expected = IllegalArgumentException.class)\n public void testFindPrimesWhenTwoArgsDescending()\n {\n Primes.find(100, 30);\n }\n\n @Test\n public void testFindPrimesOneArgIsTwoArgsWithZeroAsMin()\n {\n Collection<Integer> result1 = Primes.find(100);\n Collection<Integer> result2 = Primes.find(0, 100);\n\n Assert.assertArrayEquals(result1.toArray(), result2.toArray());\n }\n\n @Test\n public void testFindPrimesOneArg()\n {\n Collection<Integer> result = Primes.find(100);\n\n Assert.assertArrayEquals(\n new Integer[]{2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67,\n 71, 73, 79, 83, 89, 97}, result.toArray());\n }\n\n @Test\n public void testFindPrimesOneArgWhenMaxIsPrime()\n {\n Collection<Integer> result = Primes.find(67);\n\n Assert.assertArrayEquals(\n new Integer[]{2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67},\n result.toArray());\n }\n\n @Test\n public void testFindPrimesOneArgWhenLessThanTwo()\n {\n Collection<Integer> result = Primes.find(1);\n\n Assert.assertArrayEquals(new Integer[]{}, result.toArray());\n }\n\n @Test\n public void testFindPrimesTwoArgs()\n {\n Collection<Integer> result = Primes.find(30, 200);\n\n Assert.assertArrayEquals(\n new Integer[]{31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97, 101, 103, 107,\n 109, 113, 127, 131, 137, 139, 149, 151, 157, 163, 167, 173, 179, 181, 191,\n 193, 197, 199}, result.toArray());\n }\n\n @Test\n public void testFindPrimesTwoArgsWhenMinLessThanSqrtOfMax()\n {\n Collection<Integer> result = Primes.find(5, 150);\n\n Assert.assertArrayEquals(\n new Integer[]{5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73,\n 79, 83, 89, 97, 101, 103, 107, 109, 113, 127, 131, 137, 139, 149},\n result.toArray());\n }\n\n @Test\n public void testFindPrimesTwoArgsWhenMinAndMaxAreFindPrimes()\n {\n Collection<Integer> result = Primes.find(137, 317);\n\n Assert.assertArrayEquals(\n new Integer[]{137, 139, 149, 151, 157, 163, 167, 173, 179, 181, 191, 193, 197, 199, 211,\n 223, 227, 229, 233, 239, 241, 251, 257, 263, 269, 271, 277, 281, 283, 293,\n 307, 311, 313, 317}, result.toArray());\n }\n\n @Test\n public void testFindPrimesTwoArgsWhenMinEqualsMaxAndPrime()\n {\n Collection<Integer> result = Primes.find(41, 41);\n\n Assert.assertArrayEquals(new Integer[]{41}, result.toArray());\n }\n\n @Test\n public void testFindPrimesTwoArgsWhenMinEqualsMaxAndComposite()\n {\n Collection<Integer> result = Primes.find(91, 91);\n\n Assert.assertArrayEquals(new Integer[]{}, result.toArray());\n }\n}\n" }, { "alpha_fraction": 0.5852563977241516, "alphanum_fraction": 0.6118589639663696, "avg_line_length": 40.599998474121094, "blob_id": "97dc73674c9ee75081a3e04e1a7504f7f546a568", "content_id": "95b4f346ca298da323528b9afe74a18c97a89d72", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3145, "license_type": "permissive", "max_line_length": 79, "num_lines": 75, "path": "/AlgoLib_Python/algolib/closest_points.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"ALGORYTM WYZNACZANIA NAJBLIŻSZEJ PARY PUNKTÓW NA PŁASZCZYŹNIE\"\"\"\nfrom math import hypot\n\n\ndef find_closest_points(points):\n \"\"\"FUNKCJA OBSŁUGUJĄCA DO WYSZUKIWANIA PUNKTÓW\n :param points: lista punktów\n :returns: para najbliższych punktów\"\"\"\n points_x = sorted(points)\n points_y = [(pt[0], pt[1], i) for i, pt in enumerate(points_x)]\n points_y.sort(key=lambda p: (p[1], p[0], p[2]), reverse=True)\n\n return _search_closest(points_x, points_y)\n\n\ndef _search_closest(points_x, points_y, index_begin=0, index_end=-1):\n \"\"\"ZNAJDOWANIE NAJBLIŻSZEJ PARY PUNKTÓW\n :param points_x: lista punktów posortowana po współrzędnej x\n :param points_y: lista punktów posortowana po współrzędnej y\n :param index_begin: początek fragmentu listy punktów po x\n :param index_end: koniec fragmentu listy punktów po x\n :returns: para najbliższych punktów\"\"\"\n def distance(pt1, pt2):\n return hypot(pt1[0] - pt2[0], pt1[1] - pt2[1])\n\n index_begin %= len(points_x)\n index_end %= len(points_x)\n\n if index_end - index_begin == 1:\n return (points_x[index_begin][0], points_x[index_end][0])\n\n if index_end - index_begin == 2:\n index_middle = index_begin + 1\n distance12 = distance(points_x[index_begin], points_x[index_middle])\n distance23 = distance(points_x[index_middle], points_x[index_end])\n distance31 = distance(points_x[index_begin], points_x[index_end])\n\n if distance12 <= distance23 and distance12 <= distance31:\n return (points_x[index_begin][0], points_x[index_middle][0])\n elif distance23 <= distance12 and distance23 <= distance31:\n return (points_x[index_middle][0], points_x[index_end][0])\n else:\n return (points_x[index_begin][0], points_x[index_end][0])\n\n index_middle = (index_begin + index_end) // 2\n middle_x = (points_x[index_middle][0] + points_x[index_middle + 1][0]) // 2\n points_yl = [p for p in points_y if p[2] <= index_middle]\n points_yr = [p for p in points_y if p[2] > index_middle]\n\n closest_l = _search_closest(points_x, points_yl, index_begin, index_middle)\n closest_r = _search_closest(\n points_x, points_yr, index_middle + 1, index_end)\n min_distance = min(distance(closest_l[0], closest_l[1]),\n distance(closest_r[0], closest_r[1]))\n belt_width = min_distance\n belt_points = [(i, pt[2] <= index_middle) for i, pt in enumerate(points_y)\n if middle_x - belt_width <= pt[0] <= middle_x + belt_width]\n\n for i in range(1, len(belt_points)):\n for j in range(i - 1, -1, -1):\n pt1 = belt_points[i][0]\n pt2 = belt_points[j][0]\n\n if points_y[pt2][1] < points_y[pt1][1] + belt_width:\n break\n\n if belt_points[i][1] != belt_points[j][1]:\n points_distance = distance(points_y[pt1], points_y[pt2])\n\n if points_distance < min_distance:\n min_distance = points_distance\n closest_points = (points_y[pt1], points_y[pt2])\n\n return closest_points\n" }, { "alpha_fraction": 0.5874168276786804, "alphanum_fraction": 0.6046581864356995, "avg_line_length": 36.89411926269531, "blob_id": "4500e16909860d5077aaecc03726091153765968", "content_id": "fd2bfbb62294e330eabc2252c581e66392fcdaf6", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3344, "license_type": "permissive", "max_line_length": 99, "num_lines": 85, "path": "/AlgoLib_Python/algolib/graphs/lca.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"NAJNIŻSZY WSPÓLNY PRZODEK DWÓCH WIERZCHOŁKÓW W DRZEWIE\"\"\"\r\nfrom math import log\r\n\r\n\r\ndef find_lca(treegraph, vertex1, vertex2, root=0):\r\n \"\"\"Wyznaczanie najniższego wspólnego przodka.\r\n :param treegraph: graf drzewo\r\n :param vertex1: wierzchołek 1\r\n :param vertex2: wierzchołek 2\r\n :param root: korzeń drzewa\r\n :returns: najniższy wspólny przodek\"\"\"\r\n if not treegraph.is_same_tree(vertex1, vertex2):\r\n raise ValueError(\"Vertices are not in the same tree.\")\r\n\r\n if not treegraph.is_same_tree(vertex1, root) \\\r\n or not treegraph.is_same_tree(vertex2, root):\r\n raise ValueError(\"Root vertex does not belong to the tree.\")\r\n\r\n return _LCAFinder(treegraph).search_lca(vertex1, vertex2, root)\r\n\r\n\r\nclass _LCAFinder:\r\n def __init__(self, treegraph):\r\n # Reprezentacja drzewa.\r\n self.__graph = treegraph\r\n # Skompresowane ścieżki do korzenia drzewa.\r\n self.__paths = [[] for v in self.__graph.get_vertices()]\r\n # Czas wejścia i wyjścia dla wierzchołka.\r\n self.__pre_post_times = [None] * self.__graph.vertices_number\r\n\r\n def search_lca(self, vertex1, vertex2, root):\r\n \"\"\"Wyszukiwanie najniższego wspólnego przodka.\r\n :param vertex1: wierzchołek 1\r\n :param vertex2: wierzchołek 2\r\n :param root: korzeń drzewa\r\n :returns: najniższy wspólny przodek\"\"\"\r\n self.__dfs(root, root, 0)\r\n\r\n for i in range(0, int(log(self.__graph.vertices_number, 2)) + 3):\r\n for v in self.__graph.get_vertices():\r\n if len(self.__paths[v]) > 0:\r\n self.__paths[v].append(self.__paths[self.__paths[v][i]][i])\r\n\r\n return self.__search(vertex1, vertex2)\r\n\r\n def __search(self, vertex1, vertex2):\r\n \"\"\"Wyszukiwanie najniższego wspólnego przodka.\r\n :param vertex1: wierzchołek 1\r\n :param vertex2: wierzchołek 2\r\n :returns: najniższy wspólny przodek\"\"\"\r\n def is_offspring(vt1, vt2):\r\n return self.__pre_post_times[vt1][0] >= self.__pre_post_times[vt2][0] \\\r\n and self.__pre_post_times[vt1][1] <= self.__pre_post_times[vt2][1]\r\n\r\n if is_offspring(vertex1, vertex2):\r\n return vertex2\r\n\r\n if is_offspring(vertex2, vertex1):\r\n return vertex1\r\n\r\n for candidate in reversed(self.__paths[vertex1]):\r\n if not is_offspring(vertex2, candidate):\r\n return self.__search(candidate, vertex2)\r\n\r\n return self.__search(self.__paths[vertex1][0], vertex2)\r\n\r\n def __dfs(self, vertex, parent, timer):\r\n \"\"\"Algorytm DFS z licznikiem czasu wyznaczający kolejne wierzchołki na ścieżce do korzenia.\r\n :param vertex: aktualny wierzchołek\r\n :param parent: ojciec wierzchołka\r\n :param timer: aktualny czas\r\n :returns: nowy czas po przetworzeniu wierzchołka\"\"\"\r\n self.__pre_post_times[vertex] = ()\r\n self.__paths[vertex].append(parent)\r\n pre_time = timer\r\n timer += 1\r\n\r\n for neighbour in self.__graph.get_neighbours(vertex):\r\n if self.__pre_post_times[neighbour] is None:\r\n timer = self.__dfs(neighbour, vertex, timer)\r\n\r\n self.__pre_post_times[vertex] = (pre_time, timer)\r\n\r\n return timer + 1\r\n" }, { "alpha_fraction": 0.514319121837616, "alphanum_fraction": 0.5277615189552307, "avg_line_length": 25.12213706970215, "blob_id": "2b55c611bd498ef07c12fcca858eee72dfec0e84", "content_id": "48cb07cd565efc492bc5a385058e135604b418a9", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 3454, "license_type": "permissive", "max_line_length": 98, "num_lines": 131, "path": "/AlgoLib_Java/src/refhumbold/algolib/structures/EquationSystem.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURA UKŁADÓW RÓWNAŃ LINIOWYCH Z ALGORYTMEM ELIMINACJI GAUSSA\npackage refhumbold.algolib.structures;\n\npublic class EquationSystem\n{\n /*\n Liczba równań układu.\n /\n private int equations;\n\n /\n Macierz współczynników równania.\n /\n private double[][] coeffs;\n\n /\n Wektor wyrazów wolnych równania.\n /\n private double[] freeTerms;\n\n public EquationSystem(int numEq)\n {\n equations = numEq;\n coeffs = new double[numEq][numEq];\n freeTerms = new double[numEq];\n }\n\n public int getEquationsNumber()\n {\n return equations;\n }\n\n /\n Wyliczanie rozwiązań układu równań liniowych.\n * @return wektor wyniku równania\n /\n public double[] solve()\n throws Exception\n {\n gaussianReduce();\n\n if(coeffs[equations - 1][equations - 1] == 0 && freeTerms[equations - 1] == 0)\n throw new InfiniteSolutionsException();\n\n if(coeffs[equations - 1][equations - 1] == 0 && freeTerms[equations - 1] != 0)\n throw new NoSolutionException();\n\n double[] solution = new double[equations];\n\n solution[equations - 1] = freeTerms[equations - 1] / coeffs[equations - 1][equations - 1];\n\n for(int equ = equations - 2; equ >= 0; --equ)\n {\n double value = freeTerms[equ];\n\n for(int i = equations - 1; i > equ; --i)\n value -= coeffs[equ][i] solution[i];\n\n solution[equ] = value / coeffs[equ][equ];\n }\n\n return solution;\n }\n\n /*\n Algorytm eliminacji Gaussa.\n /\n public void gaussianReduce()\n {\n for(int equ = 0; equ < equations - 1; ++equ)\n {\n int index_min = equ;\n\n for(int i = equ + 1; i < equations; ++i)\n {\n double min_coef = coeffs[index_min][equ];\n double act_coef = coeffs[i][equ];\n\n if(act_coef != 0 && (min_coef == 0 \|\| Math.abs(act_coef) < Math.abs(min_coef)))\n index_min = i;\n }\n\n if(coeffs[index_min][equ] != 0)\n {\n change(index_min, equ);\n\n for(int i = equ + 1; i < equations; ++i)\n {\n double param = coeffs[i][equ] / coeffs[equ][equ];\n\n linearComb(i, equ, -param);\n }\n }\n }\n }\n\n /\n Zamiana równań miejscami.\n * @param eqnum1 numer pierwszego równania\n * @param eqnum2 numer drugiego równania\n /\n public void change(int eqnum1, int eqnum2)\n {\n double temp;\n\n for(int i = 0; i < equations; ++i)\n {\n temp = coeffs[eqnum1][i];\n coeffs[eqnum1][i] = coeffs[eqnum2][i];\n coeffs[eqnum2][i] = temp;\n }\n\n temp = freeTerms[eqnum1];\n freeTerms[eqnum1] = freeTerms[eqnum2];\n freeTerms[eqnum2] = temp;\n }\n\n /\n Przekształcenie równania przez kombinację liniową z innym równaniem.\n * @param eqnum1 numer równania przekształcanego\n * @param eqnum2 numer drugiego równania\n * @param constans stała kombinacji liniowej\n /\n public void linearComb(int eqnum1, int eqnum2, double constans)\n {\n for(int i = 0; i < equations; ++i)\n coeffs[eqnum1][i] += constans coeffs[eqnum2][i];\n\n freeTerms[eqnum1] += constans * freeTerms[eqnum2];\n }\n}\n" }, { "alpha_fraction": 0.6038500666618347, "alphanum_fraction": 0.6149949431419373, "avg_line_length": 30.5, "blob_id": "f0077ca4c7d98b9c7d47f236db14ad6f9f952d9a", "content_id": "9baefe939436e681ec982d863d48f45d15b5f99a", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2962, "license_type": "permissive", "max_line_length": 99, "num_lines": 94, "path": "/AlgoLib_Python/algolib/graphs/directed_graph.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"STRUKTURY GRAFÓW SKIEROWANYCH\"\"\"\nfrom abc import ABCMeta, abstractmethod\nfrom .graph import Graph, SimpleGraph, WeightedGraph, NoSuchVertexException\n\n\nclass DirectedGraph(Graph, metaclass=ABCMeta):\n def __init__(self):\n super().__init__()\n\n @abstractmethod\n def reverse(self):\n \"\"\"Odwracanie skierowania grafu.\"\"\"\n pass\n\n\nclass DirectedWeightedGraph(DirectedGraph, WeightedGraph, metaclass=ABCMeta):\n def __init__(self):\n super().__init__()\n\n\nclass DirectedSimpleGraph(SimpleGraph, DirectedGraph):\n def __init__(self, n, edges=None):\n super().__init__(n)\n\n if edges is not None:\n for e in edges:\n self.add_edge(e[0], e[1])\n\n @property\n def edges_number(self):\n return sum(1 for v in self.get_vertices() for u in self.get_neighbours(v))\n\n def get_edges(self):\n return ((v, u) for v in self.get_vertices() for u in self.get_neighbours(v))\n\n def add_edge(self, vertex1, vertex2):\n if not 0 <= vertex1 < self.vertices_number:\n raise NoSuchVertexException(str(vertex1))\n\n if not 0 <= vertex2 < self.vertices_number:\n raise NoSuchVertexException(str(vertex2))\n\n self._graphrepr[vertex1].add((vertex2, self._DEFAULT_WEIGHT))\n\n def get_indegree(self, vertex):\n if not 0 <= vertex < self.vertices_number:\n raise NoSuchVertexException(str(vertex))\n\n return sum(1 for _, v in self.get_edges() if v == vertex)\n\n def reverse(self):\n revgraphrepr = [set() for _ in self.get_vertices()]\n\n for v, u in self.get_edges():\n revgraphrepr[u].add((v, self._DEFAULT_WEIGHT))\n\n self._graphrepr = revgraphrepr\n\n\nclass DirectedWeightedSimpleGraph(DirectedSimpleGraph, DirectedWeightedGraph):\n def __init__(self, n, edges=None):\n super().__init__(n)\n\n if edges is not None:\n for e in map(lambda e: e if len(e) > 2 else (e[0], e[1], self._DEFAULT_WEIGHT), edges):\n self.add_weighted_edge(e[0], e[1], e[2])\n\n def get_weighted_edges(self):\n return ((v, u, wg) for v in self.get_vertices()\n for u, wg in self.get_weighted_neighbours(v))\n\n def add_weighted_edge(self, vertex1, vertex2, weight):\n if not 0 <= vertex1 < self.vertices_number:\n raise NoSuchVertexException(str(vertex1))\n\n if not 0 <= vertex2 < self.vertices_number:\n raise NoSuchVertexException(str(vertex2))\n\n self._graphrepr[vertex1].add((vertex2, weight))\n\n def get_weighted_neighbours(self, vertex):\n if not 0 <= vertex < self.vertices_number:\n raise NoSuchVertexException(str(vertex))\n\n return iter(self._graphrepr[vertex])\n\n def reverse(self):\n revgraphrepr = [set() for _ in self.get_vertices()]\n\n for v, u, wg in self.get_weighted_edges():\n revgraphrepr[u].add((v, wg))\n\n self._graphrepr = revgraphrepr\n" }, { "alpha_fraction": 0.5021758079528809, "alphanum_fraction": 0.5265448093414307, "avg_line_length": 27.461538314819336, "blob_id": "e269a13d8ced3d93653c30be6861e1e70fe9cf25", "content_id": "b2cdcdc19e363c2955daf5a7552383b7c185016f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1153, "license_type": "permissive", "max_line_length": 98, "num_lines": 39, "path": "/AlgoLib_Cpp/src/algolib/convex_hull.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// OTOCZKA WYPUKŁA PUNKTÓW NA PŁASZCZYŹNIE\r\n#include \"algolib/convex_hull.hpp\"\r\n\r\nstd::vector<point2D_t> algolib::find_convex_hull(std::vector<point2D_t> points)\r\n{\r\n std::vector<point2D_t> hull;\r\n\r\n auto cross_product = [](const point2D_t & pt1, const point2D_t & pt2, const point2D_t & pt3) {\r\n return (pt1.first - pt2.first) * (pt3.second - pt2.second)\r\n - (pt3.first - pt2.first) * (pt1.second - pt2.second);\r\n };\r\n\r\n sort(points.begin(), points.end());\r\n hull.push_back(points[0]);\r\n hull.push_back(points[1]);\r\n\r\n for(auto it = points.begin() + 2; it != points.end(); ++it)\r\n {\r\n while(hull.size() > 1 && cross_product((hull.end() - 2), (hull.end() - 1), it) <= 0)\r\n hull.pop_back();\r\n\r\n hull.push_back(it);\r\n }\r\n\r\n size_t upper_size = hull.size();\r\n\r\n for(auto it = points.rbegin() + 2; it != points.rend(); ++it)\r\n {\r\n while(hull.size() > upper_size\r\n && cross_product((hull.end() - 2), (hull.end() - 1), it) <= 0)\r\n hull.pop_back();\r\n\r\n hull.push_back(it);\r\n }\r\n\r\n hull.pop_back();\r\n\r\n return hull;\r\n}\r\n" }, { "alpha_fraction": 0.6604938507080078, "alphanum_fraction": 0.6604938507080078, "avg_line_length": 15.199999809265137, "blob_id": "48746c8b9fff1283a44553a8e702f81a6912dc6c", "content_id": "7267332bfe16271e97d4144c2942a3ad4ee24cbb", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 162, "license_type": "permissive", "max_line_length": 36, "num_lines": 10, "path": "/AlgoLib_Java/src/refhumbold/algolib/graphs/DirectedGraph.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "package refhumbold.algolib.graphs;\n\npublic interface DirectedGraph\n extends Graph\n{\n /*\n Odwracanie skierowania grafu.\n /\n void reverse();\n}\n" }, { "alpha_fraction": 0.5248419046401978, "alphanum_fraction": 0.5627822875976562, "avg_line_length": 22.0625, "blob_id": "764fdd48a03aa7f24e042b808839ca408e488cbe", "content_id": "fc2046edbf9e23d406b0bf3240dd81cf12e5fb88", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1109, "license_type": "permissive", "max_line_length": 91, "num_lines": 48, "path": "/AlgoLib_Cpp/test/mst_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMÓW MINIMALNEGO DRZEWA SPINAJĄCEGO\n#include <gtest/gtest.h>\n#include \"algolib/graphs/mst.hpp\"\n\nnamespace algr = algolib::graphs;\n\nclass MSTTest : public ::testing::Test\n{\nprotected:\n algr::undirected_weighted_simple_graph graph;\n\npublic:\n MSTTest()\n : graph{algr::undirected_weighted_simple_graph(\n 5, std::vector<wedge_t>({std::make_tuple(0, 1, -1), std::make_tuple(0, 2, 4),\n std::make_tuple(1, 2, 9), std::make_tuple(1, 3, 7),\n std::make_tuple(1, 4, 12), std::make_tuple(2, 4, 6),\n std::make_tuple(3, 4, 3)}))}\n {\n }\n\n virtual ~MSTTest()\n {\n }\n};\n\nTEST_F(MSTTest, testKruskal)\n{\n double result = kruskal(graph);\n\n EXPECT_EQ(12.0, result);\n}\n\nTEST_F(MSTTest, testPrim)\n{\n double result = prim(graph, 0);\n\n EXPECT_EQ(12.0, result);\n}\n\nTEST_F(MSTTest, testPrimWhenDiffrentSources)\n{\n double result1 = prim(graph, 1);\n double result4 = prim(graph, 4);\n\n EXPECT_EQ(12.0, result1);\n EXPECT_EQ(12.0, result4);\n}\n" }, { "alpha_fraction": 0.5449790954589844, "alphanum_fraction": 0.5857740640640259, "avg_line_length": 27.117647171020508, "blob_id": "cd5ed9dcafdf48650234b10dddd1d27449ad852f", "content_id": "37ddb0c5682325462fdc3e35930efc0337fc932f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 958, "license_type": "permissive", "max_line_length": 95, "num_lines": 34, "path": "/AlgoLib_Python/tests/test_mst.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA ALGORYTMÓW MINIMALNEGO DRZEWA SPINAJĄCEGO\"\"\"\nimport unittest\nfrom algolib.graphs import kruskal, prim, UndirectedWeightedSimpleGraph\n\n\nclass MSTTest(unittest.TestCase):\n def __init__(self, args, *kwargs):\n super().__init__(args, kwargs)\n self.__graph = None\n\n def setUp(self):\n self.__graph = UndirectedWeightedSimpleGraph(\n 5, [(0, 1, -1), (0, 2, 4), (1, 2, 9), (1, 3, 7), (1, 4, 12), (2, 4, 6), (3, 4, 3)])\n\n def tearDown(self):\n self.__graph = None\n\n def test_kruskal(self):\n result = kruskal(self.__graph)\n\n self.assertEqual(12, result)\n\n def test_prim(self):\n result = prim(self.__graph, 0)\n\n self.assertEqual(12, result)\n\n def test_prim_when_diffrent_sources(self):\n result1 = prim(self.__graph, 1)\n result4 = prim(self.__graph, 4)\n\n self.assertEqual(12, result1)\n self.assertEqual(12, result4)\n" }, { "alpha_fraction": 0.6631478071212769, "alphanum_fraction": 0.6823416352272034, "avg_line_length": 26.421052932739258, "blob_id": "d6819cf7bfd963b16bb0695809fe54104e1be34a", "content_id": "53e11464a0f19517de278adde4fcee4077bfb01d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1043, "license_type": "permissive", "max_line_length": 79, "num_lines": 38, "path": "/AlgoLib_Cpp/src/algolib/graphs/forest_graph.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURY GRAFÓW DRZEW\n#include \"algolib/graphs/forest_graph.hpp\"\n\nnamespace algr = algolib::graphs;\n\nvertex_t algr::forest_graph::add_vertex()\n{\n vertex_t vertex = graph.add_vertex();\n components.add_elem(vertex);\n\n return vertex;\n}\n\nvoid algr::forest_graph::add_edge(vertex_t vertex1, vertex_t vertex2)\n{\n if(vertex1 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex1));\n\n if(vertex2 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex2));\n\n if(is_same_tree(vertex1, vertex2))\n throw cycle_exception();\n\n components.union_set(vertex1, vertex2);\n graph.add_edge(vertex1, vertex2);\n}\n\nbool algr::forest_graph::is_same_tree(vertex_t vertex1, vertex_t vertex2) const\n{\n if(vertex1 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex1));\n\n if(vertex2 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex2));\n\n return components.is_same_set(vertex1, vertex2);\n}\n" }, { "alpha_fraction": 0.684684693813324, "alphanum_fraction": 0.6914414167404175, "avg_line_length": 20.14285659790039, "blob_id": "7e9a4c84f7b7460b9e94bcc8dfda757a28dab95c", "content_id": "92c0b35b7f506a35fc311735998b1dadb5071911", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 455, "license_type": "permissive", "max_line_length": 75, "num_lines": 21, "path": "/AlgoLib_Cpp/include/algolib/convex_hull.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// OTOCZKA WYPUKŁA PUNKTÓW NA PŁASZCZYŹNIE\n#ifndef _CONVEX_HULL_HPP_\n#define _CONVEX_HULL_HPP_\n\n#include <cstdlib>\n#include <algorithm>\n#include <vector>\n\nusing point2D_t = std::pair<double, double>;\n\nnamespace algolib\n{\n /\n * Wyznacza otoczkę wypukłą.\n * @param points lista punktów na płaszczyźnie\n * @return lista punktów otoczki\n /\n std::vector<point2D_t> find_convex_hull(std::vector<point2D_t> points);\n}\n\n#endif\n" }, { "alpha_fraction": 0.6349924802780151, "alphanum_fraction": 0.6659125089645386, "avg_line_length": 16.68000030517578, "blob_id": "2bcb821a05dcfa5fe22040888b6a9890eefd6b42", "content_id": "cf0ba97545fe6a07f10a94d4a63324da118d928c", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1328, "license_type": "permissive", "max_line_length": 46, "num_lines": 75, "path": "/AlgoLib_Cpp/test/fraction_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA UŁAMKÓW\n#include <gtest/gtest.h>\n#include \"algolib/math/fraction.hpp\"\n\nnamespace alma = algolib::math;\n\nTEST(FractionTest, testInverseWhenPositive)\n{\n alma::fraction frac(7, 19);\n\n alma::fraction result = ~frac;\n\n EXPECT_EQ(alma::fraction(19, 7), result);\n}\n\nTEST(FractionTest, testInverseWhenNegative)\n{\n alma::fraction frac(-7, 19);\n\n alma::fraction result = ~frac;\n\n EXPECT_EQ(alma::fraction(-19, 7), result);\n}\n\nTEST(FractionTest, testInverseWhenZero)\n{\n alma::fraction frac(0);\n\n EXPECT_THROW(~frac, std::domain_error);\n}\n\nTEST(FractionTest, testReverseWhenPositive)\n{\n alma::fraction frac(7, 19);\n\n alma::fraction result = -frac;\n\n EXPECT_EQ(alma::fraction(-7, 19), result);\n}\n\nTEST(FractionTest, testReverseWhenNegative)\n{\n alma::fraction frac(-7, 19);\n\n alma::fraction result = -frac;\n\n EXPECT_EQ(alma::fraction(7, 19), result);\n}\n\nTEST(FractionTest, testReverseWhenZero)\n{\n alma::fraction frac(0);\n\n alma::fraction result = -frac;\n\n EXPECT_EQ(alma::fraction(0), result);\n}\n\nTEST(FractionTest, testConvertToDouble)\n{\n alma::fraction frac(-129, 20);\n\n double result = (double)frac;\n\n EXPECT_EQ(-6.45, result);\n}\n\nTEST(FractionTest, testConvertToInt)\n{\n alma::fraction frac(-129, 20);\n\n int result = (int)frac;\n\n EXPECT_EQ(-6, result);\n}\n" }, { "alpha_fraction": 0.5515872836112976, "alphanum_fraction": 0.579365074634552, "avg_line_length": 26.394365310668945, "blob_id": "ed4babad5f55807c8d563059d3a7ca9937ceef67", "content_id": "56135f46a006a79dace72593809e29e071b83933", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2016, "license_type": "permissive", "max_line_length": 99, "num_lines": 71, "path": "/AlgoLib_Cpp/src/algolib/math/maths.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY MATEMATYCZNE\r\n#include \"algolib/math/maths.hpp\"\r\n\r\nnamespace alma = algolib::math;\r\n\r\nlong long int alma::gcd(long long int number1, long long int number2)\r\n{\r\n std::pair<long long int, long long int> number_pair =\r\n std::make_pair(std::min(number1, number2), std::max(number1, number2));\r\n\r\n while(number_pair.first > 0)\r\n number_pair = std::make_pair(number_pair.second % number_pair.first, number_pair.first);\r\n\r\n return number_pair.second;\r\n}\r\n\r\nlong long int alma::lcm(long long int number1, long long int number2)\r\n{\r\n long long int min_number = std::min(number1, number2), max_number = std::max(number1, number2);\r\n\r\n return max_number / gcd(number1, number2) min_number;\r\n}\r\n\r\nlong long int alma::mult_mod(long long int factor1, long long int factor2,\r\n unsigned long long int modulo)\r\n{\r\n long long int result = 0;\r\n\r\n if(factor1 < 0 && factor2 < 0)\r\n return mult_mod(-factor1, -factor2, modulo);\r\n\r\n if(factor1 < 0)\r\n return modulo - mult_mod(-factor1, factor2, modulo);\r\n\r\n if(factor2 < 0)\r\n return modulo - mult_mod(factor1, -factor2, modulo);\r\n\r\n while(factor2 > 0)\r\n {\r\n if(factor2 % 2 == 1)\r\n result = modulo == 0 ? result + factor1 : (result + factor1) % modulo;\r\n\r\n factor1 = modulo == 0 ? factor1 + factor1 : (factor1 + factor1) % modulo;\r\n factor2 >>= 1;\r\n }\r\n\r\n return result;\r\n}\r\n\r\nlong long int alma::power_mod(long long int base, long long int exponent,\r\n unsigned long long int modulo)\r\n{\r\n long long int result = 1;\r\n\r\n if(exponent < 0)\r\n throw std::domain_error(\"Negative exponent.\");\r\n\r\n if(base == 0 && exponent == 0)\r\n throw std::domain_error(\"Not a number.\");\r\n\r\n while(exponent > 0)\r\n {\r\n if(exponent % 2 == 1)\r\n result = mult_mod(result, base, modulo);\r\n\r\n base = mult_mod(base, base, modulo);\r\n exponent >>= 1;\r\n }\r\n\r\n return result;\r\n}\r\n" }, { "alpha_fraction": 0.5609151124954224, "alphanum_fraction": 0.5683572292327881, "avg_line_length": 30.275861740112305, "blob_id": "c7214a21bbc28c2bb95601a4236b53832f795052", "content_id": "48aca98c9d3795938e54009fb3ff6a3c825d41e6", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 7298, "license_type": "permissive", "max_line_length": 97, "num_lines": 232, "path": "/AlgoLib_Cpp/include/algolib/sorting.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY SORTOWANIA\n#ifndef _SORTING_HPP_\n#define _SORTING_HPP_\n\n#include <cstdlib>\n#include <cmath>\n#include <ctime>\n#include <exception>\n#include <stdexcept>\n#include <algorithm>\n#include <vector>\n\nusing point2D_t = std::pair<double, double>;\n\nnamespace detail\n{\n /*\n Przywracanie własności kopca.\n * @param heap kopiec\n * @param vertex wierzchołek kopca\n * @param index_begin początkowy indeks kopca\n * @param index_end końcowy indeks kopca\n /\n template <typename T>\n void move_down(std::vector<T> & heap, int vertex, int index_begin, int index_end)\n {\n int next_vertex = -1;\n int left_vertex = vertex + vertex - index_begin + 1;\n int right_vertex = vertex + vertex - index_begin + 2;\n\n if(right_vertex < index_end)\n next_vertex = heap[right_vertex] < heap[left_vertex] ? left_vertex : right_vertex;\n\n if(left_vertex == index_end - 1)\n next_vertex = left_vertex;\n\n if(next_vertex < 0)\n return;\n\n if(heap[next_vertex] > heap[vertex])\n std::swap(heap[next_vertex], heap[vertex]);\n\n move_down(heap, next_vertex, index_begin, index_end);\n }\n\n /\n Scalanie dwóch uporządkowanych fragmentów ciągu.\n * @param sequence ciąg\n * @param index_begin początek fragmentu\n * @param index_middle środek fragmentu\n * @param index_end koniec fragmentu\n /\n template <typename T>\n void merge(std::vector<T> & sequence, int index_begin, int index_middle, int index_end)\n {\n std::vector<T> ordered;\n int iter1 = index_begin, iter2 = index_middle;\n\n while(iter1 < index_middle && iter2 < index_end)\n if(sequence[iter1] < sequence[iter2])\n {\n ordered.push_back(sequence[iter1]);\n ++iter1;\n }\n else\n {\n ordered.push_back(sequence[iter2]);\n ++iter2;\n }\n\n for(int i = iter1; i < index_middle; ++i)\n ordered.push_back(sequence[i]);\n\n for(int i = iter2; i < index_end; ++i)\n ordered.push_back(sequence[i]);\n\n for(int i = 0; i < ordered.size(); ++i)\n sequence[index_begin + i] = ordered[i];\n }\n\n /\n Losowanie piwota.\n * @param size liczba elementów\n * @return indeks piwota\n /\n int choose_pivot(int size);\n}\n\nnamespace algolib\n{\n /\n Mutowalne sortowanie kątowe punktów na płaszczyźnie.\n * @param points lista punktów\n /\n void angle_sort(std::vector<point2D_t> & points);\n\n /\n Mutowalne sortowanie ciągu przez kopcowanie.\n * @param sequence ciąg\n * @param index_begin początkowy indeks ciągu\n * @param index_end końcowy indeks ciągu\n /\n template <typename T>\n void heap_sort(std::vector<T> & sequence, int index_begin = 0, int index_end = -1)\n {\n if(index_end == -1)\n index_end = sequence.size();\n\n if(index_begin < 0 \|\| index_end > sequence.size())\n throw std::invalid_argument(\"Sequence beginning index out of range.\");\n\n if(index_end < 0 \|\| index_end > sequence.size())\n throw std::invalid_argument(\"Sequence ending index out of range.\");\n\n int heap_size = index_end - index_begin;\n\n if(heap_size <= 1)\n return;\n\n for(int i = index_begin + heap_size / 2; i >= index_begin; --i)\n detail::move_down(sequence, i, index_begin, index_end);\n\n while(heap_size > 1)\n {\n int index_heap = index_begin + heap_size;\n\n std::swap(sequence[index_heap], sequence[index_begin]);\n detail::move_down(sequence, index_begin, index_begin, index_heap);\n --heap_size;\n }\n }\n\n /\n Mutowalne sortowanie ciągu przez scalanie top-down.\n * @param sequence ciąg\n * @param index_begin początkowy indeks ciągu\n * @param index_end końcowy indeks ciągu\n /\n template <typename T>\n void mergedown_sort(std::vector<T> & sequence, int index_begin = 0, int index_end = -1)\n {\n if(index_end == -1)\n index_end = sequence.size();\n\n if(index_begin < 0 \|\| index_end > sequence.size())\n throw std::invalid_argument(\"Sequence beginning index out of range.\");\n\n if(index_end < 0 \|\| index_end > sequence.size())\n throw std::invalid_argument(\"Sequence ending index out of range.\");\n\n if(index_end - index_begin <= 1)\n return;\n\n int index_middle = (index_begin + index_end) / 2;\n\n mergedown_sort(sequence, index_begin, index_middle);\n mergedown_sort(sequence, index_middle, index_end);\n detail::merge(sequence, index_begin, index_middle, index_end);\n }\n\n /\n Mutowalne sortowanie ciągu przez scalanie bottom-up.\n * @param sequence ciąg\n * @param index_begin początkowy indeks ciągu\n * @param index_end końcowy indeks ciągu\n /\n template <typename T>\n void mergeup_sort(std::vector<T> & sequence, int index_begin = 0, int index_end = -1)\n {\n if(index_end == -1)\n index_end = sequence.size();\n\n if(index_begin < 0 \|\| index_end > sequence.size())\n throw std::invalid_argument(\"Sequence beginning index out of range.\");\n\n if(index_end < 0 \|\| index_end > sequence.size())\n throw std::invalid_argument(\"Sequence ending index out of range.\");\n\n if(index_end - index_begin <= 1)\n return;\n\n for(int i = 2; i < 2 (index_end - index_begin); i = 2)\n for(int j = index_begin; j < index_end; j += i)\n detail::merge(sequence, j, std::min(j + i / 2, index_end),\n std::min(j + i, index_end));\n }\n\n /\n Mutowalne szybkie sortowanie ciągu.\n * @param sequence ciąg\n * @param index_begin początkowy indeks ciągu\n * @param index_end końcowy indeks ciągu\n /\n template <typename T>\n void quick_sort(std::vector<T> & sequence, int index_begin = 0, int index_end = -1)\n {\n if(index_end == -1)\n index_end = sequence.size();\n\n if(index_begin < 0 \|\| index_end > sequence.size())\n throw std::invalid_argument(\"Sequence beginning index out of range.\");\n\n if(index_end < 0 \|\| index_end > sequence.size())\n throw std::invalid_argument(\"Sequence ending index out of range.\");\n\n if(index_end - index_begin <= 1)\n return;\n\n int index_pivot = index_begin, index_front = index_begin + 1, index_back = index_end - 1;\n int rdpv = index_begin + detail::choose_pivot(index_end - index_begin);\n\n std::swap(sequence[index_pivot], sequence[rdpv]);\n\n while(index_pivot < index_back)\n if(sequence[index_front] < sequence[index_pivot])\n {\n std::swap(sequence[index_front], sequence[index_pivot]);\n index_pivot = index_front;\n ++index_front;\n }\n else\n {\n std::swap(sequence[index_front], sequence[index_back]);\n --index_back;\n }\n\n quick_sort(sequence, index_begin, index_pivot);\n quick_sort(sequence, index_pivot + 1, index_end);\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.6878626942634583, "alphanum_fraction": 0.6881044507026672, "avg_line_length": 38.96135330200195, "blob_id": "5ad78eb802b09c8e0332eaa471e866d716bb71cd", "content_id": "fa402cc638513ede0b3733c21398b918c3b36e81", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Makefile", "length_bytes": 8272, "license_type": "permissive", "max_line_length": 112, "num_lines": 207, "path": "/AlgoLib_Cpp/Makefile", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "CXX = g++ -std=c++11\nCXXFLAGS = -Wall -Wextra -Wno-unknown-pragmas -iquote include\nCMPL = $(CXX) $(CXXFLAGS)\nGTEST = -I/usr/local/include -L/usr/local/lib -lgtest -lgtest_main -lpthread\nSRC = src\nOBJ = obj\nTEST = test\nALGOLIB = $(SRC)/algolib\nGRAPHS = $(ALGOLIB)/graphs\nMATHS = $(ALGOLIB)/math\nSTRUCTURES = $(ALGOLIB)/structures\nOBJSRC = $(OBJ)/$(SRC)\nOBJTEST = $(OBJ)/$(TEST)\nTESTBIN = $(TEST)/bin\n\n.PHONY: all prepare clean refresh test testDir srcDir algolibDir graphsDir mathsDir structuresDir\n\nall : prepare srcDir testDir\n\nprepare :\n\tmkdir -p $(OBJSRC) $(OBJTEST) $(TESTBIN)\n\nclean :\n\trm -rf $(OBJ)\n\nrefresh : clean all\n\ntest : prepare testDir\n\t@sh run-tests.sh\n\ntestDir : avl_tree_test directed_graph_test disjoint_sets_test fraction_test kmp_test lca_test \\\nmaths_test maximum_subarray_test mst_test paths_test scc_test primes_test sorting_test \\\ntopological_sorting_test undirected_graph_test\n\nsrcDir : algolibDir graphsDir mathDir structuresDir\n\nalgolibDir : closest_points.o convex_hull.o kmp.o kmr.o lis.o maximum_subarray.o sorting.o two_sat.o\n\ngraphsDir : cutting.o directed_graph.o forest_graph.o graph.o lca.o matching.o mst.o \\\nmultipartite_graph.o paths.o scc.o searching.o topological_sorting.o undirected_graph.o\n\nmathDir : fraction.o maths.o primes.o\n\nstructuresDir : avl_tree.o disjoint_sets.o equation_system.o\n\n# algolib\n\nclosest_points.o : $(ALGOLIB)/closest_points.cpp\n\t$(CMPL) -c $(ALGOLIB)/closest_points.cpp -o $(OBJSRC)/closest_points.o\n\nconvex_hull.o : $(ALGOLIB)/convex_hull.cpp\n\t$(CMPL) -c $(ALGOLIB)/convex_hull.cpp -o $(OBJSRC)/convex_hull.o\n\nkmp.o : $(ALGOLIB)/kmp.cpp\n\t$(CMPL) -c $(ALGOLIB)/kmp.cpp -o $(OBJSRC)/kmp.o\n\nkmp_test : $(TEST)/kmp_test.cpp kmp.o\n\t$(CMPL) -c $(TEST)/kmp_test.cpp -o $(OBJTEST)/kmp_test.o\n\t$(CMPL) $(OBJSRC)/kmp.o $(OBJTEST)/kmp_test.o -o $(TESTBIN)/kmp_test $(GTEST)\n\nkmr.o : $(ALGOLIB)/kmr.cpp\n\t$(CMPL) -c $(ALGOLIB)/kmr.cpp -o $(OBJSRC)/kmr.o\n\nlis.o : $(ALGOLIB)/lis.cpp\n\t$(CMPL) -c $(ALGOLIB)/lis.cpp -o $(OBJSRC)/lis.o\n\nmaximum_subarray.o : $(ALGOLIB)/maximum_subarray.cpp\n\t$(CMPL) -c $(ALGOLIB)/maximum_subarray.cpp -o $(OBJSRC)/maximum_subarray.o\n\nmaximum_subarray_test : $(TEST)/maximum_subarray_test.cpp maximum_subarray.o\n\t$(CMPL) -c $(TEST)/maximum_subarray_test.cpp -o $(OBJTEST)/maximum_subarray_test.o\n\t$(CMPL) $(OBJSRC)/maximum_subarray.o $(OBJTEST)/maximum_subarray_test.o \\\n\t -o $(TESTBIN)/maximum_subarray_test $(GTEST)\n\nsorting.o : $(ALGOLIB)/sorting.cpp\n\t$(CMPL) -c $(ALGOLIB)/sorting.cpp -o $(OBJSRC)/sorting.o\n\nsorting_test : $(TEST)/sorting_test.cpp sorting.o\n\t$(CMPL) -c $(TEST)/sorting_test.cpp -o $(OBJTEST)/sorting_test.o\n\t$(CMPL) $(OBJSRC)/sorting.o $(OBJTEST)/sorting_test.o -o $(TESTBIN)/sorting_test $(GTEST)\n\ntwo_sat.o : $(ALGOLIB)/two_sat.cpp\n\t$(CMPL) -c $(ALGOLIB)/two_sat.cpp -o $(OBJSRC)/two_sat.o\n\n# algolib/graphs\n\ncutting.o : $(GRAPHS)/cutting.cpp\n\t$(CMPL) -c $(GRAPHS)/cutting.cpp -o $(OBJSRC)/cutting.o\n\ndirected_graph.o : $(GRAPHS)/directed_graph.cpp\n\t$(CMPL) -c $(GRAPHS)/directed_graph.cpp -o $(OBJSRC)/directed_graph.o\n\ndirected_graph_test : $(TEST)/directed_graph_test.cpp graph.o directed_graph.o\n\t$(CMPL) -c $(TEST)/directed_graph_test.cpp -o $(OBJTEST)/directed_graph_test.o\n\t$(CMPL) $(OBJSRC)/graph.o $(OBJSRC)/directed_graph.o $(OBJTEST)/directed_graph_test.o \\\n\t -o $(TESTBIN)/directed_graph_test $(GTEST)\n\nforest_graph.o : $(GRAPHS)/forest_graph.cpp\n\t$(CMPL) -c $(GRAPHS)/forest_graph.cpp -o $(OBJSRC)/forest_graph.o\n\ngraph.o : $(GRAPHS)/graph.cpp\n\t$(CMPL) -c $(GRAPHS)/graph.cpp -o $(OBJSRC)/graph.o\n\nlca.o : $(GRAPHS)/lca.cpp\n\t$(CMPL) -c $(GRAPHS)/lca.cpp -o $(OBJSRC)/lca.o\n\nlca_test : $(TEST)/lca_test.cpp graph.o directed_graph.o undirected_graph.o disjoint_sets.o forest_graph.o lca.o\n\t$(CMPL) -c $(TEST)/lca_test.cpp -o $(OBJTEST)/lca_test.o\n\t$(CMPL) $(OBJSRC)/graph.o $(OBJSRC)/directed_graph.o $(OBJSRC)/undirected_graph.o \\\n\t $(OBJSRC)/disjoint_sets.o $(OBJSRC)/forest_graph.o $(OBJSRC)/lca.o $(OBJTEST)/lca_test.o \\\n\t -o $(TESTBIN)/lca_test $(GTEST)\n\nmatching.o : $(GRAPHS)/matching.cpp\n\t$(CMPL) -c $(GRAPHS)/matching.cpp -o $(OBJSRC)/matching.o\n\nmst.o : $(GRAPHS)/mst.cpp\n\t$(CMPL) -c $(GRAPHS)/mst.cpp -o $(OBJSRC)/mst.o\n\nmst_test : $(TEST)/mst_test.cpp graph.o directed_graph.o undirected_graph.o disjoint_sets.o mst.o\n\t$(CMPL) -c $(TEST)/mst_test.cpp -o $(OBJTEST)/mst_test.o\n\t$(CMPL) $(OBJSRC)/graph.o $(OBJSRC)/directed_graph.o $(OBJSRC)/undirected_graph.o \\\n\t $(OBJSRC)/disjoint_sets.o $(OBJSRC)/mst.o $(OBJTEST)/mst_test.o -o $(TESTBIN)/mst_test \\\n\t $(GTEST)\n\nmultipartite_graph.o : $(GRAPHS)/multipartite_graph.cpp\n\t$(CMPL) -c $(GRAPHS)/multipartite_graph.cpp -o $(OBJSRC)/multipartite_graph.o\n\npaths.o : $(GRAPHS)/paths.cpp\n\t$(CMPL) -c $(GRAPHS)/paths.cpp -o $(OBJSRC)/paths.o\n\npaths_test : $(TEST)/paths_test.cpp graph.o directed_graph.o undirected_graph.o paths.o\n\t$(CMPL) -c $(TEST)/paths_test.cpp -o $(OBJTEST)/paths_test.o\n\t$(CMPL) $(OBJSRC)/graph.o $(OBJSRC)/directed_graph.o $(OBJSRC)/undirected_graph.o \\\n\t $(OBJSRC)/paths.o $(OBJTEST)/paths_test.o -o $(TESTBIN)/paths_test $(GTEST)\n\nscc.o : $(GRAPHS)/scc.cpp\n\t$(CMPL) -c $(GRAPHS)/scc.cpp -o $(OBJSRC)/scc.o\n\nscc_test : $(TEST)/scc_test.cpp graph.o directed_graph.o scc.o\n\t$(CMPL) -c $(TEST)/scc_test.cpp -o $(OBJTEST)/scc_test.o\n\t$(CMPL) $(OBJSRC)/graph.o $(OBJSRC)/directed_graph.o $(OBJSRC)/scc.o $(OBJTEST)/scc_test.o \\\n\t -o $(TESTBIN)/scc_test $(GTEST)\n\nsearching.o : $(GRAPHS)/searching.cpp\n\t$(CMPL) -c $(GRAPHS)/searching.cpp -o $(OBJSRC)/searching.o\n\ntopological_sorting.o : $(GRAPHS)/topological_sorting.cpp\n\t$(CMPL) -c $(GRAPHS)/topological_sorting.cpp -o $(OBJSRC)/topological_sorting.o\n\ntopological_sorting_test : $(TEST)/topological_sorting_test.cpp graph.o directed_graph.o topological_sorting.o\n\t$(CMPL) -c $(TEST)/topological_sorting_test.cpp -o $(OBJTEST)/topological_sorting_test.o\n\t$(CMPL) $(OBJSRC)/graph.o $(OBJSRC)/directed_graph.o $(OBJSRC)/topological_sorting.o \\\n\t $(OBJTEST)/topological_sorting_test.o -o $(TESTBIN)/topological_sorting_test $(GTEST)\n\nundirected_graph.o : $(GRAPHS)/undirected_graph.cpp\n\t$(CMPL) -c $(GRAPHS)/undirected_graph.cpp -o $(OBJSRC)/undirected_graph.o\n\nundirected_graph_test : $(TEST)/undirected_graph_test.cpp graph.o directed_graph.o undirected_graph.o\n\t$(CMPL) -c $(TEST)/undirected_graph_test.cpp -o $(OBJTEST)/undirected_graph_test.o\n\t$(CMPL) $(OBJSRC)/graph.o $(OBJSRC)/directed_graph.o $(OBJSRC)/undirected_graph.o \\\n\t $(OBJTEST)/undirected_graph_test.o -o $(TESTBIN)/undirected_graph_test $(GTEST)\n\n# algolib/maths\n\nfraction.o : $(MATHS)/fraction.cpp\n\t$(CMPL) -c $(MATHS)/fraction.cpp -o $(OBJSRC)/fraction.o\n\nfraction_test : $(TEST)/fraction_test.cpp maths.o fraction.o\n\t$(CMPL) -c $(TEST)/fraction_test.cpp -o $(OBJTEST)/fraction_test.o\n\t$(CMPL) $(OBJSRC)/maths.o $(OBJSRC)/fraction.o $(OBJTEST)/fraction_test.o \\\n\t -o $(TESTBIN)/fraction_test $(GTEST)\n\n\nmaths.o : $(MATHS)/maths.cpp\n\t$(CMPL) -c $(MATHS)/maths.cpp -o $(OBJSRC)/maths.o\n\nmaths_test : $(TEST)/maths_test.cpp maths.o\n\t$(CMPL) -c $(TEST)/maths_test.cpp -o $(OBJTEST)/maths_test.o\n\t$(CMPL) $(OBJSRC)/maths.o $(OBJTEST)/maths_test.o -o $(TESTBIN)/maths_test $(GTEST)\n\nprimes.o : $(MATHS)/primes.cpp\n\t$(CMPL) -c $(MATHS)/primes.cpp -o $(OBJSRC)/primes.o\n\nprimes_test : $(TEST)/primes_test.cpp maths.o primes.o\n\t$(CMPL) -c $(TEST)/primes_test.cpp -o $(OBJTEST)/primes_test.o\n\t$(CMPL) $(OBJSRC)/maths.o $(OBJSRC)/primes.o $(OBJTEST)/primes_test.o \\\n\t -o $(TESTBIN)/primes_test $(GTEST)\n\n# algolib/structures\n\navl_tree.o : $(STRUCTURES)/avl_tree.cpp\n\t$(CMPL) -c $(STRUCTURES)/avl_tree.cpp -o $(OBJSRC)/avl_tree.o\n\navl_tree_test : $(TEST)/avl_tree_test.cpp avl_tree.o\n\t$(CMPL) -c $(TEST)/avl_tree_test.cpp -o $(OBJTEST)/avl_tree_test.o\n\t$(CMPL) $(OBJSRC)/avl_tree.o $(OBJTEST)/avl_tree_test.o -o $(TESTBIN)/avl_tree_test $(GTEST)\n\ndisjoint_sets.o : $(STRUCTURES)/disjoint_sets.cpp\n\t$(CMPL) -c $(STRUCTURES)/disjoint_sets.cpp -o $(OBJSRC)/disjoint_sets.o\n\ndisjoint_sets_test : $(TEST)/disjoint_sets_test.cpp disjoint_sets.o\n\t$(CMPL) -c $(TEST)/disjoint_sets_test.cpp -o $(OBJTEST)/disjoint_sets_test.o\n\t$(CMPL) $(OBJSRC)/disjoint_sets.o $(OBJTEST)/disjoint_sets_test.o \\\n\t -o $(TESTBIN)/disjoint_sets_test $(GTEST)\n\nequation_system.o : $(STRUCTURES)/equation_system.cpp\n\t$(CMPL) -c $(STRUCTURES)/equation_system.cpp -o $(OBJSRC)/equation_system.o\n" }, { "alpha_fraction": 0.6016511917114258, "alphanum_fraction": 0.6021671891212463, "avg_line_length": 24.91666603088379, "blob_id": "3636f82dd926bfb1e78c0d820f24ec22e6ed47af", "content_id": "2ff6c0659eff297a3d323b0a9eaa44d99372d9e1", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1953, "license_type": "permissive", "max_line_length": 57, "num_lines": 72, "path": "/AlgoLib_Python/algolib/graphs/searching.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"ALGORYTMY PRZESZUKIWANIA GRAFU\"\"\"\r\nimport queue\r\n\r\n\r\ndef bfs(graph, root):\r\n \"\"\"Algorytm BFS.\r\n :param graph: graf\r\n :param root: wierzchołek początkowy\r\n :returns: lista odwiedzonych wierzchołków\"\"\"\r\n is_visited = [False] graph.vertices_number\r\n vertex_queue = queue.Queue()\r\n vertex_queue.put(root)\r\n\r\n is_visited[root] = True\r\n\r\n while not vertex_queue.empty():\r\n v = vertex_queue.get()\r\n\r\n for nb in graph.get_neighbours(v):\r\n if not is_visited[nb]:\r\n is_visited[nb] = True\r\n vertex_queue.put(nb)\r\n\r\n return is_visited\r\n\r\n\r\ndef iter_dfs(graph, root):\r\n \"\"\"Iteracyjny algorytm DFS.\r\n :param graph: graf\r\n :param root: wierzchołek początkowy\r\n :returns: lista odwiedzonych wierzchołków\"\"\"\r\n is_visited = [False] * graph.vertices_number\r\n vertex_stack = queue.LifoQueue()\r\n vertex_stack.put(root)\r\n\r\n is_visited[root] = True\r\n\r\n while not vertex_stack.empty():\r\n v = vertex_stack.get()\r\n\r\n if not is_visited[v]:\r\n is_visited[v] = True\r\n\r\n for nb in graph.get_neighbours(v):\r\n if not is_visited[nb]:\r\n vertex_stack.put(nb)\r\n\r\n return is_visited\r\n\r\n\r\ndef rec_dfs(graph, root):\r\n \"\"\"Rekurencyjny algorytm DFS.\r\n :param graph: graf\r\n :param root: wierzchołek początkowy\r\n :returns: lista odwiedzonych wierzchołków\"\"\"\r\n is_visited = [False] * graph.vertices_number\r\n _dfs_step(root, graph, is_visited)\r\n\r\n return is_visited\r\n\r\n\r\ndef _dfs_step(vertex, graph, is_visited):\r\n \"\"\"Krok rekurencyjnego DFS.\r\n :param vertex: aktualny wierzchołek\r\n :param graph: graf\r\n :param is_visited: lista odwiedzonych wierzchołków\"\"\"\r\n is_visited[vertex] = True\r\n\r\n for neighbour in graph.get_neighbours(vertex):\r\n if not is_visited[neighbour]:\r\n _dfs_step(neighbour, graph, is_visited)\r\n" }, { "alpha_fraction": 0.46015307307243347, "alphanum_fraction": 0.5263394713401794, "avg_line_length": 35.40983581542969, "blob_id": "824ba1b4f271742011b116188225ce8804d5ba11", "content_id": "1c004c360812afec0fbfe14e02f9b03493b1c612", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2222, "license_type": "permissive", "max_line_length": 87, "num_lines": 61, "path": "/AlgoLib_Python/tests/test_topological_sorting.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA ALGORYTMÓW SORTOWANIA TOPOLOGICZNEGO\"\"\"\nimport unittest\nfrom algolib.graphs import sort_topological1, sort_topological2, DirectedSimpleGraph, \\\n DirectedCyclicGraphException\n\n\nclass TopologicalSortingTest(unittest.TestCase):\n def __init__(self, args, kwargs):\n super().__init__(args, *kwargs)\n\n def setUp(self):\n pass\n\n def tearDown(self):\n pass\n\n def test_sort_topological1_when_acyclic_graph(self):\n graph = DirectedSimpleGraph(6, [(0, 2), (0, 4), (1, 0), (1, 4), (3, 1),\n (3, 0), (3, 2), (5, 1), (5, 2), (5, 4)])\n\n result = sort_topological1(graph)\n\n self.assertListEqual([3, 5, 1, 0, 2, 4], list(result))\n\n def test_sort_topological1_when_cyclic_graph(self):\n graph = DirectedSimpleGraph(6, [(0, 2), (0, 4), (1, 0), (1, 4), (2, 1), (3, 1),\n (3, 0), (3, 2), (5, 1), (5, 2), (5, 4)])\n\n with self.assertRaises(DirectedCyclicGraphException):\n sort_topological1(graph)\n\n def test_sort_topological1_when_empty_graph(self):\n graph = DirectedSimpleGraph(6)\n\n result = sort_topological1(graph)\n\n self.assertListEqual([0, 1, 2, 3, 4, 5], list(result))\n\n def test_sort_topological2_when_acyclic_graph(self):\n graph = DirectedSimpleGraph(6, [(0, 2), (0, 4), (1, 0), (1, 4), (3, 1),\n (3, 0), (3, 2), (5, 1), (5, 2), (5, 4)])\n\n result = sort_topological2(graph)\n\n self.assertIn(list(result), [[3, 5, 1, 0, 2, 4], [5, 3, 1, 0, 2, 4],\n [3, 5, 1, 0, 4, 2], [5, 3, 1, 0, 4, 2]])\n\n def test_sort_topological2_when_cyclic_graph(self):\n graph = DirectedSimpleGraph(6, [(0, 2), (0, 4), (1, 0), (1, 4), (2, 1), (3, 1),\n (3, 0), (3, 2), (5, 1), (5, 2), (5, 4)])\n\n with self.assertRaises(DirectedCyclicGraphException):\n sort_topological2(graph)\n\n def test_sort_topological2_when_empty_graph(self):\n graph = DirectedSimpleGraph(6)\n\n result = sort_topological2(graph)\n\n self.assertListEqual([0, 1, 2, 3, 4, 5], list(result))\n" }, { "alpha_fraction": 0.6262210607528687, "alphanum_fraction": 0.6349614262580872, "avg_line_length": 27.602941513061523, "blob_id": "58d4f192fae374458091ff2080259d488a6d22e1", "content_id": "099cd51976e8137d5c96202cf38efae7ffb80fc3", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1954, "license_type": "permissive", "max_line_length": 69, "num_lines": 68, "path": "/AlgoLib_Python/algolib/graphs/forest_graph.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"STRUKTURY GRAFÓW DRZEW\"\"\"\nfrom .undirected_graph import UndirectedGraph, UndirectedSimpleGraph\nfrom ..structures import DisjointSets\n\n\nclass CycleException(ValueError):\n pass\n\n\nclass ForestGraph(UndirectedGraph):\n def __init__(self, n, edges=None):\n super().__init__()\n # Struktura grafu drzew.\n self.__graph = UndirectedSimpleGraph(n)\n # Struktura składowych drzew.\n self.__components = DisjointSets(self.__graph.get_vertices())\n\n if edges is not None:\n for e in edges:\n self.add_edge(e[0], e[1])\n\n @property\n def trees_number(self):\n return len(self.__components)\n\n @property\n def vertices_number(self):\n return self.__graph.vertices_number\n\n def get_vertices(self):\n return self.__graph.get_vertices()\n\n def add_vertex(self):\n vertex = self.__graph.add_vertex()\n self.__components.add_elem(vertex)\n\n return vertex\n\n @property\n def edges_number(self):\n return self.__graph.edges_number\n\n def get_edges(self):\n return self.__graph.get_edges()\n\n def add_edge(self, vertex1, vertex2):\n if self.is_same_tree(vertex1, vertex2):\n raise CycleException()\n\n self.__components.union_set(vertex1, vertex2)\n self.__graph.add_edge(vertex1, vertex2)\n\n def get_neighbours(self, vertex):\n return self.__graph.get_neighbours(vertex)\n\n def get_outdegree(self, vertex):\n return self.__graph.get_outdegree(vertex)\n\n def get_indegree(self, vertex):\n return self.__graph.get_indegree(vertex)\n\n def is_same_tree(self, vertex1, vertex2):\n \"\"\"Sprawdzanie, czy wierzchołki należą do tego samego drzewa.\n :param vertex1: pierwszy wierzchołek\n :param vertex2: drugi wierzchołek\n :returns: czy wierzchołki są w jednym drzewie\"\"\"\n return self.__components.is_same_set(vertex1, vertex2)\n" }, { "alpha_fraction": 0.8650306463241577, "alphanum_fraction": 0.8650306463241577, "avg_line_length": 53.33333206176758, "blob_id": "9e8db4fe08cb16ce2941287addaf7e29020d160e", "content_id": "9e3464923125a2c69b8802f3bf9fedd2cc6a7f23", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 163, "license_type": "permissive", "max_line_length": 92, "num_lines": 3, "path": "/AlgoLib_Python/algolib/structures/__init__.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "from .avl_tree import AVLTree\nfrom .disjoint_sets import DisjointSets\nfrom .equation_system import EquationSystem, InfiniteSolutionsException, NoSolutionException\n" }, { "alpha_fraction": 0.4427277445793152, "alphanum_fraction": 0.5226424932479858, "avg_line_length": 40.71111297607422, "blob_id": "220e86c3ee853cf953e101add90683cf0178aad9", "content_id": "e000886c78e1205ea895ed8de4616b8216fe1fd7", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1878, "license_type": "permissive", "max_line_length": 98, "num_lines": 45, "path": "/AlgoLib_Cpp/test/sorting_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMÓW SORTOWANIA TOPOLOGICZNEGO\"\"\"\n#include <gtest/gtest.h>\n#include \"algolib/sorting.hpp\"\n\nTEST(SortingTest, testAngleSort)\n{\n std::vector<point2D_t> sequence = {\n std::make_pair(0.0, 0.0), std::make_pair(-2.0, -3.0), std::make_pair(-3.0, -2.0),\n std::make_pair(3.0, -2.0), std::make_pair(-2.0, 3.0), std::make_pair(3.0, 2.0),\n std::make_pair(2.0, -3.0), std::make_pair(2.0, 3.0), std::make_pair(-3.0, 2.0)};\n\n algolib::angle_sort(sequence);\n\n EXPECT_EQ(std::vector<point2D_t>({std::make_pair(0.0, 0.0), std::make_pair(3.0, 2.0),\n std::make_pair(2.0, 3.0), std::make_pair(-2.0, 3.0),\n std::make_pair(-3.0, 2.0), std::make_pair(-3.0, -2.0),\n std::make_pair(-2.0, -3.0), std::make_pair(2.0, -3.0),\n std::make_pair(3.0, -2.0)}),\n sequence);\n};\n\nTEST(SortingTest, testAngleSortWhenAllEqual)\n{\n std::vector<point2D_t> sequence = {\n std::make_pair(1.0, 2.0), std::make_pair(1.0, 2.0), std::make_pair(1.0, 2.0),\n std::make_pair(1.0, 2.0), std::make_pair(1.0, 2.0), std::make_pair(1.0, 2.0),\n std::make_pair(1.0, 2.0), std::make_pair(1.0, 2.0), std::make_pair(1.0, 2.0)};\n\n algolib::angle_sort(sequence);\n\n EXPECT_EQ(std::vector<point2D_t>(\n {std::make_pair(1.0, 2.0), std::make_pair(1.0, 2.0), std::make_pair(1.0, 2.0),\n std::make_pair(1.0, 2.0), std::make_pair(1.0, 2.0), std::make_pair(1.0, 2.0),\n std::make_pair(1.0, 2.0), std::make_pair(1.0, 2.0), std::make_pair(1.0, 2.0)}),\n sequence);\n};\n\nTEST(SortingTest, testAngleSortWhenEmptyVector)\n{\n std::vector<point2D_t> sequence;\n\n algolib::angle_sort(sequence);\n\n EXPECT_EQ(std::vector<point2D_t>(), sequence);\n};\n" }, { "alpha_fraction": 0.5620818138122559, "alphanum_fraction": 0.5732342004776001, "avg_line_length": 24.37735939025879, "blob_id": "c489e81186455a28eea8190d1bbc36202ea59493", "content_id": "a858d923c8a67c825db1f00fd34f8f6c93afdb6a", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1351, "license_type": "permissive", "max_line_length": 97, "num_lines": 53, "path": "/AlgoLib_Python/algolib/kmp.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"ALGORYTM KNUTHA-MORRISA-PRATTA WYSZUKIWANIA WZORCA W TEKŚCIE\"\"\"\n\n\ndef kmp(text, pattern):\n \"\"\"Algorytm Knutha-Morrisa-Pratta.\n :param text: słowo\n :param pattern: wzorzec\n :returns: lista pozycji wystąpień wzorca w słowie\"\"\"\n if not isinstance(text, str):\n raise TypeError(\"Text should be of type str, not {0}.\".format(type(text).__name__))\n\n if not isinstance(pattern, str):\n raise TypeError(\"Pattern should be of type str, not {0}.\".format(type(pattern).__name__))\n\n if pattern == \"\":\n return []\n\n places = []\n pi_values = _prefix(pattern)\n pos = 0\n\n for i, letter in enumerate(text):\n while pos > 0 and pattern[pos] != letter:\n pos = pi_values[pos - 1]\n\n if pattern[pos] == letter:\n pos += 1\n\n if pos == len(pattern):\n places.append(i - len(pattern) + 1)\n pos = pi_values[pos - 1]\n\n return places\n\n\ndef _prefix(pattern):\n \"\"\"Funkcja prefiksowa pi Knutha.\n :param pattern: wzorzec\n :returns: wartości funkcji prefiksowej\"\"\"\n pi_values = [0]\n pos = 0\n\n for letter in pattern[1:]:\n while pos > 0 and pattern[pos] != letter:\n pos = pi_values[pos - 1]\n\n if pattern[pos] == letter:\n pos += 1\n\n pi_values.append(pos)\n\n return pi_values\n" }, { "alpha_fraction": 0.4148886203765869, "alphanum_fraction": 0.5199296474456787, "avg_line_length": 49.17647171020508, "blob_id": "c523fa487d02742bf82e557510c504179ef45fb9", "content_id": "4251eecd2fc7297070133adeae0a2200d536f1f9", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 8532, "license_type": "permissive", "max_line_length": 99, "num_lines": 170, "path": "/AlgoLib_Cpp/test/paths_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMÓW WYZNACZANIA NAJKRÓTSZYCH ŚCIEŻEK\n#include <gtest/gtest.h>\n#include \"algolib/graphs/directed_graph.hpp\"\n#include \"algolib/graphs/paths.hpp\"\n#include \"algolib/graphs/undirected_graph.hpp\"\n\nnamespace algr = algolib::graphs;\n\nTEST(PathsTest, testBellmanFordWhenDirectedGraph)\n{\n algr::directed_weighted_simple_graph diwgraph(\n 10,\n std::vector<wedge_t>(\n {std::make_tuple(0, 1, 4.0), std::make_tuple(1, 4, 7.0), std::make_tuple(1, 7, 12.0),\n std::make_tuple(2, 1, -2.0), std::make_tuple(2, 4, 6.0), std::make_tuple(2, 6, 8.0),\n std::make_tuple(3, 0, 3.0), std::make_tuple(3, 7, 5.0), std::make_tuple(4, 5, 1.0),\n std::make_tuple(4, 3, 10.0), std::make_tuple(5, 6, 4.0), std::make_tuple(5, 8, 2.0),\n std::make_tuple(6, 5, 7.0), std::make_tuple(7, 5, 2.0), std::make_tuple(7, 8, 6.0),\n std::make_tuple(8, 9, 10.0), std::make_tuple(9, 6, 3.0)}));\n\n int source = 1;\n\n std::vector<double> result = algr::bellman_ford(diwgraph, source);\n\n EXPECT_EQ(\n std::vector<double>({20.0, 0.0, algr::graph::INF, 17.0, 7.0, 8.0, 12.0, 12.0, 10.0, 20.0}),\n result);\n}\n\nTEST(PathsTest, testBellmanFordWhenUndirectedGraph)\n{\n algr::undirected_weighted_simple_graph uwgraph(\n 10,\n std::vector<wedge_t>(\n {std::make_tuple(0, 1, 4.0), std::make_tuple(1, 4, 7.0), std::make_tuple(1, 7, 12.0),\n std::make_tuple(2, 6, 8.0), std::make_tuple(3, 0, 3.0), std::make_tuple(3, 7, 5.0),\n std::make_tuple(4, 5, 1.0), std::make_tuple(4, 3, 10.0), std::make_tuple(5, 8, 2.0),\n std::make_tuple(7, 5, 2.0), std::make_tuple(7, 8, 6.0), std::make_tuple(9, 6, 3.0)}));\n int source = 1;\n\n std::vector<double> result = algr::bellman_ford(uwgraph, source);\n double i = algr::graph::INF;\n\n EXPECT_EQ(std::vector<double>({4.0, 0.0, i, 7.0, 7.0, 8.0, i, 10.0, 10.0, i}), result);\n}\n\nTEST(PathsTest, testBellmanFordWhenNegativeCycle)\n{\n algr::directed_weighted_simple_graph diwgraph(\n 10,\n std::vector<wedge_t>(\n {std::make_tuple(0, 1, 4.0), std::make_tuple(1, 4, 7.0), std::make_tuple(1, 7, 12.0),\n std::make_tuple(8, 3, -20.0), std::make_tuple(2, 4, 6.0), std::make_tuple(2, 6, 8.0),\n std::make_tuple(3, 0, 3.0), std::make_tuple(3, 7, 5.0), std::make_tuple(4, 5, 1.0),\n std::make_tuple(4, 3, 10.0), std::make_tuple(5, 6, 4.0), std::make_tuple(5, 8, 2.0),\n std::make_tuple(6, 5, 7.0), std::make_tuple(7, 5, 2.0), std::make_tuple(7, 8, 6.0),\n std::make_tuple(8, 9, 10.0), std::make_tuple(9, 6, 3.0)}));\n int source = 1;\n\n EXPECT_THROW(algr::bellman_ford(diwgraph, source), std::logic_error);\n}\n\nTEST(PathsTest, testDijkstraWhenDirectedGraph)\n{\n algr::directed_weighted_simple_graph diwgraph(\n 10,\n std::vector<wedge_t>(\n {std::make_tuple(0, 1, 4.0), std::make_tuple(1, 4, 7.0), std::make_tuple(1, 7, 12.0),\n std::make_tuple(2, 4, 6.0), std::make_tuple(2, 6, 8.0), std::make_tuple(3, 0, 3.0),\n std::make_tuple(3, 7, 5.0), std::make_tuple(4, 5, 1.0), std::make_tuple(4, 3, 10.0),\n std::make_tuple(5, 6, 4.0), std::make_tuple(5, 8, 2.0), std::make_tuple(6, 5, 7.0),\n std::make_tuple(7, 5, 2.0), std::make_tuple(7, 8, 6.0), std::make_tuple(8, 9, 10.0),\n std::make_tuple(9, 6, 3.0)}));\n int source = 1;\n\n std::vector<double> result = algr::dijkstra(diwgraph, source);\n\n EXPECT_EQ(\n std::vector<double>({20.0, 0.0, algr::graph::INF, 17.0, 7.0, 8.0, 12.0, 12.0, 10.0, 20.0}),\n result);\n}\n\nTEST(PathsTest, testDijkstraWhenUndirectedGraph)\n{\n algr::undirected_weighted_simple_graph uwgraph(\n 10,\n std::vector<wedge_t>(\n {std::make_tuple(0, 1, 4.0), std::make_tuple(1, 4, 7.0), std::make_tuple(1, 7, 12.0),\n std::make_tuple(2, 6, 8.0), std::make_tuple(3, 0, 3.0), std::make_tuple(3, 7, 5.0),\n std::make_tuple(4, 5, 1.0), std::make_tuple(4, 3, 10.0), std::make_tuple(5, 8, 2.0),\n std::make_tuple(7, 5, 2.0), std::make_tuple(7, 8, 6.0), std::make_tuple(9, 6, 3.0)}));\n int source = 1;\n\n std::vector<double> result = algr::dijkstra(uwgraph, source);\n double i = algr::graph::INF;\n\n EXPECT_EQ(std::vector<double>({4.0, 0.0, i, 7.0, 7.0, 8.0, i, 10.0, 10.0, i}), result);\n}\n\nTEST(PathsTest, testDijkstraWhenNegativeEdge)\n{\n algr::directed_weighted_simple_graph diwgraph(\n 10,\n std::vector<wedge_t>(\n {std::make_tuple(0, 1, 4.0), std::make_tuple(1, 4, 7.0), std::make_tuple(1, 7, 12.0),\n std::make_tuple(2, 4, 6.0), std::make_tuple(2, 6, 8.0), std::make_tuple(3, 0, 3.0),\n std::make_tuple(3, 7, 5.0), std::make_tuple(4, 5, 1.0), std::make_tuple(4, 3, 10.0),\n std::make_tuple(5, 6, 4.0), std::make_tuple(5, 8, 2.0), std::make_tuple(6, 5, 7.0),\n std::make_tuple(7, 5, 2.0), std::make_tuple(7, 8, 6.0), std::make_tuple(8, 9, 10.0),\n std::make_tuple(9, 6, 3.0), std::make_tuple(2, 1, -2.0)}));\n int source = 1;\n\n EXPECT_THROW(algr::dijkstra(diwgraph, source), std::logic_error);\n}\n\nTEST(PathsTest, testFloydWarshallWhenDirectedGraph)\n{\n algr::directed_weighted_simple_graph diwgraph(\n 10,\n std::vector<wedge_t>(\n {std::make_tuple(0, 1, 4.0), std::make_tuple(1, 4, 7.0), std::make_tuple(1, 7, 12.0),\n std::make_tuple(2, 4, 6.0), std::make_tuple(2, 6, 8.0), std::make_tuple(3, 0, 3.0),\n std::make_tuple(3, 7, 5.0), std::make_tuple(4, 5, 1.0), std::make_tuple(4, 3, 10.0),\n std::make_tuple(5, 6, 4.0), std::make_tuple(5, 8, 2.0), std::make_tuple(6, 5, 7.0),\n std::make_tuple(7, 5, 2.0), std::make_tuple(7, 8, 6.0), std::make_tuple(8, 9, 10.0),\n std::make_tuple(9, 6, 3.0), std::make_tuple(2, 1, -2.0)}));\n\n std::vector<std::vector<double>> result = algr::floyd_warshall(diwgraph);\n double i = algr::graph::INF;\n\n EXPECT_EQ(std::vector<std::vector<double>>(\n {std::vector<double>({0.0, 4.0, i, 21.0, 11.0, 12.0, 16.0, 16.0, 14.0, 24.0}),\n std::vector<double>({20.0, 0.0, i, 17.0, 7.0, 8.0, 12.0, 12.0, 10.0, 20.0}),\n std::vector<double>({18.0, -2.0, 0.0, 15.0, 5.0, 6.0, 8.0, 10.0, 8.0, 18.0}),\n std::vector<double>({3.0, 7.0, i, 0.0, 14.0, 7.0, 11.0, 5.0, 9.0, 19.0}),\n std::vector<double>({13.0, 17.0, i, 10.0, 0.0, 1.0, 5.0, 15.0, 3.0, 13.0}),\n std::vector<double>({i, i, i, i, i, 0.0, 4.0, i, 2.0, 12.0}),\n std::vector<double>({i, i, i, i, i, 7.0, 0, i, 9.0, 19.0}),\n std::vector<double>({i, i, i, i, i, 2.0, 6.0, 0.0, 4.0, 14.0}),\n std::vector<double>({i, i, i, i, i, 20.0, 13.0, i, 0.0, 10.0}),\n std::vector<double>({i, i, i, i, i, 10.0, 3.0, i, 12.0, 0.0})}),\n result);\n}\n\nTEST(PathsTest, testFloydWarshallWhenUndirectedGraph)\n{\n algr::undirected_weighted_simple_graph uwgraph(\n 10,\n std::vector<wedge_t>(\n {std::make_tuple(0, 1, 4.0), std::make_tuple(1, 4, 7.0), std::make_tuple(1, 7, 12.0),\n std::make_tuple(2, 6, 8.0), std::make_tuple(3, 0, 3.0), std::make_tuple(3, 7, 5.0),\n std::make_tuple(4, 5, 1.0), std::make_tuple(4, 3, 10.0), std::make_tuple(5, 8, 2.0),\n std::make_tuple(7, 5, 2.0), std::make_tuple(7, 8, 6.0), std::make_tuple(9, 6, 3.0)}));\n\n std::vector<std::vector<double>> result = algr::floyd_warshall(uwgraph);\n double i = algr::graph::INF;\n\n EXPECT_EQ(std::vector<std::vector<double>>(\n {std::vector<double>({0.0, 4.0, i, 3.0, 11.0, 10.0, i, 8.0, 12.0, i}),\n std::vector<double>({4.0, 0.0, i, 7.0, 7.0, 8.0, i, 10.0, 10.0, i}),\n std::vector<double>({i, i, 0.0, i, i, i, 8.0, i, i, 11.0}),\n std::vector<double>({3.0, 7.0, i, 0.0, 8.0, 7.0, i, 5.0, 9.0, i}),\n std::vector<double>({11.0, 7.0, i, 8.0, 0.0, 1.0, i, 3.0, 3.0, i}),\n std::vector<double>({10, 8, i, 7.0, 1.0, 0.0, i, 2.0, 2.0, i}),\n std::vector<double>({i, i, 8.0, i, i, i, 0.0, i, i, 3.0}),\n std::vector<double>({8.0, 10.0, i, 5.0, 3.0, 2.0, i, 0.0, 4.0, i}),\n std::vector<double>({12.0, 10.0, i, 9.0, 3.0, 2.0, i, 4.0, 0.0, i}),\n std::vector<double>({i, i, 11.0, i, i, i, 3.0, i, i, 0.0})}),\n result);\n}\n" }, { "alpha_fraction": 0.5921686887741089, "alphanum_fraction": 0.6668674945831299, "avg_line_length": 28.122806549072266, "blob_id": "65f06eaa7fd4476bec08b31b7cbb103b9706f9a3", "content_id": "c864fe6c564125197b67f6d49296895d798b76a8", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1662, "license_type": "permissive", "max_line_length": 85, "num_lines": 57, "path": "/AlgoLib_Cpp/test/maximum_subarray_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA PODCIĄGU SPÓJNEGO O MAKSYMALNEJ SUMIE\n#include <gtest/gtest.h>\n#include \"algolib/maximum_subarray.hpp\"\n\nTEST(MaximumSubarrayTest, testFindMaximumSubarray1)\n{\n std::vector<double> sequence = {3.5, 4.8, -1.6, 7.7, 2.1, -9.3, 0.8};\n\n std::vector<double> result = algolib::find_maximum_subarray(sequence);\n\n EXPECT_EQ(std::vector<double>({3.5, 4.8, -1.6, 7.7, 2.1}), result);\n}\n\nTEST(MaximumSubarrayTest, testFindMaximumSubarray2)\n{\n std::vector<double> sequence = {-9.3, -1.2, 3.5, 4.8, -10.6, 7.7, 2.1, 0.8, 4.0};\n\n std::vector<double> result = algolib::find_maximum_subarray(sequence);\n\n EXPECT_EQ(std::vector<double>({7.7, 2.1, 0.8, 4.0}), result);\n}\n\nTEST(MaximumSubarrayTest, testFindMaximumSubarrayWhenAllElementsAreNegative)\n{\n std::vector<double> sequence = {-9.0, -2.4, -3.07, -1.93, -12.67};\n\n std::vector<double> result = algolib::find_maximum_subarray(sequence);\n\n EXPECT_EQ(std::vector<double>(), result);\n}\n\nTEST(MaximumSubarrayTest, testFindMaximumalSum1)\n{\n std::vector<double> sequence = {3.5, 4.8, -1.6, 7.7, 2.1, -9.3, 0.8};\n\n double result = algolib::find_maximal_sum(sequence);\n\n EXPECT_DOUBLE_EQ(16.5, result);\n}\n\nTEST(MaximumSubarrayTest, testFindMaximumalSum2)\n{\n std::vector<double> sequence = {-9.3, -1.2, 3.5, 4.8, -10.6, 7.7, 2.1, 0.8, 4.0};\n\n double result = algolib::find_maximal_sum(sequence);\n\n EXPECT_DOUBLE_EQ(14.6, result);\n}\n\nTEST(MaximumSubarrayTest, testFindMaximumalSumWhenAllElementsAreNegative)\n{\n std::vector<double> sequence = {-9.0, -2.4, -3.07, -1.93, -12.67};\n\n double result = algolib::find_maximal_sum(sequence);\n\n EXPECT_DOUBLE_EQ(0.0, result);\n}\n" }, { "alpha_fraction": 0.5096297264099121, "alphanum_fraction": 0.5599402785301208, "avg_line_length": 29.073286056518555, "blob_id": "90849c64d082ea4618f94f3aabacfbed7b009349", "content_id": "47ca8dab99879bab7864ae4f013fa9139103129a", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 12721, "license_type": "permissive", "max_line_length": 99, "num_lines": 423, "path": "/AlgoLib_Java/test/refhumbold/algolib/SortingTest.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMÓW SORTOWANIA\npackage refhumbold.algolib;\n\nimport java.util.ArrayList;\nimport java.util.Arrays;\nimport java.util.Collections;\nimport java.util.List;\nimport org.junit.After;\nimport org.junit.Assert;\nimport org.junit.Before;\nimport org.junit.Test;\n\nimport refhumbold.algolib.tuples.Pair;\n\npublic class SortingTest\n{\n @Before\n public void setUp()\n throws Exception\n {\n }\n\n @After\n public void tearDown()\n throws Exception\n {\n }\n\n @Test\n public void testAngleSort()\n {\n List<Pair<Double, Double>> sequence = Arrays.asList(Pair.make(0.0, 0.0),\n Pair.make(-2.0, -3.0),\n Pair.make(-3.0, -2.0),\n Pair.make(3.0, -2.0),\n Pair.make(-2.0, 3.0),\n Pair.make(3.0, 2.0),\n Pair.make(2.0, -3.0),\n Pair.make(2.0, 3.0),\n Pair.make(-3.0, 2.0));\n\n Sorting.angleSort(sequence);\n\n Assert.assertArrayEquals(\n new Object[]{Pair.make(0.0, 0.0), Pair.make(3.0, 2.0), Pair.make(2.0, 3.0),\n Pair.make(-2.0, 3.0), Pair.make(-3.0, 2.0), Pair.make(-3.0, -2.0),\n Pair.make(-2.0, -3.0), Pair.make(2.0, -3.0), Pair.make(3.0, -2.0)},\n sequence.toArray());\n }\n\n @Test\n public void testAngleSortWhenAllEqual()\n {\n List<Pair<Double, Double>> sequence = Arrays.asList(Pair.make(1.0, 2.0),\n Pair.make(1.0, 2.0),\n Pair.make(1.0, 2.0),\n Pair.make(1.0, 2.0),\n Pair.make(1.0, 2.0),\n Pair.make(1.0, 2.0),\n Pair.make(1.0, 2.0));\n\n Sorting.angleSort(sequence);\n\n Assert.assertArrayEquals(\n new Object[]{Pair.make(1.0, 2.0), Pair.make(1.0, 2.0), Pair.make(1.0, 2.0),\n Pair.make(1.0, 2.0), Pair.make(1.0, 2.0), Pair.make(1.0, 2.0),\n Pair.make(1.0, 2.0)}, sequence.toArray());\n }\n\n @Test\n public void testAngleSortWhenEmptyList()\n {\n List<Pair<Double, Double>> sequence = new ArrayList<>();\n\n Sorting.angleSort(sequence);\n\n Assert.assertArrayEquals(new Object[]{}, sequence.toArray());\n }\n\n @Test\n public void testHeapSort()\n {\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n List<Integer> sequenceCopy = new ArrayList<>(sequence);\n\n Sorting.heapSort(sequence);\n Collections.sort(sequenceCopy);\n\n Assert.assertArrayEquals(sequenceCopy.toArray(), sequence.toArray());\n }\n\n @Test\n public void testHeapSortWhenAllEqual()\n {\n List<Integer> sequence = Arrays.asList(10, 10, 10, 10, 10, 10, 10, 10, 10);\n\n Sorting.heapSort(sequence);\n\n Assert.assertArrayEquals(new Integer[]{10, 10, 10, 10, 10, 10, 10, 10, 10},\n sequence.toArray());\n }\n\n @Test\n public void testHeapSortWhenIndices()\n {\n int index1 = 3;\n int index2 = 7;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n\n Sorting.heapSort(sequence, index1, index2);\n\n Assert.assertArrayEquals(new Integer[]{3, 17, -6, -12, 0, 7, 9, 4, 2}, sequence.toArray());\n }\n\n @Test(expected = IndexOutOfBoundsException.class)\n public void testHeapSortWhenLeftIndexOutOfRange()\n {\n int index1 = -13;\n int index2 = 7;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n\n Sorting.heapSort(sequence, index1, index2);\n }\n\n @Test(expected = IndexOutOfBoundsException.class)\n public void testHeapSortWhenRightIndexOutOfRange()\n {\n int index1 = 3;\n int index2 = 17;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n\n Sorting.heapSort(sequence, index1, index2);\n }\n\n @Test\n public void testHeapSortWhenIndicesReversed()\n {\n int index1 = 7;\n int index2 = 3;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n List<Integer> sequenceCopy = new ArrayList<>(sequence);\n\n Sorting.heapSort(sequence, index1, index2);\n\n Assert.assertArrayEquals(sequenceCopy.toArray(), sequence.toArray());\n }\n\n @Test\n public void testHeapSortWhenEmptyList()\n {\n List<Integer> sequence = new ArrayList<>();\n\n Sorting.heapSort(sequence);\n\n Assert.assertArrayEquals(new Object[]{}, sequence.toArray());\n }\n\n @Test(expected = IllegalArgumentException.class)\n public void testHeapSortWhenNull()\n {\n List<Integer> sequence = null;\n\n Sorting.heapSort(sequence);\n }\n\n @Test\n public void testMergedownSort()\n {\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n List<Integer> sequenceCopy = new ArrayList<>(sequence);\n\n Sorting.mergedownSort(sequence);\n Collections.sort(sequenceCopy);\n\n Assert.assertArrayEquals(sequenceCopy.toArray(), sequence.toArray());\n }\n\n @Test\n public void testMergedownSortWhenAllEqual()\n {\n List<Integer> sequence = Arrays.asList(10, 10, 10, 10, 10, 10, 10, 10, 10);\n\n Sorting.mergedownSort(sequence);\n\n Assert.assertArrayEquals(new Integer[]{10, 10, 10, 10, 10, 10, 10, 10, 10},\n sequence.toArray());\n }\n\n @Test\n public void testMergedownSortWhenIndices()\n {\n int index1 = 3;\n int index2 = 7;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n\n Sorting.mergedownSort(sequence, index1, index2);\n\n Assert.assertArrayEquals(new Integer[]{3, 17, -6, -12, 0, 7, 9, 4, 2}, sequence.toArray());\n }\n\n @Test(expected = IndexOutOfBoundsException.class)\n public void testMergedownSortWhenLeftIndexOutOfRange()\n {\n int index1 = -13;\n int index2 = 7;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n\n Sorting.mergedownSort(sequence, index1, index2);\n }\n\n @Test(expected = IndexOutOfBoundsException.class)\n public void testMergedownSortWhenRightIndexOutOfRange()\n {\n int index1 = 3;\n int index2 = 17;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n\n Sorting.mergedownSort(sequence, index1, index2);\n }\n\n @Test\n public void testMergedownSortWhenIndicesReversed()\n {\n int index1 = 7;\n int index2 = 3;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n List<Integer> sequenceCopy = new ArrayList<>(sequence);\n\n Sorting.mergedownSort(sequence, index1, index2);\n\n Assert.assertArrayEquals(sequenceCopy.toArray(), sequence.toArray());\n }\n\n @Test\n public void testMergedownSortWhenEmptyList()\n {\n List<Integer> sequence = new ArrayList<>();\n\n Sorting.mergedownSort(sequence);\n\n Assert.assertArrayEquals(new Object[]{}, sequence.toArray());\n }\n\n @Test(expected = IllegalArgumentException.class)\n public void testMergedownSortWhenNull()\n {\n List<Integer> sequence = null;\n\n Sorting.mergedownSort(sequence);\n }\n\n @Test\n public void testMergeupSort()\n {\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n List<Integer> sequenceCopy = new ArrayList<>(sequence);\n\n Sorting.mergeupSort(sequence);\n Collections.sort(sequenceCopy);\n\n Assert.assertArrayEquals(sequenceCopy.toArray(), sequence.toArray());\n }\n\n @Test\n public void testMergeupSortWhenAllEqual()\n {\n List<Integer> sequence = Arrays.asList(10, 10, 10, 10, 10, 10, 10, 10, 10);\n\n Sorting.mergeupSort(sequence);\n\n Assert.assertArrayEquals(new Integer[]{10, 10, 10, 10, 10, 10, 10, 10, 10},\n sequence.toArray());\n }\n\n @Test\n public void testMergeupSortWhenIndices()\n {\n int index1 = 3;\n int index2 = 7;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n\n Sorting.mergeupSort(sequence, index1, index2);\n\n Assert.assertArrayEquals(new Integer[]{3, 17, -6, -12, 0, 7, 9, 4, 2}, sequence.toArray());\n }\n\n @Test(expected = IndexOutOfBoundsException.class)\n public void testMergeupSortWhenLeftIndexOutOfRange()\n {\n int index1 = -13;\n int index2 = 7;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n\n Sorting.mergeupSort(sequence, index1, index2);\n }\n\n @Test(expected = IndexOutOfBoundsException.class)\n public void testMergeupSortWhenRightIndexOutOfRange()\n {\n int index1 = 3;\n int index2 = 17;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n\n Sorting.mergeupSort(sequence, index1, index2);\n }\n\n @Test\n public void testMergeupSortWhenIndicesReversed()\n {\n int index1 = 7;\n int index2 = 3;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n List<Integer> sequenceCopy = new ArrayList<>(sequence);\n\n Sorting.mergeupSort(sequence, index1, index2);\n\n Assert.assertArrayEquals(sequenceCopy.toArray(), sequence.toArray());\n }\n\n @Test\n public void testMergeupSortWhenEmptyList()\n {\n List<Integer> sequence = new ArrayList<>();\n\n Sorting.mergeupSort(sequence);\n\n Assert.assertArrayEquals(new Object[]{}, sequence.toArray());\n }\n\n @Test(expected = IllegalArgumentException.class)\n public void testMergeupSortWhenNull()\n {\n List<Integer> sequence = null;\n\n Sorting.mergeupSort(sequence);\n }\n\n @Test\n public void testQuickSort()\n {\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n List<Integer> sequenceCopy = new ArrayList<>(sequence);\n\n Sorting.quickSort(sequence);\n Collections.sort(sequenceCopy);\n\n Assert.assertArrayEquals(sequenceCopy.toArray(), sequence.toArray());\n }\n\n @Test\n public void testQuickSortWhenAllEqual()\n {\n List<Integer> sequence = Arrays.asList(10, 10, 10, 10, 10, 10, 10, 10, 10);\n\n Sorting.quickSort(sequence);\n\n Assert.assertArrayEquals(new Integer[]{10, 10, 10, 10, 10, 10, 10, 10, 10},\n sequence.toArray());\n }\n\n @Test\n public void testQuickSortWhenIndices()\n {\n int index1 = 3;\n int index2 = 7;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n\n Sorting.quickSort(sequence, index1, index2);\n\n Assert.assertArrayEquals(new Integer[]{3, 17, -6, -12, 0, 7, 9, 4, 2}, sequence.toArray());\n }\n\n @Test(expected = IndexOutOfBoundsException.class)\n public void testQuickSortWhenLeftIndexOutOfRange()\n {\n int index1 = -13;\n int index2 = 7;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n\n Sorting.quickSort(sequence, index1, index2);\n }\n\n @Test(expected = IndexOutOfBoundsException.class)\n public void testQuickSortWhenRightIndexOutOfRange()\n {\n int index1 = 3;\n int index2 = 17;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n\n Sorting.quickSort(sequence, index1, index2);\n }\n\n @Test\n public void testQuickSortWhenIndicesReversed()\n {\n int index1 = 7;\n int index2 = 3;\n List<Integer> sequence = Arrays.asList(3, 17, -6, 0, 9, -12, 7, 4, 2);\n List<Integer> sequenceCopy = new ArrayList<>(sequence);\n\n Sorting.quickSort(sequence, index1, index2);\n\n Assert.assertArrayEquals(sequenceCopy.toArray(), sequence.toArray());\n }\n\n @Test\n public void testQuickSortWhenEmptyList()\n {\n List<Integer> sequence = new ArrayList<>();\n\n Sorting.quickSort(sequence);\n\n Assert.assertArrayEquals(new Object[]{}, sequence.toArray());\n }\n\n @Test(expected = IllegalArgumentException.class)\n public void testQuickSortWhenNull()\n {\n List<Integer> sequence = null;\n\n Sorting.quickSort(sequence);\n }\n}\n" }, { "alpha_fraction": 0.6205370426177979, "alphanum_fraction": 0.6314547061920166, "avg_line_length": 35.053192138671875, "blob_id": "7acb924337ed3cf4f50819692ab157068202120f", "content_id": "611a24558afea5429882998fbd607daff39fdd1b", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3394, "license_type": "permissive", "max_line_length": 100, "num_lines": 94, "path": "/AlgoLib_Python/algolib/graphs/undirected_graph.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"STRUKTURY GRAFÓW NIESKIEROWANYCH\"\"\"\nfrom abc import ABCMeta, abstractmethod\nfrom .graph import Graph, SimpleGraph, WeightedGraph, NoSuchVertexException\nfrom .directed_graph import DirectedSimpleGraph, DirectedWeightedSimpleGraph\n\n\nclass UndirectedGraph(Graph, metaclass=ABCMeta):\n def __init__(self):\n super().__init__()\n\n\nclass UndirectedWeightedGraph(UndirectedGraph, WeightedGraph, metaclass=ABCMeta):\n def __init__(self):\n super().__init__()\n\n\nclass UndirectedSimpleGraph(SimpleGraph, UndirectedGraph):\n def __init__(self, n, edges=None):\n super().__init__(n)\n\n if edges is not None:\n for e in edges:\n self.add_edge(e[0], e[1])\n\n @property\n def edges_number(self):\n return sum(self.get_outdegree(v) + 1\n if v in self.get_neighbours(v)\n else self.get_outdegree(v)\n for v in self.get_vertices()) / 2\n\n def get_edges(self):\n return ((v, u) for v in self.get_vertices() for u in self.get_neighbours(v) if u >= v)\n\n def add_edge(self, vertex1, vertex2):\n if not 0 <= vertex1 < self.vertices_number:\n raise NoSuchVertexException(str(vertex1))\n\n if not 0 <= vertex2 < self.vertices_number:\n raise NoSuchVertexException(str(vertex2))\n\n self._graphrepr[vertex1].add((vertex2, self._DEFAULT_WEIGHT))\n self._graphrepr[vertex2].add((vertex1, self._DEFAULT_WEIGHT))\n\n def get_indegree(self, vertex):\n if not 0 <= vertex < self.vertices_number:\n raise NoSuchVertexException(str(vertex))\n\n return self.get_outdegree(vertex)\n\n def as_directed(self):\n \"\"\"Zamiana krawędzi nieskierowanych na skierowane.\n :returns: graf ze skierowanymi krawędziami\"\"\"\n diedges = list(self.get_edges()) + [(u, v) for v, u in self.get_edges()]\n\n return DirectedSimpleGraph(self.vertices_number, edges=diedges)\n\n\nclass UndirectedWeightedSimpleGraph(UndirectedSimpleGraph, UndirectedWeightedGraph):\n def __init__(self, n, edges=None):\n super().__init__(n)\n\n if edges is not None:\n for e in map(lambda e: e if len(e) > 2 else (e[0], e[1], self._DEFAULT_WEIGHT), edges):\n self.add_weighted_edge(e[0], e[1], e[2])\n\n def get_weighted_edges(self):\n return ((v, u, wg) for v in self.get_vertices() for u, wg in self.get_weighted_neighbours(v)\n if u > v)\n\n def add_weighted_edge(self, vertex1, vertex2, weight):\n if not 0 <= vertex1 < self.vertices_number:\n raise NoSuchVertexException(str(vertex1))\n\n if not 0 <= vertex2 < self.vertices_number:\n raise NoSuchVertexException(str(vertex2))\n\n self._graphrepr[vertex1].add((vertex2, weight))\n self._graphrepr[vertex2].add((vertex1, weight))\n\n def get_weighted_neighbours(self, vertex):\n if not 0 <= vertex < self.vertices_number:\n raise NoSuchVertexException(str(vertex))\n\n return iter(self._graphrepr[vertex])\n\n def as_directed(self):\n \"\"\"Zamiana krawędzi nieskierowanych na skierowane.\n :returns: graf ze skierowanymi krawędziami\"\"\"\n diwedges = list(self.get_weighted_edges()) \\\n + [(u, v, wg) for v, u, wg in self.get_weighted_edges()]\n\n return DirectedWeightedSimpleGraph(self.vertices_number, edges=diwedges)\n" }, { "alpha_fraction": 0.6376503705978394, "alphanum_fraction": 0.6390658020973206, "avg_line_length": 27.260000228881836, "blob_id": "2695c3823aaabb8e1920dcf9e588904849556143", "content_id": "d1a526f3ff84b4caf27430dc4eb9d324b81327aa", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "CMake", "length_bytes": 1413, "license_type": "permissive", "max_line_length": 63, "num_lines": 50, "path": "/AlgoLib_Cpp/src/CMakeLists.txt", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "cmake_minimum_required(VERSION 3.5)\n\n# SOURCES\ninclude_directories(\"${PROJECT_SOURCE_DIR}/include\")\nset(ALGOLIB \"algolib\")\nset(GRAPHS \"${ALGOLIB}/graphs\")\nset(MATHS \"${ALGOLIB}/math\")\nset(STRUCTURES \"${ALGOLIB}/structures\")\nset(ALGOLIB_SOURCES\n \"${ALGOLIB}/closest_points.cpp\"\n \"${ALGOLIB}/convex_hull.cpp\"\n \"${ALGOLIB}/kmp.cpp\"\n \"${ALGOLIB}/kmr.cpp\"\n \"${ALGOLIB}/lis.cpp\"\n \"${ALGOLIB}/maximum_subarray.cpp\"\n \"${ALGOLIB}/sorting.cpp\"\n \"${ALGOLIB}/two_sat.cpp\")\nset(GRAPHS_SOURCES\n \"${GRAPHS}/cutting.cpp\"\n \"${GRAPHS}/dinic.cpp\"\n \"${GRAPHS}/directed_graph.cpp\"\n \"${GRAPHS}/edmonds.cpp\"\n \"${GRAPHS}/forest_graph.cpp\"\n \"${GRAPHS}/graph.cpp\"\n \"${GRAPHS}/lca.cpp\"\n \"${GRAPHS}/matching.cpp\"\n \"${GRAPHS}/mst.cpp\"\n \"${GRAPHS}/multipartite_graph.cpp\"\n \"${GRAPHS}/paths.cpp\"\n \"${GRAPHS}/scc.cpp\"\n \"${GRAPHS}/searching.cpp\"\n \"${GRAPHS}/topological_sorting.cpp\"\n \"${GRAPHS}/undirected_graph.cpp\")\nset(MATHS_SOURCES\n \"${MATHS}/fraction.cpp\"\n \"${MATHS}/maths.cpp\"\n \"${MATHS}/primes.cpp\")\nset(STRUCTURES_SOURCES\n \"${STRUCTURES}/avl_tree.cpp\"\n \"${STRUCTURES}/disjoint_sets.cpp\"\n \"${STRUCTURES}/equation_system.cpp\")\nset(SOURCES\n \"${ALGOLIB_SOURCES}\"\n \"${GRAPHS_SOURCES}\"\n \"${MATHS_SOURCES}\"\n \"${STRUCTURES_SOURCES}\")\n\n# OUTPUT\nset(CMAKE_LIBRARY_OUTPUT_DIRECTORY \"${PROJECT_SOURCE_DIR}/lib\")\nadd_library(algolib SHARED ${SOURCES})\n" }, { "alpha_fraction": 0.6076107025146484, "alphanum_fraction": 0.6260136961936951, "avg_line_length": 20.51677894592285, "blob_id": "2cb47b53d841aac382a59321df15f09aa0bb4739", "content_id": "2018c2259871c001d9fa2d5659a390fe2922db1f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 3209, "license_type": "permissive", "max_line_length": 82, "num_lines": 149, "path": "/AlgoLib_Java/test/refhumbold/algolib/structures/DisjointSetsTest.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA STRUKTURY ZBIORÓW ROZŁĄCZNYCH\npackage refhumbold.algolib.structures;\n\nimport java.util.Arrays;\nimport org.junit.After;\nimport org.junit.Assert;\nimport org.junit.Before;\nimport org.junit.Test;\n\npublic class DisjointSetsTest\n{\n private DisjointSets<Integer> testObject;\n\n @Before\n public void setUp()\n throws Exception\n {\n testObject = new DisjointSets<>(Arrays.asList(1, 2, 3, 4, 5, 6, 7, 8, 9));\n }\n\n @After\n public void tearDown()\n throws Exception\n {\n testObject = null;\n }\n\n @Test\n public void testSize()\n {\n int result = testObject.size();\n\n Assert.assertEquals(9, result);\n }\n\n @Test\n public void testContainsWhenContains()\n {\n boolean result = testObject.contains(4);\n\n Assert.assertTrue(result);\n }\n\n @Test\n public void testContainsWhenNotContains()\n {\n boolean result = testObject.contains(20);\n\n Assert.assertFalse(result);\n }\n\n @Test\n public void testAddElemWhenNewElement()\n {\n Integer elem = 20;\n\n testObject.addElem(elem);\n\n Assert.assertTrue(testObject.contains(elem));\n Assert.assertEquals(elem, testObject.findSet(elem));\n }\n\n @Test(expected = IllegalArgumentException.class)\n public void testAddElemWhenPresentElement()\n {\n Integer elem = 7;\n\n testObject.addElem(elem);\n }\n\n @Test\n public void testFindSet()\n {\n Integer elem = 4;\n\n Integer result = testObject.findSet(elem);\n\n Assert.assertEquals(elem, result);\n }\n\n @Test\n public void testUnionSetWhenDifferentSets()\n {\n Integer elem1 = 4;\n Integer elem2 = 6;\n\n testObject.unionSet(elem1, elem2);\n\n Assert.assertTrue(testObject.isSameSet(elem1, elem2));\n Assert.assertEquals(testObject.findSet(elem1), testObject.findSet(elem2));\n }\n\n @Test\n public void testUnionSetWhenSameSets1()\n {\n Integer elem = 4;\n\n testObject.unionSet(elem, elem);\n\n Assert.assertTrue(testObject.isSameSet(elem, elem));\n Assert.assertEquals(testObject.findSet(elem), testObject.findSet(elem));\n }\n\n @Test\n public void testUnionSetWhenSameSets2()\n {\n Integer elem1 = 3;\n Integer elem2 = 8;\n testObject.unionSet(elem1, elem2);\n\n testObject.unionSet(elem2, elem1);\n\n Assert.assertTrue(testObject.isSameSet(elem1, elem2));\n Assert.assertEquals(testObject.findSet(elem1), testObject.findSet(elem2));\n }\n\n @Test\n public void testIsSameSetWhenDifferentSets()\n {\n Integer elem1 = 4;\n Integer elem2 = 6;\n\n boolean result = testObject.isSameSet(elem1, elem2);\n\n Assert.assertFalse(result);\n }\n\n @Test\n public void testIsSameSetWhenSameSets1()\n {\n Integer elem = 4;\n\n boolean result = testObject.isSameSet(elem, elem);\n\n Assert.assertTrue(result);\n }\n\n @Test\n public void testIsSameSetWhenSameSets2()\n {\n Integer elem1 = 3;\n Integer elem2 = 8;\n testObject.unionSet(elem1, elem2);\n\n boolean result = testObject.isSameSet(elem2, elem1);\n\n Assert.assertTrue(result);\n }\n}\n" }, { "alpha_fraction": 0.699999988079071, "alphanum_fraction": 0.699999988079071, "avg_line_length": 25.538461685180664, "blob_id": "2ae78d66162db15de273b01f636e58f9cf960e97", "content_id": "c88233aa3f56ba9df79f644ce0c5771c9d51af65", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 702, "license_type": "permissive", "max_line_length": 86, "num_lines": 26, "path": "/AlgoLib_Cpp/include/algolib/maximum_subarray.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY WYZNACZANIA PODCIĄGU SPÓJNEGO O MAKSYMALNEJ SUMIE\n#ifndef _MAXIMUM_SUBARRAY_HPP_\n#define _MAXIMUM_SUBARRAY_HPP_\n\n#include <cstdlib>\n#include <algorithm>\n#include <vector>\n\nnamespace algolib\n{\n /\n Wyznaczanie spójnego podciągu o maksymalnej sumie w sposób dynamiczny.\n * @param sequence ciąg\n * @return elementy spójnego podciągu o maksymalnej sumie\n /\n std::vector<double> find_maximum_subarray(const std::vector<double> & sequence);\n\n /\n Wyznaczanie maksymalnej sumy spójnego podciągu za pomocą drzewa przedziałowego.\n * @param sequence ciąg\n * @return maksymalna suma\n /\n double find_maximal_sum(const std::vector<double> & sequence);\n}\n\n#endif\n" }, { "alpha_fraction": 0.540714681148529, "alphanum_fraction": 0.5454012751579285, "avg_line_length": 24.261537551879883, "blob_id": "b9a8df44057034e0eacf31154cff55cd39646507", "content_id": "42c6f18af99e5c2f273963a621d94466cf24a06d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1707, "license_type": "permissive", "max_line_length": 94, "num_lines": 65, "path": "/AlgoLib_Cpp/src/algolib/graphs/edmonds.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTM EDMONDSA-KARPA: MAKSYMALNY PRZEP�YW\r\n#include \"algolib/graphs/edmonds.hpp\"\r\n\r\nint edmonds_flow_graph::count_flow(int source, int target)\r\n{\r\n double max_flow = 0.0;\r\n bool is_flow_added = true;\r\n\r\n while(is_flow_added)\r\n {\r\n augmenting_paths.clear();\r\n augmenting_paths.resize(num_vertex + 1, std::make_pair(-1, INF));\r\n is_flow_added = edmonds_flow_graph::bfs(source, target);\r\n\r\n if(is_flow_added)\r\n max_flow += edmonds_flow_graph::count_path_flow(source, target);\r\n }\r\n\r\n return max_flow;\r\n}\r\n\r\nbool edmonds_flow_graph::bfs(int source, int target)\r\n{\r\n std::queue<int> vertex_queue;\r\n\r\n vertex_queue.push(source);\r\n augmenting_paths[source] = std::make_pair(0, INF);\r\n\r\n while(!vertex_queue.empty())\r\n {\r\n int w = vertex_queue.front();\r\n\r\n vertex_queue.pop();\r\n\r\n if(w == target)\r\n return true;\r\n\r\n for(size_t i = 0; i < graphrepr[w].size(); ++i)\r\n {\r\n int s = graphrepr[w][i];\r\n\r\n if(capacities[w][s] > 0 && augmenting_paths[s].first == -1)\r\n {\r\n augmenting_paths[s] =\r\n std::make_pair(w, std::min(capacities[w][s], augmenting_paths[w].second));\r\n vertex_queue.push(s);\r\n }\r\n }\r\n }\r\n\r\n return false;\r\n}\r\n\r\ndouble edmonds_flow_graph::count_path_flow(int source, int target)\r\n{\r\n for(int w = target; w != source; w = augmenting_paths[w].first)\r\n {\r\n int s = augmenting_paths[w].first;\r\n\r\n capacities[s][w] -= augmenting_paths[target].second;\r\n capacities[w][s] += augmenting_paths[target].second;\r\n }\r\n\r\n return augmenting_paths[target].second;\r\n}\r\n" }, { "alpha_fraction": 0.5895008444786072, "alphanum_fraction": 0.5959552526473999, "avg_line_length": 21.784313201904297, "blob_id": "96168ce45695ccd4bde20e88dc9779d7d43f2737", "content_id": "a4542d801a2b47a27f8721c2ecbcef9734690277", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 2339, "license_type": "permissive", "max_line_length": 99, "num_lines": 102, "path": "/AlgoLib_Java/src/refhumbold/algolib/structures/DisjointSets.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURA ZBIORÓW ROZŁĄCZNYCH UNION-FIND\npackage refhumbold.algolib.structures;\n\nimport java.util.HashMap;\nimport java.util.Map;\nimport java.util.Objects;\n\npublic class DisjointSets<E>\n{\n /\n Mapa reprezentantów elementów.\n /\n private Map<E, E> represents = new HashMap<>();\n\n /\n Liczba zbiorów.\n /\n private int elems = 0;\n\n public DisjointSets()\n {\n }\n\n public DisjointSets(Iterable<E> universe)\n {\n for(E e : universe)\n {\n this.represents.put(e, e);\n ++this.elems;\n }\n }\n\n /\n @return liczba zbiorów\n /\n public int size()\n {\n return elems;\n }\n\n /\n Należenie do dowolnego zbioru.\n * @param element element\n * @return czy element w jednym ze zbiorów\n /\n public boolean contains(E element)\n {\n return represents.containsKey(element);\n }\n\n /\n Tworzenie nowego zbioru jednoelementowego.\n * @param element nowy element\n /\n public void addElem(E element)\n {\n if(contains(element))\n throw new IllegalArgumentException(\"Value \" + element.toString() + \"already present.\");\n\n represents.put(element, element);\n ++elems;\n }\n\n /\n Ustalanie reprezentanta zbioru.\n * @param element element ze zbioru\n * @return reprezentant elementu\n /\n public E findSet(E element)\n {\n if(!Objects.equals(represents.get(element), element))\n represents.put(element, findSet(represents.get(element)));\n\n return represents.get(element);\n }\n\n /\n Scalanie dwóch zbiorów.\n * @param element1 element pierwszego zbioru\n * @param element2 element drugiego zbioru\n /\n public void unionSet(E element1, E element2)\n {\n if(!isSameSet(element1, element2))\n {\n represents.put(findSet(element1), findSet(element2));\n --elems;\n }\n }\n\n /\n Sprawdzanie, czy elementy należą do tego samego zbioru.\n * @param element1 element pierwszego zbioru\n * @param element2 element drugiego zbioru\n * @return czy elementy znajdują się w jednym zbiorze\n /\n\n public boolean isSameSet(E element1, E element2)\n {\n return Objects.equals(findSet(element1), findSet(element2));\n }\n}\n" }, { "alpha_fraction": 0.5515779852867126, "alphanum_fraction": 0.5600565075874329, "avg_line_length": 27.901409149169922, "blob_id": "8c21c0605c10d668590e77b14f96ed4ddb928dc8", "content_id": "d602bdf8322abda315b27d0aa27e9d61d80f827d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2125, "license_type": "permissive", "max_line_length": 93, "num_lines": 71, "path": "/AlgoLib_Cpp/src/algolib/graphs/mst.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY WYZNACZAJĄCE MINIMALNE DRZEWO SPINAJĄCE\r\n#include \"algolib/graphs/mst.hpp\"\r\n\r\nnamespace algr = algolib::graphs;\r\nnamespace alst = algolib::structures;\r\n\r\nweight_t algr::kruskal(const undirected_weighted_simple_graph & uwgraph)\r\n{\r\n weight_t size_MST = 0.0;\r\n int components = uwgraph.get_vertices_number();\r\n std::priority_queue<std::tuple<weight_t, vertex_t, vertex_t>> edge_queue;\r\n alst::disjoint_sets<vertex_t> vertex_sets(uwgraph.get_vertices());\r\n\r\n for(const auto & we : uwgraph.get_weighted_edges())\r\n edge_queue.push(std::make_tuple(-std::get<2>(we), std::get<0>(we), std::get<1>(we)));\r\n\r\n while(components > 1 && !edge_queue.empty())\r\n {\r\n weight_t edge_weight;\r\n vertex_t edge_vert1, edge_vert2;\r\n\r\n std::tie(edge_weight, edge_vert1, edge_vert2) = edge_queue.top();\r\n edge_queue.pop();\r\n edge_weight = -edge_weight;\r\n\r\n if(!vertex_sets.is_same_set(edge_vert1, edge_vert2))\r\n {\r\n size_MST += edge_weight;\r\n --components;\r\n vertex_sets.union_set(edge_vert1, edge_vert2);\r\n }\r\n }\r\n\r\n return size_MST;\r\n}\r\n\r\nweight_t algr::prim(const undirected_weighted_simple_graph & uwgraph, vertex_t source)\r\n{\r\n weight_t size_MST = 0.0;\r\n std::vector<bool> is_visited(uwgraph.get_vertices_number(), false);\r\n std::priority_queue<std::pair<weight_t, vertex_t>> vertex_queue;\r\n\r\n vertex_queue.push(std::make_pair(0.0, source));\r\n\r\n while(!vertex_queue.empty())\r\n {\r\n weight_t edge_weight = -vertex_queue.top().first;\r\n vertex_t v = vertex_queue.top().second;\r\n\r\n vertex_queue.pop();\r\n\r\n if(!is_visited[v])\r\n {\r\n is_visited[v] = true;\r\n size_MST += edge_weight;\r\n\r\n for(const auto & wnb : uwgraph.get_weighted_neighbours(v))\r\n {\r\n vertex_t nb;\r\n weight_t wg;\r\n\r\n std::tie(nb, wg) = wnb;\r\n\r\n if(!is_visited[nb])\r\n vertex_queue.push(std::make_pair(-wg, nb));\r\n }\r\n }\r\n }\r\n\r\n return size_MST;\r\n}\r\n" }, { "alpha_fraction": 0.5624716281890869, "alphanum_fraction": 0.6260790824890137, "avg_line_length": 24.298851013183594, "blob_id": "350e606fbc8d7017df0e352d14fa936c87f18775", "content_id": "7a3df8785f906e0d6401b45656ea44c531ca373b", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 2203, "license_type": "permissive", "max_line_length": 91, "num_lines": 87, "path": "/AlgoLib_Java/test/refhumbold/algolib/MaximumSubarrayTest.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA PODCIĄGU SPÓJNEGO O MAKSYMALNEJ SUMIE\npackage refhumbold.algolib;\n\nimport java.util.Arrays;\nimport java.util.List;\nimport org.junit.After;\nimport org.junit.Assert;\nimport org.junit.Before;\nimport org.junit.Test;\n\npublic class MaximumSubarrayTest\n{\n private List<Double> sequence = null;\n\n @Before\n public void setUp()\n throws Exception\n {\n }\n\n @After\n public void tearDown()\n throws Exception\n {\n sequence = null;\n }\n\n @Test\n public void testFindMaximumSubarray1()\n {\n sequence = Arrays.asList(3.5, 4.8, -1.6, 7.7, 2.1, -9.3, 0.8);\n\n List<Double> result = MaximumSubarray.findMaximumSubarray(sequence);\n\n Assert.assertArrayEquals(new Double[]{3.5, 4.8, -1.6, 7.7, 2.1}, result.toArray());\n }\n\n @Test\n public void testFindMaximumSubarray2()\n {\n sequence = Arrays.asList(-9.3, -1.2, 3.5, 4.8, -10.6, 7.7, 2.1, 0.8, 4.0);\n\n List<Double> result = MaximumSubarray.findMaximumSubarray(sequence);\n\n Assert.assertArrayEquals(new Double[]{7.7, 2.1, 0.8, 4.0}, result.toArray());\n }\n\n @Test\n public void testFindMaximumSubarrayWhenAllElementsAreNegative()\n {\n sequence = Arrays.asList(-9.0, -2.4, -3.07, -1.93, -12.67);\n\n List<Double> result = MaximumSubarray.findMaximumSubarray(sequence);\n\n Assert.assertArrayEquals(new Double[]{}, result.toArray());\n }\n\n @Test\n public void testFindMaximumalSum1()\n {\n sequence = Arrays.asList(3.5, 4.8, -1.6, 7.7, 2.1, -9.3, 0.8);\n\n double result = MaximumSubarray.findMaximalSum(sequence);\n\n Assert.assertEquals(16.5, result, 0.000001);\n }\n\n @Test\n public void testFindMaximumalSum2()\n {\n sequence = Arrays.asList(-9.3, -1.2, 3.5, 4.8, -10.6, 7.7, 2.1, 0.8, 4.0);\n\n double result = MaximumSubarray.findMaximalSum(sequence);\n\n Assert.assertEquals(14.6, result, 0.000001);\n }\n\n @Test\n public void testFindMaximumalSumWhenAllElementsAreNegative()\n {\n sequence = Arrays.asList(-9.0, -2.4, -3.07, -1.93, -12.67);\n\n double result = MaximumSubarray.findMaximalSum(sequence);\n\n Assert.assertEquals(0.0, result, 0.0);\n }\n}\n" }, { "alpha_fraction": 0.6292573809623718, "alphanum_fraction": 0.6292573809623718, "avg_line_length": 24.95652198791504, "blob_id": "5a87154e17b074300fb88e0e187369a3f88a82d5", "content_id": "2a5904663cb0a8c6013d63678fca1107bd7c2429", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1822, "license_type": "permissive", "max_line_length": 89, "num_lines": 69, "path": "/AlgoLib_Cpp/include/algolib/graphs/scc.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\n @file scc.hpp\n * ALGORYTM WYZNACZANIA SILNIE SPÓLJNYCH SKŁADOWYCH W GRAFIE SKIEROWANYM\n /\n#ifndef _SCC_HPP_\n#define _SCC_HPP_\n\n#include <cstdlib>\n#include <algorithm>\n#include <set>\n#include <vector>\n\n#include \"directed_graph.hpp\"\n\nnamespace detail\n{\n class graph_components\n {\n private:\n /// Reprezentacja grafu skierowanego.\n algolib::graphs::directed_graph & digraph;\n\n /// Numery silnie spójnych składowych dla wierzchołków\n std::vector<int> components;\n\n /// Czasy post-order wierzchołków\n std::vector<std::pair<int, vertex_t>> postorder;\n\n public:\n explicit graph_components(algolib::graphs::directed_graph & digr);\n\n /\n Algorytm wyznaczania silnie spójnych składowych grafu.\n * @return numery silnie spójnych składowych dla wierzchołków\n /\n std::vector<int> find_scc();\n\n private:\n /\n Algorytm DFS z licznikiem czasu wyznaczający porządek post-order wierzchołków.\n * @param vertex aktualny wierzchołek\n * @param timer aktualny czas\n * @return nowy czas po przetworzeniu wierzchołka\n /\n int dfs_order(vertex_t vertex, int timer);\n\n /\n Algorytm DFS wyznaczający silnie spójne składowe.\n * @param vertex aktualny wierzchołek\n * @param component numer składowej\n /\n void dfs_scc(vertex_t vertex, int component);\n };\n}\n\nnamespace algolib\n{\n namespace graphs\n {\n /\n Algorytm wyznaczania silnie spójnych składowych grafu.\n * @param digraph graf skierowany\n * @return numery silnie spójnych składowych dla wierzchołków\n /\n std::vector<std::set<vertex_t>> find_scc(directed_graph & digraph);\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.5598626136779785, "alphanum_fraction": 0.5647693872451782, "avg_line_length": 21.395605087280273, "blob_id": "0cf6501d17e9b492685418277959b057b90a9cb0", "content_id": "8aee9a2e20d9d04af29791574af63d621de6d438", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2038, "license_type": "permissive", "max_line_length": 63, "num_lines": 91, "path": "/AlgoLib_Python/tests/test_kmp.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA ALGORYTMU KNUTHA-MORRISA-PRATTA\"\"\"\nimport unittest\nfrom algolib import kmp\n\n\nclass KMPTest(unittest.TestCase):\n def __init__(self, args, *kwargs):\n super().__init__(args, kwargs)\n\n def setUp(self):\n pass\n\n def tearDown(self):\n pass\n\n def test_kmp_when_pattern_found_once(self):\n text = \"abcde\"\n pattern = \"a\"\n\n result = kmp(text, pattern)\n\n self.assertListEqual([0], result)\n\n def test_kmp_when_pattern_found_twice(self):\n text = \"abcdae\"\n pattern = \"a\"\n\n result = kmp(text, pattern)\n\n self.assertListEqual([0, 4], result)\n\n def test_kmp_when_pattern_found_twice_and_intersects(self):\n text = \"aaabcde\"\n pattern = \"aa\"\n\n result = kmp(text, pattern)\n\n self.assertListEqual([0, 1], result)\n\n def test_kmp_when_pattern_not_found(self):\n text = \"abcde\"\n pattern = \"x\"\n\n result = kmp(text, pattern)\n\n self.assertListEqual([], result)\n\n def test_kmp_when_pattern_is_empty_string(self):\n text = \"abcde\"\n pattern = \"\"\n\n result = kmp(text, pattern)\n\n self.assertListEqual([], result)\n\n def test_kmp_when_pattern_is_none(self):\n text = \"abcde\"\n pattern = None\n\n with self.assertRaises(TypeError):\n kmp(text, pattern)\n\n def test_kmp_when_pattern_is_not_a_string(self):\n text = \"abcde\"\n pattern = 10\n\n with self.assertRaises(TypeError):\n kmp(text, pattern)\n\n def test_kmp_when_text_is_empty_string(self):\n text = \"\"\n pattern = \"a\"\n\n result = kmp(text, pattern)\n\n self.assertListEqual([], result)\n\n def test_kmp_when_text_is_none(self):\n text = None\n pattern = \"a\"\n\n with self.assertRaises(TypeError):\n kmp(text, pattern)\n\n def test_kmp_when_text_is_not_a_string(self):\n text = 10\n pattern = \"a\"\n\n with self.assertRaises(TypeError):\n kmp(text, pattern)\n" }, { "alpha_fraction": 0.8306451439857483, "alphanum_fraction": 0.8306451439857483, "avg_line_length": 19.66666603088379, "blob_id": "adc1268407caea15795c3b3e85e4c585461ead6d", "content_id": "cf8faf42c5fd18267810906010a1dce49a35b63f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 124, "license_type": "permissive", "max_line_length": 42, "num_lines": 6, "path": "/AlgoLib_Java/src/refhumbold/algolib/graphs/UndirectedWeightedGraph.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "package refhumbold.algolib.graphs;\n\npublic interface UndirectedWeightedGraph\n extends UndirectedGraph, WeightedGraph\n{\n}\n" }, { "alpha_fraction": 0.5948771834373474, "alphanum_fraction": 0.5969681143760681, "avg_line_length": 22.617284774780273, "blob_id": "651cde60fb21c13e6787bd02e1a80884752234a3", "content_id": "21a055485c7fe95d03998947090062af30334cf9", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1943, "license_type": "permissive", "max_line_length": 90, "num_lines": 81, "path": "/AlgoLib_Cpp/include/algolib/graphs/matching.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\n * @file matching.hpp\n * ALGORYTM HOPCROFTA-KARPA WYZNACZANIA SKOJARZEŃ W GRAFIE DWUDZIELNYM\n /\n#ifndef _MATCHING_HPP_\n#define _MATCHING_HPP_\n\n#include <cstdlib>\n#include <exception>\n#include <stdexcept>\n#include <queue>\n#include <vector>\n\n#include \"multipartite_graph.hpp\"\n\nnamespace detail\n{\n class match_augmenter\n {\n private:\n /// Oznaczenie braku skojarzenia.\n static constexpr int NO_MATCH = -1;\n\n /// Graf dwudzielny.\n const algolib::graphs::multipartite_graph<2> & graph;\n\n /// Skojarzenia wierzchołków.\n std::vector<int> matching;\n\n /// Odległości wierzchołków.\n std::vector<double> distances;\n\n /// Lista odwiedzonych wierzchołków.\n std::vector<bool> is_visited;\n\n public:\n explicit match_augmenter(const algolib::graphs::multipartite_graph<2> & partgraph)\n : graph{partgraph}\n {\n this->matching.resize(this->graph.get_vertices_number(), NO_MATCH);\n }\n\n /// @return skojarzenia wierzchołków\n std::vector<int> get_matching()\n {\n return this->matching;\n }\n\n /\n Powiększanie skojarzenia przy pomocy scieżek poiększających.\n * @return czy powiększono skojarzenie\n /\n bool augment_match();\n\n private:\n /// Algorytm BFS wyliczający odległości wierzchołków.\n void bfs();\n\n /\n Algorytm DFS powiększający skojarzenie za pomocą ścieżek powiekszających.\n * @param vertex wierzchołek\n * @return czy powiększono skojarzenie\n /\n bool dfs(int vertex);\n };\n}\n\nnamespace algolib\n{\n namespace graphs\n {\n /\n Wyznaczanie maksymalnego skojarzenia.\n * @param partgraph graf wielodzielny\n * @return pary skojarzonych wierzchołków\n /\n std::vector<std::pair<int, int>> match(const multipartite_graph<2> & partgraph);\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.5137521028518677, "alphanum_fraction": 0.5164685845375061, "avg_line_length": 26.268518447875977, "blob_id": "45b49006a7daffddf57d3f80413a9e33862bf3f5", "content_id": "bce36929fea91376890558113ceea9712c5e56ed", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2953, "license_type": "permissive", "max_line_length": 95, "num_lines": 108, "path": "/AlgoLib_Cpp/include/algolib/graphs/forest_graph.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\n @file forest_graph.hpp\n * STRUKTURY GRAFÓW DRZEW\n /\n#ifndef _FOREST_GRAPH_HPP_\n#define _FOREST_GRAPH_HPP_\n\n#include <cstdlib>\n#include <exception>\n#include <stdexcept>\n#include <algorithm>\n#include <tuple>\n#include <vector>\n\n#include \"../structures/disjoint_sets.hpp\"\n#include \"graph.hpp\"\n#include \"undirected_graph.hpp\"\n\nnamespace alst = algolib::structures;\n\nnamespace algolib\n{\n namespace graphs\n {\n class cycle_exception : std::logic_error\n {\n public:\n explicit cycle_exception(const std::string & what_arg) : std::logic_error(what_arg)\n {\n }\n\n explicit cycle_exception(const char what_arg = \"\") : std::logic_error(what_arg)\n {\n }\n };\n\n class forest_graph : public undirected_graph\n {\n private:\n undirected_simple_graph graph;\n\n alst::disjoint_sets<vertex_t> components;\n\n public:\n explicit forest_graph(int n, std::vector<edge_t> edges = std::vector<edge_t>())\n : graph{undirected_simple_graph(n)}, components{alst::disjoint_sets<vertex_t>(\n this->graph.get_vertices())}\n {\n for(const auto & e : edges)\n this->add_edge(std::get<0>(e), std::get<1>(e));\n }\n\n size_t get_trees_number() const\n {\n return components.size();\n }\n\n size_t get_vertices_number() const override\n {\n return graph.get_vertices_number();\n }\n\n std::vector<vertex_t> get_vertices() const override\n {\n return graph.get_vertices();\n }\n\n vertex_t add_vertex() override;\n\n size_t get_edges_number() const override\n {\n return graph.get_edges_number();\n }\n\n std::vector<edge_t> get_edges() const override\n {\n return graph.get_edges();\n }\n\n void add_edge(vertex_t vertex1, vertex_t vertex2) override;\n\n std::vector<vertex_t> get_neighbours(vertex_t vertex) const override\n {\n return graph.get_neighbours(vertex);\n }\n\n size_t get_outdegree(vertex_t vertex) const override\n {\n return graph.get_outdegree(vertex);\n }\n\n size_t get_indegree(vertex_t vertex) const override\n {\n return graph.get_indegree(vertex);\n }\n\n /*\n Sprawdzanie, czy wierzchołki należą do tego samego drzewa.\n * @param vertex1 pierwszy wierzchołek\n * @param vertex2 drugi wierzchołek\n * @return czy wierzchołki są w jednym drzewie\n /\n bool is_same_tree(vertex_t vertex1, vertex_t vertex2) const;\n };\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.5151026844978333, "alphanum_fraction": 0.5784333348274231, "avg_line_length": 30.232704162597656, "blob_id": "01be71322bf9699386dcbcf34c2c8ef1bf0fe0b2", "content_id": "127d60aa7d7ccc10acb97a570405316c3ff4443c", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 9932, "license_type": "permissive", "max_line_length": 99, "num_lines": 318, "path": "/AlgoLib_Python/tests/test_sorting.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA ALGORYTMÓW SORTOWANIA\"\"\"\nimport unittest\nfrom algolib import angle_sorted, heap_sorted, mergedown_sorted, mergeup_sorted, quick_sorted\n\n\nclass SortingTest(unittest.TestCase):\n def __init__(self, args, *kwargs):\n super().__init__(args, kwargs)\n\n def setUp(self):\n pass\n\n def tearDown(self):\n pass\n\n def test_angle_sorted(self):\n sequence = [(0, 0), (-2, -3), (-3, -2), (3, -2), (-2, 3), (3, 2), (2, -3), (2, 3), (-3, 2)]\n sequence_copy = sequence[:]\n\n result = angle_sorted(sequence)\n\n self.assertIsInstance(result, list)\n self.assertListEqual([(0, 0), (3, 2), (2, 3), (-2, 3), (-3, 2),\n (-3, -2), (-2, -3), (2, -3), (3, -2)], result)\n self.assertListEqual(sequence_copy, sequence)\n\n def test_angle_sorted_when_argument_is_not_list(self):\n sequence = {(0, 0), (-2, -3), (-3, -2), (3, -2), (-2, 3), (3, 2), (2, -3), (2, 3), (-3, 2)}\n\n result = angle_sorted(sequence)\n\n self.assertIsInstance(result, list)\n self.assertListEqual([(0, 0), (3, 2), (2, 3), (-2, 3), (-3, 2),\n (-3, -2), (-2, -3), (2, -3), (3, -2)], result)\n\n def test_angle_sorted_when_all_equal(self):\n sequence = [(1, 2), (1, 2), (1, 2), (1, 2), (1, 2), (1, 2), (1, 2)]\n\n result = angle_sorted(sequence)\n\n self.assertListEqual([(1, 2), (1, 2), (1, 2), (1, 2), (1, 2), (1, 2), (1, 2)], result)\n\n def test_angle_sorted_when_empty_list(self):\n sequence = []\n\n result = angle_sorted(sequence)\n\n self.assertListEqual([], result)\n\n def test_heap_sorted(self):\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n sequence_copy = sequence[:]\n\n result = heap_sorted(sequence)\n\n self.assertIsInstance(result, list)\n self.assertListEqual(sorted(sequence_copy), result)\n self.assertListEqual(sequence_copy, sequence)\n\n def test_heap_sorted_when_argument_is_not_list(self):\n sequence = {3, 17, -6, 0, 9, -12, 7, 4, 2}\n\n result = heap_sorted(sequence)\n\n self.assertIsInstance(result, list)\n self.assertListEqual(sorted(sequence), result)\n\n def test_heap_sorted_when_all_equal(self):\n sequence = [10, 10, 10, 10, 10, 10, 10, 10, 10]\n\n result = heap_sorted(sequence)\n\n self.assertListEqual([10, 10, 10, 10, 10, 10, 10, 10, 10], result)\n\n def test_heap_sorted_when_indices(self):\n index1 = 3\n index2 = -2\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n sequence_sorted = sequence[:index1] + sorted(sequence[index1:index2]) + sequence[index2:]\n\n result = heap_sorted(sequence, index1, index2)\n\n self.assertListEqual(sequence_sorted, result)\n\n def test_heap_sorted_when_left_index_out_of_range(self):\n index1 = -13\n index2 = -2\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n\n with self.assertRaises(IndexError):\n heap_sorted(sequence, index1, index2)\n\n def test_heap_sorted_when_right_index_out_of_range(self):\n index1 = 3\n index2 = 17\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n\n with self.assertRaises(IndexError):\n heap_sorted(sequence, index1, index2)\n\n def test_heap_sorted_when_indices_reversed(self):\n index1 = 7\n index2 = 3\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n\n result = heap_sorted(sequence, index1, index2)\n\n self.assertListEqual(sequence, result)\n\n def test_heap_sorted_when_empty_list(self):\n sequence = []\n\n result = heap_sorted(sequence)\n\n self.assertListEqual([], result)\n\n def test_mergedown_sorted(self):\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n sequence_copy = sequence[:]\n\n result = mergedown_sorted(sequence)\n\n self.assertIsInstance(result, list)\n self.assertListEqual(sorted(sequence), result)\n self.assertListEqual(sequence_copy, sequence)\n\n def test_mergedown_sorted_when_argument_is_not_list(self):\n sequence = {3, 17, -6, 0, 9, -12, 7, 4, 2}\n\n result = mergedown_sorted(sequence)\n\n self.assertIsInstance(result, list)\n self.assertListEqual(sorted(sequence), result)\n\n def test_mergedown_sorted_when_all_equal(self):\n sequence = [10, 10, 10, 10, 10, 10, 10, 10, 10]\n\n result = mergedown_sorted(sequence)\n\n self.assertListEqual([10, 10, 10, 10, 10, 10, 10, 10, 10], result)\n\n def test_mergedown_sorted_when_indices(self):\n index1 = 3\n index2 = -2\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n sequence_sorted = sequence[:index1] + sorted(sequence[index1:index2]) + sequence[index2:]\n\n result = mergedown_sorted(sequence, index1, index2)\n\n self.assertListEqual(sequence_sorted, result)\n\n def test_mergedown_sorted_when_left_index_out_of_range(self):\n index1 = -13\n index2 = -2\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n\n with self.assertRaises(IndexError):\n mergedown_sorted(sequence, index1, index2)\n\n def test_mergedown_sorted_when_right_index_out_of_range(self):\n index1 = 3\n index2 = 17\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n\n with self.assertRaises(IndexError):\n mergedown_sorted(sequence, index1, index2)\n\n def test_mergedown_sorted_when_indices_reversed(self):\n index1 = 7\n index2 = 3\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n\n result = mergedown_sorted(sequence, index1, index2)\n\n self.assertListEqual(sequence, result)\n\n def test_mergedown_sorted_when_empty_list(self):\n sequence = []\n\n result = mergedown_sorted(sequence)\n\n self.assertListEqual([], result)\n\n def test_mergeup_sorted(self):\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n sequence_copy = sequence[:]\n\n result = mergeup_sorted(sequence)\n\n self.assertIsInstance(result, list)\n self.assertListEqual(sorted(sequence_copy), result)\n self.assertListEqual(sequence_copy, sequence)\n\n def test_mergeup_sorted_when_argument_is_not_list(self):\n sequence = {3, 17, -6, 0, 9, -12, 7, 4, 2}\n\n result = mergeup_sorted(sequence)\n\n self.assertIsInstance(result, list)\n self.assertListEqual(sorted(sequence), result)\n\n def test_mergeup_sorted_when_all_equal(self):\n sequence = [10, 10, 10, 10, 10, 10, 10, 10, 10]\n\n result = mergeup_sorted(sequence)\n\n self.assertListEqual([10, 10, 10, 10, 10, 10, 10, 10, 10], result)\n\n def test_mergeup_sorted_when_indices(self):\n index1 = 3\n index2 = -2\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n sequence_sorted = sequence[:index1] + sorted(sequence[index1:index2]) + sequence[index2:]\n\n result = mergeup_sorted(sequence, index1, index2)\n\n self.assertListEqual(sequence_sorted, result)\n\n def test_mergeup_sorted_when_left_index_out_of_range(self):\n index1 = -13\n index2 = -2\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n\n with self.assertRaises(IndexError):\n mergeup_sorted(sequence, index1, index2)\n\n def test_mergeup_sorted_when_right_index_out_of_range(self):\n index1 = 3\n index2 = 17\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n\n with self.assertRaises(IndexError):\n mergeup_sorted(sequence, index1, index2)\n\n def test_mergeup_sorted_when_indices_reversed(self):\n index1 = 7\n index2 = 3\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n\n result = mergeup_sorted(sequence, index1, index2)\n\n self.assertListEqual(sequence, result)\n\n def test_mergeup_sorted_when_empty_list(self):\n sequence = []\n\n result = mergeup_sorted(sequence)\n\n self.assertListEqual([], result)\n\n def test_quick_sorted(self):\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n sequence_copy = sequence[:]\n\n result = quick_sorted(sequence)\n\n self.assertIsInstance(result, list)\n self.assertListEqual(sorted(sequence_copy), result)\n self.assertListEqual(sequence_copy, sequence)\n\n def test_quick_sorted_when_argument_is_not_list(self):\n sequence = {3, 17, -6, 0, 9, -12, 7, 4, 2}\n\n result = quick_sorted(sequence)\n\n self.assertIsInstance(result, list)\n self.assertListEqual(sorted(sequence), result)\n\n def test_quick_sorted_when_all_equal(self):\n sequence = [10, 10, 10, 10, 10, 10, 10, 10, 10]\n\n result = quick_sorted(sequence)\n\n self.assertListEqual([10, 10, 10, 10, 10, 10, 10, 10, 10], result)\n\n def test_quick_sorted_when_indices(self):\n index1 = 3\n index2 = -2\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n sequence_sorted = sequence[:index1] + sorted(sequence[index1:index2]) + sequence[index2:]\n\n result = quick_sorted(sequence, index1, index2)\n\n self.assertListEqual(sequence_sorted, result)\n\n def test_quick_sorted_when_left_index_out_of_range(self):\n index1 = -13\n index2 = -2\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n\n with self.assertRaises(IndexError):\n quick_sorted(sequence, index1, index2)\n\n def test_quick_sorted_when_right_index_out_of_range(self):\n index1 = 3\n index2 = 17\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n\n with self.assertRaises(IndexError):\n quick_sorted(sequence, index1, index2)\n\n def test_quick_sorted_when_indices_reversed(self):\n index1 = 7\n index2 = 3\n sequence = [3, 17, -6, 0, 9, -12, 7, 4, 2]\n sequence_copy = sequence[:]\n\n result = quick_sorted(sequence, index1, index2)\n\n self.assertListEqual(sequence_copy, result)\n\n def test_quick_sorted_when_empty_list(self):\n sequence = []\n\n result = quick_sorted(sequence)\n\n self.assertListEqual([], result)\n" }, { "alpha_fraction": 0.4360239803791046, "alphanum_fraction": 0.5756080150604248, "avg_line_length": 31.609195709228516, "blob_id": "d38c38c6c11e521adce23104771333504c596f6e", "content_id": "abc99571b677389f3c06ee5c73151f59d79bb1b2", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2838, "license_type": "permissive", "max_line_length": 96, "num_lines": 87, "path": "/AlgoLib_Cpp/test/primes_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMÓW DLA LICZB PIERWSZYCH\"\"\"\n#include <gtest/gtest.h>\n#include \"algolib/math/primes.hpp\"\n\nnamespace alma = algolib::math;\n\nTEST(PrimesTest, testFindPrimesTwoArgsDescending)\n{\n EXPECT_THROW(alma::find_primes(100, 30), std::invalid_argument);\n}\n\nTEST(PrimesTest, testFindPrimesOneArgIsTwoArgs_with_zero_asMin)\n{\n std::vector<size_t> result1 = alma::find_primes(100);\n std::vector<size_t> result2 = alma::find_primes(0, 100);\n\n EXPECT_EQ(result1, result2);\n}\n\nTEST(PrimesTest, testFindPrimesOneArg)\n{\n std::vector<size_t> result = alma::find_primes(100);\n\n EXPECT_EQ(std::vector<size_t>({2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41,\n 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97}),\n result);\n}\n\nTEST(PrimesTest, testFindPrimesOneArgWhenMaxIsPrime)\n{\n std::vector<size_t> result = alma::find_primes(67);\n\n EXPECT_EQ(std::vector<size_t>(\n {2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67}),\n result);\n}\n\nTEST(PrimesTest, testFindPrimesOneArgWhenLessThanTwo)\n{\n std::vector<size_t> result = alma::find_primes(1);\n\n EXPECT_EQ(std::vector<size_t>(), result);\n}\n\nTEST(PrimesTest, testFindPrimesTwoArgs)\n{\n std::vector<size_t> result = alma::find_primes(30, 200);\n\n EXPECT_EQ(std::vector<size_t>({31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79,\n 83, 89, 97, 101, 103, 107, 109, 113, 127, 131, 137, 139,\n 149, 151, 157, 163, 167, 173, 179, 181, 191, 193, 197, 199}),\n result);\n}\n\nTEST(PrimesTest, testFindPrimesTwoArgsWhenMinLessThanSqrtOfMax)\n{\n std::vector<size_t> result = alma::find_primes(5, 150);\n\n EXPECT_EQ(std::vector<size_t>({5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41,\n 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89,\n 97, 101, 103, 107, 109, 113, 127, 131, 137, 139, 149}),\n result);\n}\n\nTEST(PrimesTest, testFindPrimesTwoArgsWhenMinAndMaxArePrimes)\n{\n std::vector<size_t> result = alma::find_primes(137, 317);\n\n EXPECT_EQ(std::vector<size_t>({137, 139, 149, 151, 157, 163, 167, 173, 179, 181, 191, 193,\n 197, 199, 211, 223, 227, 229, 233, 239, 241, 251, 257, 263,\n 269, 271, 277, 281, 283, 293, 307, 311, 313, 317}),\n result);\n}\n\nTEST(PrimesTest, testFindPrimesTwoArgsWhenMinEqualsMaxAndPrime)\n{\n std::vector<size_t> result = alma::find_primes(41, 41);\n\n EXPECT_EQ(std::vector<size_t>({41}), result);\n}\n\nTEST(PrimesTest, testFindPrimesTwoArgsWhenMinEqualsMaxAndComposite)\n{\n std::vector<size_t> result = alma::find_primes(91, 91);\n\n EXPECT_EQ(std::vector<size_t>(), result);\n}\n" }, { "alpha_fraction": 0.8079096078872681, "alphanum_fraction": 0.8079096078872681, "avg_line_length": 43.25, "blob_id": "00aca6d70167fcb75528e163ae1864fdb29577f4", "content_id": "76dc830a04460c93dbd674454a246e59ff8345b7", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 354, "license_type": "permissive", "max_line_length": 94, "num_lines": 8, "path": "/AlgoLib_Python/algolib/__init__.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "from .closest_points import find_closest_points\nfrom .convex_hull import convex_hull\nfrom .kmp import kmp\nfrom .kmr import kmr\nfrom .lis import find_lis\nfrom .maximum_subarray import find_maximum_subarray, find_maximal_sum\nfrom .sorting import angle_sorted, heap_sorted, mergedown_sorted, mergeup_sorted, quick_sorted\nfrom .two_sat import is_satisfiable\n" }, { "alpha_fraction": 0.5183389186859131, "alphanum_fraction": 0.5219763517379761, "avg_line_length": 27.439655303955078, "blob_id": "ef40c732902fb285606c27d27c55f17193e3ac9d", "content_id": "fdb904953c5cb53c94f9dab07ca90550103d2ab2", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 3330, "license_type": "permissive", "max_line_length": 83, "num_lines": 116, "path": "/AlgoLib_Cpp/include/algolib/structures/equation_system.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\n * @file equation_system.hpp\n * STRUKTURA UKŁADÓW RÓWNAŃ LINIOWYCH Z ALGORYTMEM ELIMINACJI GAUSSA\n /\n#ifndef _EQUATION_SYSTEM_HPP_\n#define _EQUATION_SYSTEM_HPP_\n\n#include <cstdlib>\n#include <cmath>\n#include <exception>\n#include <stdexcept>\n#include <algorithm>\n#include <initializer_list>\n#include <vector>\n\nnamespace algolib\n{\n namespace structures\n {\n class infinite_solutions_exception : public std::runtime_error\n {\n public:\n explicit infinite_solutions_exception(const std::string & what_arg)\n : std::runtime_error(what_arg)\n {\n }\n\n explicit infinite_solutions_exception(const char what_arg = \"\")\n : std::runtime_error(what_arg)\n {\n }\n };\n\n class no_solution_exception : public std::runtime_error\n {\n public:\n explicit no_solution_exception(const std::string & what_arg)\n : std::runtime_error(what_arg)\n {\n }\n\n explicit no_solution_exception(const char * what_arg = \"\")\n : std::runtime_error(what_arg)\n {\n }\n };\n\n class equation_system\n {\n private:\n /// Liczba równań układu.\n size_t equations;\n\n /// Macierz współczynników równania.\n std::vector<std::vector<double>> coeffs;\n\n /// Wektor wyrazów wolnych równania.\n std::vector<double> free_terms;\n\n public:\n explicit equation_system(size_t numeq) : equations{numeq}\n {\n coeffs.resize(equations);\n free_terms.resize(equations, 0.0);\n\n for(auto & row : coeffs)\n row.resize(equations, 0.0);\n }\n\n explicit equation_system(\n std::initializer_list<std::initializer_list<double>> init_list);\n\n ~equation_system() = default;\n equation_system(const equation_system & eqsys) = default;\n equation_system(equation_system && eqsys) = default;\n equation_system & operator=(const equation_system & eqsys) = default;\n equation_system & operator=(equation_system && eqsys) = default;\n\n /*\n @return liczba równań układu\n /\n size_t get_equations_number()\n {\n return equations;\n }\n\n /\n Wyliczanie rozwiązań układu równań liniowych.\n * @return wektor wyniku równania\n /\n std::vector<double> solve();\n\n /\n Algorytm eliminacji Gaussa.\n /\n void gaussian_reduce();\n\n /\n Zamiana równań miejscami.\n * @param eq1 numer pierwszego równania\n * @param eq2 numer drugiego równania\n /\n void change(int equ1, int equ2);\n\n /\n Przekształcenie równania przez kombinację liniową z innym równaniem.\n * @param eq1 numer równania przekształcanego\n * @param eq2 numer drugiego równania\n * @param cst stała kombinacji liniowej\n /\n void linear_comb(int equ1, int equ2, double cst);\n };\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.6325430870056152, "alphanum_fraction": 0.6379310488700867, "avg_line_length": 32.14285659790039, "blob_id": "3012b8c332fb6a6d4881ab3f3df042fa38a3001b", "content_id": "06ae144b7d279266cc124bc2278e3811e8ae90fa", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2811, "license_type": "permissive", "max_line_length": 92, "num_lines": 84, "path": "/AlgoLib_Python/algolib/graphs/multipartite_graph.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"STRUKTURY GRAFÓW WIELODZIELNYCH\"\"\"\nfrom .undirected_graph import UndirectedGraph, UndirectedSimpleGraph\n\n\nclass GraphPartitionException(ValueError):\n pass\n\n\nclass MultipartiteGraph(UndirectedGraph):\n def __init__(self, n, group):\n super().__init__()\n # Struktura grafu wielodzielnego.\n self.__graph = UndirectedSimpleGraph(n)\n # Maksymalna liczba grup wierzchołków.\n self.__groups_number = group\n # Numery grup wierzchołków.\n self.__groups = [0] self.__graph.vertices_number\n\n @property\n def groups_number(self):\n return self.__groups_number\n\n @property\n def vertices_number(self):\n return self.__graph.vertices_number\n\n def get_vertices(self, , group=None):\n \"\"\":param group: numer grupy wierzchołków\n :returns: generator wierzchołków z zadanej grupy\"\"\"\n if group is None:\n return self.__graph.get_vertices()\n\n return (v for v in self.__graph.get_vertices() if self.__groups[v] == group)\n\n def add_vertex(self, , group=0):\n \"\"\"Dodawanie nowego wierzchołka do zadanej grupy.\n :param group: numer grupy\n :returns: oznaczenie wierzchołka\"\"\"\n self.__groups.append(group)\n\n return self.__graph.add_vertex()\n\n @property\n def edges_number(self):\n return self.__graph.edges_number\n\n def get_edges(self):\n return self.__graph.get_edges()\n\n def add_edge(self, vertex1, vertex2):\n if self.is_same_group(vertex1, vertex2):\n raise GraphPartitionException()\n\n self.__graph.add_edge(vertex1, vertex2)\n\n def get_neighbours(self, vertex, , group=None):\n \"\"\":param vertex: numer wierzchołka\n :param group: numer grupy sąsiadów\n :returns: generator sąsiadów wierzchołka z zadanej grupy\"\"\"\n if group is None:\n return self.__graph.get_neighbours(vertex)\n\n return (v for v in self.__graph.get_neighbours(vertex) if self.__groups[v] == group)\n\n def get_outdegree(self, vertex):\n return self.__graph.get_outdegree(vertex)\n\n def get_indegree(self, vertex):\n return self.__graph.get_indegree(vertex)\n\n def is_in_group(self, vertex, group):\n \"\"\"Sprawdzanie, czy wierzchołek nalezy do zadanej grupy.\n :param vertex: wierzchołek\n :param group: numer grupy\n :returns: czy wierzchołek jest w grupie\"\"\"\n return self.__groups[vertex] == group\n\n def is_same_group(self, vertex1, vertex2):\n \"\"\"Sprawdzanie, czy wierzchołki należą do tej samej grupy.\n :param vertex1: pierwszy wierzchołek\n :param vertex2: drugi wierzchołek\n :returns: czy wierzchołki są w jednej grupie\"\"\"\n return self.__groups[vertex1] == self.__groups[vertex2]\n" }, { "alpha_fraction": 0.6757446527481079, "alphanum_fraction": 0.6782978773117065, "avg_line_length": 22.5, "blob_id": "17e5b165d3faa11b4cec34f7a60d74327cb9affb", "content_id": "d8c60b71bdc79a9cbd24b00b906211b549cb2949", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1192, "license_type": "permissive", "max_line_length": 81, "num_lines": 50, "path": "/AlgoLib_Cpp/include/algolib/two_sat.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTM SPEŁNIALNOŚCI FORMUŁ 2-CNF\n#ifndef TWO_SAT_HPP\n#define TWO_SAT_HPP\n\n#include <cstdlib>\n#include <algorithm>\n#include <numeric>\n#include <vector>\n\n#include \"algolib/graphs/directed_graph.hpp\"\n\nusing literal_t = int;\nusing clause_t = std::pair<literal_t, literal_t>;\nusing formula_t = std::vector<clause_t>;\n\nnamespace detail\n{\n /\n Wyliczanie liczby zmiennych występujących w formule.\n * @param formula lista klauzul\n * @return liczba zmiennych\n /\n int count_variables(const formula_t & formula);\n\n /\n Wyliczanie numeru wierzchołka literału.\n * @param literal literał\n * @return numer wierzchołka odpowiadający literałowi\n /\n size_t vertex(literal_t literal);\n\n /\n Wyznaczanie grafu implikacji formuły 2-CNF.\n * @param formula lista klauzul\n * @return skierowany graf implikacji\n /\n algolib::graphs::directed_simple_graph make_graph(const formula_t & formula);\n}\n\nnamespace algolib\n{\n /\n Sprawdzanie spełnialności formuły 2-CNF.\n * @param formula lista klauzul\n * @return czy formuła spełnialna\n /\n bool is_satisfiable(const formula_t & formula);\n}\n\n#endif\n" }, { "alpha_fraction": 0.4049723744392395, "alphanum_fraction": 0.47071823477745056, "avg_line_length": 35.93877410888672, "blob_id": "f6358cab4614f5a3861bd2eef5fbd9e82fbd1328", "content_id": "6db0dc57305840e84dec07ea94a2b86698fbb8c7", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1813, "license_type": "permissive", "max_line_length": 100, "num_lines": 49, "path": "/AlgoLib_Python/tests/test_cutting.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA ALGORYTMÓW WYSZUKIWANIA MOSTÓW I PUNKTÓW ARTYKULACJI\"\"\"\nimport unittest\nfrom algolib.graphs import find_edge_cut, find_vertex_cut, UndirectedSimpleGraph\n\n\nclass CuttingTest(unittest.TestCase):\n def __init__(self, args, *kwargs):\n super().__init__(args, *kwargs)\n\n def setUp(self):\n pass\n\n def tearDown(self):\n pass\n\n def test_find_edge_cut_when_present_bridges(self):\n graph = UndirectedSimpleGraph(12, [(0, 1), (0, 2), (0, 7), (1, 2), (1, 3), (1, 4), (3, 5),\n (4, 5), (5, 6), (7, 8), (7, 9), (7, 11), (8, 9), (9, 10),\n (9, 11), (10, 11)])\n\n result = find_edge_cut(graph)\n\n self.assertListEqual([(0, 7), (5, 6)], sorted(result))\n\n def test_find_edge_cut_when_no_bridges(self):\n graph = UndirectedSimpleGraph(6, [(0, 1), (0, 2), (1, 2),\n (1, 3), (1, 4), (3, 5), (4, 5)])\n\n result = find_edge_cut(graph)\n\n self.assertListEqual([], sorted(result))\n\n def test_find_vertex_cut_when_present_separators(self):\n graph = UndirectedSimpleGraph(12, [(0, 1), (0, 2), (0, 7), (1, 2), (1, 3), (1, 4), (3, 5),\n (4, 5), (5, 6), (7, 8), (7, 9), (7, 11), (8, 9), (9, 10),\n (9, 11), (10, 11)])\n\n result = find_vertex_cut(graph)\n\n self.assertListEqual([0, 1, 5, 7], sorted(result))\n\n def test_find_vertex_cut_when_no_separators(self):\n graph = UndirectedSimpleGraph(6, [(0, 1), (0, 2), (1, 2), (1, 3),\n (1, 4), (2, 3), (3, 5), (4, 5)])\n\n result = find_vertex_cut(graph)\n\n self.assertListEqual([], sorted(result))\n" }, { "alpha_fraction": 0.6049436330795288, "alphanum_fraction": 0.611014723777771, "avg_line_length": 24.622222900390625, "blob_id": "5c19fef3a674fa304fb972ee82eeb9c5550ed5c0", "content_id": "83b18c262eff107d6e3353a44899b4b51c09d0a2", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 2306, "license_type": "permissive", "max_line_length": 93, "num_lines": 90, "path": "/AlgoLib_Java/src/refhumbold/algolib/graphs/DirectedSimpleGraph.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURA SKIEROWANEGO GRAFU PROSTEGO\npackage refhumbold.algolib.graphs;\n\nimport java.util.;\n\nimport refhumbold.algolib.tuples.ComparablePair;\nimport refhumbold.algolib.tuples.Pair;\n\npublic class DirectedSimpleGraph\n extends SimpleGraph\n implements DirectedGraph\n{\n public DirectedSimpleGraph(int n)\n {\n super(n);\n }\n\n public DirectedSimpleGraph(int n, Iterable<Pair<Integer, Integer>> edges)\n throws NoSuchVertexException\n {\n super(n);\n\n for(Pair<Integer, Integer> e : edges)\n this.addEdge(e.getFirst(), e.getSecond());\n }\n\n @Override\n public int getEdgesNumber()\n {\n int edgesNumber = 0;\n\n for(Integer v : getVertices())\n edgesNumber += getOutdegree(v);\n\n return edgesNumber;\n }\n\n @Override\n public Collection<ComparablePair<Integer, Integer>> getEdges()\n {\n List<ComparablePair<Integer, Integer>> edges = new ArrayList<>();\n\n for(Integer v : getVertices())\n for(Integer u : getNeighbours(v))\n edges.add(ComparablePair.make(v, u));\n\n return edges;\n }\n\n @Override\n public void addEdge(Integer vertex1, Integer vertex2)\n throws NoSuchVertexException\n {\n if(vertex1 < 0 \|\| vertex1 >= getVerticesNumber())\n throw new NoSuchVertexException(vertex1.toString());\n\n if(vertex2 < 0 \|\| vertex2 >= getVerticesNumber())\n throw new NoSuchVertexException(vertex2.toString());\n\n graphrepr.get(vertex1).add(ComparablePair.make(vertex2, SimpleGraph.DEFAULT_WEIGHT));\n }\n\n @Override\n public int getIndegree(Integer vertex)\n {\n int indeg = 0;\n\n for(Integer w : getVertices())\n for(Integer u : getNeighbours(w))\n if(u.equals(vertex))\n ++indeg;\n\n return indeg;\n }\n\n @Override\n public void reverse()\n {\n List<Set<ComparablePair<Integer, Double>>> revgraphrepr = new ArrayList<>();\n\n for(Integer v : getVertices())\n revgraphrepr.add(new HashSet<>());\n\n for(Pair<Integer, Integer> e : getEdges())\n revgraphrepr.get(e.getSecond())\n .add(ComparablePair.make(e.getFirst(), SimpleGraph.DEFAULT_WEIGHT));\n\n graphrepr = revgraphrepr;\n }\n}\n" }, { "alpha_fraction": 0.6636771559715271, "alphanum_fraction": 0.6636771559715271, "avg_line_length": 20.580644607543945, "blob_id": "c49d939c77e1e15af6cd4a7ddfacf126b875f414", "content_id": "c5a9a09e688d8fddbb74e3a36fe84b2ed60f65fd", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 675, "license_type": "permissive", "max_line_length": 83, "num_lines": 31, "path": "/AlgoLib_Cpp/include/algolib/kmp.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTM KNUTHA-MORRISA-PRATTA WYSZUKIWANIA WZORCA W TEKŚCIE\n#ifndef _KMP_HPP_\n#define _KMP_HPP_\n\n#include <cstdlib>\n#include <algorithm>\n#include <string>\n#include <vector>\n\nnamespace detail\n{\n /*\n Funkcja prefiksowa pi Knutha.\n * @param pattern wzorzec\n * @return wartości funkcji prefiksowej\n /\n std::vector<size_t> prefixes(const std::string & pattern);\n}\n\nnamespace algolib\n{\n /\n Algorytm Knutha-Morrisa-Pratta.\n * @param text słowo\n * @param pattern wzorzec\n * @return lista pozycji wystąpień wzorca w słowie\n /\n std::vector<size_t> kmp(const std::string & text, const std::string & pattern);\n}\n\n#endif\n" }, { "alpha_fraction": 0.6481099724769592, "alphanum_fraction": 0.6515464186668396, "avg_line_length": 22.095237731933594, "blob_id": "9be1da35edb3ace3fd739fae520dfe863ad5c5a9", "content_id": "97b5a37a821d1b964992ad75825e7a4584c81ff7", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1455, "license_type": "permissive", "max_line_length": 61, "num_lines": 63, "path": "/AlgoLib_Cpp/test/kmp_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMU KNUTHA-MORRISA-PRATTA\n#include <gtest/gtest.h>\n#include \"algolib/kmp.hpp\"\n\nTEST(KMPTest, testKMPWhenPatternFoundOnce)\n{\n std::string text = \"abcde\";\n std::string pattern = \"a\";\n\n std::vector<size_t> result = algolib::kmp(text, pattern);\n\n EXPECT_EQ(std::vector<size_t>({0}), result);\n}\n\nTEST(KMPTest, testKMPWhenPatternFoundTwice)\n{\n std::string text = \"abcdae\";\n std::string pattern = \"a\";\n\n std::vector<size_t> result = algolib::kmp(text, pattern);\n\n EXPECT_EQ(std::vector<size_t>({0, 4}), result);\n}\n\nTEST(KMPTest, testKMPWhenPatternFoundTwiceAndIntersects)\n{\n std::string text = \"aaabcde\";\n std::string pattern = \"aa\";\n\n std::vector<size_t> result = algolib::kmp(text, pattern);\n\n EXPECT_EQ(std::vector<size_t>({0, 1}), result);\n}\n\nTEST(KMPTest, testKMPWhenPatternNotFound)\n{\n std::string text = \"abcde\";\n std::string pattern = \"x\";\n\n std::vector<size_t> result = algolib::kmp(text, pattern);\n\n EXPECT_EQ(std::vector<size_t>(), result);\n}\n\nTEST(KMPTest, testKMPWhenPatternIsEmptyString)\n{\n std::string text = \"abcde\";\n std::string pattern = \"\";\n\n std::vector<size_t> result = algolib::kmp(text, pattern);\n\n EXPECT_EQ(std::vector<size_t>(), result);\n}\n\nTEST(KMPTest, testKMPWhenTextIsEmptyString)\n{\n std::string text = \"\";\n std::string pattern = \"a\";\n\n std::vector<size_t> result = algolib::kmp(text, pattern);\n\n EXPECT_EQ(std::vector<size_t>(), result);\n}\n" }, { "alpha_fraction": 0.6484224200248718, "alphanum_fraction": 0.6529298424720764, "avg_line_length": 22.17910385131836, "blob_id": "de8478968fbf1caf84ebc6d60d5be6a4b955d1dd", "content_id": "5dc28088664279c343fb5e7fe4780fa34969e84b", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1603, "license_type": "permissive", "max_line_length": 70, "num_lines": 67, "path": "/AlgoLib_Cpp/include/algolib/graphs/edmonds.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTM EDMONDSA-KARPA: MAKSYMALNY PRZEPŁYW\n#ifndef EDMONDS_HPP\n#define EDMONDS_HPP\n\n#include <cstdlib>\n#include <algorithm>\n#include <queue>\n#include <vector>\n\nclass edmonds_flow_graph\n{\nprivate:\n /* oznaczenie nieskończoności /\n static constexpr double INF = 1 << 30;\n\n /* tablica poprzedników i minimalnych przepustowości ze źródła /\n std::vector<std::pair<int, double>> augmenting_paths;\n\n /* liczba wierzchołków grafu /\n int num_vertex;\n\n /* lista sąsiedztwa grafu przepływowego /\n std::vector<std::vector<int>> graphrepr;\n\n /* macierz przeputowości /\n std::vector<std::vector<double>> capacities;\n\npublic:\n /\n @param n liczba wierzchołków\n /\n explicit edmonds_flow_graph(int n) : num_vertex{n}\n {\n graphrepr.resize(n + 1);\n capacities.resize(n + 1);\n\n for(size_t i = 0; i < capacities.size(); ++i)\n capacities[i].resize(n + 1, INF);\n }\n\n /*\n WYLICZANIE CAŁOŚCIOWEGO PRZEPŁYWU W GRAFIE\n @param source źródło\n @param target ujście\n @return maksymalny przepływ sieci\n /\n int count_flow(int source, int target);\n\nprivate:\n /*\n ALGORYTM BFS ZNAJDUJĄCY ŚCIEŻKĘ POWIĘKSZAJĄCĄ\n @param source źródło\n @param target ujście\n @return czy uda się powiększyć przepływ\n /\n bool bfs(int source, int target);\n\n /*\n WYLICZANIE PRZEPŁYWU NA ŚCIEŻCE POWIĘKSZAJĄCEJ\n @param source źródło\n @param target ujście\n @return przepływ na ścieżce\n /\n double count_path_flow(int source, int target);\n};\n\n#endif\n" }, { "alpha_fraction": 0.554016649723053, "alphanum_fraction": 0.5638657808303833, "avg_line_length": 35.505619049072266, "blob_id": "9bc79935cbc15690f747bbe747ccdbe7c6c03be9", "content_id": "102cc118ffd903e38f4eccc7ad23e04f868e3366", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 3262, "license_type": "permissive", "max_line_length": 92, "num_lines": 89, "path": "/AlgoLib_Java/src/refhumbold/algolib/MaximumSubarray.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY WYZNACZANIA PODCIĄGU SPÓJNEGO O MAKSYMALNEJ SUMIE\npackage refhumbold.algolib;\n\nimport java.util.ArrayList;\nimport java.util.Collection;\nimport java.util.Collections;\nimport java.util.List;\n\nimport refhumbold.algolib.tuples.Pair;\n\npublic class MaximumSubarray\n{\n /*\n Wyznaczanie spójnego podciągu o maksymalnej sumie w sposób dynamiczny.\n * @param sequence ciąg\n * @return elementy spójnego podciągu o maksymalnej sumie\n /\n public static List<Double> findMaximumSubarray(Iterable<Double> sequence)\n {\n Pair<Double, List<Double>> actual = Pair.make(0.0, new ArrayList<>());\n Pair<Double, List<Double>> maximal = Pair.make(0.0, new ArrayList<>());\n\n for(Double elem : sequence)\n {\n if(actual.getFirst() < 0.0)\n actual = Pair.make(0.0, new ArrayList<>());\n\n actual = Pair.make(actual.getFirst() + elem, actual.getSecond());\n actual.getSecond().add(elem);\n\n if(actual.getFirst() > maximal.getFirst())\n maximal = Pair.make(actual.getFirst(), new ArrayList<>(actual.getSecond()));\n }\n\n return maximal.getSecond();\n }\n\n /\n Wyznaczanie maksymalnej sumy spójnego podciągu za pomocą drzewa przedziałowego.\n * @param sequence ciąg\n * @return maksymalna suma\n /\n public static double findMaximalSum(Collection<Double> sequence)\n {\n int size = 1;\n\n while(size < 2 sequence.size())\n size <<= 1;\n\n List<Double> intervalSums = new ArrayList<>(Collections.nCopies(size, 0.0));\n List<Double> prefixSums = new ArrayList<>(Collections.nCopies(size, 0.0));\n List<Double> suffixSums = new ArrayList<>(Collections.nCopies(size, 0.0));\n List<Double> allSums = new ArrayList<>(Collections.nCopies(size, 0.0));\n\n int i = 0;\n\n for(Double elem : sequence)\n {\n int index = size / 2 + i;\n\n allSums.set(index, allSums.get(index) + elem);\n intervalSums.set(index, Math.max(allSums.get(index), 0.0));\n prefixSums.set(index, Math.max(allSums.get(index), 0.0));\n suffixSums.set(index, Math.max(allSums.get(index), 0.0));\n index /= 2;\n ++i;\n\n while(index > 0)\n {\n int indexLeft = index + index;\n int indexRight = index + index + 1;\n\n intervalSums.set(index, Math.max(\n Math.max(intervalSums.get(indexRight), intervalSums.get(indexLeft)),\n suffixSums.get(indexRight) + prefixSums.get(indexLeft)));\n prefixSums.set(index, Math.max(prefixSums.get(indexRight),\n allSums.get(indexRight) + prefixSums.get(\n indexLeft)));\n suffixSums.set(index, Math.max(suffixSums.get(indexLeft),\n suffixSums.get(indexRight) + allSums.get(\n indexLeft)));\n allSums.set(index, allSums.get(indexRight) + allSums.get(indexLeft));\n index /= 2;\n }\n }\n\n return intervalSums.get(1);\n }\n}\n" }, { "alpha_fraction": 0.5235316157341003, "alphanum_fraction": 0.5269201993942261, "avg_line_length": 27.869565963745117, "blob_id": "83f31a87e19135769016ecd60e462603f3412a36", "content_id": "c70b0e98f105d286080cb69efc5feae934ce6d4d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 5355, "license_type": "permissive", "max_line_length": 100, "num_lines": 184, "path": "/AlgoLib_Cpp/include/algolib/graphs/graph.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/*\n @file graph.hpp\n * STRUKTURY GRAFÓW\n /\n#ifndef _GRAPH_HPP_\n#define _GRAPH_HPP_\n\n#include <cstdlib>\n#include <exception>\n#include <stdexcept>\n#include <algorithm>\n#include <numeric>\n#include <set>\n#include <tuple>\n#include <vector>\n#include <limits>\n\nusing weight_t = double;\nusing vertex_t = size_t;\nusing wvertex_t = std::tuple<vertex_t, weight_t>;\nusing edge_t = std::tuple<vertex_t, vertex_t>;\nusing wedge_t = std::tuple<vertex_t, vertex_t, weight_t>;\n\nnamespace algolib\n{\n namespace graphs\n {\n class no_such_vertex_exception : public std::logic_error\n {\n public:\n explicit no_such_vertex_exception(const std::string & what_arg)\n : std::logic_error(what_arg)\n {\n }\n\n explicit no_such_vertex_exception(const char what_arg = \"\")\n : std::logic_error(what_arg)\n {\n }\n };\n\n#pragma region graph\n\n class graph\n {\n public:\n /// Oznaczenie nieskończoności.\n static constexpr weight_t INF = std::numeric_limits<weight_t>::infinity();\n\n graph() = default;\n virtual ~graph() = default;\n graph(const graph &) = default;\n graph(graph &&) = default;\n graph & operator=(const graph &) = default;\n graph & operator=(graph &&) = default;\n\n /*\n @return liczba wierzchołków\n /\n virtual size_t get_vertices_number() const = 0;\n\n /\n @return wektor wierzchołków\n /\n virtual std::vector<vertex_t> get_vertices() const = 0;\n\n /\n Dodawanie nowego wierzchołka.\n * @return oznaczenie wierzchołka\n /\n virtual vertex_t add_vertex() = 0;\n\n /\n @return liczba krawędzi\n /\n virtual size_t get_edges_number() const = 0;\n\n /\n @return wektor krawędzi\n /\n virtual std::vector<edge_t> get_edges() const = 0;\n\n /\n Dodawanie nowej krawędzi.\n * @param v początkowy wierzchołek\n * @param u końcowy wierzchołek\n /\n virtual void add_edge(vertex_t vertex1, vertex_t vertex2) = 0;\n\n /\n @param v numer wierzchołka\n * @return wektor sąsiadów wierzchołka\n /\n virtual std::vector<vertex_t> get_neighbours(vertex_t vertex) const = 0;\n\n /\n @param v numer wierzchołka\n * @return stopień wyjściowy wierzchołka\n /\n virtual size_t get_outdegree(vertex_t vertex) const = 0;\n\n /\n @param v numer wierzchołka\n * @return stopień wejściowy wierzchołka\n /\n virtual size_t get_indegree(vertex_t vertex) const = 0;\n };\n\n#pragma endregion\n#pragma region weighted_graph\n\n class weighted_graph : public virtual graph\n {\n public:\n weighted_graph() = default;\n virtual ~weighted_graph() = default;\n weighted_graph(const weighted_graph &) = default;\n weighted_graph(weighted_graph &&) = default;\n weighted_graph & operator=(const weighted_graph &) = default;\n weighted_graph & operator=(weighted_graph &&) = default;\n\n /\n @return wektor krawędzi z wagami\n /\n virtual std::vector<wedge_t> get_weighted_edges() const = 0;\n\n /\n Dodawanie nowej krawędzi z jej wagą.\n * @param v początkowy wierzchołek\n * @param u końcowy wierzchołek\n * @param wg waga krawędzi\n /\n virtual void add_weighted_edge(vertex_t vertex1, vertex_t vertex2, weight_t weight) = 0;\n\n /\n @param v numer wierzchołka\n * @return wektor sąsiadów wierzchołka z wagami\n /\n virtual std::vector<wvertex_t> get_weighted_neighbours(vertex_t vertex) const = 0;\n };\n\n#pragma endregion\n#pragma region simple_graph\n\n class simple_graph : public virtual graph\n {\n protected:\n /// Domyślna waga krawędzi.\n static constexpr weight_t DEFAULT_WEIGHT = 1.0;\n\n /// Lista sąsiedztwa grafu.\n std::vector<std::set<wvertex_t>> graphrepr;\n\n public:\n explicit simple_graph(int n)\n {\n this->graphrepr.resize(n);\n }\n\n virtual ~simple_graph() = default;\n simple_graph(const simple_graph &) = default;\n simple_graph(simple_graph &&) = default;\n simple_graph & operator=(const simple_graph &) = default;\n simple_graph & operator=(simple_graph &&) = default;\n\n size_t get_vertices_number() const override\n {\n return graphrepr.size();\n }\n\n std::vector<vertex_t> get_vertices() const override;\n\n vertex_t add_vertex() override;\n\n std::vector<vertex_t> get_neighbours(vertex_t vertex) const override;\n\n size_t get_outdegree(vertex_t vertex) const override;\n };\n\n#pragma endregion\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.5455759763717651, "alphanum_fraction": 0.56227046251297, "avg_line_length": 34.654762268066406, "blob_id": "df194112d9767c4abb485fa67422844b155243d6", "content_id": "59d3acff3ee7bb1326ae5360a34710ea7d707f45", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3027, "license_type": "permissive", "max_line_length": 99, "num_lines": 84, "path": "/AlgoLib_Python/algolib/structures/equation_system.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"STRUKTURA UKŁADÓW RÓWNAŃ LINIOWYCH Z ALGORYTMEM ELIMINACJI GAUSSA\"\"\"\n\n\nclass InfiniteSolutionsException(ValueError):\n pass\n\n\nclass NoSolutionException(ValueError):\n pass\n\n\nclass EquationSystem:\n def __init__(self, numeq):\n # Liczba równań układu.\n self.__equations = numeq\n # Macierz współczynników równania.\n self.__coeffs = [[0.0] numeq for i in range(numeq)]\n # Wektor wyrazów wolnych równania.\n self.__free_terms = [0.0] * numeq\n\n @property\n def equations_number(self):\n return self.__equations\n\n def solve(self):\n \"\"\"Wyliczanie rozwiązań układu równań liniowych.\n :returns: wektor wyniku równania\"\"\"\n self.gaussian_reduce()\n\n if self.__coeffs[-1][-1] == 0 and self.__free_terms[-1] == 0:\n raise InfiniteSolutionsException()\n\n if self.__coeffs[-1][-1] == 0 and self.__free_terms[-1] != 0:\n raise NoSolutionException()\n\n solution = [None] * self.__equations\n solution[-1] = self.__free_terms[-1] / self.__coeffs[-1][-1]\n\n for equ in range(-2, -self.__equations - 1, -1):\n solution[equ] = sum((-self.__coeffs[equ][i] * solution[i] for i in range(-1, equ, -1)),\n self.__free_terms[equ]) / self.__coeffs[equ][equ]\n\n return solution\n\n def gaussian_reduce(self):\n \"\"\"Algorytm eliminacji Gaussa.\"\"\"\n for equ in range(self.__equations - 1):\n index_min = equ\n\n for i in range(equ + 1, self.__equations):\n min_coef = self.__coeffs[index_min][equ]\n act_coef = self.__coeffs[i][equ]\n\n if act_coef != 0 and (min_coef == 0 or abs(act_coef) < abs(min_coef)):\n index_min = i\n\n if self.__coeffs[index_min][equ] != 0:\n self.change(index_min, equ)\n\n for i in range(equ + 1, self.__equations):\n param = self.__coeffs[i][equ] / self.__coeffs[equ][equ]\n self.linear_comb(i, equ, -param)\n\n def change(self, equ1, equ2):\n \"\"\"Zamiana równań miejscami.\n :param eq1: numer pierwszego równania\n :param eq2: numer drugiego równania\"\"\"\n for i in range(self.__equations):\n self.__coeffs[equ1][i], self.__coeffs[equ2][i] = \\\n self.__coeffs[equ2][i], self.__coeffs[equ1][i]\n\n self.__free_terms[equ1], self.__free_terms[equ2] = \\\n self.__free_terms[equ2], self.__free_terms[equ1]\n\n def linear_comb(self, equ1, equ2, constant):\n \"\"\"Przekształcenie równania przez kombinację liniową z innym równaniem.\n :param eq1: numer równania przekształcanego\n :param eq2: numer drugiego równania\n :param constant: stała kombinacji liniowej\"\"\"\n for i in range(self.__equations):\n self.__coeffs[equ1][i] += constant * self.__coeffs[equ2][i]\n\n self.__free_terms[equ1] += constant * self.__free_terms[equ2]\n" }, { "alpha_fraction": 0.5335779786109924, "alphanum_fraction": 0.5442202091217041, "avg_line_length": 29.617977142333984, "blob_id": "996074f334488f2308e124852c741d692a38412f", "content_id": "31bc496d56c5b6375add482bc280b3e17fa6012a", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2726, "license_type": "permissive", "max_line_length": 89, "num_lines": 89, "path": "/AlgoLib_Cpp/include/algolib/math/fraction.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// UŁAMKI\n#ifndef _FRACTION_HPP_\n#define _FRACTION_HPP_\n\n#include <cstdlib>\n#include <cmath>\n#include <exception>\n#include <iostream>\n#include <stdexcept>\n#include <string>\n\n#include \"maths.hpp\"\n\nnamespace algolib\n{\n namespace math\n {\n class fraction\n {\n private:\n long long int num, denom;\n\n public:\n fraction() : fraction(0)\n {\n }\n\n fraction(long long int num, long long int denom = 1) : num{num}, denom{denom}\n {\n if(denom == 0)\n throw std::domain_error(\"Denominator equals zero.\");\n\n this->normalize();\n }\n\n ~fraction() = default;\n fraction(const fraction &) = default;\n fraction(fraction &&) = default;\n fraction & operator=(const fraction &) = default;\n fraction & operator=(fraction &&) = default;\n\n explicit operator double()\n {\n return (1.0 * num) / denom;\n }\n\n explicit operator long long int()\n {\n return num / denom;\n }\n\n explicit operator int()\n {\n return (long long int)(this);\n }\n\n fraction & operator+=(const fraction & f);\n fraction & operator-=(const fraction & f);\n fraction & operator=(const fraction & f);\n fraction & operator/=(const fraction & f);\n friend fraction operator+(fraction f1, const fraction & f2);\n friend fraction operator-(fraction f1, const fraction & f2);\n friend fraction operator(fraction f1, const fraction & f2);\n friend fraction operator/(fraction f1, const fraction & f2);\n friend fraction operator-(fraction f);\n friend fraction operator~(fraction f);\n\n friend bool operator==(const fraction & f1, const fraction & f2);\n friend bool operator!=(const fraction & f1, const fraction & f2);\n\n friend std::ostream & operator<<(std::ostream & os, const fraction & f);\n\n private:\n void normalize();\n };\n\n fraction operator+(fraction f1, const fraction & f2);\n fraction operator-(fraction f1, const fraction & f2);\n fraction operator(fraction f1, const fraction & f2);\n fraction operator/(fraction f1, const fraction & f2);\n fraction operator-(fraction r);\n fraction operator~(fraction r);\n bool operator==(const fraction & f1, const fraction & f2);\n bool operator!=(const fraction & f1, const fraction & f2);\n std::ostream & operator<<(std::ostream & os, const fraction & f);\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.5134701728820801, "alphanum_fraction": 0.5205259919166565, "avg_line_length": 31.89130401611328, "blob_id": "a386567f35c3b64ef225927d2e3c5f5e8e42536a", "content_id": "5d6935d2f1fb53ba957281f23a4c31a129bc96e3", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3187, "license_type": "permissive", "max_line_length": 89, "num_lines": 92, "path": "/AlgoLib_Python/algolib/graphs/dinic.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"ALGORYTM DINICA: MAKSYMALNY PRZEPŁYW\"\"\"\r\nimport queue\r\n\r\n\r\nclass FlowGraphDinic:\r\n _INF = float(1 << 30) # oznaczenie nieskończoności\r\n\r\n def __init__(self, n):\r\n \"\"\"\r\n KONSTRUKTOR PUSTEGO GRAFU PRZEP�YWOWEGO\r\n :param n: liczba wierzchołków\r\n \"\"\"\r\n self.__num_vertex = n # liczba wierzchołków grafu\r\n self.__graphrepr = [[] for i in range(n + 1)] # sąsiedztwa grafu przepływowego\r\n # macierz przeputowości krawędzi\r\n self.__capacities = [[self._INF] * (n + 1) for i in range(n + 1)]\r\n\r\n def flow(self, source, target):\r\n \"\"\"\r\n WYLICZANIE CA�O�CIOWEGO PRZEP�YWU W GRAFIE\r\n :param source: �r�d�o\r\n :param target: uj�cie\r\n :returns: maksymalny przep�yw sieci\r\n \"\"\"\r\n self.__layer_graph = [] # lista sąsiedztwa grafu warstwowego\r\n max_flow = 0.0\r\n is_flow_added = True\r\n\r\n while is_flow_added:\r\n self.__layer_graph = [[] for i in range(self.__num_vertex + 1)]\r\n is_flow_added = self.__bfs(source, target)\r\n\r\n if is_flow_added:\r\n max_flow += self.__dfs(source, target, self._INF)\r\n\r\n return max_flow\r\n\r\n def __bfs(self, source, target):\r\n \"\"\"\r\n ALGORYTM BFS TWORZ�CY GRAF WARSTWOWY\r\n :param source: �r�d�o\r\n :param target: uj�cie\r\n :returns: czy uda si� powi�kszy� przep�yw\r\n \"\"\"\r\n vertex_layer = [None] * (self.__num_vertex + 1)\r\n vertex_layer[source] = 0\r\n vertex_queue = queue.Queue()\r\n vertex_queue.put(source)\r\n\r\n while not vertex_queue.empty():\r\n v = vertex_queue.get()\r\n\r\n if v == target:\r\n return True\r\n\r\n for nb in self.__graphrepr[v]:\r\n if self.__capacities[v][nb] > 0.0:\r\n if vertex_layer[nb] is None:\r\n vertex_layer[nb] = vertex_layer[v] + 1\r\n vertex_queue.put(nb)\r\n\r\n if vertex_layer[nb] == vertex_layer[v] + 1:\r\n self.__layer_graph[v].append(nb)\r\n\r\n return False\r\n\r\n def __dfs(self, vertex, target, blocking_flow):\r\n \"\"\"\r\n ALGORYTM DFS NA GRAFIE WARSTWOWYM WYZNACZAJ�CY PRZEP�YW BLOKUJ�CY DLA �CIE�EK\r\n :param vertex: aktualny wierzchołek\r\n :param target: uj�cie\r\n :param blocking_flow: stary przep�yw blokuj�cy\r\n :returns: nowy przep�yw blokuj�cy\r\n \"\"\"\r\n if vertex == target or blocking_flow == 0.0:\r\n return blocking_flow\r\n\r\n new_blocking_flow = 0.0\r\n\r\n for neighbour in self.__layer_graph[vertex]:\r\n flow_add = self.__dfs(neighbour, target, min(\r\n self.__capacities[vertex][neighbour], blocking_flow))\r\n blocking_flow -= flow_add\r\n new_blocking_flow += flow_add\r\n self.__capacities[vertex][neighbour] -= flow_add\r\n self.__capacities[neighbour][vertex] += +flow_add\r\n\r\n if blocking_flow == 0.0:\r\n break\r\n\r\n return new_blocking_flow\r\n" }, { "alpha_fraction": 0.8089887499809265, "alphanum_fraction": 0.8089887499809265, "avg_line_length": 42.5, "blob_id": "c786b55b153511b19941524db6cefa22457dd3a4", "content_id": "7595f0864a83021340930bbb4606d6c6452a03b7", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 93, "license_type": "permissive", "max_line_length": 59, "num_lines": 2, "path": "/AlgoLib_Cpp/src/algolib/lis.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// NAJMNIEJSZY LEKSYKOGRAFICZNIE NAJDŁUŻSZY PODCIĄG ROSNĄCY\r\n#include \"algolib/lis.hpp\"\r\n" }, { "alpha_fraction": 0.5479632019996643, "alphanum_fraction": 0.5532194375991821, "avg_line_length": 29.747474670410156, "blob_id": "81bd8da313cac7a7771b099c2cd72d98179e1461", "content_id": "12aa3ddaa228280327aa70066870b7df2a76261d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 3044, "license_type": "permissive", "max_line_length": 95, "num_lines": 99, "path": "/AlgoLib_Cpp/src/algolib/graphs/paths.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY WYLICZANIA NAJKRÓTSZYCH ŚCIEŻEK W GRAFIE WAŻONYM\n#include \"algolib/graphs/paths.hpp\"\n\nnamespace algr = algolib::graphs;\n\nstd::vector<weight_t> algr::bellman_ford(const directed_weighted_simple_graph & diwgraph,\n vertex_t source)\n{\n std::vector<weight_t> distances(diwgraph.get_vertices_number(), graph::INF);\n\n distances[source] = 0.0;\n\n for(size_t i = 0; i <= diwgraph.get_vertices_number() - 1; ++i)\n for(const auto & we : diwgraph.get_weighted_edges())\n {\n vertex_t v, u;\n weight_t wg;\n\n std::tie(v, u, wg) = we;\n distances[u] = std::min(distances[u], distances[v] + wg);\n }\n\n for(const auto & we : diwgraph.get_weighted_edges())\n {\n vertex_t v, u;\n weight_t wg;\n\n std::tie(v, u, wg) = we;\n\n if(distances[v] < graph::INF && distances[v] + wg < distances[u])\n throw std::logic_error(\"Graph contains a negative cycle.\");\n }\n\n return distances;\n}\n\nstd::vector<weight_t> algr::dijkstra(const weighted_graph & wgraph, vertex_t source)\n{\n std::vector<weight_t> distances(wgraph.get_vertices_number(), graph::INF);\n std::vector<bool> is_visited(wgraph.get_vertices_number(), false);\n std::priority_queue<std::pair<weight_t, vertex_t>> vertex_queue;\n std::vector<wedge_t> edges = wgraph.get_weighted_edges();\n\n if(std::any_of(edges.begin(), edges.end(),\n [](const wedge_t & we) { return std::get<2>(we) < 0.0; }))\n throw std::logic_error(\"Graph contains a negative weighted edge.\");\n\n distances[source] = 0.0;\n vertex_queue.push(std::make_pair(0.0, source));\n\n while(!vertex_queue.empty())\n {\n vertex_t v = vertex_queue.top().second;\n\n vertex_queue.pop();\n\n if(!is_visited[v])\n {\n is_visited[v] = true;\n\n for(const auto & e : wgraph.get_weighted_neighbours(v))\n {\n vertex_t nb;\n weight_t wg;\n\n std::tie(nb, wg) = e;\n\n if(distances[v] + wg < distances[nb])\n {\n distances[nb] = distances[v] + wg;\n vertex_queue.push(std::make_pair(-distances[nb], nb));\n }\n }\n }\n }\n\n return distances;\n}\n\nstd::vector<std::vector<weight_t>>\n algr::floyd_warshall(const directed_weighted_simple_graph & diwgraph)\n{\n std::vector<std::vector<weight_t>> distances(\n diwgraph.get_vertices_number(),\n std::vector<weight_t>(diwgraph.get_vertices_number(), graph::INF));\n\n for(const auto & v : diwgraph.get_vertices())\n distances[v][v] = 0.0;\n\n for(const auto & we : diwgraph.get_weighted_edges())\n distances[std::get<0>(we)][std::get<1>(we)] = std::get<2>(we);\n\n for(const auto & w : diwgraph.get_vertices())\n for(const auto & v : diwgraph.get_vertices())\n for(const auto & u : diwgraph.get_vertices())\n distances[v][u] = std::min(distances[v][u], distances[v][w] + distances[w][u]);\n\n return distances;\n}\n" }, { "alpha_fraction": 0.6489479541778564, "alphanum_fraction": 0.6489479541778564, "avg_line_length": 22.763158798217773, "blob_id": "c1931a14dc2fbe4540f44f2fda752369dc24c24d", "content_id": "239ebbf9a3a4421a3f124f06277f27ba86336312", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 925, "license_type": "permissive", "max_line_length": 87, "num_lines": 38, "path": "/AlgoLib_Cpp/include/algolib/graphs/mst.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/*\n @file mst.hpp\n * ALGORYTMY WYZNACZAJĄCE MINIMALNE DRZEWO SPINAJĄCE\n /\n#ifndef _MST_HPP_\n#define _MST_HPP_\n\n#include <cstdlib>\n#include <algorithm>\n#include <queue>\n#include <tuple>\n#include <vector>\n\n#include \"../structures/disjoint_sets.hpp\"\n#include \"undirected_graph.hpp\"\n\nnamespace algolib\n{\n namespace graphs\n {\n /\n Algorytm Kruskala wyliczający długość MST.\n * @param uwgraph graf ważony\n * @return długość minimalnego drzewa spinającego\n /\n double kruskal(const undirected_weighted_simple_graph & uwgraph);\n\n /\n Algorytm Prima wyliczający długość MST.\n * @param uwgraph graf ważony\n * @param source początkowy wierzchołek\n * @return długość minimalnego drzewa spinającego\n /\n double prim(const undirected_weighted_simple_graph & uwgraph, vertex_t source);\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.42571234703063965, "alphanum_fraction": 0.5627543926239014, "avg_line_length": 35.39506149291992, "blob_id": "8f969265b972bd823e1990da0e1a113773651f72", "content_id": "69376473fa7fb73f234a62681234073389d03430", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2949, "license_type": "permissive", "max_line_length": 95, "num_lines": 81, "path": "/AlgoLib_Python/tests/test_primes.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA ALGORYTMÓW DLA LICZB PIERWSZYCH\"\"\"\nimport unittest\nfrom algolib.math import find_primes\n\n\nclass PrimesTest(unittest.TestCase):\n def __init__(self, args, *kwargs):\n super().__init__(args, *kwargs)\n\n def setUp(self):\n pass\n\n def tearDown(self):\n pass\n\n def test_find_primes_when_zero_args(self):\n with self.assertRaises(TypeError):\n find_primes()\n\n def test_find_primes_when_three_args(self):\n with self.assertRaises(TypeError):\n find_primes(20, 200, 10)\n\n def test_find_primes_when_two_args_descending(self):\n with self.assertRaises(ValueError):\n find_primes(100, 30)\n\n def test_find_primes_one_arg_is_two_args_with_zero_as_min(self):\n result1 = find_primes(100)\n result2 = find_primes(0, 100)\n\n self.assertListEqual(list(result1), list(result2))\n\n def test_find_primes_one_arg(self):\n result = find_primes(100)\n\n self.assertListEqual([2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41,\n 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97], list(result))\n\n def test_find_primes_one_arg_when_max_is_prime(self):\n result = find_primes(67)\n\n self.assertListEqual([2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41,\n 43, 47, 53, 59, 61, 67], list(result))\n\n def test_find_primes_one_arg_when_less_than_two(self):\n result = find_primes(1)\n\n self.assertListEqual([], list(result))\n\n def test_find_primes_two_args(self):\n result = find_primes(30, 200)\n\n self.assertListEqual([31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97, 101,\n 103, 107, 109, 113, 127, 131, 137, 139, 149, 151, 157, 163, 167,\n 173, 179, 181, 191, 193, 197, 199], list(result))\n\n def test_find_primes_two_args_when_min_less_than_sqrt_of_max(self):\n result = find_primes(5, 150)\n\n self.assertListEqual([5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67,\n 71, 73, 79, 83, 89, 97, 101, 103, 107, 109, 113, 127, 131, 137,\n 139, 149], list(result))\n\n def test_find_primes_two_args_when_min_and_max_are_find_primes(self):\n result = find_primes(137, 317)\n\n self.assertListEqual([137, 139, 149, 151, 157, 163, 167, 173, 179, 181, 191, 193, 197,\n 199, 211, 223, 227, 229, 233, 239, 241, 251, 257, 263, 269, 271,\n 277, 281, 283, 293, 307, 311, 313, 317], list(result))\n\n def test_find_primes_two_args_when_min_equals_max_and_prime(self):\n result = find_primes(41, 41)\n\n self.assertListEqual([41], list(result))\n\n def test_find_primes_two_args_when_min_equals_max_and_composite(self):\n result = find_primes(91, 91)\n\n self.assertListEqual([], list(result))\n" }, { "alpha_fraction": 0.5746373534202576, "alphanum_fraction": 0.5896115899085999, "avg_line_length": 17.264957427978516, "blob_id": "6ad36af101dc7cdf013c4eb38e0bd16d2861ef8e", "content_id": "8f980fa682dcaf4fa96150bcb805516813b99ecf", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2138, "license_type": "permissive", "max_line_length": 76, "num_lines": 117, "path": "/AlgoLib_Cpp/src/algolib/math/fraction.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// UŁAMKI\n#include \"algolib/math/fraction.hpp\"\n\nnamespace alma = algolib::math;\n\nvoid alma::fraction::normalize()\n{\n if(denom < 0)\n {\n num = -num;\n denom = -denom;\n }\n\n long long int gcd_val = gcd(std::abs(num), denom);\n\n num /= gcd_val;\n denom /= gcd_val;\n}\n\nalma::fraction & alma::fraction::operator+=(const alma::fraction & f)\n{\n this->num = this->num f.denom + f.num * this->denom;\n this->denom = f.denom;\n this->normalize();\n\n return this;\n}\n\nalma::fraction & alma::fraction::operator-=(const alma::fraction & f)\n{\n this->num = this->num * f.denom - f.num * this->denom;\n this->denom = f.denom;\n this->normalize();\n\n return this;\n}\n\nalma::fraction & alma::fraction::operator=(const alma::fraction & f)\n{\n this->num = f.num;\n this->denom = f.denom;\n this->normalize();\n\n return this;\n}\n\nalma::fraction & alma::fraction::operator/=(const alma::fraction & f)\n{\n this->num = f.denom;\n this->denom = f.num;\n this->normalize();\n\n return this;\n}\n\nalma::fraction alma::operator+(alma::fraction f1, const alma::fraction & f2)\n{\n f1 += f2;\n\n return f1;\n}\n\nalma::fraction alma::operator-(alma::fraction f1, const alma::fraction & f2)\n{\n f1 -= f2;\n\n return f1;\n}\n\nalma::fraction alma::operator(alma::fraction f1, const alma::fraction & f2)\n{\n f1 = f2;\n\n return f1;\n}\n\nalma::fraction alma::operator/(alma::fraction f1, const alma::fraction & f2)\n{\n f1 /= f2;\n\n return f1;\n}\n\nalma::fraction alma::operator-(alma::fraction f)\n{\n f.num = -f.num;\n\n return f;\n}\n\nalma::fraction alma::operator~(alma::fraction f)\n{\n if(f.num == 0)\n throw std::domain_error(\"Inversing zero.\");\n\n std::swap(f.num, f.denom);\n f.normalize();\n\n return f;\n}\n\nbool alma::operator==(const alma::fraction & f1, const alma::fraction & f2)\n{\n return f1.num == f2.num && f1.denom == f2.denom;\n}\n\nbool alma::operator!=(const alma::fraction & f1, const alma::fraction & f2)\n{\n return !(f1 == f2);\n}\n\nstd::ostream & alma::operator<<(std::ostream & os, const alma::fraction & f)\n{\n os << f.num << \"/\" << f.denom;\n\n return os;\n}\n" }, { "alpha_fraction": 0.6152563691139221, "alphanum_fraction": 0.61900794506073, "avg_line_length": 33.271427154541016, "blob_id": "a7128e2bf5e43d4e7c0ee06273f2e9436eccff2f", "content_id": "2ad4871ad9fa28e8af9899df1860dfbf5ba72351", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2424, "license_type": "permissive", "max_line_length": 89, "num_lines": 70, "path": "/AlgoLib_Python/algolib/graphs/scc.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"ALGORYTM WYZNACZANIA SILNIE SPÓLJNYCH SKŁADOWYCH W GRAFIE SKIEROWANYM\"\"\"\nfrom .directed_graph import DirectedGraph\n\n\ndef find_scc(digraph):\n \"\"\"Algorytm wyznaczania silnie spójnych składowych grafu.\n :param digraph: graf skierowany\n :returns: numery silnie spójnych składowych dla wierzchołków\"\"\"\n comps = _GraphComponents(digraph).find_scc()\n components = [set() for i in range(max(comps) + 1)]\n\n for v in digraph.get_vertices():\n components[comps[v]].add(v)\n\n return components\n\n\nclass _GraphComponents:\n def __init__(self, digraph):\n self.__digraph = digraph\n self.__components = [None] digraph.vertices_number\n self.__postorder = [None] * digraph.vertices_number\n\n def find_scc(self):\n \"\"\"Algorytm wyznaczania silnie spójnych składowych grafu.\n :returns: numery silnie spójnych składowych dla wierzchołków\"\"\"\n timer = 0\n component = 0\n\n for v in self.__digraph.get_vertices():\n if self.__postorder[v] is None:\n timer = self.__dfs_order(v, timer)\n timer += 1\n\n self.__postorder.sort(reverse=True)\n self.__digraph.reverse()\n\n for _, v in self.__postorder:\n if self.__components[v] is None:\n self.__dfs_scc(v, component)\n component += 1\n\n return self.__components\n\n def __dfs_order(self, vertex, timer):\n \"\"\"Algorytm DFS z licznikiem czasu wyznaczający porządek post-order wierzchołków.\n :param vertex: aktualny wierzchołek\n :param timer: aktualny czas\n :returns: nowy czas po przetworzeniu wierzchołka\"\"\"\n self.__postorder[vertex] = (0, vertex)\n timer += 1\n\n for neighbour in self.__digraph.get_neighbours(vertex):\n if self.__postorder[neighbour] is None:\n timer = self.__dfs_order(neighbour, timer)\n\n self.__postorder[vertex] = (timer, vertex)\n\n return timer + 1\n\n def __dfs_scc(self, vertex, component):\n \"\"\"Algorytm DFS wyznaczający silnie spójne składowe.\n :param vertex: aktualny wierzchołek\n :param component: numer składowej\"\"\"\n self.__components[vertex] = component\n\n for neighbour in self.__digraph.get_neighbours(vertex):\n if self.__components[neighbour] is None:\n self.__dfs_scc(neighbour, component)\n" }, { "alpha_fraction": 0.640949547290802, "alphanum_fraction": 0.6498516201972961, "avg_line_length": 28.30434799194336, "blob_id": "edb01229ed38890da40f614fced9f12b3328f188", "content_id": "712c25ea687acaf4805a21fbefc9d9fef4e0a2f0", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 3371, "license_type": "permissive", "max_line_length": 98, "num_lines": 115, "path": "/AlgoLib_Cpp/src/algolib/graphs/undirected_graph.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURY GRAFÓW SKIEROWANYCH\n#include \"algolib/graphs/undirected_graph.hpp\"\n\nnamespace algr = algolib::graphs;\n\n#pragma region undirected_simple_graph\n\nsize_t algr::undirected_simple_graph::get_edges_number() const\n{\n size_t edges_number = 0;\n\n for(const auto & v : get_vertices())\n {\n edges_number += get_outdegree(v);\n\n auto neighbours = get_neighbours(v);\n auto pos = std::find(neighbours.begin(), neighbours.end(), v);\n\n if(pos != neighbours.end())\n ++edges_number;\n }\n\n return edges_number / 2;\n}\n\nstd::vector<edge_t> algr::undirected_simple_graph::get_edges() const\n{\n std::vector<edge_t> edges;\n\n for(const auto & v : get_vertices())\n for(const auto & u : get_neighbours(v))\n if(u >= v)\n edges.emplace_back(v, u);\n\n return edges;\n}\n\nvoid algr::undirected_simple_graph::add_edge(vertex_t vertex1, vertex_t vertex2)\n{\n if(vertex1 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex1));\n\n if(vertex2 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex2));\n\n graphrepr[vertex1].emplace(vertex2, DEFAULT_WEIGHT);\n graphrepr[vertex2].emplace(vertex1, DEFAULT_WEIGHT);\n}\n\nsize_t algr::undirected_simple_graph::get_indegree(vertex_t vertex) const\n{\n if(vertex >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex));\n\n return get_outdegree(vertex);\n}\n\nalgr::undirected_simple_graph::operator algr::directed_simple_graph() const\n{\n std::vector<edge_t> diedges = get_edges();\n\n for(auto e : get_edges())\n diedges.emplace_back(std::get<1>(e), std::get<0>(e));\n\n return algr::directed_simple_graph(get_vertices_number(), diedges);\n}\n\n#pragma endregion\n#pragma region undirected_weighted_simple_graph\n\nstd::vector<wedge_t> algr::undirected_weighted_simple_graph::get_weighted_edges() const\n{\n std::vector<wedge_t> wedges;\n\n for(const auto & v : get_vertices())\n for(const auto & u : get_weighted_neighbours(v))\n if(std::get<0>(u) >= v)\n wedges.emplace_back(v, std::get<0>(u), std::get<1>(u));\n\n return wedges;\n}\n\nvoid algr::undirected_weighted_simple_graph::add_weighted_edge(vertex_t vertex1, vertex_t vertex2,\n weight_t weight)\n{\n if(vertex1 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex1));\n\n if(vertex2 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex2));\n\n graphrepr[vertex1].emplace(vertex2, weight);\n graphrepr[vertex2].emplace(vertex1, weight);\n}\n\nstd::vector<wvertex_t>\n algr::undirected_weighted_simple_graph::get_weighted_neighbours(vertex_t vertex) const\n{\n if(vertex >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex));\n\n return std::vector<wvertex_t>(graphrepr[vertex].begin(), graphrepr[vertex].end());\n}\n\nalgr::undirected_weighted_simple_graph::operator algr::directed_weighted_simple_graph() const\n{\n std::vector<wedge_t> diwedges = get_weighted_edges();\n\n for(auto e : get_weighted_edges())\n diwedges.emplace_back(std::get<1>(e), std::get<0>(e), std::get<2>(e));\n\n return algr::directed_weighted_simple_graph(get_vertices_number(), diwedges);\n}\n\n#pragma endregion\n" }, { "alpha_fraction": 0.6136226654052734, "alphanum_fraction": 0.6196503639221191, "avg_line_length": 30.52941131591797, "blob_id": "10c8fc0d647396aa69ab14c18ac5b0cd417d7213", "content_id": "a6d75b4aecd65f94e5c5c93d0bac27f7bf01e83c", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1681, "license_type": "permissive", "max_line_length": 64, "num_lines": 51, "path": "/AlgoLib_Python/algolib/graphs/mst.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"ALGORYTMY WYZNACZAJĄCE MINIMALNE DRZEWO SPINAJĄCE\"\"\"\r\nimport queue\r\nfrom ..structures.disjoint_sets import DisjointSets\r\n\r\n\r\ndef kruskal(uwgraph):\r\n \"\"\"Algorytm Kruskala wyliczjący długość MST.\r\n :param uwgraph: graf nieskierowany ważony\r\n :returns: długość minimalnego drzewa spinającego\"\"\"\r\n size_mst = 0.0\r\n components = uwgraph.vertices_number\r\n edge_queue = queue.PriorityQueue()\r\n vertex_sets = DisjointSets(uwgraph.get_vertices())\r\n\r\n for v, u, wg in uwgraph.get_weighted_edges():\r\n edge_queue.put((wg, v, u))\r\n\r\n while components > 1 and not edge_queue.empty():\r\n edge_weight, edge_first, edge_second = edge_queue.get()\r\n\r\n if not vertex_sets.is_same_set(edge_first, edge_second):\r\n size_mst += edge_weight\r\n vertex_sets.union_set(edge_first, edge_second)\r\n components -= 1\r\n\r\n return size_mst\r\n\r\n\r\ndef prim(uwgraph, source):\r\n \"\"\"Algorytm Prima wyliczjący długość MST.\r\n :param uwgraph: graf nieskierowany ważony\r\n :param source: początkowy wierzchołek\r\n :returns: długość minimalnego drzewa spinającego\"\"\"\r\n size_mst = 0.0\r\n is_visited = [False] * (uwgraph.vertices_number + 1)\r\n vertex_queue = queue.PriorityQueue()\r\n vertex_queue.put((0.0, source))\r\n\r\n while not vertex_queue.empty():\r\n edge_weight, v = vertex_queue.get()\r\n\r\n if not is_visited[v]:\r\n is_visited[v] = True\r\n size_mst += edge_weight\r\n\r\n for s, wg in uwgraph.get_weighted_neighbours(v):\r\n if not is_visited[s]:\r\n vertex_queue.put((wg, s))\r\n\r\n return size_mst\r\n" }, { "alpha_fraction": 0.661935031414032, "alphanum_fraction": 0.6847217082977295, "avg_line_length": 19.592308044433594, "blob_id": "914f72502b7c80c3a1f8fba4d747f35eb4a154b7", "content_id": "4097dff599ea11c853b51a8dbfbc9704d84150cc", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2680, "license_type": "permissive", "max_line_length": 94, "num_lines": 130, "path": "/AlgoLib_Cpp/test/disjoint_sets_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA STRUKTURY ZBIORÓW ROZŁĄCZNYCH\n#include <gtest/gtest.h>\n#include \"algolib/structures/disjoint_sets.hpp\"\n\nnamespace alst = algolib::structures;\n\nclass DisjointSetsTest : public ::testing::Test\n{\nprotected:\n alst::disjoint_sets<int> test_object;\n\npublic:\n DisjointSetsTest() : test_object{alst::disjoint_sets<int>({0, 1, 2, 3, 4, 5, 6, 7, 8, 9})}\n {\n }\n\n virtual ~DisjointSetsTest()\n {\n }\n};\n\nTEST_F(DisjointSetsTest, testSize)\n{\n size_t result = test_object.size();\n\n EXPECT_EQ(10, result);\n}\n\nTEST_F(DisjointSetsTest, testContainsWhenContains)\n{\n bool result = test_object.contains(4);\n\n EXPECT_TRUE(result);\n}\n\nTEST_F(DisjointSetsTest, testContainsWhenNotContains)\n{\n bool result = test_object.contains(17);\n\n EXPECT_FALSE(result);\n}\n\nTEST_F(DisjointSetsTest, testAddElemWhenNewElement)\n{\n int elem = 20;\n\n EXPECT_NO_THROW(test_object.add_elem(elem));\n\n EXPECT_TRUE(test_object.contains(elem));\n EXPECT_EQ(elem, test_object.find_set(elem));\n}\n\nTEST_F(DisjointSetsTest, testAddElemWhenPresentElement)\n{\n int elem = 7;\n\n EXPECT_THROW(test_object.add_elem(elem), std::invalid_argument);\n}\n\nTEST_F(DisjointSetsTest, testFindSet)\n{\n int elem = 4;\n int result = test_object.find_set(elem);\n\n EXPECT_EQ(elem, result);\n}\n\nTEST_F(DisjointSetsTest, testUnionSetWhenDifferentSets)\n{\n int elem1 = 4;\n int elem2 = 6;\n\n test_object.union_set(elem1, elem2);\n\n EXPECT_TRUE(test_object.is_same_set(elem1, elem2));\n EXPECT_EQ(test_object.find_set(elem1), test_object.find_set(elem2));\n}\n\nTEST_F(DisjointSetsTest, testUnionSetWhenSameSets1)\n{\n int elem = 4;\n\n test_object.union_set(elem, elem);\n\n EXPECT_TRUE(test_object.is_same_set(elem, elem));\n EXPECT_EQ(test_object.find_set(elem), test_object.find_set(elem));\n}\n\nTEST_F(DisjointSetsTest, testUnionSetWhenSameSets2)\n{\n int elem1 = 3;\n int elem2 = 8;\n\n test_object.union_set(elem1, elem2);\n test_object.union_set(elem1, elem2);\n\n EXPECT_TRUE(test_object.is_same_set(elem1, elem2));\n EXPECT_EQ(test_object.find_set(elem1), test_object.find_set(elem2));\n}\n\nTEST_F(DisjointSetsTest, testIsSameSetWhenDifferentSets)\n{\n int elem1 = 4;\n int elem2 = 6;\n\n bool result = test_object.is_same_set(elem1, elem2);\n\n EXPECT_FALSE(result);\n}\n\nTEST_F(DisjointSetsTest, testIsSameSetWhenSameSets1)\n{\n int elem = 4;\n\n bool result = test_object.is_same_set(elem, elem);\n\n EXPECT_TRUE(result);\n}\n\nTEST_F(DisjointSetsTest, testIsSameSetWhenSameSets2)\n{\n int elem1 = 3;\n int elem2 = 8;\n\n test_object.union_set(elem1, elem2);\n\n bool result = test_object.is_same_set(elem1, elem2);\n\n EXPECT_TRUE(result);\n}\n" }, { "alpha_fraction": 0.7663551568984985, "alphanum_fraction": 0.7663551568984985, "avg_line_length": 52.5, "blob_id": "470527fdcb08989bada816e21f13a6c2c607b92a", "content_id": "0304f6019aa67d4379c6c09928af44eb0e62137d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 107, "license_type": "permissive", "max_line_length": 57, "num_lines": 2, "path": "/AlgoLib_Python/algolib/math/__init__.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "from .maths import gcd, lcm, power_mod, mult_mod\nfrom .primes import find_primes, test_fermat, test_miller\n" }, { "alpha_fraction": 0.5877997279167175, "alphanum_fraction": 0.5990832448005676, "avg_line_length": 30.16483497619629, "blob_id": "d66b13e4bbe973a92952ec6e3db7f27e3dfaaef5", "content_id": "bae402206fcb40123c99985b03b6c75be0238faa", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2881, "license_type": "permissive", "max_line_length": 99, "num_lines": 91, "path": "/AlgoLib_Cpp/include/algolib/graphs/lca.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// NAJNIŻSZY WSPÓLNY PRZODEK DWÓCH WIERZCHOŁKÓW W DRZEWIE\n#include <cstdlib>\n#include <cmath>\n#include <exception>\n#include <stdexcept>\n#include <algorithm>\n#include <vector>\n\n#include \"forest_graph.hpp\"\n\nnamespace detail\n{\n class lca_finder\n {\n private:\n /// Oznaczenie braku nadania czasu wejścia lub wyjścia.\n static constexpr int NO_TIME = -1;\n\n /// Reprezentacja drzewa.\n const algolib::graphs::forest_graph & graph;\n\n /// Skompresowane ścieżki do korzenia drzewa.\n std::vector<std::vector<int>> paths;\n\n /// Czas wejścia i wyjścia dla wierzchołka.\n std::vector<std::pair<int, int>> pre_post_times;\n\n public:\n explicit lca_finder(const algolib::graphs::forest_graph & treegraph) : graph{treegraph}\n {\n this->paths.resize(graph.get_vertices_number());\n this->pre_post_times.resize(graph.get_vertices_number(),\n std::make_pair(NO_TIME, NO_TIME));\n }\n\n /*\n Wyszukiwanie najniższego wspólnego przodka.\n * @param vertex1 wierzchołek 1\n * @param vertex2 wierzchołek 2\n * @param root korzeń drzewa\n * @return najniższy wspólny przodek\n /\n int search_lca(int vertex1, int vertex2, int root);\n\n /\n Wyszukiwanie najniższego wspólnego przodka.\n * @param vertex1 wierzchołek 1\n * @param vertex2 wierzchołek 2\n * @return najniższy wspólny przodek\n /\n private:\n int search(int vertex1, int vertex2);\n\n /\n Algorytm dfs z licznikiem czasu wyznaczający kolejne wierzchołki na ścieżce do korzenia.\n * @param vertex aktualny wierzchołek\n * @param parent ojciec wierzchołka\n * @param timer aktualny czasu\n * @return nowy czas po przetworzeniu wierzchołka\n /\n int dfs(int vertex, int parent, int timer);\n\n /\n Sprawdza, czy wierzchołki są potomkami.\n * @param vertex1 wierzchołek 1\n * @param vertex2 wierzchołek 2\n * @return czy wierzchołek 1 jest potomkiem wierzchołka 2\n /\n bool is_offspring(int vertex1, int vertex2)\n {\n return pre_post_times[vertex1].first >= pre_post_times[vertex2].first\n && pre_post_times[vertex1].second <= pre_post_times[vertex2].second;\n }\n };\n}\n\nnamespace algolib\n{\n namespace graphs\n {\n /\n Wyznaczanie najniższego wspólnego przodka.\n * @param treegraph graf drzewo\n * @param vertex1 wierzchołek 1\n * @param vertex2 wierzchołek 2\n * @param root korzeń drzewa\n * @return najniższy wspólny przodek\n /\n int find_lca(const forest_graph & treegraph, int vertex1, int vertex2, int root = 0);\n }\n}\n" }, { "alpha_fraction": 0.5679486989974976, "alphanum_fraction": 0.5705128312110901, "avg_line_length": 33.05617904663086, "blob_id": "f8904bfc1f5c0356f104b5a0a25d86d580caa0c2", "content_id": "b52e2530f9d8a29fe083228ee8b20cfbffce402f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3151, "license_type": "permissive", "max_line_length": 88, "num_lines": 89, "path": "/AlgoLib_Python/algolib/graphs/matching.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"ALGORYTM HOPCROFTA-KARPA WYZNACZANIA SKOJARZEŃ W GRAFIE DWUDZIELNYM\"\"\"\r\nimport queue\r\n\r\n\r\ndef match(partgraph):\r\n \"\"\"Wyznaczanie maksymalnego skojarzenia.\r\n :param partgraph: graf wielodzielny\r\n :returns: pary skojarzonych wierzchołków\"\"\"\r\n augmenter = _MatchAugmenter(partgraph)\r\n\r\n while augmenter.augment_match():\r\n pass\r\n\r\n matching = augmenter.matching\r\n\r\n return [(v, matching[v]) for v in partgraph.get_group(1) if matching[v] is not None]\r\n\r\n\r\nclass _MatchAugmenter:\r\n def __init__(self, partgraph, matching=None):\r\n if partgraph.groups_number != 2:\r\n raise ValueError(\"Graph is not bipartite.\")\r\n\r\n # Reprezentacja grafu dwudzielnego.\r\n self.__graph = partgraph\r\n # Skojarzenia wierzchołków.\r\n self.__matching = matching\r\n # Odległości wierzchołków.\r\n self.__distances = None\r\n # Lista odwiedzonych wierzchołków.\r\n self.__is_visited = None\r\n\r\n if matching is None:\r\n self.__matching = [None] partgraph.vertices_number\r\n\r\n @property\r\n def matching(self):\r\n \"\"\":returns: skojarzenia wierzchołków\"\"\"\r\n return self.__matching\r\n\r\n def augment_match(self):\r\n \"\"\"Powiększanie skojarzenia przy pomocy ścieżek powiększających.\r\n :returns: czy powiększono skojarzenie\"\"\"\r\n self.__distances = [self.__graph.inf] * self.__graph.vertices_number\r\n self.__is_visited = [False] * self.__graph.vertices_number\r\n self.__bfs()\r\n\r\n return any([self.__dfs(v) for v in self.__graph.get_group(1)])\r\n\r\n def __bfs(self):\r\n \"\"\"Algorytm BFS wyliczający odległości wierzchołków.\"\"\"\r\n vertex_queue = queue.Queue()\r\n\r\n for v in self.__graph.get_group(1):\r\n self.__distances[v] = 0\r\n vertex_queue.put(v)\r\n\r\n while not vertex_queue.empty():\r\n v = vertex_queue.get()\r\n\r\n for nb in self.__graph.get_neighbours(v):\r\n if self.__matching[nb] is not None \\\r\n and self.__distances[self.__matching[nb]] == self.__graph.inf:\r\n self.__distances[self.__matching[nb]] = self.__distances[v] + 1\r\n vertex_queue.put(self.__matching[nb])\r\n\r\n def __dfs(self, vertex):\r\n \"\"\"Algorytm DFS powiększający skojarzenie za pomocą ścieżek powiekszających.\r\n :returns: czy powiększono skojarzenie\"\"\"\r\n self.__is_visited[vertex] = True\r\n\r\n for neighbour in self.__graph.get_neighbours(vertex):\r\n if self.__matching[neighbour] is None:\r\n self.__matching[vertex] = neighbour\r\n self.__matching[neighbour] = vertex\r\n\r\n return True\r\n else:\r\n mtc = self.__matching[neighbour]\r\n\r\n if self.__distances[mtc] == self.__distances[vertex] + 1 \\\r\n and not self.__is_visited[mtc] and self.__dfs(mtc):\r\n self.__matching[vertex] = neighbour\r\n self.__matching[neighbour] = vertex\r\n\r\n return True\r\n\r\n return False\r\n" }, { "alpha_fraction": 0.5308219194412231, "alphanum_fraction": 0.568493127822876, "avg_line_length": 28.20689582824707, "blob_id": "363962f438d1ea29f540c839208077497f38be04", "content_id": "8acd4b8e2bb31b3ec6747a2b54152272038c6252", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 888, "license_type": "permissive", "max_line_length": 92, "num_lines": 29, "path": "/AlgoLib_Python/algolib/convex_hull.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"ALGORYTM WYZNACZJĄCY OTOCZKĘ WYPUKŁĄ PUNKTÓW NA PŁASZCZYŹNIE\"\"\"\r\n\r\n\r\ndef convex_hull(points):\r\n \"\"\"Wyznaczanie otoczki wypukłej.\r\n :param points: lista punktów na płaszczyźnie\r\n :returns: lista punktów otoczki\"\"\"\r\n def cross_product(pt1, pt2, pt3):\r\n return (pt1[0] - pt2[0]) * (pt3[1] - pt2[1]) - (pt3[0] - pt2[0]) * (pt1[1] - pt2[1])\r\n\r\n points_sorted = sorted(points)\r\n hull = points_sorted[:2]\r\n\r\n for point in points_sorted[2:]:\r\n while len(hull) > 1 and cross_product(hull[-2], hull[-1], point) <= 0:\r\n del hull[-1]\r\n\r\n hull.append(point)\r\n\r\n upper_size = len(hull)\r\n\r\n for point in reversed(points_sorted[:-1]):\r\n while len(hull) > upper_size and cross_product(hull[-2], hull[-1], point) <= 0:\r\n del hull[-1]\r\n\r\n hull.append(point)\r\n\r\n return hull[:-1]\r\n" }, { "alpha_fraction": 0.37484678626060486, "alphanum_fraction": 0.4562392830848694, "avg_line_length": 38.990196228027344, "blob_id": "17022e1c246d94c794f28e94338c1ad9b177bbc1", "content_id": "27c332ada680da151a4254547277042d72f6ada2", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4083, "license_type": "permissive", "max_line_length": 94, "num_lines": 102, "path": "/AlgoLib_Python/tests/test_paths.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA ALGORYTMÓW WYZNACZANIA NAJKRÓTSZYCH ŚCIEŻEK\"\"\"\nimport unittest\nfrom algolib.graphs import bellman_ford, dijkstra, floyd_warshall, \\\n DirectedWeightedSimpleGraph, UndirectedWeightedSimpleGraph\n\n\nclass PathsTest(unittest.TestCase):\n def __init__(self, args, kwargs):\n super().__init__(args, kwargs)\n self.__diwgraph = None\n self.__uwgraph = None\n\n def setUp(self):\n self.__diwgraph = DirectedWeightedSimpleGraph(\n 10, [(0, 1, 4), (1, 4, 7), (1, 7, 12), (2, 4, 6), (2, 6, 8), (3, 0, 3), (3, 7, 5),\n (4, 5, 1), (4, 3, 10), (5, 6, 4), (5, 8, 2), (6, 5, 7), (7, 5, 2), (7, 8, 6),\n (8, 9, 10), (9, 6, 3)])\n self.__uwgraph = UndirectedWeightedSimpleGraph(\n 10, [(0, 1, 4), (1, 4, 7), (1, 7, 12), (2, 6, 8), (3, 0, 3), (3, 7, 5), (4, 5, 1),\n (4, 3, 10), (5, 8, 2), (7, 5, 2), (7, 8, 6), (9, 6, 3)])\n\n def tearDown(self):\n self.__diwgraph = None\n self.__uwgraph = None\n\n def test_bellman_ford_when_directed_graph(self):\n source = 1\n self.__diwgraph.add_weighted_edge(2, 1, -2)\n\n result = bellman_ford(self.__diwgraph, source)\n\n self.assertListEqual([20, 0, self.__diwgraph.inf, 17, 7, 8, 12, 12, 10, 20], result)\n\n def test_bellman_ford_when_undirected_graph(self):\n source = 1\n\n result = bellman_ford(self.__uwgraph.as_directed(), source)\n i = self.__diwgraph.inf\n\n self.assertListEqual([4, 0, i, 7, 7, 8, i, 10, 10, i], result)\n\n def test_bellman_ford_when_negative_cycle(self):\n source = 1\n self.__diwgraph.add_weighted_edge(8, 3, -20.0)\n\n with self.assertRaises(ValueError):\n bellman_ford(self.__diwgraph, source)\n\n def test_dijkstra_when_directed_graph(self):\n source = 1\n\n result = dijkstra(self.__diwgraph, source)\n\n self.assertListEqual([20, 0, self.__diwgraph.inf, 17, 7, 8, 12, 12, 10, 20], result)\n\n def test_dijkstra_when_undirected_graph(self):\n source = 1\n\n result = dijkstra(self.__uwgraph, source)\n i = self.__diwgraph.inf\n\n self.assertListEqual([4, 0, i, 7, 7, 8, i, 10, 10, i], result)\n\n def test_dijkstra_when_negative_edge(self):\n source = 1\n self.__diwgraph.add_weighted_edge(2, 1, -2)\n\n with self.assertRaises(ValueError):\n dijkstra(self.__diwgraph, source)\n\n def test_floyd_warshall_when_directed_graph(self):\n self.__diwgraph.add_weighted_edge(2, 1, -2)\n\n result = floyd_warshall(self.__diwgraph)\n i = self.__diwgraph.inf\n\n self.assertListEqual([[0, 4, i, 21, 11, 12, 16, 16, 14, 24],\n [20, 0, i, 17, 7, 8, 12, 12, 10, 20],\n [18, -2, 0, 15, 5, 6, 8, 10, 8, 18],\n [3, 7, i, 0, 14, 7, 11, 5, 9, 19],\n [13, 17, i, 10, 0, 1, 5, 15, 3, 13],\n [i, i, i, i, i, 0, 4, i, 2, 12],\n [i, i, i, i, i, 7, 0, i, 9, 19],\n [i, i, i, i, i, 2, 6, 0, 4, 14],\n [i, i, i, i, i, 20, 13, i, 0, 10],\n [i, i, i, i, i, 10, 3, i, 12, 0]], result)\n\n def test_floyd_warshall_when_undirected_graph(self):\n result = floyd_warshall(self.__uwgraph.as_directed())\n i = self.__diwgraph.inf\n\n self.assertListEqual([[0, 4, i, 3, 11, 10, i, 8, 12, i],\n [4, 0, i, 7, 7, 8, i, 10, 10, i],\n [i, i, 0, i, i, i, 8, i, i, 11],\n [3, 7, i, 0, 8, 7, i, 5, 9, i],\n [11, 7, i, 8, 0, 1, i, 3, 3, i],\n [10, 8, i, 7, 1, 0, i, 2, 2, i],\n [i, i, 8, i, i, i, 0, i, i, 3],\n [8, 10, i, 5, 3, 2, i, 0, 4, i],\n [12, 10, i, 9, 3, 2, i, 4, 0, i],\n [i, i, 11, i, i, i, 3, i, i, 0]], result)\n" }, { "alpha_fraction": 0.5945945978164673, "alphanum_fraction": 0.6002039909362793, "avg_line_length": 24.467533111572266, "blob_id": "833821d2b2c75155cb908d0515dceea7c89b0238", "content_id": "27ad9fa252b792f6a6f2dcac4986eee7ad442cbb", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1962, "license_type": "permissive", "max_line_length": 97, "num_lines": 77, "path": "/AlgoLib_Cpp/src/algolib/graphs/scc.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\n * @file scc.hpp\n * ALGORYTM WYZNACZANIA SILNIE SPÓLJNYCH SKŁADOWYCH W GRAFIE SKIEROWANYM\n /\n#include \"algolib/graphs/scc.hpp\"\n\nnamespace algr = algolib::graphs;\n\ndetail::graph_components::graph_components(algr::directed_graph & digr) : digraph{digr}\n{\n for(vertex_t v : this->digraph.get_vertices())\n {\n this->components.push_back(-1);\n this->postorder.push_back(std::make_pair(-1, v));\n }\n}\n\nstd::vector<int> detail::graph_components::find_scc()\n{\n int timer = 0, component = 0;\n\n for(vertex_t v : digraph.get_vertices())\n if(postorder[v].first < 0)\n {\n timer = dfs_order(v, timer);\n ++timer;\n }\n\n std::sort(postorder.rbegin(), postorder.rend());\n digraph.reverse();\n\n for(std::pair<int, vertex_t> vt : postorder)\n if(components[vt.second] < 0)\n {\n dfs_scc(vt.second, component);\n ++component;\n }\n\n return components;\n}\n\nint detail::graph_components::dfs_order(vertex_t vertex, int timer)\n{\n postorder[vertex].first = 0;\n ++timer;\n\n for(vertex_t neighbour : digraph.get_neighbours(vertex))\n if(postorder[neighbour].first < 0)\n timer = dfs_order(neighbour, timer);\n\n postorder[vertex].first = timer;\n\n return timer + 1;\n}\n\nvoid detail::graph_components::dfs_scc(vertex_t vertex, int component)\n{\n components[vertex] = component;\n\n for(vertex_t neighbour : digraph.get_neighbours(vertex))\n if(components[neighbour] < 0)\n dfs_scc(neighbour, component);\n}\n\nstd::vector<std::set<vertex_t>> algr::find_scc(directed_graph & digraph)\n{\n detail::graph_components gc(digraph);\n\n std::vector<int> comps = gc.find_scc();\n std::vector<std::set<vertex_t>> components(std::max_element(comps.begin(), comps.end()) + 1,\n std::set<vertex_t>());\n\n for(vertex_t v : digraph.get_vertices())\n components[comps[v]].insert(v);\n\n return components;\n}\n" }, { "alpha_fraction": 0.6669381260871887, "alphanum_fraction": 0.6693810820579529, "avg_line_length": 22.169811248779297, "blob_id": "f31bf418f95ef994fbdc28cb802cc1da13088f5a", "content_id": "e4487ebfdfe7dfa873b61ec8dbdb2ba34ad707f7", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1229, "license_type": "permissive", "max_line_length": 85, "num_lines": 53, "path": "/AlgoLib_Cpp/src/algolib/graphs/graph.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURY GRAFÓW\n#include \"algolib/graphs/graph.hpp\"\n\nnamespace algr = algolib::graphs;\n\n#pragma region graph\n\nconstexpr weight_t algr::graph::INF;\n\n#pragma endregion\n#pragma region simple_graph\n\nconstexpr weight_t algr::simple_graph::DEFAULT_WEIGHT;\n\nstd::vector<vertex_t> algr::simple_graph::get_vertices() const\n{\n std::vector<vertex_t> vertices;\n\n for(size_t i = 0; i < get_vertices_number(); ++i)\n vertices.push_back(i);\n\n return vertices;\n}\n\nvertex_t algr::simple_graph::add_vertex()\n{\n graphrepr.emplace_back();\n\n return graphrepr.size() - 1;\n}\n\nstd::vector<vertex_t> algr::simple_graph::get_neighbours(vertex_t vertex) const\n{\n if(vertex >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex));\n\n std::vector<vertex_t> neibs(graphrepr[vertex].size());\n\n std::transform(graphrepr[vertex].begin(), graphrepr[vertex].end(), neibs.begin(),\n [](wvertex_t wv) { return std::get<0>(wv); });\n\n return neibs;\n}\n\nsize_t algr::simple_graph::get_outdegree(vertex_t vertex) const\n{\n if(vertex >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex));\n\n return graphrepr[vertex].size();\n}\n\n#pragma endregion\n" }, { "alpha_fraction": 0.534647524356842, "alphanum_fraction": 0.5776582956314087, "avg_line_length": 43.05263137817383, "blob_id": "5f91c295b4dabfc7dee6702373f5c15f38502f63", "content_id": "f44db319edea71d5c1e95b1fbca86e26f096e78b", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 3349, "license_type": "permissive", "max_line_length": 100, "num_lines": 76, "path": "/AlgoLib_Cpp/test/topological_sorting_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMÓW SORTOWANIA TOPOLOGICZNEGO\"\"\"\n#include <gtest/gtest.h>\n#include \"algolib/graphs/topological_sorting.hpp\"\n\nnamespace algr = algolib::graphs;\n\nTEST(TopologicalSortingTest, testSortTopological1WhenAcyclicGraph)\n{\n algr::directed_simple_graph graph(\n 6, std::vector<edge_t>({std::make_tuple(0, 2), std::make_tuple(0, 4), std::make_tuple(1, 0),\n std::make_tuple(1, 4), std::make_tuple(3, 1), std::make_tuple(3, 0),\n std::make_tuple(3, 2), std::make_tuple(5, 1), std::make_tuple(5, 2),\n std::make_tuple(5, 4)}));\n\n std::vector<vertex_t> result = sort_topological1(graph);\n\n EXPECT_EQ(std::vector<vertex_t>({3, 5, 1, 0, 2, 4}), result);\n}\n\nTEST(TopologicalSortingTest, testSortTopological1WhenCyclicGraph)\n{\n algr::directed_simple_graph graph(\n 6, std::vector<edge_t>({std::make_tuple(0, 2), std::make_tuple(0, 4), std::make_tuple(1, 0),\n std::make_tuple(1, 4), std::make_tuple(2, 1), std::make_tuple(3, 1),\n std::make_tuple(3, 0), std::make_tuple(3, 2), std::make_tuple(5, 1),\n std::make_tuple(5, 2), std::make_tuple(5, 4)}));\n\n EXPECT_THROW(sort_topological1(graph), algr::directed_cyclic_graph_exception);\n}\n\nTEST(TopologicalSortingTest, testSortTopological1WhenEmptyGraph)\n{\n algr::directed_simple_graph graph(6);\n\n std::vector<vertex_t> result = sort_topological1(graph);\n\n EXPECT_EQ(std::vector<vertex_t>({0, 1, 2, 3, 4, 5}), result);\n}\n\nTEST(TopologicalSortingTest, testSortTopological2WhenAcyclicGraph)\n{\n algr::directed_simple_graph graph(\n 6, std::vector<edge_t>({std::make_tuple(0, 2), std::make_tuple(0, 4), std::make_tuple(1, 0),\n std::make_tuple(1, 4), std::make_tuple(3, 1), std::make_tuple(3, 0),\n std::make_tuple(3, 2), std::make_tuple(5, 1), std::make_tuple(5, 2),\n std::make_tuple(5, 4)}));\n\n std::vector<vertex_t> result = sort_topological2(graph);\n std::vector<std::vector<vertex_t>> expecteds = {\n std::vector<vertex_t>({3, 5, 1, 0, 2, 4}), std::vector<vertex_t>({5, 3, 1, 0, 2, 4}),\n std::vector<vertex_t>({3, 5, 1, 0, 4, 2}), std::vector<vertex_t>({5, 3, 1, 0, 4, 2})};\n\n EXPECT_TRUE(\n std::any_of(expecteds.begin(), expecteds.end(),\n [&](const std::vector<vertex_t> expected) { return expected == result; }));\n}\n\nTEST(TopologicalSortingTest, testSortTopological2WhenCyclicGraph)\n{\n algr::directed_simple_graph graph(\n 6, std::vector<edge_t>({std::make_tuple(0, 2), std::make_tuple(0, 4), std::make_tuple(1, 0),\n std::make_tuple(1, 4), std::make_tuple(2, 1), std::make_tuple(3, 1),\n std::make_tuple(3, 0), std::make_tuple(3, 2), std::make_tuple(5, 1),\n std::make_tuple(5, 2), std::make_tuple(5, 4)}));\n\n EXPECT_THROW(sort_topological2(graph), algr::directed_cyclic_graph_exception);\n}\n\nTEST(TopologicalSortingTest, testSortTopological2WhenEmptyGraph)\n{\n algr::directed_simple_graph graph(6);\n\n std::vector<vertex_t> result = sort_topological2(graph);\n\n EXPECT_EQ(std::vector<vertex_t>({0, 1, 2, 3, 4, 5}), result);\n}\n" }, { "alpha_fraction": 0.5155074000358582, "alphanum_fraction": 0.5161095857620239, "avg_line_length": 30.037384033203125, "blob_id": "c8499e1d5d31074dbad3f32a63a00b3d2f8da57e", "content_id": "b9622bae3da4d9d9f32125fe9499d223ed2bb2c3", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C#", "length_bytes": 3336, "license_type": "permissive", "max_line_length": 89, "num_lines": 107, "path": "/AlgoLib_Csharp/src/Searching.cs", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY PRZESZUKIWANIA GRAFU\nusing System;\nusing System.Linq.Enumerable;\nusing System.Collections.Generic;\n\nnamespace Algolib.Graphs\n{\n class BreadthFirstSearch\n {\n /// <summary>\n /// Algorytm BFS.\n /// </summary>\n /// <param name=\"graph\">graf</param>\n /// <param name=\"root\">wierzchołek początkowy</param>\n /// <returns>lista odwiedzonych wierzchołków</returns>\n public static List<bool> BFS(Graph graph, int root)\n {\n List<bool> isVisited = Enumerable.Repeat(false, graph.VertexNumber).ToList();\n Queue<int> vertexQueue = new Queue<int>();\n\n vertexQueue.Enqueue(root);\n isVisited[root] = true;\n\n while(!vertexQueue.Count == 0)\n {\n int v = vertexQueue.Dequeue();\n\n foreach(int nb in graph.Neighbours(v))\n if(!isVisited[nb])\n {\n isVisited[nb] = true;\n vertexQueue.Enqueue(nb);\n }\n }\n\n return isVisited;\n }\n }\n\n class DepthFirstSearch\n {\n /// <summary>\n /// Iteracyjny algorytm DFS.\n /// </summary>\n /// <param name=\"graph\">graf</param>\n /// <param name=\"root\">wierzchołek początkowy</param>\n /// <returns>lista odwiedzonych wierzchołków</returns>\n public static List<bool> DFSI(Graph graph, int root)\n {\n List<bool> isVisited = Enumerable.Repeat(false, graph.VertexNumber).ToList();\n Stack<int> vertexStack = new Stack<int>();\n\n vertexStack.Push(root);\n isVisited[root] = true;\n\n while(!vertexStack.Count == 0)\n {\n int v = vertexStack.Pop();\n\n if(!isVisited[v])\n {\n isVisited[v] = true;\n\n foreach(int nb in graph.Neighbours(v))\n if(!isVisited[nb])\n vertexStack.Push(nb);\n }\n }\n\n return isVisited;\n }\n\n /// <summary>\n /// Rekurencyjny algorytm DFS.\n /// </summary>\n /// <param name=\"graph\">graf</param>\n /// <param name=\"root\">wierzchołek początkowy</param>\n /// <returns>lista odwiedzonych wierzchołków</returns>\n public static List<bool> DFSR(Graph graph, int root)\n {\n List<bool> isVisited = Enumerable.Repeat(false, graph.VertexNumber).ToList();\n\n isVisited[vertex] = true;\n\n foreach(int neighbour in graph.Neighbours(vertex))\n if(!isVisited[neighbour])\n DFSRstep(graph, neighbour, isVisited);\n\n return isVisited;\n }\n\n /// <summary>\n /// Krok rekurencyjnego DFS.\n /// </summary>\n /// <param name=\"graph\">graf</param>\n /// <param name=\"vertex\">aktualny wierzchołek</param>\n /// <param name=\"isVisited\">lista odwiedzonych wierzchołków</param>\n private static void DFSRstep(Graph graph, int vertex, List<bool> isVisited)\n {\n isVisited[vertex] = true;\n\n foreach(int neighbour in graph.Neighbours(vertex))\n if(!isVisited[neighbour])\n DFSRstep(graph, neighbour, isVisited);\n }\n }\n}\n" }, { "alpha_fraction": 0.5945567488670349, "alphanum_fraction": 0.6299780011177063, "avg_line_length": 27.554285049438477, "blob_id": "9f50abd4bd80657936d13cfca271531bb0fd4a76", "content_id": "223a87f00046d63c4b6315178f778f9aa81d428f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 4998, "license_type": "permissive", "max_line_length": 99, "num_lines": 175, "path": "/AlgoLib_Cpp/test/undirected_graph_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA GRAFÓW NIESKIEROWANYCH\n#include <gtest/gtest.h>\n#include \"algolib/graphs/undirected_graph.hpp\"\n\nnamespace algr = algolib::graphs;\n\nclass UndirectedSimpleGraphTest : public ::testing::Test\n{\nprotected:\n algr::undirected_simple_graph test_object;\n\npublic:\n UndirectedSimpleGraphTest() : test_object{algr::undirected_simple_graph(10)}\n {\n }\n\n virtual ~UndirectedSimpleGraphTest()\n {\n }\n};\n\nTEST_F(UndirectedSimpleGraphTest, testGetVerticesNumber)\n{\n size_t result = test_object.get_vertices_number();\n\n EXPECT_EQ(10, result);\n}\n\nTEST_F(UndirectedSimpleGraphTest, testGetVertices)\n{\n std::vector<vertex_t> result = test_object.get_vertices();\n\n std::sort(result.begin(), result.end());\n\n EXPECT_EQ(std::vector<vertex_t>({0, 1, 2, 3, 4, 5, 6, 7, 8, 9}), result);\n}\n\nTEST_F(UndirectedSimpleGraphTest, testAddVertex)\n{\n vertex_t result = test_object.add_vertex();\n\n EXPECT_EQ(10, result);\n EXPECT_EQ(11, test_object.get_vertices_number());\n}\n\nTEST_F(UndirectedSimpleGraphTest, testGetEdgesNumber)\n{\n test_object.add_edge(7, 7);\n test_object.add_edge(1, 5);\n test_object.add_edge(2, 4);\n test_object.add_edge(8, 0);\n test_object.add_edge(6, 3);\n test_object.add_edge(3, 6);\n test_object.add_edge(9, 3);\n test_object.add_edge(8, 0);\n\n size_t result = test_object.get_edges_number();\n\n EXPECT_EQ(6, result);\n}\n\nTEST_F(UndirectedSimpleGraphTest, testGetEdges)\n{\n test_object.add_edge(7, 7);\n test_object.add_edge(1, 5);\n test_object.add_edge(2, 4);\n test_object.add_edge(8, 0);\n test_object.add_edge(6, 3);\n test_object.add_edge(3, 6);\n test_object.add_edge(9, 3);\n test_object.add_edge(8, 0);\n\n std::vector<edge_t> result = test_object.get_edges();\n\n std::sort(result.begin(), result.end());\n\n EXPECT_EQ(\n std::vector<edge_t>({std::make_tuple(0, 8), std::make_tuple(1, 5), std::make_tuple(2, 4),\n std::make_tuple(3, 6), std::make_tuple(3, 9), std::make_tuple(7, 7)}),\n result);\n}\n\nTEST_F(UndirectedSimpleGraphTest, testAddEdge)\n{\n test_object.add_edge(1, 5);\n test_object.add_edge(1, 5);\n test_object.add_edge(5, 1);\n test_object.add_edge(1, 1);\n\n std::vector<vertex_t> result1 = test_object.get_neighbours(1);\n std::vector<vertex_t> result5 = test_object.get_neighbours(5);\n\n std::sort(result1.begin(), result1.end());\n std::sort(result5.begin(), result5.end());\n\n EXPECT_EQ(2, test_object.get_edges_number());\n EXPECT_EQ(std::vector<vertex_t>({1, 5}), result1);\n EXPECT_EQ(std::vector<vertex_t>({1}), result5);\n}\n\nTEST_F(UndirectedSimpleGraphTest, testGetNeighbours)\n{\n test_object.add_edge(1, 1);\n test_object.add_edge(1, 3);\n test_object.add_edge(1, 4);\n test_object.add_edge(1, 7);\n test_object.add_edge(1, 9);\n test_object.add_edge(2, 1);\n test_object.add_edge(6, 1);\n\n std::vector<vertex_t> result = test_object.get_neighbours(1);\n\n std::sort(result.begin(), result.end());\n\n EXPECT_EQ(std::vector<vertex_t>({1, 2, 3, 4, 6, 7, 9}), result);\n}\n\nTEST_F(UndirectedSimpleGraphTest, testGetOutdegree)\n{\n test_object.add_edge(1, 1);\n test_object.add_edge(1, 3);\n test_object.add_edge(1, 4);\n test_object.add_edge(1, 7);\n test_object.add_edge(1, 9);\n test_object.add_edge(2, 1);\n test_object.add_edge(6, 1);\n\n size_t result = test_object.get_outdegree(1);\n\n EXPECT_EQ(7, result);\n}\n\nTEST_F(UndirectedSimpleGraphTest, testGetIndegree)\n{\n test_object.add_edge(1, 1);\n test_object.add_edge(3, 1);\n test_object.add_edge(4, 1);\n test_object.add_edge(7, 1);\n test_object.add_edge(9, 1);\n test_object.add_edge(1, 2);\n test_object.add_edge(1, 6);\n\n size_t result = test_object.get_indegree(1);\n\n EXPECT_EQ(7, result);\n}\n\nTEST_F(UndirectedSimpleGraphTest, testAsDirected)\n{\n test_object.add_edge(7, 7);\n test_object.add_edge(1, 5);\n test_object.add_edge(2, 4);\n test_object.add_edge(8, 0);\n test_object.add_edge(6, 3);\n test_object.add_edge(3, 6);\n test_object.add_edge(9, 3);\n test_object.add_edge(8, 0);\n\n algr::directed_simple_graph result = test_object;\n std::vector<vertex_t> expected_vertices = test_object.get_vertices();\n std::vector<vertex_t> result_vertices = result.get_vertices();\n std::vector<edge_t> result_edges = result.get_edges();\n\n std::sort(expected_vertices.begin(), expected_vertices.end());\n std::sort(result_vertices.begin(), result_vertices.end());\n std::sort(result_edges.begin(), result_edges.end());\n\n EXPECT_EQ(expected_vertices, result_vertices);\n EXPECT_EQ(\n std::vector<edge_t>({std::make_tuple(0, 8), std::make_tuple(1, 5), std::make_tuple(2, 4),\n std::make_tuple(3, 6), std::make_tuple(3, 9), std::make_tuple(4, 2),\n std::make_tuple(5, 1), std::make_tuple(6, 3), std::make_tuple(7, 7),\n std::make_tuple(8, 0), std::make_tuple(9, 3)}),\n result_edges);\n}\n" }, { "alpha_fraction": 0.5774027705192566, "alphanum_fraction": 0.5774027705192566, "avg_line_length": 26.260000228881836, "blob_id": "9f05733d8394fa18e9f7a8510e76f7e3d6c72032", "content_id": "49da829568ed5777f3c0ca8f3f435a61e06ac405", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 2741, "license_type": "permissive", "max_line_length": 82, "num_lines": 100, "path": "/AlgoLib_Java/src/refhumbold/algolib/graphs/Searching.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY PRZESZUKIWANIA GRAFU\npackage refhumbold.algolib.graphs;\n\nimport java.util.;\n\npublic class Searching\n{\n /\n Algorytm BFS.\n * @param graph graf\n * @param root wierzchołek początkowy\n * @return lista odwiedzonych wierzchołków\n /\n public static List<Boolean> bfs(Graph graph, int root)\n {\n List<Boolean> isVisited = new ArrayList<>(\n Collections.nCopies(graph.getVerticesNumber(), false));\n Deque<Integer> vertexDeque = new ArrayDeque<>();\n\n vertexDeque.addLast(root);\n isVisited.set(root, true);\n\n while(!vertexDeque.isEmpty())\n {\n Integer v = vertexDeque.removeFirst();\n\n for(Integer nb : graph.getNeighbours(v))\n if(!isVisited.get(nb))\n {\n isVisited.set(nb, true);\n vertexDeque.addLast(nb);\n }\n }\n\n return isVisited;\n }\n\n /\n Iteracyjny algorytm DFS.\n * @param graph graf\n * @param root wierzchołek początkowy\n * @return lista odwiedzonych wierzchołków\n /\n public static List<Boolean> dfsi(Graph graph, int root)\n {\n List<Boolean> isVisited = new ArrayList<>(\n Collections.nCopies(graph.getVerticesNumber(), false));\n Deque<Integer> vertexDeque = new ArrayDeque<>();\n\n vertexDeque.addFirst(root);\n isVisited.set(root, true);\n\n while(!vertexDeque.isEmpty())\n {\n Integer v = vertexDeque.removeFirst();\n\n if(!isVisited.get(v))\n {\n isVisited.set(v, true);\n\n for(Integer nb : graph.getNeighbours(v))\n if(!isVisited.get(nb))\n vertexDeque.addFirst(nb);\n }\n }\n\n return isVisited;\n }\n\n /\n Rekurencyjny algorytm DFS.\n * @param graph graf\n * @param root wierzchołek początkowy\n * @return lista odwiedzonych wierzchołków\n /\n public static List<Boolean> dfsr(Graph graph, int root)\n {\n List<Boolean> isVisited = new ArrayList<>(\n Collections.nCopies(graph.getVerticesNumber(), false));\n\n Searching.dfsrStep(graph, root, isVisited);\n\n return isVisited;\n }\n\n /\n Krok rekurencyjnego DFS.\n * @param graph graf\n * @param isVisited lista odwiedzonych wierzchołków\n * @param vertex aktualny wierzchołek\n /\n private static void dfsrStep(Graph graph, int vertex, List<Boolean> isVisited)\n {\n isVisited.set(vertex, true);\n\n for(Integer neighbour : graph.getNeighbours(vertex))\n if(!isVisited.get(neighbour))\n Searching.dfsrStep(graph, neighbour, isVisited);\n }\n}\n" }, { "alpha_fraction": 0.5543175339698792, "alphanum_fraction": 0.6045779585838318, "avg_line_length": 20.960105895996094, "blob_id": "a50c5f212c5c7574695f7098b6263b57e1fa8c92", "content_id": "bd5daf8c8c7a4cfceb57c895806a45873d1f530f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 8258, "license_type": "permissive", "max_line_length": 70, "num_lines": 376, "path": "/AlgoLib_Java/test/refhumbold/algolib/math/MathsTest.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMÓW MATEMATYCZNYCH\npackage refhumbold.algolib.math;\n\nimport org.junit.After;\nimport org.junit.Assert;\nimport org.junit.Before;\nimport org.junit.Test;\n\npublic class MathsTest\n{\n @Before\n public void setUp()\n throws Exception\n {\n }\n\n @After\n public void tearDown()\n throws Exception\n {\n }\n\n @Test\n public void testGCDWhenNumbersAreComposite()\n {\n long number1 = 161;\n long number2 = 46;\n\n long result = Maths.gcd(number1, number2);\n\n Assert.assertEquals(23, result);\n }\n\n @Test\n public void testGCDWhenNumbersArePrime()\n {\n long number1 = 127;\n long number2 = 41;\n\n long result = Maths.gcd(number1, number2);\n\n Assert.assertEquals(1, result);\n }\n\n @Test\n public void testGCDWhenNumbersAreMutuallyPrime()\n {\n long number1 = 119;\n long number2 = 57;\n\n long result = Maths.gcd(number1, number2);\n\n Assert.assertEquals(1, result);\n }\n\n @Test\n public void testGCDWhenOneOfNumbersIsMultipleOfAnother()\n {\n long number1 = 272;\n long number2 = 34;\n\n long result = Maths.gcd(number1, number2);\n\n Assert.assertEquals(number2, result);\n }\n\n @Test\n public void testGCDWhenOneOfNumbersIsZero()\n {\n long number1 = 96;\n long number2 = 0;\n\n long result = Maths.gcd(number1, number2);\n\n Assert.assertEquals(number1, result);\n }\n\n @Test\n public void testLCMWhenNumbersAreComposite()\n {\n long number1 = 161;\n long number2 = 46;\n\n long result = Maths.lcm(number1, number2);\n\n Assert.assertEquals(322, result);\n }\n\n @Test\n public void testLCMWhenNumbersArePrime()\n {\n long number1 = 127;\n long number2 = 41;\n\n long result = Maths.lcm(number1, number2);\n\n Assert.assertEquals(5207, result);\n }\n\n @Test\n public void testLCMWhenNumbersAreMutuallyPrime()\n {\n long number1 = 119;\n long number2 = 57;\n\n long result = Maths.lcm(number1, number2);\n\n Assert.assertEquals(6783, result);\n }\n\n @Test\n public void testLCMWhenOneOfNumbersIsMultipleOfAnother()\n {\n long number1 = 272;\n long number2 = 34;\n\n long result = Maths.lcm(number1, number2);\n\n Assert.assertEquals(number1, result);\n }\n\n @Test\n public void testLCMWhenOneOfNumbersIsZero()\n {\n long number1 = 96;\n long number2 = 0;\n\n long result = Maths.lcm(number1, number2);\n\n Assert.assertEquals(number2, result);\n }\n\n @Test\n public void testPowerModWhenBaseIsZero()\n {\n long number1 = 0;\n long number2 = 14;\n long number3 = 0;\n\n long result = Maths.powerMod(number1, number2, number3);\n\n Assert.assertEquals(number1, result);\n }\n\n @Test\n public void testPowerModWhenExponentIsZero()\n {\n long number1 = 14;\n long number2 = 0;\n long number3 = 0;\n\n long result = Maths.powerMod(number1, number2, number3);\n\n Assert.assertEquals(1, result);\n }\n\n @Test(expected = ArithmeticException.class)\n public void testPowerModWhenBaseAndExponentAreZero()\n {\n long number1 = 0;\n long number2 = 0;\n long number3 = 0;\n\n Maths.powerMod(number1, number2, number3);\n }\n\n @Test\n public void testPowerModWhenBaseAndExponentArePositive()\n {\n long number1 = 3;\n long number2 = 10;\n long number3 = 0;\n\n long result = Maths.powerMod(number1, number2, number3);\n\n Assert.assertEquals(59049, result);\n }\n\n @Test\n public void testPowerModWhenBaseIsNegativeAndExponentIsEven()\n {\n long number1 = -3;\n long number2 = 10;\n long number3 = 0;\n\n long result = Maths.powerMod(number1, number2, number3);\n\n Assert.assertEquals(59049, result);\n }\n\n @Test\n public void testPowerModWhenBaseIsNegativeAndExponentIsOdd()\n {\n long number1 = -3;\n long number2 = 9;\n long number3 = 0;\n\n long result = Maths.powerMod(number1, number2, number3);\n\n Assert.assertEquals(-19683, result);\n }\n\n @Test(expected = ArithmeticException.class)\n public void testPowerModWhenExponentIsNegative()\n {\n long number1 = 3;\n long number2 = -10;\n long number3 = 0;\n\n Maths.powerMod(number1, number2, number3);\n }\n\n @Test\n public void testPowerModWhenModuloAndBaseArePositive()\n {\n long number1 = 5;\n long number2 = 11;\n long number3 = 10000;\n\n long result = Maths.powerMod(number1, number2, number3);\n\n Assert.assertEquals(8125, result);\n }\n\n @Test\n public void testPowerModWhenModuloIsPositiveAndBaseIsNegative()\n {\n long number1 = -5;\n long number2 = 11;\n long number3 = 10000;\n\n long result = Maths.powerMod(number1, number2, number3);\n\n Assert.assertEquals(1875, result);\n }\n\n @Test(expected = ArithmeticException.class)\n public void testPowerModWhenModuloIsNegative()\n {\n long number1 = 5;\n long number2 = 11;\n long number3 = -10000;\n\n Maths.powerMod(number1, number2, number3);\n }\n\n @Test\n public void testMultModWhenFactor1IsZero()\n {\n long number1 = 0;\n long number2 = 14;\n long number3 = 0;\n\n long result = Maths.multMod(number1, number2, number3);\n\n Assert.assertEquals(number1, result);\n }\n\n @Test\n public void testPowerModWhenFactor2IsZero()\n {\n long number1 = 14;\n long number2 = 0;\n long number3 = 0;\n\n long result = Maths.multMod(number1, number2, number3);\n\n Assert.assertEquals(number2, result);\n }\n\n @Test\n public void testMultModWhenFactorsAreZero()\n {\n long number1 = 0;\n long number2 = 0;\n long number3 = 0;\n\n long result = Maths.multMod(number1, number2, number3);\n\n Assert.assertEquals(number1, result);\n }\n\n @Test\n public void testMultModWhenFactor1IsNegativeAndFactor2IsPositive()\n {\n long number1 = -3;\n long number2 = 10;\n long number3 = 0;\n\n long result = Maths.multMod(number1, number2, number3);\n\n Assert.assertEquals(-30, result);\n }\n\n @Test\n public void testMultModWhenFactor1IsPositiveAndFactor2IsNegative()\n {\n long number1 = 3;\n long number2 = -10;\n long number3 = 0;\n\n long result = Maths.multMod(number1, number2, number3);\n\n Assert.assertEquals(-30, result);\n }\n\n @Test\n public void testMultModWhenFactorsAreNegative()\n {\n long number1 = -3;\n long number2 = -10;\n long number3 = 0;\n\n long result = Maths.multMod(number1, number2, number3);\n\n Assert.assertEquals(30, result);\n }\n\n @Test\n public void testMultModWhenModuloAndFactorsArePositive()\n {\n long number1 = 547;\n long number2 = 312;\n long number3 = 10000;\n\n long result = Maths.multMod(number1, number2, number3);\n\n Assert.assertEquals(664, result);\n }\n\n @Test\n public void testMultModWhenModuloIsPositiveAndFactor1IsNegative()\n {\n long number1 = -547;\n long number2 = 312;\n long number3 = 10000;\n\n long result = Maths.multMod(number1, number2, number3);\n\n Assert.assertEquals(9336, result);\n }\n\n @Test\n public void testMultModWhenModuloIsPositiveAndFactor2IsNegative()\n {\n long number1 = 547;\n long number2 = -312;\n long number3 = 10000;\n\n long result = Maths.multMod(number1, number2, number3);\n\n Assert.assertEquals(9336, result);\n }\n\n @Test\n public void testMultModWhenModuloIsPositiveAndFactorsAreNegative()\n {\n long number1 = -547;\n long number2 = -312;\n long number3 = 10000;\n\n long result = Maths.multMod(number1, number2, number3);\n\n Assert.assertEquals(664, result);\n }\n\n @Test(expected = ArithmeticException.class)\n public void testMultModWhenModuloIsNegative()\n {\n long number1 = 547;\n long number2 = 312;\n long number3 = -10000;\n\n Maths.multMod(number1, number2, number3);\n }\n}\n" }, { "alpha_fraction": 0.6187891364097595, "alphanum_fraction": 0.6254697442054749, "avg_line_length": 25.61111068725586, "blob_id": "a1bc689093cbd7c9a680cad70d657c227a998ecd", "content_id": "b8d5145665795ed6d1a11f767b3ccd944386130b", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 2395, "license_type": "permissive", "max_line_length": 93, "num_lines": 90, "path": "/AlgoLib_Java/src/refhumbold/algolib/graphs/UndirectedSimpleGraph.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURA NIESKIEROWANEGO GRAFU PROSTEGO\npackage refhumbold.algolib.graphs;\n\nimport java.util.ArrayList;\nimport java.util.Collection;\nimport java.util.List;\n\nimport refhumbold.algolib.tuples.ComparablePair;\nimport refhumbold.algolib.tuples.Pair;\n\npublic class UndirectedSimpleGraph\n extends SimpleGraph\n implements UndirectedGraph\n{\n public UndirectedSimpleGraph(int n)\n {\n super(n);\n }\n\n public UndirectedSimpleGraph(int n, Iterable<Pair<Integer, Integer>> edges)\n throws NoSuchVertexException\n {\n super(n);\n\n for(Pair<Integer, Integer> e : edges)\n this.addEdge(e.getFirst(), e.getSecond());\n }\n\n @Override\n public int getEdgesNumber()\n {\n int edgesNumber = 0;\n\n for(Integer v : getVertices())\n {\n edgesNumber += getOutdegree(v);\n\n if(getNeighbours(v).contains(v))\n ++edgesNumber;\n }\n\n return edgesNumber / 2;\n }\n\n @Override\n public Collection<ComparablePair<Integer, Integer>> getEdges()\n {\n List<ComparablePair<Integer, Integer>> edges = new ArrayList<>();\n\n for(Integer v : getVertices())\n for(Integer u : getNeighbours(v))\n if(u >= v)\n edges.add(ComparablePair.make(v, u));\n\n return edges;\n }\n\n @Override\n public void addEdge(Integer vertex1, Integer vertex2)\n throws NoSuchVertexException\n {\n if(vertex1 < 0 \|\| vertex1 >= getVerticesNumber())\n throw new NoSuchVertexException(vertex1.toString());\n\n if(vertex2 < 0 \|\| vertex2 >= getVerticesNumber())\n throw new NoSuchVertexException(vertex2.toString());\n\n graphrepr.get(vertex1).add(ComparablePair.make(vertex2, SimpleGraph.DEFAULT_WEIGHT));\n graphrepr.get(vertex2).add(ComparablePair.make(vertex1, SimpleGraph.DEFAULT_WEIGHT));\n }\n\n @Override\n public int getIndegree(Integer vertex)\n {\n return getOutdegree(vertex);\n }\n\n public DirectedSimpleGraph asDirected()\n {\n Collection<Pair<Integer, Integer>> diedges = new ArrayList<>();\n\n for(Pair<Integer, Integer> e : getEdges())\n {\n diedges.add(Pair.make(e.getFirst(), e.getSecond()));\n diedges.add(Pair.make(e.getSecond(), e.getFirst()));\n }\n\n return new DirectedSimpleGraph(getVerticesNumber(), diedges);\n }\n}\n" }, { "alpha_fraction": 0.5575447678565979, "alphanum_fraction": 0.5757672786712646, "avg_line_length": 27.790475845336914, "blob_id": "a5edf375872e1e2bb79f148089d5b40056b8851a", "content_id": "805ebb72578395a4ef7cdb816b0445983d233b1e", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3137, "license_type": "permissive", "max_line_length": 99, "num_lines": 105, "path": "/AlgoLib_Python/algolib/math/primes.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"ALGORYTMY DLA LICZB PIERWSZYCH\"\"\"\r\nfrom random import randint\r\nfrom math import sqrt\r\nfrom .maths import gcd, power_mod\r\n\r\n\r\ndef find_primes(numbers):\r\n \"\"\"Wyznaczanie liczb pierwszych.\r\n :param numbers: granice przedziału\r\n :returns: lista liczb pierwszych\"\"\"\r\n if len(numbers) == 1:\r\n return _find_primes_range(0, numbers[0])\r\n elif len(numbers) == 2:\r\n return _find_primes_range(numbers[0], numbers[1])\r\n else:\r\n raise TypeError(\"Expected 1 or 2 arguments, got {0}.\".format(len(numbers)))\r\n\r\n\r\ndef test_fermat(number):\r\n \"\"\"Test pierwszości Fermata.\r\n :param number: testowana liczba\r\n :returns: czy liczba prawdopodobnie jest pierwsza\"\"\"\r\n if number == 2 or number == 3:\r\n return True\r\n\r\n if number < 2 or number % 2 == 0 or number % 3 == 0:\r\n return False\r\n\r\n for _ in range(12):\r\n rdv = randint(1, number - 1)\r\n\r\n if gcd(rdv, number) > 1 or power_mod(rdv, number - 1, number) != 1:\r\n return False\r\n\r\n return True\r\n\r\n\r\ndef test_miller(number):\r\n \"\"\"Test pierwszości Millera-Rabina.\r\n :param number: testowana liczba\r\n :returns: czy liczba prawdopodobnie jest pierwsza\"\"\"\r\n if number == 2 or number == 3:\r\n return True\r\n\r\n if number < 2 or number % 2 == 0 or number % 3 == 0:\r\n return False\r\n\r\n expon, multip = _distribute(number - 1)\r\n\r\n for _ in range(12):\r\n rdv = randint(1, number - 1)\r\n\r\n if power_mod(rdv, multip, number) != 1 and \\\r\n all(power_mod(rdv, (1 << i) * multip, number) != number - 1 for i in range(expon)):\r\n return False\r\n\r\n return True\r\n\r\n\r\ndef _find_primes_range(min_number, max_number):\r\n \"\"\"Wyznaczanie liczb pierwszych na przedziale domknietym.\r\n :param min_number: dolna granica przedziału\r\n :param max_number: górna granica przedziału\r\n :returns: lista liczb pierwszych\"\"\"\r\n if max_number < min_number:\r\n raise ValueError(\"Second argument must be grater or equal to the first argument.\")\r\n\r\n if max_number < 2:\r\n return []\r\n\r\n is_prime = [i == 2 or (i > 2 and i % 2 == 1) for i in range(min_number, max_number + 1)]\r\n base_primes = [True] * int(sqrt(max_number) / 2)\r\n\r\n for i, prime in enumerate(base_primes):\r\n if prime:\r\n num = 2 * i + 3\r\n begin = num * num - min_number if min_number < num * num else -min_number % num\r\n\r\n for j in range((num * num - 3) // 2, len(base_primes), num):\r\n base_primes[j] = False\r\n\r\n for j in range(begin, len(is_prime), num):\r\n is_prime[j] = False\r\n\r\n for i, prime in enumerate(is_prime):\r\n print(min_number + i, prime, end=\"\|\")\r\n\r\n return (min_number + i for i, prime in enumerate(is_prime) if prime)\r\n\r\n\r\ndef _distribute(number):\r\n \"\"\"Rozkładanie liczby do testu Millera-Rabina.\r\n :param number: rozkładana liczba\r\n :returns: rozkład liczby\"\"\"\r\n power = 2\r\n expon = 1\r\n\r\n while number % power == 0:\r\n expon += 1\r\n power <<= 1\r\n\r\n expon -= 1\r\n\r\n return expon, number // (1 << expon)\r\n" }, { "alpha_fraction": 0.6202783584594727, "alphanum_fraction": 0.6580516695976257, "avg_line_length": 17.629629135131836, "blob_id": "ca6ea29b950f4e3585281982d066c63562defa8e", "content_id": "f967a660fca0d34a339018a5ea775bd9fe8d4b92", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 503, "license_type": "permissive", "max_line_length": 70, "num_lines": 27, "path": "/AlgoLib_Java/src/refhumbold/algolib/structures/InfiniteSolutionsException.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "package refhumbold.algolib.structures;\n\npublic class InfiniteSolutionsException\n extends Exception\n{\n private static final long serialVersionUID = 6587678825370802186L;\n\n public InfiniteSolutionsException()\n {\n super();\n }\n\n public InfiniteSolutionsException(String s)\n {\n super(s);\n }\n\n public InfiniteSolutionsException(Throwable t)\n {\n super(t);\n }\n\n public InfiniteSolutionsException(String s, Throwable t)\n {\n super(s, t);\n }\n}\n" }, { "alpha_fraction": 0.5118390321731567, "alphanum_fraction": 0.5164678692817688, "avg_line_length": 29.52717399597168, "blob_id": "a1bece75e7f614ebf06270c32fd870b59788c0ce", "content_id": "5da752c1f8602a1922d30e37215088828aa0d63d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 5642, "license_type": "permissive", "max_line_length": 98, "num_lines": 184, "path": "/AlgoLib_Cpp/include/algolib/structures/disjoint_sets.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/*\n @file disjoint_sets.hpp\n * STRUKTURA ZBIORÓW ROZŁĄCZNYCH UNION-FIND\n /\n#ifndef _DISJOINT_SETS_HPP_\n#define _DISJOINT_SETS_HPP_\n\n#include <cstdlib>\n#include <exception>\n#include <stdexcept>\n#include <algorithm>\n#include <initializer_list>\n#include <map>\n#include <set>\n#include <vector>\n\nnamespace algolib\n{\n namespace structures\n {\n template <typename E>\n class disjoint_sets\n {\n private:\n /// Mapa reprezentantów elementów.\n std::map<E, E> represents;\n\n /// Liczba elementów\n size_t elems;\n\n public:\n explicit disjoint_sets(std::initializer_list<E> universe) : elems{universe.size()}\n {\n for(E e : universe)\n represents.insert(std::make_pair(e, e));\n }\n\n explicit disjoint_sets(std::vector<E> universe) : elems{universe.size()}\n {\n for(E e : universe)\n represents.insert(std::make_pair(e, e));\n }\n\n ~disjoint_sets() = default;\n disjoint_sets(const disjoint_sets & ds) = default;\n disjoint_sets(disjoint_sets && ds) = default;\n disjoint_sets & operator=(const disjoint_sets & ds) = default;\n disjoint_sets & operator=(disjoint_sets && ds) = default;\n\n /\n @return liczba zbiorów\n /\n size_t size() const\n {\n return elems;\n }\n\n /\n Sprawdzanie należenia do dowolnego zbioru.\n * @param element element\n * @return czy element w jednym ze zbiorów\n /\n bool contains(const E & element) const;\n\n /\n Dodawanie nowego elementu jako singleton.\n * @param element nowy element\n /\n void add_elem(const E & element);\n\n /\n Ustalanie reprezentanta zbioru.\n * @param element element ze zbioru\n * @return reprezentant elementu\n /\n const E & find_set(const E & element);\n\n /\n Ustalanie reprezentanta zbioru.\n * @param element element ze zbioru\n * @return reprezentant elementu\n /\n const E & find_set(const E & element) const;\n\n /\n Ustalanie reprezentanta zbioru.\n * @param element element ze zbioru\n * @return reprezentant elementu\n /\n const E & operator[](const E & element)\n {\n return find_set(element);\n }\n\n /\n Ustalanie reprezentanta zbioru.\n * @param element element ze zbioru\n * @return reprezentant elementu\n /\n const E & operator[](const E & element) const\n {\n return find_set(element);\n }\n\n /\n Scalanie dwóch zbiorów.\n * @param element1 element pierwszego zbioru\n * @param element2 element drugiego zbioru\n /\n void union_set(const E & element1, const E & element2);\n\n /\n Sprawdzanie, czy elementy należą do tego samego zbioru.\n * @param element1 element pierwszego zbioru\n * @param element2 element drugiego zbioru\n * @return czy elementy znajdują się w różnych składowych\n /\n bool is_same_set(const E & element1, const E & element2);\n\n /\n Sprawdzanie, czy elementy należą do tego samego zbioru.\n * @param element1 element pierwszego zbioru\n * @param element2 element drugiego zbioru\n * @return czy elementy znajdują się w różnych składowych\n /\n bool is_same_set(const E & element1, const E & element2) const;\n };\n\n template <typename E>\n bool disjoint_sets<E>::contains(const E & element) const\n {\n return represents.find(element) != represents.end();\n }\n\n template <typename E>\n void disjoint_sets<E>::add_elem(const E & element)\n {\n if(contains(element))\n throw std::invalid_argument(\"Value already present.\");\n\n represents.emplace(element, element);\n elems++;\n }\n\n template <typename E>\n const E & disjoint_sets<E>::find_set(const E & element)\n {\n if(represents.at(element) != element)\n represents[element] = find_set(represents[element]);\n\n return represents[element];\n }\n\n template <typename E>\n const E & disjoint_sets<E>::find_set(const E & element) const\n {\n return represents.at(element) == element ? element : find_set(represents.at(element));\n }\n\n template <typename E>\n void disjoint_sets<E>::union_set(const E & element1, const E & element2)\n {\n if(!is_same_set(element1, element2))\n {\n represents[find_set(element1)] = find_set(element2);\n elems--;\n }\n }\n\n template <typename E>\n bool disjoint_sets<E>::is_same_set(const E & element1, const E & element2)\n {\n return find_set(element1) == find_set(element2);\n }\n\n template <typename E>\n bool disjoint_sets<E>::is_same_set(const E & element1, const E & element2) const\n {\n return find_set(element1) == find_set(element2);\n }\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.8170731663703918, "alphanum_fraction": 0.8170731663703918, "avg_line_length": 19.5, "blob_id": "d51f3f9544b11419ef37ceee6dba23e8b16a0e95", "content_id": "105abfe7210a69a44843f4f956bf5b304e6e2815", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 82, "license_type": "permissive", "max_line_length": 50, "num_lines": 4, "path": "/README.md", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# AlgoLib\nALGOrithms' LIBrary\n\nLibrary of various algorithms and data structures.\n" }, { "alpha_fraction": 0.7298387289047241, "alphanum_fraction": 0.7540322542190552, "avg_line_length": 19.66666603088379, "blob_id": "a285a4f8f2e069c46284070611cc192a1e522ec2", "content_id": "01e993b57ca1963fc2659d939b8c9059e5692119", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "CMake", "length_bytes": 248, "license_type": "permissive", "max_line_length": 76, "num_lines": 12, "path": "/AlgoLib_Cpp/CMakeLists.txt", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "cmake_minimum_required(VERSION 3.5)\n\n# PROJECT\nproject(algolib VERSION 0.3)\n\n# COMPILER\nset(CMAKE_CXX_STANDARD 11)\nset(CMAKE_CXX_FLAGS \"${CMAKE_CXX_FLAGS} -Wall -Wextra -Wno-unknown-pragmas\")\n\n# OUTPUT\nadd_subdirectory(src)\n#add_subdirectory(test)\n" }, { "alpha_fraction": 0.6100499629974365, "alphanum_fraction": 0.6150455474853516, "avg_line_length": 22.797203063964844, "blob_id": "017b8c4f6ec4ceaf46e5aa0af0e4ae7a8cfef20d", "content_id": "2e6c0857d0f9e02a3fd9ab43e625f09cc890107f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3442, "license_type": "permissive", "max_line_length": 74, "num_lines": 143, "path": "/AlgoLib_Python/algolib/graphs/graph.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"STRUKTURY GRAFÓW\"\"\"\nfrom abc import ABCMeta, abstractmethod\nimport math\n\n\nclass NoSuchVertexException(IndexError):\n pass\n\n\nclass Graph(metaclass=ABCMeta):\n def __init__(self):\n super().__init__()\n\n @property\n def inf(self):\n return math.inf\n\n @property\n @abstractmethod\n def vertices_number(self):\n pass\n\n @abstractmethod\n def get_vertices(self):\n \"\"\":returns: generator wierzchołków\"\"\"\n pass\n\n @abstractmethod\n def add_vertex(self):\n \"\"\"Dodawanie nowego wierzchołka.\n :returns: oznaczenie wierzchołka\"\"\"\n pass\n\n @property\n @abstractmethod\n def edges_number(self):\n pass\n\n @abstractmethod\n def get_edges(self):\n \"\"\":returns: generator krawędzi\"\"\"\n pass\n\n @abstractmethod\n def add_edge(self, vertex1, vertex2):\n \"\"\"Dodawanie nowej krawędzi.\n :param vertex1: początkowy wierzchołek\n :param vertex2: końcowy wierzchołek\"\"\"\n pass\n\n @abstractmethod\n def get_neighbours(self, vertex):\n \"\"\":param vertex: numer wierzchołka\n :returns: generator sąsiadów wierzchołka\"\"\"\n pass\n\n @abstractmethod\n def get_outdegree(self, vertex):\n \"\"\":param vertex: numer wierzchołka\n :returns: stopień wyjściowy wierzchołka\"\"\"\n pass\n\n @abstractmethod\n def get_indegree(self, vertex):\n \"\"\":param vertex: numer wierzchołka\n :returns: stopień wejściowy wierzchołka\"\"\"\n pass\n\n\nclass WeightedGraph(Graph, metaclass=ABCMeta):\n def __init__(self):\n super().__init__()\n\n @abstractmethod\n def get_weighted_edges(self):\n \"\"\":returns: generator krawędzi z wagami\"\"\"\n pass\n\n @abstractmethod\n def add_weighted_edge(self, vertex1, vertex2, weight):\n \"\"\"Dodawanie nowej krawędzi z jej wagą.\n :param vertex1: początkowy wierzchołek\n :param vertex2: końcowy wierzchołek\n :param weight: waga krawędzi\"\"\"\n pass\n\n @abstractmethod\n def get_weighted_neighbours(self, vertex):\n \"\"\":param vertex: numer wierzchołka\n :returns: lista sąsiadów wierzchołka wraz z wagami krawędzi\"\"\"\n pass\n\n\nclass SimpleGraph(Graph, metaclass=ABCMeta):\n # Domyślna waga krawędzi.\n _DEFAULT_WEIGHT = 1.0\n\n def __init__(self, n):\n super().__init__()\n # Lista sąsiedztwa grafu.\n self._graphrepr = [set() for i in range(n)]\n\n @property\n def vertices_number(self):\n return len(self._graphrepr)\n\n def get_vertices(self):\n return (v for v in range(self.vertices_number))\n\n def add_vertex(self):\n self._graphrepr.append(set())\n\n return len(self._graphrepr) - 1\n\n @property\n @abstractmethod\n def edges_number(self):\n pass\n\n @abstractmethod\n def get_edges(self):\n pass\n\n @abstractmethod\n def add_edge(self, vertex1, vertex2):\n pass\n\n def get_neighbours(self, vertex):\n if not 0 <= vertex < self.vertices_number:\n raise NoSuchVertexException(str(vertex))\n\n return (v for v in map(lambda wv: wv[0], self._graphrepr[vertex]))\n\n def get_outdegree(self, vertex):\n if not 0 <= vertex < self.vertices_number:\n raise NoSuchVertexException(str(vertex))\n\n return len(self._graphrepr[vertex])\n\n @abstractmethod\n def get_indegree(self, vertex):\n pass\n" }, { "alpha_fraction": 0.5766710638999939, "alphanum_fraction": 0.5917431116104126, "avg_line_length": 28.921567916870117, "blob_id": "452421dcf79841987e354b649d6790c268079972", "content_id": "b65f9d6f92d28dbd7729aca39b58e0abd6842d09", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1557, "license_type": "permissive", "max_line_length": 71, "num_lines": 51, "path": "/AlgoLib_Python/algolib/kmr.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"SŁOWNIK PODSŁÓW BAZOWYCH Z ALGORYTMEM KARPA-MILLERA-ROSENBERGA\"\"\"\n\n\ndef kmr(text):\n \"\"\"Budowa słownika podsłów bazowych.\n :param text : słowo\n :returns: słownik podsłów bazowych\"\"\"\n factors = _sign_letters(text)\n length = 2\n\n while length <= len(text):\n _double_length(length, text, factors)\n length <<= 1\n\n return factors\n\n\ndef _sign_letters(text):\n \"\"\"Budowa podsłów złożonych z pojedynczych znaków.\n :param text : słowo\n :returns: słownik dla pojedynczych znaków\"\"\"\n factors = {}\n code_value = 0\n letters = sorted(text)\n factors[letters[0]] = code_value\n\n for i, ltr in enumerate(letters[1:], start=1):\n if ltr != letters[i - 1]:\n code_value += 1\n factors[ltr] = code_value\n\n return factors\n\n\ndef _double_length(new_length, text, factors):\n \"\"\"Budowa nowych podsłów o podwojonej długości.\n :param new_length: nowa długość podsłów\n :param text : słowo\n :param factors: słownik podsłów bazowych\"\"\"\n code_value = 0\n codes = sorted([(factors[text[i:i + new_length // 2]],\n factors[text[i + new_length // 2:i + new_length]],\n i) for i in range(len(text) - new_length + 1)])\n factors[text[codes[0][2]:codes[0][2] + new_length]] = code_value\n\n for i, code in enumerate(codes[1:], start=1):\n if code != codes[i - 1]:\n substr = text[code[2]:code[2] + new_length]\n code_value += 1\n factors[substr] = code_value\n" }, { "alpha_fraction": 0.5950040817260742, "alphanum_fraction": 0.5970516204833984, "avg_line_length": 31, "blob_id": "b62b18ebaff2f2812a401a4faf93919d8ad2d0c7", "content_id": "359226fa057fed79acb94f5ada33b2cc48e736e0", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2442, "license_type": "permissive", "max_line_length": 97, "num_lines": 74, "path": "/AlgoLib_Cpp/src/algolib/graphs/topological_sorting.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY SORTOWANIA TOPOLOGICZNEGO\r\n#include \"algolib/graphs/topological_sorting.hpp\"\r\n\r\nnamespace algr = algolib::graphs;\r\n\r\nvoid detail::dfs(vertex_t vertex, vertex_t index, const algr::directed_graph & digraph,\r\n std::vector<vertex_t> & order, std::vector<std::pair<vertex_t, bool>> & indices)\r\n{\r\n indices[vertex] = std::make_pair(index, true);\r\n\r\n for(const auto & neighbour : digraph.get_neighbours(vertex))\r\n if(indices[neighbour].first == digraph.get_vertices_number())\r\n dfs(neighbour, index, digraph, order, indices);\r\n else if(indices[neighbour] == std::make_pair(index, true))\r\n throw algr::directed_cyclic_graph_exception();\r\n\r\n order.push_back(vertex);\r\n indices[vertex].second = false;\r\n}\r\n\r\nstd::vector<vertex_t> algr::sort_topological1(const directed_graph & digraph)\r\n{\r\n std::vector<vertex_t> order;\r\n std::vector<size_t> indegs(digraph.get_vertices_number());\r\n std::priority_queue<vertex_t, std::vector<vertex_t>, std::greater<vertex_t>> vertex_queue;\r\n const std::vector<vertex_t> vertices = digraph.get_vertices();\r\n\r\n std::transform(vertices.begin(), vertices.end(), indegs.begin(),\r\n [&](vertex_t v) { return digraph.get_indegree(v); });\r\n\r\n for(const auto & v : vertices)\r\n if(indegs[v] == 0)\r\n vertex_queue.push(v);\r\n\r\n while(!vertex_queue.empty())\r\n {\r\n vertex_t v = vertex_queue.top();\r\n\r\n vertex_queue.pop();\r\n order.push_back(v);\r\n indegs[v] = -1;\r\n\r\n for(const auto & nb : digraph.get_neighbours(v))\r\n {\r\n --indegs[nb];\r\n\r\n if(indegs[nb] == 0)\r\n vertex_queue.push(nb);\r\n }\r\n }\r\n\r\n if(order.size() != digraph.get_vertices_number())\r\n throw directed_cyclic_graph_exception();\r\n\r\n return order;\r\n}\r\n\r\nstd::vector<vertex_t> algr::sort_topological2(const directed_graph & digraph)\r\n{\r\n std::vector<vertex_t> order;\r\n std::vector<std::pair<vertex_t, bool>> indices(\r\n digraph.get_vertices_number(), std::make_pair(digraph.get_vertices_number(), false));\r\n std::vector<vertex_t> vertices = digraph.get_vertices();\r\n\r\n std::sort(vertices.rbegin(), vertices.rend());\r\n\r\n for(const auto & v : vertices)\r\n if(indices[v].first == digraph.get_vertices_number())\r\n detail::dfs(v, v, digraph, order, indices);\r\n\r\n std::reverse(order.begin(), order.end());\r\n\r\n return order;\r\n}\r\n" }, { "alpha_fraction": 0.5829959511756897, "alphanum_fraction": 0.588394045829773, "avg_line_length": 29.452054977416992, "blob_id": "652043160242544c85645535d5220e7427455cdd", "content_id": "185b6344fe20b9d23ea390b8534edf2379abe697", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2246, "license_type": "permissive", "max_line_length": 96, "num_lines": 73, "path": "/AlgoLib_Cpp/include/algolib/lis.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// NAJMNIEJSZY LEKSYKOGRAFICZNIE NAJDŁUŻSZY PODCIĄG ROSNĄCY\n#ifndef _LIS_HPP_\n#define _LIS_HPP_\n\n#include <cstdlib>\n#include <algorithm>\n#include <vector>\n\nnamespace detail\n{\n /\n Wyszukiwanie miejsca dla elementu\n * @param sequence ciąg wejściowy\n * @param subseq_last końcowe elementy podciągów\n * @param index_begin indeks początku\n * @param index_end indeks końca\n * @param index_elem indeks elementu\n * @return indeks miejsca elementu w tablicy długości\n /\n template <typename T>\n int search(const std::vector<T> & sequence, const std::vector<int> & subseq_last,\n int index_begin, int index_end, int index_elem)\n {\n if(index_begin == index_end)\n return index_begin;\n\n int index_middle = (index_begin + index_end) / 2;\n\n if(sequence[index_elem] > sequence[subseq_last[index_middle]])\n return search(sequence, subseq_last, index_middle + 1, index_end, index_elem);\n else\n return search(sequence, subseq_last, index_begin, index_middle, index_elem);\n }\n}\n\nnamespace algolib\n{\n /\n Wyznaczanie najdłuższego podciągu rosnącego.\n * @param sequence ciąg wejściowy\n * @return najdłuższy podciąg rosnący\n /\n template <typename T>\n std::vector<T> find_lis(const std::vector<T> & sequence)\n {\n std::vector<T> longest_subseq;\n std::vector<int> subseq_last(1, 0);\n std::vector<int> previous_elems(sequence.size(), -1);\n\n for(size_t i = 1; i < sequence.size(); ++i)\n if(sequence[i] > sequence[subseq_last.back()])\n {\n previous_elems[i] = subseq_last.back();\n subseq_last.push_back(i);\n }\n else\n {\n int index = detail::search(sequence, subseq_last, 0, subseq_last.size() - 1, i);\n\n subseq_last[index] = i;\n previous_elems[i] = index > 0 ? subseq_last[index - 1] : -1;\n }\n\n for(int j = subseq_last.back(); j >= 0; j = previous_elems[j])\n longest_subseq.push_back(sequence[j]);\n\n reverse(longest_subseq.begin(), longest_subseq.end());\n\n return longest_subseq;\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.5612388253211975, "alphanum_fraction": 0.5649929642677307, "avg_line_length": 22.163043975830078, "blob_id": "dbc5eb1b4dfd481688ae71790c95ef4a91d279b9", "content_id": "cc8f1b8f42aa4fc5655414fd932e01813d480621", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2131, "license_type": "permissive", "max_line_length": 98, "num_lines": 92, "path": "/AlgoLib_Cpp/src/algolib/graphs/matching.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\n @file matching.cpp\n * ALGORYTM HOPCROFTA-KARPA WYZNACZANIA SKOJARZEŃ W GRAFIE DWUDZIELNYM\n /\n#include \"algolib/graphs/matching.hpp\"\n\nnamespace algr = algolib::graphs;\n\nstd::vector<std::pair<int, int>> algr::match(const multipartite_graph<2> & partgraph)\n{\n detail::match_augmenter augmenter(partgraph);\n\n while(augmenter.augment_match())\n {\n }\n\n std::vector<int> matching = augmenter.get_matching();\n std::vector<std::pair<int, int>> match_pairs;\n\n for(int v : partgraph.get_vertices(1))\n match_pairs.push_back(std::make_pair(v, matching[v]));\n\n return match_pairs;\n}\n\nbool detail::match_augmenter::augment_match()\n{\n bool match_added = false;\n\n distances.resize(graph.get_vertices_number(), algolib::graphs::graph::INF);\n is_visited.resize(graph.get_vertices_number(), false);\n\n bfs();\n\n for(int v : graph.get_vertices(1))\n match_added = dfs(v) \|\| match_added;\n\n return match_added;\n}\n\nvoid detail::match_augmenter::bfs()\n{\n std::queue<int> vertex_queue;\n\n for(int v : graph.get_vertices(1))\n {\n distances[v] = 0.0;\n vertex_queue.push(v);\n }\n\n while(!vertex_queue.empty())\n {\n int v = vertex_queue.front();\n\n vertex_queue.pop();\n\n for(int nb : graph.get_neighbours(v))\n if(matching[nb] != NO_MATCH && distances[matching[nb]] == algolib::graphs::graph::INF)\n {\n distances[matching[nb]] = distances[v] + 1;\n vertex_queue.push(matching[nb]);\n }\n }\n}\n\nbool detail::match_augmenter::dfs(int vertex)\n{\n is_visited[vertex] = true;\n\n for(int neighbour : graph.get_neighbours(vertex))\n if(matching[neighbour] == NO_MATCH)\n {\n matching[vertex] = neighbour;\n matching[neighbour] = vertex;\n\n return true;\n }\n else\n {\n int mtc = matching[neighbour];\n\n if(distances[mtc] == distances[vertex] + 1 && !is_visited[mtc] && dfs(mtc))\n {\n matching[vertex] = neighbour;\n matching[neighbour] = vertex;\n\n return true;\n }\n }\n\n return false;\n}\n" }, { "alpha_fraction": 0.5043269395828247, "alphanum_fraction": 0.5134615302085876, "avg_line_length": 24, "blob_id": "cc3e3712a99dbfc38f203b4a505f02f3118082b0", "content_id": "1b46f1944404e1962f99bca86dc4b3de53c10ed0", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2080, "license_type": "permissive", "max_line_length": 91, "num_lines": 80, "path": "/AlgoLib_Cpp/src/algolib/graphs/dinic.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTM DINICA: MAKSYMALNY PRZEPŁYW\r\n#include \"algolib/graphs/dinic.hpp\"\r\n\r\ndouble dinic_flow_graph::count_flow(int source, int target)\r\n{\r\n double max_flow = 0.0;\r\n bool is_flow_added = true;\r\n\r\n while(is_flow_added)\r\n {\r\n layer_graph.clear();\r\n layer_graph.resize(num_vertex + 1);\r\n is_flow_added = dinic_flow_graph::bfs(source, target);\r\n\r\n if(is_flow_added)\r\n max_flow += dinic_flow_graph::dfs(source, target, INF);\r\n }\r\n\r\n return max_flow;\r\n}\r\n\r\nbool dinic_flow_graph::bfs(int source, int target)\r\n{\r\n std::vector<int> vertex_layer(num_vertex + 1, -1);\r\n std::queue<int> vertex_queue;\r\n\r\n vertex_layer[source] = 0;\r\n vertex_queue.push(source);\r\n\r\n while(!vertex_queue.empty())\r\n {\r\n int v = vertex_queue.front();\r\n\r\n vertex_queue.pop();\r\n\r\n if(v == target)\r\n return true;\r\n\r\n for(size_t i = 0; i < graphrepr[v].size(); ++i)\r\n {\r\n int nb = graphrepr[v][i];\r\n\r\n if(capacities[v][nb] > 0.0)\r\n {\r\n if(vertex_layer[nb] == -1)\r\n {\r\n vertex_layer[nb] = vertex_layer[v] + 1;\r\n vertex_queue.push(nb);\r\n }\r\n\r\n if(vertex_layer[nb] == vertex_layer[v] + 1)\r\n layer_graph[v].push_back(nb);\r\n }\r\n }\r\n }\r\n\r\n return false;\r\n}\r\n\r\ndouble dinic_flow_graph::dfs(int vertex, int target, double blocking_flow)\r\n{\r\n if(vertex == target \|\| blocking_flow == 0.0)\r\n return blocking_flow;\r\n\r\n double new_blocking_flow = 0.0;\r\n\r\n for(size_t i = 0; i < layer_graph[vertex].size() && blocking_flow != 0.0; ++i)\r\n {\r\n int neighbour = layer_graph[vertex][i];\r\n double flow_add =\r\n dfs(neighbour, target, std::min(capacities[vertex][neighbour], blocking_flow));\r\n\r\n blocking_flow -= flow_add;\r\n new_blocking_flow += flow_add;\r\n capacities[vertex][neighbour] -= flow_add;\r\n capacities[neighbour][vertex] += flow_add;\r\n }\r\n\r\n return new_blocking_flow;\r\n}\r\n" }, { "alpha_fraction": 0.6479257345199585, "alphanum_fraction": 0.7003275156021118, "avg_line_length": 22.638710021972656, "blob_id": "33022f4142663f3bde9b0e92b2b291ffccff5c86", "content_id": "f4c94440ddd82e9969c4657a05606002a5a8f88d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 7329, "license_type": "permissive", "max_line_length": 80, "num_lines": 310, "path": "/AlgoLib_Cpp/test/maths_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMÓW MATEMATYCZNYCH\n#include <gtest/gtest.h>\n#include \"algolib/math/maths.hpp\"\n\nnamespace alma = algolib::math;\n\nTEST(MathsTest, testGCDWhenNumbersAreComposite)\n{\n long long int number1 = 161LL;\n long long int number2 = 46LL;\n\n long long int result = alma::gcd(number1, number2);\n\n EXPECT_EQ(23LL, result);\n}\n\nTEST(MathsTest, testGCDWhenNumbersArePrime)\n{\n long long int number1 = 127LL;\n long long int number2 = 41LL;\n\n long long int result = alma::gcd(number1, number2);\n\n EXPECT_EQ(1LL, result);\n}\n\nTEST(MathsTest, testGCDWhenNumbersAreMutuallyPrime)\n{\n long long int number1 = 119LL;\n long long int number2 = 57LL;\n\n long long int result = alma::gcd(number1, number2);\n\n EXPECT_EQ(1LL, result);\n}\n\nTEST(MathsTest, testGCDWhenOneOfNumbersIsMultipleOfAnother)\n{\n long long int number1 = 272LL;\n long long int number2 = 34LL;\n\n long long int result = alma::gcd(number1, number2);\n\n EXPECT_EQ(number2, result);\n}\n\nTEST(MathsTest, testGCDWhenOneOfNumbersIsZero)\n{\n long long int number1 = 96LL;\n long long int number2 = 0LL;\n\n long long int result = alma::gcd(number1, number2);\n\n EXPECT_EQ(number1, result);\n}\n\nTEST(MathsTest, testLCMWhenNumbersAreComposite)\n{\n long long int number1 = 161LL;\n long long int number2 = 46LL;\n\n long long int result = alma::lcm(number1, number2);\n\n EXPECT_EQ(322LL, result);\n}\n\nTEST(MathsTest, testLCMWhenNumbersArePrime)\n{\n long long int number1 = 127LL;\n long long int number2 = 41LL;\n\n long long int result = alma::lcm(number1, number2);\n\n EXPECT_EQ(5207LL, result);\n}\n\nTEST(MathsTest, testLCMWhenNumbersAreMutuallyPrime)\n{\n long long int number1 = 119LL;\n long long int number2 = 57LL;\n\n long long int result = alma::lcm(number1, number2);\n\n EXPECT_EQ(6783LL, result);\n}\n\nTEST(MathsTest, testLCMWhenOneOfNumbersIsMultipleOfAnother)\n{\n long long int number1 = 272LL;\n long long int number2 = 34LL;\n\n long long int result = alma::lcm(number1, number2);\n\n EXPECT_EQ(number1, result);\n}\n\nTEST(MathsTest, testLCMWhenOneOfNumbersIsZero)\n{\n long long int number1 = 96LL;\n long long int number2 = 0LL;\n\n long long int result = alma::lcm(number1, number2);\n\n EXPECT_EQ(number2, result);\n}\n\nTEST(MathsTest, testPowerModWhenBaseIsZero)\n{\n long long int number1 = 0LL;\n long long int number2 = 14LL;\n long long int number3 = 0LL;\n\n long long int result = alma::power_mod(number1, number2, number3);\n\n EXPECT_EQ(number1, result);\n}\n\nTEST(MathsTest, testPowerModWhenExponentIsZero)\n{\n long long int number1 = 14LL;\n long long int number2 = 0LL;\n long long int number3 = 0LL;\n\n long long int result = alma::power_mod(number1, number2, number3);\n\n EXPECT_EQ(1LL, result);\n}\n\nTEST(MathsTest, testPowerModWhenBaseAndExponentAreZero)\n{\n long long int number1 = 0LL;\n long long int number2 = 0LL;\n long long int number3 = 0LL;\n\n EXPECT_THROW(alma::power_mod(number1, number2, number3), std::domain_error);\n}\n\nTEST(MathsTest, testPowerModWhenBaseAndExponentArePositive)\n{\n long long int number1 = 3LL;\n long long int number2 = 10LL;\n long long int number3 = 0LL;\n\n long long int result = alma::power_mod(number1, number2, number3);\n\n EXPECT_EQ(59049LL, result);\n}\n\nTEST(MathsTest, testPowerModWhenBaseIsNegativeAndExponentIsEven)\n{\n long long int number1 = -3LL;\n long long int number2 = 10LL;\n long long int number3 = 0LL;\n\n long long int result = alma::power_mod(number1, number2, number3);\n\n EXPECT_EQ(59049LL, result);\n}\n\nTEST(MathsTest, testPowerModWhenBaseIsNegativeAndExponentIsOdd)\n{\n long long int number1 = -3LL;\n long long int number2 = 9LL;\n long long int number3 = 0LL;\n\n long long int result = alma::power_mod(number1, number2, number3);\n\n EXPECT_EQ(-19683LL, result);\n}\n\nTEST(MathsTest, testPowerModWhenExponentIsNegative)\n{\n long long int number1 = 3LL;\n long long int number2 = -10LL;\n long long int number3 = 0LL;\n\n EXPECT_THROW(alma::power_mod(number1, number2, number3), std::domain_error);\n}\n\nTEST(MathsTest, testPowerModWhenModuloAndBaseArePositive)\n{\n long long int number1 = 5LL;\n long long int number2 = 11LL;\n long long int number3 = 10000LL;\n\n long long int result = alma::power_mod(number1, number2, number3);\n\n EXPECT_EQ(8125LL, result);\n}\n\nTEST(MathsTest, testPowerModWhenModuloIsPositiveAndBaseIsNegative)\n{\n long long int number1 = -5LL;\n long long int number2 = 11LL;\n long long int number3 = 10000LL;\n\n long long int result = alma::power_mod(number1, number2, number3);\n\n EXPECT_EQ(1875LL, result);\n}\n\nTEST(MathsTest, testMultModWhenFactor1IsZero)\n{\n long long int number1 = 0LL;\n long long int number2 = 14LL;\n long long int number3 = 0LL;\n\n long long int result = alma::mult_mod(number1, number2, number3);\n\n EXPECT_EQ(number1, result);\n}\n\nTEST(MathsTest, testPowerModWhenFactor2IsZero)\n{\n long long int number1 = 14LL;\n long long int number2 = 0LL;\n long long int number3 = 0LL;\n\n long long int result = alma::mult_mod(number1, number2, number3);\n\n EXPECT_EQ(number2, result);\n}\n\nTEST(MathsTest, testMultModWhenFactorsAreZero)\n{\n long long int number1 = 0LL;\n long long int number2 = 0LL;\n long long int number3 = 0LL;\n\n long long int result = alma::mult_mod(number1, number2, number3);\n\n EXPECT_EQ(number1, result);\n}\n\nTEST(MathsTest, testMultModWhenFactor1IsNegativeAndFactor2IsPositive)\n{\n long long int number1 = -3LL;\n long long int number2 = 10LL;\n long long int number3 = 0LL;\n\n long long int result = alma::mult_mod(number1, number2, number3);\n\n EXPECT_EQ(-30LL, result);\n}\n\nTEST(MathsTest, testMultModWhenFactor1IsPositiveAndFactor2IsNegative)\n{\n long long int number1 = 3LL;\n long long int number2 = -10LL;\n long long int number3 = 0LL;\n\n long long int result = alma::mult_mod(number1, number2, number3);\n\n EXPECT_EQ(-30LL, result);\n}\n\nTEST(MathsTest, testMultModWhenFactorsAreNegative)\n{\n long long int number1 = -3LL;\n long long int number2 = -10LL;\n long long int number3 = 0LL;\n\n long long int result = alma::mult_mod(number1, number2, number3);\n\n EXPECT_EQ(30LL, result);\n}\n\nTEST(MathsTest, testMultModWhenModuloAndFactorsArePositive)\n{\n long long int number1 = 547LL;\n long long int number2 = 312LL;\n long long int number3 = 10000LL;\n\n long long int result = alma::mult_mod(number1, number2, number3);\n\n EXPECT_EQ(664LL, result);\n}\n\nTEST(MathsTest, testMultModWhenModuloIsPositiveAndFactor1IsNegative)\n{\n long long int number1 = -547LL;\n long long int number2 = 312LL;\n long long int number3 = 10000LL;\n\n long long int result = alma::mult_mod(number1, number2, number3);\n\n EXPECT_EQ(9336LL, result);\n}\n\nTEST(MathsTest, testMultModWhenModuloIsPositiveAndFactor2IsNegative)\n{\n long long int number1 = 547LL;\n long long int number2 = -312LL;\n long long int number3 = 10000LL;\n\n long long int result = alma::mult_mod(number1, number2, number3);\n\n EXPECT_EQ(9336LL, result);\n}\n\nTEST(MathsTest, testMultModWhenModuloIsPositiveAndFactorsAreNegative)\n{\n long long int number1 = -547LL;\n long long int number2 = -312LL;\n long long int number3 = 10000LL;\n\n long long int result = alma::mult_mod(number1, number2, number3);\n\n EXPECT_EQ(664LL, result);\n}\n" }, { "alpha_fraction": 0.5838967561721802, "alphanum_fraction": 0.5848186612129211, "avg_line_length": 27.05172348022461, "blob_id": "809361bf079d972adb30115649faa725a775cd58", "content_id": "165095ef2321d36943abe7e8067308fa18f7ff3c", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 3300, "license_type": "permissive", "max_line_length": 95, "num_lines": 116, "path": "/AlgoLib_Cpp/include/algolib/graphs/cutting.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\n @file cutting.hpp\n * WYSZUKIWANIE MOSTÓW I PUNKTÓW ARTYKULACJI W GRAFIE\n /\n#ifndef _CUTTING_HPP_\n#define _CUTTING_HPP_\n\n#include <cstdlib>\n#include <algorithm>\n#include <vector>\n\n#include \"undirected_graph.hpp\"\n\nnamespace detail\n{\n class graph_cutting\n {\n private:\n /// Reprezentacja grafu nieskierowanego.\n const algolib::graphs::undirected_graph & graph;\n\n /// Ojciec wierzchołka w drzewie DFS.\n std::vector<vertex_t> dfs_parents;\n\n /// Lista synów w drzewie DFS.\n std::vector<std::vector<vertex_t>> dfs_children;\n\n /// Głębokość wierzchołka w drzewie DFS.\n std::vector<int> dfs_depths;\n\n /// Wartości funkcji LOW dla wierzchołków.\n std::vector<int> low_values;\n\n public:\n explicit graph_cutting(const algolib::graphs::undirected_graph & graph) : graph{graph}\n {\n dfs_parents.resize(graph.get_vertices_number(), graph.get_vertices_number());\n dfs_children.resize(graph.get_vertices_number(), std::vector<vertex_t>());\n dfs_depths.resize(graph.get_vertices_number(), -1);\n low_values.resize(graph.get_vertices_number(), -1);\n }\n\n /\n Znajdowanie mostów.\n * @return lista krawędzi będących mostami\n /\n std::vector<edge_t> edge_cut();\n\n /\n Znajdowanie punktów artykulacji.\n * @return lista punktów artykulacji\n /\n std::vector<vertex_t> vertex_cut();\n\n private:\n /\n Sprawdzanie, czy od wierzchołka wychodzi krawędź będąca mostem.\n * @param vertex wierzchołek\n * @return czy wierzchołek incydentny z mostem\n /\n bool has_bridge(vertex_t vertex);\n\n /\n Sprawdzanie, czy wierzchołek jest punktem artykulacji.\n * @param vertex wierzchołek\n * @return czy wierzchołek to punkt artykulacji\n /\n bool is_separator(vertex_t vertex);\n\n /\n Sprawdzanie, czy wierzchołek jest korzeniem drzewa DFS\n * @param vertex wierzchołek\n * @return czy wierzchołek to korzeń\n /\n bool is_dfs_root(vertex_t vertex)\n {\n return dfs_depths[vertex] == 0;\n }\n\n /\n Algorytm DFS wyliczający funkcję LOW.\n * @param vertex aktualny wierzchołek\n * @param parent ojciec wierzchołka\n * @param depth głębokość\n /\n void dfs(vertex_t vertex, vertex_t parent, int depth);\n };\n}\n\nnamespace algolib\n{\n namespace graph\n {\n /\n Wyznaczanie mostów w grafie.\n * @param ugraph graf nieskierowany\n * @return lista krawędzi będących mostami\n /\n std::vector<edge_t> find_edge_cut(const algolib::graphs::undirected_graph & ugraph)\n {\n return detail::graph_cutting(ugraph).edge_cut();\n }\n\n /\n Wyznaczanie punktów artykulacji w grafie.\n * @param ugraph graf nieskierowany\n * @return lista punktów artykulacji\n /\n std::vector<vertex_t> find_vertex_cut(const algolib::graphs::undirected_graph & ugraph)\n {\n return detail::graph_cutting(ugraph).vertex_cut();\n }\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.6779801249504089, "alphanum_fraction": 0.690397322177887, "avg_line_length": 28.463415145874023, "blob_id": "d9338b041bd02c78fe59c65d2f3f452af8d82e0c", "content_id": "3775a2450531af79abe64aba4cad916b2b1cf828", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1228, "license_type": "permissive", "max_line_length": 66, "num_lines": 41, "path": "/AlgoLib_Python/algolib/two_sat.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"SPEŁNIALNOŚĆ FORMUŁ 2-CNF\"\"\"\nfrom .graphs import DirectedSimpleGraph\n\n\ndef is_satisfiable(formula):\n \"\"\"Sprawdzanie spełnialności formuły 2-CNF.\n :param formula: lista klauzul\n :returns: czy formuła spełnialna\"\"\"\n digraph = _make_graph(formula)\n\n # TODO algorytm 2sat i silnie spójne składowe\n\n return False\n\n\ndef _make_graph(formula):\n \"\"\"Wyznaczanie grafu implikacji formuły 2-CNF.\n :param formula: lista klauzul\n :returns: skierowany graf implikacji\"\"\"\n digraph = DirectedSimpleGraph(2 _count_variables(formula))\n\n for clause in formula:\n digraph.add_edge(_vertex(-clause[0]), _vertex(clause[1]))\n digraph.add_edge(_vertex(-clause[1]), _vertex(clause[0]))\n\n return digraph\n\n\ndef _count_variables(formula):\n \"\"\"Wyliczanie liczby zmiennych występujących w formule.\n :param formula: lista klauzul\n :returns: liczba zmiennych\"\"\"\n return max({abs(var) for clause in formula for var in clause})\n\n\ndef _vertex(literal):\n \"\"\"Wyliczanie numeru wierzchołka literału.\n :param literal: literał\n :returns: numer wierzchołka odpowiadający literałowi\"\"\"\n return 2 * literal - 2 if literal > 0 else 2 * (-literal) - 1\n" }, { "alpha_fraction": 0.6158221364021301, "alphanum_fraction": 0.631851077079773, "avg_line_length": 27.75384521484375, "blob_id": "a0a8f94dd6e381a957c711184c8da646f708c0cb", "content_id": "4d14b947499a362937d554d97c94a5ceef297ca1", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1939, "license_type": "permissive", "max_line_length": 88, "num_lines": 65, "path": "/AlgoLib_Cpp/src/algolib/graphs/lca.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// NAJNIŻSZY WSPÓLNY PRZODEK DWÓCH WIERZCHOŁKÓW W DRZEWIE\r\n#include \"algolib/graphs/lca.hpp\"\r\n\r\nnamespace algr = algolib::graphs;\r\n\r\nconstexpr int detail::lca_finder::NO_TIME;\r\n\r\nint detail::lca_finder::search_lca(int vertex1, int vertex2, int root)\r\n{\r\n dfs(root, root, 0);\r\n\r\n for(int i = 0; i < log(graph.get_vertices_number()) / log(2) + 3; ++i)\r\n for(int v : graph.get_vertices())\r\n if(!paths[v].empty())\r\n paths[v].push_back(paths[paths[v][i]][i]);\r\n\r\n return search(vertex1, vertex2);\r\n}\r\n\r\nint detail::lca_finder::search(int vertex1, int vertex2)\r\n{\r\n if(is_offspring(vertex1, vertex2))\r\n return vertex2;\r\n\r\n if(is_offspring(vertex2, vertex1))\r\n return vertex1;\r\n\r\n std::vector<int> candidates = paths[vertex1];\r\n\r\n std::reverse(candidates.begin(), candidates.end());\r\n\r\n for(int candidate : candidates)\r\n if(!is_offspring(vertex2, candidate))\r\n return search(candidate, vertex2);\r\n\r\n return search(paths[vertex1][0], vertex2);\r\n}\r\n\r\nint detail::lca_finder::dfs(int vertex, int parent, int timer)\r\n{\r\n pre_post_times[vertex].first = timer;\r\n paths[vertex].push_back(parent);\r\n ++timer;\r\n\r\n for(int neighbour : graph.get_neighbours(vertex))\r\n if(pre_post_times[neighbour].first == NO_TIME)\r\n timer = dfs(neighbour, vertex, timer);\r\n\r\n pre_post_times[vertex].second = timer;\r\n\r\n return timer + 1;\r\n}\r\n\r\nint algr::find_lca(const forest_graph & treegraph, int vertex1, int vertex2, int root)\r\n{\r\n if(!treegraph.is_same_tree(vertex1, vertex2))\r\n throw std::invalid_argument(\"Vertices are not in the same tree.\");\r\n\r\n if(!treegraph.is_same_tree(vertex1, root) \|\| !treegraph.is_same_tree(vertex2, root))\r\n throw std::invalid_argument(\"Root vertex does not belong to the tree.\");\r\n\r\n detail::lca_finder finder(treegraph);\r\n\r\n return finder.search_lca(vertex1, vertex2, root);\r\n}\r\n" }, { "alpha_fraction": 0.5715129971504211, "alphanum_fraction": 0.5715129971504211, "avg_line_length": 22.178081512451172, "blob_id": "b342b9b91bffabe34c2c8cc4f38d71c1a214ba88", "content_id": "037e1e747fdbf893a12e0174f28649116a560594", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1692, "license_type": "permissive", "max_line_length": 95, "num_lines": 73, "path": "/AlgoLib_Cpp/src/algolib/graphs/searching.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY PRZESZUKIWANIA GRAFU\n#include \"algolib/graphs/searching.hpp\"\n\nnamespace algr = algolib::graphs;\n\nvoid detail::dfsR_step(const algr::graph & gr, vertex_t vertex, std::vector<bool> & is_visited)\n{\n is_visited[vertex] = true;\n\n for(const auto & neighbour : gr.get_neighbours(vertex))\n if(!is_visited[neighbour])\n dfsR_step(gr, neighbour, is_visited);\n}\n\nstd::vector<bool> algr::bfs(const graph & gr, vertex_t root)\n{\n std::vector<bool> is_visited(gr.get_vertices_number(), false);\n std::queue<vertex_t> vertex_queue;\n\n vertex_queue.push(root);\n is_visited[root] = true;\n\n while(!vertex_queue.empty())\n {\n vertex_t v = vertex_queue.front();\n\n vertex_queue.pop();\n\n for(const auto & nb : gr.get_neighbours(v))\n if(!is_visited[nb])\n {\n is_visited[nb] = true;\n vertex_queue.push(nb);\n }\n }\n\n return is_visited;\n}\n\nstd::vector<bool> algr::dfsI(const graph & gr, vertex_t root)\n{\n std::vector<bool> is_visited(gr.get_vertices_number(), false);\n std::stack<vertex_t> vertex_stack;\n\n vertex_stack.push(root);\n\n while(!vertex_stack.empty())\n {\n vertex_t v = vertex_stack.top();\n\n vertex_stack.pop();\n\n if(!is_visited[v])\n {\n is_visited[v] = true;\n\n for(const auto & nb : gr.get_neighbours(v))\n if(!is_visited[nb])\n vertex_stack.push(nb);\n }\n }\n\n return is_visited;\n}\n\nstd::vector<bool> algr::dfsR(const graph & gr, vertex_t root)\n{\n std::vector<bool> is_visited(gr.get_vertices_number(), false);\n\n detail::dfsR_step(gr, root, is_visited);\n\n return is_visited;\n}\n" }, { "alpha_fraction": 0.637319803237915, "alphanum_fraction": 0.6453707218170166, "avg_line_length": 30.052419662475586, "blob_id": "80c27440e3c1b82b131599fa603d7ca073870e12", "content_id": "214bd22d9beb4a12c0ab5a16e31d8d3051b50896", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 7749, "license_type": "permissive", "max_line_length": 93, "num_lines": 248, "path": "/AlgoLib_Python/algolib/sorting.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"ALGORYTMY SORTOWANIA\"\"\"\nfrom math import atan2, pi\nfrom random import randint\n\n\ndef angle_sorted(points):\n \"\"\"Niemutowalne sortowanie kątowe punktów na płaszczyźnie.\n :param points: ciąg punktów\n :returns: lista punktów posortowana względem kąta\"\"\"\n points_list = list(points)\n\n points_list.sort(key=lambda xy: (\n (atan2(xy[1], xy[0]) * 180.0 / pi) % 360.0, xy[0] 2 + xy[1] 2))\n\n return points_list\n\n\ndef heap_sorted(sequence, index_begin=0, index_end=None):\n \"\"\"Niemutowalne sortowanie ciągu przez kopcowanie.\n :param sequence: ciąg\n :param index_begin: początkowy indeks ciągu\n :param index_end: końcowy indeks ciągu\n :returns: lista posortowanych elementów\"\"\"\n sequence_list = list(sequence)\n\n if sequence_list == []:\n return []\n\n if index_end is None:\n index_end = len(sequence_list)\n\n if abs(index_begin) > len(sequence_list):\n raise IndexError(\"List beginning index out of range.\")\n\n if abs(index_end) > len(sequence_list):\n raise IndexError(\"List ending index out of range.\")\n\n if index_end < len(sequence_list):\n index_end %= len(sequence_list)\n\n index_begin %= len(sequence_list)\n heap_size = index_end - index_begin\n\n for i in range(index_begin + heap_size // 2, index_begin - 1, -1):\n _move_down(sequence_list, i, index_begin, index_end)\n\n while heap_size > 1:\n index_heap = index_begin + heap_size - 1\n sequence_list[index_heap], sequence_list[index_begin] = \\\n sequence_list[index_begin], sequence_list[index_heap]\n _move_down(sequence_list, index_begin, index_begin, index_heap)\n heap_size -= 1\n\n return sequence_list\n\n\ndef _move_down(heap, vertex, index_begin, index_end):\n \"\"\"Przywracanie własności kopca.\n :param heap: kopiec\n :param vertex: wierzchołek kopca\n :param index_begin: początkowy indeks kopca\n :param index_end: końcowy indeks kopca\"\"\"\n next_vertex = None\n left_vertex = vertex + vertex - index_begin + 1\n right_vertex = vertex + vertex - index_begin + 2\n\n if right_vertex < index_end:\n next_vertex = left_vertex if heap[right_vertex] < heap[left_vertex] else right_vertex\n\n if left_vertex == index_end - 1:\n next_vertex = left_vertex\n\n if next_vertex is None:\n return\n\n if heap[next_vertex] > heap[vertex]:\n heap[next_vertex], heap[vertex] = heap[vertex], heap[next_vertex]\n\n _move_down(heap, next_vertex, index_begin, index_end)\n\n\ndef mergedown_sorted(sequence, index_begin=0, index_end=None):\n \"\"\"Niemutowalne sortowanie ciągu przez scalanie top-down.\n :param sequence: ciąg\n :param index_begin: początkowy indeks ciągu\n :param index_end: końcowy indeks ciągu\n :returns: lista posortowanych elementów\"\"\"\n sequence_list = list(sequence)\n\n if sequence_list == []:\n return []\n\n if index_end is None:\n index_end = len(sequence_list)\n\n if abs(index_begin) > len(sequence_list):\n raise IndexError(\"Sequence beginning index out of range.\")\n\n if abs(index_end) > len(sequence_list):\n raise IndexError(\"Sequence ending index out of range.\")\n\n if index_end < len(sequence_list):\n index_end %= len(sequence_list)\n\n index_begin %= len(sequence_list)\n\n _merge_sort(sequence_list, index_begin, index_end)\n\n return sequence_list\n\n\ndef _merge_sort(sequence, index_begin, index_end):\n \"\"\"Mutowalne sortowanie listy przez scalanie top-down.\n :param sequence: lista\n :param index_begin: początkowy indeks listy\n :param index_end: końcowy indeks listy\"\"\"\n if index_end - index_begin <= 1:\n return\n\n index_middle = (index_begin + index_end) // 2\n _merge_sort(sequence, index_begin, index_middle)\n _merge_sort(sequence, index_middle, index_end)\n _merge(sequence, index_begin, index_middle, index_end)\n\n\ndef mergeup_sorted(sequence, index_begin=0, index_end=None):\n \"\"\"Niemutowalne sortowanie listy przez scalanie bottom-up.\n :param seq: ciąg\n :param index_begin: początkowy indeks listy\n :param index_end: końcowy indeks listy\n :returns: lista posortowanych elementów\"\"\"\n sequence_list = list(sequence)\n\n if sequence_list == []:\n return []\n\n if index_end is None:\n index_end = len(sequence_list)\n\n if abs(index_begin) > len(sequence_list):\n raise IndexError(\"Sequence beginning index out of range.\")\n\n if abs(index_end) > len(sequence_list):\n raise IndexError(\"Sequence ending index out of range.\")\n\n if index_end < len(sequence_list):\n index_end %= len(sequence_list)\n\n index_begin %= len(sequence_list)\n\n i = 2\n\n while i < 2 * (index_end - index_begin):\n for j in range(index_begin, index_end, i):\n _merge(sequence_list, j, min(j + i // 2, index_end), min(j + i, index_end))\n\n i = 2\n\n return sequence_list\n\n\ndef _merge(sequence, index_begin, index_middle, index_end):\n \"\"\"Scalanie dwóch uporządkowanych fragmentów listy.\n :param sequence: lista\n :param index_begin: początek fragmentu\n :param index_middle: środek fragmentu\n :param index_end: koniec fragmentu\"\"\"\n ordered = []\n iter1 = index_begin\n iter2 = index_middle\n\n while iter1 < index_middle and iter2 < index_end:\n print(index_begin, index_middle, index_end, iter1, iter2)\n\n if sequence[iter1] < sequence[iter2]:\n ordered.append(sequence[iter1])\n iter1 += 1\n else:\n ordered.append(sequence[iter2])\n iter2 += 1\n\n ordered += sequence[iter1:index_middle]\n ordered += sequence[iter2:index_end]\n\n print(ordered)\n\n sequence[index_begin:index_begin + len(ordered)] = ordered\n\n\ndef quick_sorted(sequence, index_begin=0, index_end=None):\n \"\"\"Niemutowalne szybkie sortowanie ciągu.\n :param sequence: ciąg\n :param index_begin: początkowy indeks ciągu\n :param index_end: końcowy indeks ciągu\n :returns: lista posortowanych elementów\"\"\"\n sequence_list = list(sequence)\n\n if sequence_list == []:\n return []\n\n if index_end is None:\n index_end = len(sequence_list)\n\n if abs(index_begin) > len(sequence_list):\n raise IndexError(\"List beginning index out of range.\")\n\n if abs(index_end) > len(sequence_list):\n raise IndexError(\"List ending index out of range.\")\n\n if index_end < len(sequence_list):\n index_end %= len(sequence_list)\n\n index_begin %= len(sequence_list)\n\n _quick_sort(sequence_list, index_begin, index_end)\n\n return sequence_list\n\n\ndef _quick_sort(sequence, index_begin, index_end):\n \"\"\"Mutowalne szybkie sortowanie listy.\n :param sequence: lista\n :param index_begin: początkowy indeks listy\n :param index_end: końcowy indeks listy\"\"\"\n if index_end - index_begin <= 1:\n return\n\n index_pivot = index_begin\n index_front = index_begin + 1\n index_back = index_end - 1\n rdpv = sorted([randint(index_begin, index_end - 1), randint(index_begin, index_end - 1),\n randint(index_begin, index_end - 1)])[1]\n sequence[index_pivot], sequence[rdpv] = sequence[rdpv], sequence[index_pivot]\n\n while index_pivot < index_back:\n if sequence[index_front] < sequence[index_pivot]:\n sequence[index_pivot], sequence[index_front] = \\\n sequence[index_front], sequence[index_pivot]\n index_pivot = index_front\n index_front += 1\n else:\n sequence[index_front], sequence[index_back] = \\\n sequence[index_back], sequence[index_front]\n index_back -= 1\n\n _quick_sort(sequence, index_begin, index_pivot)\n _quick_sort(sequence, index_pivot + 1, index_end)\n" }, { "alpha_fraction": 0.5955678820610046, "alphanum_fraction": 0.6001846790313721, "avg_line_length": 25.414634704589844, "blob_id": "69cca5b7c8af8d23b29521d28b258a7853a5ff9b", "content_id": "dabd6ecfeef48d972575ee3b5c4c53d17e2fd102", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 1083, "license_type": "permissive", "max_line_length": 99, "num_lines": 41, "path": "/AlgoLib_Java/src/refhumbold/algolib/tuples/ComparablePair.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// PORÓWNYWALNA PARA\npackage refhumbold.algolib.tuples;\n\npublic final class ComparablePair<F extends Comparable<? super F>, S extends Comparable<? super S>>\n extends Pair<F, S>\n implements Comparable<Pair<F, S>>\n{\n public ComparablePair(F first, S second)\n {\n super(first, second);\n }\n\n public static <F extends Comparable<F>, S extends Comparable<S>> ComparablePair<F, S> make(\n F first, S second)\n {\n return new ComparablePair<>(first, second);\n }\n\n public static <F extends Comparable<F>, S extends Comparable<S>> ComparablePair<F, S> from(\n Pair<F, S> pair)\n {\n return new ComparablePair<>(pair.first, pair.second);\n }\n\n @Override\n public int compareTo(Pair<F, S> p)\n {\n if(this.first == null)\n return p.first == null ? 0 : -1;\n\n int comparedFirst = this.first.compareTo(p.first);\n\n if(comparedFirst != 0)\n return comparedFirst;\n\n if(this.second == null)\n return p.getSecond() == null ? 0 : -1;\n\n return this.second.compareTo(p.second);\n }\n}\n" }, { "alpha_fraction": 0.5932878255844116, "alphanum_fraction": 0.5961319804191589, "avg_line_length": 31.55555534362793, "blob_id": "d51d2f9b8c65f181b80f91e45ca9f790033a6138", "content_id": "4260142dc4d0daa4772a6810bdfc788052571fa2", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 3517, "license_type": "permissive", "max_line_length": 100, "num_lines": 108, "path": "/AlgoLib_Cpp/include/algolib/graphs/directed_graph.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\n @file directed_graph.hpp\n * STRUKTURY GRAFÓW SKIEROWANYCH\n /\n#ifndef _DIRECTED_GRAPH_HPP_\n#define _DIRECTED_GRAPH_HPP_\n\n#include <cstdlib>\n#include <exception>\n#include <stdexcept>\n#include <algorithm>\n#include <numeric>\n#include <set>\n#include <tuple>\n#include <vector>\n\n#include \"graph.hpp\"\n\nnamespace algolib\n{\n namespace graphs\n {\n#pragma region directed_graph\n\n class directed_graph : public virtual graph\n {\n public:\n directed_graph() = default;\n virtual ~directed_graph() = default;\n directed_graph(const directed_graph &) = default;\n directed_graph(directed_graph &&) = default;\n directed_graph & operator=(const directed_graph &) = default;\n directed_graph & operator=(directed_graph &&) = default;\n\n /// Odwracanie skierowania grafu.\n virtual void reverse() = 0;\n };\n\n#pragma endregion\n#pragma region directed_graph\n\n class directed_simple_graph : public simple_graph, public directed_graph\n {\n public:\n explicit directed_simple_graph(int n, std::vector<edge_t> edges = std::vector<edge_t>())\n : simple_graph(n)\n {\n for(const auto & e : edges)\n add_edge(std::get<0>(e), std::get<1>(e));\n }\n\n virtual ~directed_simple_graph() = default;\n directed_simple_graph(const directed_simple_graph &) = default;\n directed_simple_graph(directed_simple_graph &&) = default;\n directed_simple_graph & operator=(const directed_simple_graph &) = default;\n directed_simple_graph & operator=(directed_simple_graph &&) = default;\n\n size_t get_edges_number() const override;\n\n std::vector<edge_t> get_edges() const override;\n\n void add_edge(vertex_t vertex1, vertex_t vertex2) override;\n\n size_t get_indegree(vertex_t vertex) const override;\n\n virtual void reverse() override;\n };\n\n#pragma endregion\n#pragma region directed_weighted_simple_graph\n\n class directed_weighted_simple_graph : public directed_simple_graph, public weighted_graph\n {\n public:\n explicit directed_weighted_simple_graph(\n int n, std::vector<edge_t> edges = std::vector<edge_t>())\n : directed_simple_graph(n, edges)\n {\n }\n\n directed_weighted_simple_graph(int n, std::vector<wedge_t> edges)\n : directed_simple_graph(n)\n {\n for(const auto & e : edges)\n add_weighted_edge(std::get<0>(e), std::get<1>(e), std::get<2>(e));\n }\n\n virtual ~directed_weighted_simple_graph() = default;\n directed_weighted_simple_graph(const directed_weighted_simple_graph &) = default;\n directed_weighted_simple_graph(directed_weighted_simple_graph &&) = default;\n directed_weighted_simple_graph &\n operator=(const directed_weighted_simple_graph &) = default;\n directed_weighted_simple_graph & operator=(directed_weighted_simple_graph &&) = default;\n\n std::vector<wedge_t> get_weighted_edges() const override;\n\n void add_weighted_edge(vertex_t vertex1, vertex_t vertex2, weight_t weight) override;\n\n std::vector<wvertex_t> get_weighted_neighbours(vertex_t vertex) const override;\n\n void reverse() override;\n };\n\n#pragma endregion\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.5409893989562988, "alphanum_fraction": 0.5438162684440613, "avg_line_length": 29.7608699798584, "blob_id": "ded148d1eb9d5226622874480a1792ccfe39cf78", "content_id": "2d8615ffeac2ca685c715e5407dcdf33e915052c", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 11451, "license_type": "permissive", "max_line_length": 90, "num_lines": 368, "path": "/AlgoLib_Python/algolib/structures/avl_tree.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"DRZEWO AVL\"\"\"\n\n\nclass AVLTree:\n class _AVLNode:\n def __init__(self, element):\n # Wartość w węźle.\n self.__element = element\n # Wysokość węzła.\n self.__height = 1\n # Lewy syn węzła.\n self.__left = None\n # Prawy syn węzła.\n self.__right = None\n # Ojciec węzła.\n self.__parent = None\n\n @property\n def element(self):\n return self.__element\n\n @element.setter\n def element(self, element):\n self.__element = element\n\n @property\n def height(self):\n return self.__height\n\n @property\n def left(self):\n return self.__left\n\n @left.setter\n def left(self, node):\n self.__left = node\n\n if self.__left is not None:\n self.__left.parent = self\n\n self.count_height()\n\n @property\n def right(self):\n return self.__right\n\n @right.setter\n def right(self, node):\n self.__right = node\n\n if self.__right is not None:\n self.__right.parent = self\n\n self.count_height()\n\n @property\n def parent(self):\n return self.__parent\n\n @parent.setter\n def parent(self, node):\n self.__parent = node\n\n def is_left_son(self):\n \"\"\":returns: czy węzeł to lewy syn\"\"\"\n return self.parent is not None and self.parent.left is self\n\n def is_right_son(self):\n \"\"\":returns: czy węzeł to prawy syn\"\"\"\n return self.parent is not None and self.parent.right is self\n\n def count_height(self):\n \"\"\"Wyliczanie wysokość wierzchołka.\"\"\"\n left_height = 0 if self.__left is None else self.__left.height\n right_height = 0 if self.__right is None else self.__right.height\n\n self.__height = max(left_height, right_height) + 1\n\n def minimum(self):\n \"\"\"Wyszukiwanie minimum w swoim poddrzewie.\n :returns: węzeł z minimalną wartością w poddrzewie\"\"\"\n return self if self.__left is None else self.__left.minimum()\n\n def maximum(self):\n \"\"\"Wyszukiwanie maksimum w swoim poddrzewie.\n :returns: węzeł z maksymalną wartością w poddrzewie\"\"\"\n return self if self.__right is None else self.__right.maximum()\n\n class _AVLIterator:\n def __init__(self, node):\n # Aktualny węzeł.\n self._current_node = node\n\n def __next__(self):\n pass\n\n def _successor(self, node):\n \"\"\"Wyznaczanie następnika węzła w drzewie.\n :param node: węzeł\n :returns: wezeł z następną wartością\"\"\"\n succ = node\n\n if succ.right is not None:\n return succ.right.minimum()\n\n while succ is not None and not succ.is_left_son():\n succ = succ.parent\n\n return succ if succ is None else succ.parent\n\n def _predecessor(self, node):\n \"\"\"Wyznaczanie poprzednika węzła w drzewie.\n :param node: węzeł\n :returns: wezeł z poprzednią wartością\"\"\"\n pred = node\n\n if pred.left is not None:\n return pred.left.maximum()\n\n while pred is not None and not pred.is_right_son():\n pred = pred.parent\n\n return pred if pred is None else pred.parent\n\n class _AVLSuccIterator(_AVLIterator):\n def __init__(self, node):\n super().__init__(node)\n\n def __next__(self):\n if self._current_node is None:\n raise StopIteration\n\n ret_elem = self._current_node.element\n self._current_node = self._successor(self._current_node)\n\n return ret_elem\n\n class _AVLPredIterator(_AVLIterator):\n def __init__(self, node):\n super().__init__(node)\n\n def __next__(self):\n if self._current_node is None:\n raise StopIteration\n\n ret_elem = self._current_node.element\n self._current_node = self._predecessor(self._current_node)\n\n return ret_elem\n\n def __init__(self, iterable=None):\n # Korzeń drzewa.\n self.__tree = None\n # Liczba elementów drzewa.\n self.__elems = 0\n\n if iterable is not None:\n for i in iterable:\n self.add(i)\n\n def __str__(self):\n \"\"\":returns: tekstowa reprezentacja drzewa elementów\"\"\"\n return \"{\|\" + \", \".join(map(str, self)) + \"\|}\"\n\n def __iter__(self):\n \"\"\":returns: obiekt iteratora\"\"\"\n return self._AVLSuccIterator(self.__root.minimum())\n\n def __reversed__(self):\n \"\"\":returns: obiekt odwróconego iteratora\"\"\"\n return self._AVLPredIterator(self.__root.maximum())\n\n def __len__(self):\n \"\"\":returns: liczba elemenów drzewa\"\"\"\n return self.__elems\n\n def __contains__(self, element):\n \"\"\":param element: wartość do znalezienia\n :returns: czy wartość w drzewie\"\"\"\n if self.empty():\n return False\n\n node_parent = self.__find_node_parent(element)\n\n return node_parent is None or self.__get_subtree(node_parent, element) is not None\n\n def empty(self):\n \"\"\":returns: czy drzewo jest puste\"\"\"\n return self.__elems == 0\n\n def add(self, element):\n \"\"\"Dodawanie elementu do drzewa.\n :param element: wartość do dodania\n :returns: czy dodano nowy element\"\"\"\n node_parent = self.__find_node_parent(element)\n the_node = self.__root if node_parent is None \\\n else self.__get_subtree(node_parent, element)\n\n if the_node is not None:\n return False\n\n new_node = AVLTree._AVLNode(element)\n\n if node_parent is not None:\n if element < node_parent.element:\n node_parent.left = new_node\n else:\n node_parent.right = new_node\n\n self.__balance(new_node)\n else:\n self.__root = new_node\n\n self.__elems += 1\n\n return True\n\n def remove(self, element):\n \"\"\"Usuwanie elementu z drzewa.\n :param element: wartość do usunięcia\n :returns: czy element został usunięty\"\"\"\n node_parent = self.__find_node_parent(element)\n the_node = self.__root if node_parent is None \\\n else self.__get_subtree(node_parent, element)\n\n if the_node is None:\n return False\n\n if node_parent is None:\n self.__delete_root(the_node)\n else:\n self.__delete_node(the_node)\n\n return True\n\n def clear(self):\n \"\"\"Usuwanie wszystkich elementów z drzewa.\"\"\"\n self.__root = None\n self.__elems = 0\n\n @property\n def __root(self):\n \"\"\":returns: wewnętrzny korzeń drzewa\"\"\"\n return self.__tree\n\n @__root.setter\n def __root(self, node):\n \"\"\":param node: węzeł, który zostanie wewnętrznym korzeniem\"\"\"\n self.__tree = node\n\n if node is not None:\n self.__tree.parent = None\n\n def __is_root(self, node):\n \"\"\":param node: węzeł\n :returns: czy węzeł to korzeń\"\"\"\n return node.parent is None\n\n def __get_subtree(self, node, element):\n \"\"\"Wyznaczanie poddrzewa, w którym mógłby znależć się element.\n :param node: węzeł\n :param element: element\n :returns: korzeń poddrzewa, w którym znalazłby się element\"\"\"\n if element == node.element:\n return node\n elif element < node.element:\n return node.left\n else:\n return node.right\n\n def __find_node_parent(self, element):\n \"\"\"Wyszukiwanie ojca węzła z daną wartością.\n :param element: wartość do znalezienia\n :returns: ojciec węzła z wartością\"\"\"\n tree_iter = self.__root\n iter_parent = None\n\n while tree_iter is not None and tree_iter.element != element:\n iter_parent = tree_iter\n tree_iter = self.__get_subtree(tree_iter, element)\n\n return iter_parent\n\n def __delete_root(self, root):\n \"\"\"Usuwanie elementu z korzenia drzewa.\n :param root: korzeń drzewa\"\"\"\n if root.left is not None and root.right is not None:\n self.__delete_node(root)\n else:\n new_root = root.left if root.left is not None else root.right\n self.__root = new_root\n self.__elems -= 1\n\n def __delete_node(self, node):\n \"\"\"Usuwanie elementu z węzła wewnętrznego drzewa.\n :param node: węzeł do usunięcia\"\"\"\n if node.left is not None and node.right is not None:\n succ = node.right.minimum()\n succ.element, node.element = node.element, succ.element\n self.__delete_node(succ)\n else:\n son = node.left if node.left is not None else node.right\n node_parent = node.parent\n\n self.__replace_subtree(node, son)\n self.__balance(node_parent)\n self.__elems -= 1\n\n def __replace_subtree(self, node1, node2):\n \"\"\"Zamiana poddrzewa ukorzenionego w danym węźle.\n :param node1: węzeł do zamiany\n :param node2: korzeń nowego poddrzewa\"\"\"\n if self.__is_root(node1):\n self.__root = node2\n elif node1.is_left_son():\n node1.parent.left = node2\n elif node1.is_right_son():\n node1.parent.right = node2\n\n node1.parent = None\n\n def __rotate(self, node):\n \"\"\"Rotowanie węzła wzdłuż krawędzi z jego ojcem.\n :param node: węzeł do rotacji\"\"\"\n if self.__is_root(node):\n return\n\n upper_node = node.parent\n\n if node.is_right_son():\n upper_node.right = node.left\n self.__replace_subtree(upper_node, node)\n node.left = upper_node\n elif node.is_left_son():\n upper_node.left = node.right\n self.__replace_subtree(upper_node, node)\n node.right = upper_node\n\n def __balance(self, node):\n \"\"\"Przywracanie balansowania na ścieżce od wierzchołka do korzenia.\n :param node: wierzchołek początkowy\"\"\"\n while node is not None:\n node.count_height()\n\n if self.__count_balance(node) >= 2:\n if self.__count_balance(node.left) > 0:\n self.__rotate(node.left)\n elif self.__count_balance(node.left) < 0:\n self.__rotate(node.left.right)\n self.__rotate(node.left)\n elif self.__count_balance(node) <= -2:\n if self.__count_balance(node.right) < 0:\n self.__rotate(node.right)\n elif self.__count_balance(node.right) > 0:\n self.__rotate(node.right.left)\n self.__rotate(node.right)\n\n node = node.parent\n\n def __count_balance(self, node):\n \"\"\"Wyliczanie balansu wierzchołka.\n :param node: węzeł\n :returns: wartość balansu\"\"\"\n left_height = 0 if node.left is None else node.left.height\n right_height = 0 if node.right is None else node.right.height\n\n return left_height - right_height\n" }, { "alpha_fraction": 0.603420615196228, "alphanum_fraction": 0.6044895648956299, "avg_line_length": 26.34848403930664, "blob_id": "35a0cff86c3d7501b158fb92e304304e9938080f", "content_id": "c44497ed12319c27b80b0b0d06e9f0ce52b0eb89", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1887, "license_type": "permissive", "max_line_length": 94, "num_lines": 66, "path": "/AlgoLib_Cpp/include/algolib/graphs/topological_sorting.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\r\n @file topological_sorting.hpp\r\n * ALGORYTMY SORTOWANIA TOPOLOGICZNEGO\r\n /\r\n#ifndef _TOPOLOGICAL_SORTING_HPP_\r\n#define _TOPOLOGICAL_SORTING_HPP_\r\n\r\n#include <cstdlib>\r\n#include <exception>\r\n#include <stdexcept>\r\n#include <algorithm>\r\n#include <functional>\r\n#include <queue>\r\n#include <string>\r\n#include <vector>\r\n\r\n#include \"directed_graph.hpp\"\r\n\r\nnamespace detail\r\n{\r\n /\r\n Algorytm DFS wyznaczający kolejność wierzchołków.\r\n * @param vertex aktualny wierzchołek\r\n * @param digraph graf skierowany\r\n * @param order aktualny porządek topologiczny\r\n * @param visited czy wierzchołek odwiedzony\r\n /\r\n void dfs(vertex_t vertex, vertex_t index, const algolib::graphs::directed_graph & digraph,\r\n std::vector<vertex_t> & order, std::vector<std::pair<vertex_t, bool>> & indices);\r\n}\r\n\r\nnamespace algolib\r\n{\r\n namespace graphs\r\n {\r\n class directed_cyclic_graph_exception : public std::logic_error\r\n {\r\n public:\r\n explicit directed_cyclic_graph_exception(const std::string & what_arg)\r\n : std::logic_error(what_arg)\r\n {\r\n }\r\n\r\n explicit directed_cyclic_graph_exception(const char what_arg = \"\")\r\n : std::logic_error(what_arg)\r\n {\r\n }\r\n };\r\n\r\n /*\r\n Sortowanie topologiczne przez liczenie poprzedników.\r\n * @param digraph graf skierowany\r\n * @return porządek topologiczny wierzchołków\r\n /\r\n std::vector<vertex_t> sort_topological1(const directed_graph & digraph);\r\n\r\n /\r\n Sortowanie topologiczne z użyciem DFS.\r\n * @param digraph graf skierowany\r\n * @return porządek topologiczny wierzchołków\r\n /\r\n std::vector<vertex_t> sort_topological2(const directed_graph & digraph);\r\n }\r\n};\r\n\r\n#endif\r\n" }, { "alpha_fraction": 0.5947467088699341, "alphanum_fraction": 0.6303939819335938, "avg_line_length": 22.173913955688477, "blob_id": "d5bf38797f4bcbccec854418c1ff26fd451f193e", "content_id": "4429a448f1103d5ff0fc06c640ad2bd10a9028a9", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2667, "license_type": "permissive", "max_line_length": 100, "num_lines": 115, "path": "/AlgoLib_Cpp/test/lca_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMU NAJNIŻSZEGO WSPÓLNEGO PRZODKA\"\"\"\n#include <gtest/gtest.h>\n#include \"algolib/graphs/lca.hpp\"\n\nnamespace algr = algolib::graphs;\n\nclass LCATest : public ::testing::Test\n{\nprotected:\n algr::forest_graph trees;\n\npublic:\n LCATest()\n : trees{algr::forest_graph(\n 12,\n std::vector<edge_t>({std::make_pair(0, 1), std::make_pair(0, 2), std::make_pair(1, 3),\n std::make_pair(1, 4), std::make_pair(1, 5), std::make_pair(2, 6),\n std::make_pair(4, 7), std::make_pair(6, 8), std::make_pair(6, 9),\n std::make_pair(10, 11)}))}\n {\n }\n\n virtual ~LCATest()\n {\n }\n};\n\nTEST_F(LCATest, testFindLCAWhenVerticesNotInSameTree)\n{\n vertex_t vertex1 = 1;\n vertex_t vertex2 = 11;\n\n EXPECT_THROW(algr::find_lca(trees, vertex1, vertex2), std::invalid_argument);\n}\n\nTEST_F(LCATest, testFindLCAWhenRootNotInSameTree)\n{\n vertex_t vertex1 = 1;\n vertex_t vertex2 = 9;\n vertex_t root = 10;\n\n EXPECT_THROW(algr::find_lca(trees, vertex1, vertex2, root), std::invalid_argument);\n}\n\nTEST_F(LCATest, testFindLCAWhenSameVertex)\n{\n vertex_t vertex = 6;\n\n vertex_t result = algr::find_lca(trees, vertex, vertex);\n\n EXPECT_EQ(vertex, result);\n}\n\nTEST_F(LCATest, testFindLCAWhenVerticesChanged)\n{\n vertex_t vertex1 = 5;\n vertex_t vertex2 = 7;\n\n vertex_t result1 = algr::find_lca(trees, vertex1, vertex2);\n vertex_t result2 = algr::find_lca(trees, vertex2, vertex1);\n\n EXPECT_EQ(1, result1);\n EXPECT_EQ(1, result2);\n}\n\nTEST_F(LCATest, testFindLCAWhenVerticesInDifferentSubtrees)\n{\n vertex_t vertex1 = 5;\n vertex_t vertex2 = 7;\n\n vertex_t result = algr::find_lca(trees, vertex1, vertex2);\n\n EXPECT_EQ(1, result);\n}\n\nTEST_F(LCATest, testFindLCAWhenRootIsLCA)\n{\n vertex_t vertex1 = 3;\n vertex_t vertex2 = 9;\n vertex_t root = 0;\n\n vertex_t result = algr::find_lca(trees, vertex1, vertex2, root);\n\n EXPECT_EQ(root, result);\n}\n\nTEST_F(LCATest, testFindLCAWhenVerticesAreOffsprings)\n{\n vertex_t vertex1 = 8;\n vertex_t vertex2 = 2;\n\n vertex_t result = algr::find_lca(trees, vertex1, vertex2);\n\n EXPECT_EQ(vertex2, result);\n}\n\nTEST_F(LCATest, testFindLCARootIsOneOfVertices1)\n{\n vertex_t vertex1 = 11;\n vertex_t vertex2 = 10;\n\n vertex_t result = algr::find_lca(trees, vertex1, vertex2, vertex1);\n\n EXPECT_EQ(vertex1, result);\n}\n\nTEST_F(LCATest, testFindLCAWhenRootIsOneOfVertices2)\n{\n vertex_t vertex1 = 4;\n vertex_t vertex2 = 0;\n\n vertex_t result = algr::find_lca(trees, vertex1, vertex2, vertex2);\n\n EXPECT_EQ(vertex2, result);\n}\n" }, { "alpha_fraction": 0.6278177499771118, "alphanum_fraction": 0.6306954622268677, "avg_line_length": 28.217391967773438, "blob_id": "362fa83d4a9ae777fa658b0dc80a8a18e2f014d7", "content_id": "ae1682e8e815060b9c24f13f8d244d66145a72e7", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2102, "license_type": "permissive", "max_line_length": 70, "num_lines": 69, "path": "/AlgoLib_Python/algolib/graphs/topological_sorting.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"ALGORYTMY SORTOWANIA TOPOLOGICZNEGO\"\"\"\r\nimport queue\r\n\r\n\r\nclass DirectedCyclicGraphException(ValueError):\r\n pass\r\n\r\n\r\ndef sort_topological1(digraph):\r\n \"\"\"Sortowanie topologiczne przez liczenie poprzedników.\r\n :param digraph: graf skierowany\r\n :returns: porządek topologiczny wierzchołków\"\"\"\r\n vertex_queue = queue.PriorityQueue()\r\n indegs = [digraph.get_indegree(v) for v in digraph.get_vertices()]\r\n order = []\r\n\r\n for v in digraph.get_vertices():\r\n if indegs[v] == 0:\r\n vertex_queue.put(v)\r\n\r\n while not vertex_queue.empty():\r\n v = vertex_queue.get()\r\n order.append(v)\r\n indegs[v] = None\r\n\r\n for nb in digraph.get_neighbours(v):\r\n indegs[nb] -= 1\r\n\r\n if indegs[nb] == 0:\r\n vertex_queue.put(nb)\r\n\r\n if len(order) != digraph.vertices_number:\r\n raise DirectedCyclicGraphException()\r\n\r\n return iter(order)\r\n\r\n\r\ndef sort_topological2(digraph):\r\n \"\"\"Sortowanie topologiczne z użyciem DFS.\r\n :param digraph: graf skierowany\r\n :returns: porządek topologiczny wierzchołków\"\"\"\r\n indices = [None] (digraph.vertices_number)\r\n order = []\r\n\r\n for v in reversed(sorted(digraph.get_vertices())):\r\n if indices[v] is None:\r\n _dfs(v, v, digraph, order, indices)\r\n\r\n return (v for v in reversed(order))\r\n\r\n\r\ndef _dfs(vertex, index, digraph, order, indices):\r\n \"\"\"Algorytm DFS wyznaczający kolejność wierzchołków.\r\n :param vertex: aktualny wierzchołek\r\n :param index: numer iteracji\r\n :param digraph: graf skierowany\r\n :param order: aktualny porządek topologiczny\r\n :param indices: indeksy iteracji i przetwarzania wierzchołków\"\"\"\r\n indices[vertex] = (index, True)\r\n\r\n for neighbour in digraph.get_neighbours(vertex):\r\n if indices[neighbour] is None:\r\n _dfs(neighbour, index, digraph, order, indices)\r\n elif indices[neighbour] == (index, True):\r\n raise DirectedCyclicGraphException()\r\n\r\n order.append(vertex)\r\n indices[vertex] = (index, False)\r\n" }, { "alpha_fraction": 0.7108721733093262, "alphanum_fraction": 0.7156511545181274, "avg_line_length": 26.899999618530273, "blob_id": "f065d83c01f448b0e8deed585053d79279b7dfe6", "content_id": "938faf9d06975d8f8f3978c1b440163858be6a5b", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 850, "license_type": "permissive", "max_line_length": 86, "num_lines": 30, "path": "/AlgoLib_Java/src/refhumbold/algolib/graphs/WeightedGraph.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "package refhumbold.algolib.graphs;\n\nimport java.util.Collection;\n\nimport refhumbold.algolib.tuples.ComparablePair;\nimport refhumbold.algolib.tuples.Triple;\n\npublic interface WeightedGraph\n extends Graph\n{\n /*\n @return lista krawędzi z wagami\n /\n Collection<Triple<Integer, Integer, Double>> getWeightedEdges();\n\n /\n Dodawanie nowej krawędzi z jej wagą.\n * @param vertex1 początkowy wierzchołek\n * @param vertex2 końcowy wierzchołek\n * @param weight waga krawędzi\n /\n void addWeightedEdge(Integer vertex1, Integer vertex2, Double weight)\n throws NoSuchVertexException;\n\n /\n @param vertex numer wierzchołka\n * @return lista sąsiadów wierzchołka wraz z wagami krawędzi\n /\n Collection<ComparablePair<Integer, Double>> getWeightedNeighbours(Integer vertex);\n}\n" }, { "alpha_fraction": 0.4495944380760193, "alphanum_fraction": 0.49826186895370483, "avg_line_length": 29.821428298950195, "blob_id": "48d12c122a673a60b49c3620113bc81006c06de7", "content_id": "1891503509605a288fce7e413f75cd83ff912c94", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 865, "license_type": "permissive", "max_line_length": 83, "num_lines": 28, "path": "/AlgoLib_Python/tests/test_scc.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA ALGORYTMU WYZNACZANIA SILNIE SPÓLJNYCH SKŁADOWYCH\"\"\"\nimport unittest\nfrom algolib.graphs import find_scc, DirectedSimpleGraph\n\n\nclass SCCTest(unittest.TestCase):\n def __init__(self, args, *kwargs):\n super().__init__(args, *kwargs)\n\n def setUp(self):\n pass\n\n def tearDown(self):\n pass\n\n def test_find_scc(self):\n digraph = DirectedSimpleGraph(10, [(0, 4), (0, 5), (1, 0), (2, 3),\n (3, 1), (4, 1), (4, 3), (6, 5), (6, 9),\n (7, 4), (7, 6), (8, 3), (8, 7), (9, 8)])\n\n result = find_scc(digraph)\n\n self.assertEqual(4, len(result))\n self.assertIn({5}, result)\n self.assertIn({2}, result)\n self.assertIn({0, 1, 3, 4}, result)\n self.assertIn({6, 7, 8, 9}, result)\n" }, { "alpha_fraction": 0.580422580242157, "alphanum_fraction": 0.6106080412864685, "avg_line_length": 25.93975830078125, "blob_id": "34c1ed2c3ac4a6fa787951fe3c18e90c5aeacea9", "content_id": "c8f506773a0add15adaeee2cd750b49ab6acf886", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2337, "license_type": "permissive", "max_line_length": 85, "num_lines": 83, "path": "/AlgoLib_Python/algolib/math/maths.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"ALGORYTMY MATEMATYCZNE\"\"\"\r\n\r\n\r\ndef gcd(number1, number2):\r\n \"\"\"Największy wspólny dzielnik dwóch liczb.\r\n :param number1: pierwsza liczba\r\n :param number2: druga liczba\r\n :returns: największy wspólny dzielnik\"\"\"\r\n number_pair = (min(number1, number2), max(number1, number2))\r\n\r\n while number_pair[0] > 0:\r\n number_pair = (number_pair[1] % number_pair[0], number_pair[0])\r\n\r\n return number_pair[1]\r\n\r\n\r\ndef lcm(number1, number2):\r\n \"\"\"Najmniejsza wspólna wielokrotność dwóch liczb.\r\n :param number1: pierwsza liczba\r\n :param number2: druga liczba\r\n :returns: najmniejsza wspólna wielokrotność\"\"\"\r\n min_number = min(number1, number2)\r\n max_number = max(number1, number2)\r\n\r\n return max_number // gcd(number1, number2) min_number\r\n\r\n\r\ndef mult_mod(factor1, factor2, modulo):\r\n \"\"\"Szybkie mnożenie binarne modulowane.\r\n :param factor1: pierwszy czynnik\r\n :param factor2: drugi czynnik\r\n :param modulo: modulo\r\n :returns: wynik mnożenia wzięty modulo\"\"\"\r\n result = 0\r\n\r\n if modulo < 0:\r\n raise ArithmeticError(\"Negative modulo.\")\r\n\r\n if factor1 < 0 and factor2 < 0:\r\n return mult_mod(-factor1, -factor2, modulo)\r\n\r\n if factor1 < 0:\r\n return modulo - mult_mod(-factor1, factor2, modulo)\r\n\r\n if factor2 < 0:\r\n return modulo - mult_mod(factor1, -factor2, modulo)\r\n\r\n while factor2 > 0:\r\n if factor2 % 2 == 1:\r\n result = factor1 + result if modulo == 0 else (factor1 + result) % modulo\r\n\r\n factor1 = factor1 + factor1 if modulo == 0 else (factor1 + factor1) % modulo\r\n factor2 >>= 1\r\n\r\n return result\r\n\r\n\r\ndef power_mod(base, exponent, modulo):\r\n \"\"\"Szybkie potęgowanie binarne modulowane.\r\n :param base: podstawa\r\n :param exponent: wykładnik\r\n :param modulo: modulo\r\n :returns: wynik potęgowania\"\"\"\r\n result = 1\r\n\r\n if modulo < 0:\r\n raise ArithmeticError(\"Negative modulo.\")\r\n\r\n if exponent < 0:\r\n raise ArithmeticError(\"Negative exponent.\")\r\n\r\n if base == 0 and exponent == 0:\r\n return float('nan')\r\n\r\n while exponent > 0:\r\n if exponent % 2 == 1:\r\n result = mult_mod(base, result, modulo)\r\n\r\n base = mult_mod(base, base, modulo)\r\n exponent >>= 1\r\n\r\n return result\r\n" }, { "alpha_fraction": 0.5980994701385498, "alphanum_fraction": 0.6221352815628052, "avg_line_length": 26.953125, "blob_id": "a0fba439443560fb791076431cb1fb7ecc120e7c", "content_id": "ad4f31050e4e1f62eb8c5ec56fcbd52ab631af52", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1790, "license_type": "permissive", "max_line_length": 81, "num_lines": 64, "path": "/AlgoLib_Python/tests/test_forest_graph.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"TESTY DLA STRUKTURY GRAFÓW DRZEW\"\"\"\nimport unittest\nfrom algolib.graphs import ForestGraph, CycleException\n\n\nclass ForestGraphTest(unittest.TestCase):\n def __init__(self, args, kwargs):\n super().__init__(args, *kwargs)\n self.__test_object = None\n\n def setUp(self):\n self.__test_object = ForestGraph(10)\n\n def tearDown(self):\n self.__test_object = None\n\n def test_trees_number(self):\n result = self.__test_object.trees_number\n\n self.assertEqual(10, result)\n\n def test_add_vertex(self):\n result = self.__test_object.add_vertex()\n\n self.assertEqual(10, result)\n self.assertListEqual([], list(self.__test_object.get_neighbours(result)))\n\n def test_add_edge_when_no_cycle(self):\n vertex1 = 1\n vertex2 = 2\n\n self.__test_object.add_edge(vertex1, vertex2)\n\n self.assertIn(vertex2, self.__test_object.get_neighbours(vertex1))\n self.assertIn(vertex1, self.__test_object.get_neighbours(vertex2))\n\n def test_add_edge_when_cycle(self):\n vertex1 = 1\n vertex2 = 2\n vertex3 = 3\n\n self.__test_object.add_edge(vertex1, vertex2)\n self.__test_object.add_edge(vertex2, vertex3)\n\n with self.assertRaises(CycleException):\n self.__test_object.add_edge(vertex3, vertex1)\n\n def test_is_same_tree_when_connected(self):\n vertex1 = 1\n vertex2 = 2\n\n self.__test_object.add_edge(vertex1, vertex2)\n result = self.__test_object.is_same_tree(vertex1, vertex2)\n\n self.assertTrue(result)\n\n def test_is_same_tree_when_not_connected(self):\n vertex1 = 1\n vertex2 = 2\n\n result = self.__test_object.is_same_tree(vertex1, vertex2)\n\n self.assertFalse(result)\n" }, { "alpha_fraction": 0.6229507923126221, "alphanum_fraction": 0.6305620670318604, "avg_line_length": 32.85714340209961, "blob_id": "e40a190d929387519c73c380e91e719f7c4eaa8f", "content_id": "a0a006b7dd2066685d747a26f869dd45a657d67c", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1732, "license_type": "permissive", "max_line_length": 86, "num_lines": 49, "path": "/AlgoLib_Python/algolib/lis.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"ALGORYTM WYZNACZAJĄCY NAJMNIEJSZY LEKSYKOGRAFICZNIE NAJDŁUŻSZY PODCIĄG ROSNĄCY\"\"\"\r\n\r\n\r\ndef find_lis(sequence):\r\n \"\"\"Wyznaczanie najdłuższego podciągu rosnącego.\r\n :param sequence: ciąg wejściowy\r\n :returns: najdłuższy podciąg rosnący\"\"\"\r\n previous_elem = [None] len(sequence)\r\n subseq_last = [0]\r\n\r\n for i, elem in enumerate(sequence[1:], start=1):\r\n if elem > sequence[subseq_last[-1]]:\r\n previous_elem[i] = subseq_last[-1]\r\n subseq_last.append(i)\r\n else:\r\n index = _search(sequence, subseq_last, 0, len(subseq_last) - 1, i)\r\n subseq_last[index] = i\r\n previous_elem[i] = subseq_last[index - 1] if index > 0 else None\r\n\r\n longest_subseq = []\r\n j = subseq_last[-1]\r\n\r\n while j is not None:\r\n longest_subseq.append(sequence[j])\r\n j = previous_elem[j]\r\n\r\n longest_subseq.reverse()\r\n\r\n return longest_subseq\r\n\r\n\r\ndef _search(sequence, subseq_last, index_begin, index_end, index_elem):\r\n \"\"\"Wyszukiwanie miejsca dla elementu.\r\n :param sequence: ciąg wejściowy\r\n :param subseq_last: końcowe elementy podciągów\r\n :param index_begin: indeks początku\r\n :param index_end: indeks końca\r\n :param index_elem: indeks elementu\r\n :returns: indeks miejsca elementu w tablicy długości\"\"\"\r\n if index_begin == index_end:\r\n return index_begin\r\n\r\n index_middle = (index_begin + index_end) // 2\r\n\r\n if sequence[index_elem] > sequence[subseq_last[index_middle]]:\r\n return _search(sequence, subseq_last, index_middle + 1, index_end, index_elem)\r\n else:\r\n return _search(sequence, subseq_last, index_begin, index_middle, index_elem)\r\n" }, { "alpha_fraction": 0.5373467206954956, "alphanum_fraction": 0.5523968935012817, "avg_line_length": 29.406780242919922, "blob_id": "c43143243a6a65ddb3a1501633dc6604bbe7e45a", "content_id": "213e2332f11253bedc77fcf528f698c9ae50d128", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1794, "license_type": "permissive", "max_line_length": 100, "num_lines": 59, "path": "/AlgoLib_Cpp/src/algolib/kmr.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// SŁOWNIK PODSŁÓW BAZOWYCH Z ALGORYTMEM KARPA-MILLERA-ROSENBERGA\n#include \"algolib/kmr.hpp\"\n\nstd::map<std::string, int> detail::sign_letters(const std::string & text)\n{\n std::map<std::string, int> factors;\n std::vector<std::string> letters;\n int code_value = 0;\n\n for(size_t i = 0; i < text.size(); ++i)\n letters.push_back(text.substr(i, 1));\n\n sort(letters.begin(), letters.end());\n factors.emplace(letters[0], code_value);\n\n for(auto it = letters.begin() + 1; it != letters.end(); ++it)\n if(it != (it - 1))\n {\n ++code_value;\n factors.emplace(it, code_value);\n }\n\n return factors;\n}\n\nvoid detail::double_length(int new_length, const std::string & text,\n std::map<std::string, int> & factors)\n{\n std::vector<std::tuple<int, int, int>> codes;\n int code_value = 0;\n\n for(size_t i = 0; i <= text.size() - new_length; ++i)\n {\n std::string s1 = text.substr(i, new_length / 2);\n std::string s2 = text.substr(i + new_length / 2, new_length / 2);\n\n codes.push_back(std::make_tuple(factors[s1], factors[s2], i));\n }\n\n sort(codes.begin(), codes.end());\n factors.emplace(text.substr(std::get<2>(codes[0]), new_length), code_value);\n\n for(auto it = codes.begin() + 1; it != codes.end(); ++it)\n if(std::get<0>(it) != std::get<0>((it - 1)) \|\| std::get<1>(it) != std::get<1>((it - 1)))\n {\n ++code_value;\n factors.emplace(text.substr(std::get<2>(it), new_length), code_value);\n }\n}\n\nstd::map<std::string, int> algolib::kmr(const std::string & text)\n{\n std::map<std::string, int> factors = detail::sign_letters(text);\n\n for(size_t length = 2; length <= text.size(); length <<= 1)\n detail::double_length(length, text, factors);\n\n return factors;\n}\n" }, { "alpha_fraction": 0.6933333277702332, "alphanum_fraction": 0.6933333277702332, "avg_line_length": 13.285714149475098, "blob_id": "b29af1b049e0fe8e65d0871fadec5eaf2f894d32", "content_id": "172e28fcfaadb244a14a1dd6f9892be145caa79e", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Makefile", "length_bytes": 300, "license_type": "permissive", "max_line_length": 33, "num_lines": 21, "path": "/AlgoLib_OCaml/Makefile", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "OCB = ocamlbuild\nOCBFLAGS = -classic-display\nBUILD = $(OCB) $(OCBFLAGS)\n\n.PHONY : all clean refresh docs\n\nall : algolib.cma algolib.cmxa\n\nclean :\n\t$(OCB) -clean\n\nrefresh : clean all\n\ndocs :\n\t$(OCB) algolib.docdir/index.html\n\nalgolib.cma :\n\t$(BUILD) algolib.cma\n\nalgolib.cmxa :\n\t$(BUILD) algolib.cmxa\n" }, { "alpha_fraction": 0.5916372537612915, "alphanum_fraction": 0.594080924987793, "avg_line_length": 33.10185241699219, "blob_id": "b0faae4892f9b8a3bed9e0735c51360b7ed0fd39", "content_id": "0fae34019ff3d17f24a7f2710781abb3ffbdcfe6", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 3684, "license_type": "permissive", "max_line_length": 97, "num_lines": 108, "path": "/AlgoLib_Cpp/include/algolib/graphs/undirected_graph.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/*\n @file undirected_graph.hpp\n * STRUKTURY GRAFÓW NIESKIEROWANYCH\n /\n#ifndef _UNDIRECTED_GRAPH_HPP_\n#define _UNDIRECTED_GRAPH_HPP_\n\n#include <cstdlib>\n#include <exception>\n#include <stdexcept>\n#include <algorithm>\n#include <numeric>\n#include <tuple>\n#include <vector>\n\n#include \"directed_graph.hpp\"\n#include \"graph.hpp\"\n\nnamespace algolib\n{\n namespace graphs\n {\n#pragma region undirected_graph\n\n class undirected_graph : public virtual graph\n {\n public:\n undirected_graph() = default;\n virtual ~undirected_graph() = default;\n undirected_graph(const undirected_graph &) = default;\n undirected_graph(undirected_graph &&) = default;\n undirected_graph & operator=(const undirected_graph &) = default;\n undirected_graph & operator=(undirected_graph &&) = default;\n };\n\n#pragma endregion\n#pragma region undirected_simple_graph\n\n class undirected_simple_graph : public simple_graph, public undirected_graph\n {\n public:\n explicit undirected_simple_graph(int n,\n std::vector<edge_t> edges = std::vector<edge_t>())\n : simple_graph(n)\n {\n for(const auto & e : edges)\n add_edge(std::get<0>(e), std::get<1>(e));\n }\n\n virtual ~undirected_simple_graph() = default;\n undirected_simple_graph(const undirected_simple_graph &) = default;\n undirected_simple_graph(undirected_simple_graph &&) = default;\n undirected_simple_graph & operator=(const undirected_simple_graph &) = default;\n undirected_simple_graph & operator=(undirected_simple_graph &&) = default;\n\n size_t get_edges_number() const override;\n\n std::vector<edge_t> get_edges() const override;\n\n void add_edge(vertex_t vertex1, vertex_t vertex2) override;\n\n size_t get_indegree(vertex_t vertex) const override;\n\n operator directed_simple_graph() const;\n };\n\n#pragma endregion\n#pragma region undirected_weighted_simple_graph\n\n class undirected_weighted_simple_graph : public undirected_simple_graph,\n public weighted_graph\n {\n public:\n explicit undirected_weighted_simple_graph(\n int n, std::vector<edge_t> edges = std::vector<edge_t>())\n : undirected_simple_graph(n, edges)\n {\n }\n\n undirected_weighted_simple_graph(int n, std::vector<wedge_t> edges)\n : undirected_simple_graph(n)\n {\n for(const auto & e : edges)\n add_weighted_edge(std::get<0>(e), std::get<1>(e), std::get<2>(e));\n }\n\n virtual ~undirected_weighted_simple_graph() = default;\n undirected_weighted_simple_graph(const undirected_weighted_simple_graph &) = default;\n undirected_weighted_simple_graph(undirected_weighted_simple_graph &&) = default;\n undirected_weighted_simple_graph &\n operator=(const undirected_weighted_simple_graph &) = default;\n undirected_weighted_simple_graph &\n operator=(undirected_weighted_simple_graph &&) = default;\n\n std::vector<wedge_t> get_weighted_edges() const override;\n\n void add_weighted_edge(vertex_t vertex1, vertex_t vertex2, weight_t weight) override;\n\n std::vector<wvertex_t> get_weighted_neighbours(vertex_t vertex) const override;\n\n operator directed_weighted_simple_graph() const;\n };\n\n#pragma endregion\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.6377649307250977, "alphanum_fraction": 0.6743738055229187, "avg_line_length": 22.590909957885742, "blob_id": "f19cc0e91853779640ab33aac5ab5f88459545fe", "content_id": "3d17cd6ff7d1f8fda56162c8bf94e68db9586a2d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 519, "license_type": "permissive", "max_line_length": 89, "num_lines": 22, "path": "/AlgoLib_Python/run-tests.sh", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "#! /bin/sh\n\nTEST_DIR=\"tests\"\nPYUNIT_OUTPUT_DIR=\"pyunit_results\"\nBOLD_BLUE=\"\\033[1;34m\"\nBOLD_RED=\"\\033[1;31m\"\nNORMAL=\"\\033[0m\"\n\ncd $(dirname $0)\necho \"\"\n\nif test ! -d $TEST_DIR\nthen\n echo \"${BOLD_RED}Test directory not found.${NORMAL}\"\n exit 1\nfi\n\necho \"${BOLD_BLUE}Running PyUnit tests:${NORMAL}\"\npython3 -m xmlrunner discover -s $TEST_DIR -t .\necho \"${BOLD_BLUE}Moving XML reports to output directory...${NORMAL}\"\nrm -rf $PYUNIT_OUTPUT_DIR && mkdir $PYUNIT_OUTPUT_DIR && mv TEST-.xml $PYUNIT_OUTPUT_DIR\necho \"\"\n" }, { "alpha_fraction": 0.6673021912574768, "alphanum_fraction": 0.6758818030357361, "avg_line_length": 26.605262756347656, "blob_id": "acef6112dd2f6db9166fde9f9f0967a89c57df66", "content_id": "f06f2f381457544370b246e8a2b85b7208385fe4", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1054, "license_type": "permissive", "max_line_length": 96, "num_lines": 38, "path": "/AlgoLib_Cpp/src/algolib/two_sat.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTM SPEŁNIALNOŚCI FORMUŁ 2-CNF\n#include \"algolib/two_sat.hpp\"\n\nnamespace algr = algolib::graphs;\n\nint detail::count_variables(const formula_t & formula)\n{\n return std::accumulate(formula.begin(), formula.end(), 0, [](int maximum, clause_t clause) {\n return std::max(maximum, std::max(std::abs(clause.first), std::abs(clause.second)));\n });\n}\n\nsize_t detail::vertex(literal_t literal)\n{\n return literal > 0 ? 2 * literal - 2 : 2 * (-literal) - 1;\n}\n\nalgr::directed_simple_graph detail::make_graph(const formula_t & formula)\n{\n algr::directed_simple_graph digraph(2 * count_variables(formula));\n\n for(clause_t clause : formula)\n {\n digraph.add_edge(vertex(-clause.first), vertex(clause.second));\n digraph.add_edge(vertex(-clause.second), vertex(clause.first));\n }\n\n return digraph;\n}\n\nbool algolib::is_satisfiable(const formula_t & formula)\n{\n algolib::graphs::directed_simple_graph digraph = detail::make_graph(formula);\n\n // TODO algorytm 2sat i silnie spójne składowe\n\n return false;\n}\n" }, { "alpha_fraction": 0.620141327381134, "alphanum_fraction": 0.6289752721786499, "avg_line_length": 29.594594955444336, "blob_id": "fe4180f174348b4e39750944989e8ca9e18be2fe", "content_id": "33e08607c168e1c24ce1b35d913d1bb9e4d8ebfa", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1154, "license_type": "permissive", "max_line_length": 100, "num_lines": 37, "path": "/AlgoLib_Cpp/include/algolib/closest_points.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTM WYZNACZANIA NAJBLIŻSZEJ PARY PUNKTÓW NA PŁASZCZYŹNIE\n#ifndef _CLOSEST_POINTS_HPP_\n#define _CLOSEST_POINTS_HPP_\n\n#include <cstdlib>\n#include <cmath>\n#include <algorithm>\n#include <vector>\n\nusing point2D_t = std::pair<double, double>;\n\nnamespace detail\n{\n /*\n Znajdowanie najbliższej pary punktów.\n * @param points_X lista punktów posortowana po współrzędnej x\n * @param points_Y lista punktów posortowana po współrzędnej y\n * @param index_begin początek fragmentu listy punktów po x\n * @param index_end koniec fragmentu listy punktów po x\n * @return para najbliższych punktów\n /\n std::pair<point2D_t, point2D_t> search_closest(std::vector<point2D_t> & pointsX,\n std::vector<std::pair<point2D_t, int>> & pointsY,\n int index_begin = 0, int index_end = -1);\n}\n\nnamespace algolib\n{\n /\n Funkcja obsługująca do wyszukiwania punktów.\n * @param points lista punktów\n * @return para najbliższych punktów\n /\n std::pair<point2D_t, point2D_t> find_closest_points(const std::vector<point2D_t> & points);\n}\n\n#endif\n" }, { "alpha_fraction": 0.5188964605331421, "alphanum_fraction": 0.5256991982460022, "avg_line_length": 33.253334045410156, "blob_id": "a23c747d5bfc9367f5f9cb250bf1e2d44b47f605", "content_id": "fe588c158478cbcabcfe6282b0232523a77d7d0f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2743, "license_type": "permissive", "max_line_length": 103, "num_lines": 75, "path": "/AlgoLib_Python/algolib/graphs/edmonds.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# ALGORYTM EDMONDSA-KARPA: MAKSYMALNY PRZEP�YW\r\n# -- coding: utf-8 --\r\nimport queue\r\n\r\nclass FlowGraphEdmonds:\r\n _INF = float(1<<30) # oznaczenie nieskończoności\r\n\r\n def __init__(self, n):\r\n \"\"\"\r\n KONSTRUKTOR PUSTEGO GRAFU PRZEP�YWOWEGO\r\n :param n: liczba wierzchołków\r\n \"\"\"\r\n self.__num_vertex = n # liczba wierzchołków grafu\r\n self.__graphrepr = [[] for i in range(n+1)] # lista sąsiedztwa grafu przep�ywowego\r\n self.__capacities = [[self._INF](n+1) for i in range(n+1)] # macierz przeputowo�ci kraw�dzi\r\n\r\n def count_flow(self, source, target):\r\n \"\"\"\r\n WYLICZANIE CA�O�CIOWEGO PRZEP�YWU W GRAFIE\r\n :param source: �r�d�o\r\n :param target: uj�cie\r\n :returns: maksymalny przep�yw sieci\r\n \"\"\"\r\n self.__augmenting_paths = [] # tablica poprzednik�w i minimalnych przepustowo�ci ze �r�d�a\r\n max_flow = 0.0; is_flow_added = True\r\n\r\n while is_flow_added:\r\n self.__augmenting_paths = [(None, self._INF)](self.__num_vertex+1)\r\n is_flow_added = self.__bfs(source, target)\r\n\r\n if is_flow_added:\r\n max_flow += self.__count_path_flow(source, target)\r\n\r\n return max_flow\r\n\r\n def __bfs(self, source, target):\r\n \"\"\"\r\n ALGORYTM BFS ZNAJDUJ�CY �CIE�K� POWI�KSZAJ�C�\r\n :param source: �r�d�o\r\n :param target: uj�cie\r\n :return: czy uda si� powi�kszy� przep�yw\r\n \"\"\"\r\n vertex_queue = queue.Queue(); vertex_queue.put(source)\r\n self.__augmenting_paths[source] = (0, self._INF)\r\n\r\n while not vertex_queue.empty():\r\n w = vertex_queue.get()\r\n\r\n if w == target:\r\n return True\r\n\r\n for s in self.__graphrepr[w]:\r\n if self.__capacities[w][s] > 0 and self.__augmenting_paths[s][0] is None:\r\n self.__augmenting_paths[s] = \\\r\n (w, min(self.__capacities[w][s], self.__augmenting_paths[w][1]))\r\n vertex_queue.put(s)\r\n\r\n return False\r\n\r\n def __count_path_flow(self, source, target):\r\n \"\"\"\r\n WYLICZANIE PRZEP�YWU NA �CIE�CE POWI�KSZAJ�CEJ\r\n :param source: �r�d�o\r\n :param target: uj�cie\r\n :returns: przep�yw na �cie�ce\r\n \"\"\"\r\n w = target\r\n\r\n while w != source:\r\n s = self.__augmenting_paths[w][0]\r\n self.__capacities[s][w] -= self.__augmenting_paths[target][1]\r\n self.__capacities[w][s] += self.__augmenting_paths[target][1]\r\n w = s\r\n\r\n return self.__augmenting_paths[target][1]\r\n\r\n" }, { "alpha_fraction": 0.5676147937774658, "alphanum_fraction": 0.5865768194198608, "avg_line_length": 37.912620544433594, "blob_id": "a9a1b8c1cc39ae3e32e2e1665c6c8272310c453c", "content_id": "20413c190d487a71861da8afd55103c20e0607e7", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 4008, "license_type": "permissive", "max_line_length": 99, "num_lines": 103, "path": "/AlgoLib_Cpp/src/algolib/closest_points.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTM WYZNACZANIA NAJBLIŻSZEJ PARY PUNKTÓW NA PŁASZCZYŹNIE\n#include \"algolib/closest_points.hpp\"\n\nstd::pair<point2D_t, point2D_t>\n detail::search_closest(std::vector<point2D_t> & pointsX,\n std::vector<std::pair<point2D_t, int>> & pointsY, int index_begin,\n int index_end)\n{\n index_begin = (index_begin + pointsX.size()) % pointsX.size();\n index_end = (index_end + pointsX.size()) % pointsX.size();\n\n auto distance = [](const point2D_t & pt1, const point2D_t & pt2) {\n double dx = pt1.first - pt2.first, dy = pt1.second - pt2.second;\n\n return dx dx + dy * dy;\n };\n\n if(index_end - index_begin == 1)\n return std::make_pair(pointsX[index_begin], pointsX[index_end]);\n\n if(index_end - index_begin == 2)\n {\n int index_middle = index_begin + 1;\n double distance12, distance23, distance31;\n\n distance12 = distance(pointsX[index_begin], pointsX[index_middle]);\n distance23 = distance(pointsX[index_middle], pointsX[index_end]);\n distance31 = distance(pointsX[index_begin], pointsX[index_end]);\n\n if(distance12 <= distance23 && distance12 <= distance31)\n return std::make_pair(pointsX[index_begin], pointsX[index_middle]);\n else if(distance23 <= distance12 && distance23 <= distance31)\n return std::make_pair(pointsX[index_middle], pointsX[index_end]);\n else\n return std::make_pair(pointsX[index_begin], pointsX[index_end]);\n }\n\n int index_middle = (index_begin + index_end) / 2;\n double middleX = (pointsX[index_middle].first + pointsX[index_middle + 1].first) / 2;\n std::vector<std::pair<point2D_t, int>> pointsYL, pointsYR;\n std::vector<std::pair<int, bool>> belt_points;\n\n for(size_t i = 0; i < pointsY.size(); ++i)\n if(pointsY[i].second <= index_middle)\n pointsYL.push_back(pointsY[i]);\n else\n pointsYR.push_back(pointsY[i]);\n\n std::pair<point2D_t, point2D_t> closest_points;\n std::pair<point2D_t, point2D_t> closestL =\n search_closest(pointsX, pointsYL, index_begin, index_middle);\n std::pair<point2D_t, point2D_t> closestR =\n search_closest(pointsX, pointsYR, index_middle + 1, index_end);\n\n double min_distance = std::min(distance(closestL.first, closestL.second),\n distance(closestR.first, closestR.second));\n double belt_width = min_distance;\n\n for(size_t i = 0; i < pointsY.size(); ++i)\n if(pointsY[i].first.first >= middleX - belt_width\n && pointsY[i].first.first <= middleX + belt_width)\n belt_points.push_back(std::make_pair(i, pointsY[i].second <= index_middle));\n\n for(size_t i = 1; i < belt_points.size(); ++i)\n for(int j = i - 1; j >= 0; --j)\n if(belt_points[i].second != belt_points[j].second)\n {\n point2D_t pt1 = pointsY[belt_points[i].first].first;\n point2D_t pt2 = pointsY[belt_points[j].first].first;\n\n if(pt1.second <= pt2.second + belt_width)\n break;\n\n double actual_distance = distance(pt1, pt2);\n\n if(actual_distance < min_distance)\n {\n min_distance = actual_distance;\n closest_points = std::make_pair(pt1, pt2);\n }\n }\n\n return closest_points;\n}\n\nstd::pair<point2D_t, point2D_t> algolib::find_closest_points(const std::vector<point2D_t> & points)\n{\n std::vector<point2D_t> pointsX = points;\n std::vector<std::pair<point2D_t, int>> pointsY;\n\n std::sort(pointsX.begin(), pointsX.end());\n\n for(size_t i = 0; i < pointsX.size(); ++i)\n pointsY.push_back(\n std::make_pair(std::make_pair(pointsY[i].first.second, pointsY[i].first.first), i));\n\n std::sort(pointsY.rbegin(), pointsY.rend());\n\n for(size_t i = 0; i < pointsY.size(); ++i)\n std::swap(pointsY[i].first.first, pointsY[i].first.second);\n\n return detail::search_closest(pointsX, pointsY);\n}\n" }, { "alpha_fraction": 0.49098265171051025, "alphanum_fraction": 0.49570199847221375, "avg_line_length": 30.226316452026367, "blob_id": "5f0f87390a2ef5f70a27f6d989e53f1ff205897e", "content_id": "4459661ba89a5a83c2d94b41e34c97575d30a9fe", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 5961, "license_type": "permissive", "max_line_length": 89, "num_lines": 190, "path": "/AlgoLib_Cpp/include/algolib/graphs/multipartite_graph.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURY GRAFÓW WIELODZIELNYCH\n#ifndef _MULTIPARTITE_GRAPH_HPP_\n#define _MULTIPARTITE_GRAPH_HPP_\n\n#include <cstdlib>\n#include <exception>\n#include <stdexcept>\n#include <vector>\n\n#include \"directed_graph.hpp\"\n#include \"undirected_graph.hpp\"\n\nnamespace algolib\n{\n namespace graphs\n {\n class graph_partition_exception : public std::logic_error\n {\n public:\n explicit graph_partition_exception(const std::string & what_arg)\n : std::logic_error(what_arg)\n {\n }\n\n explicit graph_partition_exception(const char * what_arg = \"\")\n : std::logic_error(what_arg)\n {\n }\n };\n\n template <size_t N>\n class multipartite_graph : public undirected_graph\n {\n /// Struktura grafu wielodzielnego.\n undirected_simple_graph graph;\n\n /// Numery grup wierzchołków.\n std::vector<size_t> groups;\n\n public:\n explicit multipartite_graph(int n) : graph{undirected_simple_graph(n)}\n {\n groups.resize(n, 1);\n }\n\n virtual ~multipartite_graph() = default;\n multipartite_graph(const multipartite_graph &) = default;\n multipartite_graph(multipartite_graph &&) = default;\n multipartite_graph & operator=(const multipartite_graph &) = default;\n multipartite_graph & operator=(multipartite_graph &&) = default;\n\n /*\n @param group numer grupy wierzchołków\n * @return liczba wierzchołków z zadanej grupy\n /\n size_t get_vertices_number(size_t group = 0) const\n {\n if(group == 0)\n return graph.get_vertices_number();\n\n int num = 0;\n\n for(const auto & v : graph.get_vertices())\n if(groups[v] == group)\n ++num;\n\n return num;\n }\n\n /\n @param group numer grupy wierzchołków\n * @return numery wierzchołków z zadanej grupy\n /\n std::vector<vertex_t> get_vertices(size_t group = 0) const\n {\n std::vector<vertex_t> vertices;\n\n if(group == 0)\n return graph.get_vertices();\n\n for(const auto & v : graph.get_vertices())\n if(groups[v] == group)\n vertices.push_back(v);\n\n return vertices;\n }\n\n /\n Dodawanie nowego wierzchołka do zadanej grupy.\n * @param group: numer grupy\n * @return oznaczenie wierzchołka\n /\n vertex_t add_vertex(size_t group)\n {\n groups.push_back(group);\n\n return graph.add_vertex();\n }\n\n size_t get_edges_number() const override\n {\n return graph.get_edges_number();\n }\n\n std::vector<edge_t> get_edges() const override\n {\n return graph.get_edges();\n }\n\n void add_edge(vertex_t vertex1, vertex_t vertex2) override\n {\n if(vertex1 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex1));\n\n if(vertex2 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex2));\n\n if(is_same_group(vertex1, vertex2))\n throw graph_partition_exception();\n\n graph.add_edge(vertex1, vertex2);\n }\n\n /\n @param vertex: numer wierzchołka\n * @param group: numer grupy sąsiadów\n * @return generator sąsiadów wierzchołka z zadanej grupy\n /\n std::vector<vertex_t> get_neighbours(vertex_t vertex, size_t group = 0) const\n {\n std::vector<vertex_t> vertices;\n\n if(vertex >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex));\n\n if(group == 0)\n return graph.get_neighbours(vertex);\n\n for(const auto & v : graph.get_neighbours(vertex))\n if(groups[v] == group)\n vertices.push_back(v);\n\n return vertices;\n }\n\n size_t get_outdegree(vertex_t vertex) const override\n {\n return graph.get_outdegree(vertex);\n }\n\n size_t get_indegree(vertex_t vertex) const override\n {\n return graph.get_indegree(vertex);\n }\n\n /\n Sprawdzanie, czy wierzchołek nalezy do zadanej grupy.\n * @param vertex wierzchołek\n * @param group numer grupy\n * @return czy wierzchołek jest w grupie\n /\n bool is_in_group(vertex_t vertex, size_t group) const\n {\n if(vertex >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex));\n\n return groups[vertex] == group;\n }\n\n /\n Sprawdzanie, czy wierzchołki należą do tej samej grupy.\n * @param vertex1 pierwszy wierzchołek\n * @param vertex2 drugi wierzchołek\n * @return czy wierzchołki są w jednej grupie\n /\n bool is_same_group(vertex_t vertex1, vertex_t vertex2) const\n {\n if(vertex1 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex1));\n\n if(vertex2 >= get_vertices_number())\n throw no_such_vertex_exception(std::to_string(vertex2));\n\n return groups[vertex1] == groups[vertex2];\n }\n };\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.5584980249404907, "alphanum_fraction": 0.5930830240249634, "avg_line_length": 25.77248764038086, "blob_id": "95cb08a9c07ef4a6531b834b6ea34ed60d1cf130", "content_id": "ae0aac395abc0edfe686190a510789aeb1f1f1ca", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 5061, "license_type": "permissive", "max_line_length": 92, "num_lines": 189, "path": "/AlgoLib_Java/test/refhumbold/algolib/graphs/UndirectedSimpleGraphTest.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA GRAFÓW NIESKIEROWANYCH\npackage refhumbold.algolib.graphs;\n\nimport java.util.Arrays;\nimport org.junit.After;\nimport org.junit.Assert;\nimport org.junit.Before;\nimport org.junit.Test;\n\nimport refhumbold.algolib.tuples.Pair;\n\npublic class UndirectedSimpleGraphTest\n{\n private UndirectedSimpleGraph testObject;\n\n @Before\n public void setUp()\n {\n testObject = new UndirectedSimpleGraph(10);\n }\n\n @After\n public void tearDown()\n {\n testObject = null;\n }\n\n @Test\n public void testGetVerticesNumber()\n {\n int result = testObject.getVerticesNumber();\n\n Assert.assertEquals(10, result);\n }\n\n @Test\n public void testGetVertices()\n {\n Object[] result = testObject.getVertices().toArray();\n\n Arrays.sort(result);\n\n Assert.assertArrayEquals(new Integer[]{0, 1, 2, 3, 4, 5, 6, 7, 8, 9}, result);\n }\n\n @Test\n public void testAddVertex()\n {\n int result = testObject.addVertex();\n\n Assert.assertEquals(10, result);\n Assert.assertEquals(11, testObject.getVerticesNumber());\n }\n\n @Test\n public void testGetEdgesNumber()\n {\n testObject.addEdge(7, 7);\n testObject.addEdge(1, 5);\n testObject.addEdge(2, 4);\n testObject.addEdge(8, 0);\n testObject.addEdge(6, 3);\n testObject.addEdge(3, 6);\n testObject.addEdge(9, 3);\n testObject.addEdge(8, 0);\n\n int result = testObject.getEdgesNumber();\n\n Assert.assertEquals(6, result);\n }\n\n @Test\n public void testGetEdges()\n {\n testObject.addEdge(7, 7);\n testObject.addEdge(1, 5);\n testObject.addEdge(2, 4);\n testObject.addEdge(8, 0);\n testObject.addEdge(6, 3);\n testObject.addEdge(3, 6);\n testObject.addEdge(9, 3);\n testObject.addEdge(8, 0);\n\n Object[] result = testObject.getEdges().toArray();\n\n Arrays.sort(result);\n\n Assert.assertArrayEquals(\n new Object[]{Pair.make(0, 8), Pair.make(1, 5), Pair.make(2, 4), Pair.make(3, 6),\n Pair.make(3, 9), Pair.make(7, 7)}, result);\n }\n\n @Test\n public void testAddEdge()\n {\n testObject.addEdge(1, 5);\n testObject.addEdge(1, 5);\n testObject.addEdge(5, 1);\n testObject.addEdge(1, 1);\n\n Object[] neighbours1 = testObject.getNeighbours(1).toArray();\n Object[] neighbours5 = testObject.getNeighbours(5).toArray();\n\n Arrays.sort(neighbours1);\n Arrays.sort(neighbours5);\n\n Assert.assertEquals(2, testObject.getEdgesNumber());\n Assert.assertArrayEquals(new Integer[]{1, 5}, neighbours1);\n Assert.assertArrayEquals(new Integer[]{1}, neighbours5);\n }\n\n @Test\n public void testGetNeighbours()\n {\n testObject.addEdge(1, 1);\n testObject.addEdge(1, 3);\n testObject.addEdge(1, 4);\n testObject.addEdge(1, 7);\n testObject.addEdge(1, 9);\n testObject.addEdge(2, 1);\n testObject.addEdge(6, 1);\n\n Object[] result = testObject.getNeighbours(1).toArray();\n\n Arrays.sort(result);\n\n Assert.assertArrayEquals(new Integer[]{1, 2, 3, 4, 6, 7, 9}, result);\n }\n\n @Test\n public void testGetOutdegree()\n {\n testObject.addEdge(1, 1);\n testObject.addEdge(1, 3);\n testObject.addEdge(1, 4);\n testObject.addEdge(1, 7);\n testObject.addEdge(1, 9);\n testObject.addEdge(2, 1);\n testObject.addEdge(6, 1);\n\n int result = testObject.getOutdegree(1);\n\n Assert.assertEquals(7, result);\n }\n\n @Test\n public void testGetIndegree()\n {\n testObject.addEdge(1, 1);\n testObject.addEdge(3, 1);\n testObject.addEdge(4, 1);\n testObject.addEdge(7, 1);\n testObject.addEdge(9, 1);\n testObject.addEdge(1, 2);\n testObject.addEdge(1, 6);\n\n int result = testObject.getIndegree(1);\n\n Assert.assertEquals(7, result);\n }\n\n @Test\n public void testAsDirected()\n {\n testObject.addEdge(7, 7);\n testObject.addEdge(1, 5);\n testObject.addEdge(2, 4);\n testObject.addEdge(8, 0);\n testObject.addEdge(6, 3);\n testObject.addEdge(3, 6);\n testObject.addEdge(9, 3);\n testObject.addEdge(8, 0);\n\n DirectedSimpleGraph result = testObject.asDirected();\n Object[] expectedVertices = testObject.getVertices().toArray();\n Object[] resultVertices = result.getVertices().toArray();\n Object[] resultEdges = result.getEdges().toArray();\n\n Arrays.sort(expectedVertices);\n Arrays.sort(resultVertices);\n Arrays.sort(resultEdges);\n\n Assert.assertArrayEquals(expectedVertices, resultVertices);\n Assert.assertArrayEquals(\n new Object[]{Pair.make(0, 8), Pair.make(1, 5), Pair.make(2, 4), Pair.make(3, 6),\n Pair.make(3, 9), Pair.make(4, 2), Pair.make(5, 1), Pair.make(6, 3),\n Pair.make(7, 7), Pair.make(8, 0), Pair.make(9, 3)}, resultEdges);\n }\n}\n" }, { "alpha_fraction": 0.7978723645210266, "alphanum_fraction": 0.7978723645210266, "avg_line_length": 45, "blob_id": "169d8620cf100397286f5d9af59861c12e325dc0", "content_id": "47cdd219ce1ce43cbf2869fe4a708a2e3225fd01", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 97, "license_type": "permissive", "max_line_length": 47, "num_lines": 2, "path": "/AlgoLib_Cpp/src/algolib/structures/disjoint_sets.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURA ZBIORÓW ROZŁĄCZNYCH UNION-FIND\r\n#include \"algolib/structures/disjoint_sets.hpp\"\r\n" }, { "alpha_fraction": 0.5234501361846924, "alphanum_fraction": 0.5283018946647644, "avg_line_length": 24.76388931274414, "blob_id": "477772ceb8658203af822e79b5c2e451917ae6ee", "content_id": "5d32923b72258f5c76c635491cd1479bbbec7300", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C#", "length_bytes": 1856, "license_type": "permissive", "max_line_length": 97, "num_lines": 72, "path": "/AlgoLib_Csharp/src/DirectedGraph.cs", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURY GRAFÓW SKIEROWANYCH\nusing System;\nusing System.Linq;\nusing System.Collections.Generic;\n\nnamespace Algolib.Graphs\n{\n public interface IDirectedGraph\n {\n /// <summary>\n /// Odwracanie skierowania grafu.\n /// </summary>\n void reverse();\n }\n\n public class DirectedSimpleGraph : SimpleGraph, IDirectedGraph\n {\n public DirectedSimpleGraph(int n)\n {\n base(n);\n }\n\n public DirectedSimpleGraph(int n, List<Tuple<uint, uint>> edges)\n {\n base(n);\n\n foreach(var e in edges)\n this.graphrepr[e.Item1].Add(e.Item2);\n\n }\n\n public uint EdgesNumber\n {\n get\n {\n return GetVertices().Aggregate(0, (acc, v) => acc + GetOutdegree(v));\n }\n }\n\n public IEnumerable<Tuple<uint, uint>> GetEdges()\n {\n return GetVertices().SelectMany(\n v => GetNeighbours(v).Select(u => Tuple.Create(v, u.Item1)));\n }\n\n void AddEdge(uint v, uint u)\n {\n if(v > VerticesNumber \|\| u > VerticesNumber)\n throw new ArgumentOutOfRangeException(\"No such vertex.\");\n\n graphrepr[v].Add(Tuple.Create(v, u));\n }\n\n public uint GetIndegree(uint v)\n {\n return GetEdges().Aggregate(0, (acc, e) => e.Item1 == v ? acc + 1 : acc);\n }\n\n public void reverse()\n {\n List<HashSet<Tuple<uint, uint>> revgraphrepr = new List<HashSet<Tuple<uint, uint>>();\n\n foreach(var v in getVertices())\n revgraphrepr.Add(new HashSet<Tuple<uint, uint>>());\n\n foreach(var e in getEdges())\n revgraphrepr[e.Item2].Add(Tuple.Create(e.Item1, DEFAULT_WEIGHT));\n\n graphrepr = revgraphrepr;\n }\n }\n}\n" }, { "alpha_fraction": 0.5910780429840088, "alphanum_fraction": 0.5910780429840088, "avg_line_length": 22.189655303955078, "blob_id": "34783cfa6c26e7c7c38c11f755a7c0f07c8a5d5e", "content_id": "05abb2e3d6033f20727bf8c3d19056f4c656ef0f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1360, "license_type": "permissive", "max_line_length": 70, "num_lines": 58, "path": "/AlgoLib_Cpp/include/algolib/graphs/searching.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\n @file searching.hpp\n * ALGORYTMY PRZESZUKIWANIA GRAFU\n /\n#ifndef _SEARCHING_HPP_\n#define _SEARCHING_HPP_\n\n#include <cstdlib>\n#include <algorithm>\n#include <queue>\n#include <stack>\n#include <vector>\n\n#include \"graph.hpp\"\n\nnamespace detail\n{\n /\n Krok rekurencyjnego DFS.\n * @param graph graf\n * @param vertex aktualny wierzchołek\n * @param is_visited lista odwiedzonych wierzchołków\n /\n void dfsR_step(const algolib::graphs::graph & gr, vertex_t vertex,\n std::vector<bool> & is_visited);\n}\n\nnamespace algolib\n{\n namespace graphs\n {\n /\n Algorytm BFS.\n * @param gr graf\n * @param root wierzchołek początkowy\n * @return lista odwiedzonych wierzchołków\n /\n std::vector<bool> bfs(const graph & gr, vertex_t root);\n\n /\n Iteracyjny algorytm DFS.\n * @param gr graf\n * @param root wierzchołek początkowy\n * @return lista odwiedzonych wierzchołków\n /\n std::vector<bool> dfsI(const graph & gr, vertex_t root);\n\n /\n Rekurencyjny algorytm DFS.\n * @param gr graf\n * @param root wierzchołek początkowy\n * @return lista odwiedzonych wierzchołków\n /\n std::vector<bool> dfsR(const graph & gr, vertex_t root);\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.5243619680404663, "alphanum_fraction": 0.5560711622238159, "avg_line_length": 42.099998474121094, "blob_id": "e7e411d90194b9c5052343a36567661e6586e031", "content_id": "0f94effe296e6a3434b17ac4f0f181a814e85293", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1295, "license_type": "permissive", "max_line_length": 97, "num_lines": 30, "path": "/AlgoLib_Cpp/test/scc_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\n @file scc_test.cpp\n * TESTY DLA ALGORYTMU SILNIE SPÓLJNYCH SKŁADOWYCH W GRAFIE SKIEROWANYM\n /\n#include <algorithm>\n#include <gtest/gtest.h>\n#include \"algolib/graphs/scc.hpp\"\n\nnamespace algr = algolib::graphs;\n\nTEST(SCCTest, testFindSCC)\n{\n algr::directed_simple_graph graph(\n 10,\n std::vector<edge_t>({std::make_tuple(0, 4), std::make_tuple(0, 5), std::make_tuple(1, 0),\n std::make_tuple(2, 3), std::make_tuple(3, 1), std::make_tuple(4, 1),\n std::make_tuple(4, 3), std::make_tuple(6, 5), std::make_tuple(6, 9),\n std::make_tuple(7, 4), std::make_tuple(7, 6), std::make_tuple(8, 3),\n std::make_tuple(8, 7), std::make_tuple(9, 8)}));\n\n std::vector<std::set<vertex_t>> result = find_scc(graph);\n\n EXPECT_EQ(4, result.size());\n EXPECT_NE(std::find(result.begin(), result.end(), std::set<vertex_t>({5})), result.end());\n EXPECT_NE(std::find(result.begin(), result.end(), std::set<vertex_t>({2})), result.end());\n EXPECT_NE(std::find(result.begin(), result.end(), std::set<vertex_t>({0, 1, 3, 4})),\n result.end());\n EXPECT_NE(std::find(result.begin(), result.end(), std::set<vertex_t>({6, 7, 8, 9})),\n result.end());\n}\n" }, { "alpha_fraction": 0.6127590537071228, "alphanum_fraction": 0.6188541054725647, "avg_line_length": 27.604650497436523, "blob_id": "3e370c9ac6b3d2cc434ef6c1cf83cda582992a53", "content_id": "ca9f3376d0b573b8445a737a9491fdf3e6c3aef9", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C#", "length_bytes": 2476, "license_type": "permissive", "max_line_length": 94, "num_lines": 86, "path": "/AlgoLib_Csharp/src/DisjointSets.cs", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURA ZBIORÓW ROZŁĄCZNYCH UNION-FIND\nusing System;\nusing System.Linq;\nusing System.Collections.Generic;\n\npublic class DisjointSets<E>\n{\n /// <summary>\n /// Mapa reprezentantów elementów.\n /// </summary>\n private Dictionary<E, E> represents;\n\n public DisjointSets(IEnumerable<E> universe)\n {\n represents = new Dictionary<E, E>();\n\n for(E e : universe)\n represents[e] = e;\n }\n\n /// <summary>\n /// Liczenie zbiorów.\n /// </summary>\n /// <returns>liczba zbiorów</returns>\n public int Count()\n {\n return represents.Keys.Select(e => FindSet(e)).Distinct().ToList().Count;\n }\n\n /// <summary>\n /// Sprawdzanie należenia do dowolnego zbioru.\n /// </summary>\n /// <param name=\"element\">element</param>\n /// <returns>czy element w jednym ze zbiorów</returns>\n public bool Contains(E element)\n {\n return represents.ContainsKey(element);\n }\n\n /// <summary>\n /// Dodawanie nowego elementu jako singleton.\n /// </summary>\n /// <param name=\"element\">nowy element</param>\n public void AddElem(E element)\n {\n if(Contains(element))\n throw new ArgumentException(string.format(\"Value {0} already present.\", element));\n\n represents[element] = element;\n }\n\n /// <summary>\n /// Ustalanie reprezentanta zbioru.\n /// </summary>\n /// <param name=\"element\">element ze zbioru</param>\n /// <returns>reprezentant elementu</returns>\n public E FindSet(E element)\n {\n if(!represents[element].Equals(element))\n represents[element] = FindSet(represents[element]);\n\n return represents[element];\n }\n\n /// <summary>\n /// Scalanie dwóch zbiorów.\n /// </summary>\n /// <param name=\"element1\">element pierwszego zbioru</param>\n /// <param name=\"element2\">element drugiego zbioru</param>\n public void UnionSet(E element1, E element2)\n {\n if(!IsSameSet(element1, element2))\n represents[FindSet(element1)] = FindSet(element2);\n }\n\n /// <summary>\n /// Sprawdzanie, czy elementy należą do tego samego zbioru.\n /// </summary>\n /// <param name=\"element1\">element pierwszego zbioru</param>\n /// <param name=\"element2\">element drugiego zbioru</param>\n /// <returns>czy elementy znajdują się w jednym zbiorze</returns>\n public boolean IsSameSet(E element1, E element2)\n {\n return FindSet(element1).Equals(FindSet(element2));\n }\n}\n\n" }, { "alpha_fraction": 0.5914332866668701, "alphanum_fraction": 0.5914332866668701, "avg_line_length": 23.775510787963867, "blob_id": "108736a20738b94d3d9aaf94ad3cbf59f9b120db", "content_id": "d1a7929c1617c53a92e62b4bf62e6154cea97d9d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1234, "license_type": "permissive", "max_line_length": 91, "num_lines": 49, "path": "/AlgoLib_Cpp/include/algolib/graphs/paths.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "/\n @file paths.hpp\n * ALGORYTMY WYLICZANIA NAJKRÓTSZYCH ŚCIEŻEK W GRAFIE WAŻONYM\n /\n#ifndef _PATHS_HPP_\n#define _PATHS_HPP_\n\n#include <cstdlib>\n#include <exception>\n#include <stdexcept>\n#include <algorithm>\n#include <queue>\n#include <tuple>\n#include <vector>\n\n#include \"directed_graph.hpp\"\n\nnamespace algolib\n{\n namespace graphs\n {\n /\n Algorytm Bellmana-Forda.\n * @param wgraph graf ważony\n * @param source wierzchołek początkowy\n * @return lista odległości wierzchołków\n /\n std::vector<weight_t> bellman_ford(const directed_weighted_simple_graph & diwgraph,\n vertex_t source);\n\n /\n Algorytm Dijkstry.\n * @param wgraph graf ważony\n * @param source wierzchołek początkowy\n * @return lista odległości wierzchołków\n /\n std::vector<weight_t> dijkstra(const weighted_graph & wgraph, vertex_t source);\n\n /\n Algorytm Floyda-Warshalla.\n * @param wgraph graf ważony\n * @return macierz odległości\n /\n std::vector<std::vector<weight_t>>\n floyd_warshall(const directed_weighted_simple_graph & diwgraph);\n }\n}\n\n#endif\n" }, { "alpha_fraction": 0.8468899726867676, "alphanum_fraction": 0.8492823243141174, "avg_line_length": 54.733333587646484, "blob_id": "fe678152aad1a41f06584750569ef433965ec482", "content_id": "fd237315dbe3f6866f6440ee357691cb4d67f4e0", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 836, "license_type": "permissive", "max_line_length": 99, "num_lines": 15, "path": "/AlgoLib_Python/algolib/graphs/__init__.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "from .cutting import find_edge_cut, find_vertex_cut\nfrom .dinic import FlowGraphDinic\nfrom .directed_graph import DirectedGraph, DirectedSimpleGraph, DirectedWeightedSimpleGraph\nfrom .edmonds import FlowGraphEdmonds\nfrom .forest_graph import ForestGraph, CycleException\nfrom .graph import Graph, SimpleGraph, WeightedGraph, NoSuchVertexException\nfrom .matching import match\nfrom .lca import find_lca\nfrom .mst import kruskal, prim\nfrom .multipartite_graph import MultipartiteGraph, GraphPartitionException\nfrom .paths import bellman_ford, dijkstra, floyd_warshall\nfrom .scc import find_scc\nfrom .searching import bfs, iter_dfs, rec_dfs\nfrom .topological_sorting import sort_topological1, sort_topological2, DirectedCyclicGraphException\nfrom .undirected_graph import UndirectedGraph, UndirectedSimpleGraph, UndirectedWeightedSimpleGraph\n" }, { "alpha_fraction": 0.5981131792068481, "alphanum_fraction": 0.6320754885673523, "avg_line_length": 18.629629135131836, "blob_id": "7383bae02d5e733a0e7e6fb9e494a1b0862686db", "content_id": "67371cb565f98602db8f81dab6ec09098e124ece", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 530, "license_type": "permissive", "max_line_length": 67, "num_lines": 27, "path": "/AlgoLib_Cpp/run-tests.sh", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "#! /bin/sh\n\nTESTBIN_DIR=\"test/bin\"\nGTEST_OUTPUT_DIR=\"gtest_results\"\nBOLD_PURPLE=\"\\033[1;35m\"\nBOLD_RED=\"\\033[1;31m\"\nNORMAL=\"\\033[0m\"\n\ncd $(dirname $0)\necho \"\"\n\nif test ! -d $TEST_DIR\nthen\n echo \"${BOLD_RED}Test directory not found.${NORMAL}\"\n exit -1\nfi\n\nrm -rf $GTEST_OUTPUT_DIR && mkdir $GTEST_OUTPUT_DIR\necho \"${BOLD_PURPLE}Running GTest tests:${NORMAL}\"\n\nfor FILE in $TESTBIN_DIR/\ndo\n echo \"\\n${BOLD_PURPLE} >>>> $(basename $FILE) <<<<${NORMAL}\"\n ./$FILE --gtest_output=\"xml:./$GTEST_OUTPUT_DIR/\"\ndone\n\necho \"\"\n" }, { "alpha_fraction": 0.7543859481811523, "alphanum_fraction": 0.7543859481811523, "avg_line_length": 27.5, "blob_id": "f0812c13bf4d44e9ff8c5c8ad7cdc78b0940f5c8", "content_id": "593231313131e0ecf22cc281b6c72d91450b599b", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 57, "license_type": "permissive", "max_line_length": 42, "num_lines": 2, "path": "/AlgoLib_Cpp/src/algolib/structures/avl_tree.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// DRZEWO AVL\n#include \"algolib/structures/avl_tree.hpp\"\n" }, { "alpha_fraction": 0.5261083841323853, "alphanum_fraction": 0.5443349480628967, "avg_line_length": 32.40678024291992, "blob_id": "3c968c3d767b1639c51b2f1bca8cab067b53fcdc", "content_id": "2cceb6060b3f28431d76845d6c97a9cee99cefb6", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2043, "license_type": "permissive", "max_line_length": 93, "num_lines": 59, "path": "/AlgoLib_Python/algolib/maximum_subarray.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"ALGORYTMY WYZNACZANIA PODCIĄGU SPÓJNEGO O MAKSYMALNEJ SUMIE\"\"\"\r\n\r\n\r\ndef find_maximum_subarray(sequence):\r\n \"\"\"Wyznaczanie spójnego podciągu o maksymalnej sumie w sposób dynamiczny.\r\n :param sequence: ciąg\r\n :returns: elementy spójnego podciągu o maksymalnej sumie\"\"\"\r\n actual = [0, []]\r\n maximal = (0, [])\r\n\r\n for elem in sequence:\r\n if actual[0] < 0.0:\r\n actual = [0, []]\r\n\r\n actual[0] += elem\r\n actual[1].append(elem)\r\n\r\n if actual[0] > maximal[0]:\r\n maximal = (actual[0], actual[1][:])\r\n\r\n return maximal[1]\r\n\r\n\r\ndef find_maximal_sum(sequence):\r\n \"\"\"Wyznaczanie maksymalnej sumy spójnego podciągu za pomocą drzewa parzedziałowego.\r\n :param sequence: ciąg\r\n :returns: maksymalna suma\"\"\"\r\n size = 1\r\n\r\n while size < 2 * len(sequence):\r\n size = 2\r\n\r\n interval_sums = [0.0] size\r\n prefix_sums = [0.0] * size\r\n suffix_sums = [0.0] * size\r\n all_sums = [0.0] * size\r\n\r\n for i, elem in enumerate(sequence):\r\n index = size // 2 + i\r\n all_sums[index] += elem\r\n interval_sums[index] = max(all_sums[index], 0.0)\r\n prefix_sums[index] = max(all_sums[index], 0.0)\r\n suffix_sums[index] = max(all_sums[index], 0.0)\r\n index //= 2\r\n\r\n while index > 0:\r\n index_left = index + index\r\n index_right = index + index + 1\r\n interval_sums[index] = max(interval_sums[index_left], interval_sums[index_right],\r\n suffix_sums[index_left] + prefix_sums[index_right])\r\n prefix_sums[index] = max(prefix_sums[index_left],\r\n all_sums[index_left] + prefix_sums[index_right])\r\n suffix_sums[index] = max(suffix_sums[index_right],\r\n suffix_sums[index_left] + all_sums[index_right])\r\n all_sums[index] = all_sums[index_left] + all_sums[index_right]\r\n index //= 2\r\n\r\n return interval_sums[1]\r\n" }, { "alpha_fraction": 0.6081137657165527, "alphanum_fraction": 0.6135508418083191, "avg_line_length": 33.161766052246094, "blob_id": "6adb093ca65fe3ece1e990a7c48e7349a653177a", "content_id": "3ab4c03a26b54232c69f1f07a4f6a2baa8392102", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2414, "license_type": "permissive", "max_line_length": 89, "num_lines": 68, "path": "/AlgoLib_Python/algolib/graphs/paths.py", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\r\n\"\"\"ALGORYTMY WYZNACZANIA NAJKRÓTSZYCH ŚCIEŻEK W GRAFIE WAŻONYM\"\"\"\r\nimport queue\r\n\r\n\r\ndef bellman_ford(diwgraph, source):\r\n \"\"\"Algorytm Bellmana-Forda.\r\n :param diwgraph: skierowany graf ważony\r\n :param source: wierzchołek początkowy\r\n :return: lista odległości wierzchołków\"\"\"\r\n distances = [diwgraph.inf] * diwgraph.vertices_number\r\n distances[source] = 0.0\r\n\r\n for _ in range(diwgraph.vertices_number - 1):\r\n for v, u, wg in diwgraph.get_weighted_edges():\r\n distances[u] = min(distances[u], distances[v] + wg)\r\n\r\n for v, u, wg in diwgraph.get_weighted_edges():\r\n if distances[v] < diwgraph.inf and distances[v] + wg < distances[u]:\r\n raise ValueError(\"Graph contains a negative cycle.\")\r\n\r\n return distances\r\n\r\n\r\ndef dijkstra(wgraph, source):\r\n \"\"\"Algorytm Dijkstry.\r\n :param wgraph: graf ważony z wagami nieujemnymi\r\n :param source: wierzchołek początkowy\r\n :return: lista odległości wierzchołków\"\"\"\r\n if any(wg < 0.0 for _, _, wg in wgraph.get_weighted_edges()):\r\n raise ValueError(\"Graph contains an edge with negative weight.\")\r\n\r\n vertex_queue = queue.PriorityQueue()\r\n vertex_queue.put((0.0, source))\r\n is_visited = [False] * wgraph.vertices_number\r\n distances = [wgraph.inf] * wgraph.vertices_number\r\n distances[source] = 0.0\r\n\r\n while not vertex_queue.empty():\r\n v = vertex_queue.get()[1]\r\n\r\n if not is_visited[v]:\r\n is_visited[v] = True\r\n\r\n for nb, wg in wgraph.get_weighted_neighbours(v):\r\n if distances[v] + wg < distances[nb]:\r\n distances[nb] = distances[v] + wg\r\n vertex_queue.put((distances[nb], nb))\r\n\r\n return distances\r\n\r\n\r\ndef floyd_warshall(diwgraph):\r\n \"\"\"Algorytm Floyda-Warshalla.\r\n :param diwgraph: skierowany graf ważony\r\n :returns: macierz odległości wierzchołków\"\"\"\r\n distances = [[0.0 if v == u else diwgraph.inf for u in diwgraph.get_vertices()]\r\n for v in diwgraph.get_vertices()]\r\n\r\n for v, u, wg in diwgraph.get_weighted_edges():\r\n distances[v][u] = wg\r\n\r\n for w in diwgraph.get_vertices():\r\n for v in diwgraph.get_vertices():\r\n for u in diwgraph.get_vertices():\r\n distances[v][u] = min(distances[v][u], distances[v][w] + distances[w][u])\r\n\r\n return distances\r\n" }, { "alpha_fraction": 0.52183997631073, "alphanum_fraction": 0.5330498814582825, "avg_line_length": 25.231578826904297, "blob_id": "ff90e221a651b94c790d057a9032666032f99a13", "content_id": "7a3ee449ccb612a35882582459f8826394ff52e9", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2587, "license_type": "permissive", "max_line_length": 91, "num_lines": 95, "path": "/AlgoLib_Cpp/src/algolib/structures/equation_system.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURA UKŁADÓW RÓWNAŃ LINIOWYCH Z ALGORYTMEM ELIMINACJI GAUSSA\r\n#include \"algolib/structures/equation_system.hpp\"\r\n\r\nnamespace alst = algolib::structures;\r\n\r\nalst::equation_system::equation_system(\r\n std::initializer_list<std::initializer_list<double>> init_list)\r\n : equations{init_list.size()}\r\n{\r\n coeffs.reserve(equations);\r\n free_terms.reserve(equations);\r\n\r\n for(auto it : init_list)\r\n if(it.size() != equations + 1)\r\n throw std::length_error(\"Initializer matrix is not a square matrix.\");\r\n\r\n for(auto it : init_list)\r\n {\r\n coeffs.push_back(it);\r\n free_terms.push_back(coeffs.back().back());\r\n coeffs.pop_back();\r\n }\r\n}\r\n\r\nstd::vector<double> alst::equation_system::solve()\r\n{\r\n gaussian_reduce();\r\n\r\n if(coeffs.back().back() == 0 && free_terms.back() == 0)\r\n throw infinite_solutions_exception(\"\");\r\n\r\n if(coeffs.back().back() == 0 && free_terms.back() != 0)\r\n throw no_solution_exception(\"\");\r\n\r\n std::vector<double> solution(equations);\r\n\r\n solution.back() = free_terms.back() / coeffs.back().back();\r\n\r\n for(int equ = equations - 2; equ >= 0; --equ)\r\n {\r\n double value = free_terms[equ];\r\n\r\n for(int i = equations - 1; i > equ; --i)\r\n value -= coeffs[equ][i] * solution[i];\r\n\r\n solution[equ] = value / coeffs[equ][equ];\r\n }\r\n\r\n return solution;\r\n}\r\n\r\nvoid alst::equation_system::gaussian_reduce()\r\n{\r\n for(size_t equ = 0; equ < equations - 1; ++equ)\r\n {\r\n int index_min = equ;\r\n\r\n for(size_t i = equ + 1; i < equations; ++i)\r\n {\r\n double min_coef = coeffs[index_min][equ];\r\n double act_coef = coeffs[i][equ];\r\n\r\n if(act_coef != 0 && (min_coef == 0 \|\| std::abs(act_coef) < std::abs(min_coef)))\r\n index_min = i;\r\n }\r\n\r\n if(coeffs[index_min][equ] != 0)\r\n {\r\n change(equ, index_min);\r\n\r\n for(size_t i = equ + 1; i < equations; ++i)\r\n {\r\n double param = coeffs[i][equ] / coeffs[equ][equ];\r\n\r\n linear_comb(i, equ, -param);\r\n }\r\n }\r\n }\r\n}\r\n\r\nvoid alst::equation_system::change(int equ1, int equ2)\r\n{\r\n for(size_t i = 0; i < equations; ++i)\r\n std::swap(coeffs[equ1][i], coeffs[equ2][i]);\r\n\r\n std::swap(free_terms[equ1], free_terms[equ2]);\r\n}\r\n\r\nvoid alst::equation_system::linear_comb(int equ1, int equ2, double cst)\r\n{\r\n for(size_t i = 0; i < equations; ++i)\r\n coeffs[equ1][i] += cst * coeffs[equ2][i];\r\n\r\n free_terms[equ1] += cst * free_terms[equ2];\r\n}\r\n" }, { "alpha_fraction": 0.5624603629112244, "alphanum_fraction": 0.5700697302818298, "avg_line_length": 27.754716873168945, "blob_id": "35163d582609ee6c3e3f4fe790bfa34cd94f6a79", "content_id": "bd8b4e0b52a8bcdcafa0befd03dca2e285fe4dae", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1598, "license_type": "permissive", "max_line_length": 76, "num_lines": 53, "path": "/AlgoLib_Cpp/include/algolib/math/maths.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY MATEMATYCZNE\r\n#ifndef _MATHS_HPP_\r\n#define _MATHS_HPP_\r\n\r\n#include <cstdlib>\r\n#include <cmath>\r\n#include <exception>\r\n#include <stdexcept>\r\n#include <algorithm>\r\n\r\nnamespace algolib\r\n{\r\n namespace math\r\n {\r\n /*\r\n Największy wspólny dzielnik dwóch liczb.\r\n * @param number1 pierwsza liczba\r\n * @param number2 druga liczba\r\n * @return największy wspólny dzielnik\r\n /\r\n long long int gcd(long long int number1, long long int number2);\r\n\r\n /\r\n Najmniejsza wspólna wielokrotność dwóch liczb.\r\n * @param number1 pierwsza liczba\r\n * @param number2 druga liczba\r\n * @return najmniejsza wspólna wielokrotność\r\n /\r\n long long int lcm(long long int number1, long long int number2);\r\n\r\n /\r\n Szybkie mnożenie binarne modulowane.\r\n * @param factor1 mnnożna\r\n * @param factor2 mnożnik\r\n * @param modulo modulo\r\n * @return wynik mnożenia wzięty modulo\r\n /\r\n long long int mult_mod(long long int factor1, long long int factor2,\r\n unsigned long long int modulo);\r\n\r\n /\r\n Szybkie potęgowanie binarne modulowane.\r\n * @param base podstawa\r\n * @param exponent wykładnik\r\n * @param modulo modulo\r\n * @return wynik potęgowania wzięty modulo\r\n /\r\n long long int power_mod(long long int base, long long int exponent,\r\n unsigned long long int modulo);\r\n }\r\n}\r\n\r\n#endif\r\n" }, { "alpha_fraction": 0.49353569746017456, "alphanum_fraction": 0.5129286050796509, "avg_line_length": 32.5436897277832, "blob_id": "82abb428462d8048b4b0e3dbf208aa637e22b2f0", "content_id": "7d121a15c73051b30849ed13ed88b5c6a9072ec7", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C#", "length_bytes": 3577, "license_type": "permissive", "max_line_length": 99, "num_lines": 103, "path": "/AlgoLib_Csharp/src/Maths.cs", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY MATEMATYCZNE\r\nusing System;\r\nusing System.Math;\r\n\r\nnamespace Algolib.Maths\r\n{\r\n class Maths\r\n {\r\n /// <summary>\r\n /// Największy wspólny dzielnik dwóch liczb.\r\n /// </summary>\r\n /// <param name=\"number1\">pierwsza liczba</param>\r\n /// <param name=\"number2\">druga liczba</param>\r\n /// <returns>największy wspólny dzielnik</returns>\r\n public static long GCD(long number1, long number2)\r\n {\r\n Tuple<long, long> numberPair = Tuple.Create(Math.Min(number1, number2),\r\n Math.Max(number1, number2));\r\n\r\n while(numberPair.Item1 > 0)\r\n numberPair = Tuple.Create(numberPair.Item2 % numberPair.Item1, numberPair.Item1);\r\n\r\n return numberPair.Item2;\r\n }\r\n\r\n /// <summary>\r\n /// Najmniejsza wspólna wielokrotność dwóch liczb.\r\n /// </summary>\r\n /// <param name=\"number1\">pierwsza liczba</param>\r\n /// <param name=\"number2\">druga liczba</param>\r\n /// <returns>najmniejsza wspólna wielokrotność</returns>\r\n public static long LCM(long number1, long number2)\r\n {\r\n return Math.Max(number1, number2) / gcd(number1, number2) Math.Min(number1, number2);\r\n }\r\n\r\n /// <summary>\r\n /// Szybkie mnożenie binarne modulowane.\r\n /// </summary>\r\n /// <param name=\"factor1\">pierwszy czynnik</param>\r\n /// <param name=\"factor2\">drugi czynnik</param>\r\n /// <returns>wynik mnożenia wzięty modulo</returns>\r\n public static long MultMod(long factor1, long factor2, long modulo)\r\n {\r\n long result = 0;\r\n\r\n if(modulo < 0)\r\n throw new ArithmeticException(\"Negative modulo.\");\r\n\r\n if(factor1 < 0 && factor2 < 0)\r\n return MultMod(-factor1, -factor2, modulo);\r\n\r\n if(factor1 < 0)\r\n return modulo - MultMod(-factor1, factor2, modulo);\r\n\r\n if(factor2 < 0)\r\n return modulo - MultMod(factor1, -factor2, modulo);\r\n\r\n while(factor2 > 0)\r\n {\r\n if(factor2 % 2 == 1)\r\n result = modulo == 0 ? factor1 + result : (factor1 + result) % modulo;\r\n\r\n factor1 = modulo == 0 ? factor1 + factor1 : (factor1 + factor1) % modulo;\r\n factor2 >>= 1;\r\n }\r\n\r\n return result;\r\n }\r\n\r\n /// <summary>\r\n /// Szybkie potęgowanie binarne modulowane.\r\n /// </summary>\r\n /// <param name=\"baseNum\">podstawa</param>\r\n /// <param name=\"exponent\">wykładnik</param>\r\n /// <param name=\"modulo\">modulo</param>\r\n /// <returns>wynik potęgowania wzięty modulo</returns>\r\n public static long PowerMod(long baseNum, long exponent, long modulo)\r\n {\r\n long result = 1;\r\n\r\n if(modulo < 0)\r\n throw new ArithmeticException(\"Negative modulo.\");\r\n\r\n if(exponent < 0)\r\n throw new ArithmeticException(\"Negative exponent.\");\r\n\r\n if(baseNum == 0 && exponent == 0)\r\n throw new NotFiniteNumberException(\"Zero to the power of zero is NaN.\");\r\n\r\n while(exponent > 0)\r\n {\r\n if(exponent % 2 == 1)\r\n result = MultMod(result, baseNum, modulo);\r\n\r\n baseNum = MultMod(baseNum, baseNum, modulo);\r\n exponent >>= 1;\r\n }\r\n\r\n return result;\r\n }\r\n }\r\n}\r\n" }, { "alpha_fraction": 0.5750378966331482, "alphanum_fraction": 0.5785750150680542, "avg_line_length": 28.921875, "blob_id": "299753f261f74970e4235d89f348c84cf870a5b2", "content_id": "285c6286e3d2d491a3f1f8cfbd9a0b39754d0d24", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1979, "license_type": "permissive", "max_line_length": 96, "num_lines": 64, "path": "/AlgoLib_Cpp/src/algolib/graphs/cutting.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// WYSZUKIWANIE MOSTÓW I PUNKTÓW ARTYKULACJI W GRAFIE\r\n#include \"algolib/graphs/cutting.hpp\"\r\n\r\nnamespace algr = algolib::graph;\r\n\r\nstd::vector<edge_t> detail::graph_cutting::edge_cut()\r\n{\r\n std::vector<edge_t> bridges;\r\n\r\n for(auto v : graph.get_vertices())\r\n if(dfs_depths[v] == -1)\r\n dfs(v, graph.get_vertices_number(), 0);\r\n\r\n for(auto v : graph.get_vertices())\r\n if(has_bridge(v))\r\n bridges.emplace_back(std::min(v, dfs_parents[v]), std::max(v, dfs_parents[v]));\r\n\r\n return bridges;\r\n}\r\n\r\nstd::vector<vertex_t> detail::graph_cutting::vertex_cut()\r\n{\r\n std::vector<vertex_t> separators;\r\n\r\n for(auto v : graph.get_vertices())\r\n if(dfs_depths[v] == -1)\r\n dfs(v, graph.get_vertices_number(), 0);\r\n\r\n for(auto v : graph.get_vertices())\r\n if(is_separator(v))\r\n separators.push_back(v);\r\n\r\n return separators;\r\n}\r\n\r\nbool detail::graph_cutting::has_bridge(vertex_t vertex)\r\n{\r\n return low_values[vertex] == dfs_depths[vertex] && !is_dfs_root(vertex);\r\n}\r\n\r\nbool detail::graph_cutting::is_separator(vertex_t vertex)\r\n{\r\n return is_dfs_root(vertex)\r\n ? dfs_children[vertex].size() > 1\r\n : std::any_of(dfs_children[vertex].begin(), dfs_children[vertex].end(),\r\n [&](vertex_t ch) { return low_values[ch] >= dfs_depths[vertex]; });\r\n}\r\n\r\nvoid detail::graph_cutting::dfs(vertex_t vertex, vertex_t parent, int depth)\r\n{\r\n dfs_parents[vertex] = parent;\r\n dfs_depths[vertex] = depth;\r\n low_values[vertex] = depth;\r\n\r\n for(auto neighbour : graph.get_neighbours(vertex))\r\n if(dfs_depths[neighbour] == -1)\r\n {\r\n dfs_children[vertex].push_back(neighbour);\r\n dfs(neighbour, vertex, depth + 1);\r\n low_values[vertex] = std::min(low_values[vertex], low_values[neighbour]);\r\n }\r\n else if(neighbour != parent)\r\n low_values[vertex] = std::min(low_values[vertex], dfs_depths[neighbour]);\r\n};\r\n" }, { "alpha_fraction": 0.4573054909706116, "alphanum_fraction": 0.4677419364452362, "avg_line_length": 19.95833396911621, "blob_id": "58fcfa04358314f75ed313a6f52fa02f0d48e777", "content_id": "127883c32c387bfaa32e45205ad2faef37f256c5", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1055, "license_type": "permissive", "max_line_length": 87, "num_lines": 48, "path": "/AlgoLib_Cpp/src/algolib/kmp.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTM KNUTHA-MORRISA-PRATTA WYSZUKIWANIA WZORCA W TEKŚCIE\r\n#include \"algolib/kmp.hpp\"\r\n\r\nstd::vector<size_t> detail::prefixes(const std::string & pattern)\r\n{\r\n std::vector<size_t> pi(1, 0);\r\n size_t pos = 0;\r\n\r\n for(const char & ltr : pattern)\r\n {\r\n while(pos > 0 && pattern[pos] != ltr)\r\n pos = pi[pos - 1];\r\n\r\n if(pattern[pos] == ltr)\r\n ++pos;\r\n\r\n pi.push_back(pos);\r\n }\r\n\r\n return pi;\r\n}\r\n\r\nstd::vector<size_t> algolib::kmp(const std::string & text, const std::string & pattern)\r\n{\r\n std::vector<size_t> places;\r\n std::vector<size_t> pi = detail::prefixes(pattern);\r\n size_t pos = 0;\r\n\r\n if(pattern == \"\")\r\n return std::vector<size_t>();\r\n\r\n for(size_t i = 0; i < text.size(); ++i)\r\n {\r\n while(pos > 0 && pattern[pos] != text[i])\r\n pos = pi[pos - 1];\r\n\r\n if(pattern[pos] == text[i])\r\n ++pos;\r\n\r\n if(pos == pattern.size())\r\n {\r\n places.push_back(i - pattern.size() + 1);\r\n pos = pi[pos - 1];\r\n }\r\n }\r\n\r\n return places;\r\n}\r\n" }, { "alpha_fraction": 0.8214285969734192, "alphanum_fraction": 0.8214285969734192, "avg_line_length": 41, "blob_id": "7fc1c882325c267ef60b6074f327eb9715ecaa09", "content_id": "508e370734042717a50db92ac383cdea7e2c4624", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 85, "license_type": "permissive", "max_line_length": 48, "num_lines": 2, "path": "/AlgoLib_Cpp/src/algolib/graphs/multipartite_graph.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// STRUKTURY GRAFÓW WIELODZIELNYCH\n#include \"algolib/graphs/multipartite_graph.hpp\"\n" }, { "alpha_fraction": 0.4120790958404541, "alphanum_fraction": 0.44361305236816406, "avg_line_length": 39.673912048339844, "blob_id": "519ef38c3dcf1cfb4ee91baffcb5d8a94b57add2", "content_id": "54aaaad28cb7dfd9c095218a44ac1866e91b3d4c", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 3745, "license_type": "permissive", "max_line_length": 98, "num_lines": 92, "path": "/AlgoLib_Java/test/refhumbold/algolib/graphs/CuttingTest.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA ALGORYTMÓW WYSZUKIWANIA MOSTÓW I PUNKTÓW ARTYKULACJI\npackage refhumbold.algolib.graphs;\n\nimport java.util.Arrays;\nimport java.util.Collection;\nimport org.junit.After;\nimport org.junit.Assert;\nimport org.junit.Before;\nimport org.junit.Test;\n\nimport refhumbold.algolib.tuples.ComparablePair;\nimport refhumbold.algolib.tuples.Pair;\n\npublic class CuttingTest\n{\n private UndirectedGraph graph;\n\n @Before\n public void setUp()\n {\n }\n\n @After\n public void tearDown()\n {\n graph = null;\n }\n\n @Test\n public void testFindBridgesWhenPresentBridges()\n {\n graph = new UndirectedSimpleGraph(12, Arrays.asList(Pair.make(0, 1), Pair.make(0, 2),\n Pair.make(0, 7), Pair.make(1, 2),\n Pair.make(1, 3), Pair.make(1, 4),\n Pair.make(3, 5), Pair.make(4, 5),\n Pair.make(5, 6), Pair.make(7, 8),\n Pair.make(7, 9), Pair.make(7, 11),\n Pair.make(8, 9), Pair.make(9, 10),\n Pair.make(9, 11), Pair.make(10, 11)));\n\n Object[] result = Cutting.findEdgeCut(graph).toArray();\n\n Arrays.sort(result);\n\n Assert.assertArrayEquals(new Object[]{Pair.make(0, 7), Pair.make(5, 6)}, result);\n }\n\n @Test\n public void testFindBridgesWhenNoBridges()\n {\n graph = new UndirectedSimpleGraph(6, Arrays.asList(Pair.make(0, 1), Pair.make(0, 2),\n Pair.make(1, 2), Pair.make(1, 3),\n Pair.make(1, 4), Pair.make(3, 5),\n Pair.make(4, 5)));\n\n Collection<ComparablePair<Integer, Integer>> result = Cutting.findEdgeCut(graph);\n\n Assert.assertArrayEquals(new Object[]{}, result.toArray());\n }\n\n @Test\n public void testFindVertexSeparatorsWhenPresentSeparators()\n {\n graph = new UndirectedSimpleGraph(12, Arrays.asList(Pair.make(0, 1), Pair.make(0, 2),\n Pair.make(0, 7), Pair.make(1, 2),\n Pair.make(1, 3), Pair.make(1, 4),\n Pair.make(3, 5), Pair.make(4, 5),\n Pair.make(5, 6), Pair.make(7, 8),\n Pair.make(7, 9), Pair.make(7, 11),\n Pair.make(8, 9), Pair.make(9, 10),\n Pair.make(9, 11), Pair.make(10, 11)));\n\n Object[] result = Cutting.findVertexCut(graph).toArray();\n\n Arrays.sort(result);\n\n Assert.assertArrayEquals(new Integer[]{0, 1, 5, 7}, result);\n }\n\n @Test\n public void testFindVertexSeparatorsWhenNoSeparators()\n {\n graph = new UndirectedSimpleGraph(6, Arrays.asList(Pair.make(0, 1), Pair.make(0, 2),\n Pair.make(1, 2), Pair.make(1, 3),\n Pair.make(1, 4), Pair.make(2, 3),\n Pair.make(3, 5), Pair.make(4, 5)));\n\n Collection<Integer> result = Cutting.findVertexCut(graph);\n\n Assert.assertArrayEquals(new Object[]{}, result.toArray());\n }\n}\n" }, { "alpha_fraction": 0.5478650331497192, "alphanum_fraction": 0.569903552532196, "avg_line_length": 25.88888931274414, "blob_id": "e8e90164e980dd30068bbeb8f774f4394cd0566e", "content_id": "98f58b9cf15b045896c84870578f8402b227fdbc", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 2923, "license_type": "permissive", "max_line_length": 86, "num_lines": 108, "path": "/AlgoLib_Java/src/refhumbold/algolib/math/Maths.java", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTMY MATEMATYCZNE\npackage refhumbold.algolib.math;\n\npublic class Maths\n{\n /*\n Największy wspólny dzielnik dwóch liczb.\n * @param number1 pierwsza liczba\n * @param number2 druga liczba\n * @return największy wspólny dzielnik\n /\n public static long gcd(long number1, long number2)\n {\n long min_number = Math.min(number1, number2);\n long max_number = Math.max(number1, number2);\n\n while(min_number > 0)\n {\n long rem = max_number % min_number;\n\n max_number = min_number;\n min_number = rem;\n }\n\n return max_number;\n }\n\n /\n Najmniejsza wspólna wielokrotność dwóch liczb.\n * @param number1 pierwsza liczba\n * @param number2 druga liczba\n * @return najmniejsza wspólna wielokrotność\n /\n public static long lcm(long number1, long number2)\n {\n long min_number = Math.min(number1, number2);\n long max_number = Math.max(number1, number2);\n\n return max_number / Maths.gcd(number1, number2) min_number;\n }\n\n /*\n Mnożenie binarne modulowane.\n * @param factor1 pierwszy czynnik\n * @param factor2 drugi czynnik\n * @param modulo modulo\n * @return wynik mnożenia wzięty modulo\n /\n public static long multMod(long factor1, long factor2, long modulo)\n {\n long result = 0;\n\n if(modulo < 0)\n throw new ArithmeticException(\"Negative modulo.\");\n\n if(factor1 < 0 && factor2 < 0)\n return Maths.multMod(-factor1, -factor2, modulo);\n\n if(factor1 < 0)\n return modulo - Maths.multMod(-factor1, factor2, modulo);\n\n if(factor2 < 0)\n return modulo - Maths.multMod(factor1, -factor2, modulo);\n\n while(factor2 > 0)\n {\n if(factor2 % 2 == 1)\n result = modulo == 0 ? result + factor1 : (result + factor1) % modulo;\n\n factor1 = modulo == 0 ? factor1 + factor1 : (factor1 + factor1) % modulo;\n factor2 >>= 1;\n }\n\n return result;\n }\n\n /\n Szybkie potęgowanie binarne modulowane.\n * @param base podstawa\n * @param exponent wykładnik\n * @param modulo modulo\n * @return wynik potęgowania wzięty modulo\n /\n public static long powerMod(long base, long exponent, long modulo)\n {\n long result = 1;\n\n if(modulo < 0)\n throw new ArithmeticException(\"Negative modulo.\");\n\n if(exponent < 0)\n throw new ArithmeticException(\"Negative exponent.\");\n\n if(base == 0 && exponent == 0)\n throw new ArithmeticException(\"Not a number.\");\n\n while(exponent > 0)\n {\n if(exponent % 2 == 1)\n result = Maths.multMod(result, base, modulo);\n\n base = Maths.multMod(base, base, modulo);\n exponent >>= 1;\n }\n\n return result;\n }\n}\n" }, { "alpha_fraction": 0.6519026756286621, "alphanum_fraction": 0.6562694907188416, "avg_line_length": 22.573530197143555, "blob_id": "4bec8306dd6f940b3c4878404b6e106c271aab2a", "content_id": "8e7063afb42d1d1cd0fb292e5d032b2a1a129cc4", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1642, "license_type": "permissive", "max_line_length": 81, "num_lines": 68, "path": "/AlgoLib_Cpp/include/algolib/graphs/dinic.hpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// ALGORYTM DINICA: MAKSYMALNY PRZEPŁYW\n#ifndef DINIC_HPP\n#define DINIC_HPP\n\n#include <cstdlib>\n#include <algorithm>\n#include <queue>\n#include <vector>\n\nclass dinic_flow_graph\n{\nprivate:\n /oznaczenie nieskończoności /\n static constexpr double INF = 1 << 30;\n\n /** lista sąsiedztwa grafu warstwowego /\n std::vector<std::vector<int>> layer_graph;\n\n /* liczba wierzchołków grafu /\n int num_vertex;\n\n /* lista sąsiedztwa grafu przepływowego /\n std::vector<std::vector<int>> graphrepr;\n\n /* macierz przeputowości /\n std::vector<std::vector<double>> capacities;\n\npublic:\n /\n @param n liczba wierzchołków\n /\n explicit dinic_flow_graph(int n) : num_vertex{n}\n {\n graphrepr.resize(n + 1);\n capacities.resize(n + 1);\n\n for(size_t i = 0; i < capacities.size(); ++i)\n capacities[i].resize(n + 1, INF);\n }\n\n /*\n WYLICZANIE CAŁOŚCIOWEGO PRZEPŁYWU W GRAFIE\n @param source źródło\n @param target ujście\n @return maksymalny przepływ sieci\n /\n double count_flow(int source, int target);\n\nprivate:\n /*\n ALGORYTM BFS TWORZĄCY GRAF WARSTWOWY\n @param source źródło\n @param target ujście\n @return czy uda się powiększyć przepływ\n /\n bool bfs(int source, int target);\n\n /*\n ALGORYTM DFS NA GRAFIE WARSTWOWYM WYZNACZAJĄCY PRZEPŁYW BLOKUJĄCY DLA ŚCIEŻEK\n @param vertex aktualny wierzchołek\n @param target ujście\n @param blocking_flow stary przepływ blokujący\n @return nowy przepływ blokujący\n /\n double dfs(int vertex, int target, double blocking_flow);\n};\n\n#endif\n" }, { "alpha_fraction": 0.6052409410476685, "alphanum_fraction": 0.6282755732536316, "avg_line_length": 20.125, "blob_id": "c1cfac5ca0280039c4f6addd1bdd55a7c86ee5d0", "content_id": "36ee44662650faafe038830a50c8615ef888762c", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 4732, "license_type": "permissive", "max_line_length": 98, "num_lines": 224, "path": "/AlgoLib_Cpp/test/avl_tree_test.cpp", "repo_name": "ref-humbold/AlgoLib", "src_encoding": "UTF-8", "text": "// TESTY DLA DRZEWA AVL\n#include <gtest/gtest.h>\n#include \"algolib/structures/avl_tree.hpp\"\n\nnamespace alst = algolib::structures;\n\nclass AVLTreeTest : public ::testing::Test\n{\nprotected:\n alst::avl_tree<int> test_object;\n std::vector<int> numbers = {10, 6, 14, 97, 24, 37, 2, 30, 45, 18, 51, 71, 68, 26};\n\npublic:\n AVLTreeTest()\n : test_object{alst::avl_tree<int>({10, 6, 14, 97, 24, 37, 2, 30, 45, 18, 51, 71, 68, 26})}\n {\n }\n\n virtual ~AVLTreeTest()\n {\n }\n};\n\nTEST_F(AVLTreeTest, testEmptyWhenEmpty)\n{\n test_object = alst::avl_tree<int>();\n\n bool result = test_object.empty();\n\n EXPECT_TRUE(result);\n}\n\nTEST_F(AVLTreeTest, testIsEmptyWhenNotEmpty)\n{\n bool result = test_object.empty();\n\n EXPECT_FALSE(result);\n}\n\nTEST_F(AVLTreeTest, testSizeWhenEmpty)\n{\n test_object = alst::avl_tree<int>();\n\n int result = test_object.size();\n\n EXPECT_EQ(0, result);\n}\n\nTEST_F(AVLTreeTest, testSizeWhenNotEmpty)\n{\n int result = test_object.size();\n\n EXPECT_EQ(numbers.size(), result);\n}\n\nTEST_F(AVLTreeTest, testFindWhenPresentElement)\n{\n for(auto i : numbers)\n {\n auto result = test_object.find(i);\n\n EXPECT_NE(test_object.end(), result);\n }\n}\n\nTEST_F(AVLTreeTest, testFindWhenOuterElement)\n{\n std::vector<int> elems = {111, 140, 187};\n\n for(auto i : elems)\n {\n auto result = test_object.find(i);\n\n EXPECT_EQ(test_object.end(), result);\n }\n}\n\nTEST_F(AVLTreeTest, testIteratorWhenFullForLoop)\n{\n std::vector<int> result;\n std::vector<int> sorted_numbers = numbers;\n\n for(auto it = test_object.begin(); it != test_object.end(); ++it)\n result.push_back(it);\n\n std::sort(sorted_numbers.begin(), sorted_numbers.end());\n\n EXPECT_EQ(sorted_numbers, result);\n}\n\nTEST_F(AVLTreeTest, testIteratorWhenRangeBasedForLoop)\n{\n std::vector<int> result;\n std::vector<int> sorted_numbers = numbers;\n\n for(const auto & e : test_object)\n result.push_back(e);\n\n std::sort(sorted_numbers.begin(), sorted_numbers.end());\n\n EXPECT_EQ(sorted_numbers, result);\n}\n\nTEST_F(AVLTreeTest, testReverseIterator)\n{\n std::vector<int> result;\n std::vector<int> reversed_numbers = numbers;\n\n for(auto it = test_object.rbegin(); it != test_object.rend(); ++it)\n result.push_back(it);\n\n std::sort(reversed_numbers.rbegin(), reversed_numbers.rend());\n\n EXPECT_EQ(reversed_numbers, result);\n}\n\nTEST_F(AVLTreeTest, testInsertWhenNewElement)\n{\n std::vector<int> elems = {111, 140, 187};\n\n for(auto i : elems)\n {\n auto result = test_object.insert(i);\n\n EXPECT_TRUE(result.second);\n EXPECT_NE(test_object.end(), result.first);\n EXPECT_EQ(i, result.first);\n EXPECT_NE(test_object.end(), test_object.find(i));\n }\n}\n\nTEST_F(AVLTreeTest, testInsertWhenPresentElement)\n{\n std::vector<int> elems = {14, 24, 30, 45};\n\n for(auto i : elems)\n {\n auto result = test_object.insert(i);\n\n EXPECT_FALSE(result.second);\n EXPECT_NE(test_object.end(), result.first);\n EXPECT_EQ(i, result.first);\n EXPECT_NE(test_object.end(), test_object.find(i));\n }\n}\n\nTEST_F(AVLTreeTest, testEraseWhenPresentElement)\n{\n std::vector<int> elems = {14, 24, 30, 45};\n\n for(auto i : elems)\n {\n test_object.erase(i);\n\n EXPECT_EQ(test_object.end(), test_object.find(i));\n }\n}\n\nTEST_F(AVLTreeTest, testEraseRootWhenTwoElements1)\n{\n int root = 27;\n int elem = 11;\n\n test_object = alst::avl_tree<int>({root, elem});\n\n test_object.erase(root);\n\n EXPECT_EQ(test_object.end(), test_object.find(root));\n EXPECT_NE(test_object.end(), test_object.find(elem));\n}\n\nTEST_F(AVLTreeTest, testEraseRootWhenTwoElements2)\n{\n int root = 11;\n int elem = 27;\n\n test_object = alst::avl_tree<int>({root, elem});\n\n test_object.erase(root);\n\n EXPECT_EQ(test_object.end(), test_object.find(root));\n EXPECT_NE(test_object.end(), test_object.find(elem));\n}\n\nTEST_F(AVLTreeTest, testEraseRootWhenOneElement)\n{\n int root = 0;\n\n test_object = alst::avl_tree<int>({root});\n\n test_object.erase(root);\n\n EXPECT_EQ(test_object.end(), test_object.find(root));\n EXPECT_TRUE(test_object.empty());\n}\n\nTEST_F(AVLTreeTest, testEraseWhenEmpty)\n{\n test_object = alst::avl_tree<int>();\n\n test_object.erase(0);\n\n EXPECT_TRUE(test_object.empty());\n}\n\nTEST_F(AVLTreeTest, testEraseWhenOuterElement)\n{\n std::vector<int> elems = {111, 140, 187};\n\n for(auto i : elems)\n {\n test_object.erase(i);\n\n EXPECT_EQ(test_object.end(), test_object.find(i));\n }\n}\n\nTEST_F(AVLTreeTest, testClear)\n{\n test_object.clear();\n\n EXPECT_TRUE(test_object.empty());\n EXPECT_EQ(0, test_object.size());\n}\n" } ]	156
redhat-openstack/octario	https://github.com/redhat-openstack/octario	622bad1d3fb59b43c63144a9def701b48dc1d3eb	6e1aba191dedfb0fee0c2b4f6103e8c2f53f3f20	4caf49e797d354b931422ee1f30014c64b3767bd	refs/heads/master	2023-09-01T14:58:39.755092	2023-06-23T08:58:56	2023-06-23T11:40:38	55,143,730	10	16	Apache-2.0	2016-03-31T10:57:49	2019-06-28T11:45:56	2019-06-28T11:45:54	Python	[ { "alpha_fraction": 0.6429699659347534, "alphanum_fraction": 0.6482359170913696, "avg_line_length": 32.91071319580078, "blob_id": "950a95f272a2a144d9b744221effd5eb63d99fe3", "content_id": "4f5d8a26d9a5c61e390bade89b5642286a6ccd04", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1899, "license_type": "permissive", "max_line_length": 79, "num_lines": 56, "path": "/plugins/callbacks/debug.py", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "# Copyright 2016 Red Hat, Inc.\n# All Rights Reserved.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\"); you may\n# not use this file except in compliance with the License. You may obtain\n# a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS, WITHOUT\n# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the\n# License for the specific language governing permissions and limitations\n# under the License.\n\"\"\" debug module is the new name of the human_readably module \"\"\"\n\nfrom __future__ import (absolute_import, division, print_function)\nfrom ansible.plugins.callback.default \\\n import CallbackModule as CallbackModule_default\n\n__metaclass__ = type\n\n\nclass CallbackModule(CallbackModule_default): # pylint: \\\n # disable=too-few-public-methods,no-init\n '''\n Override for the default callback module.\n\n Render std err/out outside of the rest of the result which it prints with\n indentation.\n '''\n CALLBACK_VERSION = 2.0\n CALLBACK_TYPE = 'stdout'\n CALLBACK_NAME = 'debug'\n\n def _dump_results(self, result):\n '''Return the text to output for a result.'''\n\n # Enable JSON identation\n result['_ansible_verbose_always'] = True\n\n save = {}\n for key in ['stdout', 'stdout_lines', 'stderr', 'stderr_lines', 'msg']:\n if key in result:\n save[key] = result.pop(key)\n\n output = CallbackModule_default._dump_results(self, result)\n\n for key in ['stdout', 'stderr', 'msg']:\n if key in save and save[key]:\n output += '\\n\\n%s:\\n\\n%s\\n' % (key.upper(), save[key])\n\n for key, value in save.items():\n result[key] = value\n\n return output\n" }, { "alpha_fraction": 0.44789355993270874, "alphanum_fraction": 0.44789355993270874, "avg_line_length": 35.08000183105469, "blob_id": "d21e2dab9afb8e4b4edf9d401b4c7b951c88d4d5", "content_id": "379b562efed789d5996fad43f0018c8c3d448631", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 902, "license_type": "permissive", "max_line_length": 90, "num_lines": 25, "path": "/plugin.spec", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "plugin_type: test\ndescription: Octario test runner\nsubparsers:\n octario:\n help: Octario test runner\n description: Octario test runner\n include_groups: ['Ansible options', 'Inventory', 'Common options', 'Answers file']\n groups:\n - title: Octario\n options:\n t:\n metavar: TESTER\n type: Value\n help: \"Octario tester to be ran.\"\n required: yes\n dir:\n type: VarDir\n help: \"Path to component directory\"\n required: yes\n tester-host:\n type: Value\n help: Inventory host to use as tester\n tester-group:\n type: Value\n help: Inventory group to use as tester(s)\n" }, { "alpha_fraction": 0.7322654724121094, "alphanum_fraction": 0.7345537543296814, "avg_line_length": 26.3125, "blob_id": "786968f7c1e659f4f1b156a035821ebf52675bd0", "content_id": "3121105d7b4c91edd6855573b3ebca57a150450a", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 437, "license_type": "permissive", "max_line_length": 91, "num_lines": 16, "path": "/playbooks/README.txt", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "=== Introduction ===\n\noctario/playbooks includes the playbooks needed to setup the remote node and run the tests.\n\n=== Usage ===\n\nChoose testr and run the following command:\n\nansible-playbook -i <hosts_file> [pep8, unittest, functional].yml --extra-vars @octario.yml\n\n=== Notes ===\n\nYou can specify your own tester (= tox target) with:\n\nexport TESTER=dsvm-functional\nansible-playbook -i <hosts_file> custom.yml --extra-vars @octario.yml\n" }, { "alpha_fraction": 0.5748316049575806, "alphanum_fraction": 0.5777603983879089, "avg_line_length": 32.6940803527832, "blob_id": "9622609dd1dd8c5b081f47e8f6cfd45b005a462b", "content_id": "54742bd285bcfa4087fbfa2902e179648b2376b9", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 10243, "license_type": "permissive", "max_line_length": 105, "num_lines": 304, "path": "/octario/lib/component.py", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n\n# Copyright 2016,2019 Red Hat, Inc.\n# All Rights Reserved.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\"); you may\n# not use this file except in compliance with the License. You may obtain\n# a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS, WITHOUT\n# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the\n# License for the specific language governing permissions and limitations\n# under the License.\nfrom octario.lib import exceptions\nfrom octario.lib import logger\n\nimport git\nimport os\nimport re\n\ntry:\n from urlparse import urlparse\nexcept ImportError:\n from urllib.parse import urlparse as urlparse\n\nLOG = logger.LOG\n\nGITREVIEW_FILENAME = \".gitreview\"\n\n\nclass RepoType(object):\n \"\"\"Enumeration for the repository type.\"\"\"\n GIT, NONE = range(2)\n\n\nclass Component(object):\n \"\"\"Representation of the component to be tested.\n\n Args:\n path (:obj:`str`): Path to directory where component is stored.\n \"\"\"\n def __init__(self, path):\n self.path = path\n utils = ComponentUtils(path)\n self.component_name = utils.get_component_name()\n self.rhos_release = utils.get_rhos_release()\n self.rhos_release_repo = utils.get_rhos_release_repo()\n\n def get_name(self):\n \"\"\"Return name of the component.\n\n Returns:\n str: component name\n \"\"\"\n return self.component_name\n\n def get_rhos_release(self):\n \"\"\"Return numeric value of rhos release of the component.\n\n Returns:\n str: RHOS release version\n \"\"\"\n return self.rhos_release\n\n def get_rhos_release_repo(self):\n \"\"\"rhos-release to be enabled based on the component branch name.\n\n Returns:\n str: rhos-release repository name as string\n \"\"\"\n return self.rhos_release_repo\n\n\nclass ComponentUtils(object):\n \"\"\"Utils for the component object.\n\n Various utils needed to discover information about component.\n\n Args:\n path (:obj:`str`): Path to directory where component is stored.\n \"\"\"\n def __init__(self, path):\n self.path = path\n self.component_name = None\n self.rhos_release = None\n self.rhos_release_repo = None\n self.branch = None\n self.repo_type = self.__get_repo_type(self.path)\n\n def get_component_name(self):\n \"\"\"Gets the name of the component.\n\n Returns:\n str: component name if exists or None if it wasn't discovered\n \"\"\"\n if self.repo_type is RepoType.GIT:\n if not self.component_name:\n repo_url, self.branch = \\\n self.__get_branch_url_from_git(self.path)\n self.component_name = \\\n self.__get_component_name_from_git_url(repo_url)\n return str(self.component_name)\n\n def get_rhos_release(self):\n \"\"\"Gets the name of the component.\n\n Returns:\n str: RHOS release version or None if it wasn't discovered\n \"\"\"\n # this allows us to bypass detection algorithm which can fail in\n # few cases, like cherry picked changes.\n if 'RHOS_VERSION' in os.environ:\n return os.environ['RHOS_VERSION']\n\n if self.repo_type is RepoType.GIT:\n if not self.branch:\n repo_url, self.branch = \\\n self.__get_branch_url_from_git(self.path)\n if not self.rhos_release:\n self.rhos_release = \\\n self.__get_rhos_version_from_branch(self.branch)\n return str(self.rhos_release)\n\n def get_rhos_release_repo(self):\n \"\"\"Gets the rhos-release repo name\n\n Returns:\n str: rhos-release repository name or None if it wasn't discovered\n \"\"\"\n if self.repo_type is RepoType.GIT:\n if not self.branch:\n repo_url, self.branch = \\\n self.__get_branch_url_from_git(self.path)\n if not self.rhos_release:\n self.rhos_release = \\\n self.__get_rhos_version_from_branch(self.branch)\n if 'trunk' in self.branch:\n self.rhos_release_repo = str(self.rhos_release) + '-trunk'\n else:\n self.rhos_release_repo = str(self.rhos_release)\n\n return str(self.rhos_release_repo)\n\n def __get_repo_type(self, path):\n \"\"\"Gets the repository type of the component.\n\n Raises:\n NotValidComponentPathException: If there is no valid path to the\n supported component type.\n\n Returns:\n (:obj:`RepoType`): Type of repository.\n \"\"\"\n if os.path.isdir(os.path.join(path, '.git')):\n LOG.debug('Found GIT repository: %s' % path)\n return RepoType.GIT\n raise exceptions.NotValidComponentPathException(path)\n\n def __get_component_name_from_git_url(self, url):\n \"\"\"Extracts component name from the git url.\n\n Name is calculated from last part of the URL by removing .git suffix.\n\n Raises:\n NotValidComponentURL: If there is no valid url found.\n\n Returns:\n str: component name\n \"\"\"\n url_o = urlparse(url)\n\n if not url_o.scheme or not url_o.path or \"/\" not in url_o.path:\n raise exceptions.NotValidComponentURL(url)\n\n # path may start with /, so strip it\n r_index = url_o.path.rfind(\"/\")\n component_name = url_o.path[r_index + 1:]\n\n suffix = \".git\"\n if component_name.endswith(suffix):\n # Remove .git suffix\n component_name = component_name[:-len(suffix)]\n\n LOG.info('Component: %s' % component_name)\n\n return component_name\n\n def __get_branch_from_gitreview(self, path):\n \"\"\"Gets branch from local .gitreview file.\n\n Args:\n path (:obj:`str`): Path to the git directory.\n\n Returns:\n str: branch name or None if branch name was not found\n \"\"\"\n\n branch_name = None\n gitreview_path = os.path.join(path, GITREVIEW_FILENAME)\n\n try:\n with open(gitreview_path, 'r') as f_op:\n for line in f_op:\n if 'defaultbranch=' in line:\n default_branch = line.split(\"=\", 1)[1]\n r_index = default_branch.rfind(\"/\")\n branch_name = default_branch[r_index + 1:-1]\n except IOError as ex:\n # Log error in debug mode, but do nothing about this\n # because this is fallback method for getting branch name\n LOG.debug(ex)\n LOG.debug('Failed to get branch from %s' % gitreview_path)\n\n return branch_name\n\n def __get_branch_url_from_git(self, path):\n \"\"\"Gets repo_url and branch from local git directory.\n\n Raises:\n NotValidGitRepoException: If there is no git directory found.\n\n Args:\n path (:obj:`str`): Path to the git directory.\n\n Returns:\n touple: repo URL and branch name from local git directory\n \"\"\"\n repo_url = None\n branch_name = None\n\n try:\n g = git.Git(path)\n LOG.debug('Found remotes {}'.format(','.join([remote for remote in g.remote().split('\\n')])))\n for remote_name in ('rhos', 'patches', 'origin'):\n if remote_name in g.remote().split('\\n'):\n repo_url = g.config(\"--get\", \"remote.{}.url\".format(remote_name))\n LOG.debug('Using Remote {}'.format(remote_name))\n break\n if repo_url is None:\n raise exceptions.NotValidGitRepoException(path)\n\n repo = git.Repo(path)\n branch = repo.active_branch\n branch_name = branch.name\n except (git.exc.InvalidGitRepositoryError,\n git.exc.GitCommandNotFound,\n git.exc.GitCommandError) as git_ex:\n LOG.error(git_ex)\n raise exceptions.NotValidGitRepoException(path)\n except TypeError:\n # If not found directly from git, try to get the branch name\n # from .gitreview file which should be pointing to the proper\n # branch.\n LOG.debug('Fallback method to get branch name from .gitreview')\n branch_name = self.__get_branch_from_gitreview(path)\n if not branch_name:\n # Git repo is most likely in detached state\n # Fallback method of getting branch name, much slower\n LOG.debug('HEAD detached, fallback method to get branch name')\n head_branch = os.linesep.join(\n [s for s in g.log('--pretty=%d').splitlines()\n if s and \"tag:\" not in s])\n r_index = head_branch.rfind(\"/\")\n branch_name = head_branch[r_index + 1:-1]\n\n LOG.debug('Component repository: %s' % repo_url)\n LOG.debug('Component branch: %s' % branch_name)\n\n return repo_url, branch_name\n\n def __get_rhos_version_from_branch(self, branch_name):\n \"\"\"Gets rhos release version from branch name.\n\n Raises:\n InvalidRhosRelease: No RHOS release found within branch name.\n\n Args:\n branch_name (:obj:`str`): Branch name.\n\n Returns:\n str: RHOS release version\n \"\"\"\n # bypass for CR branches.\n if 'RHOS_VERSION' in os.environ:\n rhos_release = os.environ['RHOS_VERSION']\n else:\n rhos_release = re.findall(r'[0-9][0-9]?\\.[0-9]', branch_name)\n\n # Unexpected parsing of branch name\n if len(rhos_release) != 1:\n raise exceptions.InvalidRhosRelease(branch_name)\n\n major_version, minor_version = rhos_release[0].split(\".\")[:2]\n if minor_version == '0':\n rhos_release = major_version\n else:\n rhos_release = '%s.%s' % (major_version, minor_version)\n\n LOG.info('RHOS release: %s' % rhos_release)\n\n return rhos_release\n" }, { "alpha_fraction": 0.5913446545600891, "alphanum_fraction": 0.5944358706474304, "avg_line_length": 31.350000381469727, "blob_id": "e7e6cd49f5ada5ea466461261a15401a64f73766", "content_id": "6a983a0cc0cfd4ff99c020c55625435c9a11de5d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3235, "license_type": "permissive", "max_line_length": 81, "num_lines": 100, "path": "/setup.py", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n\n# Copyright 2016 Red Hat, Inc.\n# All Rights Reserved.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\"); you may\n# not use this file except in compliance with the License. You may obtain\n# a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS, WITHOUT\n# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the\n# License for the specific language governing permissions and limitations\n# under the License.\n\nfrom octario.lib.release import __AUTHOR__\nfrom octario.lib.release import __VERSION__\n\nimport pkg_resources\nfrom setuptools import find_packages\nfrom setuptools import setup\n\nimport distro\nimport os\n\nwith open('requirements.txt', 'r') as fh:\n reqs = [str(requirement)\n for requirement in pkg_resources.parse_requirements(fh)]\nwith open(\"LICENSE\") as file:\n license = file.read()\nwith open(\"README.md\") as file:\n long_description = file.read()\n\nsetup(\n name='octario',\n version=__VERSION__,\n author=__AUTHOR__,\n author_email='[email protected]',\n long_description=long_description,\n license=license,\n install_requires=reqs,\n packages=find_packages(),\n include_package_data=True,\n entry_points={\n 'console_scripts': ['octario = octario.lib.cli:main']\n }\n)\n\nSELINUX_DISTROS = [\"fedora\", \"rhel\", \"centos\"]\n\nif distro.linux_distribution(full_distribution_name=False)[0] in SELINUX_DISTROS:\n # For RedHat based systems, get selinux binding\n try:\n import selinux\n except ImportError as e:\n new_error = type(e)(e.message + \". check that 'libselinux-python is \"\n \"installed'\")\n\n from distutils import sysconfig\n import shutil\n import sys\n\n if hasattr(sys, 'real_prefix'):\n # check for venv\n VENV_SITE = sysconfig.get_python_lib()\n\n SELINUX_PATH = os.path.join(\n sysconfig.get_python_lib(plat_specific=True,\n prefix=sys.real_prefix),\n \"selinux\")\n\n if not os.path.exists(SELINUX_PATH):\n raise new_error\n\n dest = os.path.join(VENV_SITE, \"selinux\")\n if os.path.exists(dest):\n raise new_error\n\n # filter precompiled files\n files = [os.path.join(SELINUX_PATH, f)\n for f in os.listdir(SELINUX_PATH)\n if not os.path.splitext(f)[1] in (\".pyc\", \".pyo\")]\n\n # add extra file for (libselinux-python)\n _selinux_file = os.path.join(\n sysconfig.get_python_lib(plat_specific=True,\n prefix=sys.real_prefix),\n \"_selinux.so\")\n if os.path.exists(_selinux_file):\n shutil.copy(_selinux_file, os.path.dirname(dest))\n files.append(_selinux_file)\n\n os.makedirs(dest)\n for f in files:\n shutil.copy(f, dest)\n else:\n raise new_error\n import selinux # noqa\n" }, { "alpha_fraction": 0.682539701461792, "alphanum_fraction": 0.7579365372657776, "avg_line_length": 41, "blob_id": "c969c6f0aaf04b3f35534cb1431a659958eee5fb", "content_id": "e93c8d4d8060daee68fcde32be9164ea7b37235b", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 252, "license_type": "permissive", "max_line_length": 77, "num_lines": 6, "path": "/test-requirements.txt", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "pip>=9.0.1 # keep it first to avoid some bugs\nansible-lint>=3.4.20\nhacking>=0.13.0\nyamllint>=1.10.0\n-e git+https://review.gerrithub.io/redhat-openstack/infrared#egg=infrared\nshade>=1.25.0 # required for functional testing and not installed by ansible\n" }, { "alpha_fraction": 0.8003565073013306, "alphanum_fraction": 0.8003565073013306, "avg_line_length": 34.0625, "blob_id": "565938ecc0ec0230b8732ae3ddde3178b7b29ed1", "content_id": "6d8c8233cea6c25a55161c1b389ada18553b7b5c", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 561, "license_type": "permissive", "max_line_length": 99, "num_lines": 16, "path": "/docs/add_scripts.md", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "# Global and component specific scripts\n\n## Global Scripts\n\nIn order to deploy scripts with Octario, no matter what component is used,\nput the script in octario/roles/setup_environment/files directory.\n\n## Component Specific Scripts\n\nIf your script is not intended to be used by all components and is only relevant\nto your component then place it in the octario/components_config/<version>/<component_name>/scripts\ndirectory.\n\n\nIn both global and component-specific options, Octario will automatically copy the\nscript during the run to /tmp on the remote host.\n" }, { "alpha_fraction": 0.6147269606590271, "alphanum_fraction": 0.6177605986595154, "avg_line_length": 28.721311569213867, "blob_id": "f5d7fe33543f094c522ee521aa060f5a9faee02e", "content_id": "829f630fd6c292dcc28c4a72195b222b44d3773e", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3626, "license_type": "permissive", "max_line_length": 78, "num_lines": 122, "path": "/octario/lib/tester.py", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n\n# Copyright 2016 Red Hat, Inc.\n# All Rights Reserved.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\"); you may\n# not use this file except in compliance with the License. You may obtain\n# a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS, WITHOUT\n# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the\n# License for the specific language governing permissions and limitations\n# under the License.\n\nfrom octario.lib import exceptions\nfrom octario.lib import logger\nfrom os.path import basename\n\nimport glob\nimport os\n\nLOG = logger.LOG\n\nDEFAULT_TESTERS_DIR = os.path.join(os.path.dirname(os.path.abspath(__file__)),\n '..', 'ansible', 'playbooks')\n\n\nclass TesterType(object):\n \"\"\"Tester types supported by octario CLI.\n\n \"\"\"\n\n @classmethod\n def get_supported_testers(cls):\n \"\"\"Get list of supported testers as strings.\n\n Args:\n cls (:obj:`TesterType`): Class itself\n\n Returns:\n list: List of supported testers\n \"\"\"\n supported_testers = []\n for playbook in glob.glob(os.path.join(DEFAULT_TESTERS_DIR, \".yml\")):\n tester = basename(playbook.split(\".yml\")[0])\n supported_testers.append(str(tester))\n return sorted(supported_testers)\n\n\nclass Tester(object):\n \"\"\"Representation of the tester.\n\n Object holds information about tester type and relevant attributes\n required to run tester such as playbook for that tester.\n\n Args:\n tester (:obj:`str`): string value of the tester e.g. 'pep8'\n \"\"\"\n def __init__(self, tester):\n self.type = self.__get_tester_type(tester)\n self.playbook_path = self.__get_playbook_path()\n\n def get_type(self):\n \"\"\"Gets type of the tester.\n\n Returns:\n (:obj:TesterType): tester type\n \"\"\"\n return self.type\n\n def get_playbook_path(self):\n \"\"\"Get path to the playbook for the tester.\n\n Returns:\n str: tester playbook path\n \"\"\"\n return self.playbook_path\n\n def __get_playbook_path(self):\n \"\"\"Calculates the playbook path based on the octario module path.\n\n Raises:\n AnsiblePlaybookNotFound: If there is no playbook associated\n with the tester. Playbook filename must match tester name.\n\n Returns:\n str: tester playbook path\n \"\"\"\n playbook_path = os.path.join(DEFAULT_TESTERS_DIR,\n str(self.type) + \".yml\")\n\n if not os.path.isfile(playbook_path):\n raise exceptions.AnsiblePlaybookNotFound(playbook_path)\n\n LOG.debug(\"Tester playbook: %s\" % playbook_path)\n\n return playbook_path\n\n def __get_tester_type(self, tester):\n \"\"\"Returns tester type based on the passed tester type string.\n\n Raises:\n UnsupportedTester: If the tester is not in the supported testers\n enumeration.\n\n Args:\n tester (:obj:`str`): string value of the tester e.g. 'pep8'\n\n Returns:\n (:obj:TesterType): tester type\n \"\"\"\n if not tester:\n raise exceptions.UnsupportedTester('Unknown')\n\n for tester_type in TesterType.get_supported_testers():\n if tester.lower() == tester_type.lower():\n return tester_type\n\n raise exceptions.UnsupportedTester(tester)\n" }, { "alpha_fraction": 0.6375628113746643, "alphanum_fraction": 0.6457286477088928, "avg_line_length": 35.181819915771484, "blob_id": "45fbcdfb19a816956c7848b1ab008cfed0a4f1f2", "content_id": "c691b714067af0337c92f37e2794772dda4933a4", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1592, "license_type": "permissive", "max_line_length": 75, "num_lines": 44, "path": "/components_config/16.2/openstack-tempest/scripts/comment_deps.py", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "# Copyright 2018 Red Hat, Inc.\n# All Rights Reserved.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\"); you may\n# not use this file except in compliance with the License. You may obtain\n# a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS, WITHOUT\n# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the\n# License for the specific language governing permissions and limitations\n# under the License.\n\n# This script comments all deps and install_command lines in a tox.ini file\n# given by argument, f.e.:\n# $ ./comment_deps.py ./tox.ini\n\nfrom shutil import copyfile\nimport sys\n\nif sys.version_info.major == 3:\n import configparser as configparser\nelse:\n import ConfigParser as configparser\n\nif __name__ == '__main__':\n copyfile(sys.argv[1], sys.argv[1] + '.orig')\n cp = configparser.ConfigParser()\n cp.read(sys.argv[1] + '.orig')\n\n for sec in cp.sections():\n for opt in cp.options(sec):\n if opt == 'deps' or opt == 'install_command':\n value = cp.get(sec, opt)\n # if the string is multiline, make it singleline\n value = value.replace('\\n', ' ')\n # remove the uncommented option\n # and set it back as commented one\n cp.remove_option(sec, opt)\n cp.set(sec, \"# \" + opt, value)\n with open(sys.argv[1], 'w') as configfile:\n cp.write(configfile)\n" }, { "alpha_fraction": 0.7040077447891235, "alphanum_fraction": 0.7083534598350525, "avg_line_length": 27.369863510131836, "blob_id": "c5c9074d8c3495689762fad1b419c24cf2b8fe4e", "content_id": "1ff38571b14a8c460978257c2bda91ee5e236c55", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2071, "license_type": "permissive", "max_line_length": 78, "num_lines": 73, "path": "/octario/lib/logger.py", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n\n# Borrowed from InfraRed project\n\n# Copyright 2016 Red Hat, Inc.\n# All Rights Reserved.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\"); you may\n# not use this file except in compliance with the License. You may obtain\n# a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS, WITHOUT\n# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the\n# License for the specific language governing permissions and limitations\n# under the License.\n\nimport logging\nimport sys\nimport traceback\n\nimport colorlog\n\nlogger_formatter = colorlog.ColoredFormatter(\n \"%(log_color)s%(levelname)-8s%(message)s\",\n log_colors=dict(\n DEBUG='blue',\n INFO='green',\n WARNING='yellow',\n ERROR='red',\n CRITICAL='bold_red,bg_white',\n )\n)\n\nLOGGER_NAME = \"OctarioLogger\"\nDEFAULT_LOG_LEVEL = logging.INFO\n\nLOG = logging.getLogger(LOGGER_NAME)\nLOG.setLevel(DEFAULT_LOG_LEVEL)\n\n# Create stream handler with debug level\nsh = logging.StreamHandler()\nsh.setLevel(logging.DEBUG)\n\n# Add the logger_formatter to sh\nsh.setFormatter(logger_formatter)\n\n# Create logger and add handler to it\nLOG.addHandler(sh)\n\n\ndef octario_excepthook(exc_type, exc_value, exc_traceback):\n \"\"\"exception hook that sends OctarioException to log and other\n\n exceptions to stderr (default excepthook)\n \"\"\"\n from octario.lib.exceptions import OctarioException\n\n # sends full exception with trace to log\n if not isinstance(exc_value, OctarioException):\n return sys.__excepthook__(exc_type, exc_value, exc_traceback)\n\n if LOG.getEffectiveLevel() <= logging.DEBUG:\n formated_exception = \"\".join(\n traceback.format_exception(exc_type, exc_value, exc_traceback))\n LOG.error(formated_exception + exc_value.message)\n else:\n LOG.error(exc_value.message)\n\n\nsys.excepthook = octario_excepthook\n" }, { "alpha_fraction": 0.7671786546707153, "alphanum_fraction": 0.770412266254425, "avg_line_length": 33.36111068725586, "blob_id": "86736c31f0bd9c5e5492784d479f4556cbfbbc56", "content_id": "33099710ef947d97dd44e8b12a12d59ebe78c31e", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1237, "license_type": "permissive", "max_line_length": 112, "num_lines": 36, "path": "/docs/configuration.md", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "# Configuration\n\nThere are 3 configuration files `octario` is using.\nFor each one of the configuration files, an detailed sample is included in `samples` directory.\n\n### octario.yml\n\nDecides what is tested and what tasks should be skipped.\n\nIt Must include component name and RHOS version.\n\n```\ncomponent:\n name: neutron\n version: 9 # RHOS 9 is based on mitaka\n config_file_name: component.yml\n```\n\n### component.yml\n\nControls how the component is tested.\n\nWith `component.yml` you can specify what RPMs should be installed/removed, what pre commands\nshould be executed and what is the tests invocation command. All this can be specified per\ntester (pep8, unittest, etc) or for all testers.\n\nFor certain components, an `component.yml` file is located in components_config/<rhos release> directory.\nIf there is a `component.yml` file there, octario will use it. If not, it will try to look for it in octario\nroot directory, component's root directory and /etc.\n\nDetailed example for `component.yml` can be found in samples directory.\n\n### ansible.cfg\n\nThis part of Ansible project and isn't an octario configuration file.\nYou can learn more about it at [Ansible official site](http://docs.ansible.com/ansible/intro_configuration.html)\n" }, { "alpha_fraction": 0.6144944429397583, "alphanum_fraction": 0.6157963275909424, "avg_line_length": 35.96791458129883, "blob_id": "febf9cd67569f9fd96e07d0dff4cb9867a77d271", "content_id": "4945f5fe79c4232748f1ce1f1e5b81862a8b0547", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 6913, "license_type": "permissive", "max_line_length": 79, "num_lines": 187, "path": "/octario/lib/execute.py", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n\n# Copyright 2016 Red Hat, Inc.\n# All Rights Reserved.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\"); you may\n# not use this file except in compliance with the License. You may obtain\n# a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS, WITHOUT\n# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the\n# License for the specific language governing permissions and limitations\n# under the License.\n\n\nfrom octario.lib import exceptions\nfrom octario.lib import logger\n\nimport logging\nimport os\n\nLOG = logger.LOG\n\n\nclass AnsibleExecutor(object):\n \"\"\"Executor for the ansible playbooks\n\n Used to run ansible CLI with the parameters needed for testing\n component by specified tester.\n\n Args:\n tester (:obj:`Tester`): Supported by octario CLI tester\n component (:obj:`Component`): Tested component\n inventory_file (:obj:`str`): Path to inventory file, defaults to\n 'local_hosts' if file not found.\n \"\"\"\n\n def __init__(self, tester, component, inventory_file, path):\n self.tester = tester\n self.component = component\n self.path = os.path.abspath(path)\n inventory_file_path = self.__get_inventory_file(inventory_file)\n self.cli_args = self.__get_ansible_playbook_args(inventory_file_path)\n\n def run(self):\n \"\"\"Runs ansible CLI.\n\n Runs ansible CLI using PlaybookCLI and command line arguments\n stored in the self.cli_args list.\n\n Raises:\n CommandError: If there was error while running the command.\n\n Returns:\n int or list: return from the ansible PlaybookExecutor run()\n \"\"\"\n\n # Set the ansible.cfg that will be used by octario\n octario_ansible_config = self._get_ansible_config_file()\n if octario_ansible_config:\n os.environ['ANSIBLE_CONFIG'] = octario_ansible_config\n\n # Import must happen after setting ANSIBLE_CONFIG, otherwise\n # environment variable will not be used.\n from ansible.cli.playbook import PlaybookCLI\n ansible_cli = PlaybookCLI(self.cli_args)\n ansible_cli.parse()\n results = ansible_cli.run()\n\n if results:\n raise exceptions.CommandError(\"Failed to run tester: %s\" %\n self.tester.get_playbook_path())\n\n return results\n\n def _get_ansible_config_file(self):\n \"\"\"Return path to the ansible config file\n\n Overrides default ansible config file from:\n lib/ansible/constants.py:load_config_file()\n\n Function returns None if either environment variable ANSIBLE_CONFIG\n exists or current working dir contains ansible.cfg file.\n This allows to fallback to default ansible method of gathering\n ansible.cfg file, while third option to use ansible.cfg from Octario\n installation path is used if no specific ansible.cfg was provided.\n\n Returns:\n str or None: path to the ansible.cfg cnfiguration file or None\n if the file was provided via ANSIBLE_CONFIG or it exists\n in the current working dir.\n \"\"\"\n ansible_config_env = os.getenv(\"ANSIBLE_CONFIG\", None)\n if ansible_config_env is not None:\n ansible_config_env = os.path.expanduser(ansible_config_env)\n if os.path.isdir(ansible_config_env):\n ansible_config_env += \"/ansible.cfg\"\n\n # Configuration file was found in the ANSIBLE_CONFIG env\n # Return None to fallback to standard ansible method\n if ansible_config_env and os.path.isfile(ansible_config_env):\n LOG.info('Using ansible config from ANSIBLE_CONFIG env: {}'.format(\n ansible_config_env))\n return None\n\n try:\n ansible_config_env = os.getcwd() + \"/ansible.cfg\"\n\n # Configuration file was found in the current working dir\n if ansible_config_env and os.path.isfile(ansible_config_env):\n LOG.info('Using ansible config from current dir: {}'.format(\n ansible_config_env))\n return None\n except OSError:\n pass\n\n ansible_config_env = os.path.dirname(os.path.abspath(__file__))\n ansible_config_env = os.path.join(ansible_config_env, \"../ansible/\")\n\n LOG.debug('Using ansible config from default location: {}'.format(\n ansible_config_env))\n\n return ansible_config_env\n\n def __get_inventory_file(self, inventory_file):\n \"\"\"Return path to the inventory file\n\n Returns passed inventory file path or the default fallback\n if the inventory file is not available.\n\n Args:\n inventory_file (:obj:`str`): Path to inventory file, defaults to\n 'local_hosts' if file not found.\n\n Returns:\n str: path to the inventory file that will be used\n \"\"\"\n if not os.path.isfile(inventory_file):\n LOG.warning(\"Inventory file does not exists: %s\" % inventory_file)\n script_path = os.path.dirname(os.path.abspath(__file__))\n inventory_fallback = os.path.join(script_path, \"../ansible/\",\n \"local_hosts\")\n LOG.warning(\"Falling back to inventory: %s\" % inventory_fallback)\n return inventory_fallback\n return inventory_file\n\n def __get_ansible_playbook_args(self, inventory_file):\n \"\"\"Composes list of all arguments that will be used for running play.\n\n Function that gets all arguments that will be passed to the\n ansible-play CLI. The arguments are based on the tester and\n component objects and their variables taken from the public functions.\n\n To be consistent with the octario run ansible verbosity level\n is calculated from octario logger level.\n\n\n Args:\n inventory_file (:obj:`str`): Path to inventory file.\n\n Returns:\n list: arguments for the ansible CLI\n \"\"\"\n\n verbose_level = \"-vvv\"\n if LOG.getEffectiveLevel() >= logging.INFO:\n verbose_level = \"-v\"\n\n extra_vars = {\n 'component': {\n 'name': self.component.get_name(),\n 'version': self.component.get_rhos_release(),\n },\n 'test': {\n 'dir': self.path\n }\n }\n\n cli_args = ['execute', self.tester.get_playbook_path(), verbose_level,\n '--inventory', inventory_file, '--extra-vars', extra_vars]\n\n LOG.debug('Ansible CLI args: {}'.format(cli_args[1:]))\n\n return cli_args\n" }, { "alpha_fraction": 0.6009928584098816, "alphanum_fraction": 0.603475034236908, "avg_line_length": 30.910890579223633, "blob_id": "d077924098c895bcfa0de5901ba1149a9fe2c80c", "content_id": "fbd9b171a6888bce1f52041f60cfed5ae37db774", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3223, "license_type": "permissive", "max_line_length": 78, "num_lines": 101, "path": "/octario/lib/exceptions.py", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n\n# Copyright 2016 Red Hat, Inc.\n# All Rights Reserved.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\"); you may\n# not use this file except in compliance with the License. You may obtain\n# a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS, WITHOUT\n# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the\n# License for the specific language governing permissions and limitations\n# under the License.\n\nfrom octario.lib import logger\n\nLOG = logger.LOG\n\n\nclass OctarioException(Exception):\n \"\"\"Base Octario Exception\n\n To use this class, inherit from it and define a\n a 'msg_fmt' property. That msg_fmt will get printf'd\n with the keyword arguments provided to the constructor.\n\n \"\"\"\n\n msg_fmt = \"An unknown exception occurred.\"\n\n def __init__(self, message=None, kwargs):\n self.kwargs = kwargs\n self.message = message\n if not self.message:\n try:\n self.message = self.msg_fmt % kwargs\n except Exception:\n # arguments in kwargs doesn't match variables in msg_fmt\n import six\n for name, value in six.iteritems(kwargs):\n LOG.error(\"%s: %s\" % (name, value))\n self.message = self.msg_fmt\n\n\nclass NotValidGitRepoException(OctarioException):\n def __init__(self, repo_path):\n msg = \\\n \"Git Repository not found under: '{}'\".format(\n repo_path)\n super(self.__class__, self).__init__(msg)\n\n\nclass NotValidComponentPathException(OctarioException):\n def __init__(self, component_path):\n msg = \\\n \"Component repository not found under: '{}'\".format(\n component_path)\n super(self.__class__, self).__init__(msg)\n\n\nclass NotValidComponentURL(OctarioException):\n def __init__(self, component_url):\n msg = \\\n \"Invalid Component URL: '{}'\".format(\n component_url)\n super(self.__class__, self).__init__(msg)\n\n\nclass InvalidRhosRelease(OctarioException):\n def __init__(self, branch_name):\n msg = \\\n \"Can't get RHOS version from branch: '{}'\".format(\n branch_name)\n super(self.__class__, self).__init__(msg)\n\n\nclass UnsupportedTester(OctarioException):\n def __init__(self, tester_type):\n from octario.lib.tester import TesterType\n msg = \\\n \"Tester '{}' is not supported by Octario CLI.\".format(\n tester_type)\n LOG.info(\"Supported testers: {}\".format(\n TesterType.get_supported_testers()))\n super(self.__class__, self).__init__(msg)\n\n\nclass AnsiblePlaybookNotFound(OctarioException):\n def __init__(self, playbook_path):\n msg = \\\n \"Tester playbook not found: '{}'\".format(\n playbook_path)\n super(self.__class__, self).__init__(msg)\n\n\nclass CommandError(OctarioException):\n def __init__(self, msg):\n super(self.__class__, self).__init__(msg)\n" }, { "alpha_fraction": 0.5072463750839233, "alphanum_fraction": 0.695652186870575, "avg_line_length": 12.800000190734863, "blob_id": "0f3e865a22a2dae0e821ff5eccabac868180ad97", "content_id": "399262e69c5a63b2041cefda7958638ed6f38475", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 69, "license_type": "permissive", "max_line_length": 16, "num_lines": 5, "path": "/requirements.txt", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "ansible>=2.4.3.0\njinja2>=2.7\ncolorlog>=2.6.1\ngitpython>=2.0.8\ndistro\n" }, { "alpha_fraction": 0.6214396953582764, "alphanum_fraction": 0.6292076706886292, "avg_line_length": 28.25757598876953, "blob_id": "73720040642ee90611ef6f190891e06a7b111e0a", "content_id": "db16cdb0e39f4428a95fbbc035ce1e3cc66cf76f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1931, "license_type": "permissive", "max_line_length": 78, "num_lines": 66, "path": "/ir-plugin/osp_version_name.py", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n\n# Copyright 2017 Red Hat, Inc.\n# All Rights Reserved.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\"); you may\n# not use this file except in compliance with the License. You may obtain\n# a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS, WITHOUT\n# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the\n# License for the specific language governing permissions and limitations\n# under the License.\n\nimport json\nimport logging\nimport os\nimport sys\n\n\ndef find_path(direntry):\n for root, dirs, files in os.walk(os.path.expanduser('~')):\n files = [f for f in files if not f[0] == '.']\n dirs[:] = [d for d in dirs if not d[0] == '.']\n for name in dirs:\n if name == direntry:\n return(os.path.abspath(os.path.join(root, name)))\n\n\nsys.path.append(find_path('octario'))\n\nfrom octario.lib.component import Component # noqa\n\n\nLOG = logging.getLogger(\"OctarioLogger\")\nLOG.setLevel(logging.ERROR)\n\n\ndef main(component_path):\n cmpnt = Component(component_path)\n release = cmpnt.get_rhos_release()\n repo = cmpnt.get_rhos_release_repo()\n name = cmpnt.get_name()\n if release is not None and name is not None:\n json_out = {\n 'plugin': 'iroctario',\n 'name': name,\n 'version': release,\n 'repo': repo,\n }\n print(json.dumps(json_out))\n\n\nif __name__ == \"__main__\":\n \"\"\"Helper script used by InfraRed-Octario plugin to discover component\n name and OSP release number.\n \"\"\"\n\n if len(sys.argv) != 2:\n LOG.error(\"Improper number of arguments, passed %d instead of 1\" %\n int(len(sys.argv) - 1))\n sys.exit(1)\n main(sys.argv[1])\n" }, { "alpha_fraction": 0.6647546291351318, "alphanum_fraction": 0.6730401515960693, "avg_line_length": 32.86330795288086, "blob_id": "2e290d49eb1c62fc91639a507105deba1a2d3ef1", "content_id": "e9ea08b8190daa9d79dc41e2b1faa63d0818b715", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 4707, "license_type": "permissive", "max_line_length": 161, "num_lines": 139, "path": "/runtests.sh", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "#!/bin/bash\n# THIS CAN BE CALLED FROM INSIDE TOX, assumes already existing venv\n#\n# This script would test octario by provisioning a test\n# machine, running octario on it (pep8) for a one component and\n# deprovisionign it.\nset -euo pipefail\n\nSOURCE=\"${BASH_SOURCE[0]}\"\nwhile [ -h \"$SOURCE\" ]; do # resolve $SOURCE until the file is no longer a symlink\n DIR=\"$( cd -P \"$( dirname \"$SOURCE\" )\" && pwd )\"\n SOURCE=\"$(readlink \"$SOURCE\")\"\n [[ $SOURCE != / ]] && SOURCE=\"$DIR/$SOURCE\" # if $SOURCE was a relative symlink, we need to resolve it relative to the path where the symlink file was located\ndone\nDIR=\"$( cd -P \"$( dirname \"$SOURCE\" )\" && pwd )\"\n\nif [ -z ${DNS+x} ]; then\n echo \"WARN: internal DNS environment value not found, running tests without it may cause failures\";\nelse\n IR_DNS=--dns=${DNS}\nfi\n\nif [ -z ${OS_CLOUD+x} ]; then\n echo \"WARN: internal OS_CLOUD environment value not found, running tests without it may cause failures\";\nelse\n IR_CLOUD=--cloud=${OS_CLOUD}\nfi\n\nif [ -z ${COMPONENT_PATH+x} ]; then\n if [ -z ${COMPONENT_URL+x} ]; then\n echo \"WARN: git COMPONENT_URL and/or COMPONENT_BRANCH were not specified, we will assume PWD\" \\\n \" already contains the cloned component/branch.\"\n COMPONENT_PATH=.\n else\n # build folder is already excluded from linters\n COMPONENT_PATH=$DIR/build/${COMPONENT_URL##/} # (used repo name from url)\n # WARNING: octario currently fails if component folder does not\n # match real component name.\n rm -rf ${COMPONENT_PATH}\n mkdir -p $COMPONENT_PATH\n git clone -q $COMPONENT_URL --branch $COMPONENT_BRANCH --single-branch $COMPONENT_PATH\n fi\nfi\n# makes COMPONENT_PATH full path (readlink is not portable)\nCOMPONENT_PATH=\"$(cd ${COMPONENT_PATH}; pwd)\"\necho \"INFO: COMPONENT_PATH=$COMPONENT_PATH\"\n\nif [ -z ${COMPONENT_TESTER+x} ]; then\n echo \"WARN: COMPONENT_TESTER was not defined, we will assume 'pep8'.\"\n COMPONENT_TESTER=pep8\nfi\n\nif [ -z ${KEY+x} ]; then\n for FILE in ~/.ssh/rhos-jenkins/id_rsa ~/.ssh/id_rsa\n do\n if [ -f $FILE ]; then\n export KEY=$FILE\n break\n fi\n done\nfi\n\n# code to determine a meaningful prefix for both CLI and CI use cases\nHIGHLIGHT='\\033[01;32m'\nNORMAL='\\033[0m'\nPREFIX=$USER-octario-`echo -n \"${BUILD_TAG:-$PPID}\" \| md5sum \| cut -c1-4`-\n# making prefix safe for being used as part of hostname\n# prefix is also stable between executions outside CI, allowing reuse of\n# already provisioned machines (when DISABLE_CLEANUP=true)\nPREFIX=$(echo $PREFIX \| sed \"s/[^a-z\|0-9]\\-//g;\")\nexport PREFIX\nexport ANSIBLE_VERBOSITY=0\nexport ANSIBLE_HOST_KEY_CHECKING=False\nexport ANSIBLE_FORCE_COLOR=1\n\n# protects from risk of inheriting user inventory\nunset ANSIBLE_INVENTORY\n\n# infrared can currently only function if is called from its own install dir\nIR_DIR=$(python -c 'import os, infrared; print(os.path.abspath(os.path.join(os.path.dirname(infrared.__file__),\"..\")))')\nPWD_ORIG=`pwd`\nfunction finish {\n rv=$?\n\n # cleanup code\n if [ \"${DISABLE_CLEANUP:-false}\" != \"true\" ]; then\n set -e\n pushd $IR_DIR >>/dev/null\n infrared openstack ${IR_CLOUD:-} --image='fake_image' --prefix=$PREFIX --cleanup=yes > ${DIR}/cleanup.log \|\| {\n >&2 cat ${DIR}/cleanup.log\n echo -e \"WARN: Cleanup failure.\"\n rv=99\n }\n infrared workspace delete ${PREFIX}\n fi\n\n # we restore previous working directory regardless the outcome\n cd $PWD_ORIG\n exit $rv\n}\ntrap finish EXIT\n\npushd $IR_DIR >>/dev/null\n\n echo -e \"INFO: Using prefix ${HIGHLIGHT}${PREFIX}${NORMAL} and running from ${HIGHLIGHT}${IR_DIR}${NORMAL} ...\"\n\n # we create unique workspace to avoid reusing existing one\n infrared workspace checkout ${PREFIX} \|\| infrared workspace checkout -c ${PREFIX}\n infrared workspace node-list\n\n # assure we use current octario code and not the last release\n infrared plugin remove octario\n infrared plugin add --src-path=${DIR} octario\n infrared octario --help >/dev/null\n\n pip check > func.log \|\| true\n pip freeze > func.log \|\| true\n\n echo -e \"INFO: infrared:${HIGHLIGHT}$(infrared --version 2>&1)${NORMAL} ansible:${HIGHLIGHT}$(python -c \"import ansible; print(ansible.__version__)\")${NORMAL}\"\n\n # provision resources (future: skip running if already provisioned)\n set -x\n infrared openstack --topology-nodes=tester:1 \\\n --image=RHEL-8.2.0-x86_64-latest \\\n --anti-spoofing false \\\n --topology-network=3_nets \\\n ${IR_CLOUD:-} \\\n --prefix=$PREFIX \\\n ${IR_DNS:-} \\\n ${NETWORK_PROVIDER:-} \\\n --key-file=${KEY} \\\n -e override.tester.flavor=m1.xlarge \\\n 2>&1 \| tee ${DIR}/provision.log\n\n infrared workspace node-list\n\n infrared octario --t=${COMPONENT_TESTER} --dir=${COMPONENT_PATH}\n\npopd\n" }, { "alpha_fraction": 0.5413585901260376, "alphanum_fraction": 0.544593334197998, "avg_line_length": 31.787878036499023, "blob_id": "69bce299c872fd0cb41165e4c87feef369ef32c0", "content_id": "c6a47471acc30f7183565b787c39690d99835478", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4328, "license_type": "permissive", "max_line_length": 79, "num_lines": 132, "path": "/octario/lib/cli.py", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n\n# Copyright 2016 Red Hat, Inc.\n# All Rights Reserved.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\"); you may\n# not use this file except in compliance with the License. You may obtain\n# a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS, WITHOUT\n# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the\n# License for the specific language governing permissions and limitations\n# under the License.\n\nfrom octario.lib import exceptions\nfrom octario.lib import execute\nfrom octario.lib import logger\n\nfrom octario.lib.component import Component\nfrom octario.lib.tester import Tester\nfrom octario.lib.tester import TesterType\n\nimport argparse\nimport datetime\nimport logging\nimport os\nimport sys\n\nLOG = logger.LOG\n\n\nclass OctarioShell(object):\n\n def get_base_parser(self):\n parser = argparse.ArgumentParser(prog='octario',\n description='OpenStack Component '\n 'Testing Ansible Roles.',\n add_help=False)\n\n parser.add_argument('-?', '-h', '--help',\n action='help',\n help='show this help message and exit')\n\n parser.add_argument('-v', '--verbose',\n action='store_true',\n help='increase output verbosity')\n\n if 'ANSIBLE_INVENTORY' in os.environ:\n default_inventory = os.environ['ANSIBLE_INVENTORY']\n else:\n default_inventory = os.path.join(os.getcwd(), 'hosts')\n\n parser.add_argument('-i', '--inventory-file',\n default=default_inventory,\n help='specify inventory host path'\n ' (default=./hosts or ANSIBLE_INVENTORY when'\n ' defined)')\n\n parser.add_argument('-t', '--tester',\n help='Tester to be ran. Supported testers: '\n '{}'.format(TesterType.get_supported_testers()))\n\n parser.add_argument('dir',\n nargs='?',\n default=os.getcwd(),\n help='path to component directory')\n\n return parser\n\n def parse_args(self, argv):\n parser = self.get_base_parser()\n args = parser.parse_args(argv)\n\n if args.verbose:\n LOG.setLevel(level=logging.DEBUG)\n LOG.debug('Octario running in debug mode')\n\n if not args.tester:\n raise exceptions.CommandError(\"You must provide tester\"\n \" via --tester option\")\n\n LOG.debug('Chosen component directory: %s' % args.dir)\n LOG.debug('Chosen tester: %s' % args.tester)\n LOG.debug('Chosen inventory: %s' % args.inventory_file)\n\n return args\n\n def main(self, argv):\n parser_args = self.parse_args(argv)\n\n tester = Tester(parser_args.tester)\n component = Component(parser_args.dir)\n\n ansible_playbook = execute.AnsibleExecutor(tester,\n component,\n parser_args.inventory_file,\n path=parser_args.dir)\n\n ansible_playbook.run()\n\n\ndef main(args=None):\n start_time = datetime.datetime.now()\n LOG.debug('Started octario: %s' % start_time.strftime('%Y-%m-%d %H:%M:%S'))\n\n try:\n if args is None:\n args = sys.argv[1:]\n\n OctarioShell().main(args)\n\n except exceptions.OctarioException as ex:\n LOG.error(ex.message)\n sys.exit(1)\n except Exception:\n raise\n sys.exit(1)\n except KeyboardInterrupt:\n sys.exit(130)\n finally:\n finish_time = datetime.datetime.now()\n LOG.debug('Finished octario: %s' %\n finish_time.strftime('%Y-%m-%d %H:%M:%S'))\n LOG.debug('Run time: %s [H]:[M]:[S].[ms]' %\n str(finish_time - start_time))\n\n\nif __name__ == \"__main__\":\n main()\n" }, { "alpha_fraction": 0.6414961218833923, "alphanum_fraction": 0.6471418738365173, "avg_line_length": 29.148935317993164, "blob_id": "bebc1f560949569caabe5618da9672cf5c84d22e", "content_id": "cf54479dc9ec59a2cb54583c2a400f39419e94b5", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "INI", "length_bytes": 2834, "license_type": "permissive", "max_line_length": 101, "num_lines": 94, "path": "/tox.ini", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "# Tox (http://tox.testrun.org/) is a tool for running tests\n# in multiple virtualenvs.\n# This configuration file will run the test suite on all supported\n# python versions.\n# To use it, \"pip install tox\" and then run \"tox\" from this directory.\n\n[tox]\n# func is not mentioned in the default set because it needs extra config\nenvlist = setup,infrared,yamllint,flake8,ansible-lint,ansible-check,ansible-syntax-check\nskipsdist = True\n\n[testenv]\nsitepackages = False\n# TODO: make sitepackages = True as soon we have RHOSINFRA-1562 fixed\n# which can cause failures to infrared messing shade dependencies even when\n# the system has a correctly working shade version.\nchangedir = {toxinidir}\nenvdir = {toxworkdir}/venv\ndeps =\n -chttps://raw.githubusercontent.com/redhat-openstack/infrared/master/requirements.txt\n -r{toxinidir}/requirements.txt\n -r{toxinidir}/test-requirements.txt\nwhitelist_externals =\n bash\npassenv =\n ANSIBLE_\n BUILD_\n COMPONENT_\n DEBUG\n DISABLE_CLEANUP\n DNS\n JENKINS_\n JOB_NAME\n OS_\n PIP_DISABLE_PIP_VERSION_CHECK\n PPID\n SSH_AUTH_SOCK\n USER\n WORKSPACE\n\n[testenv:setup]\ncommands =\n pip install -q -e {toxinidir}\n\n[testenv:infrared]\nsetenv =\n IR_HOME=/tmp/.infrared-octario-tox/\ncommands =\n # remove old IR_HOME if exists\n bash -c 'if [ -d \"$\\{IR_HOME\\}\" ]; then rm -rf \"$\\{IR_HOME\\}\"; fi'\n # create clean IR_HOME\n # NOTE(sdatko): there is bug in infrared that causes first launch to fail\n bash -c 'infrared workspace list \|\| true'\n # install octario as infrared plugin and verify it worked\n infrared plugin add {toxinidir}\n infrared octario --help\n\n[testenv:yamllint]\ncommands =\n bash -c 'git ls-tree --full-tree --name-only -r HEAD \\\n \| grep -E '\\.ya?ml$' \\\n \| xargs python -m yamllint -f parsable'\n\n[testenv:flake8]\ncommands =\n flake8 {posargs}\n\n[testenv:ansible-lint]\n# Skipped checks (-x):\n# - 403: Package installs should not use latest\ncommands =\n bash -c 'ansible-lint --force-color -p -x 403 {toxinidir}/playbooks/.yml'\n\n[testenv:ansible-check]\nsetenv =\n ANSIBLE_FORCE_COLOR=false\ncommands =\n bash -c 'ansible-playbook -i tests/hosts \\\n --check -v playbooks/.yml \\\n >ansible-check.log 2>&1 \\\n \|\| echo \"WARN: Failure ignored because CI currently does not allow sudo on slaves.\"'\n\n[testenv:ansible-syntax-check]\ncommands =\n bash -c 'find ./playbooks -name \".yml\" \\\n \| xargs -n 1 ansible-playbook \\\n -i tests/hosts \\\n --syntax-check \\\n --list-tasks -v'\n\n[testenv:func]\ncommands =\n # TODO: add here code to run octario playbooks via docker or infrared\n bash -c 'find {toxinidir} -iname runtests.sh -exec \\{\\} \\;'\n" }, { "alpha_fraction": 0.7473136782646179, "alphanum_fraction": 0.7500866651535034, "avg_line_length": 24.086956024169922, "blob_id": "438ef4531d7e2bebbe093aa6cfb9361261041923", "content_id": "1c20e2b813a3acee1923ec95e17389b814e25b7d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 2885, "license_type": "permissive", "max_line_length": 123, "num_lines": 115, "path": "/README.md", "repo_name": "redhat-openstack/octario", "src_encoding": "UTF-8", "text": "# Octario\n\nOpenstack Component Testing Ansible Roles\n\nOctario is a collection of Ansible roles and playbooks for testing OpenStack Components on RHEL/CentOS.\n\nIt supports the following testers or test frameworks:\n\n PEP8\n* unit\n* functional\n* fullstack\n\n\nThere are two ways to use Octario. By cloning and installing Octario or by using the InfraRed framework.\nWe'll cover both.\n\nNote: `octario` is not provisioning the node on which it will run the tests. It's assumed\n that the tester node is provided by the user by specifying it in the hosts file.\n\n## Installation - without InfraRed\n\ngit clone https://github.com/redhat-openstack/octario && cd octario\nvirtualenv ~/octario_venv && source ~/octario_venv/bin/activate\npip install .\n\n## Installation - with InfraRed\n\ngit clone https://github.com/redhat-openstack/infrared && cd infrared\nvirtualenv ~/ir_venv && source ~/ir_venv/bin/activate\npip install .\ninfrared plugin add octario\n\n## Usage - without InfraRed\n\nFirst, create an inventory file that will include the IP address or the hostname of your tester node.\n\n```\nvi hosts\n\n[tester]\nmy_tester_host ansible_user=cloud-user\n```\n\nEdit `octario.yml` with your component details. Make sure to specify name and version!\n\n```\ncomponent:\n name: nova\n version: 9\n```\n\nRun octario! :)\nChoose one of testers and run the following command in octario root directory\n\n```\nansible-playbook -vvv -i hosts playbooks/pep8.yml --extra-vars @octario.yml\n```\n\npep8.yml can be replaced with [unittest, functional, fullstack].yml\n\n## Usage - with InfraRed\n\n```\ninfrared octario --t <tester_name> --dir <component_path>\n\nFor example:\n\ninfrared octario --t pep8 --dir $WORKSPACE/neutron\n```\n\n\n### Custom tester\n\nYou can specify your own tester\n\n```\nexport TESTER=my_new_cool_tester\nansible-playbook -vvv -i hosts playbooks/custom-tester.yml --extra-vars @octario.yml\n```\n\n### External ROLES\n\nYou can use external role with `octario`.\n\n```\ncp -r new_role octario/roles\nexport ROLE=new_role\nansible-playbook -vvv -i hosts playbooks/custom-role.yml --extra-vars @octario.yml\n```\n\n## How it works\n\nThe following drawing added to simplify work-flow overview of `octario` for simple testers\nas pep8, unittest and functional.\n\n<div align=\"center\"><img src=\"./doc/octario_workflow.png\" alt=\"Octario work-flow\"></div><hr />\n\n### Patch RPMs\n\nPatching of RPMs is deprecated in Octario.\n\nPlease use Octario as InfraRed plugin to achieve patching.\n\nUsing InfraRed and its' patch-components plugin instead, example:\n\n $ infrared plugin add patch-components\n $ infrared plugin add octario\n\n $ infrared patch-components --component-name neutron --component-path /patch/to/neutron/source/code --component-version 14\n $ infrared octario --t dsvm-functional --dir /patch/to/neutron/source/code\n\n## More Docs\n\nSee the [/docs](https://github.com/redhat-openstack/octario/tree/master/docs) directory of this repo.\n" } ]	19
JefferyQ/boltkit	https://github.com/JefferyQ/boltkit	fb70b6bfccdfa178be4b20f4fe1d874f2fc61ff4	09043b60424a30fda7687426cb0801468c71852c	7cf0e8d6fc611c7fb956de588ccc77087d17bbbc	refs/heads/master	2020-06-01T03:57:10.342471	2019-06-03T11:25:49	2019-06-03T11:25:49	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.5490111708641052, "alphanum_fraction": 0.5622313022613525, "avg_line_length": 34.109432220458984, "blob_id": "9a8522eb2432029e9ec286ad4ddc260a16c0b5d4", "content_id": "6a78feafa7b3b4d4aed830a283dd05fce53f165a", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 9308, "license_type": "permissive", "max_line_length": 120, "num_lines": 265, "path": "/boltkit/server/stub.py", "repo_name": "JefferyQ/boltkit", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# coding: utf-8\n\n# Copyright (c) 2002-2016 \"Neo Technology,\"\n# Network Engine for Objects in Lund AB [http://neotechnology.com]\n#\n# This file is part of Neo4j.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\");\n# you may not use this file except in compliance with the License.\n# You may obtain a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS,\n# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n# See the License for the specific language governing permissions and\n# limitations under the License.\n\n\"\"\"\nServer components, including stub server and proxy server.\n\"\"\"\n\nfrom itertools import chain\nfrom json import dumps as json_dumps\n\nfrom logging import getLogger\nfrom select import select\nfrom socket import socket, SOL_SOCKET, SO_REUSEADDR, SHUT_RDWR\nfrom struct import pack as raw_pack, unpack_from as raw_unpack\nfrom threading import Thread\n\nfrom boltkit.addressing import Address\nfrom boltkit.server.bytetools import h\nfrom boltkit.client import CLIENT, SERVER, BOLT\nfrom boltkit.client.packstream import UINT_16, INT_32, Structure, pack, unpack\nfrom boltkit.server.scripting import Script, ExitCommand\n\n\nEXIT_OK = 0\nEXIT_OFF_SCRIPT = 1\nEXIT_TIMEOUT = 2\nEXIT_UNKNOWN = 99\n\n\nlog = getLogger(\"boltkit\")\n\nserver_agents = {\n 1: \"Neo4j/3.0.0\",\n 2: \"Neo4j/3.4.0\",\n 3: \"Neo4j/3.5.0\",\n 4: \"Neo4j/4.0.0\",\n}\n\n\ndef message_repr(v, message):\n name = next(key for key, value in chain(CLIENT[v].items(), SERVER[v].items()) if value == message.tag)\n return \"%s %s\" % (name, \" \".join(map(json_dumps, message.fields)))\n\n\nclass Peer(object):\n\n def __init__(self, socket, address):\n self.socket = socket\n self.address = Address(address)\n self.bolt_version = 0\n\n\nclass StubServer(Thread):\n\n peers = None\n script = Script()\n\n def __init__(self, script_name=None, listen_addr=None, timeout=None):\n super(StubServer, self).__init__()\n self.address = listen_addr or Address.parse(\":17687\")\n self.server = socket()\n self.server.setsockopt(SOL_SOCKET, SO_REUSEADDR, 1)\n self.server.bind((self.address.host, self.address.port_number))\n self.server.listen(0)\n log.info(\"Listening for incoming connections on «%s»\", self.address)\n self.peers = {}\n if script_name:\n self.script = Script(script_name)\n self.running = True\n self.timeout = timeout\n self.exit_code = 0\n\n def run(self):\n self.peers[self.server] = Peer(self.server, self.address)\n while self.running:\n try:\n read_list, _, _ = select(list(self.peers), [], [], self.timeout)\n if read_list:\n for sock in read_list:\n self.read(sock)\n else:\n log.error(\"Timed out after waiting %rs for an incoming \"\n \"connection\", self.timeout)\n raise SystemExit(EXIT_TIMEOUT)\n except SystemExit as e:\n self.exit_code = e.args[0]\n self.running = False\n except:\n self.exit_code = EXIT_UNKNOWN\n self.running = False\n self.stop()\n log.info(\"Exiting with code %r\", self.exit_code)\n\n def stop(self):\n if not self.peers:\n return\n peers, self.peers, self.running = list(self.peers.items()), {}, False\n for sock, peer in peers:\n log.debug(\"~~ <CLOSE> \\\"%s\\\" %d\", peer.address)\n try:\n sock.shutdown(SHUT_RDWR)\n sock.close()\n except OSError:\n pass\n\n def read(self, sock):\n try:\n if sock == self.server:\n self.accept(sock)\n elif self.peers[sock].bolt_version:\n self.handle_request(sock)\n else:\n self.handshake(sock)\n except (KeyError, OSError):\n if self.running:\n raise\n\n def accept(self, sock):\n new_sock, address = sock.accept()\n self.peers[new_sock] = Peer(new_sock, address)\n # listen_address = self.peers[sock].address\n serve_address = self.peers[new_sock].address\n log.info(\"Accepted incoming connection from «%s»\", serve_address)\n\n def handshake(self, sock):\n data = sock.recv(4)\n if data == BOLT:\n log.debug(\"C: <BOLT>\")\n else:\n if data:\n log.error(\"C: <#?@!>\")\n self.stop()\n return\n raw_data = sock.recv(16)\n suggested_version_1, = raw_unpack(INT_32, raw_data, 0)\n suggested_version_2, = raw_unpack(INT_32, raw_data, 4)\n suggested_version_3, = raw_unpack(INT_32, raw_data, 8)\n suggested_version_4, = raw_unpack(INT_32, raw_data, 12)\n client_requested_versions = [suggested_version_1, suggested_version_2, suggested_version_3, suggested_version_4]\n log.debug(\"C: <VERSION> [0x%08x, 0x%08x, 0x%08x, 0x%08x]\" % tuple(client_requested_versions))\n\n v = self.script.bolt_version\n if v not in client_requested_versions:\n raise RuntimeError(\"Script protocol version %r not offered by client\" % v)\n\n # only single protocol version is currently supported\n response = raw_pack(INT_32, v)\n log.debug(\"S: <VERSION> 0x%08x\" % v)\n self.peers[sock].bolt_version = v\n sock.send(response)\n\n def handle_request(self, sock):\n v = self.peers[sock].bolt_version\n\n chunked_data = b\"\"\n message_data = b\"\"\n chunk_size = -1\n debug = []\n while chunk_size != 0:\n chunk_header = sock.recv(2)\n if len(chunk_header) == 0:\n self.stop()\n return\n chunked_data += chunk_header\n chunk_size, = raw_unpack(UINT_16, chunk_header)\n if chunk_size > 0:\n chunk = sock.recv(chunk_size)\n chunked_data += chunk\n message_data += chunk\n else:\n chunk = b\"\"\n debug.append(\" [%s] %s\" % (h(chunk_header), h(chunk)))\n request = unpack(message_data)\n\n if self.script.match_request(request):\n # explicitly matched\n log.debug(\"C: %s\", message_repr(v, request))\n elif self.script.match_auto_request(request):\n # auto matched\n log.debug(\"C! %s\", message_repr(v, request))\n else:\n # not matched\n if self.script.lines:\n expected = message_repr(v, self.script.lines[0].message)\n else:\n expected = \"END OF SCRIPT\"\n log.debug(\"C: %s\", message_repr(v, request))\n log.error(\"Message mismatch (expected <%s>, \"\n \"received <%s>)\", expected, message_repr(v, request))\n self.stop()\n raise SystemExit(EXIT_OFF_SCRIPT)\n\n responses = self.script.match_responses()\n if not responses and self.script.match_auto_request(request):\n # These are hard-coded and therefore not very future-proof.\n if request.tag in (CLIENT[v].get(\"HELLO\"), CLIENT[v].get(\"INIT\")):\n responses = [Structure(SERVER[v][\"SUCCESS\"], {\"server\": server_agents.get(v, \"Neo4j/9.99.999\")})]\n elif request.tag == CLIENT[v].get(\"GOODBYE\"):\n log.debug(\"S: <EXIT>\")\n self.stop()\n raise SystemExit(EXIT_OK)\n elif request.tag == CLIENT[v][\"RUN\"]:\n responses = [Structure(SERVER[v][\"SUCCESS\"], {\"fields\": []})]\n else:\n responses = [Structure(SERVER[v][\"SUCCESS\"], {})]\n for response in responses:\n if isinstance(response, Structure):\n data = pack(response)\n self.send_chunk(sock, data)\n self.send_chunk(sock)\n log.debug(\"S: %s\", message_repr(v, Structure(response.tag, response.fields)))\n elif isinstance(response, ExitCommand):\n self.stop()\n raise SystemExit(EXIT_OK)\n else:\n raise RuntimeError(\"Unknown response type %r\" % (response,))\n\n def send_chunk(self, sock, data=b\"\"):\n header = raw_pack(UINT_16, len(data))\n header_hex = self.send_bytes(sock, header)\n data_hex = self.send_bytes(sock, data)\n return \"[%s] %s\" % (header_hex, data_hex)\n\n def send_bytes(self, sock, data):\n try:\n sock.sendall(data)\n except OSError:\n log.error(\"S: <GONE>\")\n raise SystemExit(EXIT_OFF_SCRIPT)\n else:\n return h(data)\n\n\ndef stub_test(script, port=17687):\n \"\"\" Decorator for stub tests.\n \"\"\"\n def f__(f):\n def f_(args, kwargs):\n server = StubServer((\"127.0.0.1\", port), script, timeout=5)\n server.start()\n kwargs[\"server\"] = server\n yield f(args, *kwargs)\n server.stop()\n f_.__name__ = f.__name__\n f_.__doc__ = f.__doc__\n f_.__dict__.update(f.__dict__)\n return f_\n return f__\n" }, { "alpha_fraction": 0.5415833592414856, "alphanum_fraction": 0.5469812154769897, "avg_line_length": 30.658227920532227, "blob_id": "1256f3f0d22b88fd6437153bdf6799ff2d53a66c", "content_id": "13e65df85150a17328654ba8d366055c3c479279", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5002, "license_type": "permissive", "max_line_length": 126, "num_lines": 158, "path": "/boltkit/server/scripting.py", "repo_name": "JefferyQ/boltkit", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# coding: utf-8\n\n# Copyright (c) 2002-2016 \"Neo Technology,\"\n# Network Engine for Objects in Lund AB [http://neotechnology.com]\n#\n# This file is part of Neo4j.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\");\n# you may not use this file except in compliance with the License.\n# You may obtain a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS,\n# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n# See the License for the specific language governing permissions and\n# limitations under the License.\n\n\nfrom collections import deque\nfrom json import JSONDecoder\n\nfrom boltkit.client import CLIENT, SERVER, MAX_BOLT_VERSION, Structure\n\n\nclass Item(object):\n pass\n\n\nclass Line(Item):\n\n def __init__(self, protocol_version, line_no, peer, message):\n self.protocol_version = protocol_version\n self.line_no = line_no\n self.peer = peer\n self.message = message\n\n\nclass ExitCommand(Item):\n\n pass\n\n\nclass Script(object):\n\n def __init__(self, file_name=None):\n self.bolt_version = 1\n self.auto = []\n self.lines = deque()\n if file_name:\n self.append(file_name)\n\n def __nonzero__(self):\n return bool(self.lines)\n\n def __bool__(self):\n return bool(self.lines)\n\n def __len__(self):\n return len(self.lines)\n\n def parse_message(self, message):\n tag, _, data = message.partition(\" \")\n v = self.bolt_version\n if tag in CLIENT[v]:\n parsed_tag = CLIENT[v][tag]\n elif tag in SERVER[v]:\n parsed_tag = SERVER[v][tag]\n else:\n raise ValueError(\"Unknown message type %s\" % tag)\n decoder = JSONDecoder()\n parsed = []\n while data:\n data = data.lstrip()\n try:\n decoded, end = decoder.raw_decode(data)\n except ValueError:\n break\n else:\n parsed.append(decoded)\n data = data[end:]\n return Structure(parsed_tag, parsed)\n\n def parse_command(self, message):\n tag, _, data = message.partition(\" \")\n if tag == \"<EXIT>\":\n return ExitCommand()\n else:\n raise ValueError(\"Unknown command %s\" % tag)\n\n def parse_lines(self, lines):\n mode = \"C\"\n for line_no, line in enumerate(lines, start=1):\n line = line.rstrip()\n if line == \"\" or line.startswith(\"//\"):\n pass\n elif len(line) >= 2 and line[1] == \":\":\n mode = line[0].upper()\n yield line_no, mode, line[2:].lstrip()\n elif mode is not None:\n yield line_no, mode, line.lstrip()\n\n def append(self, file_name):\n lines = self.lines\n with open(file_name) as f:\n for line_no, mode, line in self.parse_lines(f):\n if mode == \"!\":\n command, _, rest = line.partition(\" \")\n if command == \"AUTO\":\n self.auto.append(self.parse_message(rest))\n if command == \"BOLT\":\n self.bolt_version = int(rest)\n if self.bolt_version < 0 or self.bolt_version > MAX_BOLT_VERSION or CLIENT[self.bolt_version] is None:\n raise RuntimeError(\"Protocol version %r in script %r is not available \"\n \"in this version of BoltKit\" % (self.bolt_version, file_name))\n elif mode in \"CS\":\n if line.startswith(\"<\"):\n lines.append(Line(self.bolt_version, line_no, mode, self.parse_command(line)))\n else:\n lines.append(Line(self.bolt_version, line_no, mode, self.parse_message(line)))\n\n def match_auto_request(self, request):\n for message in self.auto:\n if request.tag == message.tag:\n return True\n elif request == message:\n return True\n return False\n\n def match_request(self, request):\n if not self.lines:\n return 0\n line = self.lines[0]\n if line.peer != \"C\":\n return 0\n if match(line.message, request):\n self.lines.popleft()\n return 1\n else:\n return 0\n\n def match_responses(self):\n responses = []\n while self.lines and self.lines[0].peer == \"S\":\n line = self.lines.popleft()\n if isinstance(line, Line):\n responses.append(line.message)\n elif isinstance(line, ExitCommand):\n pass\n else:\n raise RuntimeError(\"Unexpected response %r\" % line)\n return responses\n\n\ndef match(expected, actual):\n return expected == actual\n" }, { "alpha_fraction": 0.5185185074806213, "alphanum_fraction": 0.7222222089767456, "avg_line_length": 9.800000190734863, "blob_id": "83d31e7092a3d75e030b55137efeaae603ff1073", "content_id": "52c6a60b50eb08521d92268ed2d6f6c9142c75a0", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 54, "license_type": "permissive", "max_line_length": 21, "num_lines": 5, "path": "/requirements.txt", "repo_name": "JefferyQ/boltkit", "src_encoding": "UTF-8", "text": "boto3\ncertifi\nclick~=7.0\ndocker\nurllib3<1.25,>=1.21.1\n" }, { "alpha_fraction": 0.5768308043479919, "alphanum_fraction": 0.5857203602790833, "avg_line_length": 36.696807861328125, "blob_id": "6c4020b14a64afeae1dfd286475289eb59602d07", "content_id": "0e19718b8535e04369a379b7277bcbe750e341cd", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 14180, "license_type": "permissive", "max_line_length": 125, "num_lines": 376, "path": "/boltkit/server/__init__.py", "repo_name": "JefferyQ/boltkit", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# coding: utf-8\n\n# Copyright (c) 2002-2016 \"Neo Technology,\"\n# Network Engine for Objects in Lund AB [http://neotechnology.com]\n#\n# This file is part of Neo4j.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\");\n# you may not use this file except in compliance with the License.\n# You may obtain a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS,\n# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n# See the License for the specific language governing permissions and\n# limitations under the License.\n\n\nfrom itertools import chain\nfrom logging import getLogger\nfrom math import ceil\nfrom os import getenv\nfrom threading import Thread\nfrom uuid import uuid4\nfrom xml.etree import ElementTree\n\nimport certifi\nfrom docker import DockerClient\nfrom docker.errors import APIError, ImageNotFound\nfrom urllib3 import PoolManager, make_headers\n\nfrom boltkit.auth import make_auth\nfrom boltkit.client import AddressList, Connection\n\n\nTEAMCITY_USER = getenv(\"TEAMCITY_USER\")\nTEAMCITY_PASSWORD = getenv(\"TEAMCITY_PASSWORD\")\n\n\nlog = getLogger(\"boltkit\")\n\n\nclass Neo4jMachine:\n \"\"\" A single Neo4j server instance, potentially part of a cluster.\n \"\"\"\n\n container = None\n\n ip_address = None\n\n ready = 0\n\n def __init__(self, name, service_name, image, auth, bolt_port, http_port, *config):\n self.name = name\n self.service_name = service_name\n self.fq_name = \"{}.{}\".format(self.name, self.service_name)\n self.image = image\n self.bolt_port = bolt_port\n self.http_port = http_port\n self.addresses = AddressList([(\"localhost\", self.bolt_port)])\n self.auth = auth\n self.docker = DockerClient.from_env(version=\"auto\")\n environment = {}\n if self.auth:\n environment[\"NEO4J_AUTH\"] = \"{}/{}\".format(self.auth[0], self.auth[1])\n if \"enterprise\" in image:\n environment[\"NEO4J_ACCEPT_LICENSE_AGREEMENT\"] = \"yes\"\n for key, value in config.items():\n environment[\"NEO4J_\" + key.replace(\"_\", \"__\").replace(\".\", \"_\")] = value\n ports = {\n \"7474/tcp\": self.http_port,\n \"7687/tcp\": self.bolt_port,\n }\n\n def create_container(img):\n return self.docker.containers.create(img,\n detach=True,\n environment=environment,\n hostname=self.fq_name,\n name=self.fq_name,\n network=self.service_name,\n ports=ports)\n\n try:\n self.container = create_container(self.image)\n except ImageNotFound:\n log.info(\"Downloading Docker image %r\", self.image)\n self.docker.images.pull(self.image)\n self.container = create_container(self.image)\n\n def __hash__(self):\n return hash(self.container)\n\n def __repr__(self):\n return \"%s(fq_name=%r, image=%r, address=%r)\" % (self.__class__.__name__, self.fq_name, self.image, self.addresses)\n\n def start(self):\n log.info(\"Starting machine %r at «%s»\", self.fq_name, self.addresses)\n self.container.start()\n self.container.reload()\n self.ip_address = self.container.attrs[\"NetworkSettings\"][\"Networks\"][self.service_name][\"IPAddress\"]\n\n def await_started(self, timeout):\n try:\n Connection.open(self.addresses, auth=self.auth, timeout=timeout).close()\n except OSError:\n self.container.reload()\n state = self.container.attrs[\"State\"]\n if state[\"Status\"] == \"exited\":\n self.ready = -1\n log.error(\"Machine %r exited with code %r\" % (self.fq_name, state[\"ExitCode\"]))\n for line in self.container.logs().splitlines():\n log.error(\"> %s\" % line.decode(\"utf-8\"))\n else:\n log.error(\"Machine %r did not become available within %rs\" % (self.fq_name, timeout))\n else:\n self.ready = 1\n # log.info(\"Machine %r available\", self.name)\n\n def stop(self):\n log.info(\"Stopping machine %r\", self.fq_name)\n self.container.stop()\n self.container.remove(force=True)\n\n\nclass Neo4jService:\n \"\"\" A Neo4j database management service.\n \"\"\"\n\n default_image = NotImplemented\n\n default_bolt_port = 7687\n default_http_port = 7474\n\n snapshot_host = \"live.neo4j-build.io\"\n snapshot_build_config_id = \"Neo4j40_Docker\"\n snapshot_build_url = (\"https://{}/repository/download/{}/\"\n \"lastSuccessful\".format(snapshot_host,\n snapshot_build_config_id))\n\n def __new__(cls, name=None, n_cores=None, parameters):\n if n_cores:\n return object.__new__(Neo4jClusterService)\n else:\n return object.__new__(Neo4jStandaloneService)\n\n def __init__(self, name=None, image=None, auth=None, parameters):\n self.name = name or uuid4().hex[-7:]\n self.docker = DockerClient.from_env(version=\"auto\")\n headers = {}\n if TEAMCITY_USER and TEAMCITY_PASSWORD:\n headers.update(make_headers(\n basic_auth=\"{}:{}\".format(TEAMCITY_USER, TEAMCITY_PASSWORD)))\n self.http = PoolManager(\n cert_reqs=\"CERT_REQUIRED\",\n ca_certs=certifi.where(),\n headers=headers,\n )\n self.image = self._resolve_image(image)\n self.auth = auth or make_auth()\n self.machines = []\n self.routers = []\n self.network = None\n\n def __enter__(self):\n try:\n self.start(timeout=300)\n except KeyboardInterrupt:\n self.stop()\n raise\n else:\n return self\n\n def __exit__(self, exc_type, exc_val, exc_tb):\n self.stop()\n\n def _resolve_image(self, image):\n resolved = image or self.default_image\n if \":\" not in resolved:\n resolved = \"neo4j:\" + image\n if resolved == \"neo4j:snapshot\":\n return self._pull_snapshot(\"community\")\n elif resolved in (\"neo4j:snapshot-enterprise\",\n \"neo4j-enterprise:snapshot\"):\n return self._pull_snapshot(\"enterprise\")\n else:\n return resolved\n\n def _resolve_artifact_name(self, edition):\n log.info(\"Resolving snapshot artifact name on «{}»\".format(\n self.snapshot_host))\n prefix = \"neo4j-{}\".format(edition)\n url = \"{}/teamcity-ivy.xml\".format(self.snapshot_build_url)\n r1 = self.http.request(\"GET\", url)\n root = ElementTree.fromstring(r1.data)\n for e in root.find(\"publications\").findall(\"artifact\"):\n attr = e.attrib\n if attr[\"type\"] == \"tar\" and attr[\"name\"].startswith(prefix):\n return \"{}.{}\".format(attr[\"name\"], attr[\"ext\"])\n\n @classmethod\n def _derive_image_tag(cls, artifact_name):\n if artifact_name.endswith(\"-docker-complete.tar\"):\n artifact_name = artifact_name[:-20]\n else:\n raise ValueError(\"Expected artifact name to end with \"\n \"'-docker-complete.tar'\")\n if artifact_name.startswith(\"neo4j-enterprise-\"):\n return \"neo4j-enterprise:{}\".format(artifact_name[17:])\n elif artifact_name.startswith(\"neo4j-community-\"):\n return \"neo4j:{}\".format(artifact_name[16:])\n else:\n raise ValueError(\"Expected artifact name to start with either \"\n \"'neo4j-community-' or 'neo4j-enterprise-'\")\n\n def _pull_snapshot(self, edition):\n artifact = self._resolve_artifact_name(edition)\n derived = self._derive_image_tag(artifact)\n try:\n self.docker.images.get(derived)\n except ImageNotFound:\n log.info(\"Downloading {} from «{}»\".format(\n artifact, self.snapshot_host))\n url = \"{}/{}\".format(self.snapshot_build_url, artifact)\n r2 = self.http.request(\"GET\", url)\n images = self.docker.images.load(r2.data)\n image = images[0]\n return image.tags[0]\n else:\n return derived\n\n def _for_each_machine(self, f):\n threads = []\n for machine in self.machines:\n thread = Thread(target=f(machine))\n thread.daemon = True\n thread.start()\n threads.append(thread)\n for thread in threads:\n thread.join()\n\n def start(self, timeout=None):\n log.info(\"Starting service %r with image %r\", self.name, self.image)\n self.network = self.docker.networks.create(self.name)\n self._for_each_machine(lambda machine: machine.start)\n if timeout is not None:\n self.await_started(timeout)\n\n def await_started(self, timeout):\n\n def wait(machine):\n machine.await_started(timeout=timeout)\n\n self._for_each_machine(wait)\n if all(machine.ready == 1 for machine in self.machines):\n log.info(\"Service %r available\", self.name)\n else:\n log.error(\"Service %r unavailable - some machines failed\", self.name)\n raise OSError(\"Some machines failed\")\n\n def stop(self):\n log.info(\"Stopping service %r\", self.name)\n self._for_each_machine(lambda machine: machine.stop)\n self.network.remove()\n\n @property\n def addresses(self):\n return AddressList(chain((r.addresses for r in self.routers)))\n\n @classmethod\n def find_and_stop(cls, service_name):\n docker = DockerClient.from_env(version=\"auto\")\n for container in docker.containers.list(all=True):\n if container.name.endswith(\".{}\".format(service_name)):\n container.stop()\n container.remove(force=True)\n docker.networks.get(service_name).remove()\n\n\nclass Neo4jStandaloneService(Neo4jService):\n\n default_image = \"neo4j:latest\"\n\n def __init__(self, name=None, bolt_port=None, http_port=None, parameters):\n super().__init__(name, parameters)\n self.machines.append(Neo4jMachine(\n \"z\",\n self.name,\n self.image,\n auth=self.auth,\n bolt_port=bolt_port or self.default_bolt_port,\n http_port=http_port or self.default_http_port,\n ))\n self.routers.extend(self.machines)\n\n\nclass Neo4jClusterService(Neo4jService):\n\n default_image = \"neo4j:enterprise\"\n\n # The minimum and maximum number of cores permitted\n min_cores = 3\n max_cores = 7\n\n # The minimum and maximum number of read replicas permitted\n min_replicas = 0\n max_replicas = 10\n\n default_bolt_port = 17601\n default_http_port = 17401\n\n @classmethod\n def _port_range(cls, base_port, count):\n return range(base_port, base_port + count)\n\n def __init__(self, name=None, bolt_port=None, http_port=None, n_cores=None, n_replicas=None, parameters):\n super().__init__(name, n_cores=n_cores, n_replicas=n_replicas, parameters)\n self.n_cores = n_cores or self.min_cores\n self.n_replicas = n_replicas or self.min_replicas\n if not self.min_cores <= self.n_cores <= self.max_cores:\n raise ValueError(\"A cluster must have been {} and {} cores\".format(self.min_cores, self.max_cores))\n if not self.min_replicas <= self.n_replicas <= self.max_replicas:\n raise ValueError(\"A cluster must have been {} and {} read replicas\".format(self.min_replicas, self.max_replicas))\n\n # CORES\n # =====\n # Calculate port numbers for Bolt\n core_bolt_port_range = self._port_range(bolt_port or self.default_bolt_port, self.max_cores)\n # Calculate port numbers for HTTP\n core_http_port_range = self._port_range(http_port or self.default_http_port, self.max_cores)\n # Calculate machine names\n core_names = [chr(i) for i in range(97, 97 + self.n_cores)]\n core_addresses = [\"{}.{}:5000\".format(name, self.name) for name in core_names]\n #\n self.machines.extend(Neo4jMachine(\n core_names[i],\n self.name,\n self.image,\n auth=self.auth,\n bolt_port=core_bolt_port_range[i],\n http_port=core_http_port_range[i],\n {\n \"causal_clustering.initial_discovery_members\": \",\".join(core_addresses),\n \"causal_clustering.minimum_core_cluster_size_at_formation\": self.n_cores,\n \"causal_clustering.minimum_core_cluster_size_at_runtime\": self.min_cores,\n \"dbms.connector.bolt.advertised_address\": \"localhost:{}\".format(core_bolt_port_range[i]),\n \"dbms.mode\": \"CORE\",\n }\n ) for i in range(self.n_cores or 0))\n self.routers.extend(self.machines)\n\n # REPLICAS\n # ========\n # Calculate port numbers for Bolt\n replica_bolt_port_range = self._port_range(ceil(core_bolt_port_range.stop / 10) 10, self.max_replicas)\n # Calculate port numbers for HTTP\n replica_http_port_range = self._port_range(ceil(core_http_port_range.stop / 10) * 10, self.max_replicas)\n # Calculate machine names\n replica_names = [chr(i) for i in range(48, 48 + self.n_replicas)]\n #\n self.machines.extend(Neo4jMachine(\n replica_names[i],\n self.name,\n self.image,\n auth=self.auth,\n bolt_port=replica_bolt_port_range[i],\n http_port=replica_http_port_range[i],\n *{\n \"causal_clustering.initial_discovery_members\": \",\".join(core_addresses),\n \"dbms.connector.bolt.advertised_address\": \"localhost:{}\".format(replica_bolt_port_range[i]),\n \"dbms.mode\": \"READ_REPLICA\",\n }\n ) for i in range(self.n_replicas or 0))\n" }, { "alpha_fraction": 0.5412929058074951, "alphanum_fraction": 0.5564491152763367, "avg_line_length": 27.1130428314209, "blob_id": "a490d09bb303271287ba2012356a17903363aaa3", "content_id": "25ebfa7a4c0cca2c99c37ff399308740bbcf4269", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3233, "license_type": "permissive", "max_line_length": 74, "num_lines": 115, "path": "/test/test_stub_server.py", "repo_name": "JefferyQ/boltkit", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# coding: utf-8\n\n# Copyright (c) 2002-2016 \"Neo Technology,\"\n# Network Engine for Objects in Lund AB [http://neotechnology.com]\n#\n# This file is part of Neo4j.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\");\n# you may not use this file except in compliance with the License.\n# You may obtain a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS,\n# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n# See the License for the specific language governing permissions and\n# limitations under the License.\n\n\nfrom unittest import TestCase\n\nfrom boltkit.client import Connection\nfrom boltkit.server.stub import stub_test\n\n\nclass ReturnOneTestCase(TestCase):\n\n @stub_test(\"scripts/v1/return_1_as_x.bolt\")\n def test_v1(self, server):\n\n # Given\n with Connection.open(server.addresses, *server.settings) as cx:\n\n # When\n records = []\n cx.run(\"RETURN $x\", {\"x\": 1})\n cx.pull(-1, records)\n cx.send_all()\n cx.fetch_all()\n\n # Then\n self.assertEqual(records, [[1]])\n self.assertEqual(cx.bolt_version, 1)\n\n @stub_test(\"scripts/v2/return_1_as_x.bolt\")\n def test_v2(self, server):\n\n # Given\n with Connection.open(server.addresses, *server.settings) as cx:\n\n # When\n records = []\n cx.run(\"RETURN $x\", {\"x\": 1})\n cx.pull(-1, records)\n cx.send_all()\n cx.fetch_all()\n\n # Then\n self.assertEqual(records, [[1]])\n self.assertEqual(cx.bolt_version, 2)\n\n @stub_test(\"scripts/v3/return_1_as_x.bolt\")\n def test_v3(self, server):\n\n # Given\n with Connection.open(server.addresses, *server.settings) as cx:\n\n # When\n records = []\n cx.run(\"RETURN $x\", {\"x\": 1})\n cx.pull(-1, records)\n cx.send_all()\n cx.fetch_all()\n\n # Then\n self.assertEqual(records, [[1]])\n self.assertEqual(cx.bolt_version, 3)\n\n @stub_test(\"scripts/v4/return_1_as_x.bolt\")\n def test_v4(self, server):\n\n # Given\n with Connection.open(server.addresses, *server.settings) as cx:\n\n # When\n records = []\n cx.run(\"RETURN $x\", {\"x\": 1})\n cx.pull(-1, records)\n cx.send_all()\n cx.fetch_all()\n\n # Then\n self.assertEqual(records, [[1]])\n self.assertEqual(cx.bolt_version, 4)\n\n @stub_test(\"scripts/v4/return_1_as_x_explicit.bolt\")\n def test_v4_explicit(self, server):\n\n # Given\n with Connection.open(server.addresses, *server.settings) as cx:\n\n # When\n records = []\n cx.begin()\n cx.run(\"RETURN $x\", {\"x\": 1})\n cx.pull(-1, records)\n cx.commit()\n cx.send_all()\n cx.fetch_all()\n\n # Then\n self.assertEqual(records, [[1]])\n self.assertEqual(cx.bolt_version, 4)\n" }, { "alpha_fraction": 0.8636363744735718, "alphanum_fraction": 0.8636363744735718, "avg_line_length": 10, "blob_id": "b9358d8436134f5fa6493d4dbeaab506b6b16d29", "content_id": "3c7d43ec2cfff6c08d722df94675abcbe24d5f9f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 44, "license_type": "permissive", "max_line_length": 16, "num_lines": 4, "path": "/test/requirements.txt", "repo_name": "JefferyQ/boltkit", "src_encoding": "UTF-8", "text": "coverage\npytest\npytest-benchmark\npytest-cov\n" }, { "alpha_fraction": 0.6188458800315857, "alphanum_fraction": 0.6250588297843933, "avg_line_length": 36.67021179199219, "blob_id": "b867385c2808280f28dc25d9948d52d8517fec50", "content_id": "e15ed385648186e43db49ea865f13cf238cd3aaf", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 10623, "license_type": "permissive", "max_line_length": 99, "num_lines": 282, "path": "/boltkit/__main__.py", "repo_name": "JefferyQ/boltkit", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# coding: utf-8\n\n# Copyright (c) 2002-2016 \"Neo Technology,\"\n# Network Engine for Objects in Lund AB [http://neotechnology.com]\n#\n# This file is part of Neo4j.\n#\n# Licensed under the Apache License, Version 2.0 (the \"License\");\n# you may not use this file except in compliance with the License.\n# You may obtain a copy of the License at\n#\n# http://www.apache.org/licenses/LICENSE-2.0\n#\n# Unless required by applicable law or agreed to in writing, software\n# distributed under the License is distributed on an \"AS IS\" BASIS,\n# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n# See the License for the specific language governing permissions and\n# limitations under the License.\n\n\nfrom itertools import chain\nfrom logging import INFO, DEBUG\nfrom shlex import quote as shlex_quote\nfrom subprocess import run\nfrom time import sleep\n\nimport click\n\nfrom boltkit.addressing import Address, AddressList\nfrom boltkit.auth import AuthParamType, Auth\nfrom boltkit.client import Connection\nfrom boltkit.dist import Distributor\nfrom boltkit.server import Neo4jService\nfrom boltkit.server.proxy import ProxyServer\nfrom boltkit.server.stub import StubServer\nfrom boltkit.watcher import watch\n\n\nclass AddressParamType(click.ParamType):\n\n name = \"addr\"\n\n def __init__(self, default_host=None, default_port=None):\n self.default_host = default_host\n self.default_port = default_port\n\n def convert(self, value, param, ctx):\n return Address.parse(value, self.default_host, self.default_port)\n\n def __repr__(self):\n return 'HOST:PORT'\n\n\nclass AddressListParamType(click.ParamType):\n\n name = \"addr\"\n\n def __init__(self, default_host=None, default_port=None):\n self.default_host = default_host\n self.default_port = default_port\n\n def convert(self, value, param, ctx):\n return AddressList.parse(value, self.default_host, self.default_port)\n\n def __repr__(self):\n return 'HOST:PORT [HOST:PORT...]'\n\n\ndef watch_log(ctx, param, value):\n if value:\n watch(\"boltkit\", DEBUG if value >= 2 else INFO)\n\n\[email protected]()\ndef bolt():\n pass\n\n\[email protected](help=\"\"\"\\\nRun a Bolt client.\n\"\"\")\[email protected](\"-a\", \"--auth\", type=AuthParamType(), envvar=\"NEO4J_AUTH\")\[email protected](\"-b\", \"--bolt-version\", default=0, type=int)\[email protected](\"-s\", \"--server-addr\", type=AddressListParamType(), envvar=\"BOLT_SERVER_ADDR\")\[email protected](\"-t\", \"--transaction\", is_flag=True)\[email protected](\"-v\", \"--verbose\", count=True, callback=watch_log, expose_value=False, is_eager=True)\[email protected](\"cypher\", nargs=-1)\ndef client(cypher, server_addr, auth, transaction, bolt_version):\n if auth is None:\n auth = Auth(click.prompt(\"User\", default=\"neo4j\"),\n click.prompt(\"Password\", hide_input=True))\n if bolt_version:\n bolt_versions = [bolt_version]\n else:\n bolt_versions = None\n try:\n with Connection.open(server_addr or (), auth=auth, bolt_versions=bolt_versions) as cx:\n records = []\n if transaction:\n cx.begin()\n for statement in cypher:\n cx.run(statement, {})\n cx.pull(-1, -1, records)\n if transaction:\n cx.commit()\n cx.send_all()\n cx.fetch_all()\n for record in records:\n click.echo(\"\\t\".join(map(str, record)))\n except Exception as e:\n click.echo(\" \".join(map(str, e.args)))\n exit(1)\n\n\[email protected](help=\"\"\"\\\nRun a Bolt stub server.\n\nThe stub server process listens for an incoming client connection and will \nattempt to play through a pre-scripted exchange with that client. Any deviation\nfrom that script will result in a non-zero exit code. This utility is primarily\nuseful for Bolt client integration testing.\n\"\"\")\[email protected](\"-l\", \"--listen-addr\", type=AddressParamType(),\n envvar=\"BOLT_LISTEN_ADDR\",\n help=\"The address on which to listen for incoming connections \"\n \"in INTERFACE:PORT format, where INTERFACE may be omitted \"\n \"for 'localhost'. If completely omitted, this defaults to \"\n \"':17687'. The BOLT_LISTEN_ADDR environment variable may \"\n \"be used as an alternative to this option.\")\[email protected](\"-t\", \"--timeout\", type=float,\n help=\"The number of seconds for which the stub server will wait \"\n \"for an incoming connection before automatically \"\n \"terminating. If unspecified, the server will wait \"\n \"indefinitely.\")\[email protected](\"-v\", \"--verbose\", count=True, callback=watch_log,\n expose_value=False, is_eager=True,\n help=\"Show more detail about the client-server exchange.\")\[email protected](\"script\")\ndef stub(script, listen_addr, timeout):\n stub_server = StubServer(script, listen_addr, timeout=timeout)\n try:\n stub_server.start()\n stub_server.join()\n except KeyboardInterrupt:\n exit(130)\n except Exception as e:\n click.echo(\" \".join(map(str, e.args)), err=True)\n exit(1)\n finally:\n exit(stub_server.exit_code)\n\n\[email protected](help=\"\"\"\\\nRun a Bolt proxy server.\n\"\"\")\[email protected](\"-l\", \"--listen-addr\", type=AddressParamType(), envvar=\"BOLT_LISTEN_ADDR\")\[email protected](\"-s\", \"--server-addr\", type=AddressListParamType(), envvar=\"BOLT_SERVER_ADDR\")\[email protected](\"-v\", \"--verbose\", count=True, callback=watch_log, expose_value=False, is_eager=True)\ndef proxy(server_addr, listen_addr):\n proxy_server = ProxyServer(server_addr, listen_addr)\n proxy_server.start()\n\n\[email protected](help=\"List available Neo4j releases\")\ndef dist():\n try:\n distributor = Distributor()\n for name, r in distributor.releases.items():\n if name == r.name.upper():\n click.echo(r.name)\n except KeyboardInterrupt:\n exit(130)\n except Exception as e:\n click.echo(\" \".join(map(str, e.args)), err=True)\n exit(1)\n\n\[email protected](help=\"\"\"\\\nDownload Neo4j.\n\"\"\")\[email protected](\"-e\", \"--enterprise\", is_flag=True)\[email protected](\"-s\", \"--s3\", is_flag=True)\[email protected](\"-t\", \"--teamcity\", is_flag=True)\[email protected](\"-v\", \"--verbose\", count=True, callback=watch_log, expose_value=False, is_eager=True)\[email protected](\"-w\", \"--windows\", is_flag=True)\[email protected](\"version\")\ndef get(version, enterprise, s3, teamcity, windows):\n try:\n distributor = Distributor()\n edition = \"enterprise\" if enterprise else \"community\"\n if windows:\n package_format = \"windows.zip\"\n else:\n package_format = \"unix.tar.gz\"\n if s3:\n distributor.download_from_s3(edition, version, package_format)\n elif teamcity:\n distributor.download_from_teamcity(edition, version, package_format)\n else:\n distributor.download(edition, version, package_format)\n except KeyboardInterrupt:\n exit(130)\n except Exception as e:\n click.echo(\" \".join(map(str, e.args)), err=True)\n exit(1)\n\n\[email protected](context_settings={\"ignore_unknown_options\": True}, help=\"\"\"\\\nRun a Neo4j cluster or standalone server in one or more local Docker \ncontainers.\n\nIf an additional COMMAND is supplied, this will be executed after startup, \nwith a shutdown occurring immediately afterwards. If no COMMAND is supplied,\nthe service will remain available until manually shutdown by Ctrl+C.\n\nA couple of environment variables will also be made available to any COMMAND\npassed. These are:\n\n\\b\n- BOLT_SERVER_ADDR\n- NEO4J_AUTH\n\"\"\")\[email protected](\"-a\", \"--auth\", type=AuthParamType(), envvar=\"NEO4J_AUTH\",\n help=\"Credentials with which to bootstrap the service. These \"\n \"must be specified as a 'user:password' pair and may \"\n \"alternatively be supplied via the NEO4J_AUTH environment \"\n \"variable. These credentials will also be exported to any \"\n \"COMMAND executed during the service run.\")\[email protected](\"-B\", \"--bolt-port\", type=int,\n help=\"A port number (standalone) or base port number (cluster) \"\n \"for Bolt traffic.\")\[email protected](\"-c\", \"--n-cores\", type=int,\n help=\"If specified, a cluster with this many cores will be \"\n \"created. If omitted, a standalone service will be created \"\n \"instead. See also -r for specifying the number of read \"\n \"replicas.\")\[email protected](\"-H\", \"--http-port\", type=int,\n help=\"A port number (standalone) or base port number (cluster) \"\n \"for HTTP traffic.\")\[email protected](\"-i\", \"--image\",\n help=\"The Docker image tag to use for building containers. The \"\n \"repository can also be included, but will default to \"\n \"'neo4j'. Note that a Neo4j Enterprise Edition image is \"\n \"required for building clusters.\")\[email protected](\"-n\", \"--name\",\n help=\"A Docker network name to which all servers will be \"\n \"attached. If omitted, an auto-generated name will be \"\n \"used.\")\[email protected](\"-r\", \"--n-replicas\", type=int,\n help=\"The number of read replicas to include within the \"\n \"cluster. This option will only take effect if -c is also \"\n \"used.\")\[email protected](\"-v\", \"--verbose\", count=True, callback=watch_log,\n expose_value=False, is_eager=True,\n help=\"Show more detail about the startup and shutdown process.\")\[email protected](\"command\", nargs=-1, type=click.UNPROCESSED)\ndef server(command, name, parameters):\n try:\n with Neo4jService(name, parameters) as neo4j:\n addr = AddressList(chain(*(r.addresses for r in neo4j.routers)))\n auth = \"{}:{}\".format(neo4j.auth.user, neo4j.auth.password)\n if command:\n run(\" \".join(map(shlex_quote, command)), shell=True, env={\n \"BOLT_SERVER_ADDR\": str(addr),\n \"NEO4J_AUTH\": auth,\n })\n else:\n click.echo(\"BOLT_SERVER_ADDR='{}'\".format(addr))\n click.echo(\"NEO4J_AUTH='{}'\".format(auth))\n click.echo(\"Press Ctrl+C to exit\")\n while True:\n sleep(0.1)\n except KeyboardInterrupt:\n exit(130)\n except Exception as e:\n click.echo(\" \".join(map(str, e.args)), err=True)\n exit(1)\n\n\nif __name__ == \"__main__\":\n bolt()\n" } ]	7
T-NOVA/NFS	https://github.com/T-NOVA/NFS	ff7d5458ea0058c03db8be35676b5fe50e65e21c	d09787c6acd7a3edf152d7e88ff64ba7afec6da6	d59d645d54200d76653ed8c70953fe59bfa96ae0	refs/heads/master	2021-01-21T02:00:25.436223	2016-07-25T06:00:56	2016-07-25T06:00:56	50,651,918	0	2	null	2016-01-29T09:16:07	2016-01-29T10:24:18	2016-03-04T13:38:05	HTML	[ { "alpha_fraction": 0.6166666746139526, "alphanum_fraction": 0.6166666746139526, "avg_line_length": 11, "blob_id": "0118b4681e25a5bbdad1e8214acecbeb7d6d0135", "content_id": "68905d2cd1f4ac0f6a4d29fab15b4e57dd98a98a", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 60, "license_type": "permissive", "max_line_length": 22, "num_lines": 5, "path": "/conf/build/postUninstall.sh", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "#! /bin/bash\n\necho \"post Uninstall\"\n\nrm /etc/rc.d/[KS]nfs\n" }, { "alpha_fraction": 0.8266522288322449, "alphanum_fraction": 0.8494040966033936, "avg_line_length": 50.27777862548828, "blob_id": "19617c44795804995428f9ccdbd26f635a336ac4", "content_id": "01cbb993bf871af21e1ff22a2bf0491bfd91f65e", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 923, "license_type": "permissive", "max_line_length": 81, "num_lines": 18, "path": "/src/eu/tnova/nfs/entity/AssuranceParameters_.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.entity;\n\nimport javax.annotation.Generated;\nimport javax.persistence.metamodel.ListAttribute;\nimport javax.persistence.metamodel.SingularAttribute;\nimport javax.persistence.metamodel.StaticMetamodel;\n\n@Generated(value=\"Dali\", date=\"2016-01-29T10:50:16.335+0100\")\n@StaticMetamodel(AssuranceParameters.class)\npublic class AssuranceParameters_ {\n\tpublic static volatile SingularAttribute<AssuranceParameters, Integer> DBId;\n\tpublic static volatile SingularAttribute<AssuranceParameters, String> paramId;\n\tpublic static volatile SingularAttribute<AssuranceParameters, Integer> value;\n\tpublic static volatile SingularAttribute<AssuranceParameters, String> unit;\n\tpublic static volatile SingularAttribute<AssuranceParameters, String> formula;\n\tpublic static volatile ListAttribute<AssuranceParameters, Violation> violations;\n\tpublic static volatile SingularAttribute<AssuranceParameters, Penalty> penalty;\n}\n" }, { "alpha_fraction": 0.7521951198577881, "alphanum_fraction": 0.7521951198577881, "avg_line_length": 23.404762268066406, "blob_id": "315e31b60a773a983b5dd1a095a884a40d9f2db0", "content_id": "d2d7ca13ea702962f6a7b5637256585d5928030b", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 1025, "license_type": "permissive", "max_line_length": 100, "num_lines": 42, "path": "/src/eu/tnova/nfs/ws/orchestrator/OrchestratorVNF.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws.orchestrator;\n\nimport java.io.Serializable;\n\n@SuppressWarnings(\"serial\")\npublic class OrchestratorVNF implements Serializable {\n\tprivate Integer vnfdId;\n\tprivate OrchestratorOperationTypeEnum operation;\n\tprivate String userToker;\n\n\tpublic OrchestratorVNF() {\n\t}\n\tpublic OrchestratorVNF(Integer vnfdId, OrchestratorOperationTypeEnum operation, String userToker) {\n\t\tsuper();\n\t\tthis.vnfdId = vnfdId;\n\t\tthis.operation = operation;\n\t\tthis.userToker = userToker;\n\t}\n\tpublic Integer getVnfdId() {\n\t\treturn vnfdId;\n\t}\n\tpublic void setVnfdId(Integer vnfdId) {\n\t\tthis.vnfdId = vnfdId;\n\t}\n\tpublic OrchestratorOperationTypeEnum getOperation() {\n\t\treturn operation;\n\t}\n\tpublic void setOperation(OrchestratorOperationTypeEnum operation) {\n\t\tthis.operation = operation;\n\t}\n\tpublic String getUserToker() {\n\t\treturn userToker;\n\t}\n\tpublic void setUserToker(String userToker) {\n\t\tthis.userToker = userToker;\n\t}\n\n\t@Override\n\tpublic String toString() {\n\t\treturn \"[vnfd=\" + vnfdId + \", operation=\" + operation + \"]\";\n\t}\n}\n" }, { "alpha_fraction": 0.7158756256103516, "alphanum_fraction": 0.7175122499465942, "avg_line_length": 30.015228271484375, "blob_id": "d8fd5402c95ad0c294aff52aa813991624526862", "content_id": "141fcab5e85b812769c44fba400ae67b50fe5aa8", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 6110, "license_type": "permissive", "max_line_length": 108, "num_lines": 197, "path": "/src/eu/tnova/nfs/entity/VNFDescriptor.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.entity;\n\nimport java.io.Serializable;\nimport java.net.MalformedURLException;\nimport java.net.URL;\nimport java.util.ArrayList;\nimport java.util.HashMap;\nimport java.util.List;\nimport java.util.Map;\n\nimport javax.persistence.Basic;\nimport javax.persistence.CascadeType;\nimport javax.persistence.Entity;\nimport javax.persistence.FetchType;\nimport javax.persistence.GeneratedValue;\nimport javax.persistence.Id;\nimport javax.persistence.Lob;\nimport javax.persistence.ManyToMany;\nimport javax.persistence.NamedQueries;\nimport javax.persistence.NamedQuery;\nimport javax.validation.constraints.NotNull;\nimport javax.xml.bind.annotation.XmlAccessType;\nimport javax.xml.bind.annotation.XmlAccessorType;\nimport javax.xml.bind.annotation.XmlRootElement;\n\nimport com.google.gson.Gson;\nimport com.google.gson.JsonArray;\nimport com.google.gson.JsonElement;\nimport com.google.gson.JsonObject;\nimport com.google.gson.JsonSyntaxException;\n\n@Entity\n@XmlAccessorType(XmlAccessType.FIELD)\n@XmlRootElement(name = \"VNFDescriptor\")\n@NamedQueries({\n\t@NamedQuery(name = VNFDescriptor.QUERY_READ_ALL, query = \"select d from VNFDescriptor d\"),\n\t@NamedQuery(name = VNFDescriptor.QUERY_READ_BY_ID, query = \"select d from VNFDescriptor d where d.id=:id\"),\n\t})\n\npublic class VNFDescriptor implements Serializable {\n\tprivate static final long serialVersionUID = 1L;\n\tpublic static final String QUERY_READ_ALL = \"findAllVNFDescriptors\";\n\tpublic static final String QUERY_READ_BY_ID = \"findVNFDescriptorById\";\n\n\t@Id @GeneratedValue \n\tprivate Integer id;\n\tprivate boolean vnfCreated;\n\t@NotNull private VNFD vnfd;\n\t@Lob @Basic(fetch=FetchType.EAGER)\n\tprivate String json;\n\t@ManyToMany(\n\t\tfetch=FetchType.EAGER,\n\t\tcascade = {CascadeType.PERSIST, CascadeType.MERGE, CascadeType.REFRESH, CascadeType.DETACH}\n\t)\n\tprivate List<VNFFile> files = new ArrayList<VNFFile>();\n\n\tpublic VNFDescriptor() {\n\t\tsuper();\n\t vnfCreated=false;\n\t}\n\tpublic VNFDescriptor(String jsonVNFD) throws JsonSyntaxException {\n\t\tjson = jsonVNFD;\n\t\tGson gson = new Gson();\n\t\tvnfd = gson.fromJson(json, VNFD.class);\n\t JsonElement jsonElement = (JsonElement) gson.fromJson(jsonVNFD, JsonElement.class);\n\t JsonElement idElement = jsonElement.getAsJsonObject().get(\"id\");\n\t if (idElement != null)\n\t \tid = Integer.valueOf(idElement.getAsInt());\n\t vnfCreated=false;\n\t}\n\n\tpublic Integer getId() {\n\t\treturn id;\n\t}\n\tpublic void setId(Integer id) {\n\t\tthis.id = id;\n\t}\n//\tpublic String getVnfId() {\n//\t\treturn vnfId;\n//\t}\n//\tpublic void setVnfId(String vnfId) {\n//\t\tthis.vnfId = vnfId;\n//\t}\n\tpublic boolean isVnfCreated() {\n\t\treturn vnfCreated;\n\t}\n\tpublic void setVnfCreated(boolean vnfCreated) {\n\t\tthis.vnfCreated = vnfCreated;\n\t}\n\tpublic VNFD getVnfd() {\n\t\treturn vnfd;\n\t}\n\tpublic void setVnfd(VNFD vnfd) {\n\t\tthis.vnfd = vnfd;\n\t}\n\tpublic List<VNFFile> getFiles() {\n\t\treturn files;\n\t}\n\tpublic void setFiles(List<VNFFile> files) {\n\t\tthis.files = files;\n\t}\n\tpublic String getJson() {\n\t\treturn json;\n\t}\n\tpublic void setJson(String json) {\n\t\tthis.json = json;\n\t}\n\n\tpublic Map<String,VNFFile> getFilesMap() {\n\t\tMap <String,VNFFile> fileMap = new HashMap<String,VNFFile>();\n\t\tfor (VNFFile file: files)\n\t\t\tfileMap.put(file.getName(), file);\n\t\treturn fileMap;\n\t}\n\t\n\tpublic List<String> getvmImages() {\n\t\tList<String> images = new ArrayList<String>();\n\t\tif ( vnfd.getVdu()!=null && !vnfd.getVdu().isEmpty() ) {\n\t\t\tfor (VirtualDeploymentUnit vdu: vnfd.getVdu()) {\n\t\t\t\timages.add(vdu.getVmImage());\n\t\t\t}\n\t\t}\n\t\treturn images;\n\t}\n\tpublic List<String> getvmImagesFileNames() {\n\t\tList<String> files = new ArrayList<String>();\n\t\tfor ( String image : getvmImages() ) {\n\t\t\tif ( image==null )\n\t\t\t\tcontinue;\n\t\t\tString[] parts = image.split(\"/\");\n\t\t\tfiles.add(parts[parts.length-1]);\n\t\t}\n\t\treturn files;\n\t}\n\t\n\tpublic void addIdToJson() {\n\t\tGson gson = new Gson();\n\t\tJsonElement jsonElement = gson.fromJson(json, JsonElement.class);\n\t\tjsonElement.getAsJsonObject().addProperty(\"id\", id);\n\t\tjson=gson.toJson(jsonElement);\n\t}\n\t\n\tpublic void changeVmImagesToURL(String NfsUrl) throws MalformedURLException {\n\t\tGson gson = new Gson();\n\t\tJsonElement jsonElement = gson.fromJson(json, JsonElement.class);\n\t\tJsonArray vdus = jsonElement.getAsJsonObject().getAsJsonArray(VirtualDeploymentUnit.VDU);\n\t\tfor ( int i=0; i<vdus.size(); i++ ) {\n\t\t\tJsonObject obj = vdus.get(i).getAsJsonObject();\n\t\t\tJsonElement imageElement = obj.get(VirtualDeploymentUnit.VM_IMAGE);\n\t\t\tif ( imageElement==null )\n\t\t\t\tcontinue;\n\t\t\tString image = imageElement.getAsString();\n\t\t\tif ( image==null \|\| image.isEmpty())\n\t\t\t\tcontinue;\n\t\t\tString[] parts = image.split(\"/\");\n\t\t\tString uri = new URL(NfsUrl)+\"/files/\"+parts[parts.length-1];\n\t\t\tobj.addProperty(VirtualDeploymentUnit.VM_IMAGE, uri);\n\t\t}\n\t\tjson=gson.toJson(jsonElement);\n\t\tvnfd=gson.fromJson(json, VNFD.class);\n\t}\n\tpublic boolean setJsonImageProperty(String imageName, String md5Sum, String imageType) {\n\t\tboolean result = false;\n\t\tGson gson = new Gson();\n\t\tJsonElement jsonElement = gson.fromJson(json, JsonElement.class);\n\t\tJsonArray vduList = jsonElement.getAsJsonObject().getAsJsonArray(VirtualDeploymentUnit.VDU);\n\t\tfor ( JsonElement vduElement : vduList) {\n\t\t\tJsonElement imageElement = vduElement.getAsJsonObject().get(VirtualDeploymentUnit.VM_IMAGE);\n\t\t\tif ( imageElement==null )\n\t\t\t\tcontinue;\n\t\t\tString image = imageElement.getAsString();\n\t\t\tif ( image==null \|\| image.isEmpty())\n\t\t\t\tcontinue;\n\t\t if ( image.endsWith(\"/files/\"+imageName) ) {\n\t\t \tif ( md5Sum==null \|\| md5Sum.isEmpty() ) {\n\t\t \t\tvduElement.getAsJsonObject().remove(VirtualDeploymentUnit.VM_IMAGE_MD5);\n\t\t \t} else {\n\t\t \t\tvduElement.getAsJsonObject().addProperty(\n\t\t \t\t\t\tVirtualDeploymentUnit.VM_IMAGE_MD5, md5Sum);\n\t\t \t}\n\t\t \tif ( imageType==null \|\| imageType.isEmpty() ) {\n\t\t \t\tvduElement.getAsJsonObject().remove(VirtualDeploymentUnit.VM_IMAGE_FORMAT);\n\t\t \t} else {\n\t\t \t\tvduElement.getAsJsonObject().addProperty(\n\t\t \t\t\t\tVirtualDeploymentUnit.VM_IMAGE_FORMAT, imageType);\n\t\t \t}\n\t\t \tresult=true;\n\t\t }\n\t\t}\n\t\tif ( result ) {\n\t \tjson=gson.toJson(jsonElement);\n\t \tvnfd=gson.fromJson(json, VNFD.class);\n\t\t}\n \treturn result;\n\t}\n\t\n}\n" }, { "alpha_fraction": 0.6064869165420532, "alphanum_fraction": 0.6330597996711731, "avg_line_length": 26.664865493774414, "blob_id": "f85a41f48021f4a618014d18e7407524617fd532", "content_id": "0f19b431d9e8fdf5e952a97e689a3ddffd0192a8", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 5118, "license_type": "permissive", "max_line_length": 134, "num_lines": 185, "path": "/vnfds_interface.md", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "# VNF Descriptor Interface\nThis interface give the possibility to manage VNF descriptors on NFStore.\n\n## Add VNF Descriptor\nThis method allows to add one VNF descriptor to NF Store.<br/>\n\nThe descriptor should be inserted in json format into request.<br/>\nThe Content-Type field of the part should be configured to application/json.<br/>\n\nThe response body return the id of VNF descriptor inserted.<br/>\n\n* URL: ```/NFS/vnfds```\n* Method: POST\n- URL Parameters<br/>\n - Required Parameters: \n ```html\nContent-Type: application/json;\n ```\n - Optional Parameters:\n- Header Parameters\n - Required Parameters: \n - Optional Parameters:\n- Data Parameters<br/>\n```html\n<VNF descriptor> \n```\n- Success Response:\n - Code: `201 Created`\n - Content: \n ```html\n {\n \"vnfd_id\": <vnfd Id>\n }\n```\n- Error Response:\n - Code: `400 Bad Request`\n - Code: `500 Internal Server Error`\n- Sample Call:\n curl -k -X POST --data @vnfd.json http://127.0.0.1:8080/NFS/vnfds/3901\n- Notes:\nThe id field should not be present on VNF descriptor because the value should be inserted by NFStore.<br/>\nThe VNF descriptor should contain VDUs with image to be valid; NFStore add md5Sum fields of images when files are available on server.\n\n## Get VNF Descriptor\nThis method allows to get from NFStore the VNF descriptor with id specified into request.<br/>\nThe descriptor is returned in json form into HTML body.<br/>\n\n* URL: ```/NFS/vnfds```\n* Method: GET\n- URL Parameters\n - Required Parameters: `/<vnfd_id>`\n - Optional Parameters:\n- Header Parameters\n - Required Parameters: \n ```html\nContent-Type: application/json;\n ```\n - Optional Parameters:\n- Data Parameters\n- Success Response:\n - Code: `200 OK`\n - Content: \n ```html\n <VNF descriptor> \n ```\n- Error Response:\n - Code: `400 Bad Request`\n - Code: `404 Not Found `\n - Code: `500 Internal Server Error`\n- Sample Call:\n curl -k -X GET http://127.0.0.1:8080/NFS/vnfds/3901\n- Notes:\n\n## Get VNF Descriptors\nThis method allows to retrieve all VNF descriptors available into NF Store.<br/>\n\n* URL: ```/NFS/vnfds```\n* Method: GET\n- URL Parameters\n - Required Parameters: \n - Optional Parameters:\n- Header Parameters\n - Required Parameters: \n ```html\nContent-Type: application/json;\n ```\n - Optional Parameters:\n- Data Parameters\n- Success Response:\n - Code: `200 OK`\n - Content: \n ```html\n {\n \"vnfds\":[\n \t\t<VNF descriptor 1>,\n \t\t...,\n \t\t<VNF descriptor N>,\n ]}\n ```\n- Error Response:\n - Code: `500 Internal Server Error`\n- Sample Call:\n curl -k -X GET http://127.0.0.1:8080/NFS/vnfds\n- Notes:\n\n## Modify VNF Descriptor\nThis method allows to modify one VNF descriptor already available into NF Store.<br/>\nThe new descriptor should be inserted in json format into request.<br/>\n\nThe response return the id of VNF descriptor modified.\n\n* URL: ```/NFS/vnfds```\n* Method: PUT\n- URL Parameters\n - Required Parameters: `/<vnfd_id>`\n - Optional Parameters:\n- Header Parameters\n - Required Parameters: \n ```html\nContent-Type: application/json;\n ```\n - Optional Parameters:\n- Data Parameters<br/>\n```html\n<VNF descriptor> \n```\n- Success Response:\n - Code: `200 OK`\n - Content: \n ```html\n {\n \"vnfd_id\": <vnfd Id>\n }\n ```\n- Error Response:\n - Code: `400 Bad Request`\n - Code: `404 Not Found `\n - Code: `500 Internal Server Error`\n- Sample Call:\n curl -k -X PUT --data @vnfd2.json http://127.0.0.1:8080/NFS/vnfds/3901\n- Notes:<br/>\nThe id field of VNF descriptor should be present and should be the same specified into request URL.\n\n## Delete VNF Descriptor\nThis method allows to delete from NF Store the VNF Descriptor specified into request and all files specified into Vdus fields.<br/>\nThe file used also by other VNF descriptors will not be removed.<br/>\n\n* URL: ```/NFS/vnfds```\n* Method: DELETE\n- URL Parameters\n - Required Parameters: `/<vnfd_id>`\n - Optional Parameters:\n- Header Parameters\n - Required Parameters:\n - Optional Parameters:\n- Data Parameters\n- Success Response:\n - Code: `204 No Content`\n- Error Response:\n - Code: `400 Bad Request`\n - Code: `404 Not Found `\n - Code: `500 Internal Server Error`\n- Sample Call:\n curl -k -X DELETE http://127.0.0.1:8080/NFS/vnfds/1309\n- Notes:\n\n## Delete All VNF Descriptors\nThis method allows to delete all VNF Descriptors from NF Store with all files specified into Vdus fields.\n\n* URL: ```/NFS/vnfds```\n* Method: DELETE\n- URL Parameters\n - Required Parameters: \n - Optional Parameters:\n- Header Parameters\n - Required Parameters:\n - Optional Parameters:\n- Data Parameters\n- Success Response:\n - Code: `204 No Content`\n- Error Response:\n - Code: `500 Internal Server Error`\n- Sample Call:\n curl -k -X DELETE http://127.0.0.1:8080/NFS/vnfds\n- Notes:\n" }, { "alpha_fraction": 0.7028985619544983, "alphanum_fraction": 0.7070393562316895, "avg_line_length": 23.149999618530273, "blob_id": "e9dd4403bf2425513749b8737fea244fd14600ad", "content_id": "6438915d5fcf1594d3c10165d3a7cd0345f09fd5", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 966, "license_type": "permissive", "max_line_length": 83, "num_lines": 40, "path": "/src/eu/tnova/nfs/producers/EnvDefaulValueEnum.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.producers;\n\npublic enum EnvDefaulValueEnum {\n\tSTORE_PATH(EnvValue.storePath, \"/usr/local/store\"),\n\tORCHESTRATOR_URL(EnvValue.orchestratorUrl, \"https://apis.t-nova.eu/orchestrator\"),\n\tGATEKEEPER_URL(EnvValue.gatekeeperUrl, \"//http://auth.piyush-harsh.info:8000\"),\n\tNFS_URL(EnvValue.nfsUrl, \"https://apis.t-nova.eu/NFS\"),\n\tNFS_SERVICE_KEY(EnvValue.nfsServiceKey, \"\"),\n\t;\n\t\n\tpublic String name;\n\tpublic String value;\n\t\n\tprivate EnvDefaulValueEnum(String name, String value) {\n\t\tthis.name = name;\n\t\tthis.value = value;\n\t}\n\n\tpublic String getName() {\n\t\treturn name;\n\t}\n\tpublic void setName(String name) {\n\t\tthis.name = name;\n\t}\n\tpublic String getValue() {\n\t\treturn value;\n\t}\n\tpublic void setValue(String value) {\n\t\tthis.value = value;\n\t}\n\t\n\tpublic static String getValueByName (String name) {\n\t\tfor (EnvDefaulValueEnum e: EnvDefaulValueEnum.values() ) {\n\t\t\tif ( e.getName().equalsIgnoreCase(name) )\n\t\t\t\treturn e.getValue();\n\t\t}\n\t\treturn null;\n\t}\n\t\n}\n" }, { "alpha_fraction": 0.7656145095825195, "alphanum_fraction": 0.7656145095825195, "avg_line_length": 25.589284896850586, "blob_id": "946935bb983194275b833c61a523ea233db0394e", "content_id": "1ee7a2f91ec4e7184c1342d3d7fbc030848e9440", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 1489, "license_type": "permissive", "max_line_length": 67, "num_lines": 56, "path": "/src/eu/tnova/nfs/ws/entity/VNFOrchestratorResponse.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws.entity;\n\nimport javax.xml.bind.annotation.XmlElement;\nimport javax.xml.bind.annotation.XmlRootElement;\n\nimport com.google.gson.JsonElement;\nimport com.google.gson.annotations.SerializedName;\n\n@XmlRootElement(name = \"vnf\")\npublic class VNFOrchestratorResponse {\n\t@SerializedName(\"name\") @XmlElement(name=\"name\")\n\tprivate String namei;\n\t@SerializedName(\"vnf-manager\") @XmlElement(name=\"vnf-manager\")\n\tprivate String vnfManageri;\n\t@SerializedName(\"created_at\") @XmlElement(name=\"created_at\")\n\tprivate String creationDatei;\n\t@SerializedName(\"updated_at\") @XmlElement(name=\"updated_at\")\n\tprivate String lastModificationDatei;\n\t@SerializedName(\"vnfd\") @XmlElement(name=\"vnfd\")\n\tprivate JsonElement vnfdi ;\n\t\n\tpublic VNFOrchestratorResponse() {\n\t}\n\n\tpublic String getName() {\n\t\treturn namei;\n\t}\n\tpublic void setName(String name) {\n\t\tthis.namei = name;\n\t}\n\tpublic String getVnfManager() {\n\t\treturn vnfManageri;\n\t}\n\tpublic void setVnfManager(String vnfManager) {\n\t\tthis.vnfManageri = vnfManager;\n\t}\n\tpublic String getCreationDate() {\n\t\treturn creationDatei;\n\t}\n\tpublic void setCreationDate(String creationDate) {\n\t\tthis.creationDatei = creationDate;\n\t}\n\tpublic String getLastModificationDate() {\n\t\treturn lastModificationDatei;\n\t}\n\tpublic void setLastModificationDate(String lastModificationDate) {\n\t\tthis.lastModificationDatei = lastModificationDate;\n\t}\n\tpublic JsonElement getVnfd() {\n\t\treturn vnfdi;\n\t}\n\tpublic void setVnfd(JsonElement vnfd) {\n\t\tthis.vnfdi = vnfd;\n\t}\n\n}\n" }, { "alpha_fraction": 0.6884531378746033, "alphanum_fraction": 0.727668821811676, "avg_line_length": 27.6875, "blob_id": "817255a33f9db0ff32f753913787529f5523f7a2", "content_id": "c7ca50b7756ebc0287b1b07afc029dbccb0f1410", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 459, "license_type": "permissive", "max_line_length": 74, "num_lines": 16, "path": "/functionalTest/test.suite/vars.py", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "### directory setting\nproject_dir = \"D:\\WorkspaceGIT\\wp5\\WP5\\NFS\"\nwadl_dir = \"D:\\WorkspaceGIT\\wp5\\WP5\\NFS\\wadl\"\ndb_location = \"D:\\tmp\\NFS\\db\"\nserver_home = \"D:\\WorkspaceGIT\\wp5\\WP5\\NFS\\server\\apache-tomee-plus-1.7.1\"\n\n### server setting\nNFS_ADDRESS = \"localhost\"\nNFS_PORT = \"18080\"\nNFS_PROTOCOL = \"http\"\n\n### orchestrator setting\nORCHESTRATOR_ADDRESS = \"localhost\"\nORCHESTRATOR_PORT = \"9000\"\nORCHESTRATOR_PROTOCOL = \"http\"\nORCHESTRATOR_PATH = \"/orchestrator\"\n" }, { "alpha_fraction": 0.7380372881889343, "alphanum_fraction": 0.7380372881889343, "avg_line_length": 23.65999984741211, "blob_id": "a7d7efd88aa1f2e617fef8a44e3e416f80582f14", "content_id": "563c08005f46e94588c4a296647a7d0d8fb425a7", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 1233, "license_type": "permissive", "max_line_length": 58, "num_lines": 50, "path": "/src/eu/tnova/nfs/ws/entity/VNFFileResponse.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws.entity;\n\nimport java.util.ArrayList;\nimport java.util.List;\n\nimport javax.xml.bind.annotation.XmlAccessType;\nimport javax.xml.bind.annotation.XmlAccessorType;\nimport javax.xml.bind.annotation.XmlElement;\nimport javax.xml.bind.annotation.XmlRootElement;\n\nimport com.google.gson.annotations.SerializedName;\n\nimport eu.tnova.nfs.entity.VNFDescriptor;\nimport eu.tnova.nfs.entity.VNFFile;\n\n@XmlAccessorType(XmlAccessType.FIELD)\n@XmlRootElement(name = \"file\")\npublic class VNFFileResponse {\n\t@SerializedName(\"name\") @XmlElement(name = \"name\")\n\tprivate String name;\n\t@SerializedName(\"vnfd_id\") @XmlElement(name = \"vnfd_id\")\n\tprivate List<Integer> vnfdId = new ArrayList<Integer>();\n\n\tpublic VNFFileResponse() {\n\t}\n\n\tpublic VNFFileResponse(VNFFile vnfFile) {\n\t\tname = vnfFile.getName();\n\t\tif ( vnfFile.getVnfDescriptors()==null )\n\t\t\treturn;\n\t\tfor (VNFDescriptor vnfd: vnfFile.getVnfDescriptors() ) {\n\t\t\tif ( !vnfdId.contains(vnfd.getId()) )\n\t\t\t\tvnfdId.add(vnfd.getId());\n\t\t}\n\t}\n\t\n\tpublic String getName() {\n\t\treturn name;\n\t}\n\tpublic void setName(String name) {\n\t\tthis.name = name;\n\t}\n\tpublic List<Integer> getVnfdId() {\n\t\treturn vnfdId;\n\t}\n\tpublic void setVnfdId(List<Integer> vnfdId) {\n\t\tthis.vnfdId = vnfdId;\n\t}\n\n}\n" }, { "alpha_fraction": 0.535359263420105, "alphanum_fraction": 0.5441676378250122, "avg_line_length": 32.1816291809082, "blob_id": "e70642d90d1262c435286ece77b4f80151166d94", "content_id": "72635ae985b28c0b0cd111a5490befc8fbc003bf", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 15906, "license_type": "permissive", "max_line_length": 118, "num_lines": 479, "path": "/scripts/nfsMonitor", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "#! /bin/bash\n# description: \t Network Function Store TomEE manager\n################################################################################\n\n#------ program name\nPROGNAME=\"nfsMonitor\"\nTHISPROG=`basename $0`\n#------ nfs dir\nNFS_DIR=/usr/local/nfs\nBIN_DIR=$NFS_DIR/bin\nVAR_DIR=$NFS_DIR/var\nVAR_RUN_DIR=$VAR_DIR/run\nVAR_TMP_DIR=$VAR_DIR/tmp\nVAR_LOG_DIR=$VAR_DIR/log\nVAR_DB_DIR=$VAR_DIR/db\n#------ nfs files\nTOMCAT_KILL_SCRIPT=$BIN_DIR/killTomcat\nNFS_CONF_FILE=$BIN_DIR/nfs.conf\nINIT_FLAG_FILE=$VAR_RUN_DIR/init.flag\nTOMCAT_RESPONSE_FILE=$VAR_TMP_DIR/tomcat_response\nPID_FILE=$VAR_RUN_DIR/nfs.pid\nLOG_FILE=$VAR_LOG_DIR/nfs.log\n#------ tomcat dir\nCATALINA_PID_FILE=$VAR_RUN_DIR/catalina.pid\nTOMCAT_NAME=`ls -t $NFS_DIR \| grep apache-tomee`\nTOMCAT_HOME=$NFS_DIR/$TOMCAT_NAME\t\t\t\t\t\t# direttorio home di tomcat\nTOMCAT_CONF_DIR=$TOMCAT_HOME/conf\t\t\t\t\t\t# direttorio di configurazione di tomcat\nTOMCAT_DEPLOY_DIR=$TOMCAT_HOME/webapps\t\t\t\t\t# direttorio delle applicazioni di tomcat\nTOMCAT_BIN_DIR=$TOMCAT_HOME/bin\t\t\t\t\t\t\t# direttorio eseguibili di tomcat\nTOMCAT_LOG_DIR=$TOMCAT_HOME/logs\t\t\t\t\t\t# direttorio logs di tomcat\nTOMCAT_CERTS_DIR=$NFS_DIR/certs\t\t\t\t\t\t\t\n#------ tomcat files\nCATALINA_PROP_FILE=$TOMCAT_CONF_DIR/catalina.properties\nLOGROTATE_CONF_FILE=$TOMCAT_CONF_DIR/logrotate.conf\nLOGGING_PROP_FILE=$TOMCAT_CONF_DIR/logging.properties\nSERVER_XML_FILE=$TOMCAT_CONF_DIR/server.xml\nSETENV_SH_FILE=$TOMCAT_BIN_DIR/setenv.sh\n#------ tomcat and apps status\nUNKNOWN=10\nUNDEPLOY=11\nRUNNING=0\nSTOPPED=1\nSTARTING=3\nERROR=1\n#------ vars\nNFS_APP=NFS\nMANAGER_USER=nfsmngscr\nMANAGER_PASSWD=nfsmngscrpwd\nTOMCAT_PROC_NAME=Bootstrap\nWAIT_CHECK_TOMCAT_ALIVE=300\n#------ config info\nNFS_DB_FILE=$VAR_DB_DIR/nfs\nNFS_LOG_FILE=$TOMCAT_LOG_DIR/nfs.log\nLOG_LEVEL=notice\nNFS_STORE_PATH=/usr/local/store\nTOMCAT_PROTOCOL=https\nTOMCAT_IP=0.0.0.0\nTOMCAT_HTTP_PORT=80\nTOMCAT_HTTPS_PORT=443\n#------ external configuration\nsource $NFS_CONF_FILE\nif [ $TOMCAT_PROTOCOL == \"https\" ]; then\n\tTOMCAT_PORT=$TOMCAT_HTTPS_PORT\nelse\n\tTOMCAT_PORT=$TOMCAT_HTTP_PORT\nfi\nTOMCAT_ADDRESS=$TOMCAT_IP\n[ $TOMCAT_IP == \"0.0.0.0\" ] && TOMCAT_ADDRESS=127.0.0.1\n\n#-------------------------------------------------------------------------------\n# log_msg - log a message\n# $1 : level=alert, err, warning, notice, info, debug\n# $@ : log message\n#-------------------------------------------------------------------------------\nlog_msg() {\n\tlev=\"$1\"\n\tshift\n\tcase $lev in\n\t debug)\n\t\t[ $LOG_LEVEL != \"debug\" ] && return\n\t\t;;\n\t info)\n\t\t[[ $LOG_LEVEL != \"debug\" && $LOG_LEVEL != \"info\" ]] && return\n\t\t;;\n\t notice)\n\t\t[[ $LOG_LEVEL == \"warning\" \|\| $LOG_LEVEL == \"err\" \|\| $LOG_LEVEL == \"alert\" ]] && return\n\t\t;;\n\t warning)\n\t\t[[ $LOG_LEVEL == \"err\" \|\| $LOG_LEVEL == \"alert\" ]] && return\n\t\t;;\n\t err)\n\t\t[ $LOG_LEVEL == \"alert\" ] && return\n\t\t;;\n\t alert)\n\t\t;;\n\t )\n\t\treturn\n\t\t;;\n\tesac\n\techo \"$THISPROG $lev : $@\" >> $LOG_FILE\n}\n\n#------ used programs\nJAVA=$(which java 2>/dev/null)\n[ -z $JAVA ] && JAVA=$(locate java \| grep \"bin/java$\" \| head -1)\n[ -z $JAVA ] && log_msg err \"java not found\" && return 1\nJAVA_PATH=$(dirname $JAVA)\nexport PATH=$PATH:$JAVA_PATH\nwhich wget 2>/dev/null 1>/dev/null\nWGET_FOUND=$?\nwhich curl 2>/dev/null 1>/dev/null\nCURL_FOUND=$?\n\n##############################################################################################################\n\n#-------------------------------------------------------------------------------\n# make_TOMCAT_setenv - creazione del file di settaggio delle variabili di ambiente\n# usate dagli script di tomcat (es. startup.sh)\n#-------------------------------------------------------------------------------\nmake_TOMCAT_setenv() {\n\trm -f $SETENV_SH_FILE\n\t#------ setto variabili per script di tomcat e li salvo nel file setenv.sh\n\t#- JAVA_HOME/JRE_HOME non sono necessarie perch� gi� settata da setclasspath.sh\n\t#- CATALINA_HOME/CATALINA_BASE non sono necessarie perch� gi� settata da catalina.sh\n\n\t#- CATALINA_OPTS\n\theap=1024\n\tperm=256\n\tCATALINA_OPTS=\"-Xmx2g -Xms512m -XX:PermSize=512m -Djava.security.egd=file:/dev/./urandom\"\n\tlog_msg debug \"setting CATALINA_OPTS to $CATALINA_OPTS\"\n\techo \"CATALINA_OPTS=\\\"$CATALINA_OPTS\\\"\" >> $SETENV_SH_FILE\n\n\t#- CATALINA_OUT\n\tCATALINA_OUT=$TOMCAT_LOG_DIR/catalina.log\n\techo \"CATALINA_OUT=\\\"$CATALINA_OUT\\\"\" >> $SETENV_SH_FILE\n\n\t#- JAVA_OPTS\n\tJAVA_OPTS=\"-Ddb.file=$NFS_DB_FILE\"\n\tJAVA_OPTS=\"$JAVA_OPTS -Dnfs.log.file=$NFS_LOG_FILE\"\n\tJAVA_OPTS=\"$JAVA_OPTS -Dcerts.dir=$TOMCAT_CERTS_DIR\"\n\tJAVA_OPTS=\"$JAVA_OPTS -Dnfs.storePath=$NFS_STORE_PATH\"\n\t[ -n $TOMCAT_PROTOCOL ] && JAVA_OPTS=\"$JAVA_OPTS -Dnfs.Protocol=$TOMCAT_PROTOCOL\"\n\t[ -n $TOMCAT_HOST ] && JAVA_OPTS=\"$JAVA_OPTS -Dnfs.Host=$TOMCAT_HOST\"\n\t[ -n $TOMCAT_PORT ] && JAVA_OPTS=\"$JAVA_OPTS -Dnfs.Port=$TOMCAT_PORT\"\n\t[ -n $NFS_URL ] && JAVA_OPTS=\"$JAVA_OPTS -Dnfs.url=$NFS_URL\"\n\t[ -n $ORCHESTRATOR_URL ] && JAVA_OPTS=\"$JAVA_OPTS -Dorchestrator.url=$ORCHESTRATOR_URL\"\n\t[ -n $GATEKEEPER_URL ] && JAVA_OPTS=\"$JAVA_OPTS -Dgatekeeper.url=$GATEKEEPER_URL\"\n\t[ -n $NFS_SERVICE_KEY ] && JAVA_OPTS=\"$JAVA_OPTS -Dnfs.serviceKey=$NFS_SERVICE_KEY\"\n\techo \"JAVA_OPTS=\\\"$JAVA_OPTS\\\"\" >> $SETENV_SH_FILE\n\n\t#- CATALINA_PID\n\techo \"CATALINA_PID=\\\"$CATALINA_PID_FILE\\\"\" >> $SETENV_SH_FILE\n\n\t#------ setto indirizzo/porta di tomcat nel file server.xml\n\trm -f $SERVER_XML_FILE\n\tcp $SERVER_XML_FILE.$TOMCAT_PROTOCOL $SERVER_XML_FILE.tmp\n\tsed s/%ADDRESS%/$TOMCAT_IP/g $SERVER_XML_FILE.tmp > $SERVER_XML_FILE\n\tsed s/%HTTP_PORT%/$TOMCAT_HTTP_PORT/g $SERVER_XML_FILE > $SERVER_XML_FILE.tmp\n\tsed s/%HTTPS_PORT%/$TOMCAT_HTTPS_PORT/g $SERVER_XML_FILE.tmp > $SERVER_XML_FILE\n\trm -f $SERVER_XML_FILE.tmp\n}\n\n#-------------------------------------------------------------------------------\n# get_monitor_status - get monitor status\n# output: pid monitor or empty string if not running\n#-------------------------------------------------------------------------------\nget_monitor_status() {\n\tif [ -e $PID_FILE ]; then\n\t\tpid=`cat $PID_FILE`\n\t\tif [ -e /proc/$pid ]; then\n\t\t\tkill -0 $pid\n\t\t\t[ $? -eq 0 ] && echo \"$pid\" && return\n\t\telse\n\t\t\trm -f $PID_FILE\n\t\tfi\n\tfi\n\techo \"\"\n}\n\n#-------------------------------------------------------------------------------\n# get_tomcat_status - get tomcat status\n# output: pid tomcat or 0 if not running\n#-------------------------------------------------------------------------------\nget_tomcat_status() {\n\tpid_Tomcat=$(ps ax \| grep $TOMCAT_PROC_NAME \| grep $NFS_DIR \| awk '{ print $1 }')\n\techo $pid_Tomcat\n}\n\n#-------------------------------------------------------------------------------\n# exec_tomcat - esegui un'operazione su un tomcat\n# input: $1 : operation\n#\t \t $2 : path context\n#\t \t $3 : numero ritentativi\n#\t \t $4 : timeout\n# output: 0=OK, 1=ERROR\n#-------------------------------------------------------------------------------\nexec_tomcat() {\n\tURL=\"$TOMCAT_PROTOCOL://$TOMCAT_ADDRESS:$TOMCAT_PORT/manager/text/\"$1\n\t[ -z \"$2\" ] \|\| URL=$URL\"?path=$2\"\n\trm -f $TOMCAT_RESPONSE_FILE\n\tif [ $WGET_FOUND -eq 0 ]; then\n\t\toptions=\"--no-check-certificate \"\n\t\t[ -z \"$3\" ] \|\| options=$options\"-t $3 \"\n\t\t[ -z \"$4\" ] \|\| options=$options\"-T $4 \"\n\t\tlog_msg debug \"execute command \\\"$1\\\" on tomcat $TOMCAT_ADDRESS (context=$2, options=$options)\"\n\t\twget $options --http-user=$MANAGER_USER --http-passwd=$MANAGER_PASSWD $URL -O $TOMCAT_RESPONSE_FILE 2> /dev/null\n\t\t[ $? -ne 0 ] && log_msg info \"error tomcat response\" && return 1\n\telif [ $CURL_FOUND -eq 0 ]; then\n\t\toptions=\"-k \"\n\t\tTNR=1\n\t\t[ -z \"$3\" ] \|\| TNR=$3\n\t\tTW=1\n\t\t[ -z \"$4\" ] \|\| TW=$4\n\t\t[ -z \"$4\" ] \|\| options=$options\"--connect-timeout $TW \"\n\t\t[ -z \"$4\" ] \|\| options=$options\"--max-time $TW \"\n\t\tcurl $options --user $MANAGER_USER:$MANAGER_PASSWD $URL -o $TOMCAT_RESPONSE_FILE 2> /dev/null\n\t\t[ $? -ne 0 ] && log_msg info \"error tomcat response\" && return 1\n\telse\n\t\tlog_msg err \"no program to check tomcat\" && return 1\n\tfi\n\t#------ controllo presenza file risposta\n\tif [ -f $TOMCAT_RESPONSE_FILE ]; then\n\t\tfirstline=`head -n 1 $TOMCAT_RESPONSE_FILE`\n\t\tres=`echo $firstline \| awk '{print $1}'`\n\t\t[ \"$res\" != \"OK\" ] && log_msg err \"tomcat response: $firstline\" && return 1\n\t\treturn 0\n\tfi\n\tlog_msg err \"no responce from tomcat\" && return 1\n}\n\n#-------------------------------------------------------------------------------\n# check_appl_status - controlla lo stato di un'applicazione dal file $TOMCAT_RESPONSE_FILE\n# input: $1 : applicatione\n# output: stato {UNKNOWN\|UNDEPLOY\|RUNNING\|STOPPED}\n#-------------------------------------------------------------------------------\ncheck_appl_status() {\n\tstato=$UNKNOWN\n\tif [ -e $TOMCAT_RESPONSE_FILE ]; then\n\t\t#------ controllo nel file di risposta se esiste applicazione\n\t\tresult=`egrep ^/$1 $TOMCAT_RESPONSE_FILE`\n\t\tdeployed=`echo $result \| egrep -wc $1`\n\t\tif [ $deployed == 0 ]; then\n\t\t\tstato=$UNDEPLOY\n\t\telse\n\t\t\tstato=$STOPPED\n\t\t\tst=\"\"\n\t\t\t[ $deployed != 0 ] && st=`echo $result \| awk -F \":\" '{print $2}'`\n\t\t\t[ $st == \"running\" ] && stato=$RUNNING\n\t\tfi\n\tfi\n\treturn $stato\n}\n\n#-------------------------------------------------------------------------------\n# get_appl_status - controlla lo stato di un'applicazione\n# input:\n# \t $1 : applicatione\n# output: stato {UNKNOWN\|UNDEPLOY\|RUNNING\|STOPPED}\n#-------------------------------------------------------------------------------\nget_appl_status() {\n\tstato=$UNKNOWN\n\texec_tomcat list \"\" 1 10\n\tif [ $? -eq 0 ]; then\n\t\tcheck_appl_status $1\n\t\tstato=$?\n\tfi\n\treturn $stato\n}\n\n#-------------------------------------------------------------------------------\n# print_status - stampa lo stato\n# input: $1 : stato\n# output: echo stato\n#-------------------------------------------------------------------------------\nprint_status() {\n\tstatus=\"??\"\n\t[ $1 -eq $UNKNOWN ] && status=\"unknown\"\n\t[ $1 -eq $UNDEPLOY ] && status=\"undeploy\"\n\t[ $1 -eq $RUNNING ] && status=\"running\"\n\t[ $1 -eq $STOPPED ] && status=\"stopped\"\n\t[ $1 -eq $STARTING ] && status=\"starting\"\n\techo $status\n\tlog_msg info \"status = $status\"\n}\n\n#-------------------------------------------------------------------------------\n# get_manager_status - controlla lo stato del manager di un tomcat attivo\n# output: RUNNING/UNKNOWN\n#-------------------------------------------------------------------------------\nget_manager_status() {\n\texec_tomcat list \"\" 1 10\n\t[ $? -eq 0 ] && return $RUNNING\n\treturn $UNKNOWN\n}\n\n#-------------------------------------------------------------------------------\n# start_tomcat\n#-------------------------------------------------------------------------------\nstart_tomcat() {\n\tlog_msg info \"start Tomcat\"\n\tmake_TOMCAT_setenv\n\t[ -e $NFS_STORE_PATH ] \|\| mkdir $NFS_STORE_PATH\n\tjpda=\"\"\n\t[ -z \"$DEBUG\" ] \|\| jpda=\"jpda\"\n\t$TOMCAT_BIN_DIR/startup.sh $jpda start >& /dev/null\n\t#------ controllo se Tomcat è partito (manager risponde), sennò attendo che parta per un certo tempo\n\twaitNr=1\n\twhile [ $waitNr -le 10 ]; do\n\t\tlog_msg debug \"Check for Tomcat running (attempt #$waitNr)\"\n\t\tsleep 2\n\t\tget_manager_status\n\t\tif [ $? -eq $RUNNING ]; then\n\t\t\tget_appl_status $NFS_APP\n\t\t\t[ $? -eq $RUNNING ] && log_msg info \"Tomcat and app running\" && return 0\n\t\tfi\n\t\twaitNr=$(( $waitNr + 1 ))\n\tdone\n\tlog_msg err \"Tomcat not started\" && return 1\n}\n\n#-------------------------------------------------------------------------------\n# stop_tomcat\n#-------------------------------------------------------------------------------\nstop_tomcat() {\n\tlog_msg info \"stop Tomcat\"\n\t#------ controllo se tomcat attivo\n\tpid_Tomcat=`get_tomcat_status`\n\tif [ -n \"$pid_Tomcat\" ]; then\n\t\t#------ shutdown tomcat\n\t\tlog_msg info \"shutdown Tomcat\"\n\t\t$TOMCAT_BIN_DIR/shutdown.sh >& /dev/null\n\t\t#------ controllo se Tomcat si ferma guardando l'utilizzo dell'indirizzo usato\n\t\twaitnet=1\n\t\twhile [ $waitnet -le 5 ]; do\n\t\t\tsleep 1\n\t\t\tlog_msg debug \"Check bind address (attempt #$waitnet)\"\n\t\t\tnetp=`netstat -anp \| egrep -w $TOMCAT_PORT \| egrep -w $pid_Tomcat`\n\t\t\t[ -z \"$netp\" ] && break\n\t\t\twaitnet=$(( $waitnet + 1 ))\n\t\tdone\n\t\t#------ ricontrollo tomcat, se il processo � ancora presente allora kill\n\t\tpid_Tomcat=`get_tomcat_status`\n\t\t[ -n \"$pid_Tomcat\" ] && log_msg debug \"kill Tomcat\" && kill -9 $pid_Tomcat && sleep 1\n\t\tpid_Tomcat=`get_tomcat_status`\n\t\t[ -n \"$pid_Tomcat\" ] && log_msg err \"unable to stop Tomcat\"\n\t\t[ -z \"$pid_Tomcat\" ] && log_msg info \"Tomcat stopped\"\n\telse\n\t\tlog_msg info \"Tomcat already stopped\"\n\tfi\n}\n\n#-------------------------------------------------------------------------------\n# start\n# actions to do when application start\n#-------------------------------------------------------------------------------\nstart() {\n\t#------ controllo la presenza del file pid del monitor\n\tpid=`get_monitor_status`\n\t[ -n \"$pid\" ] && log_msg warning \"already active\" && return 0\n\t#------ Salvo il pid del monitor per l'eventuale stop\n\tlog_msg debug \"save $PROGNAME pid ($$)\"\n\techo $$ > $PID_FILE\n\t#------ clear work dir\n\trm -rf $TOMCAT_HOME/work/\n\t#------ start Tomcat\n\twhile [ true ]; do\n\t\tstart_tomcat\n\t\t#------ loop di controllo stato tomcat\n\t\twhile [ true ]; do\n\t\t\t#------ controllo se tomcat risponde\n\t\t\tget_manager_status\n\t\t\tif [ $? -ne $RUNNING ]; then\n\t\t\t\tlog_msg alert \"Detected tomcat NOT RUNNING ($status) - try to restart\"\n\t\t\t\tbreak;\n\t\t\tfi\n\t\t\t#------ controllo se l'applicazione risponde\n\t\t\tget_appl_status $NFS_APP\n\t\t\tif [ $? -ne $RUNNING ]; then\n\t\t\t\tlog_msg alert \"$NFS_APP not running ($status) - restart tomcat\"\n\t\t\t\tstop_tomcat\n\t\t\t\tbreak;\n\t\t\tfi\n\t\t\tsleep $WAIT_CHECK_TOMCAT_ALIVE\n\t\tdone\n\tdone\n\tlog_msg alert \"start ended\"\n}\n\n#-------------------------------------------------------------------------------\n# stop\n# actions to do when application must be stopped\n#-------------------------------------------------------------------------------\nstop() {\n\t#------ controllo monitor, se attivo -> kill\n\tpid_monitor=`get_monitor_status`\n\tif [ -z \"$pid_monitor\" ]; then\n\t\tlog_msg info \"$PROGNAME not active\"\n\telse\n\t\tlog_msg debug \"kill $PROGNAME (pid $pid_monitor)\"\n\t\tkill -9 $pid_monitor\n\tfi\n\t#------ stop tomcat\n\tstop_tomcat\n\t#------ remove monitor pid file\n\tlog_msg debug \"Remove pid file\"\n\trm -f $PID_FILE\n}\n\n#-------------------------------------------------------------------------------\n# status\n#-------------------------------------------------------------------------------\nstatus() {\n\tstat=0\n\t#------ get monitor status\n\tpid_monitor=`get_monitor_status`\n\tif [ -z \"$pid_monitor\" ]; then\n\t\tlog_msg debug \"$PROGNAME not active\"\n\t\t[ -z \"$NO_PRINT_STATUS\" ] && echo \"$PROGNAME not active\"\n\t\tstat=1\n\telse\n\t\tlog_msg debug \"$PROGNAME active: pid $pid_monitor\"\n\t\t[ -z \"$NO_PRINT_STATUS\" ] && echo \"$PROGNAME active: pid $pid_monitor\"\n\tfi\n\t#------ get tomcat status\n\tpid_Tomcat=`get_tomcat_status`\n\tif [ -z \"$pid_Tomcat\" ]; then\n\t\tlog_msg debug \"tomcat not active\"\n\t\t[ -z \"$NO_PRINT_STATUS\" ] && echo \"tomcat not active\"\n\t\tstat=2\n\telse\n\t\tlog_msg debug \"tomcat active: pid $pid_Tomcat\"\n\t\t[ -z \"$NO_PRINT_STATUS\" ] && echo \"tomcat active: pid $pid_Tomcat\"\n\t\t#------ get tomcat manager status\n\t\tget_manager_status\n\t\tpstatus=$(print_status $?)\n\t\t[ -z \"$NO_PRINT_STATUS\" ] && echo \"tomcat manager status: $pstatus\"\n\t\t[ \"$pstatus\" != \"running\" ] && stat=3\n\t\t#------ get nfs app status\n\t\tget_appl_status $NFS_APP\n\t\tpstatus=$(print_status $?)\n\t\t[ -z \"$NO_PRINT_STATUS\" ] && echo \"nfs app status: $pstatus\"\n\t\t[ \"$pstatus\" != \"running\" ] && stat=4\n\tfi\n\texit $stat\n}\n\n#-------------------------------------------------------------------------------\n# check required command and act\n#-------------------------------------------------------------------------------\nCMD=$1\nlog_msg notice \"$CMD\"\n\ncase \"$CMD\" in\n start)\n \tstart\n\t;;\n stop)\n\tstop\n\t;;\n status)\n\tstatus\n\t;;\n help)\n\techo \"Usage: $THISPROG [COMMAND]\"\n\techo \"Manage $PROGNAME program\"\n\techo \"COMMAND:\"\n\techo \" start start NFS server\"\n\techo \" stop stop NFS server\"\n\techo \" status get NFS server status\"\n\techo \" help this help\"\n\techo \"\"\n\techo\n\t;;\n )\n\techo \"command \\\"$CMD\\\" not supported, try \\\"$THISPROG help\\\" for more information\"\n\tlog_msg err \"command \\\"$CMD\\\" not supported, try \\\"$THISPROG help\\\" for more information\"\n\texit 1\nesac\nexit 0\n" }, { "alpha_fraction": 0.6008192896842957, "alphanum_fraction": 0.6050978899002075, "avg_line_length": 37.95389938354492, "blob_id": "2e99e29b58390d36d69c71deb6a06bf7ad37fb13", "content_id": "4c0fc56bf24099213c7a9db37e09a8758f16bbd2", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Ant Build System", "length_bytes": 10985, "license_type": "permissive", "max_line_length": 104, "num_lines": 282, "path": "/build.xml", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "<project name=\"NFS\" default=\"rpm\" basedir=\".\" xmlns:ivy=\"antlib:org.apache.ivy.ant\">\n\n\t<property name=\"product.name\" value=\"NFS\" />\n\n\t<property name=\"TomEE.version\" value=\"1.7.3\" />\n\t\n\t<property name=\"TomEE.name\" value=\"apache-tomee-plus-${TomEE.version}\" />\n\t<property name=\"TomEE.file\" value=\"apache-tomee-${TomEE.version}-plus.zip\" />\n\t<property name=\"TomEE.url.file\" \n\t\tvalue=\"http://mirror.nohup.it/apache/tomee/tomee-${TomEE.version}/${TomEE.file}\" />\n\t<property name=\"TomEE.zip\" value=\"server/${TomEE.file}\" />\n\t\n\t<property name=\"src.dir\" value=\"src\" />\n\t<property name=\"build.dir\" value=\"build\" />\n\t<property name=\"conf.dir\" value=\"conf\" />\n\t<property name=\"lib.dir\" value=\"lib\" />\n\t<property name=\"dist.dir\" value=\"dist\" />\n\t<property name=\"scripts.dir\" value=\"scripts\" />\n\t<property name=\"prod.dir\" value=\"prod\" />\n\t<property name=\"web.dir\" value=\"WebContent\" />\n\t<property name=\"local.dir\" value=\"local\" />\n\t<property name=\"local.lib.dir\" value=\"${local.dir}/lib\" />\n\n\t<property name=\"prod.rpms.dir\" value=\"${prod.dir}/rpms\" />\n\t<property name=\"prod.war.dir\" value=\"${prod.dir}/war\" />\n\t<property name=\"prod.jar.dir\" value=\"${prod.dir}/jar\" />\n\t<property name=\"prod.war.file\" value=\"${prod.war.dir}/${product.name}.war\" />\n\t<property name=\"prod.jar.gatekeeperValve\" value=\"${prod.jar.dir}/gatekeeperAuthenticationValve.jar\" />\n\n\t<property name=\"dist.scripts\" value=\"${dist.dir}/scripts\" />\n\t<property name=\"dist.TomEE\" value=\"${dist.dir}/${TomEE.name}\" />\n\t<property name=\"dist.TomEE.bin\" value=\"${dist.TomEE}/bin\" />\n\t<property name=\"dist.TomEE.lib\" value=\"${dist.TomEE}/lib\" />\n\t<property name=\"dist.TomEE.conf\" value=\"${dist.TomEE}/conf\" />\n\t<property name=\"dist.TomEE.webapps\" value=\"${dist.TomEE}/webapps\" />\n\t<property name=\"dist.TomEE.endorsed\" value=\"${dist.TomEE}/endorsed\" />\n\t<property name=\"dist.var.db\" value=\"${dist.dir}/var/db\" />\n\t<property name=\"dist.var.log\" value=\"${dist.dir}/var/log\" />\n\t<property name=\"dist.var.run\" value=\"${dist.dir}/var/run\" />\n\t<property name=\"dist.var.tmp\" value=\"${dist.dir}/var/tmp\" />\n\t<property name=\"dist.certs\" value=\"${dist.dir}/certs\" />\n\n\t<property name=\"local.server.dir\" value=\"/usr/local/nfs\" />\n\n\t<property name=\"conf.build\" value=\"${conf.dir}/build\" />\n\t<property name=\"conf.TomEE\" value=\"${conf.dir}/tomee\" />\n\t<property name=\"conf.certs\" value=\"${conf.dir}/certs\" />\n\t<property name=\"conf.nfs\" value=\"${conf.dir}/nfs\" />\n\n\t<loadproperties srcFile=\"${conf.build}/env.rpm.properties\" />\n\n\t<target name=\"proxy-file-check\">\n\t \t<available file=\"proxy.properties\" property=\"proxy.properties.found\"/>\n\t</target>\n\t<target name=\"probe-proxy\" depends=\"proxy-file-check\" if=\"proxy.properties.found\">\n \t\t<loadproperties srcFile=\"proxy.properties\" />\n\t <condition property=\"proxy.enabled\">\n\t <and>\n\t <isset property=\"proxy.host\"/>\n\t <!--isreachable host=\"${proxy.host}\"/-->\n\t </and>\n\t </condition>\n\t </target>\n\t<target name=\"proxy\" depends=\"probe-proxy\" if=\"proxy.enabled\">\n\t\t<setproxy proxyhost=\"${proxy.host}\" proxyport=\"${proxy.port}\"\n\t \t\t proxyuser=\"${proxy.user}\" proxypassword=\"${proxy.pass}\"/>\n\t</target>\t\n\t\n\t<target name=\"clean\">\n\t\t<delete dir=\"${build.dir}\" />\n\t\t<delete dir=\"${dist.dir}\" />\n\t</target>\n\n\t<target name=\"init\" depends=\"clean\">\n\t\t<mkdir dir=\"${build.dir}/classes/META-INF\" />\n\t\t<mkdir dir=\"${prod.rpms.dir}\" />\n\t\t<mkdir dir=\"${prod.war.dir}\" />\n\t\t<mkdir dir=\"${prod.jar.dir}\" />\n <mkdir dir=\"${prod.jar.dir}/NFSTest_lib\"/>\n\t\t<mkdir dir=\"${dist.var.db}\" />\n\t\t<mkdir dir=\"${dist.var.log}\" />\n\t\t<mkdir dir=\"${dist.var.run}\" />\n\t\t<mkdir dir=\"${dist.var.tmp}\" />\n\t\t<mkdir dir=\"${dist.certs}\" />\n\t</target>\n\n\t<target name=\"resolve\" depends=\"proxy\" description=\"--> retreive dependencies with ivy\">\n\t\t<property name=\"ivy.lib.dir\" value=\"${lib.dir}\"/>\n <ivy:resolve transitive=\"false\" />\n\t\t<ivy:retrieve/>\n\t\t<ivy:report todir=\"${build.dir}/ivy-report\" graph=\"true\"/>\n\t\t<copy todir=\"lib.no.deploy\" verbose=\"true\" overwrite=\"true\" force=\"true\">\n\t\t <fileset dir=\"${lib.dir}\">\n\t\t \t<include name=\"/slf4j.jar\"/>\n\t\t </fileset>\n\t\t</copy>\n\t\t<copy todir=\"${web.dir}/WEB-INF/lib\" verbose=\"true\" overwrite=\"true\" force=\"true\">\n\t\t <fileset dir=\"${lib.dir}\">\n\t\t \t<include name=\"*/primefaces.jar\"/>\n\t\t \t<include name=\"*/gson.jar\"/>\n\t\t </fileset>\n\t\t</copy>\n\t\t<delete>\n\t\t <fileset dir=\"${lib.dir}\">\n\t\t \t<include name=\"*/slf4j.jar\"/>\n\t\t \t<include name=\"*/primefaces.jar\"/>\n\t\t \t<include name=\"*/gson.jar\"/>\n\t\t </fileset>\n\t\t</delete>\n\t</target>\n\n\t<target name=\"server-file-check\">\n\t \t<available file=\"${TomEE.zip}\" property=\"TomEE.found\" value=\"True\"/>\n\t</target>\n\t<target name=\"server-file\" depends=\"server-file-check, proxy\" unless=\"TomEE.found\">\n \t<get src=\"${TomEE.url.file}\" dest=\"${TomEE.zip}\" verbose=\"true\" usetimestamp=\"true\"/>\n\t</target>\n\t<target name=\"server\" depends=\"init, resolve, server-file\">\n\t\t<unzip src=\"${TomEE.zip}\" dest=\"${dist.dir}\" />\n\t\t<copy todir=\"${dist.TomEE.lib}\" verbose=\"true\" overwrite=\"true\">\n\t\t\t<fileset dir=\"${lib.dir}\" />\n\t\t</copy>\n\t\t<path id=\"tomee.conf.files\">\n\t\t\t<fileset dir=\"${conf.TomEE}\">\n\t\t\t\t<include name=\"*/\"/>\n\t\t\t</fileset>\n\t\t</path>\n\t\t<copy todir=\"${dist.TomEE.conf}\" verbose=\"true\" overwrite=\"true\">\n\t\t\t<fileset dir=\"${conf.TomEE}\" defaultexcludes=\"no\">\n\t\t </fileset>\n\t\t</copy>\n\t\t<copy todir=\"${dist.certs}\" verbose=\"true\" overwrite=\"true\">\n\t\t\t<fileset dir=\"${conf.certs}\" />\n\t\t</copy>\t\t\n\t\t<chmod dir=\"${dist.TomEE.webapps}\" perm=\"755\" includes=\"*/\"/>\n\t\t<chmod perm=\"755\">\n\t\t\t<fileset dir=\"${dist.TomEE.webapps}\"/>\n\t\t</chmod>\n\t\t<chmod dir=\"${dist.TomEE.lib}\" perm=\"644\" includes=\"*/\"/>\n\t\t<chmod perm=\"644\">\n\t\t\t<fileset dir=\"${dist.TomEE.lib}\"/>\n\t\t</chmod>\n\t</target>\n\n\t<target name=\"build\" depends=\"server\">\n\t\t<echo message=\"${ant.project.name}: ${ant.file}\"/>\n\t\t<path id=\"build.class.path\">\n\t\t\t<fileset dir=\"${dist.TomEE.lib}\">\n\t\t\t\t<include name=\"*/.jar\"/>\n\t\t\t</fileset>\n\t\t\t<fileset dir=\"${web.dir}/WEB-INF/lib\">\n\t\t\t\t<include name=\"*/.jar\"/>\n\t\t\t</fileset>\n\t\t</path>\n\t\t<javac destdir=\"${build.dir}/classes\" \n\t\t\t\tdebug=\"true\" debuglevel=\"lines,vars,source\" encoding=\"iso8859-1\" \n\t\t\t\tverbose=\"no\" includeAntRuntime=\"false\" source=\"1.7\" target=\"1.7\">\n <src path=\"src\"/>\n <src path=\"test\"/>\n\t\t\t<compilerarg value=\"-XDignore.symbol.file\" />\n\t\t\t<classpath refid=\"build.class.path\"/>\n\t </javac>\n\t</target>\n\n\t<target name=\"war\" depends=\"build\">\n\t\t<war destfile=\"${prod.war.file}\" webxml=\"${web.dir}/WEB-INF/web.xml\">\n\t\t \t<fileset dir=\"${web.dir}\" excludes=\"WEB-INF/\"/>\n\t\t\t<webinf dir=\"${web.dir}/WEB-INF\">\n\t\t\t\t<exclude name=\"web.xml\"/>\n\t\t\t</webinf>\n\t\t \t<classes dir=\"${build.dir}/classes\" excludes=\"/valves/\"/>\n\t\t\t<classes dir=\"${src.dir}\" excludes=\"/.java\" />\t\t\n\t\t</war>\n\t\t<copy todir=\"${dist.TomEE.webapps}\" overwrite=\"true\">\n\t\t\t<fileset file=\"${prod.war.file}\" />\n\t\t</copy>\n\t</target>\n\n <target name=\"valve\" depends=\"build\">\n\t\t<jar jarfile=\"${prod.jar.gatekeeperValve}\">\n\t\t <fileset dir=\"${build.dir}/classes\">\n\t\t <include name=\"*/valves/\" />\n\t\t <include name=\"*/producers/Env\" />\n\t\t <include name=\"*/exception/\" />\n\t\t </fileset>\n\t\t</jar> \n\t\t<chmod file=\"${prod.jar.gatekeeperValve}\" perm=\"644\"/>\n\t\t<copy file=\"${prod.jar.gatekeeperValve}\" todir=\"${dist.TomEE.lib}\"/>\n \t</target>\n\n <target name=\"client\" depends=\"build\">\n\t\t<delete>\n\t\t <fileset dir=\"${prod.jar.dir}/NFSTest_lib\" includes=\"*/.jar\"/>\n\t\t</delete>\n\t\t<copy todir=\"${prod.jar.dir}/NFSTest_lib\">\n\t\t\t<fileset dir=\"${dist.TomEE.lib}\">\n\t\t\t\t<include name=\"*/commons-cli.jar\"/>\n\t\t\t\t<include name=\"*/commons-io.jar\"/>\n\t\t\t\t<include name=\"*/commons-lang3.jar\"/>\n\t\t\t\t<include name=\"*/commons-logging.jar\"/>\n\t\t\t\t<include name=\"*/commons-pool.jar\"/>\n\t\t\t\t<include name=\"*/cxf-api.jar\"/>\n\t\t\t\t<include name=\"*/cxf-rt.jar\"/>\n\t\t\t\t<include name=\"*/el-api.jar\"/>\n\t\t\t\t<include name=\"*/geronimo.jar\"/>\n\t\t\t\t<include name=\"*/javaee-api.jar\"/>\n\t\t\t\t<include name=\"*/jaxb-core.jar\"/>\n\t\t\t\t<include name=\"*/mimepull.jar\"/>\n\t\t\t\t<include name=\"*/neethi.jar\"/>\n\t\t\t\t<include name=\"*/openws.jar\"/>\n\t\t\t\t<include name=\"*/saaj-impl.jar\"/>\n\t\t\t\t<include name=\"*/servlet-api.jar\"/>\n\t\t\t\t<include name=\"*/stax2-api.jar\"/>\n\t\t\t\t<include name=\"*/sxc.jar\"/>\n\t\t\t\t<include name=\"*/websocket-api.jar\"/>\n\t\t\t\t<include name=\"*/woodstox-core-asl.jar\"/>\n\t\t\t\t<include name=\"*/wsdl4j.jar\"/>\n\t\t\t\t<include name=\"*/wss4j.jar\"/>\n\t\t\t\t<include name=\"*/xml-resolver.jar\"/>\n\t\t\t\t<include name=\"*/xmlschema-core.jar\"/>\n\t\t\t</fileset>\t\t\t\t\n\t\t</copy>\n \t<path id=\"NFSTest.classpath\">\n \t <fileset dir=\"${prod.jar.dir}/NFSTest_lib\">\n \t <include name=\".jar\"/>\n \t </fileset>\n \t</path>\n \t<pathconvert property=\"manifest.classpath\" pathsep=\" \">\n \t \t<path refid=\"NFSTest.classpath\"/>\n \t \t<mapper>\n \t \t<chainedmapper>\n \t \t\t<flattenmapper/>\n \t \t\t<globmapper from=\".jar\" to=\"NFSTest_lib/.jar\"/>\n \t \t</chainedmapper>\n \t \t</mapper>\n\t\t</pathconvert>\n <jar destfile=\"${prod.jar.dir}/NFSVnfd.jar\">\n <manifest>\n <attribute name=\"Main-Class\" value=\"eu.tnova.nfs.client.NFSVnfd\"/>\n \t<attribute name=\"Class-Path\" value=\". ${manifest.classpath}\"/>\n </manifest>\n <fileset dir=\"${build.dir}/classes\"/>\n </jar>\n <jar destfile=\"${prod.jar.dir}/NFSFile.jar\">\n <manifest>\n <attribute name=\"Main-Class\" value=\"eu.tnova.nfs.client.NFSFile\"/>\n \t<attribute name=\"Class-Path\" value=\". ${manifest.classpath}\"/>\n </manifest>\n <fileset dir=\"${build.dir}/classes\"/>\n </jar>\n </target>\n\n\t<target name=\"rpm\" depends=\"server,war,valve\">\n\t\t<path id=\"build-rpm.class.path\">\n\t\t\t<fileset dir=\"lib.no.deploy\">\n\t\t\t\t<include name=\"/.jar\"/>\n\t\t\t</fileset>\n\t\t</path>\n\t\t<taskdef name=\"build-rpm\" classname=\"org.redline_rpm.ant.RedlineTask\" >\n\t\t\t<classpath refid=\"build-rpm.class.path\"/>\n\t\t</taskdef>\n\t\t<build-rpm description=\"$[rpm.description}\" \n\t\t\t\tname=\"${rpm.name}\" version=\"${rpm.version}\" release=\"${rpm.release}\" \n\t\t\t\tdistribution=\"${rpm.distro}\" architecture=\"${rpm.arch}\" \n\t\t \t\tlicense=\"${rpm.license}\" group=\"${rpm.group}\" \n\t\t\t\tpreInstallScript=\"${conf.build}/preInstall.sh\" \n\t\t\t\tpostInstallScript=\"${conf.build}/postInstall.sh\"\n\t\t\t\tpreUninstallScript=\"${conf.build}/preUninstall.sh\" \n\t\t\t\tpostUninstallScript=\"${conf.build}/postUninstall.sh\"\n\t\t\t\tdestination=\"prod/rpms\" >\n\t\t \t<rpmfileset prefix=\"${local.server.dir}/${TomEE.name}/bin\" dir=\"${dist.TomEE.bin}\" filemode=\"777\"/>\n\t\t \t<rpmfileset prefix=\"${local.server.dir}\" dir=\"dist\" filemode=\"755\" />\n\t\t \t<rpmfileset prefix=\"${local.server.dir}/bin\" file=\"${scripts.dir}/nfsMonitor\" filemode=\"777\" />\n\t\t \t<rpmfileset prefix=\"${local.server.dir}/bin\" file=\"${conf.nfs}/nfs.conf\" />\n\t\t \t<rpmfileset prefix=\"/etc/init.d\" file=\"${scripts.dir}/nfs\" filemode=\"777\" />\n\t\t\t<!-- \t<depends name=\"java\" version=\">= 1.7\"/>\t\t-->\n\t\t</build-rpm>\n\t</target>\n\n\t<target name=\"all\" depends=\"client,rpm\"/>\n\n</project>\n" }, { "alpha_fraction": 0.7225004434585571, "alphanum_fraction": 0.7230184674263, "avg_line_length": 35.60389709472656, "blob_id": "e3607739652c3221b86d1e92c6b4093057ed04d3", "content_id": "ca80f7500e2ff38051e1dd8b11608bd097847481", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 5791, "license_type": "permissive", "max_line_length": 95, "num_lines": 154, "path": "/src/eu/tnova/nfs/ws/VNFDescriptorWS.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws;\r\n\r\nimport java.util.List;\r\n\r\nimport javax.annotation.PostConstruct;\r\nimport javax.annotation.PreDestroy;\r\nimport javax.ejb.DependsOn;\r\nimport javax.ejb.EJB;\r\nimport javax.ejb.Stateless;\r\nimport javax.inject.Inject;\r\nimport javax.persistence.EntityManager;\r\nimport javax.persistence.PersistenceContext;\r\nimport javax.ws.rs.core.Context;\r\nimport javax.ws.rs.core.HttpHeaders;\r\nimport javax.ws.rs.core.MediaType;\r\nimport javax.ws.rs.core.Response;\r\nimport javax.ws.rs.core.Response.Status;\r\nimport javax.ws.rs.core.UriInfo;\r\nimport org.apache.logging.log4j.Logger;\r\nimport com.google.gson.Gson;\r\nimport eu.tnova.nfs.entity.VNFDescriptor;\r\nimport eu.tnova.nfs.exception.ValidationException;\r\nimport eu.tnova.nfs.valves.GatekeeperAuthenticationValve;\r\nimport eu.tnova.nfs.ws.entity.VNFDListResponse;\r\nimport eu.tnova.nfs.ws.entity.VNFDResponse;\r\nimport eu.tnova.nfs.ws.orchestrator.OrchestratorOperationTypeEnum;\r\n\r\n//import org.apache.cxf.interceptor.InInterceptors;\r\n//import org.apache.cxf.interceptor.OutInterceptors;\r\n\r\n@Stateless\r\n//@InInterceptors(interceptors={\"org.apache.cxf.interceptor.LoggingInInterceptor\"})\r\n//@OutInterceptors(interceptors={\"org.apache.cxf.interceptor.LoggingOutInterceptor\"})\r\n@DependsOn(\"FileServiceBean\")\r\npublic class VNFDescriptorWS implements VNFDescriptorWSInterface {\r\n\t@Inject\tprivate Logger log;\r\n\t@EJB private ServiceBean service;\r\n\t@PersistenceContext(unitName = \"NFS_DB\") private EntityManager em;\r\n\t@Context HttpHeaders headers;\r\n\t\r\n\t@PostConstruct\r\n\tpublic void init() {\r\n\t}\r\n\t@PreDestroy\r\n\tpublic void destroy() {\r\n\t}\r\n\t\r\n\t@Override\r\n\tpublic Response create_VNFDescriptor(UriInfo uriInfo, String vnfd) {\r\n\t\tlog.info(\"Create new VNF Descriptor\");\r\n\t\tlog.debug(\"vnfd = {}\",vnfd);\r\n\t\ttry {\r\n\t\t\tVNFDescriptor vnfDescriptor = service.createVNFDescriptor(vnfd);\r\n\t\t\tservice.sendNotificationToOrchestrator(\r\n\t\t\t\t\tOrchestratorOperationTypeEnum.CREATE, vnfDescriptor, getAuthToken(headers) );\r\n\t\t\tVNFDResponse resp = new VNFDResponse(vnfDescriptor);\r\n\t\t\tString jsonResp = new Gson().toJson(resp);\r\n\t\t\tlog.debug(\"{}\",jsonResp);\r\n\t\t\tResponse response = Response.status(Status.CREATED).entity(jsonResp).build();\r\n\t\t\tresponse.getMetadata().add(\"Location\", uriInfo.getAbsolutePath()+\"/\"+vnfDescriptor.getId());\r\n\t\t\treturn response;\r\n\t\t} catch (ValidationException e) {\r\n\t\t\tlog.error(e.getMessage());\r\n\t\t\treturn e.getResponse();\r\n\t\t} catch (Exception e) {\r\n\t\t\tlog.error(e.getMessage());\r\n\t\t\treturn Response.status(Status.INTERNAL_SERVER_ERROR).entity(e.getMessage()).\r\n\t\t\t\t\ttype(MediaType.TEXT_PLAIN).build();\r\n\t\t}\r\n\t}\r\n\t@Override\r\n\tpublic Response modify_VNFDescriptor(Integer vnfdId, String vnfd) {\r\n\t\tlog.info(\"Modify VNF Descriptor : {}\",vnfdId);\r\n\t\tlog.debug(\"vnfd = {}\",vnfd);\r\n\t\ttry {\r\n\t\t\tVNFDescriptor vnfDescriptor = service.modifyVNFDescriptor(vnfdId, vnfd);\r\n\t\t\tservice.sendNotificationToOrchestrator(\r\n\t\t\t\t\tOrchestratorOperationTypeEnum.UPDATE, vnfDescriptor, getAuthToken(headers) );\r\n\t\t\treturn Response.status(Status.NO_CONTENT).build();\t\t\t\t\r\n\t\t} catch (ValidationException e) {\r\n\t\t\tlog.error(e.getMessage());\r\n\t\t\treturn Response.status(e.getStatus()).entity(e.getMessage()).\r\n\t\t\t\t\ttype(MediaType.TEXT_PLAIN).build();\r\n\t\t} catch (Exception e) {\r\n\t\t\tlog.error(e.getMessage());\r\n\t\t\treturn Response.status(Status.INTERNAL_SERVER_ERROR).entity(e.getMessage()).\r\n\t\t\t\t\ttype(MediaType.TEXT_PLAIN).build();\r\n\t\t}\r\n\t}\r\n\t@Override\r\n\tpublic Response get_VNFDescriptor(Integer vnfdId) {\r\n\t\tlog.info(\"Get VNF Descriptor : {}\",vnfdId);\r\n\t\ttry {\r\n\t\t\tString vnfd = service.getVNFDescriptor(vnfdId).getJson();\r\n//\t\t\tlog.debug(\"{}\",vnfd);\r\n\t\t\treturn Response.status(Status.OK).entity(vnfd).build();\t\t\t\t\r\n\t\t} catch (ValidationException e) {\r\n\t\t\tlog.error(e.getMessage());\r\n\t\t\treturn Response.status(e.getStatus()).entity(e.getMessage()).\r\n\t\t\t\t\ttype(MediaType.TEXT_PLAIN).build();\r\n\t\t}\r\n\t}\r\n\t@Override\r\n\tpublic Response delete_VNFDescriptor(Integer vnfdId) {\r\n\t\tlog.info(\"Delete VNF Descriptor : {}\",vnfdId);\r\n\t\ttry {\r\n\t\t\tList<VNFDescriptor> vnfDescriptors = service.deleteVNFDescriptor(vnfdId);\r\n\t\t\tservice.sendNotificationToOrchestrator(OrchestratorOperationTypeEnum.DELETE, \r\n\t\t\t\t\tvnfDescriptors, getAuthToken(headers));\r\n\t\t\treturn Response.status(Status.NO_CONTENT).build();\t\t\t\t\r\n\t\t} catch (ValidationException e) {\r\n\t\t\tlog.error(e.getMessage());\r\n\t\t\treturn Response.status(e.getStatus()).entity(e.getMessage()).\r\n\t\t\t\t\ttype(MediaType.TEXT_PLAIN).build();\r\n\t\t}\r\n\t}\r\n\t@Override\r\n\tpublic Response delete_VNFDescriptors() {\r\n\t\tlog.info(\"Delete All VNF Descriptors\");\r\n\t\ttry {\r\n\t\t\tList<VNFDescriptor> vnfDescriptors = service.deleteVNFDescriptor(null);\r\n\t\t\tservice.sendNotificationToOrchestrator(OrchestratorOperationTypeEnum.DELETE, \r\n\t\t\t\t\tvnfDescriptors, getAuthToken(headers) );\r\n\t\t\treturn Response.status(Status.NO_CONTENT).build();\t\t\t\t\r\n\t\t} catch (ValidationException e) {\r\n\t\t\tlog.error(e.getMessage());\r\n\t\t\treturn Response.status(e.getStatus()).entity(e.getMessage()).\r\n\t\t\t\t\ttype(MediaType.TEXT_PLAIN).build();\r\n\t\t}\r\n\t}\r\n\t@Override\r\n\tpublic Response get_VNFDescriptor_list() {\r\n\t\tlog.info(\"Get VNF Descriptor list\");\r\n\t\ttry {\r\n\t\t\tList<VNFDescriptor> vnfds = service.getVNFDescriptors();\r\n\t\t\tlog.info(\"Found {} VNF Descriptors\", vnfds.size());\r\n\t\t\tVNFDListResponse resp = new VNFDListResponse(vnfds);\r\n//\t\t\tlog.debug(\"{}\",resp.getJson());\r\n\t\t\treturn Response.status(Status.OK).entity(resp.getJson()).build();\r\n\t\t} catch (Exception e) {\r\n\t\t\tlog.error(e.getMessage());\r\n\t\t\treturn Response.status(Status.INTERNAL_SERVER_ERROR).entity(e.getMessage()).\r\n\t\t\t\t\ttype(MediaType.TEXT_PLAIN).build();\r\n\t\t}\r\n\t}\r\n\r\n\tprivate String getAuthToken(HttpHeaders headers) {\r\n\t\tList<String> tokens = headers.getRequestHeader(GatekeeperAuthenticationValve.AUTH_TOKEN);\r\n\t\tif ( tokens==null \|\| tokens.size()==0 )\r\n\t\t\treturn null;\r\n\t\treturn tokens.get(0);\r\n\t}\r\n\r\n}\r\n" }, { "alpha_fraction": 0.6557692289352417, "alphanum_fraction": 0.6763985753059387, "avg_line_length": 33.0476188659668, "blob_id": "3e3888581f1141f2cf56e6d28d20a679464c1107", "content_id": "e5d76ca5e75b4664df9c6c9c80b94f0fdb186beb", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 5720, "license_type": "permissive", "max_line_length": 110, "num_lines": 168, "path": "/test/eu/tnova/nfs/client/NFSVnfd.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.client;\n\nimport java.io.File;\nimport java.io.FileNotFoundException;\nimport java.io.IOException;\nimport java.net.MalformedURLException;\n\nimport javax.ws.rs.core.MediaType;\nimport javax.ws.rs.core.Response;\n\nimport org.apache.commons.io.FileUtils;\nimport org.apache.cxf.jaxrs.client.WebClient;\n\nimport com.google.gson.Gson;\nimport com.google.gson.JsonElement;\n\npublic class NFSVnfd {\n\tprivate static WSClient wsClient = new WSClient();\n\tprivate static int vnfdId = -1;\n\n\tpublic static void main(String[] args) throws Exception {\n\t\tif ( args.length<2 )\n\t\t\thelp();\n\t\tint exitValue = -1;\n\t\tString url = args[0]+\"/NFS/vnfds\";\n\t\tSystem.out.println(\"op. : \"+args[1]);\n\t\tswitch (args[1]) {\n\t\tcase \"list\":\n\t\t\texitValue = list(url);\n\t\t\tbreak;\n\t\tcase \"delete\":\n\t\t\tif ( args.length>3 )\n\t\t\t\thelp();\n\t\t\tif ( args.length==3 )\n\t\t\t\turl += \"/\"+args[2];\n\t\t\texitValue = delete(url);\n\t\t\tbreak;\n\t\tcase \"add\":\n\t\t\tif ( args.length!=3 )\n\t\t\t\thelp();\n\t\t\tFile ulFile = checkFile(args[2]);\n\t\t\tif ( ulFile == null )\n\t\t\t\tbreak;\n\t\t\texitValue = add(url, ulFile);\n\t\t\tbreak;\n\t\tcase \"modify\":\n\t\t\tif ( args.length!=4 )\n\t\t\t\thelp();\n\t\t\tFile upFile = checkFile(args[3]);\n\t\t\tif ( upFile == null )\n\t\t\t\tbreak;\n\t\t\turl += \"/\"+args[2];\n\t\t\texitValue = modify(url, upFile);\n\t\t\tbreak;\n\t\tcase \"get\":\n\t\t\tif ( args.length!=4 )\n\t\t\t\thelp();\n\t\t\turl += \"/\"+args[2];\n\t\t\texitValue = get(url, args[3]);\n\t\t\tbreak;\n\t\tcase \"test\":\n\t\t\tif ( args.length!=3 )\n\t\t\t\thelp();\n\t\t\tFile testFile = checkFile(args[2]);\n\t\t\tif ( testFile == null )\n\t\t\t\tbreak;\n\t\t\tSystem.out.println(\"\\n>>>> list \");\n\t\t\tlist(url);\n\t\t\tSystem.out.println(\"\\n>>>> add \");\n\t\t\tadd(url, testFile);\n\t\t\tString urlVnfd = url+\"/\"+vnfdId;\n\t\t\tSystem.out.println(\"\\n>>>> list \");\n\t\t\tlist(url);\n\t\t\tSystem.out.println(\"\\n>>>> get \");\n\t\t\tget(urlVnfd, args[2]+\".read\");\n\t\t\tSystem.out.println(\"\\n>>>> update \");\n\t\t\ttestFile = checkFile(args[2]+\".read\");\n\t\t\tmodify(urlVnfd, testFile);\n\t\t\tSystem.out.println(\"\\n>>>> delete \");\n\t\t\tdelete(urlVnfd);\n\t\t\tSystem.out.println(\"\\n>>>> list \");\n\t\t\tlist(url);\n\t\t\texitValue=0;\n\t\t\tbreak;\n\t\tdefault:\n\t\t\thelp();\n\t\t}\n\t\tSystem.exit(exitValue); \n\t}\n\n\t///////////////////////////////////////////////////////////////////////////////////////////////\n\t\n\tprivate static int add (String url, File file)\n\t\t\tthrows MalformedURLException, FileNotFoundException, IOException, Exception {\n\t\tWebClient webClient = wsClient.getClient(url, MediaType.APPLICATION_JSON_TYPE);\n\t\tString str = FileUtils.readFileToString(file);\n\t\tString responseBody = webClient.post(str, String.class);\n\t\tJsonElement idElement = new Gson().fromJson(responseBody, JsonElement.class)\n\t\t\t\t.getAsJsonObject().get(\"vnfd_id\");\n//\t\t\t\t.getAsJsonObject().get(VNFD.VNFD_ID);\n\t\tif ( idElement==null )\n\t\t\tthrow new Exception(\"Vnfd Id not set into response :\\n \"+responseBody);\n\t\tvnfdId = idElement.getAsInt();\n\t\tFile responseFile = new File(file.getAbsolutePath()+\".addResponse\");\n\t\tFileUtils.writeStringToFile(responseFile, responseBody);\n\t\treturn (wsClient.printResponse(webClient.getResponse(), responseBody));\n\t}\n\n\tprivate static int modify (String url, File file) \n\t\t\tthrows MalformedURLException, FileNotFoundException, IOException {\n\t\tWebClient webClient = wsClient.getClient(url, MediaType.APPLICATION_JSON_TYPE);\n\t\tString str = FileUtils.readFileToString(file);\n\t\tString responseBody = webClient.put(str, String.class);\n\t\tFile responseFile = new File(file.getAbsolutePath()+\".modifyResponse\");\n\t\tFileUtils.writeStringToFile(responseFile, responseBody);\n\t\treturn (wsClient.printResponse(webClient.getResponse(), responseBody));\n\t}\n\n\tprivate static int get(String url, String filePath) \n\t\t\tthrows MalformedURLException, FileNotFoundException, IOException {\n\t\tWebClient webClient = wsClient.getClient(url, MediaType.APPLICATION_JSON_TYPE);\n\t\tString responseBody = webClient.get(String.class);\n\t\tFile responseFile = new File(filePath);\n\t\tFileUtils.writeStringToFile(responseFile, responseBody);\n\t\treturn (wsClient.printResponse(webClient.getResponse(), responseBody));\n\t}\n\t\n\tprivate static int delete(String url) throws MalformedURLException {\n\t\tWebClient webClient = wsClient.getClient(url, MediaType.APPLICATION_JSON_TYPE);\n\t\tResponse response = webClient.delete();\n\t\treturn (wsClient.printResponse(response, null));\n\t}\n\n\tprivate static int list(String url) throws MalformedURLException {\n\t\tWebClient webClient = wsClient.getClient(url, MediaType.APPLICATION_JSON_TYPE);\n\t\tString responseBody = webClient.get(String.class);\n\t\tResponse response = webClient.getResponse();\n\t\treturn (wsClient.printResponse(response, responseBody));\n\t}\n\n\tprivate static File checkFile (String filePath) {\n\t\tFile file = new File(filePath);\n\t\tif ( !file.exists() \|\| !file.isFile() ) {\n\t\t\tSystem.out.println(\"ERROR : file \"+filePath+\" not found or is not a file\");\n\t\t\treturn null;\n\t\t}\n\t\treturn file;\n\t}\n\n\tprivate static void help() {\n\t\tSystem.out.println(\"Arguments : \");\n\t\tSystem.out.println(\" URL - ex. https://83.212.108.105:8443\");\n\t\tSystem.out.println(\" command - (list\|add\|get\|modify\|delete)\");\n\t\tSystem.out.println(\" (vnfdId) - (cmd get\|modify\|delete) - ex. 1132 \");\n\t\tSystem.out.println(\" (Path file) - (cmd upload\|download\|update) - ex. D:\\\\tmp\\\\descfile.vnfd\");\n\t\tSystem.out.println(\"Example: \");\n\t\tSystem.out.println(\" java -jar NFSVnfd.jar https://83.212.108.105:8443 add D:\\\\tmp\\\\descfile.vnfd\");\n\t\tSystem.out.println(\" java -jar NFSVnfd.jar https://83.212.108.105:8443 list\");\n\t\tSystem.out.println(\" java -jar NFSVnfd.jar https://83.212.108.105:8443 get 1132 D:\\\\tmp\\\\descfileRead.vnfd\");\n\t\tSystem.out.println(\" java -jar NFSVnfd.jar https://83.212.108.105:8443 modify 1132 D:\\\\tmp\\\\descfile2.vnfd\");\n\t\tSystem.out.println(\" java -jar NFSVnfd.jar https://83.212.108.105:8443 delete 1132\");\n\t\tSystem.exit(-1);\n\t}\n\n\n\n\n}\n" }, { "alpha_fraction": 0.6046976447105408, "alphanum_fraction": 0.6231883764266968, "avg_line_length": 20.516128540039062, "blob_id": "8d46f01555a059005d4d5b79d65816c4af1817b6", "content_id": "0d654c58e21fc3bc0d8beb721250bf7e4260e2d3", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 2001, "license_type": "permissive", "max_line_length": 79, "num_lines": 93, "path": "/scripts/nfs", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "#!/bin/bash \n#\n# /etc/init.d/nfsService -- startup script for the nfs engine\n#\n# Written by Enzo Figini <[email protected]>.\n#\nPATH=/bin:/usr/bin:/sbin:/usr/sbin:/usr/local/sbin:/usr/local/bin\nMONITOR=/usr/local/nfs/bin/nfsMonitor\nDESC=\"Network Function Store\"\nDEFAULT=/etc/default/nfs\n\nif [ `id -u` -ne 0 ]; then\n\techo \"You need root privileges to run this script\"\n\texit 1\nfi\n\n\n# we only use these functions, define fallback versions of them ...\n# ... and let the lsb override them, if it thinks it knows better.\nlog_success_msg() { \n\techo \"${1:-}\"; \n}\nlog_failure_msg() { \n\techo -n \"${1:-}\"; \n}\nlog_daemon_msg() { \n\techo -n \"${1:-}; \"; \n}\nlog_end_msg() { \n\tif [ $1 -eq 0 ]; then \n\t\techo \" ...done.\"\n\telse\n\t \techo \" ...fail.\" \n\tfi\n}\n\n# Determine whether the lsb package is installed\nif test -f /etc/init.d/functions; then \n\t. /etc/init.d/functions\nelif test -f /etc/rc.status; then\n . /etc/rc.status\nelif test -f /lib/lsb/init-functions; then\n . /lib/lsb/init-functions\nfi\n\nif [ -r /etc/default/rcS ]; then\n\t. /etc/default/rcS\nfi\n\nif [ ! -e $MONITOR ]; then\n\tlog_failure_msg \"$MONITOR script not found\"\n\texit 1\nfi\n\ncase \"$1\" in\n start)\n\tlog_daemon_msg \"Starting $DESC service\"\n\t$MONITOR start &\n\tsleep 5\n\texport NO_PRINT_STATUS=1\n\tfor i in {0..10}; do\n\t\t$MONITOR status 2>1\n\t\t[ $? -eq 0 ] && log_end_msg 0 && exit 0\n\tdone\n\tlog_end_msg 1\n\t;;\n stop)\n\tlog_daemon_msg \"Stopping $DESC service\"\n\t$MONITOR stop\n\t[ $? -ne 0 ] && log_failure_msg \"Failed to stop $DESC service\" && exit 1\n\tlog_end_msg 0\n\t;;\n status)\n\texec $MONITOR status\n\tstat=$?\n\t[ \"$stat\" == \"0\" ] && log_success_msg \"$DESC is running\" && exit 0\n\t[ \"$stat\" == \"1\" ] && log_success_msg \"$DESC server not active\" && exit 1\n\t[ \"$stat\" == \"2\" ] && log_success_msg \"$DESC manager not active\" && exit 1\n\t[ \"$stat\" == \"3\" ] && log_success_msg \"$DESC application not active\" && exit 1\n\tlog_success_msg \"Unknown status\"\n\texit 1\n ;;\n restart)\n\t$0 stop\n\t$0 start\n\t;;\n )\n\tlog_success_msg \"Usage: $0 {start\|stop\|restart\|status}\"\n\texit 1\n\t;;\nesac\n\nexit 0\n" }, { "alpha_fraction": 0.7497435808181763, "alphanum_fraction": 0.7497435808181763, "avg_line_length": 34.240962982177734, "blob_id": "b6697fb245806ab5e25c5370440718d0d5afba88", "content_id": "af42697685bc086b49cfe020b860e51127c9163b", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 2925, "license_type": "permissive", "max_line_length": 111, "num_lines": 83, "path": "/src/eu/tnova/nfs/ws/VNFDescriptorWSInterface.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws;\n\nimport javax.ejb.Local;\nimport javax.validation.constraints.NotNull;\nimport javax.ws.rs.Consumes;\nimport javax.ws.rs.DELETE;\nimport javax.ws.rs.GET;\nimport javax.ws.rs.POST;\nimport javax.ws.rs.PUT;\nimport javax.ws.rs.Path;\nimport javax.ws.rs.PathParam;\nimport javax.ws.rs.Produces;\nimport javax.ws.rs.core.Context;\nimport javax.ws.rs.core.MediaType;\nimport javax.ws.rs.core.Response;\nimport javax.ws.rs.core.UriInfo;\n\nimport org.apache.cxf.jaxrs.model.wadl.Description;\nimport org.apache.cxf.jaxrs.model.wadl.Descriptions;\nimport org.apache.cxf.jaxrs.model.wadl.DocTarget;\n\n@Path(\"/vnfds\")\n@Local\n@Description(value = \"Network Function Store - Virtual Network Functions Descriptors\", \n\ttarget = DocTarget.RESOURCE)\npublic interface VNFDescriptorWSInterface {\n\n\t@POST \n\t@Consumes(MediaType.APPLICATION_JSON)\n\t@Produces (MediaType.APPLICATION_JSON)\n\t@Descriptions({\n\t\t @Description(value = \"Upload Virtual Network Function Descriptor\", target = DocTarget.METHOD),\n\t\t})\n\tpublic Response create_VNFDescriptor(\n\t\t\t@Context UriInfo uriInfo,\t\n\t\t\t@Description(\"VNF Descriptor\") @NotNull String vnfd);\n\n\t@PUT\n\t@Path(\"/{vnfdId}\")\n\t@Consumes(MediaType.APPLICATION_JSON)\n\t@Produces (MediaType.APPLICATION_JSON)\n\t@Descriptions({\n\t\t @Description(value = \"Update Virtual Network Function Descriptor\", target = DocTarget.METHOD),\n\t\t})\n\tpublic Response modify_VNFDescriptor(\n\t\t\t@Description(\"VNF Descriptor Id\") @PathParam(\"vnfdId\") @NotNull Integer vnfdId,\n\t\t\t@Description(\"VNF Descriptor\") @NotNull String vnfd);\n\n\t@GET \n\t@Path(\"/{vnfdId}\")\n\t@Produces(MediaType.APPLICATION_JSON)\n\t@Descriptions({\n\t\t @Description(value = \"Get Virtual Network Function Descriptor\", target = DocTarget.METHOD),\n\t\t @Description(value = \"Virtual Network Function Descriptor Identifier\", target = DocTarget.PARAM),\n\t\t @Description(value = \"Virtual Network Function Descriptor\", target = DocTarget.RETURN),\n\t\t})\n\tpublic Response get_VNFDescriptor(\n\t\t\t@Description(\"VNF Descriptor Id\") @PathParam(\"vnfdId\") @NotNull Integer vnfdId);\n\n\t@GET \n\t@Produces (MediaType.APPLICATION_JSON)\n\t@Descriptions({\n\t\t @Description(value = \"Get a list of all Virtual Network Function Descriptors\", target = DocTarget.METHOD),\n\t\t @Description(value = \"Virtual Network Function Descriptors Identifier List\", target = DocTarget.RETURN),\n\t\t})\n\tpublic Response get_VNFDescriptor_list();\n\n\t@DELETE\n\t@Path(\"/{vnfdId}\")\n\t@Descriptions({\n\t\t @Description(value = \"Delete Virtual Network Function Descriptor\", target = DocTarget.METHOD),\n\t\t @Description(value = \"Virtual Network Function Descriptor Identifier\", target = DocTarget.PARAM),\n\t\t})\n\tpublic Response delete_VNFDescriptor(\n\t\t\t@Description(\"VNF Descriptor Id\") @PathParam(\"vnfdId\") @NotNull Integer vnfdId);\n\n\t@DELETE\n\t@Descriptions({\n\t\t @Description(value = \"Delete All Virtual Network Function Descriptors\", target = DocTarget.METHOD),\n\t\t})\n\tpublic Response delete_VNFDescriptors();\n\n}\n" }, { "alpha_fraction": 0.6544665098190308, "alphanum_fraction": 0.6719912886619568, "avg_line_length": 33.481285095214844, "blob_id": "ccac41474921c4a1cc0f1b998725ed4360d647a2", "content_id": "b6492f88dc78cdbc4b7f0534837a2578fdc6b9fc", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 6448, "license_type": "permissive", "max_line_length": 124, "num_lines": 187, "path": "/test/eu/tnova/nfs/client/NFSFile.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.client;\n\nimport java.io.File;\nimport java.io.FileInputStream;\nimport java.io.FileNotFoundException;\nimport java.io.FileOutputStream;\nimport java.io.IOException;\nimport java.net.MalformedURLException;\n\nimport javax.ws.rs.core.MediaType;\nimport javax.ws.rs.core.Response;\n\nimport org.apache.cxf.jaxrs.client.WebClient;\nimport org.apache.cxf.jaxrs.ext.multipart.Attachment;\nimport org.apache.cxf.jaxrs.ext.multipart.ContentDisposition;\nimport org.apache.cxf.jaxrs.ext.multipart.MultipartBody;\n\npublic class NFSFile {\n\tprivate static WSClient wsClient = new WSClient();\n\n\tpublic static void main(String[] args) throws Exception {\n\t\tif ( args.length<2 )\n\t\t\thelp();\n\t\tint exitValue = -1;\n\t\tString url = args[0]+\"/NFS/files\";\n\t\tSystem.out.println(\"op. : \"+args[1]);\n\t\tswitch (args[1]) {\n\t\tcase \"list\":\n\t\t\texitValue = list(url);\n\t\t\tbreak;\n\t\tcase \"delete\":\n\t\t\tif ( args.length>3 )\n\t\t\t\thelp();\n\t\t\tif ( args.length==3 )\n\t\t\t\turl += \"/\"+args[2];\n\t\t\texitValue = delete(url);\n\t\t\tbreak;\n\t\tcase \"upload\":\n\t\t\tif ( args.length!=4 )\n\t\t\t\thelp();\n\t\t\tFile ulFile = checkFile(args[3]);\n\t\t\tif ( ulFile == null )\n\t\t\t\tbreak;\n\t\t\texitValue = upload(url, args[2], ulFile);\n\t\t\tbreak;\n\t\tcase \"update\":\n\t\t\tif ( args.length!=4 )\n\t\t\t\thelp();\n\t\t\tFile upFile = checkFile(args[3]);\n\t\t\tif ( upFile == null )\n\t\t\t\tbreak;\n\t\t\turl += \"/\"+args[2];\n\t\t\texitValue = update(url, args[2], upFile);\n\t\t\tbreak;\n\t\tcase \"download\":\n\t\t\t// example cmd : http://<host>:<port> get <filename> <file>\n\t\t\tif ( args.length!=4 )\n\t\t\t\thelp();\n\t\t\turl += \"/\"+args[2];\n\t\t\texitValue = download(url, args[2], args[3]);\n\t\t\tbreak;\n\t\tcase \"test\":\n\t\t\tif ( args.length!=4 )\n\t\t\t\thelp();\n\t\t\tFile testFile = checkFile(args[3]);\n\t\t\tif ( testFile == null )\n\t\t\t\tbreak;\n\t\t\tString urlFile = url+\"/\"+args[2];\n\t\t\tSystem.out.println(\"\\n>>>> list \");\n\t\t\tlist(url);\n\t\t\tSystem.out.println(\"\\n>>>> upload \");\n\t\t\tupload(url, args[2], testFile);\n\t\t\tSystem.out.println(\"\\n>>>> list \");\n\t\t\tlist(url);\n\t\t\tSystem.out.println(\"\\n>>>> download \");\n\t\t\tdownload(urlFile, args[2], args[3]+\".read\");\n\t\t\tSystem.out.println(\"\\n>>>> update \");\n\t\t\tupdate(urlFile, args[2], testFile);\n\t\t\tSystem.out.println(\"\\n>>>> delete \");\n\t\t\tdelete(urlFile);\n\t\t\tSystem.out.println(\"\\n>>>> list \");\n\t\t\tlist(url);\n\t\t\texitValue=0;\n\t\t\tbreak;\n\t\tdefault:\n\t\t\thelp();\n\t\t}\n\t\tSystem.exit(exitValue); \n\t}\n\n\t///////////////////////////////////////////////////////////////////////////////////////////////\n\t\n\tprivate static int upload(String url, String filename, File file)\n\t\t\tthrows FileNotFoundException, MalformedURLException {\n\t\tMultipartBody body = new MultipartBody(\n\t\t\t\tnew Attachment(\n\t\t\t\t\tfilename, \n\t\t\t\t\tnew FileInputStream(file), \n\t\t\t\t\tnew ContentDisposition(\"form-data; name=\\\"file\\\"; filename=\\\"\"+filename+\"\\\"\")\n\t\t\t\t\t) );\n\t\tWebClient webClient = wsClient.getClient(url, MediaType.MULTIPART_FORM_DATA_TYPE);\n\t\tString responseBody = webClient.post(body, String.class);\n\t\treturn (wsClient.printResponse(webClient.getResponse(), responseBody));\n\t}\n\n\tprivate static int update(String url, String filename, File file) \n\t\t\tthrows MalformedURLException, FileNotFoundException {\n\t\tMultipartBody body = new MultipartBody(\n\t\t\t\tnew Attachment(\n\t\t\t\t\t\tfilename, \n\t\t\t\t\t\tnew FileInputStream(file), \n\t\t\t\t\t\tnew ContentDisposition(\"form-data; name=\\\"file\\\"; filename=\\\"\"+filename+\"\\\"\")\n\t\t\t\t\t\t) );\n\t\tWebClient webClient = wsClient.getClient(url, MediaType.MULTIPART_FORM_DATA_TYPE);\n\t\tString responseBody = webClient.put(body, String.class);\n\t\treturn (wsClient.printResponse(webClient.getResponse(), responseBody));\n\t}\n\n\tprivate static int download(String url, String filename, String filePath) \n\t\t\tthrows MalformedURLException, FileNotFoundException, IOException {\n\t\tWebClient webClient = wsClient.getClient(url, MediaType.MULTIPART_FORM_DATA_TYPE);\n\t\tMultipartBody body = webClient.get(MultipartBody.class);\n\t\tFileOutputStream outputStream = new FileOutputStream(filePath);\n\t\tif ( body.getAllAttachments().size()!=1 ) {\n\t\t\tSystem.out.println(\"ERROR : attachment != 1 (\"+body.getAllAttachments().size()+\")\");\n\t\t\toutputStream.close();\n\t\t\treturn -1;\n\t\t}\n\t\tAttachment att = body.getAllAttachments().get(0);\n\t\tif ( !att.getContentType().equals(MediaType.APPLICATION_OCTET_STREAM_TYPE) ) {\n\t\t\tSystem.out.println(\"ERROR : ContentType is not \"+att.getContentType());\n\t\t\toutputStream.close();\n\t\t\treturn -1;\n\t\t}\n\t\tif ( !att.getDataHandler().getName().equals(\"file\")) {\n\t\t\tSystem.out.println(\"ERROR : Content Name is \"+att.getDataHandler().getName());\n\t\t\toutputStream.close();\n\t\t\treturn -1;\n\t\t}\n\t\tatt.getDataHandler().writeTo(outputStream);\n\t\toutputStream.flush();\n\t\toutputStream.close();\n\t\treturn ( wsClient.printResponse(webClient.getResponse(), null) );\n\t}\n\t\n\t\n\tprivate static int delete(String url) throws MalformedURLException {\n\t\tWebClient webClient = wsClient.getClient(url, MediaType.APPLICATION_JSON_TYPE);\n\t\tResponse response = webClient.delete();\n\t\treturn (wsClient.printResponse(response, null));\n\t}\n\n\tprivate static int list(String url) throws MalformedURLException {\n\t\tWebClient webClient = wsClient.getClient(url, MediaType.APPLICATION_JSON_TYPE);\n\t\tString responseBody = webClient.get(String.class);\n\t\tResponse response = webClient.getResponse();\n\t\treturn (wsClient.printResponse(response, responseBody));\n\t}\n\n\tprivate static File checkFile (String filePath) {\n\t\tFile file = new File(filePath);\n\t\tif ( !file.exists() \|\| !file.isFile() ) {\n\t\t\tSystem.out.println(\"ERROR : file \"+filePath+\" not found or is not a file\");\n\t\t\treturn null;\n\t\t}\n\t\treturn file;\n\t}\n\n\tprivate static void help() {\n\t\tSystem.out.println(\"Arguments : \");\n\t\tSystem.out.println(\" URL - ex. https://83.212.108.105:8443\");\n\t\tSystem.out.println(\" command - (list\|upload\|download\|update\|delete)\");\n\t\tSystem.out.println(\" (filename) - (cmd delete\|upload\|download\|update) - ex. imageTest \");\n\t\tSystem.out.println(\" (Path file) - (cmd upload\|download\|update) - ex. D:\\\\tmp\\\\imagefile.img \");\n\t\tSystem.out.println(\"Example: \");\n\t\tSystem.out.println(\" java -jar NFSFile.jar https://83.212.108.105:8443 upload IMAGETEST D:\\\\tmp\\\\imagefile.img\");\n\t\tSystem.out.println(\" java -jar NFSFile.jar https://83.212.108.105:8443 list\");\n\t\tSystem.out.println(\" java -jar NFSFile.jar https://83.212.108.105:8443 download IMAGETEST D:\\\\tmp\\\\imagefileUploaded.img\");\n\t\tSystem.out.println(\" java -jar NFSFile.jar https://83.212.108.105:8443 update IMAGETEST D:\\\\tmp\\\\imagefile2.img\");\n\t\tSystem.out.println(\" java -jar NFSFile.jar https://83.212.108.105:8443 delete IMAGETEST\");\n\t\tSystem.exit(-1);\n\t}\n\n\n\n\n}\n" }, { "alpha_fraction": 0.6272544860839844, "alphanum_fraction": 0.7054108381271362, "avg_line_length": 26.72222137451172, "blob_id": "a7e1e4ac504684b3cd5f8aa1639332c43a14c7a9", "content_id": "b0b98fe14a72bac9d49f9dc52a1813de7c4d75d6", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 499, "license_type": "permissive", "max_line_length": 74, "num_lines": 18, "path": "/functionalTest/test.suite/vars_remote.py", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "### directory setting\nproject_dir = \"D:\\WorkspaceGIT\\wp5\\WP5\\NFS\"\nwadl_dir = \"D:\\WorkspaceGIT\\wp5\\WP5\\NFS\\wadl\"\ndb_location = \"D:\\tmp\\NFS\\db\"\nserver_home = \"D:\\WorkspaceGIT\\wp5\\WP5\\NFS\\server\\apache-tomee-plus-1.7.1\"\n\n### server setting\nNFS_ADDRESS = \"83.212.108.105\"\nNFS_PORT = \"8080\"\nNFS_PROTOCOL = \"http\"\n#NFS_PORT = \"8443\"\n#NFS_PROTOCOL = \"https\"\n\n### orchestrator setting\nORCHESTRATOR_ADDRESS = \"193.136.92.205\"\nORCHESTRATOR_PORT = \"4567\"\nORCHESTRATOR_PROTOCOL = \"http\"\nORCHESTRATOR_PATH = \"/vnfs\"\n" }, { "alpha_fraction": 0.5234042406082153, "alphanum_fraction": 0.5829787254333496, "avg_line_length": 41.727272033691406, "blob_id": "aa940adb9f0da160a2213b0aa5807b4f2bf8e4d0", "content_id": "64e55960c2a0422cf7834ca5c5fd3c15464bfd5f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 470, "license_type": "permissive", "max_line_length": 62, "num_lines": 11, "path": "/conf/build/postInstall.sh", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "#! /bin/bash\n\necho \"post install\"\n\n[ -d /etc/rc0.d ] && ln -sf /etc/init.d/nfs /etc/rc0.d/K01nfs \n[ -d /etc/rc1.d ] && ln -sf /etc/init.d/nfs /etc/rc1.d/S99nfs\n[ -d /etc/rc2.d ] && ln -sf /etc/init.d/nfs /etc/rc2.d/S99nfs\n[ -d /etc/rc3.d ] && ln -sf /etc/init.d/nfs /etc/rc3.d/S99nfs\n[ -d /etc/rc4.d ] && ln -sf /etc/init.d/nfs /etc/rc4.d/S99nfs\n[ -d /etc/rc5.d ] && ln -sf /etc/init.d/nfs /etc/rc5.d/S99nfs\n[ -d /etc/rc6.d ] && ln -sf /etc/init.d/nfs /etc/rc6.d/K01nfs\n" }, { "alpha_fraction": 0.7336536645889282, "alphanum_fraction": 0.7401295304298401, "avg_line_length": 28.490446090698242, "blob_id": "a861b77b7b901ad1a2aa2f24a77b6c00b82ce9f9", "content_id": "c134bda261d96eaf07edf2a4e14d10700d06490f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 4787, "license_type": "permissive", "max_line_length": 88, "num_lines": 157, "path": "/src/eu/tnova/nfs/entity/VNFD.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.entity;\r\n\r\nimport java.io.Serializable;\r\nimport java.util.Date;\r\nimport java.util.List;\r\n\r\nimport javax.persistence.CascadeType;\r\n//import javax.persistence.Column;\r\nimport javax.persistence.Embeddable;\r\nimport javax.persistence.Embedded;\r\nimport javax.persistence.FetchType;\r\n//import javax.persistence.Lob;\r\nimport javax.persistence.OneToMany;\r\nimport javax.validation.constraints.NotNull;\r\nimport javax.validation.constraints.Size;\r\nimport javax.xml.bind.annotation.XmlAccessType;\r\nimport javax.xml.bind.annotation.XmlAccessorType;\r\nimport javax.xml.bind.annotation.XmlElement;\r\nimport javax.xml.bind.annotation.XmlRootElement;\r\n\r\nimport com.google.gson.annotations.SerializedName;\r\n\r\n@SuppressWarnings(\"serial\")\r\n@Embeddable\r\n@XmlAccessorType(XmlAccessType.FIELD)\r\n@XmlRootElement(name = \"vnfd\")\r\n\r\npublic class VNFD implements Serializable {\r\n\tpublic static final String VNFD_ID = \"id\";\r\n\r\n\t@SerializedName(\"provider_id\") @XmlElement(name=\"provider_id\")\r\n\tprivate String provider_id;\r\n\t@SerializedName(\"provider\")\t@XmlElement(name=\"provider\")\r\n\tprivate String provider;\r\n\t@SerializedName(\"description\") @XmlElement(name=\"description\")\r\n//\t@Lob\r\n//\t@Column(columnDefinition = \"TEXT\", length = 65535)\t\r\n//\t@Size(max = 65535, message=\"Description lenght over 65553 bytes\")\r\n\t@Size(max = 256, message=\"Description length must be less than 256 char\")\r\n\tprivate String description;\r\n\t@SerializedName(\"type\")\t@XmlElement(name=\"type\")\r\n\tprivate String type;\r\n\t@SerializedName(\"date_created\")\t@XmlElement(name=\"date_created\")\r\n\tprivate Date creationDate;\r\n\t@SerializedName(\"date_modified\") @XmlElement(name=\"date_modified\")\r\n\tprivate Date modificationDate;\r\n\t@SerializedName(\"descriptor_version\") @XmlElement(name=\"descriptor_version\")\r\n\tprivate String descriptorVersion;\r\n\t@SerializedName(\"version\") @XmlElement(name=\"version\")\r\n\tprivate String version;\r\n\t@SerializedName(\"manifest_file_md5\") @XmlElement(name=\"manifest_file_md5\")\r\n\tprivate String manifest_file_md5;\r\n\t@SerializedName(\"Trade\") @XmlElement(name=\"Trade\")\r\n\tprivate Boolean trade;\r\n\t\r\n\t@SerializedName(VirtualDeploymentUnit.VDU) @XmlElement(name=VirtualDeploymentUnit.VDU) \r\n\t@NotNull (message=\"At least one VDU must be present\")\r\n\t@Size(min = 1, message=\"At least one VDU must be present\")\r\n\t@OneToMany(fetch = FetchType.EAGER, cascade = CascadeType.ALL)\r\n\tprivate List<VirtualDeploymentUnit> vdu;\r\n\t@SerializedName(\"billing_model\") @XmlElement(name=\"billing_model\")\r\n\t@NotNull (message=\"Billing must be present\")\r\n\t@Embedded private Billing billing;\r\n\t@SerializedName(\"deployment_flavour\") @XmlElement(name=\"deployment_flavour\")\r\n\t@OneToMany(fetch = FetchType.EAGER, cascade = CascadeType.ALL)\r\n\tprivate List<DeploymentFlavour> deploymentFlavour;\r\n\r\n\tpublic VNFD() {\r\n\t\tsuper();\r\n\t}\r\n\r\n\tpublic String getProvider() {\r\n\t\treturn provider;\r\n\t}\r\n\tpublic void setProvider(String provider) {\r\n\t\tthis.provider = provider;\r\n\t}\r\n\tpublic String getDescription() {\r\n\t\treturn description;\r\n\t}\r\n\tpublic void setDescription(String description) {\r\n\t\tthis.description = description;\r\n\t}\r\n\tpublic String getType() {\r\n\t\treturn type;\r\n\t}\r\n\tpublic void setType(String type) {\r\n\t\tthis.type = type;\r\n\t}\r\n\tpublic Date getCreationDate() {\r\n\t\treturn creationDate;\r\n\t}\r\n\tpublic void setCreationDate(Date creationDate) {\r\n\t\tthis.creationDate = creationDate;\r\n\t}\r\n\tpublic Date getModificationDate() {\r\n\t\treturn modificationDate;\r\n\t}\r\n\tpublic void setModificationDate(Date modificationDate) {\r\n\t\tthis.modificationDate = modificationDate;\r\n\t}\r\n\tpublic String getDescriptorVersion() {\r\n\t\treturn descriptorVersion;\r\n\t}\r\n\tpublic void setDescriptorVersion(String descriptorVersion) {\r\n\t\tthis.descriptorVersion = descriptorVersion;\r\n\t}\r\n\tpublic String getVersion() {\r\n\t\treturn version;\r\n\t}\r\n\tpublic void setVersion(String version) {\r\n\t\tthis.version = version;\r\n\t}\r\n\tpublic List<DeploymentFlavour> getDeploymentFlavour() {\r\n\t\treturn deploymentFlavour;\r\n\t}\r\n\tpublic void setDeploymentFlavour(List<DeploymentFlavour> deploymentFlavour) {\r\n\t\tthis.deploymentFlavour = deploymentFlavour;\r\n\t}\r\n\tpublic List<VirtualDeploymentUnit> getVdu() {\r\n\t\treturn vdu;\r\n\t}\r\n\tpublic void setVdu(List<VirtualDeploymentUnit> vdu) {\r\n\t\tthis.vdu = vdu;\r\n\t}\r\n\tpublic Boolean getTrade() {\r\n\t\treturn trade;\r\n\t}\r\n\tpublic void setTrade(Boolean trade) {\r\n\t\tthis.trade = trade;\r\n\t}\r\n\r\n\tpublic String getProvider_id() {\r\n\t\treturn provider_id;\r\n\t}\r\n\r\n\tpublic void setProvider_id(String provider_id) {\r\n\t\tthis.provider_id = provider_id;\r\n\t}\r\n\r\n\tpublic String getManifest_file_md5() {\r\n\t\treturn manifest_file_md5;\r\n\t}\r\n\r\n\tpublic void setManifest_file_md5(String manifest_file_md5) {\r\n\t\tthis.manifest_file_md5 = manifest_file_md5;\r\n\t}\r\n\r\n\tpublic Billing getBilling() {\r\n\t\treturn billing;\r\n\t}\r\n\r\n\tpublic void setBilling(Billing billing) {\r\n\t\tthis.billing = billing;\r\n\t}\r\n\r\n}\r\n" }, { "alpha_fraction": 0.5345911979675293, "alphanum_fraction": 0.5503144860267639, "avg_line_length": 25.58333396911621, "blob_id": "5ecad8a29d576b4164136f282a26c15c6898c44f", "content_id": "0b9f8481313d79fe2a93b1172e740340b6ff3201", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 318, "license_type": "permissive", "max_line_length": 61, "num_lines": 12, "path": "/functionalTest/python.lib/md5/md5.py", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "import hashlib\nimport os\n\ndef md5_for_file(rootdir, filename, blocksize=220):\n m = hashlib.md5()\n with open( os.path.join(rootdir, filename) , \"rb\" ) as f:\n while True:\n buf = f.read(blocksize)\n if not buf:\n break\n m.update( buf )\n return m.hexdigest()" }, { "alpha_fraction": 0.7407247424125671, "alphanum_fraction": 0.7463330626487732, "avg_line_length": 25.953489303588867, "blob_id": "013d6042c58de2069fe1c122850cda6990852c64", "content_id": "2f720dd33835d2a4a52e0d94870471bf08d9a3a8", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 2318, "license_type": "permissive", "max_line_length": 71, "num_lines": 86, "path": "/src/eu/tnova/nfs/entity/VirtualDeploymentUnit.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.entity;\n\nimport java.io.Serializable;\nimport java.util.List;\n\nimport javax.persistence.ElementCollection;\nimport javax.persistence.Entity;\nimport javax.persistence.GeneratedValue;\nimport javax.persistence.Id;\nimport javax.validation.constraints.NotNull;\nimport javax.validation.constraints.Size;\nimport javax.xml.bind.annotation.XmlElement;\nimport javax.xml.bind.annotation.XmlRootElement;\n\nimport com.google.gson.annotations.SerializedName;\n\n@SuppressWarnings(\"serial\")\n@Entity\n@XmlRootElement(name = \"vdu\")\npublic class VirtualDeploymentUnit implements Serializable {\n\tpublic static final String VDU = \"vdu\";\n\tpublic static final String VM_IMAGE = \"vm_image\";\n\tpublic static final String VM_IMAGE_MD5 = \"vm_image_md5\";\n\tpublic static final String VM_IMAGE_FORMAT = \"vm_image_format\";\n\n\t@Id @GeneratedValue\n\tprivate Integer DBId;\n\t@SerializedName(\"id\") @XmlElement(name=\"id\")\n\t@NotNull (message=\"VDU Id must be specified\")\n\t@Size(min = 1, message=\"VDU Id name must be specified\")\n\tprivate String id;\n\t@SerializedName(VM_IMAGE) @XmlElement(name=VM_IMAGE)\n\t@NotNull (message=\"vmImage must be specified\")\n\t@Size(min = 1, message=\"vmImage must be specified\")\n\tprivate String vmImage;\n\t@SerializedName(\"VM_IMAGE_MD5\") @XmlElement(name=\"VM_IMAGE_MD5\")\n\tprivate String vmImage_md5;\n\t@SerializedName(\"VM_IMAGE_FORMAT\") @XmlElement(name=\"VM_IMAGE_FORMAT\")\n\tprivate String vmImage_format;\n\t\n\t@SerializedName(\"Vnfc\") @XmlElement(name=\"Vnfc\")\n\t@ElementCollection private List<VNFComponent> vnfc;\n\n\tpublic VirtualDeploymentUnit() {\n\t\tsuper();\n\t}\n\n\tpublic Integer getDBId() {\n\t\treturn DBId;\n\t}\n\tpublic void setDBId(Integer DBId) {\n\t\tthis.DBId = DBId;\n\t}\n\tpublic String getId() {\n\t\treturn id;\n\t}\n\tpublic void setId(String id) {\n\t\tthis.id = id;\n\t}\n\tpublic String getVmImage() {\n\t\treturn vmImage;\n\t}\n\tpublic void setVmImage(String vmImage) {\n\t\tthis.vmImage = vmImage;\n\t}\n\tpublic String getVmImage_md5() {\n\t\treturn vmImage_md5;\n\t}\n\tpublic void setVmImage_md5(String vmImage_md5) {\n\t\tthis.vmImage_md5 = vmImage_md5;\n\t}\n\tpublic String getVmImage_format() {\n\t\treturn vmImage_format;\n\t}\n\tpublic void setVmImage_format(String vmImage_format) {\n\t\tthis.vmImage_format = vmImage_format;\n\t}\n\n\tpublic List<VNFComponent> getVnfc() {\n\t\treturn vnfc;\n\t}\n\tpublic void setVnfc(List<VNFComponent> vnfc) {\n\t\tthis.vnfc = vnfc;\n\t}\n\n}\n" }, { "alpha_fraction": 0.7405714392662048, "alphanum_fraction": 0.7405714392662048, "avg_line_length": 21.435897827148438, "blob_id": "ed07061348c649bcca111c8655836ad9e8cd3442", "content_id": "2e91e6d47a8195a0d46768561ab49d2b9f4a80ff", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 875, "license_type": "permissive", "max_line_length": 63, "num_lines": 39, "path": "/src/eu/tnova/nfs/ws/entity/VNFOrchestratorRequest.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws.entity;\n\nimport javax.xml.bind.annotation.XmlElement;\nimport javax.xml.bind.annotation.XmlRootElement;\n\nimport com.google.gson.annotations.SerializedName;\n\n@XmlRootElement(name = \"vnf\")\npublic class VNFOrchestratorRequest {\n\t@SerializedName(\"name\") @XmlElement(name=\"name\")\n\tprivate String name;\n\t@SerializedName(\"vnf-manager\") @XmlElement(name=\"vnf-manager\")\n\tprivate String vnfManager;\n\t@SerializedName(\"vnfd\") @XmlElement(name=\"vnfd\")\n\tprivate String vnfd;\n\n\tpublic VNFOrchestratorRequest() {\n\t}\n\n\tpublic String getName() {\n\t\treturn name;\n\t}\n\tpublic void setName(String name) {\n\t\tthis.name = name;\n\t}\n\tpublic String getVnfManager() {\n\t\treturn vnfManager;\n\t}\n\tpublic void setVnfManager(String vnfManager) {\n\t\tthis.vnfManager = vnfManager;\n\t}\n\tpublic String getVnfd() {\n\t\treturn vnfd;\n\t}\n\tpublic void setVnfd(String vnfd) {\n\t\tthis.vnfd = vnfd;\n\t}\n\n}\n" }, { "alpha_fraction": 0.7300000190734863, "alphanum_fraction": 0.7307142615318298, "avg_line_length": 20.875, "blob_id": "5b773f166404e253e39d7cc80c4df15085b641e8", "content_id": "527f44dd70484fc5aed370377ecdec855000d35b", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 1400, "license_type": "permissive", "max_line_length": 95, "num_lines": 64, "path": "/src/eu/tnova/nfs/exception/ValidationException.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.exception;\n\nimport javax.ws.rs.core.MediaType;\nimport javax.ws.rs.core.Response;\nimport javax.ws.rs.core.Response.Status;\n\npublic class ValidationException extends Exception {\n\n\tprivate static final long serialVersionUID = 1L;\n\tprivate Status status;\n\tprivate boolean param;\n\n\tpublic ValidationException() {\n\t\tsuper();\n\t\tstatus = null;\n\t\tparam = false;\n\t}\n\n\tpublic ValidationException(String message) {\n\t\tthis(message,Status.BAD_REQUEST);\n\t}\n\tpublic ValidationException(String message, boolean param) {\n\t\tthis(message,Status.BAD_REQUEST, param);\n\t}\n\n\tpublic ValidationException(Throwable cause) {\n\t\tsuper(cause);\n\t\tstatus = null;\n\t\tparam = false;\n\t}\n\n\tpublic ValidationException(String message, Throwable cause) {\n\t\tsuper(message, cause);\n\t\tstatus = null;\n\t\tparam = false;\n\t}\n\tpublic ValidationException(String message, Status status) {\n\t\tthis(message,status,false);\n\t}\n\tpublic ValidationException(String message, Status status, boolean param) {\n\t\tsuper(message);\n\t\tthis.status = status;\n\t\tthis.param = param;\n\t}\n\n\tpublic Status getStatus() {\n\t\treturn status;\n\t}\n\tpublic void setStatus(Status status) {\n\t\tthis.status = status;\n\t}\n\t\n\tpublic boolean isParam() {\n\t\treturn param;\n\t}\n\tpublic void setParam(boolean param) {\n\t\tthis.param = param;\n\t}\n\n\tpublic Response getResponse() {\n\t\treturn Response.status(status).entity(super.getMessage()).type(MediaType.TEXT_PLAIN).build();\n\t}\n\n}\n" }, { "alpha_fraction": 0.6811105608940125, "alphanum_fraction": 0.6830475926399231, "avg_line_length": 32.267303466796875, "blob_id": "a935e54b06e1d1e4559369732920f4e4e40ff74e", "content_id": "759a547742d05941ac2714f57e2136ac6671746a", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 13939, "license_type": "permissive", "max_line_length": 105, "num_lines": 419, "path": "/src/eu/tnova/nfs/ws/orchestrator/OrchestratorBean.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws.orchestrator;\n\nimport java.io.File;\nimport java.util.ArrayList;\nimport java.util.Calendar;\nimport java.util.Collection;\nimport java.util.HashMap;\nimport java.util.Map;\n\nimport javax.annotation.PostConstruct;\nimport javax.annotation.PreDestroy;\nimport javax.annotation.Resource;\nimport javax.ejb.DependsOn;\nimport javax.ejb.EJB;\nimport javax.ejb.Local;\nimport javax.ejb.Singleton;\nimport javax.ejb.Startup;\nimport javax.ejb.Timeout;\nimport javax.ejb.Timer;\nimport javax.ejb.TimerConfig;\nimport javax.ejb.TimerService;\nimport javax.inject.Inject;\nimport javax.persistence.EntityManager;\nimport javax.persistence.PersistenceContext;\nimport javax.ws.rs.core.Response.Status;\n\nimport org.apache.logging.log4j.Logger;\n\nimport eu.tnova.nfs.entity.VNFDescriptor;\nimport eu.tnova.nfs.entity.VNFFile;\nimport eu.tnova.nfs.entity.VNFFileStatusEnum;\nimport eu.tnova.nfs.exception.ValidationException;\nimport eu.tnova.nfs.producers.EnvValue;\nimport eu.tnova.nfs.ws.ServiceBean;\n\n@Singleton\n@Startup\n@Local({ OrchestratorBeanInterface.class, OrchestratorBeanInterface.class })\n@EJB(name=\"OrchestratorBean\", beanName=\"OrchestratorBean\", beanInterface=OrchestratorBeanInterface.class)\n@DependsOn(\"ServiceBean\")\npublic class OrchestratorBean implements OrchestratorBeanInterface {\n\t@Inject\tprivate static Logger log;\n\t@PersistenceContext(unitName = \"NFS_DB\") private EntityManager em;\n\t@EJB private ServiceBean service;\n\t@Resource private TimerService timerService;\n\t@Inject @EnvValue(EnvValue.storePath) private String storePath;\n\t@Inject private OrchestratorWSClient orchestratorClient;\n\n\tprivate static final long POLLING_TIME = 10006010;\n\tprivate static final long INITIAL_POLLING_TIME = 100060;\n\tprivate static final long INITIAL_ALIGN_POLLING_TIME = 100030;\n\t\n\tpublic OrchestratorBean() {\n\t}\n\n\t@PostConstruct\n\tpublic void init() {\n\t\tlog.info(\"init\");\n\t\talignVNF();\n//\t\t// try to align orchestrator\n//\t\tList<VNFDescriptor> vnfds = service.getVNFDescriptors();\n//\t\tOrchestratorVNF vnf = null;\n//\t\tfor ( VNFDescriptor vnfd : vnfds ) {\n//\t\t\tif ( !vnfd.isVnfCreated() ) {\n//\t\t\t\tvnf = new OrchestratorVNF(\n//\t\t\t\t\t\tvnfd.getId(), OrchestratorOperationTypeEnum.CREATE, null);\n//\t\t\t\tstartPeriodicTimer(vnf);\n//\t\t\t\tlog.info(\"start timer to CREATE vnf {}\", vnfd.getId() );\n//\t\t\t} else {\n//\t\t\t\tif ( !allFilesAreAvailable(vnfd) ) {\n//\t\t\t\t\tvnf = new OrchestratorVNF(\n//\t\t\t\t\t\t\tvnfd.getId(), OrchestratorOperationTypeEnum.DELETE, null);\n//\t\t\t\t\tstartPeriodicTimer(vnf);\n//\t\t\t\t\tlog.info(\"start timer to DELETE vnf {}\", vnfd.getId() );\n////\t\t\t\t} else {\n////\t\t\t\t\tvnf = new OrchestratorVNF(\n////\t\t\t\t\t\t\tvnfd.getId(), OrchestratorOperationTypeEnum.UPDATE, null);\n////\t\t\t\t\tstartPeriodicTimer(vnf);\n//\t\t\t\t}\n//\t\t\t}\n//\t\t}\n\t}\n\t@PreDestroy\n\tprotected void destroy() {\n\t\tlog.info(\"destroy\");\n\t}\n\n\t@Override\n\tpublic boolean create(VNFDescriptor vnfDescriptor, String userToker) {\n\t\tlog.info(\"create VNF with VNFD {}\", vnfDescriptor.getId());\n\t\tif ( vnfDescriptor.isVnfCreated() \|\| !allFilesAreAvailable(vnfDescriptor) )\n\t\t\treturn false;\n\t\tOrchestratorVNF vnf = new OrchestratorVNF(\n\t\t\t\tvnfDescriptor.getId(), OrchestratorOperationTypeEnum.CREATE, userToker);\n\t\tArrayList<Timer> timers = getTimers(vnf);\n\t\tTimer timer = null;\n\t\tif ( timers!=null && !timers.isEmpty() ) {\n\t\t\tlog.warn(\"found timer already active for VNFD {}\", vnfDescriptor.getId());\n\t\t\ttimer = timers.get(0);\n\t\t\tOrchestratorVNF vnfTtimer = (OrchestratorVNF) timer.getInfo();\n\t\t\tswitch ( vnfTtimer.getOperation() ) {\n\t\t\tcase CREATE:\n\t\t\t\tbreak;\n\t\t\tdefault:\n\t\t\t\treturn false;\n\t\t\t}\n\t\t}\n\t\ttry {\n\t\t\torchestratorClient.create_VNF(vnfDescriptor, userToker);\n\t\t\tif ( timer!=null ) {\n\t\t\t\ttimer.cancel();\n\t\t\t\tlog.info(\"CREATE timer removed\");\n\t\t\t}\n\t\t\tem.merge(vnfDescriptor);\n\t\t\tem.flush();\n\t\t\tlog.info(\"VNF {} created\", vnfDescriptor.getId());\n\t\t\treturn true;\n\t\t} catch (ValidationException e) {\n\t\t\tlog.error(e.getMessage());\n\t\t\tif ( e.getStatus() == null \|\| e.getStatus().getStatusCode() == 422) {\n\t\t\t\tlog.info(\"VNF {} already found on orchestrator\", vnfDescriptor.getId());\n\t\t\t\tif ( timer!=null ) {\n\t\t\t\t\ttimer.cancel();\n\t\t\t\t\tlog.info(\"timer removed\");\n\t\t\t\t}\n\t\t\t\treturn true;\n\t\t\t}\n\t\t} catch (Exception e) {\n\t\t\tlog.error(\"problem create VNF on orchestrator : {}\", e.getMessage());\n\t\t}\n\t\tif ( timer==null )\n\t\t\tstartPeriodicTimer(vnf, INITIAL_POLLING_TIME);\n\t\treturn false;\n\t}\n\n\t@Override\n\tpublic boolean update(VNFDescriptor vnfDescriptor, String userToker) {\n\t\tlog.info(\"update VNF with VNFD {}\", vnfDescriptor.getId());\n\t\tif ( !vnfDescriptor.isVnfCreated() \|\| !allFilesAreAvailable(vnfDescriptor) )\n\t\t\treturn false;\n\t\tOrchestratorVNF vnf = new OrchestratorVNF(\n\t\t\t\tvnfDescriptor.getId(), OrchestratorOperationTypeEnum.UPDATE, userToker);\n\t\tArrayList<Timer> timers = getTimers(vnf);\n\t\tTimer timer = null;\n\t\tif ( timers!=null && !timers.isEmpty() ) {\n\t\t\tlog.warn(\"found timer already active for VNFD {}\", vnfDescriptor.getId());\n\t\t\ttimer = timers.get(0);\n\t\t\tOrchestratorVNF vnfTtimer = (OrchestratorVNF) timer.getInfo();\n\t\t\tswitch ( vnfTtimer.getOperation() ) {\n\t\t\tcase CREATE:\n\t\t\t\tlog.info(\"change operation to CREATE\");\n\t\t\t\treturn create(vnfDescriptor, userToker);\n\t\t\tcase UPDATE:\n\t\t\t\tbreak;\n\t\t\tdefault:\n\t\t\t\treturn false;\n\t\t\t}\n\t\t}\n\t\ttry {\n\t\t\torchestratorClient.update_VNF(vnfDescriptor, userToker);\n\t\t\tif ( timer!=null ) {\n\t\t\t\ttimer.cancel();\n\t\t\t\tlog.info(\"UPDATE timer removed\");\n\t\t\t}\n\t\t\tlog.info(\"VNF {} updated\", vnfDescriptor.getId());\n\t\t\treturn true;\n\t\t} catch (ValidationException e) {\n\t\t\tlog.error(e.getMessage());\n\t\t\tif ( e.getStatus().equals(Status.NOT_FOUND) ) {\n\t\t\t\tlog.info(\"VNF {} not found on orchestrator\", vnfDescriptor.getId());\n\t\t\t\tif ( timer!=null ) {\n\t\t\t\t\ttimer.cancel();\n\t\t\t\t\tlog.info(\"timer removed\");\n\t\t\t\t}\n\t\t\t\treturn false;\n\t\t\t}\n\t\t} catch (Exception e) {\n\t\t\tlog.error(\"problem update VNF to orchestrator : {}\", e.getMessage());\n\t\t}\n\t\tif ( timer==null )\n\t\t\tstartPeriodicTimer(vnf, INITIAL_POLLING_TIME);\n\t\treturn false;\n\t}\n\n\t@Override\n\tpublic boolean delete (VNFDescriptor vnfDescriptor, String userToker) {\n\t\tlog.info(\"delete VNF with VNFD {}\", vnfDescriptor.getId());\n\t\tif ( !vnfDescriptor.isVnfCreated() )\n\t\t\treturn false;\n\t\tOrchestratorVNF vnf = new OrchestratorVNF(\n\t\t\t\tvnfDescriptor.getId(), OrchestratorOperationTypeEnum.DELETE, userToker);\n\t\tArrayList<Timer> timers = getTimers(vnf);\n\t\tTimer timer = null;\n\t\tif ( timers!=null && !timers.isEmpty() ) {\n\t\t\tlog.warn(\"found timer already active for VNFD {}\", vnfDescriptor.getId());\n\t\t\ttimer = timers.get(0);\n\t\t\tOrchestratorVNF vnfTtimer = (OrchestratorVNF) timer.getInfo();\n\t\t\tswitch ( vnfTtimer.getOperation() ) {\n\t\t\tcase CREATE:\n\t\t\t\ttimer.cancel();\n\t\t\t\tlog.info(\"{} timer removed : delete not needed\", vnfTtimer.getOperation());\n\t\t\t\treturn true;\n\t\t\tdefault:\n\t\t\t\tbreak;\n\t\t\t}\n\t\t}\n\t\ttry {\n\t\t\torchestratorClient.delete_VNF(vnfDescriptor, userToker);\n\t\t\tif ( timer!=null ) {\n\t\t\t\ttimer.cancel();\n\t\t\t\tlog.info(\"timer removed\");\n\t\t\t}\n\t\t\tif ( em.find(VNFDescriptor.class, vnfDescriptor.getId()) != null ) {\n\t\t\t\tem.merge(vnfDescriptor);\n\t\t\t\tem.flush();\n\t\t\t}\n\t\t\tlog.info(\"VNF {} removed\", vnfDescriptor.getId());\n\t\t\treturn true;\n\t\t} catch (ValidationException e) {\n\t\t\tif ( e.getStatus().equals(Status.NOT_FOUND) ) {\n\t\t\t\tlog.info(\"VNF {} not found on orchestrator\", vnfDescriptor.getId());\n\t\t\t\tif ( timer!=null ) {\n\t\t\t\t\ttimer.cancel();\n\t\t\t\t\tlog.info(\"timer removed\");\n\t\t\t\t}\n\t\t\t\treturn true;\n\t\t\t} \n\t\t\tlog.error(e.getMessage());\n\t\t} catch (Exception e) {\n\t\t\tlog.error(\"problem remove VNF from orchestrator : {}\", e.getMessage());\n\t\t}\n\t\tif ( timer==null )\n\t\t\tstartPeriodicTimer(vnf, INITIAL_POLLING_TIME);\n\t\treturn false;\n\t}\n\n\t@Timeout\n\tprivate void timerHandler (Timer timer) {\n\t\tOrchestratorVNF vnf = (OrchestratorVNF) timer.getInfo();\n\t\tlog.info(\"time expired for {} at {}\", \n\t\t\t\tvnf, Calendar.getInstance().getTime() );\n\t\tVNFDescriptor vnfd = null;\n\t\tswitch (vnf.getOperation()) {\n\t\tcase CREATE:\n\t\tcase UPDATE:\n\t\t\ttry {\n\t\t\t\tvnfd = service.getVNFDescriptor(vnf.getVnfdId());\n\t\t\t\tlog.info(\"vnf created = {}\",vnfd.isVnfCreated());\n\t\t\t} catch (ValidationException e) {\n\t\t\t\tlog.warn(\"timerHandler {} : not found vnfd {} -> remove timer\", \n\t\t\t\t\t\tvnf.getOperation(), vnf.getVnfdId());\n\t\t\t\ttimer.cancel();\n\t\t\t\treturn;\n\t\t\t}\n\t\tdefault:\n\t\t\tbreak;\n\t\t}\n\t\ttry {\n\t\t\tswitch (vnf.getOperation()) {\n\t\t\tcase CREATE:\n\t\t\t\tif ( !vnfd.isVnfCreated() ) {\n\t\t\t\t\torchestratorClient.create_VNF(vnfd, vnf.getUserToker());\n\t\t\t\t\tservice.updateVNFDescriptor(vnfd);\n\t\t\t\t}\n\t\t\t\tbreak;\n\t\t\tcase UPDATE:\n\t\t\t\tif ( vnfd.isVnfCreated() ) {\n\t\t\t\t\torchestratorClient.update_VNF(vnfd, vnf.getUserToker());\n\t\t\t\t}\n\t\t\t\tbreak;\n\t\t\tcase DELETE:\n\t\t\t\tvnfd = new VNFDescriptor();\n\t\t\t\tvnfd.setId(vnf.getVnfdId());\n\t\t\t\torchestratorClient.delete_VNF(vnfd, vnf.getUserToker());\n\t\t\t\ttry {\n\t\t\t\t\tvnfd = service.getVNFDescriptor(vnf.getVnfdId());\n\t\t\t\t\tvnfd.setVnfCreated(false);\n\t\t\t\t\tservice.updateVNFDescriptor(vnfd);\n\t\t\t\t} catch (ValidationException e) {\n\t\t\t\t\tlog.info(\"timerHandler DELETE : not found vnfd {}\", vnf.getVnfdId());\n\t\t\t\t}\n\t\t\tdefault:\n\t\t\t\tbreak;\n\t\t\t}\n\t\t\tlog.info(\"timerHandler : remove timer for vnfd {}\", vnf.getVnfdId());\n\t\t\ttimer.cancel();\n\t\t} catch (ValidationException e) {\n\t\t\tif ( e.getStatus()==null && !vnf.getOperation().equals(OrchestratorOperationTypeEnum.DELETE)) {\n\t\t\t\tlog.info(\"timerHandler : VNF {} already found on orchestrator\", vnf.getVnfdId());\n\t\t\t\tif ( timer!=null ) {\n\t\t\t\t\ttimer.cancel();\n\t\t\t\t\tlog.info(\"timerHandler : timer removed\");\n\t\t\t\t}\n\t\t\t} else if ( e.getStatus().equals(Status.NOT_FOUND) ) {\n\t\t\t\tlog.info(\"timerHandler : VNF {} not found on orchestrator\", vnf.getVnfdId());\n\t\t\t\tif ( timer!=null ) {\n\t\t\t\t\ttimer.cancel();\n\t\t\t\t\tlog.info(\"timerHandler : timer removed\");\n\t\t\t\t}\n\t\t\t}\n\t\t\tlog.error(e.getMessage());\n\t\t} catch (Exception e) {\n\t\t\tlog.error(\"timerHandler : problem notification {} VNF to orchestrator : {}\", \n\t\t\t\t\tvnf.getOperation(), e.getMessage());\n\t\t}\n\t}\n\n\tprivate boolean allFilesAreAvailable(VNFDescriptor vnfDescriptor) {\n\t\tMap<String, VNFFile> files = vnfDescriptor.getFilesMap();\n\t\tfor ( String imageName : vnfDescriptor.getvmImagesFileNames() ) {\n\t\t\tVNFFile image = files.get(imageName);\n\t\t\tif ( image.getStatus().equals(VNFFileStatusEnum.NOT_AVAILABLE) \|\| \n\t\t\t\t\timage.getStatus().equals(VNFFileStatusEnum.UPLOAD) )\n\t\t\t\treturn false;\n\t\t\tFile imageFile = image.getFile(storePath);\n\t\t\tif ( !imageFile.exists() )\n\t\t\t\treturn false;\n\t\t}\n\t\treturn true;\n\t}\n\t\n\tprivate ArrayList<Timer> getTimers(OrchestratorVNF vnf) {\n\t\tCollection<Timer> timers = timerService.getTimers();\n\t\tif ( timers==null \|\| timers.isEmpty() )\n\t\t\treturn null;\n\t\tArrayList<Timer> vnfTimers = new ArrayList<Timer>();\n\t\tfor ( Timer timer: timers ) {\n\t\t\tOrchestratorVNF vnfTimer = (OrchestratorVNF) timer.getInfo();\n\t\t\tif ( vnfTimer.getVnfdId().equals(vnf.getVnfdId()) )\n\t\t\t\tvnfTimers.add(timer);\n\t\t}\n\t\treturn vnfTimers;\n\t}\n\n\tprivate boolean startPeriodicTimer(OrchestratorVNF vnf, long initialDuration) {\n\t\ttry {\n\t\t\tTimerConfig timerConfig=new TimerConfig(vnf, false);\n\t\t\ttimerService.createIntervalTimer( initialDuration, POLLING_TIME, timerConfig);\n\t\t\tlog.info(\"periodic timer started for {}\", vnf);\n\t\t\treturn true;\n\t\t} catch (Exception e) {\n\t\t\tlog.error(\"Error starting periodic timer for {}\", vnf); \n\t\t\treturn false;\n\t\t}\n\t}\n\n\tprivate void alignVNF() {\n\t\tMap<Integer,VNFDescriptor> vnfds = service.getVNFDescriptorsMap();\n\t\tOrchestratorVNF vnf = null;\n\t\t// get orchestrator VNF list\n\t\tMap<Integer,VNFDescriptor> orchestratorVnfds = new HashMap<Integer,VNFDescriptor>();\n\t\ttry {\n\t\t\torchestratorVnfds = orchestratorClient.get_VNFDescriptors(null);\n\t\t} catch (Exception e) {\n\t\t\tlog.error(\"alignVNF : error get VNF list from orchestrator : {}\", \n\t\t\t\t\te.getMessage());\n\t\t}\n\t\tlog.debug(\"alignVNF : {} NFStore VNFD = {}\",\n\t\t\t\tvnfds.size(), vnfds.keySet());\n\t\tlog.debug(\"alignVNF : {} orchestartor VNFD = {}\",\n\t\t\t\torchestratorVnfds.size(), orchestratorVnfds.keySet());\n\t\t// check descriptors\n\t\tfor ( VNFDescriptor vnfd : vnfds.values() ) {\n\t\t\tboolean allFilesAvailable = allFilesAreAvailable(vnfd);\n\t\t\tif ( vnfd.isVnfCreated() ) {\n\t\t\t\t// VNF created into DB\n\t\t\t\tif ( orchestratorVnfds.containsKey(vnfd.getId()) ) {\n\t\t\t\t\t// VNF available on orchestrator\n\t\t\t\t\tif ( !allFilesAvailable ) {\n\t\t\t\t\t\tvnf = new OrchestratorVNF(\n\t\t\t\t\t\t\t\tvnfd.getId(), OrchestratorOperationTypeEnum.DELETE, null);\n\t\t\t\t\t\tstartPeriodicTimer(vnf, INITIAL_ALIGN_POLLING_TIME);\n\t\t\t\t\t\tlog.info(\"alignVNF : start timer to DELETE vnf {}\", vnfd.getId() );\n\t\t\t\t\t}\n\t\t\t\t} else {\n\t\t\t\t\t// VNF not available on orchestrator\n\t\t\t\t\tvnfd.setVnfCreated(false);\n\t\t\t\t\tservice.updateVNFDescriptor(vnfd);\n\t\t\t\t\tvnf = new OrchestratorVNF(\n\t\t\t\t\t\t\tvnfd.getId(), OrchestratorOperationTypeEnum.CREATE, null);\n\t\t\t\t\tstartPeriodicTimer(vnf, INITIAL_ALIGN_POLLING_TIME);\n\t\t\t\t\tlog.info(\"alignVNF : start timer to CREATE vnf {}\", vnfd.getId() );\n\t\t\t\t}\n\t\t\t} else {\n\t\t\t\t// VNF non created into DB\n\t\t\t\tif ( orchestratorVnfds.containsKey(vnfd.getId()) ) {\n\t\t\t\t\t// VNF available on orchestrator\n\t\t\t\t\tif ( allFilesAvailable ) {\n\t\t\t\t\t\t// all files available\n\t\t\t\t\t\tvnfd.setVnfCreated(true);\n\t\t\t\t\t\tservice.updateVNFDescriptor(vnfd);\n\t\t\t\t\t} else {\n\t\t\t\t\t\t// NOT all files available\n\t\t\t\t\t\tvnf = new OrchestratorVNF(\n\t\t\t\t\t\t\t\tvnfd.getId(), OrchestratorOperationTypeEnum.DELETE, null);\n\t\t\t\t\t\tstartPeriodicTimer(vnf, INITIAL_ALIGN_POLLING_TIME);\n\t\t\t\t\t\tlog.info(\"alignVNF : start timer to DELETE vnf {}\", vnfd.getId() );\n\t\t\t\t\t}\n\t\t\t\t} else {\n\t\t\t\t\t// VNF NOT available on orchestrator\n\t\t\t\t\tvnf = new OrchestratorVNF(\n\t\t\t\t\t\t\tvnfd.getId(), OrchestratorOperationTypeEnum.CREATE, null);\n\t\t\t\t\tstartPeriodicTimer(vnf, INITIAL_ALIGN_POLLING_TIME);\n\t\t\t\t\tlog.info(\"alignVNF : start timer to CREATE vnf {}\", vnfd.getId() );\n\t\t\t\t}\n\t\t\t}\n\t\t\t// remove vnfd from orchestrator map\n\t\t\torchestratorVnfds.remove(vnfd.getId());\n\t\t}\n\t\t// remove from orchestrator vnfds not mapped into NFStore\n\t\tfor ( Integer vnfdId : orchestratorVnfds.keySet() ) {\n\t\t\tlog.info(\"alignVNF : start timer to DELETE vnf {} not found on NFStore\", vnfdId );\n\t\t\tstartPeriodicTimer(\n\t\t\t\t\tnew OrchestratorVNF(vnfdId, OrchestratorOperationTypeEnum.DELETE, null), \n\t\t\t\t\tINITIAL_ALIGN_POLLING_TIME);\n\t\t}\n\t}\n\n}\n" }, { "alpha_fraction": 0.7426841855049133, "alphanum_fraction": 0.7440295815467834, "avg_line_length": 26.52777862548828, "blob_id": "3b99a3a149cf9e44ea218a852d2ecb1829db651f", "content_id": "7c53dcf956b49f6d7226cb07f10e2c69a8ccd62f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 2973, "license_type": "permissive", "max_line_length": 88, "num_lines": 108, "path": "/src/eu/tnova/nfs/view/VnfdView.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.view;\n\nimport eu.tnova.nfs.entity.VNFDescriptor;\nimport eu.tnova.nfs.exception.ValidationException;\nimport eu.tnova.nfs.producers.EnvValue;\nimport eu.tnova.nfs.ws.ServiceBean;\n\nimport java.io.Serializable;\nimport java.nio.charset.StandardCharsets;\nimport java.util.ArrayList;\nimport java.util.List;\n\nimport javax.annotation.PostConstruct;\nimport javax.ejb.EJB;\nimport javax.faces.application.FacesMessage;\nimport javax.faces.bean.ManagedBean;\nimport javax.faces.bean.ViewScoped;\nimport javax.inject.Inject;\n\nimport org.primefaces.context.RequestContext;\nimport org.primefaces.event.FileUploadEvent;\nimport org.primefaces.json.JSONException;\nimport org.primefaces.json.JSONObject;\nimport org.primefaces.model.UploadedFile;\n\n@SuppressWarnings(\"serial\")\n@ManagedBean(name=\"vnfdView\")\n@ViewScoped\npublic class VnfdView implements Serializable {\n\t@EJB private ServiceBean serviceBean;\n\tprivate List<Vnfd> vnfds = new ArrayList<Vnfd>();\n\tprivate Vnfd selectedVnfd;\n\tprivate UploadedFile file;\n\t@Inject @EnvValue(\"nfs.storePath\")\n\tprivate String storePath;\n\n\t@PostConstruct\n\tpublic void init() {\n\t\trefreshVnfds();\n\t}\n\n\tpublic void refreshVnfds() {\n\t\tthis.vnfds.clear();\n\t\tfor (VNFDescriptor vnfDescriptor : this.serviceBean.getVNFDescriptors()) {\n\t\t\tthis.vnfds.add(new Vnfd(vnfDescriptor,storePath));\n\t\t}\n\t\tif (this.vnfds.size() != 0) {\n\t\t\tthis.selectedVnfd = ((Vnfd)this.vnfds.get(0));\n\t\t}\n\t}\n\n\tpublic List<Vnfd> getVnfds() {\n\t\treturn this.vnfds;\n\t}\n\tpublic void setVnfds(List<Vnfd> vnfds) {\n\t\tthis.vnfds = vnfds;\n\t}\n\n\tpublic void setSelectedVnfd(Vnfd vnfd) {\n\t\tthis.selectedVnfd = vnfd;\n\t}\n\tpublic Vnfd getSelectedVnfd() {\n\t\treturn this.selectedVnfd;\n\t}\n\n\tpublic String getSelectedVnfdJson() {\n\t\tif (this.selectedVnfd == null)\n\t\t\treturn null;\n\t\ttry\t{\n\t\t\tString json = new JSONObject(this.selectedVnfd.getVnfd()).toString(4);\n\t\t\tjson = json.replaceAll(\"\\n\", \"<br>\");\n\t\t\treturn json.replaceAll(\" \", \"    \");\n\t\t} catch (JSONException e) {}\n\t\treturn null;\n\t}\n\n\tpublic void deleteSelectedVnfd() {\n\t\ttry {\n\t\t\tthis.serviceBean.deleteVNFDescriptor(Integer.valueOf(this.selectedVnfd.getVnfdId()));\n\t\t\trefreshVnfds();\n\t\t} catch (ValidationException e) {\n\t\t\tFacesMessage message = new FacesMessage(FacesMessage.SEVERITY_ERROR, \n\t\t\t\t\t\"Error removing vnfd\", e.getMessage());\n\t\t\tRequestContext.getCurrentInstance().showMessageInDialog(message);\n\t\t}\n\t}\n\n\tpublic UploadedFile getFile() {\n\t\treturn this.file;\n\t}\n\tpublic void setFile(UploadedFile file) {\n\t\tthis.file = file;\n\t}\n\n\tpublic void handleVnfdUpload(FileUploadEvent event) {\n\t\tthis.file = event.getFile();\n\t\tString vnfd = new String(this.file.getContents(), StandardCharsets.UTF_8);\n\t\ttry\t{\n\t\t\tthis.serviceBean.createVNFDescriptor(vnfd);\n\t\t\trefreshVnfds();\n\t\t} catch (ValidationException e) {\n\t\t\tFacesMessage message = new FacesMessage(FacesMessage.SEVERITY_ERROR, \n\t\t\t\t\t\"Error uploading vnfd\", e.getMessage());\n\t\t\tRequestContext.getCurrentInstance().showMessageInDialog(message);\n\t\t}\n\t}\n\t\n }\n" }, { "alpha_fraction": 0.6824051737785339, "alphanum_fraction": 0.6995561122894287, "avg_line_length": 38.63999938964844, "blob_id": "2aa47c1d3a92bd17e2bb8a3659b665e226324ad9", "content_id": "df2b273862693314c12ae6b2a460eed252ceb67a", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 4956, "license_type": "permissive", "max_line_length": 213, "num_lines": 125, "path": "/README.md", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "# T-NOVA WP5\n\n## Network Function Store server\nThe Network Function Store is mainly a repository for the VNFs software images and their metadata descriptions.<br/>\nThe NFS has been written in java as a web application running on TomEE server, a tomcat server with java EE extensions.\n\n### Requirements\nThe build require JRE 1.8 and ant 1.9. <br/>\nThe server has to be run on server with Linux OS, rpm and JRE 1.8 installed.\n\n### Tools and Packages used\n [jdk 1.8](http://www.oracle.com/technetwork/java/javase/overview/index.html) - Java virtual machine\n* [ant 1.9](http://http://ant.apache.org/) - build of Java applications\n* [ivy 2.4.0](http://ant.apache.org/ivy/) - Apache dependency manager\n* [redline](http://redline-rpm.org/index.html) - pure Java library for manipulating RPM\n* [rpm](http://rpm5.org/) - RPM Package Manager\n* [TomEE+](http://tomee.apache.org/apache-tomee.html) - Tomcat server with EE features\n* [HTMLWadlGenerator](https://github.com/romiawasthy/HTMLWadlGenerator) - Help generator\n* [H2](http://www.h2database.com/html/main.html) - H2 database\n* [gson](https://code.google.com/p/google-gson/) - JSON library\n* [log4j2](http://logging.apache.org/log4j/2.x/) - log library\n* [commons-fileupload](https://commons.apache.org/proper/commons-fileupload/) - file upload library\n* [robotframework](http://robotframework.org/) - python tools\n* [python](https://www.python.org/) - test automation framework\n* [robotframework-requests](https://github.com/bulkan/robotframework-requests) - robotframework Library for HTTP level testing \n* [wiremock](http://wiremock.org/index.html) - library for stubbing and mocking web services \n\n## Getting started\n\n### Clone Git Repo\n\n```sh\n$ cd ~\n$ git clone https://github.com/T-NOVA/NFS.git\n$ cd NFS\n```\n\n### Build\nAfter you cloned the sources from the git repository the build can be done running ant\n\n```sh\n$ ant -lib lib.no.deploy\n```\n\n### Installation\nThe build produce an rpm into directory prod/rpms containing all the code needed to install the service.<br/>\nThe NFStore will be installed as a standard linux SysVinit service.\n\nAfter uploading the rpm on the server install it *as root* user*\n\n```sh\n$ rpm -ivh nfs-1.0-0.noarch.rpm\n```\n\n### Configuration\nThe default configuration of NFStore is:\n\nNAME \| DESCRIPTION \| DEFAULT VALUE \n---- \| ----------- \| -------------\nNFS_STORE_PATH* \| local store directory \| /usr/local/store \t \nNFS_URL \| NFStore URL used for set image links \| https://apis.t-nova.eu/NFS\t \nORCHESTRATOR_URL \| orchestrator URL \| https://apis.t-nova.eu/orchestrator \nTOMCAT_PROTOCOL \| NFStore protocol \| https \t \nTOMCAT_IP \| NFStore address \| 0.0.0.0 (any address)\t \nTOMCAT_HTTP_PORT \| NFStore port when protocol is http \| 80\t \nTOMCAT_HTTPS_PORT \| NFStore port when protocol is https \| 443\t \n\nIf changes are needed, you can modify the values inside file /usr/local/nfs/bin/nfs.conf using a text editor before start the server.<br/>\nThis file contains commented rows with this variables so you should only uncomment what you need and set required values.\n\n### Run NFS service\n```sh\n$ service nfs start\nStarting nfs (via systemctl): [ OK ]\n$\n```\n\nThe Network Function Store is available at default URL [http://127.0.0.1:8080/NFS](http://127.0.0.1:8080/NFS)\n\n### Stop NFS service\n```sh\n$ service nfs stop\nStopping nfs (via systemctl): [ OK ]\n$\n```\n\n### Check NFS service\n```sh\n$ service nfs status\nnfsMonitor active: pid 29890\ntomcat active: pid 29924\ntomcat manager status: running\nnfs app status: running\n$ \n```\n\n### restart NFS service\n```sh\n$ service nfs restart\nRestarting nfs (via systemctl): [ OK ]\n$ \n```\n\n### NFS API Documentation\nThe NFS interfaces can be mainly divided in 2 parts:\n* [Files Interface](files_interface.md).\n* [VNF Descriptor Interface](vnfds_interface.md).\n\nThe server is also able to generated directly a basic documentation in html format using URL\n[http://127.0.0.1:8080/NFS?_wadl&_type=text/html](http://127.0.0.1:8080/NFS?_wadl&_type=text/html).\n\nNote that these informations are not complete because the used library has some restrictions.\n\n### Tests\nTests are available in `functionalTest` directory of repository and can be run using robotframework tools loading directory `test.suite`.\n\nRobotframework and necessary libraries can be easy installed using `pip` on your system after python installation.\n\n```sh\n$ pip install <object to install>\n```\nNote that some libraries are local like Http requests library that is modified to support attachments on REST requests; local libraries that should be used are available into 'functionsTest/python.lib' directory. \n\n### Tests configuration\nIs possible to change some configuration changing values available on ServerSetting.html file.\n\n" }, { "alpha_fraction": 0.5613512396812439, "alphanum_fraction": 0.5702930688858032, "avg_line_length": 52, "blob_id": "b9aa1311d9fc979313879874f1197987f7c519da", "content_id": "154a69f2dc2e423f4db6772df4265c6d3f90928d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2013, "license_type": "permissive", "max_line_length": 96, "num_lines": 38, "path": "/functionalTest/python.lib/SSLTrustCert/SSLTrustCertLibrary.py", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "class SSLTrustCertLibrary:\n ROBOT_LIBRARY_SCOPE = 'GLOBAL'\n \n def trustAllCertificate(self):\n from javax.net.ssl import TrustManager, X509TrustManager\n from jarray import array\n from javax.net.ssl import SSLContext\n \n class TrustAllX509TrustManager(X509TrustManager):\n def checkClientTrusted(self, chain, auth):\n pass\n def checkServerTrusted(self, chain, auth):\n pass\n def getAcceptedIssuers(self):\n return None\n \n trust_managers = array([TrustAllX509TrustManager()], TrustManager)\n TRUST_ALL_CONTEXT = SSLContext.getInstance(\"SSL\")\n TRUST_ALL_CONTEXT.init(None, trust_managers, None)\n SSLContext.setDefault(TRUST_ALL_CONTEXT)\n \n def trustSpecificCertificate(self, pemCertificateFile, pemCertificateAlias):\n from java.io import BufferedInputStream, FileInputStream\n from java.security import KeyStore\n from java.security.cert import CertificateFactory, X509Certificate\n from javax.net.ssl import SSLContext, TrustManagerFactory\n \n fis = FileInputStream(pemCertificateFile)\n bis = BufferedInputStream(fis)\n ca = CertificateFactory.getInstance(\"X.509\").generateCertificate(bis)\n ks = KeyStore.getInstance(KeyStore.getDefaultType())\n ks.load(None, None)\n ks.setCertificateEntry(pemCertificateAlias, ca)\n tmf = TrustManagerFactory.getInstance(TrustManagerFactory.getDefaultAlgorithm())\n tmf.init(ks)\n context = SSLContext.getInstance(\"SSL\")\n context.init(None, tmf.getTrustManagers(), None)\n SSLContext.setDefault(context)" }, { "alpha_fraction": 0.7249951958656311, "alphanum_fraction": 0.7267163991928101, "avg_line_length": 38.6136360168457, "blob_id": "2cc9a3efb811a35a4a3e557af06666cf652fc305", "content_id": "c17db8248b5ca7858baebfe8e18cb09e60ba637d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 5229, "license_type": "permissive", "max_line_length": 99, "num_lines": 132, "path": "/src/eu/tnova/nfs/ws/validator/NetworkFunctionStoreFileValidator.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws.validator;\n\nimport java.io.File;\n\nimport javax.inject.Inject;\nimport javax.persistence.EntityManager;\nimport javax.persistence.PersistenceContext;\nimport javax.ws.rs.core.Response.Status;\n\nimport org.apache.logging.log4j.Logger;\n\nimport eu.tnova.nfs.entity.VNFFile;\nimport eu.tnova.nfs.entity.VNFFileStatusEnum;\nimport eu.tnova.nfs.exception.ValidationException;\nimport eu.tnova.nfs.producers.EnvValue;\n\npublic class NetworkFunctionStoreFileValidator {\n\t@Inject\tprivate Logger log;\n\t@PersistenceContext(unitName = \"NFS_DB\") private EntityManager em;\n\t@Inject @EnvValue(EnvValue.storePath) private String storePath;\n\n\tpublic NetworkFunctionStoreFileValidator() {\n\t}\n\n\tpublic VNFFile validateUpload (String fileName, String md5Sum, String provider, String imageType) \n\t\t\tthrows ValidationException {\n\t\tif ( md5Sum==null ) \n\t\t\tthrow new ValidationException(\"file checksum not set into upload request\");\n\t\tif ( md5Sum.isEmpty() ) \n\t\t\tthrow new ValidationException(\"empty file checksum into upload request\");\n\t\tInteger providerId = null;\n\t\tif ( provider!=null ) {\n\t\t\ttry {\n\t\t\t\tproviderId = Integer.valueOf(provider); \n\t\t\t} catch (NumberFormatException e) {\n\t\t\t\tthrow new ValidationException(\"provider Id is not a numeric value\");\n\t\t\t}\n\t\t}\n\t\tVNFFile vnfFile = em.find(VNFFile.class, fileName);\n\t\tif ( vnfFile==null ) {\n\t\t\tvnfFile = new VNFFile(fileName);\n\t\t\t// check if file is into store (upload not possible)\n\t\t\tif ( vnfFile.getFile(storePath).exists() )\n\t\t\t\tthrow new ValidationException(\"file \"+vnfFile.getName()+\" present but not found into db\", \n\t\t\t\t\t\tStatus.INTERNAL_SERVER_ERROR, true);\n\t\t} else {\n\t\t\tlog.debug(\"status={}\", vnfFile.getStatus());\n\t\t\t// file already into db; check if available (upload not possible)\n\t\t\tif ( !vnfFile.getStatus().equals(VNFFileStatusEnum.NOT_AVAILABLE) )\n\t\t\t\tthrow new ValidationException(\"file \"+fileName+\" already present into DB\");\n\t\t\t// check if file is into store (upload not possible)\n\t\t\tif ( vnfFile.getFile(storePath).exists() )\n\t\t\t\tthrow new ValidationException(\"file \"+vnfFile.getName()+\" already present\", false);\n\t\t}\n\t\tvnfFile.setProviderId(providerId);\n\t\tvnfFile.setMd5Sum(md5Sum);\n\t\tif ( imageType==null \|\| imageType.isEmpty() )\n\t\t\timageType=\"unknown\";\n\t\tvnfFile.setImageType(imageType);\n\t\treturn vnfFile;\n\t}\n\t\n\tpublic VNFFile validateUpdate (String fileName, String md5Sum, String provider, String imageType) \n\t\t\tthrows ValidationException {\n\t\tif ( md5Sum==null ) \n\t\t\tthrow new ValidationException(\"file checksum not set into update request\");\n\t\tif ( md5Sum.isEmpty() ) \n\t\t\tthrow new ValidationException(\"empty file checksum into upload request\");\n\t\tif ( provider!=null ) {\n\t\t\ttry {\n\t\t\t\t@SuppressWarnings(\"unused\")\n\t\t\t\tInteger providerId = Integer.valueOf(provider); \n\t\t\t} catch (NumberFormatException e) {\n\t\t\t\tthrow new ValidationException(\"provider Id is not a numeric value\");\n\t\t\t}\n\t\t}\n\t\tif ( imageType==null \|\| imageType.isEmpty() )\n\t\t\timageType=\"unknown\";\n\t\tVNFFile vnfFile = em.find(VNFFile.class, fileName);\n\t\tif ( vnfFile==null )\n\t\t\tthrow new ValidationException(\"Not found VNFFile with name \"+fileName, \n\t\t\t\t\tStatus.NOT_FOUND);\n\t\tlog.debug(\"status={}\", vnfFile.getStatus());\n\t\tif ( vnfFile.getStatus().equals(VNFFileStatusEnum.NOT_AVAILABLE) )\n\t\t\tthrow new ValidationException(\"file \"+vnfFile.getName()+\" not available\",\n\t\t\t\t\tStatus.NOT_FOUND);\n//\t\tvalidateFile(vnfFile.getFile(storePath));\n\t\tif ( !vnfFile.getStatus().equals(VNFFileStatusEnum.AVAILABLE) )\n\t\t\tthrow new ValidationException(\"file \"+vnfFile.getName()+\" in use - operation not possible\",\n\t\t\t\t\tStatus.SERVICE_UNAVAILABLE);\n\t\treturn vnfFile;\n\t}\n\t\n\tpublic VNFFile validateDelete (String fileName) \n\t\t\tthrows ValidationException {\n\t\tVNFFile vnfFile = validateUpdate(fileName, \"-\", null, null);\n\t\treturn vnfFile;\n\t}\n\t\n\tpublic VNFFile validateDownload (String fileName, String contentType) \n\t\t\tthrows ValidationException {\n\t\tif ( contentType!=null && !contentType.equals(\"multipart\") )\n\t\t\tthrow new ValidationException(\"Unknown required content type \"+contentType, \n\t\t\t\t\tStatus.NOT_FOUND);\n\t\tVNFFile vnfFile = em.find(VNFFile.class, fileName);\n\t\tif ( vnfFile==null )\n\t\t\tthrow new ValidationException(\"Not found VNFFile with name \"+fileName, \n\t\t\t\t\tStatus.NOT_FOUND);\n\t\tlog.debug(\"status={}\", vnfFile.getStatus());\n\t\tif ( vnfFile.getStatus().equals(VNFFileStatusEnum.NOT_AVAILABLE) )\n\t\t\tthrow new ValidationException(\"file \"+vnfFile.getName()+\" not available\",\n\t\t\t\t\tStatus.NOT_FOUND);\n\t\tvalidateFile(vnfFile.getFile(storePath));\n\t\tif ( vnfFile.getStatus().equals(VNFFileStatusEnum.UPDATE) \|\| \n\t\t\t\tvnfFile.getStatus().equals(VNFFileStatusEnum.UPLOAD) \t)\n\t\t\tthrow new ValidationException(\"file \"+vnfFile.getName()+\" in use - read not possible\",\n\t\t\t\t\tStatus.SERVICE_UNAVAILABLE);\n\t\treturn vnfFile;\n\t}\n\t\n\tprivate void validateFile (File file) throws ValidationException {\n\t\tif ( !file.exists() )\n\t\t\tthrow new ValidationException(\"file \"+file.getName()+\" not found\",\n\t\t\t\t\tStatus.INTERNAL_SERVER_ERROR);\n\t\tif ( !file.isFile() )\n\t\t\tthrow new ValidationException(file.getName()+\" is not a File\",\n\t\t\t\t\tStatus.INTERNAL_SERVER_ERROR);\n\t\tif ( !file.canRead() \|\| !file.canWrite() )\n\t\t\tthrow new ValidationException(\"file \"+file.getName()+\" not readable/writable\",\n\t\t\t\t\tStatus.INTERNAL_SERVER_ERROR);\n\t}\n}\n" }, { "alpha_fraction": 0.8073394298553467, "alphanum_fraction": 0.8073394298553467, "avg_line_length": 20.799999237060547, "blob_id": "0dd7b4a575867c7de55943cc9f15e82270119da6", "content_id": "568fd451fa4ee32fb332d405447c5812578f1579", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 109, "license_type": "permissive", "max_line_length": 43, "num_lines": 5, "path": "/src/eu/tnova/nfs/ws/orchestrator/OrchestratorOperationTypeEnum.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws.orchestrator;\n\npublic enum OrchestratorOperationTypeEnum {\n\tCREATE, UPDATE, DELETE\n}\n" }, { "alpha_fraction": 0.766313910484314, "alphanum_fraction": 0.766313910484314, "avg_line_length": 24.200000762939453, "blob_id": "46997e1cb608dd02414085b603eea3bffc49fecf", "content_id": "d403f2794892f2acdae6c0460743e33d6606e370", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 1134, "license_type": "permissive", "max_line_length": 69, "num_lines": 45, "path": "/src/eu/tnova/nfs/valves/GatekeeperValidateTokenResponse.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.valves;\n\nimport java.util.List;\n\nimport javax.xml.bind.annotation.XmlAccessType;\nimport javax.xml.bind.annotation.XmlAccessorType;\nimport javax.xml.bind.annotation.XmlElement;\nimport javax.xml.bind.annotation.XmlRootElement;\n\nimport com.google.gson.annotations.SerializedName;\n\n@XmlAccessorType(XmlAccessType.FIELD)\n@XmlRootElement\npublic class GatekeeperValidateTokenResponse {\n\t\n\tpublic class GatekeeperValidateTokenResponseMsg {\n\t\t@SerializedName(\"msg\") @XmlElement(name = \"msg\")\n\t\tprivate String msg;\n\n\t\tpublic String getMsg() {\n\t\t\treturn msg;\n\t\t}\n\t\tpublic void setMsg(String msg) {\n\t\t\tthis.msg = msg;\n\t\t}\n\t}\n\t\n\t@SerializedName(\"metadata\") @XmlElement(name = \"metadata\")\n\tprivate String metadata;\n\t@SerializedName(\"info\") @XmlElement(name = \"info\")\n\tprivate List<GatekeeperValidateTokenResponseMsg> info;\n\t\n\tpublic String getMetadata() {\n\t\treturn metadata;\n\t}\n\tpublic void setMetadata(String metadata) {\n\t\tthis.metadata = metadata;\n\t}\n\tpublic List<GatekeeperValidateTokenResponseMsg> getInfo() {\n\t\treturn info;\n\t}\n\tpublic void setInfo(List<GatekeeperValidateTokenResponseMsg> info) {\n\t\tthis.info = info;\n\t}\n}\n" }, { "alpha_fraction": 0.757311999797821, "alphanum_fraction": 0.7576601505279541, "avg_line_length": 37.2933349609375, "blob_id": "1680a06f56cfebab5ae2c2f1dd0e1a4ee8279640", "content_id": "28f67a3c99d151144c6173de445130902642d310", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 2872, "license_type": "permissive", "max_line_length": 95, "num_lines": 75, "path": "/src/eu/tnova/nfs/ws/validator/NetworkFunctionStoreDescriptorValidator.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws.validator;\n\nimport javax.inject.Inject;\nimport javax.persistence.EntityManager;\nimport javax.persistence.PersistenceContext;\nimport javax.ws.rs.core.Response.Status;\n\nimport org.apache.logging.log4j.Logger;\n\nimport com.google.gson.JsonSyntaxException;\n\nimport eu.tnova.nfs.entity.VNFDescriptor;\nimport eu.tnova.nfs.entity.VirtualDeploymentUnit;\nimport eu.tnova.nfs.exception.ValidationException;\n\npublic class NetworkFunctionStoreDescriptorValidator {\n\t@PersistenceContext(unitName = \"NFS_DB\") private EntityManager em;\n\t@Inject\tprivate Logger log;\n\n\tpublic NetworkFunctionStoreDescriptorValidator() {\n\t}\n\n\tpublic VNFDescriptor validateCreate (String jsonVNFD) \n\t\t\tthrows ValidationException {\n\t VNFDescriptor vnfDescriptor = parseVnfDescriptor(jsonVNFD);\n\t if (vnfDescriptor.getId() != null)\n\t \tthrow new ValidationException(\"Not Possibile insert VNF Descriptor with id already set\");\n\t return vnfDescriptor;\n\t}\n\tpublic VNFDescriptor validateUpdate (Integer vnfd_Id, String jsonVNFD) \n\t\t\tthrows ValidationException {\n\t VNFDescriptor vnfDescriptor = parseVnfDescriptor(jsonVNFD);\n\t if (vnfDescriptor.getId() == null)\n\t \tthrow new ValidationException(\"Update VNF Descriptor without id\");\n\t if (vnfd_Id.intValue() != vnfDescriptor.getId().intValue())\n\t \tthrow new ValidationException(\"VNF Descriptor with id different from request\");\n\t\tVNFDescriptor vnfd = em.find(VNFDescriptor.class, vnfd_Id);\n\t\tif ( vnfd==null ) \n\t\t\tthrow new ValidationException(\"Not found VNF Descriptor with id \"+vnfd_Id, \n\t\t\t\t\tStatus.NOT_FOUND);\n\t\tvnfd.setJson(vnfDescriptor.getJson());\n\t\tvnfd.setVnfd(vnfDescriptor.getVnfd());\n\t\treturn vnfd;\n\t}\n\tpublic VNFDescriptor validateGet (Integer vnfd_Id) \n\t\t\tthrows ValidationException {\n\t\tif ( vnfd_Id==null )\n\t\t\tthrow new ValidationException(\"validate VNF Descriptor without id\");\n\t\tVNFDescriptor vnfd = em.find(VNFDescriptor.class, vnfd_Id);\n\t\tif ( vnfd==null ) \n\t\t\tthrow new ValidationException(\"Not found VNF Descriptor with id \"+vnfd_Id, \n\t\t\t\t\tStatus.NOT_FOUND);\n\t\treturn vnfd;\n\t}\n\tpublic VNFDescriptor validateDelete (Integer vnfd_Id)\n\t\t\tthrows ValidationException {\n\t\treturn validateGet(vnfd_Id);\n\t}\n\n\tprivate VNFDescriptor parseVnfDescriptor (String jsonVNFD) \n\t\t\tthrows ValidationException {\n\t\ttry {\n\t\t\tVNFDescriptor vnfDescriptor = new VNFDescriptor(jsonVNFD);\n\t\t\tif ( vnfDescriptor.getVnfd().getVdu()==null \|\| vnfDescriptor.getVnfd().getVdu().isEmpty() )\n\t\t\t\tthrow new ValidationException(\"VNF Descriptor without \"+VirtualDeploymentUnit.VDU);\n\t\t\tif ( vnfDescriptor.getvmImages().size() != vnfDescriptor.getVnfd().getVdu().size() )\n\t\t\t\tthrow new ValidationException(\"At least one \"+VirtualDeploymentUnit.VDU+\" without image\");\n\t\t\treturn vnfDescriptor;\n\t\t} catch (JsonSyntaxException e) {\n\t\t\tlog.error(e.getMessage());\n\t\t\tthrow new ValidationException(\"Error parsing VNF Descriptor\");\n\t\t}\n\t}\n\n}\n" }, { "alpha_fraction": 0.743511438369751, "alphanum_fraction": 0.743511438369751, "avg_line_length": 27.478260040283203, "blob_id": "2ad836b341421ab14ea0e5c92719675985886401", "content_id": "f1b4cf1f1bd0cbfcd3359e22db93301a6c9a4e27", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 655, "license_type": "permissive", "max_line_length": 66, "num_lines": 23, "path": "/src/eu/tnova/nfs/producers/EnvValueProducer.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.producers;\n\nimport javax.enterprise.context.ApplicationScoped;\nimport javax.enterprise.inject.Produces;\nimport javax.enterprise.inject.spi.InjectionPoint;\n\n@ApplicationScoped\npublic class EnvValueProducer {\n\t@Produces\n\t@EnvValue(\"\")\n public String configValueProducer(InjectionPoint ip) {\n\t\tEnvValue name = ip.getAnnotated().getAnnotation(EnvValue.class);\n\t\tif ( name==null \|\| name.value().isEmpty() )\n\t\t\treturn null;\n\t\tString var=System.getProperty(name.value());\n\t\tif ( var!=null )\n\t\t\treturn var;\n\t\tvar=System.getenv(name.value());\n\t\tif ( var!=null )\n\t\t\treturn var;\n\t\treturn EnvDefaulValueEnum.getValueByName(name.value());\n\t}\n}\n" }, { "alpha_fraction": 0.7360354065895081, "alphanum_fraction": 0.7360354065895081, "avg_line_length": 23.88135528564453, "blob_id": "a24822749c77341d3368293b20b87a4587771de8", "content_id": "4283aca2279370b64c64a47eb5662b106a15608d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 2936, "license_type": "permissive", "max_line_length": 79, "num_lines": 118, "path": "/src/eu/tnova/nfs/ws/entity/VNFBrokerageResponse.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws.entity;\n\nimport java.util.List;\n\nimport javax.xml.bind.annotation.XmlElement;\nimport javax.xml.bind.annotation.XmlRootElement;\n\nimport com.google.gson.annotations.SerializedName;\n\nimport eu.tnova.nfs.entity.Billing;\nimport eu.tnova.nfs.entity.DeploymentFlavour;\nimport eu.tnova.nfs.entity.VNFDescriptor;\n\n@XmlRootElement(name = \"vnf\")\npublic class VNFBrokerageResponse {\n// Required fields:\t\n//\t\tProvider name\n//\t\tDescription \n//\t\tBilling model\n//\t\tKey-flavor/Assurance parameters\n//\t\tConstituent VDU\n//\t @SerializedName(\"vnf_id\") @XmlElement(name=\"vnf_id\")\n//\t private String vnfId;\n\t @SerializedName(\"vnfd_id\") @XmlElement(name=\"vnfd_id\")\n\t private Integer vnfdId;\n\t @SerializedName(\"available\") @XmlElement(name=\"available\")\n\t private boolean vnfAvailable;\n\t @SerializedName(\"provider_id\") @XmlElement(name=\"provider_id\")\n\t private String provider_id;\n\t @SerializedName(\"provider\") @XmlElement(name=\"provider\")\n\t private String provider;\n\t @SerializedName(\"description\") @XmlElement(name=\"description\")\n\t private String description;\n\t @SerializedName(\"Billing\") @XmlElement(name=\"Billing\")\n\t private Billing billing;\n\t @SerializedName(\"deployment_flavour\") @XmlElement(name=\"deployment_flavour\")\n\t private List<DeploymentFlavour> deploymentFlavour;\n\t\n\tpublic VNFBrokerageResponse() {\n\t}\n\n\tpublic VNFBrokerageResponse(VNFDescriptor vnfd) {\n//\t\tthis.vnfId = vnfd.getVnfId();\n\t\tthis.vnfAvailable = vnfd.isVnfCreated();\n\t\tthis.vnfdId = vnfd.getId();\n\t\tthis.provider_id = vnfd.getVnfd().getProvider_id();\n\t\tthis.provider = vnfd.getVnfd().getProvider();\n\t\tthis.description = vnfd.getVnfd().getDescription();\n\t\tthis.billing = vnfd.getVnfd().getBilling();\n\t\tthis.deploymentFlavour = vnfd.getVnfd().getDeploymentFlavour();\n\t}\n\n//\tpublic String getVnfId() {\n//\t\treturn vnfId;\n//\t}\n//\n//\tpublic void setVnfId(String vnfId) {\n//\t\tthis.vnfId = vnfId;\n//\t}\n\n\tpublic Integer getVnfdId() {\n\t\treturn vnfdId;\n\t}\n\n\tpublic void setVnfdId(Integer vnfdId) {\n\t\tthis.vnfdId = vnfdId;\n\t}\n\n\tpublic String getProvider_id() {\n\t\treturn provider_id;\n\t}\n\n\tpublic void setProvider_id(String provider_id) {\n\t\tthis.provider_id = provider_id;\n\t}\n\n\tpublic String getProvider() {\n\t\treturn provider;\n\t}\n\n\tpublic void setProvider(String provider) {\n\t\tthis.provider = provider;\n\t}\n\n\tpublic String getDescription() {\n\t\treturn description;\n\t}\n\n\tpublic void setDescription(String description) {\n\t\tthis.description = description;\n\t}\n\n\tpublic Billing getBilling() {\n\t\treturn billing;\n\t}\n\n\tpublic void setBilling(Billing billing) {\n\t\tthis.billing = billing;\n\t}\n\n\tpublic List<DeploymentFlavour> getDeploymentFlavour() {\n\t\treturn deploymentFlavour;\n\t}\n\n\tpublic void setDeploymentFlavour(List<DeploymentFlavour> deploymentFlavour) {\n\t\tthis.deploymentFlavour = deploymentFlavour;\n\t}\n\n\tpublic boolean isVnfAvailable() {\n\t\treturn vnfAvailable;\n\t}\n\n\tpublic void setVnfAvailable(boolean vnfAvailable) {\n\t\tthis.vnfAvailable = vnfAvailable;\n\t}\n\n\n}\n" }, { "alpha_fraction": 0.667682945728302, "alphanum_fraction": 0.6772269606590271, "avg_line_length": 34.75355529785156, "blob_id": "80bc8216fca97d456528e53be13b6bbda086601a", "content_id": "1b30e0ab5e49e78f6c4cfb1f10e98df6ccd723ac", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 7544, "license_type": "permissive", "max_line_length": 113, "num_lines": 211, "path": "/src/eu/tnova/nfs/utils/VNFFileWSClient.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.utils;\n\nimport java.io.File;\nimport java.io.FileInputStream;\nimport java.io.FileNotFoundException;\nimport java.io.InputStream;\nimport java.io.OutputStream;\nimport java.io.OutputStreamWriter;\nimport java.io.PrintWriter;\nimport java.net.HttpURLConnection;\nimport java.net.MalformedURLException;\nimport java.net.URL;\nimport java.net.URLConnection;\n\nimport javax.net.ssl.;\nimport javax.ws.rs.core.MediaType;\nimport javax.ws.rs.core.Response;\n\nimport org.apache.cxf.configuration.jsse.TLSClientParameters;\nimport org.apache.cxf.jaxrs.client.WebClient;\nimport org.apache.cxf.jaxrs.ext.multipart.Attachment;\nimport org.apache.cxf.jaxrs.ext.multipart.ContentDisposition;\nimport org.apache.cxf.jaxrs.ext.multipart.MultipartBody;\nimport org.apache.cxf.transport.http.HTTPConduit;\n\npublic class VNFFileWSClient {\n//\tprivate final static int receiveTimeout = 5601000;\n\tprivate final static int receiveTimeout = 0;\n\tprivate final static int connectTimeout = 10000;\n\tprivate final static String lineEnd = \"\\r\\n\";\n\tprivate final static String twoHyphens = \"--\";\n\tprivate final static String boundary = \"232404jkg4220957934FW\";\n\t\n\tprivate static TrustManager[] trustAllCerts = new TrustManager[]{new X509TrustManager() {\n\t\tpublic void checkClientTrusted(\n\t\t\t\tjava.security.cert.X509Certificate[] certs, String authType) {\n\t\t}\n\t\tpublic void checkServerTrusted(\n\t\t\t\tjava.security.cert.X509Certificate[] certs, String authType) {\n\t\t}\n\t\tpublic java.security.cert.X509Certificate[] getAcceptedIssuers() {\n\t\t\treturn null;\n\t\t}\n\t}};\n\tprivate static HostnameVerifier allHostsValid = new HostnameVerifier() {\n public boolean verify(String hostname, SSLSession session) {\n return true;\n }\n };\n\t\n\tpublic static void main(String[] args) throws Exception {\n\t\tif ( args.length<5 ) {\n\t\t\tSystem.out.println(\"Input error : less that 3 parameters\");\n\t\t\tSystem.out.println(\"Arguments : \");\n\t\t\tSystem.out.println(\" command (upload\|update\|delete)\");\n\t\t\tSystem.out.println(\" URL\");\n\t\t\tSystem.out.println(\" Path file\");\n\t\t\tSystem.out.println(\" MD5 checksum\");\n\t\t\tSystem.out.println(\" Provider Id\");\n\t\t\tSystem.exit(-1);\n\t\t}\n\t\tString url = args[1];\n\t\tString filePath = args[2];\n\t\tString md5sum = args[3];\n\t\tString providerId = args[4];\n\t\tFile file = new File(filePath);\n\t\tContentDisposition cd = new ContentDisposition(\"form-data; name=\\\"file\\\"; filename=\\\"\"+file.getName()+\"\\\"\");\n\t\tInputStream stream;\n\t\tResponse response = null;\n\t\tInteger status = null;\n\t\ttry {\n\t\t\tstream = new FileInputStream(file);\n\t\t\tAttachment att = new Attachment(file.getName(), stream, cd);\n\t\t\tMultipartBody body = new MultipartBody(att);\n\t\t\tSystem.out.println(\"Body ready\");\n\t\t\t//\t\tString responseString = null;\n\t\t\tswitch (args[0]) {\n\t\t\tcase \"upload\":\n\t\t\t\tresponse = getClient(\n\t\t\t\t\t\turl, MediaType.MULTIPART_FORM_DATA_TYPE)\n\t\t\t\t\t\t.post(body); \n\t\t\t\tif ( response!=null )\n\t\t\t\t\tstatus = response.getStatus();\n\t\t\t\tbreak;\n\t\t\tcase \"upload2\":\n\t\t\t\ttry {\n\t\t\t\t\tstatus = sendFile(url, file, \"POST\", md5sum, providerId);\n\t\t\t\t} catch (Exception e) {\n\t\t\t\t}\n\t\t\t\tbreak;\n\t\t\tcase \"update\":\n\t\t\t\tresponse = getClient(\n\t\t\t\t\t\turl+\"/\"+file.getName(), MediaType.MULTIPART_FORM_DATA_TYPE)\n\t\t\t\t\t\t.put(body);\n\t\t\t\tif ( response!=null )\n\t\t\t\t\tstatus = response.getStatus();\n\t\t\t\tbreak;\n\t\t\tcase \"update2\":\n\t\t\t\ttry {\n\t\t\t\t\tstatus = sendFile(url+\"/\"+file.getName(), file, \"PUT\", md5sum, providerId);\n\t\t\t\t} catch (Exception e) {\n\t\t\t\t}\n\t\t\t\tbreak;\n\t\t\tcase \"delete\":\n\t\t\t\tresponse = getClient(\n\t\t\t\t\t\turl+\"/\"+file.getName(),MediaType.MULTIPART_FORM_DATA_TYPE)\n\t\t\t\t\t\t.delete();\n\t\t\t\tif ( response!=null )\n\t\t\t\t\tstatus = response.getStatus();\n\t\t\t\tbreak;\n\t\t\tcase \"get\":\n\t\t\t\tresponse = getClient(\n\t\t\t\t\t\turl+\"/\"+file.getName(),MediaType.MULTIPART_FORM_DATA_TYPE)\n\t\t\t\t\t\t.get();\n\t\t\t\tif ( response!=null )\n\t\t\t\t\tstatus = response.getStatus();\n\t\t\t\tbreak;\n\t\t\t}\n\t\t} catch (FileNotFoundException e) {\n\t\t\te.printStackTrace();\n\t\t\tSystem.exit(-2);\n\t\t} catch (MalformedURLException e) {\n\t\t\te.printStackTrace();\n\t\t\tSystem.exit(-3);\n\t\t}\n\t\tif ( status==null )\n\t\t\tSystem.exit(-4);\n\t\tSystem.out.println(status);\n\t\tSystem.exit(status);\n\t}\n\n\tprivate static WebClient getClient (String url, MediaType type) \n\t\t\tthrows MalformedURLException {\n\t\tWebClient webClient = WebClient.create(url).type(type).accept(MediaType.APPLICATION_JSON);\n\t\tHTTPConduit conduit = WebClient.getConfig(webClient).getHttpConduit();\n\t\t// timeout (in mSec)\n\t\tconduit.getClient().setReceiveTimeout(receiveTimeout);\n\t\tconduit.getClient().setConnectionTimeout(connectTimeout);\n\t\tTLSClientParameters tlsParams = conduit.getTlsClientParameters();\n\t\tif (tlsParams == null) {\n\t\t\ttlsParams = new TLSClientParameters();\n\t\t\tconduit.setTlsClientParameters(tlsParams);\n\t\t}\n\t\ttlsParams.setTrustManagers(trustAllCerts);\n\t\t//disable CN check\n\t\ttlsParams.setDisableCNCheck(true);\n\t\tconduit.setTlsClientParameters(tlsParams);\n\t\t\n\t\tSystem.out.println(\"Client ready : url=\"+url);\n\t\treturn webClient;\n\t}\n\t\n private static int sendFile (String serverURL, File file, String method,\n \t\tString md5sum, String providerId) throws Exception {\n\t\tSystem.out.println(\"upload \"+file.getName()+\" to \"+serverURL);\n // Install the all-trusting trust manager\n SSLContext sc = SSLContext.getInstance(\"SSL\");\n sc.init(null, trustAllCerts, new java.security.SecureRandom());\n HttpsURLConnection.setDefaultSSLSocketFactory(sc.getSocketFactory());\n // Install the all-trusting host verifier\n HttpsURLConnection.setDefaultHostnameVerifier(allHostsValid);\n // creates a HTTP connection\n HttpURLConnection conn = (HttpURLConnection) new URL(serverURL).openConnection();\n conn.setUseCaches(false);\n conn.setDoInput(true);\n conn.setDoOutput(true);\n conn.setRequestMethod(method);\n conn.setRequestProperty(\"Connection\", \"Keep-Alive\");\n conn.setRequestProperty(\"Content-Type\", \"multipart/form-data; boundary=\" + boundary);\n // write body\n OutputStream output = conn.getOutputStream();\n PrintWriter writer = new PrintWriter(new OutputStreamWriter(output, \"UTF-8\"), true);\n // Send binary file.\n writer.append(twoHyphens + boundary).append(lineEnd);\n writer.append(\"Content-Disposition: form-data; name=\\\"file\\\";\"\n \t\t+ \" filename=\\\"\" + file.getName() + \"\\\"\").append(lineEnd);\n writer.append(\"Content-Type: \" + URLConnection.guessContentTypeFromName(file.getName())).append(lineEnd);\n writer.append(\"Content-Transfer-Encoding: binary\").append(lineEnd);\n writer.append(\"MD5SUM: \"+md5sum).append(lineEnd);\n writer.append(\"Provider-ID: \"+providerId).append(lineEnd);\n writer.append(lineEnd).flush();\n \n\t\t//////////////\n\t\tFileInputStream is = new FileInputStream(file); \n\t\tbyte[] buffer = new byte[1024100];\n\t\tint bytes = 0;\n\t\ttry {\n\t\t\twhile ((bytes = is.read(buffer)) != -1) {\n\t\t\t\toutput.write(buffer, 0, bytes);\n\t\t\t\toutput.flush();\n\t\t\t}\n\t\t} finally {\n\t\t\tis.close();\n\t\t} \n\t\t//////////////\n// Files.copy(file.toPath(), output);\n// output.flush(); \t\t\t\t\t\t// Important before continuing with writer!\n\t\t//////////////\n \n writer.append(lineEnd).flush(); \t\t// CRLF is important! It indicates end of boundary.\n // End of multipart/form-data.\n writer.append(twoHyphens + boundary + twoHyphens).append(lineEnd).flush();\n // read response\n int code = conn.getResponseCode();\n String message = conn.getResponseMessage();\n System.out.println(\"Response = \"+code+\" : \"+message);\n conn.disconnect();\n return code;\n }\n\n}\n" }, { "alpha_fraction": 0.6571428775787354, "alphanum_fraction": 0.6571428775787354, "avg_line_length": 10.666666984558105, "blob_id": "24111e745bbdb0c43612279675c3cffd398a94c2", "content_id": "23fd9fdbf06985a5bc70e017e10ecc26a7086fbb", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 35, "license_type": "permissive", "max_line_length": 20, "num_lines": 3, "path": "/conf/build/preUninstall.sh", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "#! /bin/bash\n\necho \"pre Uninstall\"\n" }, { "alpha_fraction": 0.7663772702217102, "alphanum_fraction": 0.7663772702217102, "avg_line_length": 28.465116500854492, "blob_id": "654833a648d8ead6fa57effab5541293cbe51e8d", "content_id": "27f6c689a1595b96432f137bd029ea0a66fd8c15", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 1267, "license_type": "permissive", "max_line_length": 80, "num_lines": 43, "path": "/src/eu/tnova/nfs/ws/entity/VNFFileListResponse.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws.entity;\n\nimport java.util.ArrayList;\nimport java.util.List;\n\nimport javax.xml.bind.annotation.XmlAccessType;\nimport javax.xml.bind.annotation.XmlAccessorType;\nimport javax.xml.bind.annotation.XmlElement;\nimport javax.xml.bind.annotation.XmlRootElement;\n\nimport com.google.gson.annotations.SerializedName;\n\nimport eu.tnova.nfs.entity.VNFFile;\nimport eu.tnova.nfs.entity.VNFFileStatusEnum;\n\n@XmlAccessorType(XmlAccessType.FIELD)\n@XmlRootElement(name = \"files\")\npublic class VNFFileListResponse {\n\t@SerializedName(\"files\") @XmlElement(name = \"files\")\n\tprivate List<VNFFileResponse> responseFiles = new ArrayList<VNFFileResponse>();\n\n\tpublic VNFFileListResponse() {\n\t}\n\n\tpublic VNFFileListResponse (List<VNFFile> vnfFiles, String storePath) {\n\t\tif ( vnfFiles!=null ) {\n\t\t\tfor (VNFFile vnfFile: vnfFiles ) {\n\t\t\t\tif ( !vnfFile.getStatus().equals(VNFFileStatusEnum.NOT_AVAILABLE) && \n\t\t\t\t\t !vnfFile.getStatus().equals(VNFFileStatusEnum.UPLOAD) &&\n\t\t\t\t\t\tvnfFile.getFile(storePath).exists() )\n\t\t\t\t\tresponseFiles.add(new VNFFileResponse(vnfFile));\n\t\t\t}\n\t\t}\n\t}\n\t\n\tpublic List<VNFFileResponse> getResponseFiles() {\n\t\treturn responseFiles;\n\t}\n\tpublic void setResponseFiles(List<VNFFileResponse> responseFiles) {\n\t\tthis.responseFiles = responseFiles;\n\t}\n\n}\n" }, { "alpha_fraction": 0.7686189413070679, "alphanum_fraction": 0.7693420052528381, "avg_line_length": 21.672130584716797, "blob_id": "3b7fb6625faeded1a66996fa4302d1362f021a74", "content_id": "4faede23af16d9085ba7da761be5621d59e08b94", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 1383, "license_type": "permissive", "max_line_length": 57, "num_lines": 61, "path": "/src/eu/tnova/nfs/entity/Penalty.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.entity;\n\nimport java.io.Serializable;\n\nimport javax.persistence.Embeddable;\nimport javax.xml.bind.annotation.XmlElement;\nimport javax.xml.bind.annotation.XmlRootElement;\n\nimport com.google.gson.annotations.SerializedName;\n\n@Embeddable\n@XmlRootElement(name = \"penalty\")\npublic class Penalty implements Serializable {\n\tprivate static final long serialVersionUID = 1L;\n\n\t@SerializedName(\"type\") @XmlElement(name=\"type\")\n\tprivate String penaltyType;\n\t@SerializedName(\"value\") @XmlElement(name=\"value\") \n\tprivate Integer penaltyValue;\n\t@SerializedName(\"unit\") @XmlElement(name=\"unit\")\n\tprivate String penaltyUnit;\n\t@SerializedName(\"validity\") @XmlElement(name=\"validity\")\n\tprivate String penaltyValidity;\n\n\tpublic Penalty() {\n\t\tsuper();\n\t}\n\n\tpublic String getPenaltyType() {\n\t\treturn penaltyType;\n\t}\n\n\tpublic void setPenaltyType(String penaltyType) {\n\t\tthis.penaltyType = penaltyType;\n\t}\n\n\tpublic Integer getPenaltyValue() {\n\t\treturn penaltyValue;\n\t}\n\n\tpublic void setPenaltyValue(Integer penaltyValue) {\n\t\tthis.penaltyValue = penaltyValue;\n\t}\n\n\tpublic String getPenaltyUnit() {\n\t\treturn penaltyUnit;\n\t}\n\n\tpublic void setPenaltyUnit(String penaltyUnit) {\n\t\tthis.penaltyUnit = penaltyUnit;\n\t}\n\n\tpublic String getPenaltyValidity() {\n\t\treturn penaltyValidity;\n\t}\n\n\tpublic void setPenaltyValidity(String penaltyValidity) {\n\t\tthis.penaltyValidity = penaltyValidity;\n\t}\n\n}\n" }, { "alpha_fraction": 0.7775330543518066, "alphanum_fraction": 0.7786343693733215, "avg_line_length": 23.567567825317383, "blob_id": "4c353cee54629ef43b303b586fc8e3f02a704443", "content_id": "b2f938dd9e6d0b133d4d4f6682a16b348b6ba066", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 908, "license_type": "permissive", "max_line_length": 69, "num_lines": 37, "path": "/src/eu/tnova/nfs/entity/Violation.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.entity;\n\nimport java.io.Serializable;\n\nimport javax.persistence.Embeddable;\nimport javax.xml.bind.annotation.XmlElement;\nimport javax.xml.bind.annotation.XmlRootElement;\n\nimport com.google.gson.annotations.SerializedName;\n\n@Embeddable\n@XmlRootElement(name = \"violation\")\npublic class Violation implements Serializable {\n\tprivate static final long serialVersionUID = 1L;\n\n\t@SerializedName(\"breaches_count\") @XmlElement(name=\"breaches_count\")\n\tprivate Integer breachesCount;\n\t@SerializedName(\"interval\") @XmlElement(name=\"interval\")\n\tprivate Integer interval;\n\n\tpublic Violation() {\n\t\tsuper();\n\t}\n\n\tpublic Integer getBreachesCount() {\n\t\treturn breachesCount;\n\t}\n\tpublic void setBreachesCount(Integer breachesCount) {\n\t\tthis.breachesCount = breachesCount;\n\t}\n\tpublic Integer getInterval() {\n\t\treturn interval;\n\t}\n\tpublic void setInterval(Integer interval) {\n\t\tthis.interval = interval;\n\t}\n}" }, { "alpha_fraction": 0.718150794506073, "alphanum_fraction": 0.718150794506073, "avg_line_length": 22.35582733154297, "blob_id": "2f858374a8bedda903eb461712c73b44f3fca54c", "content_id": "293ca2954da7aec1607ae5313af42499a1480087", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 3807, "license_type": "permissive", "max_line_length": 67, "num_lines": 163, "path": "/src/eu/tnova/nfs/view/Vnfd.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.view;\n\nimport eu.tnova.nfs.entity.VNFDescriptor;\nimport eu.tnova.nfs.entity.VNFFile;\n\nimport java.io.Serializable;\nimport java.util.ArrayList;\nimport java.util.Date;\nimport java.util.List;\n\n@SuppressWarnings(\"serial\")\npublic class Vnfd implements Serializable {\n\tprivate String vnfdId;\n\tprivate boolean vnfCreated;\n//\tprivate String vnfId;\n\tprivate String providerId;\n\tprivate String provider;\n\tprivate String description;\n\tprivate String type;\n\tprivate Date creationDate;\n\tprivate Date modificationDate;\n\tprivate String descriptorVersion;\n\tprivate String version;\n\tprivate String vnfd;\n\tprivate List<String> files = new ArrayList<String>();\n\tprivate List<ImageFile> images = new ArrayList<ImageFile>();\n\n\tpublic Vnfd(VNFDescriptor vnfDescriptor, String storePath) {\n\t\tvnfdId = vnfDescriptor.getId().toString();\n\t\tvnfCreated = vnfDescriptor.isVnfCreated();\n//\t\tvnfId = vnfDescriptor.getVnfId();\n//\t\tif (vnfId == null)\n//\t\t\tvnfId = \"\";\n\t\tproviderId = vnfDescriptor.getVnfd().getProvider_id();\n\t\tif (providerId == null)\n\t\t\tproviderId = \"\";\n\t\tprovider = vnfDescriptor.getVnfd().getProvider();\n\t\tif (provider == null)\n\t\t\tprovider = \"\";\n\t\tdescription = vnfDescriptor.getVnfd().getDescription();\n\t\tif (description == null)\n\t\t\tdescription = \"\";\n\t\ttype = vnfDescriptor.getVnfd().getType();\n\t\tif (type == null)\n\t\t\ttype = \"\";\n\t\tcreationDate = vnfDescriptor.getVnfd().getCreationDate();\n\t\tif (creationDate == null)\n\t\t\tcreationDate = new Date();\n\t\tmodificationDate = vnfDescriptor.getVnfd().getModificationDate();\n\t\tif (modificationDate == null)\n\t\t\tmodificationDate = new Date();\n\t\tversion = vnfDescriptor.getVnfd().getVersion();\n\t\tif (version == null)\n\t\t\tversion = \"\";\n\t\tvnfd = vnfDescriptor.getJson();\n\t\tif (vnfd == null)\n\t\t\tvnfd = \"\";\n\t\tfiles = vnfDescriptor.getvmImagesFileNames();\n\t\tfor ( VNFFile vnfFile : vnfDescriptor.getFiles() ) {\n\t\t\timages.add( new ImageFile(vnfFile, storePath));\n\t\t}\n\t}\n\n\tpublic String getVnfdId() {\n\t\treturn vnfdId;\n\t}\n\tpublic void setVnfdId(String vnfdId) {\n\t\tthis.vnfdId = vnfdId;\n\t}\n\n//\tpublic String getVnfId() {\n//\t\treturn vnfId;\n//\t}\n//\tpublic void setVnfId(String vnfId) {\n//\t\tthis.vnfId = vnfId;\n//\t}\n\n\tpublic boolean isVnfCreated() {\n\t\treturn vnfCreated;\n\t}\n\n\tpublic void setVnfCreated(boolean vnfCreated) {\n\t\tthis.vnfCreated = vnfCreated;\n\t}\n\n\tpublic String getProviderId() {\n\t\treturn providerId;\n\t}\n\tpublic void setProviderId(String providerId) {\n\t\tthis.providerId = providerId;\n\t}\n\n\tpublic String getProvider()\t{\n\t\treturn provider;\n\t}\n\tpublic void setProvider(String provider) {\n\t\tthis.provider = provider;\n\t}\n\n\tpublic String getDescription() {\n\t\treturn description;\n\t}\n\tpublic void setDescription(String description) {\n\t\tthis.description = description;\n\t}\n\n\tpublic String getType()\t{\n\t\treturn type;\n\t}\n\tpublic void setType(String type) {\n\t\tthis.type = type;\n\t}\n\n\tpublic Date getCreationDate() {\n\t\treturn creationDate;\n\t}\n\tpublic void setCreationDate(Date creationDate) {\n\t\tthis.creationDate = creationDate;\n\t}\n\n\tpublic Date getModificationDate() {\n\t\treturn modificationDate;\n\t}\n\tpublic void setModificationDate(Date modificationDate) {\n\t\tthis.modificationDate = modificationDate;\n\t}\n\n\tpublic String getDescriptorVersion() {\n\t\treturn descriptorVersion;\n\t}\n\tpublic void setDescriptorVersion(String descriptorVersion) {\n\t\tthis.descriptorVersion = descriptorVersion;\n\t}\n\n\tpublic String getVersion() {\n\t\treturn version;\n\t}\n\tpublic void setVersion(String version) {\n\t\tthis.version = version;\n\t}\n\n\tpublic String getVnfd()\t{\n\t\treturn vnfd;\n\t}\n\tpublic void setVnfd(String vnfd) {\n\t\tthis.vnfd = vnfd;\n\t}\n\n\tpublic List<ImageFile> getImages() {\n\t\treturn images;\n\t}\n\n\tpublic void setImages(List<ImageFile> images) {\n\t\tthis.images = images;\n\t}\n\n\tpublic List<String> getFiles() {\n\t\treturn files;\n\t}\n\tpublic void setFiles(List<String> files) {\n\t\tthis.files = files;\n\t}\n}\n" }, { "alpha_fraction": 0.7516891956329346, "alphanum_fraction": 0.7533783912658691, "avg_line_length": 19.379310607910156, "blob_id": "340dc538c213742e4d5b46c363858c8fd680d23f", "content_id": "90d4b677ddc377232b4ce93d11fd638f062acf23", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 592, "license_type": "permissive", "max_line_length": 51, "num_lines": 29, "path": "/src/eu/tnova/nfs/entity/VNFComponent.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.entity;\n\nimport java.io.Serializable;\n\nimport javax.persistence.Embeddable;\nimport javax.xml.bind.annotation.XmlElement;\nimport javax.xml.bind.annotation.XmlRootElement;\n\nimport com.google.gson.annotations.SerializedName;\n\n@Embeddable\n@XmlRootElement(name = \"Vnfc\")\npublic class VNFComponent implements Serializable {\n\tprivate static final long serialVersionUID = 1L;\n\n\t@SerializedName(\"id\") @XmlElement(name=\"id\")\n\tprivate String id;\n\n\tpublic VNFComponent() {\n\t\tsuper();\n\t}\n\n\tpublic String getId() {\n\t\treturn id;\n\t}\n\tpublic void setId(String id) {\n\t\tthis.id = id;\n\t}\n}\n\n" }, { "alpha_fraction": 0.743934690952301, "alphanum_fraction": 0.743934690952301, "avg_line_length": 38.64761734008789, "blob_id": "929a9878418650a36977d69ea182ed917ed97568", "content_id": "1ed9448b51bc9bbe7702e0846023cf33c939101d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 4163, "license_type": "permissive", "max_line_length": 111, "num_lines": 105, "path": "/src/eu/tnova/nfs/ws/VNFFileWSInterface.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws;\n\nimport javax.ejb.Local;\nimport javax.validation.constraints.NotNull;\nimport javax.ws.rs.Consumes;\nimport javax.ws.rs.DELETE;\nimport javax.ws.rs.GET;\nimport javax.ws.rs.HEAD;\nimport javax.ws.rs.POST;\nimport javax.ws.rs.PUT;\nimport javax.ws.rs.Path;\nimport javax.ws.rs.PathParam;\nimport javax.ws.rs.Produces;\nimport javax.ws.rs.QueryParam;\nimport javax.ws.rs.core.Context;\nimport javax.ws.rs.core.MediaType;\nimport javax.ws.rs.core.Response;\nimport javax.ws.rs.core.UriInfo;\n\nimport org.apache.cxf.jaxrs.ext.multipart.Attachment;\nimport org.apache.cxf.jaxrs.ext.multipart.Multipart;\nimport org.apache.cxf.jaxrs.model.wadl.Description;\nimport org.apache.cxf.jaxrs.model.wadl.Descriptions;\nimport org.apache.cxf.jaxrs.model.wadl.DocTarget;\n\n@Path(\"/files\")\n@Local\n@Description(value = \"Network Function Store - Virtual Network Functions Files\", \n\ttarget = DocTarget.RESOURCE)\npublic interface VNFFileWSInterface {\n\n\t@HEAD\n\t@Path(\"/{fileName}\")\n\t@Consumes(MediaType.MEDIA_TYPE_WILDCARD)\n\t@Produces(MediaType.TEXT_PLAIN)\n\t@Descriptions({\n\t\t @Description(value = \"Head Virtual Network Function Image file\", target = DocTarget.METHOD),\n\t\t @Description(value = \"Name of Virtual Network Function image file\", target = DocTarget.PARAM),\n\t\t})\n\tpublic Response head_VNFFile(\n\t\t@Description(\"name of file\") @PathParam(\"fileName\") @NotNull String fileName );\n\n\t@POST \n\t@Consumes(MediaType.MULTIPART_FORM_DATA)\n\t@Produces (MediaType.APPLICATION_JSON)\n\t@Descriptions({\n\t\t @Description(value = \"Upload Virtual Network Function Image file\", target = DocTarget.METHOD),\n\t\t @Description(value = \"Image name and list of vnfds that use this image\", target = DocTarget.RETURN),\n\t\t})\n\tpublic Response upload_VNFFile( \n\t\t@Context UriInfo uriInfo,\t\n\t\t@Multipart(value=\"file\", type=MediaType.APPLICATION_OCTET_STREAM, required=true) \n\t\t@Description(\"file to upload\") Attachment attachment);\n\n\t@PUT\n\t@Path(\"/{fileName}\")\n\t@Consumes(MediaType.MULTIPART_FORM_DATA)\n\t@Produces (MediaType.APPLICATION_JSON)\n\t@Descriptions({\n\t\t @Description(value = \"Update Virtual Network Function Image file\", target = DocTarget.METHOD),\n\t\t @Description(value = \"Name of Virtual Network Function image file\", target = DocTarget.PARAM),\n\t\t @Description(value = \"Image name and list of vnfds that use this image\", target = DocTarget.RETURN),\n\t})\n\tpublic Response update_VNFFile( \n\t\t@Description(\"name of file to update\") @PathParam(\"fileName\") @NotNull String fileName,\n\t\t@Multipart(value=\"file\", type=MediaType.APPLICATION_OCTET_STREAM, required=true) \n\t\t@Description(\"file to update\") Attachment attachment);\n\n\t@GET \n\t@Path(\"/{fileName}\")\n\t@Produces(MediaType.MULTIPART_FORM_DATA)\n\t@Descriptions({\n\t\t @Description(value = \"Get Virtual Network Function Image file\", target = DocTarget.METHOD),\n\t\t @Description(value = \"Name of Virtual Network Function image file\", target = DocTarget.PARAM),\n\t\t @Description(value = \"Virtual Network Function Image file\", target = DocTarget.RETURN),\n\t\t})\n\tpublic Response download_VNFFile(\n\t\t@Description(\"name of file to download\") @PathParam(\"fileName\") @NotNull String fileName,\n\t\t@Description(\"name of file to download\") @QueryParam(\"contentType\") String contentType);\n\n\t@GET \n\t@Produces (MediaType.APPLICATION_JSON)\n\t@Descriptions({\n\t\t @Description(value = \"Get a list of all Virtual Network Function Image files\", target = DocTarget.METHOD),\n\t\t @Description(value = \"lis of image name and of vnfds that use every image\", target = DocTarget.RETURN),\n\t\t})\n\tpublic Response get_VNFFile_list(\n\t\t\t@Description(\"name of profider\") @QueryParam(\"provider\") Integer providerId);\n\n\t@DELETE\n\t@Path(\"/{fileName}\")\n\t@Descriptions({\n\t\t @Description(value = \"Delete Virtual Network Function Image file\", target = DocTarget.METHOD),\n\t\t @Description(value = \"Name of Virtual Network Function image file\", target = DocTarget.PARAM),\n\t\t})\n\tpublic Response delete_VNFFile(\n\t\t@Description(\"name of file to delete\") @PathParam(\"fileName\") @NotNull String fileName);\n\n\t@DELETE\n\t@Descriptions({\n\t\t @Description(value = \"Delete All Virtual Network Function Image files\", target = DocTarget.METHOD),\n\t\t})\n\tpublic Response delete_VNFFiles();\n\n}\n" }, { "alpha_fraction": 0.6383829116821289, "alphanum_fraction": 0.6588183045387268, "avg_line_length": 28.61403465270996, "blob_id": "98945e84e5c2111eb7515feb22475c42599a8e89", "content_id": "f786bafa351415ac694318fd864f40d1a6c3a7ea", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 6753, "license_type": "permissive", "max_line_length": 221, "num_lines": 228, "path": "/files_interface.md", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "# Files Interface\nThis interface give the possibility to manage the VNF images files of NFStore.\n\n## Upload file\nThis method allows to upload a file to NF Store.\n\nThe file should be inserted into HTML body as parts of a multipart/form-data* Content.<br/>\nThe Content-Type field of the part should be configured to application/octet-stream.<br/>\nThe Content-Disposition field of the part should be configured setting name to file and filename with the name of file to upload.<br/>\nThe response header Location field report the URL to be used for the other request about this object.<br/>\nThe response body return the name of the file and the Id list of VNF Descriptors that use the files.<br/>\n\n* URL: ```/NFS/files```\n* Method: POST\n- URL Parameters\n - Required Parameters: \n - Optional Parameters:\n- Header Parameters\n - Required Parameters: \n ```html\nContent-Type: multipart/form-data;\nboundary=<uuid code>\n ```\n - Optional Parameters:\n ```html\nMD5SUM: <md5 checksum>\nProvider-ID: <provider Id>\nImage-Type: <image type>\n ```\n- Data Parameters<br/>\n ```html\n--uuid:<uuid code> \nContent-Type: application/octet-stream\nContent-Transfer-Encoding: binary\nContent-Disposition: form-data; name=\"file\"; filename=<filename>\n```\n ```html\nMD5SUM: <md5 checksum>\nProvider-ID: <provider Id>\nImage-Type: <image type>\n```\n ```html\n\n<file data>\n--uuid:<uuid code>--\n```\n\n- Success Response:\n - Code: `201 Created`\n - Content: \n ```html\n {\n \"name\": <filename>,\n \"vnfd_id\": [<vnfd Id 1>, ..., <vnfd Id N>]\n }\n```\n- Error Response:\n - Code: `400 Bad Request`\n - Code: `404 Not Found `\n - Code: `500 Internal Server Error`\n- Sample Call:\n- Notes:\nMD5SUM, Provider-ID and Image-Type fields can be inserted either into html header or into multipart header.<br/>\n - MD5SUM : mandatory - the value will be compared with the computed value on received file<br/>\n - Image-Type : optional - if not detected the default value unknown will be used.<br/>\n - Provider-ID : optional - if not detected the field will be left empty.<br/>\n\n\n## Download file\nThis method allows to get from NF Store the file specified into request.<br/>\n\nThe file is returned in the HTML body as raw file or as part of a multipart/form-data Content; to have the response with multipart/form-data the request should contain the optional parameter contentType=multipart<br/>\n\n* URL: ```/NFS/files```\n* Method: GET\n- URL Parameters\n - Required Parameters: `/<filename>`\n - Optional Parameters: `&contentType=multipart`\n- Header Parameters\n - Required Parameters: \n - Optional Parameters:\n- Data Parameters<br/>\n- Success Response:\n - Code: `200 OK`\n - Header with file: \n ```html\nContent-Type: application/octet-stream\nContent-Length: <file lenght>\nContent-MD5: <md5 checksum>\n```\n - Content with file: \n ```html\n<file data>\n```\n - Header with multipart: \n ```html\nContent-Type: multipart/form-data;\nboundary=<uuid code>\n ```\n - Content with multipart: \n ```html\n--uuid:<uuid-code> \nContent-Type: application/octet-stream\nContent-Transfer-Encoding: binary\nContent-Disposition: form-data; name=\"file\"; filename=<filename>\nMD5SUM: <md5 checksum>\nProvider-ID: <provider-Id>\nImage-Type: <image-type>\n\n<file data>\n--uuid:<uuid-code>--\n```\n- Error Response:\n - Code: `400 Bad Request`\n - Code: `404 Not Found `\n - Code: `500 Internal Server Error`\n - Code: `503 Service Unavailable`\n- Sample Call:<br/>\n curl -k -X GET http://127.0.0.1:8080/NFS/files/file1.img<br/>\n curl -k -X GET http://127.0.0.1:8080/NFS/files/file1.img&contentType=multipart\n- Notes:\n Response 503 is returned when another operation on same file is already in progress.\n\n\n## Update file\nThis method allows to update a file already uploaded to NF Store.<br/>\n\nThe file should be inserted into HTML body as parts of a multipart/form-data Content.<br/>\nThe Content-Type field of the part should be configured to application/octet-stream.<br/>\nThe Content-Disposition field of the part should be configured setting name to file.<br/>\nThe response return the name of the file and the Id list of VNF Descriptors that use the files.<br/>\n\n* URL: ```/NFS/files```\n* Method: PUT\n- URL Parameters\n - Required Parameters: `/<filename>`\n - Optional Parameters:\n- Header Parameters\n - Required Parameters: \n ```html\nContent-Type: multipart/form-data;\nboundary=<uuid code>\n ```\n - Optional Parameters:\n ```html\nMD5SUM: <md5 checksum>\nProvider-ID: <provider Id>\nImage-Type: <image type>\n ```\n- Data Parameters<br/>\n```html\n--uuid:<uuid code> \nContent-Type: application/octet-stream\nContent-Transfer-Encoding: binary\nContent-Disposition: form-data; name=\"file\"; filename=<filename>\n```\n```html\nMD5SUM: <md5 checksum>\nProvider-ID: <provider Id>\nImage-Type: <image type>\n```\n```html\n\n<file data>\n--uuid:<uuid code>--\n```\n- Success Response:\n - Code: `200 OK`\n - Content: \n ```html\n {\n \"name\": <filename>,\n \"vnfd_id\": [<vnfd Id1>, ..., <vnfd Idn>]\n }\n```\n- Error Response:\n - Code: `400 Bad Request`\n - Code: `404 Not Found `\n - Code: `500 Internal Server Error`\n- Sample Call:\n curl -k -X DELETE http://127.0.0.1:8080/NFS/files\n- Notes:\n Response 503 is returned when another operation on same file is already in progress.\n\n\n## Delete All files\nThis method allows to delete all files available into NF Store.\n\n* URL: ```/NFS/files```\n* Method: DELETE\n- URL Parameters\n - Required Parameters: \n - Optional Parameters:\n- Header Parameters\n - Required Parameters:\n - Optional Parameters:\n- Data Parameters\n- Success Response:\n - Code: `204 No Content`\n- Error Response:\n - Code: `500 Internal Server Error`\n- Sample Call:\n curl -k -X DELETE http://127.0.0.1:8080/NFS/files\n- Notes:\n\n## Delete file\nThis method allows to delete from NF Store the file specified into request.\n\n* URL: ```/NFS/files```\n* Method: DELETE\n- URL Parameters\n - Required Parameters: `/<filename>`\n - Optional Parameters:\n- Header Parameters\n - Required Parameters:\n - Optional Parameters:\n- Data Parameters\n- Success Response:\n - Code: `204 No Content`\n- Error Response:\n - Code: `400 Bad Request`\n - Code: `404 Not Found `\n - Code: `500 Internal Server Error`\n - Code: `503 Service Unavailable`\n- Sample Call:\n curl -k -X DELETE http://127.0.0.1:8080/NFS/files/file1.img\n- Notes:\n Response 503 is returned when another operation on same file is already in progress.\n\n" }, { "alpha_fraction": 0.52846360206604, "alphanum_fraction": 0.5345847606658936, "avg_line_length": 14.236268997192383, "blob_id": "e4f9bf982021801f2bb5e52f093cebbe6bc0d22c", "content_id": "0eb1673ea81d0db38e78c608b6067659fd0b15ab", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "HTML", "length_bytes": 14703, "license_type": "permissive", "max_line_length": 87, "num_lines": 965, "path": "/functionalTest/user.library/wiremock.html", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "<!DOCTYPE HTML PUBLIC \"-//W3C//DTD HTML 4.01 Transitional//EN\">\n<html>\n<head>\n<meta http-equiv=\"Content-Type\" content=\"text/html; charset=utf-8\" />\n<style type=\"text/css\">\nhtml {\n font-family: Arial,Helvetica,sans-serif;\n background-color: white;\n color: black;\n}\ntable {\n border-collapse: collapse;\n empty-cells: show;\n margin: 1em 0em;\n border: 1px solid black;\n}\nth, td {\n border: 1px solid black;\n padding: 0.1em 0.2em;\n height: 1.5em;\n width: 12em;\n}\ntd.colspan4, th.colspan4 {\n width: 48em;\n}\ntd.colspan3, th.colspan3 {\n width: 36em;\n}\ntd.colspan2, th.colspan2 {\n width: 24em;\n}\nth {\n background-color: rgb(192, 192, 192);\n color: black;\n height: 1.7em;\n font-weight: bold;\n text-align: center;\n letter-spacing: 0.1em;\n}\ntd.name {\n background-color: rgb(240, 240, 240);\n letter-spacing: 0.1em;\n}\ntd.name, th.name {\n width: 10em;\n}\n</style>\n<title>Wiremock</title>\n</head>\n<body>\n<h1>Wiremock</h1>\n<table border=\"1\" id=\"setting\">\n<tr>\n<th class=\"name\" colspan=\"5\">Setting</th>\n</tr>\n<tr>\n<td class=\"name\">Library</td>\n<td>String</td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\">Library</td>\n<td>OperatingSystem</td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\">Library</td>\n<td>RequestsLibrary</td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\">Library</td>\n<td>Collections</td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td></td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n</table>\n<table border=\"1\" id=\"variable\">\n<tr>\n<th class=\"name\" colspan=\"5\">Variable</th>\n</tr>\n<tr>\n<td class=\"name\">${WIREMOCK_JAR}</td>\n<td>wiremock-1.56-standalone.jar</td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\">${WIREMOCK_URL}</td>\n<td><a href=\"http://localhost:9000\">http://localhost:9000</a></td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td></td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n</table>\n<table border=\"1\" id=\"keyword\">\n<tr>\n<th class=\"name\" colspan=\"5\">Keyword</th>\n</tr>\n<tr>\n<td class=\"name\"><a name=\"keyword_start wiremock\">start wiremock</a></td>\n<td>Log</td>\n<td>==================== \\ startup wiremock</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Start Process</td>\n<td>\"${SCRIPT_DIR}${/}START_WIREMOCK.bat\"</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>sleep</td>\n<td>5</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>get wiremock stub</td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td></td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"><a name=\"keyword_stop wiremock\">stop wiremock</a></td>\n<td>Log</td>\n<td>==================== shutdown wiremock</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Create Session</td>\n<td>WIREMOCK_SESSION</td>\n<td>${WIREMOCK_URL}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${resp}=</td>\n<td>Post Request</td>\n<td>WIREMOCK_SESSION</td>\n<td>/__admin/shutdown</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Delete All Sessions</td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Should Be Equal As Strings</td>\n<td>${resp.status_code}</td>\n<td>200</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td></td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"><a name=\"keyword_get wiremock stub\">get wiremock stub</a></td>\n<td>Log</td>\n<td>==================== get wiremock stub</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Create Session</td>\n<td>WIREMOCK_SESSION</td>\n<td>${WIREMOCK_URL}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${resp}=</td>\n<td>Get Request</td>\n<td>WIREMOCK_SESSION</td>\n<td>/__admin</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Delete All Sessions</td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Should Be Equal As Strings</td>\n<td>${resp.status_code}</td>\n<td>200</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Log</td>\n<td>${resp.content}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td></td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"><a name=\"keyword_reset wiremock\">reset wiremock</a></td>\n<td>Log</td>\n<td>==================== reset wiremock</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Create Session</td>\n<td>WIREMOCK_SESSION</td>\n<td>${WIREMOCK_URL}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${resp}=</td>\n<td>Post Request</td>\n<td>WIREMOCK_SESSION</td>\n<td>/__admin/reset</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Delete All Sessions</td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Should Be Equal As Strings</td>\n<td>${resp.status_code}</td>\n<td>200</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td></td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"><a name=\"keyword_create wiremock stub\">create wiremock stub</a></td>\n<td>[Arguments]</td>\n<td>${method}</td>\n<td>${url}</td>\n<td>${responseStatus}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>${requestBody}=${EMPTY}</td>\n<td>${responseBodyFile}=${EMPTY}</td>\n<td>${responseHeader}=${EMPTY}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>${responseBody}=${EMPTY}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Log</td>\n<td>==================== create wiremock stub on ${WIREMOCK_URL}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Create Session</td>\n<td>WIREMOCK_SESSION</td>\n<td>${WIREMOCK_URL}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${mockRequest}=</td>\n<td>get wiremock request</td>\n<td>${method}</td>\n<td>${url}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>${requestBody}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${mockResponse}=</td>\n<td>get wiremock response</td>\n<td>${responseStatus}</td>\n<td>${responseBody}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>${responseBodyFile}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${mock}=</td>\n<td>mock To String</td>\n<td>${mockRequest}</td>\n<td>${mockResponse}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${resp}=</td>\n<td>Post Request</td>\n<td>WIREMOCK_SESSION</td>\n<td>__admin/mappings/new</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>data=${mock}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Delete All Sessions</td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Should Be Equal As Strings</td>\n<td>${resp.status_code}</td>\n<td>201</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td></td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"><a name=\"keyword_get wiremock request\">get wiremock request</a></td>\n<td>[Arguments]</td>\n<td>${method}</td>\n<td>${url}</td>\n<td>${body}=${EMPTY}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Log</td>\n<td>==================== create Mock Request ${method} on ${url}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${dict}=</td>\n<td>Create Dictionary</td>\n<td>method</td>\n<td>${method}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>url</td>\n<td>${url}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${json}=</td>\n<td>Convert To String</td>\n<td>${body}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${pattern}=</td>\n<td>Replace String</td>\n<td>${json}</td>\n<td>\"</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>\\\\\"</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${pattern}=</td>\n<td>Set Variable</td>\n<td>^^^^${pattern}^^^^</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${bodyPattern}=</td>\n<td>Create Dictionary</td>\n<td>equalToJson</td>\n<td>${pattern}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>jsonCompareMode</td>\n<td>LENIENT</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>@{list}=</td>\n<td>Create List</td>\n<td>${bodyPattern}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${len}=</td>\n<td>Get Length</td>\n<td>${body}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Run Keyword If</td>\n<td>${len}!=0</td>\n<td>Set To Dictionary</td>\n<td>${dict}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>bodyPatterns</td>\n<td>${list}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${mockRequest}=</td>\n<td>json To String</td>\n<td>${dict}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>[Return]</td>\n<td>${mockRequest}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td></td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"><a name=\"keyword_get wiremock response\">get wiremock response</a></td>\n<td>[Arguments]</td>\n<td>${status}</td>\n<td>${body}=${EMPTY}</td>\n<td>${bodyFile}=${EMPTY}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Log</td>\n<td>==================== create Mock Response ${status}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${dict}=</td>\n<td>Create Dictionary</td>\n<td>status</td>\n<td>${status}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Comment</td>\n<td>------ check for body file</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${len}=</td>\n<td>Get Length</td>\n<td>${bodyFile}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Run Keyword If</td>\n<td>${len}!=0</td>\n<td>Set To Dictionary</td>\n<td>${dict}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>bodyFileName</td>\n<td>${bodyFile}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Comment</td>\n<td>------ check for body</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${json}=</td>\n<td>Convert To String</td>\n<td>${body}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${pattern}=</td>\n<td>Replace String</td>\n<td>${json}</td>\n<td>\"</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>\\\\\"</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${len}=</td>\n<td>Get Length</td>\n<td>${body}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>Run Keyword If</td>\n<td>${len}!=0</td>\n<td>Set To Dictionary</td>\n<td>${dict}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>body</td>\n<td>${pattern}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${mockResponse}=</td>\n<td>json To String</td>\n<td>${dict}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>[Return]</td>\n<td>${mockResponse}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td></td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"><a name=\"keyword_json To String\">json To String</a></td>\n<td>[Arguments]</td>\n<td>${input}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${json}=</td>\n<td>Convert To String</td>\n<td>${input}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${json}</td>\n<td>':</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>\":</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>{u'</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>{\"</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>u'</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>\"</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>'</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>\"</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>\\\\n</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>${EMPTY}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>\\\\t</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>${EMPTY}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>\\n<br>\n</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>${EMPTY}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>\\t</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>${EMPTY}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>\\\\\\\\</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>\\\\</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>\"{</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>{</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>}\"</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>[Return]</td>\n<td>${out}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td></td>\n<td></td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"><a name=\"keyword_mock To String\">mock To String</a></td>\n<td>[Arguments]</td>\n<td>${mockRequest}</td>\n<td>${mockResponse}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${data}=</td>\n<td>Create Dictionary</td>\n<td>request</td>\n<td>${mockRequest}</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>response</td>\n<td>${mockResponse}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${json}=</td>\n<td>Convert To String</td>\n<td>${data}</td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${json}</td>\n<td>':</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>\":</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>{u'</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>{\"</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>u'</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>\"</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>'</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>\"</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>\"{</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>{</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>}\"</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>\\\\\"</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>\\\"</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>${out}=</td>\n<td>Replace String</td>\n<td>${out}</td>\n<td>^^^^</td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>...</td>\n<td>${EMPTY}</td>\n<td></td>\n<td></td>\n</tr>\n<tr>\n<td class=\"name\"></td>\n<td>[Return]</td>\n<td>${out}</td>\n<td></td>\n<td></td>\n</tr>\n</table>\n</body>\n</html>\n" }, { "alpha_fraction": 0.8099173307418823, "alphanum_fraction": 0.8099173307418823, "avg_line_length": 26.923076629638672, "blob_id": "7b19c36d79dda5bf07666cca899fc9332cabab76", "content_id": "b5fc42d2937ce9ba7e0cb3c88a18e9d38056833d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 363, "license_type": "permissive", "max_line_length": 53, "num_lines": 13, "path": "/src/eu/tnova/nfs/producers/UpdateCallableInterface.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.producers;\n\nimport java.lang.annotation.Retention;\nimport java.lang.annotation.Target;\nimport javax.inject.Qualifier;\nimport static java.lang.annotation.RetentionPolicy.;\nimport static java.lang.annotation.ElementType.;\n\n@Qualifier\n@Retention(RUNTIME)\n@Target({METHOD, FIELD, PARAMETER, TYPE})\npublic @interface UpdateCallableInterface {\n}\n" }, { "alpha_fraction": 0.8310992121696472, "alphanum_fraction": 0.8310992121696472, "avg_line_length": 32.90909194946289, "blob_id": "e3584987f4eaaf47082600fb4338709481eadc5b", "content_id": "b7638b69b676c89efcdd23b71f9f40f278307afe", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 373, "license_type": "permissive", "max_line_length": 70, "num_lines": 11, "path": "/src/eu/tnova/nfs/ws/orchestrator/OrchestratorBeanInterface.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.ws.orchestrator;\n\nimport javax.ejb.Local;\nimport eu.tnova.nfs.entity.VNFDescriptor;\n\n@Local\npublic interface OrchestratorBeanInterface {\n\tpublic boolean create(VNFDescriptor vnfDescriptor, String userToker);\n\tpublic boolean update(VNFDescriptor vnfDescriptor, String userToker);\n\tpublic boolean delete(VNFDescriptor vnfDescriptor, String userToker);\n}\n" }, { "alpha_fraction": 0.6363636255264282, "alphanum_fraction": 0.6363636255264282, "avg_line_length": 10, "blob_id": "1cd763df15b65cf72cd2a7bc17141fbd159a0aab", "content_id": "03581e3aff044dcd36b72dcb53d71ede5b421759", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 33, "license_type": "permissive", "max_line_length": 18, "num_lines": 3, "path": "/conf/build/preInstall.sh", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "#! /bin/bash\n\necho \"pre install\"\n" }, { "alpha_fraction": 0.7777777910232544, "alphanum_fraction": 0.7777777910232544, "avg_line_length": 22.399999618530273, "blob_id": "349cc47cb46142e823cde5df4a237f9e80637458", "content_id": "0e2c35ca107975b8180e87c3e6525dfec37a641f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 117, "license_type": "permissive", "max_line_length": 52, "num_lines": 5, "path": "/src/eu/tnova/nfs/entity/VNFFileStatusEnum.java", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "package eu.tnova.nfs.entity;\n\npublic enum VNFFileStatusEnum {\n\tNOT_AVAILABLE, UPLOAD , AVAILABLE, UPDATE, DOWNLOAD\n}\n" }, { "alpha_fraction": 0.5783132314682007, "alphanum_fraction": 0.6351118683815002, "avg_line_length": 35.28125, "blob_id": "f38ea1f7059b53699ca7ca046a6961a32087e75a", "content_id": "bc59367d44ccce8027a8d67064b957962d3170fc", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 1162, "license_type": "permissive", "max_line_length": 79, "num_lines": 32, "path": "/conf/nfs/nfs.conf", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "#! /bin/bash\n##################################################################\n# optional variable configuration to override default values\n# uncomment and set required values before start nfs service\n##################################################################\n\n#------ monitor log level (default value is notice)\n# LOG_LEVEL=notice\n\n#------ store path (default value /usr/local/store)\n# NFS_STORE_PATH=/usr/local/store\n\n#------ tomcat interface (default values https/0.0.0.0/8080/8443)\n# TOMCAT_PROTOCOL=https\n# TOMCAT_IP=0.0.0.0\n# TOMCAT_HTTP_PORT=8080\n# TOMCAT_HTTPS_PORT=8443\n\n#------ orchestrator url (default value https://apis.t-nova.eu/orchestrator)\n# ORCHESTRATOR_URL=http://193.136.92.205:4567/vnfs\n\n#------ NFS url (default value https://apis.t-nova.eu/NFS)\n# url inserted into vnfd for access to image files\n# NFS_URL=https://83.212.108.105:8443/NFS\n\n#------ gatekeeper NFS service key\n# if not defined incoming requests are not authenticated using gatekeeper\n# NFS_SERVICE_KEY=1234567890\n\n#------ gatekeeper url\n# if not defined user authentication using gatekeeper fails\n# GATEKEEPER_URL=http://auth.piyush-harsh.info:8000\n\n" }, { "alpha_fraction": 0.7599999904632568, "alphanum_fraction": 0.7599999904632568, "avg_line_length": 24, "blob_id": "f0e5afd615727780bf0183400cd3bb13e14e7cb7", "content_id": "66f3a4e5c96c4af3f09608aa837bb5d5a0fc1f3f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "INI", "length_bytes": 125, "license_type": "permissive", "max_line_length": 29, "num_lines": 5, "path": "/help.proxy.properties", "repo_name": "T-NOVA/NFS", "src_encoding": "UTF-8", "text": "proxy.enabled=False\nproxy.host=<proxy Ip Address>\nproxy.port=<proxy Ip Port>\nproxy.user=<Proxy user>\nproxy.pass=<Proxy password>\n" } ]	49
kmanley/newcomers	https://github.com/kmanley/newcomers	51f84b09e5a21988ebef6cce52bc32b4e7a59a77	531dd2af95eaff0e23b12ffecf0d8a4ab86e84a5	d6340cf0242eb3f8e499354acec29676f9305591	refs/heads/master	2020-05-31T09:34:38.660568	2012-04-26T21:57:58	2012-04-26T21:57:58	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.8571428656578064, "alphanum_fraction": 0.8571428656578064, "avg_line_length": 76, "blob_id": "9d8234b1067845ae271f44cb75b66b4810d71580", "content_id": "8f203d5c71e92de27b39549aa8f7577af4986771", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 77, "license_type": "no_license", "max_line_length": 76, "num_lines": 1, "path": "/README.md", "repo_name": "kmanley/newcomers", "src_encoding": "UTF-8", "text": "Customizations for the Ridgefield Newcomers website, running on Wild Apricot\n" }, { "alpha_fraction": 0.47573840618133545, "alphanum_fraction": 0.4941983222961426, "avg_line_length": 42.093021392822266, "blob_id": "21845028370e71451f020dec5da795d528fcbc41", "content_id": "c9cc8911c78c79f0ee76d41cd3cc0eb585074b00", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1896, "license_type": "no_license", "max_line_length": 108, "num_lines": 43, "path": "/newcomers_generate_list.py", "repo_name": "kmanley/newcomers", "src_encoding": "UTF-8", "text": "import sys, csv, datetime\r\n\r\n\r\ndef main(filename):\r\n addresses = {} # address -> [firstname1, lastname1, renewal date1, firstname2, lastname2, renewal date2]\r\n unique_names = {} # address -> {}\r\n writer = csv.writer(open(r\"newcomers_mailing_list_%s.csv\" % str(datetime.date.today()), \"wb\"))\r\n writer.writerow((\"Name\", \"Address\", \"City\", \"State\", \"Zip\", \"Renewal Date\"))\r\n reader = csv.DictReader(open(filename, 'rb'))\r\n for row in reader:\r\n row[\"Address\"] = row[\"Address\"].title()\r\n key = row[\"First name\"].strip() + row[\"Last name\"].strip()\r\n if unique_names.setdefault(row[\"Address\"], {}).get(key):\r\n pass\r\n else:\r\n addresses.setdefault(row[\"Address\"], []).extend((row[\"First name\"], \r\n row[\"Last name\"], \r\n row[\"Renewal due\"]))\r\n unique_names[row[\"Address\"]][key] = 1\r\n keys = addresses.keys()\r\n keys.sort()\r\n for key in keys:\r\n #if key.strip():\r\n # continue\r\n if len(addresses[key]) == 3:\r\n fname, lname, rdate = addresses[key]\r\n row = [\"%s %s\" % (fname, lname), key, \"Ridgefield\", \"CT\", '=\"06877\"', rdate]\r\n print row\r\n writer.writerow(row)\r\n elif len(addresses[key]) == 6:\r\n fname1, lname1, rdate, fname2, lname2, unused = addresses[key]\r\n if lname1 == lname2:\r\n name = \"%s & %s %s\" % (fname1, fname2, lname1)\r\n else:\r\n name = \"%s %s & %s %s\" % (fname1, lname1, fname2, lname2)\r\n row = [name, key, \"Ridgefield\", \"CT\", '=\"06877\"', rdate]\r\n print row\r\n writer.writerow(row)\r\n \r\nif len(sys.argv) != 2:\r\n print (\"usage: newcomers_generate_list.py <csv_filename>\")\r\n sys.exit(1)\r\nmain(sys.argv[1])\r\n" } ]	2
MKimiSH/ETH-Course-Guide	https://github.com/MKimiSH/ETH-Course-Guide	813f11cf05908d9dfed618721f106b7b15063ddf	3bc5ce7a78fe253c30532e641dfc0c94d77bb1cd	0c4903d7739137f828960e71e3ed0cb91abcd8f3	refs/heads/master	2022-11-15T08:55:09.751784	2020-07-06T15:40:10	2020-07-06T15:40:10	277,767,500	0	0	MIT	2020-07-07T08:59:37	2020-07-06T15:40:13	2020-07-06T15:54:00	null	[ { "alpha_fraction": 0.7250000238418579, "alphanum_fraction": 0.8374999761581421, "avg_line_length": 80, "blob_id": "11807acd59ba44051cac985d3dbd190c9831a693", "content_id": "350f256e5c49cb8175f55bb5ac9fe3e98eb2836a", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 80, "license_type": "permissive", "max_line_length": 80, "num_lines": 1, "path": "/d-math/field-theory-with-symmetries-and-the-batalinvilkovisky-formalism/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 402-0878-00L Field Theory with Symmetries and the Batalin-Vilkovisky Formalism" }, { "alpha_fraction": 0.5428571701049805, "alphanum_fraction": 0.800000011920929, "avg_line_length": 35, "blob_id": "f2b8417c0a27534d9d69853cd2b716563c62dfc3", "content_id": "c232445aaabb9b20cd9ce8a6f2c76f010580cc2a", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 35, "license_type": "permissive", "max_line_length": 35, "num_lines": 1, "path": "/d-math/numerical-analysis-i/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-1652-10L Numerical Analysis I" }, { "alpha_fraction": 0.5714285969734192, "alphanum_fraction": 0.7857142686843872, "avg_line_length": 42, "blob_id": "2950f3d59537c8b44c1a61b83dd5997c0474c69d", "content_id": "d40cddd5da8a744c34cec7dde74991e76a28f5cc", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 42, "license_type": "permissive", "max_line_length": 42, "num_lines": 1, "path": "/d-math/seminar-on-meanfield-games/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-4910-20L Seminar on Mean-Field Games" }, { "alpha_fraction": 0.6470588445663452, "alphanum_fraction": 0.8235294222831726, "avg_line_length": 51, "blob_id": "a1756eae4722ff12ed354d04205db6ce18023636", "content_id": "902f39c97e091cbfec865c8c0978ee5f3e877f1e", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 51, "license_type": "permissive", "max_line_length": 51, "num_lines": 1, "path": "/d-math/analysis-aspects-of-minimal-surfaces/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-4530-20L Analysis Aspects of Minimal Surfaces" }, { "alpha_fraction": 0.529411792755127, "alphanum_fraction": 0.8039215803146362, "avg_line_length": 51, "blob_id": "d019d03a3d67d08549213491f0eb1e84b1635db8", "content_id": "307d5bc57d2bdeb90d0fb785ce1a2de2c251c2f3", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 51, "license_type": "permissive", "max_line_length": 51, "num_lines": 1, "path": "/d-math/4062284aal-measure-and-integration/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 406-2284-AAL 406-2284-AAL Measure and Integration" }, { "alpha_fraction": 0.5588235259056091, "alphanum_fraction": 0.8235294222831726, "avg_line_length": 34, "blob_id": "5524e294929380e5ebf9f2afed8045f1b6e03e3b", "content_id": "e43c19db07b08a01ac1a6229d9d45bd770202195", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 34, "license_type": "permissive", "max_line_length": 34, "num_lines": 1, "path": "/d-math/statistical-physics/README.md", "repo_name": 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"blob_id": "cd3baa0e4baba3144ade0af3556944eab00f6ff9", "content_id": "a1624a3bc5923a0b73f169939c32bb20733b6c0a", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 47, "license_type": "permissive", "max_line_length": 47, "num_lines": 1, "path": "/d-infk/introduction-to-neuroinformatics/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 227-1037-00L Introduction to Neuroinformatics" }, { "alpha_fraction": 0.3571428656578064, "alphanum_fraction": 0.7857142686843872, "avg_line_length": 42, "blob_id": "f4a3ff492e9431d65f75e52a235dde0936f87ff1", "content_id": "baf537edbe6cb39cef6fd7384d29ea3c5e22a7bb", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 42, "license_type": "permissive", "max_line_length": 42, "num_lines": 1, "path": "/d-math/401350369l-reading-course/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-3503-69L 401-3503-69L Reading Course" }, { "alpha_fraction": 0.7978723645210266, "alphanum_fraction": 0.7978723645210266, "avg_line_length": 30, "blob_id": "c15bb387fed3bbd8bc1d1757f2c151cec1fc393c", "content_id": "6a049ef3b30fd3f334becc9c205769d3b6d3e039", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 94, "license_type": "permissive", "max_line_length": 82, "num_lines": 3, "path": "/d-itet/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# D-ITET\n\nCourses offered by the Dept. of Information Technology and Electrical Engineering.\n\n" }, { "alpha_fraction": 0.7333333492279053, "alphanum_fraction": 0.8333333134651184, "avg_line_length": 90, "blob_id": "02bd98d651123c26f625cce6af3427e2b8efea38", "content_id": "b7f54d0da6f4b2d760037002839caed6a467b145", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 90, "license_type": "permissive", "max_line_length": 90, "num_lines": 1, "path": "/d-math/student-seminar-in-statistics-inference-in-nonclassical-regression-models/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-3620-20L Student Seminar in Statistics: Inference in Non-Classical Regression Models" }, { "alpha_fraction": 0.529411792755127, "alphanum_fraction": 0.7941176295280457, "avg_line_length": 34, "blob_id": "fdf31d88dd7d1d152eada4f437eaaebe2155fde7", "content_id": "06758af9b0b72bed95528ad1052be4dd7d16bfb5", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 34, "license_type": "permissive", "max_line_length": 34, "num_lines": 1, "path": "/d-infk/signals-and-systems/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 151-0575-01L Signals and Systems" }, { "alpha_fraction": 0.6080297827720642, "alphanum_fraction": 0.6179635524749756, "avg_line_length": 35.621212005615234, "blob_id": "e40ff27a864e9d48d708c23271d171351b41fc82", "content_id": "2f5fc4c10d27e34c0d30e87be3b1c8bc0cfe4be8", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2416, "license_type": "permissive", "max_line_length": 424, "num_lines": 66, "path": "/utils/vvz.py", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "#!/usr/bin/python3\nfrom lxml import html\nimport requests\nimport re\nimport os\n\n'''\n receives\n addr_format: URL to vvz.ethz.ch search result page, where the page (\"seite\") argument value is replaced by \"{}\", e.g. \"http://vvz.ethz.ch/Vorlesungsverzeichnis/sucheLehrangebot.view?lerneinheitscode=&deptId=5&famname=&unterbereichAbschnittId=&seite={}&lerneinheitstitel=&rufname=&lehrsprache=&bereichAbschnittId=&semkez=2020S&studiengangAbschnittId=83713&studiengangTyp=MSC&ansicht=1&lang=en&katalogdaten=&wahlinfo=\"\n num_pages: total number of pages in this search result\n returns: list of tuples (course_no, course_name)\n'''\ndef get_list(addr_format, num_pages):\n courses = [] # list of tuples (course_no, course_name)\n for i in range(1, num_pages + 1):\n page = requests.get(addr_format.format(i))\n tree = html.fromstring(page.content)\n c = tree.xpath('//tr')\n d = [x for x in c if 'class' in x[0].attrib and x[0].attrib['class']=='border-no']\n courses += [(x[0][0].text, x[1][0][0].text) for x in d]\n return courses\n\n\n'''\n converts the plain course name to a string with lower case letters and '-' only\n'''\ndef sanitize_course_name(name):\n a = re.sub(\"[^a-z\|A-Z\|0-9\|\\ ]\", \"\", name)\n b = re.sub(\"\\ +\", \" \", a)\n return b.lower().replace(\" \", \"-\")\n\n\n'''\n requires:\n department name in lower case, e.g. \"d-infk\"\n list of tuples (course_no, course_name)\n returns:\n a string, including lines of Markdown code to be inserted into SUMMARY.md\n'''\ndef summary_markdown(department, courses):\n s = \"\"\n for (no, name) in courses:\n s_name = sanitize_course_name(name)\n s += \" * [{}]({}/{}/README.md)\\n\".format(name, department, s_name)\n return s\n\n\ndef create_courses(department, courses, root_dir):\n department = department.lower()\n for (no, name) in courses:\n s_name = sanitize_course_name(name)\n new_dir = root_dir+\"/{}/{}\".format(department, s_name)\n if not os.path.isdir(new_dir):\n os.mkdir(new_dir)\n f = open(new_dir+\"/README.md\", \"w\")\n f.write(\"# {} {}\".format(no, name))\n f.close()\n print(\"Created {} {} at {}\".format(no, name, new_dir))\n\n\ndef merge_courses(courses_list):\n courses = []\n for x in courses_list:\n courses += x\n courses = list(set(courses))\n return sorted(courses,key=lambda x: x[1])" }, { "alpha_fraction": 0.7093023061752319, "alphanum_fraction": 0.8139534592628479, "avg_line_length": 86, "blob_id": "53b9395fe18c594354898950e9b9659946b647a7", "content_id": "203e76f6fee14fc49e34d21bb097da35078b5329", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 86, "license_type": "permissive", "max_line_length": 86, "num_lines": 1, "path": "/d-infk/from-entrepreneurial-thinking-to-market-relevance-how-startups-scale/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 363-1122-00L From Entrepreneurial Thinking to Market Relevance - How Startups Scale" }, { "alpha_fraction": 0.6000000238418579, "alphanum_fraction": 0.824999988079071, "avg_line_length": 40, "blob_id": "2ada12cb096372b2e744e4e1641976b34ea5b116", "content_id": "9e9b1ab6bb41a80e82add1ebf276bc36b92716bf", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 40, "license_type": "permissive", "max_line_length": 40, "num_lines": 1, "path": "/d-math/algorithms-and-complexity/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 252-0851-00L Algorithms and Complexity" }, { "alpha_fraction": 0.6842105388641357, "alphanum_fraction": 0.8421052694320679, "avg_line_length": 57, "blob_id": "3c3257951747fb383db2179554a00846fa0cea1c", "content_id": "1cca17aa89043f37c069e6dab165b38cc2519a2b", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 57, "license_type": "permissive", "max_line_length": 57, "num_lines": 1, "path": "/d-math/advanced-graph-algorithms-and-optimization/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 263-4400-00L Advanced Graph Algorithms and Optimization" }, { 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Topology" }, { "alpha_fraction": 0.6052631735801697, "alphanum_fraction": 0.8421052694320679, "avg_line_length": 38, "blob_id": "3cc732e0a3681f79f7e6992a8d5727cbe57b5dc8", "content_id": "5c4a9666cd9fa5a49895df5d935886b2a35b080c", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 38, "license_type": "permissive", "max_line_length": 38, "num_lines": 1, "path": "/d-infk/cryptographic-protocols/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 252-0408-00L Cryptographic Protocols" }, { "alpha_fraction": 0.53125, "alphanum_fraction": 0.8125, "avg_line_length": 32, "blob_id": "cd550720aad52bd01a3e1acdbbcbe9ddb1dd6a4e", "content_id": "17440a3ecebb4f0887f8d3ebbfe9f226afeb282f", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 32, "license_type": "permissive", "max_line_length": 32, 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"repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 263-2926-00L Deep Learning for Big Code" }, { "alpha_fraction": 0.644444465637207, "alphanum_fraction": 0.8444444537162781, "avg_line_length": 45, "blob_id": "96ae8baa2cb2d6e30cdce2bdcadd0cec1a301395", "content_id": "39d9fad1d3e55b2a13058182ccc678fcb096817f", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 45, "license_type": "permissive", "max_line_length": 45, "num_lines": 1, "path": "/d-infk/natural-language-understanding/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 252-3005-00L Natural Language Understanding" }, { "alpha_fraction": 0.7828719615936279, "alphanum_fraction": 0.7880622744560242, "avg_line_length": 54.0476188659668, "blob_id": "36447f10bf67ccb8d7bd8ef7a08ee0b52d4158aa", "content_id": "6e66f31efea08ca51846f8b5688c0792dcae8631", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1156, "license_type": "permissive", "max_line_length": 222, "num_lines": 21, "path": "/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# ETH Course Guide\n\nThis site is created for sharing course materials and learning experiences in ETH Zurich. All materials are contributed by the community.\n\nUnder every page there is a discussion system, where everyone is welcome to share experiences and feelings about individual courses. \n\nHopefully all these information can help ETH students in course selecting, learning and exam preparing.\n\nYou can browse courses by department in the leftside list, or find your course using the search bar.\n\n## Contribute Your Experiences!\n\nYou are welcome to contribute your own content to this website! [This tutorial](contributor_guide/) shows how to add courses or edit existing content easily using GitHub.\n\n## License\n\nBy contributing to ETH Course Guide, you agree to share your contents under the [Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0)](https://creativecommons.org/licenses/by-nc-sa/4.0/deed.en) license.\n\n## Acknowledgement\n\nWe thank [ZJU Course Guide Sharing Project](https://github.com/QSCTech/zju-icicles) and [USTC Course Reviewing Forum](https://icourse.club/) for inspiring the creation of this site.\n" }, { "alpha_fraction": 0.6304348111152649, "alphanum_fraction": 0.8260869383811951, "avg_line_length": 46, "blob_id": "6f700405c3ed11f1f9843dab811400531016d6cb", "content_id": "4233cd8a785f7c99a0eb3b6b789e49f1026b91ef", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 46, "license_type": "permissive", "max_line_length": 46, "num_lines": 1, "path": "/d-infk/algorithms-for-database-systems/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 252-3002-00L Algorithms for Database Systems" }, { "alpha_fraction": 0.4444444477558136, "alphanum_fraction": 0.7777777910232544, "avg_line_length": 27, "blob_id": "b53ef263bc63748b6e1fea0e2be7eea79cfdcbe3", "content_id": "0e46313af05414def8ddd601c9578dd66fa23adc", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 27, "license_type": "permissive", "max_line_length": 27, "num_lines": 1, "path": "/d-math/graph-theory/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-3052-10L Graph Theory" }, { "alpha_fraction": 0.6774193644523621, "alphanum_fraction": 0.8225806355476379, "avg_line_length": 62, "blob_id": "cf89415b0352f2614713c54debe3fcf8df42dff8", "content_id": "9a2841edb0175b1671c13cf2f4335c16a4a54cc6", "detected_licenses": [ 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Evolutionary Dynamics" }, { "alpha_fraction": 0.5161290168762207, "alphanum_fraction": 0.8064516186714172, "avg_line_length": 31, "blob_id": "178ccc60a246acd87e3c1ccb1f28a5182cc1fe49", "content_id": "a24a3ab2461775cd01a58695299f153736344176", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 31, "license_type": "permissive", "max_line_length": 31, "num_lines": 1, "path": "/d-infk/network-security/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 263-4640-00L Network Security" }, { "alpha_fraction": 0.7200000286102295, "alphanum_fraction": 0.8100000023841858, "avg_line_length": 100, "blob_id": "b30d37f39915a4d19443126316f252b77ea52600", "content_id": "796602a3e9ee44d3fe9e1cec700e56f32f8001fe", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 102, "license_type": "permissive", 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227-0157-00L Semiconductor Devices: Physical Bases and Simulation" }, { "alpha_fraction": 0.6190476417541504, "alphanum_fraction": 0.8333333134651184, "avg_line_length": 42, "blob_id": "e62e4373708d704892bcbcd26407eae551e0dcef", "content_id": "4bbc0cd61305a0649638323a7b8586f559a12da7", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 42, "license_type": "permissive", "max_line_length": 42, "num_lines": 1, "path": "/d-infk/blockchain-security-seminar/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 263-2930-00L Blockchain Security Seminar" }, { "alpha_fraction": 0.7213114500045776, "alphanum_fraction": 0.7745901346206665, "avg_line_length": 47.599998474121094, "blob_id": "284da89623e2d4fdc4052c8c569868cd5ab3734e", "content_id": "322b6579653b9437fbc505ac51730187fd98aa34", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, 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"text": "# 252-0543-01L Computer Graphics" }, { "alpha_fraction": 0.746835470199585, "alphanum_fraction": 0.8607594966888428, "avg_line_length": 79, "blob_id": "82d70025823a232b91e4924714649e40b63bf77f", "content_id": "05b9a8d1c7d94e3b9b6886df9dd9929e8fc44195", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 79, "license_type": "permissive", "max_line_length": 79, "num_lines": 1, "path": "/d-infk/numerical-analysis-of-stochastic-ordinary-differential-equations/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-4657-00L Numerical Analysis of Stochastic Ordinary Differential Equations" }, { "alpha_fraction": 0.6666666865348816, "alphanum_fraction": 0.8541666865348816, "avg_line_length": 48, "blob_id": "d3fa642cf89895aa0079ecc72c7969030123a734", "content_id": "d367dc39f419f8f0520a4b1089006d2a4c161021", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], 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"alpha_fraction": 0.5897436141967773, "alphanum_fraction": 0.8205128312110901, "avg_line_length": 39, "blob_id": "8ac2cd07d9fdc3c773089d42572e462d6fc46b40", "content_id": "699bd86f3800e82240494b3acecb91ef5839d012", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 39, "license_type": "permissive", "max_line_length": 39, "num_lines": 1, "path": "/d-infk/electrical-engineering-i/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 227-0075-00L Electrical Engineering I" }, { "alpha_fraction": 0.7599999904632568, "alphanum_fraction": 0.8500000238418579, "avg_line_length": 100, "blob_id": "b478024e5ec3539aad0640b4f90858ae969a97d0", "content_id": "3d82ee71e1f0cd47a92cab0c2d499ae94240ecea", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 100, "license_type": "permissive", "max_line_length": 100, "num_lines": 1, "path": "/d-infk/topics-at-the-intersection-between-theoretical-computer-science-and-other-disciplines/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 252-4303-00L Topics at the Intersection between Theoretical Computer Science and other Disciplines" }, { "alpha_fraction": 0.5230769515037537, "alphanum_fraction": 0.7846153974533081, "avg_line_length": 65, "blob_id": "5383d0f918213bc60ba995816c8dac69683560cf", "content_id": "6a56bf84187fe800c92f2ffcb013ee849b1db199", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 67, "license_type": "permissive", "max_line_length": 65, "num_lines": 1, "path": "/d-math/communication-in-mathematics-upgrade-2018-2019/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-0000-99L Communication in Mathematics (Upgrade 2018 → 2019)" }, { "alpha_fraction": 0.6097561120986938, "alphanum_fraction": 0.8292682766914368, "avg_line_length": 41, "blob_id": "e47ecd3928ce0df7d3f0488ac8b251805fac4e95", "content_id": "fabdb164e56531f9b7cff8587e16a272ab2e3742", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 41, "license_type": "permissive", "max_line_length": 41, "num_lines": 1, "path": "/d-infk/human-computer-interaction/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 252-3110-00L Human Computer Interaction" }, { "alpha_fraction": 0.7747401595115662, "alphanum_fraction": 0.7760958075523376, "avg_line_length": 66.06060791015625, "blob_id": "e08c88af6de88f57be386ef40f95ccda4691e809", "content_id": "0043664ae5d1b08e9b9f90da3ed4fd2b76d99e31", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 4426, "license_type": "permissive", "max_line_length": 613, "num_lines": 66, "path": "/contributor_guide/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# Contributor Guide\n\nIf you would like to contribute your content, the simplest way is to use the GitHub website or desktop client. You will need a GitHub account to do so. ([GitHub](https://github.com) is the most popular platform for version control and project collaboration. It works upon the famous version control system [git](https://git-scm.com).)\n\nIn this guide, we demonstrate how to add a course page or edit a existing page using the GitHub website.\n\n## Using the GitHub Website\n\n### Edit an existing page\n\nAt the top of every page in this site, there is a button called \"EDIT THIS PAGE\", as shown in the screenshot below. You may need to scroll up to see this top bar.\n\n![screenshot_edit](screenshot_edit.png)\n\nClicking this button will lead you to the GitHub editor for this page. You may be asked to sign up and fork this repository before entering the editor. Markdown syntax is required for editing the file. After your editing is done, you will need to commit your changes. Please compose a description for your commit before committing, as exemplified below:\n\n![screenshot_propose](screenshot_propose.png)\n\nAfter clicking \"Propose changes\", click \"Create pull request\" on the new page, so that the maintainers will be notified, and review and merge your changes into the website.\n\n![screenshot_request](screenshot_request.png)\n\n### Create a page for a new course\n\nWhat if your course is not included in this website yet? Easy. Just create the file for that course from [the repository page](https://github.com/Xivid/ETH-Course-Guide).\n\n![screenshot_add_file](screenshot_add_file.png)\n\nClick \"Add file\"->\"Create new file\", enter the correct path and name following the directory structure [described below](#directory-structure), and everything next is just the same as the steps above.\n\n![screenshot_new_file](screenshot_new_file.png)\n\n### Upload files for a course\n\nTo upload files (e.g. your PDF cheatsheet) for a course, goto the corresponding folder in [the GitHub repository](https://github.com/Xivid/ETH-Course-Guide), click \"Add file\"->\"Upload files\". Follow the instructions to upload your files, and add a link to the file in the course's `README.md`. You can find the link to the file by clicking your uploaded file, and copying the link address of the \"Raw\" button on that page.\n\n### Conclusion\n\nThe GitHub website only offers limited functionality for editing and uploading. Alternatively, if you are familiar with git commandlines, we do encourage you to <iframe src=\"https://ghbtns.com/github-btn.html?user=Xivid&repo=ETH-Course-Guide&type=fork&count=false\" frameborder=\"0\" scrolling=\"0\" width=\"60\" height=\"20\" title=\"GitHub\"></iframe> this repository from GitHub, make changes in your local repository, and send us pull requests!\n\n## Directory Structure\n\nWhen contributing, please do follow the directory structure of the repository. The courses are organised by department first, then by course name. Inside a course's folder, `README.md` includes the content shown at the course's webpage. All assets (images, pdfs, etc.) referenced by that webpage are either put in the same folder, or linked from outside the repository (e.g. your file sharing link).\n\nFor example, to contribute your content for a course, simply modify the Markdown (.md) file of that course, located in `[department]/[course-name]/README.md`. If the course is not yet existent on this website, please create the Markdown file using the course's full name, put it in the directory of the professor's affiliated department, and link it by adding an entry in `SUMMARY.md`; for example, for Algorithms Lab in the Department of Computer Science, create a folder `algorithms-lab` in `d-infk/`, put your content in `d-infk/algorithms-lab/README.md`, then add one line in `SUMMARY.md` at the root folder:\n\n```pre\n * [Algorithms Lab](d-infk/algorithms-lab/README.md)\n```\n\n## Rules\n\nWe encourage contributing contents of the following forms:\n\n- Course take-or-not suggestions\n- Publicly available e-textbooks\n- Self-composed answers for assignments and past exam papers\n- Exam preparation materials\n- Exam cheatsheets\n\nContents such as the following are inappropriate for uploading:\n\n- Pirated/paid copies of books\n- Lecture notes or slides released in official course websites\n- Any software or code of which the contributor do not own copyright \n- Any content deemed inappropriate by the course staff of a particular course\n" }, { "alpha_fraction": 0.5428571701049805, "alphanum_fraction": 0.800000011920929, "avg_line_length": 35, "blob_id": "b370eed12f40c559c2f131627c363fc70d33633e", "content_id": "2af9ab27c82b78882b419a597eef428422ea9194", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 35, "license_type": "permissive", "max_line_length": 35, "num_lines": 1, "path": "/d-math/dynamical-systems-ii/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-3372-00L Dynamical Systems II" }, { "alpha_fraction": 0.6136363744735718, "alphanum_fraction": 0.8181818127632141, "avg_line_length": 44, "blob_id": "edc7af35f0ed7372f1a1328af75b3d7c7b0ebae0", "content_id": "1960b6f10b02c8335270da2a0b11c4d28d68c5e5", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 44, "license_type": "permissive", "max_line_length": 44, "num_lines": 1, "path": "/d-infk/security-of-wireless-networks/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 252-1411-00L Security of Wireless Networks" }, { "alpha_fraction": 0.6304348111152649, "alphanum_fraction": 0.8260869383811951, "avg_line_length": 46, "blob_id": "c71c25480c0585f8c8b049052f2090e8b1877657", "content_id": "328cc0b0a5a406ef2a42c80740bdcab872fa1027", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 46, "license_type": "permissive", "max_line_length": 46, "num_lines": 1, "path": "/d-math/scientific-works-in-mathematics/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-2000-00L Scientific Works in Mathematics" }, { "alpha_fraction": 0.5833333134651184, "alphanum_fraction": 0.8333333134651184, "avg_line_length": 36, "blob_id": "e334290b96d71ef39b703d230723b460103faee4", "content_id": "633614956a49a8c5de70c53bd28fc1b24b0b7b05", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 36, "license_type": "permissive", "max_line_length": 36, "num_lines": 1, "path": "/d-math/reinsurance-analytics/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-3928-00L Reinsurance Analytics" }, { "alpha_fraction": 0.6315789222717285, "alphanum_fraction": 0.7894737124443054, "avg_line_length": 57, "blob_id": "263c2c75d0857f8a91ace31f1553d3b32695429d", "content_id": "18f2bac0e972d11aead537e125114a438e216c0c", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 57, "license_type": "permissive", "max_line_length": 57, "num_lines": 1, "path": "/d-math/geometry-of-numbers-university-of-zurich/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-8112-20L Geometry of Numbers (University of Zurich)" }, { "alpha_fraction": 0.6896551847457886, "alphanum_fraction": 0.8448275923728943, "avg_line_length": 58, "blob_id": "9a15dd898fc31a0023aec6f89b4957acab28fb04", "content_id": "a335f485ecabd83ec97d1a93456b773d218f71b7", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 58, "license_type": "permissive", "max_line_length": 58, "num_lines": 1, "path": "/d-infk/statistical-models-in-computational-biology/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 636-0702-00L Statistical Models in Computational Biology" }, { "alpha_fraction": 0.375, "alphanum_fraction": 0.75, "avg_line_length": 24, "blob_id": "cc03c061bee55920a950356e6eaf1d8e0d33c4a4", "content_id": 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Intelligence" }, { "alpha_fraction": 0.6136363744735718, "alphanum_fraction": 0.8181818127632141, "avg_line_length": 44, "blob_id": "bf2663c8ce7ce1392127eb3ae5e59051a95fed4c", "content_id": "f03b73766577c8bda0b81976bd5e1f9495d3f4e7", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 44, "license_type": "permissive", "max_line_length": 44, "num_lines": 1, "path": "/d-math/padic-galois-representations/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-4117-69L p-Adic Galois Representations" }, { "alpha_fraction": 0.6170212626457214, "alphanum_fraction": 0.8085106611251831, "avg_line_length": 47, "blob_id": "4ff24d41e4a13f22c37af810a1822c10bf82729c", "content_id": "4e0cbcb6d38d773a2ca41f2076fc3cab13d591da", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 47, "license_type": 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Mathematical Modelling in Life Insurance" }, { "alpha_fraction": 0.5675675868988037, "alphanum_fraction": 0.8108108043670654, "avg_line_length": 37, "blob_id": "a64790d7669e5aba13b3ce279cc22dad11b7edb8", "content_id": "06103c8ab216ddf1423b9f8700519d0abe013264", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 37, "license_type": "permissive", "max_line_length": 37, "num_lines": 1, "path": "/d-math/transport-phenomena-ii/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 327-2201-00L Transport Phenomena II" }, { "alpha_fraction": 0.6222222447395325, "alphanum_fraction": 0.8222222328186035, "avg_line_length": 45, "blob_id": "d5967bfe30969f3b4d0d699c1ff13e8bc7361884", "content_id": "89af01ea20c4832aa13db7cf9d118962ab75e593", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 45, 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"61bf3c0e1fe769ba6db8c5121f2623ecd9d6de78", "content_id": "cbbf2c05bc8270c98d373877c2bcf60c70a8b577", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 39496, "license_type": "permissive", "max_line_length": 195, "num_lines": 451, "path": "/SUMMARY.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# Summary\n\n* [ETH Course Guide](README.md)\n\n* [Contributor Guide](contributor_guide/README.md)\n\n* [D-INFK](d-infk/README.md)\n * [3D Vision](d-infk/3d-vision/README.md)\n * [Advanced Algorithms](d-infk/advanced-algorithms/README.md)\n * [Advanced Compiler Design](d-infk/advanced-compiler-design/README.md)\n * [Advanced Graph Algorithms and Optimization](d-infk/advanced-graph-algorithms-and-optimization/README.md)\n * [Advanced Machine Learning](d-infk/advanced-machine-learning/README.md)\n * [Advanced Methods in Computer Graphics](d-infk/advanced-methods-in-computer-graphics/README.md)\n * [Advanced Operating Systems](d-infk/advanced-operating-systems/README.md)\n * [Advanced Systems Lab](d-infk/advanced-systems-lab/README.md)\n * [Advanced Topics in Communication Networks (Autumn 2019)](d-infk/advanced-topics-in-communication-networks-autumn-2019/README.md)\n * [Advanced Topics in Computer Graphics and Vision](d-infk/advanced-topics-in-computer-graphics-and-vision/README.md)\n * [Advanced Topics in Machine Learning](d-infk/advanced-topics-in-machine-learning/README.md)\n * [Advanced Topics in Machine Learning and Data Science](d-infk/advanced-topics-in-machine-learning-and-data-science/README.md)\n * [Advanced Topics in Networked Embedded Systems](d-infk/advanced-topics-in-networked-embedded-systems/README.md)\n * [Advanced Topics in Technical Human-Computer Interaction](d-infk/advanced-topics-in-technical-humancomputer-interaction/README.md)\n * [Advances in Distributed Graph Algorithms](d-infk/advances-in-distributed-graph-algorithms/README.md)\n * [Algebraic Methods in Combinatorics](d-infk/algebraic-methods-in-combinatorics/README.md)\n * [Algorithmic Game Theory](d-infk/algorithmic-game-theory/README.md)\n * [Algorithmics for Hard Problems](d-infk/algorithmics-for-hard-problems/README.md)\n * [Algorithmics for Hard Problems](d-infk/algorithmics-for-hard-problems/README.md)\n * [Algorithms Lab](d-infk/algorithms-lab/README.md)\n * [Algorithms and Data Structures](d-infk/algorithms-and-data-structures/README.md)\n * [Algorithms and Probability](d-infk/algorithms-and-probability/README.md)\n * [Algorithms for Database Systems](d-infk/algorithms-for-database-systems/README.md)\n * [Algorithms for Large-Scale Graph Processing](d-infk/algorithms-for-largescale-graph-processing/README.md)\n * [Algorithms, Probability, and Computing](d-infk/algorithms-probability-and-computing/README.md)\n * [Analysis 3](d-infk/analysis-3/README.md)\n * [Analysis I](d-infk/analysis-i/README.md)\n * [Analysis II](d-infk/analysis-ii/README.md)\n * [Applied Analysis of Variance and Experimental Design](d-infk/applied-analysis-of-variance-and-experimental-design/README.md)\n * [Applied Computer Architecture](d-infk/applied-computer-architecture/README.md)\n * [Applied Cryptography](d-infk/applied-cryptography/README.md)\n * [Applied Security Laboratory](d-infk/applied-security-laboratory/README.md)\n * [Approximation and Online Algorithms](d-infk/approximation-and-online-algorithms/README.md)\n * [Autonomous Mobile Robots](d-infk/autonomous-mobile-robots/README.md)\n * [Bachelor's Thesis](d-infk/bachelors-thesis/README.md)\n * [Big Data](d-infk/big-data/README.md)\n * [Big Data, Law, and Policy](d-infk/big-data-law-and-policy/README.md)\n * [Biomechatronics](d-infk/biomechatronics/README.md)\n * [Blockchain Security Seminar](d-infk/blockchain-security-seminar/README.md)\n * [Case Studies from Practice](d-infk/case-studies-from-practice/README.md)\n * [Cell and Molecular Biology for Engineers I](d-infk/cell-and-molecular-biology-for-engineers-i/README.md)\n * [Cell and Molecular Biology for Engineers II](d-infk/cell-and-molecular-biology-for-engineers-ii/README.md)\n * [Coaching Students (Basic Training)](d-infk/coaching-students-basic-training/README.md)\n * [Communication Networks Seminar](d-infk/communication-networks-seminar/README.md)\n * [Compiler Design](d-infk/compiler-design/README.md)\n * [Complex Analysis](d-infk/complex-analysis/README.md)\n * [Computational Astrophysics (University of Zurich)](d-infk/computational-astrophysics-university-of-zurich/README.md)\n * [Computational Biology](d-infk/computational-biology/README.md)\n * [Computational Biomedicine](d-infk/computational-biomedicine/README.md)\n * [Computational Challenges in Medical Genomics](d-infk/computational-challenges-in-medical-genomics/README.md)\n * [Computational Intelligence Lab](d-infk/computational-intelligence-lab/README.md)\n * [Computational Models of Motion for Character Animation and Robotics](d-infk/computational-models-of-motion-for-character-animation-and-robotics/README.md)\n * [Computational Quantum Physics](d-infk/computational-quantum-physics/README.md)\n * [Computational Statistical Physics](d-infk/computational-statistical-physics/README.md)\n * [Computational Statistics](d-infk/computational-statistics/README.md)\n * [Computational Systems Biology](d-infk/computational-systems-biology/README.md)\n * [Computational Vision (University of Zurich)](d-infk/computational-vision-university-of-zurich/README.md)\n * [Computer Architecture](d-infk/computer-architecture/README.md)\n * [Computer Graphics](d-infk/computer-graphics/README.md)\n * [Computer Networks](d-infk/computer-networks/README.md)\n * [Computer Simulations of Sensory Systems](d-infk/computer-simulations-of-sensory-systems/README.md)\n * [Computer Systems](d-infk/computer-systems/README.md)\n * [Computer Vision](d-infk/computer-vision/README.md)\n * [Computing Platforms](d-infk/computing-platforms/README.md)\n * [Concepts of Object-Oriented Programming](d-infk/concepts-of-objectoriented-programming/README.md)\n * [Control Systems I](d-infk/control-systems-i/README.md)\n * [Cryptographic Protocols](d-infk/cryptographic-protocols/README.md)\n * [Current Topics in Cryptography](d-infk/current-topics-in-cryptography/README.md)\n * [Current Topics in Information Security](d-infk/current-topics-in-information-security/README.md)\n * [Data Analysis and Visualisation with Matlab in Earth Sciences](d-infk/data-analysis-and-visualisation-with-matlab-in-earth-sciences/README.md)\n * [Data Modelling and Databases](d-infk/data-modelling-and-databases/README.md)\n * [Datacenter Network Monitoring and Management](d-infk/datacenter-network-monitoring-and-management/README.md)\n * [Deep Learning](d-infk/deep-learning/README.md)\n * [Deep Learning for Autonomous Driving](d-infk/deep-learning-for-autonomous-driving/README.md)\n * [Deep Learning for Big Code](d-infk/deep-learning-for-big-code/README.md)\n * [Deep Learning for Computer Vision: Seminal Work](d-infk/deep-learning-for-computer-vision-seminal-work/README.md)\n * [Design of Parallel and High-Performance Computing](d-infk/design-of-parallel-and-highperformance-computing/README.md)\n * [Didactic Basics for Student Teaching Assistants @ ETH](d-infk/didactic-basics-for-student-teaching-assistants-eth/README.md)\n * [Digital Design and Computer Architecture](d-infk/digital-design-and-computer-architecture/README.md)\n * [Digital Signatures](d-infk/digital-signatures/README.md)\n * [Digitalization and the Rebound Effect](d-infk/digitalization-and-the-rebound-effect/README.md)\n * [Direct Doctorate Research Plan](d-infk/direct-doctorate-research-plan/README.md)\n * [Direct Doctorate Research Project](d-infk/direct-doctorate-research-project/README.md)\n * [Discovering Management](d-infk/discovering-management/README.md)\n * [Discovering Management (Exercises)](d-infk/discovering-management-exercises/README.md)\n * [Discrete Mathematics](d-infk/discrete-mathematics/README.md)\n * [Distributed Algorithms](d-infk/distributed-algorithms/README.md)\n * [Distributed Systems Laboratory](d-infk/distributed-systems-laboratory/README.md)\n * [ETH Week 2019: Rethinking Mobility](d-infk/eth-week-2019-rethinking-mobility/README.md)\n * [Electrical Engineering I](d-infk/electrical-engineering-i/README.md)\n * [Electrical Engineering II](d-infk/electrical-engineering-ii/README.md)\n * [Embedded Systems](d-infk/embedded-systems/README.md)\n * [Enabling Entrepreneurship: From Science to Startup](d-infk/enabling-entrepreneurship-from-science-to-startup/README.md)\n * [Energy, Resources, Environment: Risks and Prospects](d-infk/energy-resources-environment-risks-and-prospects/README.md)\n * [Formal Methods and Functional Programming](d-infk/formal-methods-and-functional-programming/README.md)\n * [Formal Methods for Information Security](d-infk/formal-methods-for-information-security/README.md)\n * [From Entrepreneurial Thinking to Market Relevance - How Startups Scale](d-infk/from-entrepreneurial-thinking-to-market-relevance-how-startups-scale/README.md)\n * [Future Internet](d-infk/future-internet/README.md)\n * [Game Programming Laboratory](d-infk/game-programming-laboratory/README.md)\n * [Geometric Integer Programming](d-infk/geometric-integer-programming/README.md)\n * [Geometry: Combinatorics and Algorithms](d-infk/geometry-combinatorics-and-algorithms/README.md)\n * [Geometry: Combinatorics and Algorithms](d-infk/geometry-combinatorics-and-algorithms/README.md)\n * [Graph Theory](d-infk/graph-theory/README.md)\n * [Guarantees for Machine Learning](d-infk/guarantees-for-machine-learning/README.md)\n * [Hardware Acceleration for Data Processing](d-infk/hardware-acceleration-for-data-processing/README.md)\n * [Hardware Architectures for Machine Learning](d-infk/hardware-architectures-for-machine-learning/README.md)\n * [Hardware/Software Codesign](d-infk/hardwaresoftware-codesign/README.md)\n * [High Performance Computing for Science and Engineering (HPCSE) I](d-infk/high-performance-computing-for-science-and-engineering-hpcse-i/README.md)\n * [High Performance Computing for Science and Engineering (HPCSE) for Engineers II](d-infk/high-performance-computing-for-science-and-engineering-hpcse-for-engineers-ii/README.md)\n * [How To Give Strong Technical Presentations](d-infk/how-to-give-strong-technical-presentations/README.md)\n * [Human Computer Interaction](d-infk/human-computer-interaction/README.md)\n * [Human Factors I](d-infk/human-factors-i/README.md)\n * [Informal Methods](d-infk/informal-methods/README.md)\n * [Information Retrieval](d-infk/information-retrieval/README.md)\n * [Information Security](d-infk/information-security/README.md)\n * [Information Theory](d-infk/information-theory/README.md)\n * [Internship](d-infk/internship/README.md)\n * [Introduction to Computational Physics](d-infk/introduction-to-computational-physics/README.md)\n * [Introduction to Economic Policy](d-infk/introduction-to-economic-policy/README.md)\n * [Introduction to Machine Learning](d-infk/introduction-to-machine-learning/README.md)\n * [Introduction to Microeconomics](d-infk/introduction-to-microeconomics/README.md)\n * [Introduction to Neuroinformatics](d-infk/introduction-to-neuroinformatics/README.md)\n * [Introduction to Programming](d-infk/introduction-to-programming/README.md)\n * [Linear Algebra](d-infk/linear-algebra/README.md)\n * [Low-Power System Design](d-infk/lowpower-system-design/README.md)\n * [Machine Learning Seminar](d-infk/machine-learning-seminar/README.md)\n * [Machine Learning for Health Care](d-infk/machine-learning-for-health-care/README.md)\n * [Machine Perception](d-infk/machine-perception/README.md)\n * [Master's Thesis](d-infk/masters-thesis/README.md)\n * [Mathematical Foundations of Computer Graphics and Vision](d-infk/mathematical-foundations-of-computer-graphics-and-vision/README.md)\n * [Mathematical Optimization](d-infk/mathematical-optimization/README.md)\n * [Mathematics III: Systems Analysis](d-infk/mathematics-iii-systems-analysis/README.md)\n * [Mechatronics](d-infk/mechatronics/README.md)\n * [Mixed Reality Laboratory](d-infk/mixed-reality-laboratory/README.md)\n * [Models of Computation](d-infk/models-of-computation/README.md)\n * [Natural Language Understanding](d-infk/natural-language-understanding/README.md)\n * [Network Security](d-infk/network-security/README.md)\n * [Neural Network Theory](d-infk/neural-network-theory/README.md)\n * [Numerical Analysis of Stochastic Ordinary Differential Equations](d-infk/numerical-analysis-of-stochastic-ordinary-differential-equations/README.md)\n * [Numerical Methods for CSE](d-infk/numerical-methods-for-cse/README.md)\n * [Numerical Methods for Partial Differential Equations](d-infk/numerical-methods-for-partial-differential-equations/README.md)\n * [Numerical Modelling I and II: Theory and Applications](d-infk/numerical-modelling-i-and-ii-theory-and-applications/README.md)\n * [Optimization Methods for Engineers](d-infk/optimization-methods-for-engineers/README.md)\n * [Optimization for Data Science](d-infk/optimization-for-data-science/README.md)\n * [Parallel Programming](d-infk/parallel-programming/README.md)\n * [Physical Modelling and Simulation](d-infk/physical-modelling-and-simulation/README.md)\n * [Physically-Based Simulation in Computer Graphics](d-infk/physicallybased-simulation-in-computer-graphics/README.md)\n * [Physics I](d-infk/physics-i/README.md)\n * [Physics II](d-infk/physics-ii/README.md)\n * [Power Market I - Portfolio and Risk Management](d-infk/power-market-i-portfolio-and-risk-management/README.md)\n * [Presenting Theoretical Computer Science](d-infk/presenting-theoretical-computer-science/README.md)\n * [Principles of Distributed Computing](d-infk/principles-of-distributed-computing/README.md)\n * [Probabilistic Artificial Intelligence](d-infk/probabilistic-artificial-intelligence/README.md)\n * [Probability and Statistics](d-infk/probability-and-statistics/README.md)\n * [Program Analysis for System Security and Reliability](d-infk/program-analysis-for-system-security-and-reliability/README.md)\n * [Randomized Algorithms and Probabilistic Methods](d-infk/randomized-algorithms-and-probabilistic-methods/README.md)\n * [Reliable and Interpretable Artificial Intelligence](d-infk/reliable-and-interpretable-artificial-intelligence/README.md)\n * [Research Topics in Software Engineering](d-infk/research-topics-in-software-engineering/README.md)\n * [Research in Computer Science](d-infk/research-in-computer-science/README.md)\n * [Rigorous Software Engineering](d-infk/rigorous-software-engineering/README.md)\n * [Security Engineering](d-infk/security-engineering/README.md)\n * [Security of Wireless Networks](d-infk/security-of-wireless-networks/README.md)\n * [Seminar in Communication Networks: Learning, Reasoning and Control](d-infk/seminar-in-communication-networks-learning-reasoning-and-control/README.md)\n * [Seminar in Computer Architecture](d-infk/seminar-in-computer-architecture/README.md)\n * [Seminar in Deep Reinforcement Learning](d-infk/seminar-in-deep-reinforcement-learning/README.md)\n * [Seminar in Theoretical Computer Science](d-infk/seminar-in-theoretical-computer-science/README.md)\n * [Seminar on Computational Interaction](d-infk/seminar-on-computational-interaction/README.md)\n * [Seminar on Media Innovation](d-infk/seminar-on-media-innovation/README.md)\n * [Seminar on Randomized Algorithms and Probabilistic Methods](d-infk/seminar-on-randomized-algorithms-and-probabilistic-methods/README.md)\n * [Shape Modeling and Geometry Processing](d-infk/shape-modeling-and-geometry-processing/README.md)\n * [Signals and Systems](d-infk/signals-and-systems/README.md)\n * [Smart Energy](d-infk/smart-energy/README.md)\n * [Software Engineering Seminar](d-infk/software-engineering-seminar/README.md)\n * [Statistical Learning Theory](d-infk/statistical-learning-theory/README.md)\n * [Statistical Models in Computational Biology](d-infk/statistical-models-in-computational-biology/README.md)\n * [Stochastic Methods for Engineers and Natural Scientists](d-infk/stochastic-methods-for-engineers-and-natural-scientists/README.md)\n * [Sustainability Start-Up Seminar](d-infk/sustainability-startup-seminar/README.md)\n * [System Construction](d-infk/system-construction/README.md)\n * [System Modeling](d-infk/system-modeling/README.md)\n * [System Security](d-infk/system-security/README.md)\n * [Systems Analysis and Mathematical Modeling in Urban Water Management](d-infk/systems-analysis-and-mathematical-modeling-in-urban-water-management/README.md)\n * [Systems Dynamics and Complexity](d-infk/systems-dynamics-and-complexity/README.md)\n * [Systems Programming and Computer Architecture](d-infk/systems-programming-and-computer-architecture/README.md)\n * [Theoretical Computer Science](d-infk/theoretical-computer-science/README.md)\n * [Theory of Robotics and Mechatronics](d-infk/theory-of-robotics-and-mechatronics/README.md)\n * [Time Series Analysis](d-infk/time-series-analysis/README.md)\n * [Topics at the Intersection between Theoretical Computer Science and other Disciplines](d-infk/topics-at-the-intersection-between-theoretical-computer-science-and-other-disciplines/README.md)\n * [Ubiquitous Computing](d-infk/ubiquitous-computing/README.md)\n * [VLSI I: From Architectures to VLSI Circuits and FPGAs](d-infk/vlsi-i-from-architectures-to-vlsi-circuits-and-fpgas/README.md)\n * [Visual Computing](d-infk/visual-computing/README.md)\n * [Visualization](d-infk/visualization/README.md)\n * [Wireless Networking and Mobile Computing](d-infk/wireless-networking-and-mobile-computing/README.md)\n\n* [D-MATH](d-math/README.md)\n * [A Survey of Geometric Group Theory](d-math/a-survey-of-geometric-group-theory/README.md)\n * [Advanced Algorithms](d-math/advanced-algorithms/README.md)\n * [Advanced Corporate Finance I (University of Zurich)](d-math/advanced-corporate-finance-i-university-of-zurich/README.md)\n * [Advanced Corporate Finance II (University of Zurich)](d-math/advanced-corporate-finance-ii-university-of-zurich/README.md)\n * [Advanced Financial Economics (University of Zurich)](d-math/advanced-financial-economics-university-of-zurich/README.md)\n * [Advanced Graph Algorithms and Optimization](d-math/advanced-graph-algorithms-and-optimization/README.md)\n * [Advanced Quantum Chemistry](d-math/advanced-quantum-chemistry/README.md)\n * [Advanced Statistical Modelling: Mixed Models](d-math/advanced-statistical-modelling-mixed-models/README.md)\n * [Advanced Sustainability Economics](d-math/advanced-sustainability-economics/README.md)\n * [Advanced Topics in Computational Statistics](d-math/advanced-topics-in-computational-statistics/README.md)\n * [Advanced Topics in Discrete Optimization](d-math/advanced-topics-in-discrete-optimization/README.md)\n * [Advances in Distributed Graph Algorithms](d-math/advances-in-distributed-graph-algorithms/README.md)\n * [Agent-Based Modelling of Social Systems](d-math/agentbased-modelling-of-social-systems/README.md)\n * [Algebra I](d-math/algebra-i/README.md)\n * [Algebra I and II](d-math/algebra-i-and-ii/README.md)\n * [406-2004-AAL Algebra II](d-math/4062004aal-algebra-ii/README.md)\n * [401-2004-00L Algebra II](d-math/401200400l-algebra-ii/README.md)\n * [Algebraic Geometry](d-math/algebraic-geometry/README.md)\n * [Algebraic Groups](d-math/algebraic-groups/README.md)\n * [Algebraic Methods in Combinatorics](d-math/algebraic-methods-in-combinatorics/README.md)\n * [Algebraic Topology I](d-math/algebraic-topology-i/README.md)\n * [Algebraic Topology II](d-math/algebraic-topology-ii/README.md)\n * [Algorithms and Complexity](d-math/algorithms-and-complexity/README.md)\n * [Algorithms, Probability, and Computing](d-math/algorithms-probability-and-computing/README.md)\n * [Analysis Aspects of Minimal Surfaces](d-math/analysis-aspects-of-minimal-surfaces/README.md)\n * [Analysis I](d-math/analysis-i/README.md)\n * [Analysis II](d-math/analysis-ii/README.md)\n * [Analysis Seminar](d-math/analysis-seminar/README.md)\n * [Applied Analysis of Variance and Experimental Design](d-math/applied-analysis-of-variance-and-experimental-design/README.md)\n * [Applied Cryptography](d-math/applied-cryptography/README.md)\n * [Applied Statistical Regression](d-math/applied-statistical-regression/README.md)\n * [Applied Stochastic Processes](d-math/applied-stochastic-processes/README.md)\n * [Astronomy](d-math/astronomy/README.md)\n * [Bachelor's Thesis](d-math/bachelors-thesis/README.md)\n * [Bayesian Phylodynamics](d-math/bayesian-phylodynamics/README.md)\n * [Bayesian Statistics](d-math/bayesian-statistics/README.md)\n * [Biology I](d-math/biology-i/README.md)\n * [Biology II](d-math/biology-ii/README.md)\n * [Brownian Motion and Stochastic Calculus](d-math/brownian-motion-and-stochastic-calculus/README.md)\n * [Causality](d-math/causality/README.md)\n * [Classical Mechanics](d-math/classical-mechanics/README.md)\n * [Colloquium on Mathematics, Computer Science, and Education](d-math/colloquium-on-mathematics-computer-science-and-education/README.md)\n * [Combinatorics I](d-math/combinatorics-i/README.md)\n * [Combinatorics II](d-math/combinatorics-ii/README.md)\n * [Communication in Mathematics](d-math/communication-in-mathematics/README.md)\n * [Communication in Mathematics (Upgrade 2018 → 2019)](d-math/communication-in-mathematics-upgrade-2018-2019/README.md)\n * [Commutative Algebra](d-math/commutative-algebra/README.md)\n * [406-2303-AAL Complex Analysis](d-math/4062303aal-complex-analysis/README.md)\n * [401-2303-00L Complex Analysis](d-math/401230300l-complex-analysis/README.md)\n * [Complex Networks](d-math/complex-networks/README.md)\n * [Computational Biology](d-math/computational-biology/README.md)\n * [Computational Methods for Quantitative Finance: PDE Methods](d-math/computational-methods-for-quantitative-finance-pde-methods/README.md)\n * [Computational Quantum Physics](d-math/computational-quantum-physics/README.md)\n * [Computational Statistical Physics](d-math/computational-statistical-physics/README.md)\n * [Computational Statistics](d-math/computational-statistics/README.md)\n * [Computational Systems Biology](d-math/computational-systems-biology/README.md)\n * [Computer Science](d-math/computer-science/README.md)\n * [Computer Science Colloquium](d-math/computer-science-colloquium/README.md)\n * [Continuum Mechanics 2](d-math/continuum-mechanics-2/README.md)\n * [Cryptographic Protocols](d-math/cryptographic-protocols/README.md)\n * [Data Analytics for Non-Life Insurance Pricing](d-math/data-analytics-for-nonlife-insurance-pricing/README.md)\n * [Decisions and Markets](d-math/decisions-and-markets/README.md)\n * [Differential Geometry I](d-math/differential-geometry-i/README.md)\n * [Differential Geometry II](d-math/differential-geometry-ii/README.md)\n * [Discrete-Time and Statistical Signal Processing](d-math/discretetime-and-statistical-signal-processing/README.md)\n * [Dynamic Programming and Optimal Control](d-math/dynamic-programming-and-optimal-control/README.md)\n * [Dynamical Systems I](d-math/dynamical-systems-i/README.md)\n * [Dynamical Systems II](d-math/dynamical-systems-ii/README.md)\n * [Dynamics of Large-Scale Atmospheric Flow](d-math/dynamics-of-largescale-atmospheric-flow/README.md)\n * [Economic Growth and Resource Use](d-math/economic-growth-and-resource-use/README.md)\n * [Economic Growth, Cycles and Policy](d-math/economic-growth-cycles-and-policy/README.md)\n * [Economic Theory of Financial Markets](d-math/economic-theory-of-financial-markets/README.md)\n * [Electrodynamics](d-math/electrodynamics/README.md)\n * [Empirical Process Theory and Applications](d-math/empirical-process-theory-and-applications/README.md)\n * [Energy Economics and Policy](d-math/energy-economics-and-policy/README.md)\n * [Ergodic Theory and Dynamical Systems](d-math/ergodic-theory-and-dynamical-systems/README.md)\n * [Evolutionary Dynamics](d-math/evolutionary-dynamics/README.md)\n * [Field Theory with Symmetries and the Batalin-Vilkovisky Formalism](d-math/field-theory-with-symmetries-and-the-batalinvilkovisky-formalism/README.md)\n * [Financial Engineering (University of Zurich)](d-math/financial-engineering-university-of-zurich/README.md)\n * [Financial Risk Management in Social and Pension Insurance](d-math/financial-risk-management-in-social-and-pension-insurance/README.md)\n * [Finite Geometries I](d-math/finite-geometries-i/README.md)\n * [Finite Geometries II](d-math/finite-geometries-ii/README.md)\n * [Foundations of Data Science Seminar](d-math/foundations-of-data-science-seminar/README.md)\n * [Four-Manifolds](d-math/fourmanifolds/README.md)\n * [Functional Analysis I](d-math/functional-analysis-i/README.md)\n * [Functional Analysis II](d-math/functional-analysis-ii/README.md)\n * [Functional Analysis III, Unitary Representations](d-math/functional-analysis-iii-unitary-representations/README.md)\n * [Fundamentals of Mathematical Statistics](d-math/fundamentals-of-mathematical-statistics/README.md)\n * [Gabor Frames](d-math/gabor-frames/README.md)\n * [Gauge Theory](d-math/gauge-theory/README.md)\n * [General Relativity](d-math/general-relativity/README.md)\n * [Geometric Integer Programming](d-math/geometric-integer-programming/README.md)\n * [Geometry](d-math/geometry/README.md)\n * [Geometry Graduate Colloquium](d-math/geometry-graduate-colloquium/README.md)\n * [Geometry Seminar](d-math/geometry-seminar/README.md)\n * [Geometry of Numbers (University of Zurich)](d-math/geometry-of-numbers-university-of-zurich/README.md)\n * [263-4203-00L Geometry: Combinatorics and Algorithms](d-math/263420300l-geometry-combinatorics-and-algorithms/README.md)\n * [252-1425-00L Geometry: Combinatorics and Algorithms](d-math/252142500l-geometry-combinatorics-and-algorithms/README.md)\n * [Graph Theory](d-math/graph-theory/README.md)\n * [Guarantees for Machine Learning](d-math/guarantees-for-machine-learning/README.md)\n * [Gödel's Theorems](d-math/gdels-theorems/README.md)\n * [High-Dimensional Statistics](d-math/highdimensional-statistics/README.md)\n * [Homogeneous Dynamics and Counting Problems](d-math/homogeneous-dynamics-and-counting-problems/README.md)\n * [Image Analysis and Computer Vision](d-math/image-analysis-and-computer-vision/README.md)\n * [Information Theory I](d-math/information-theory-i/README.md)\n * [Information Theory II](d-math/information-theory-ii/README.md)\n * [Introduction to 3-Manifolds](d-math/introduction-to-3manifolds/README.md)\n * [Introduction to Algebraic Number Theory](d-math/introduction-to-algebraic-number-theory/README.md)\n * [Introduction to Computational Physics](d-math/introduction-to-computational-physics/README.md)\n * [Introduction to Homotopy Theory and Model Category Structure](d-math/introduction-to-homotopy-theory-and-model-category-structure/README.md)\n * [Introduction to Knot Theory](d-math/introduction-to-knot-theory/README.md)\n * [Introduction to Lie Groups](d-math/introduction-to-lie-groups/README.md)\n * [Introduction to Machine Learning](d-math/introduction-to-machine-learning/README.md)\n * [Introduction to Mathematical Finance](d-math/introduction-to-mathematical-finance/README.md)\n * [Introduction to String Theory](d-math/introduction-to-string-theory/README.md)\n * [Life Insurance Mathematics](d-math/life-insurance-mathematics/README.md)\n * [Linear Algebra I](d-math/linear-algebra-i/README.md)\n * [Linear Algebra II](d-math/linear-algebra-ii/README.md)\n * [Lunch Sessions – Thesis Basics for Mathematics Students](d-math/lunch-sessions-thesis-basics-for-mathematics-students/README.md)\n * [Market-Consistent Actuarial Valuation](d-math/marketconsistent-actuarial-valuation/README.md)\n * [Master's Thesis](d-math/masters-thesis/README.md)\n * [Mathematical Finance](d-math/mathematical-finance/README.md)\n * [Mathematical Modelling in Life Insurance](d-math/mathematical-modelling-in-life-insurance/README.md)\n * [Mathematical Optimization](d-math/mathematical-optimization/README.md)\n * [Mathematical and Computational Methods in Photonics](d-math/mathematical-and-computational-methods-in-photonics/README.md)\n * [Mathematics Tools in Machine Learning](d-math/mathematics-tools-in-machine-learning/README.md)\n * [Mathematics of (Super-Resolution) Biomedical Imaging](d-math/mathematics-of-superresolution-biomedical-imaging/README.md)\n * [Mathematics of Data Science](d-math/mathematics-of-data-science/README.md)\n * [Mathematics of Information](d-math/mathematics-of-information/README.md)\n * [401-2284-00L Measure and Integration](d-math/401228400l-measure-and-integration/README.md)\n * [406-2284-AAL Measure and Integration](d-math/4062284aal-measure-and-integration/README.md)\n * [Measurement and Modelling of Travel Behaviour](d-math/measurement-and-modelling-of-travel-behaviour/README.md)\n * [Methods of Mathematical Physics I](d-math/methods-of-mathematical-physics-i/README.md)\n * [Methods of Mathematical Physics II](d-math/methods-of-mathematical-physics-ii/README.md)\n * [Model Predictive Control](d-math/model-predictive-control/README.md)\n * [Monetary Policy](d-math/monetary-policy/README.md)\n * [Multivariate Statistics](d-math/multivariate-statistics/README.md)\n * [NCCR SwissMAP – Master Class in Mathematical Physics: Minicourse \"Percolation Theory\"](d-math/nccr-swissmap-master-class-in-mathematical-physics-minicourse-percolation-theory/README.md)\n * [Neural Network Theory](d-math/neural-network-theory/README.md)\n * [Non-Life Insurance: Mathematics and Statistics](d-math/nonlife-insurance-mathematics-and-statistics/README.md)\n * [Nonlinear Dynamics and Chaos II](d-math/nonlinear-dynamics-and-chaos-ii/README.md)\n * [Nonlinear Systems and Control](d-math/nonlinear-systems-and-control/README.md)\n * [Number Theory Seminar](d-math/number-theory-seminar/README.md)\n * [Numerical Analysis I](d-math/numerical-analysis-i/README.md)\n * [Numerical Analysis II](d-math/numerical-analysis-ii/README.md)\n * [Numerical Analysis Seminar: Mathematics for Biomimetics](d-math/numerical-analysis-seminar-mathematics-for-biomimetics/README.md)\n * [Numerical Analysis Seminar: Mathematics of Deep Neural Network Approximation](d-math/numerical-analysis-seminar-mathematics-of-deep-neural-network-approximation/README.md)\n * [Numerical Analysis Seminar: Mathematics of Deep Neural Network Approximation](d-math/numerical-analysis-seminar-mathematics-of-deep-neural-network-approximation/README.md)\n * [Numerical Analysis Seminar: Model Order Reduction and Reduced Bases for PDEs](d-math/numerical-analysis-seminar-model-order-reduction-and-reduced-bases-for-pdes/README.md)\n * [Numerical Analysis Seminar: Tensor-Structured Methods in Scientific Computing](d-math/numerical-analysis-seminar-tensorstructured-methods-in-scientific-computing/README.md)\n * [Numerical Analysis for Elliptic and Parabolic Partial Differential Equations](d-math/numerical-analysis-for-elliptic-and-parabolic-partial-differential-equations/README.md)\n * [Numerical Analysis of Stochastic Ordinary Differential Equations](d-math/numerical-analysis-of-stochastic-ordinary-differential-equations/README.md)\n * [Numerical Methods for Hyperbolic Partial Differential Equations (University of Zurich)](d-math/numerical-methods-for-hyperbolic-partial-differential-equations-university-of-zurich/README.md)\n * [Numerical Modelling of Weather and Climate](d-math/numerical-modelling-of-weather-and-climate/README.md)\n * [O-Minimality and Diophantine Applications](d-math/ominimality-and-diophantine-applications/README.md)\n * [Optimal Transport](d-math/optimal-transport/README.md)\n * [Optimization Seminar](d-math/optimization-seminar/README.md)\n * [Physics I](d-math/physics-i/README.md)\n * [Physics II](d-math/physics-ii/README.md)\n * [Physics III](d-math/physics-iii/README.md)\n * [Power Sums of Coxeter Exponents (With Some Insight Into the Evolution of an Article)](d-math/power-sums-of-coxeter-exponents-with-some-insight-into-the-evolution-of-an-article/README.md)\n * [Principles of Macroeconomics](d-math/principles-of-macroeconomics/README.md)\n * [Principles of Microeconomics](d-math/principles-of-microeconomics/README.md)\n * [Probabilistic Number Theory](d-math/probabilistic-number-theory/README.md)\n * [Probability Theory](d-math/probability-theory/README.md)\n * [406-2604-AAL Probability and Statistics](d-math/4062604aal-probability-and-statistics/README.md)\n * [401-2604-00L Probability and Statistics](d-math/401260400l-probability-and-statistics/README.md)\n * [Quadratic Forms, Markov Numbers and Diophantine Approximation](d-math/quadratic-forms-markov-numbers-and-diophantine-approximation/README.md)\n * [Quantitative Risk Management](d-math/quantitative-risk-management/README.md)\n * [Quantum Chemistry](d-math/quantum-chemistry/README.md)\n * [Quantum Field Theory I](d-math/quantum-field-theory-i/README.md)\n * [Quantum Field Theory II](d-math/quantum-field-theory-ii/README.md)\n * [Quantum Mechanics I](d-math/quantum-mechanics-i/README.md)\n * [Quantum Mechanics II](d-math/quantum-mechanics-ii/README.md)\n * [Quantum Mechanics for Mathematicians](d-math/quantum-mechanics-for-mathematicians/README.md)\n * [Random Walks on Transitive Graphs](d-math/random-walks-on-transitive-graphs/README.md)\n * [Randomized Algorithms and Probabilistic Methods](d-math/randomized-algorithms-and-probabilistic-methods/README.md)\n * [401-3502-69L Reading Course](d-math/401350269l-reading-course/README.md)\n * [401-3504-69L Reading Course](d-math/401350469l-reading-course/README.md)\n * [401-3503-20L Reading Course](d-math/401350320l-reading-course/README.md)\n * [401-3502-20L Reading Course](d-math/401350220l-reading-course/README.md)\n * [401-3503-69L Reading Course](d-math/401350369l-reading-course/README.md)\n * [401-3504-20L Reading Course](d-math/401350420l-reading-course/README.md)\n * [Reading Course: Functional Analysis II'](d-math/reading-course-functional-analysis-ii/README.md)\n * [Reading Course: Functional Analysis III, Unitary Representations](d-math/reading-course-functional-analysis-iii-unitary-representations/README.md)\n * [Recursive Estimation](d-math/recursive-estimation/README.md)\n * [Reinsurance Analytics](d-math/reinsurance-analytics/README.md)\n * [Representation Theory of Finite Groups](d-math/representation-theory-of-finite-groups/README.md)\n * [Research Seminar on Statistics](d-math/research-seminar-on-statistics/README.md)\n * [Resource and Environmental Economics](d-math/resource-and-environmental-economics/README.md)\n * [Risk and Insurance Economics](d-math/risk-and-insurance-economics/README.md)\n * [Scientific Works in Mathematics](d-math/scientific-works-in-mathematics/README.md)\n * [Selected Topics in Life Insurance Mathematics](d-math/selected-topics-in-life-insurance-mathematics/README.md)\n * [Selected Topics in Probability](d-math/selected-topics-in-probability/README.md)\n * [401-3750-01L Semester Paper](d-math/401375001l-semester-paper/README.md)\n * [401-3750-02L Semester Paper](d-math/401375002l-semester-paper/README.md)\n * [401-3750-03L Semester Paper](d-math/401375003l-semester-paper/README.md)\n * [Semester Paper (No. 2)](d-math/semester-paper-no-2/README.md)\n * [Semester Paper (No. 3)](d-math/semester-paper-no-3/README.md)\n * [Semiconductor Devices](d-math/semiconductor-devices/README.md)\n * [Semiconductor Devices: Physical Bases and Simulation](d-math/semiconductor-devices-physical-bases-and-simulation/README.md)\n * [Semiconductor Devices: Transport Theory and Monte Carlo Simulation](d-math/semiconductor-devices-transport-theory-and-monte-carlo-simulation/README.md)\n * [Seminar in Theoretical Computer Science](d-math/seminar-in-theoretical-computer-science/README.md)\n * [Seminar on Mean-Field Games](d-math/seminar-on-meanfield-games/README.md)\n * [Seminar on Minimal Surfaces](d-math/seminar-on-minimal-surfaces/README.md)\n * [Seminar on Randomized Algorithms and Probabilistic Methods](d-math/seminar-on-randomized-algorithms-and-probabilistic-methods/README.md)\n * [Seminar on Stochastic Processes](d-math/seminar-on-stochastic-processes/README.md)\n * [Signal Analysis, Models, and Machine Learning](d-math/signal-analysis-models-and-machine-learning/README.md)\n * [Solid State Theory](d-math/solid-state-theory/README.md)\n * [Statistical Modelling](d-math/statistical-modelling/README.md)\n * [Statistical Physics](d-math/statistical-physics/README.md)\n * [Stochastic Loss Reserving Methods](d-math/stochastic-loss-reserving-methods/README.md)\n * [Stochastic Simulation](d-math/stochastic-simulation/README.md)\n * [Stochastic Systems](d-math/stochastic-systems/README.md)\n * [Stokes Phenomenon and Isomonodromy Equations](d-math/stokes-phenomenon-and-isomonodromy-equations/README.md)\n * [Student Seminar in Mathematics and Data: Optimization of Random Functions](d-math/student-seminar-in-mathematics-and-data-optimization-of-random-functions/README.md)\n * [Student Seminar in Probability Theory](d-math/student-seminar-in-probability-theory/README.md)\n * [Student Seminar in Statistics: Inference in Non-Classical Regression Models](d-math/student-seminar-in-statistics-inference-in-nonclassical-regression-models/README.md)\n * [Student Seminar in Statistics: The Art of Statistics](d-math/student-seminar-in-statistics-the-art-of-statistics/README.md)\n * [Symmetric Spaces](d-math/symmetric-spaces/README.md)\n * [Symplectic Geometry Seminar](d-math/symplectic-geometry-seminar/README.md)\n * [Systems Dynamics and Complexity](d-math/systems-dynamics-and-complexity/README.md)\n * [Talks in Financial and Insurance Mathematics](d-math/talks-in-financial-and-insurance-mathematics/README.md)\n * [Talks in Mathematical Physics](d-math/talks-in-mathematical-physics/README.md)\n * [The Axiom of Choice](d-math/the-axiom-of-choice/README.md)\n * [The Representation Theory of the Finite Symmetric Groups](d-math/the-representation-theory-of-the-finite-symmetric-groups/README.md)\n * [The Zurich Physics Colloquium](d-math/the-zurich-physics-colloquium/README.md)\n * [The Zurich Theoretical Physics Colloquium](d-math/the-zurich-theoretical-physics-colloquium/README.md)\n * [Theoretical Computer Science](d-math/theoretical-computer-science/README.md)\n * [Theoretical Cosmology](d-math/theoretical-cosmology/README.md)\n * [Theory and Applications of Machine Learning](d-math/theory-and-applications-of-machine-learning/README.md)\n * [Time Series Analysis](d-math/time-series-analysis/README.md)\n * [Topics in Mathematical Finance and Stochastic Analysis](d-math/topics-in-mathematical-finance-and-stochastic-analysis/README.md)\n * [Topics in Partial Differential Equations](d-math/topics-in-partial-differential-equations/README.md)\n * [Topics in Symplectic Topology](d-math/topics-in-symplectic-topology/README.md)\n * [401-2554-00L Topology](d-math/401255400l-topology/README.md)\n * [406-2554-AAL Topology](d-math/4062554aal-topology/README.md)\n * [Transport Phenomena I](d-math/transport-phenomena-i/README.md)\n * [Transport Phenomena II](d-math/transport-phenomena-ii/README.md)\n * 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of Computer Science.\n" }, { "alpha_fraction": 0.5833333134651184, "alphanum_fraction": 0.8333333134651184, "avg_line_length": 36, "blob_id": "436183943c82cd7af80b60ca87f28c4fc8af56c8", "content_id": "6989ac4a253db0e016e3cdfdcaad016171ddcd08", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 36, "license_type": "permissive", "max_line_length": 36, "num_lines": 1, "path": "/d-infk/computer-architecture/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 263-2210-00L Computer Architecture" }, { "alpha_fraction": 0.5714285969734192, "alphanum_fraction": 0.8285714387893677, "avg_line_length": 35, "blob_id": "29f0abc52d271f2660a7478ad7c8a5b8debf2d7e", "content_id": "a75cbf980399ebcd55af5fdc726ed69ec8886d0d", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 35, "license_type": "permissive", "max_line_length": 35, "num_lines": 1, "path": "/d-infk/security-engineering/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 252-0463-00L Security Engineering" }, { "alpha_fraction": 0.5428571701049805, "alphanum_fraction": 0.800000011920929, "avg_line_length": 35, "blob_id": "7a6866211c5d6940de28a33071c9e9c7befdfbff", "content_id": "0a563fca235783b34e473c067ed151210fad6883", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 35, "license_type": "permissive", "max_line_length": 35, "num_lines": 1, "path": "/d-math/algebraic-topology-i/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-3001-61L Algebraic Topology I" }, { "alpha_fraction": 0.6326530575752258, "alphanum_fraction": 0.8163265585899353, "avg_line_length": 49, "blob_id": "2c80c560ef182ba71860783a831afe784a26f2e3", "content_id": 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401-2654-00L Numerical Analysis II" }, { "alpha_fraction": 0.3571428656578064, "alphanum_fraction": 0.7857142686843872, "avg_line_length": 42, "blob_id": "711b6914e056a5c1f2acb1d202aa30eb7be7312b", "content_id": "3fd52c12f4864ff13f9143ef9eca93a40e4a4415", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 42, "license_type": "permissive", "max_line_length": 42, "num_lines": 1, "path": "/d-math/401375001l-semester-paper/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-3750-01L 401-3750-01L Semester Paper" }, { "alpha_fraction": 0.6346153616905212, "alphanum_fraction": 0.807692289352417, "avg_line_length": 52, "blob_id": "de4c4987935e75d0aab2eefe9474e52b209281c2", "content_id": "d687f63c96843c0818a7d353c305a72881fea111", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 53, "license_type": "permissive", "max_line_length": 52, "num_lines": 1, "path": "/d-math/zkost-seminar-on-applied-statistics/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 401-5640-00L ZüKoSt: Seminar on Applied Statistics" }, { "alpha_fraction": 0.6603773832321167, "alphanum_fraction": 0.8301886916160583, "avg_line_length": 53, "blob_id": "84ea0ad2ebde9509e8e4143487d8256cbda96be5", "content_id": "ec8805a8ab6601a6edbda64f2d6cf83277800305", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 53, "license_type": "permissive", "max_line_length": 53, "num_lines": 1, "path": "/d-infk/current-topics-in-information-security/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 252-4601-00L Current Topics in Information Security" }, { "alpha_fraction": 0.6190476417541504, "alphanum_fraction": 0.8333333134651184, "avg_line_length": 42, "blob_id": "ce9f312178aff20a201bd4fd1220c1d2411d3bda", "content_id": "cbe38492a2110e4e6cc6c2193c62c28500f95d0d", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 42, "license_type": "permissive", "max_line_length": 42, "num_lines": 1, "path": "/d-infk/introduction-to-programming/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 252-0027-00L Introduction to Programming" }, { "alpha_fraction": 0.5454545617103577, "alphanum_fraction": 0.8181818127632141, "avg_line_length": 33, "blob_id": "c64b228a8cc358ff04729dccd56dc7bdaea2c562", "content_id": "3173fcf89747cf1581a7f60c64042fb054300fed", "detected_licenses": [ "CC-BY-NC-SA-4.0", "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 33, "license_type": "permissive", "max_line_length": 33, "num_lines": 1, "path": "/d-math/general-relativity/README.md", "repo_name": "MKimiSH/ETH-Course-Guide", "src_encoding": "UTF-8", "text": "# 402-0830-00L General Relativity" } ]	414
codingwithjbear/django-personal-portfolio	https://github.com/codingwithjbear/django-personal-portfolio	91d0ffd2c63e3df1ebcbf0f46a4797083cc1b41a	fa148227922a1fc8a5f51fa78ae174439b6cf67c	bb501ea4dc1af001afb719a6d22de23a88408415	refs/heads/main	2023-02-21T12:59:07.353386	2021-01-24T20:49:21	2021-01-24T20:49:21	329,386,096	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6888217329978943, "alphanum_fraction": 0.6978852152824402, "avg_line_length": 32.20000076293945, "blob_id": "e6f9b334172ac269c1a9b0515dc1f94259c43048", "content_id": "3f1a4eeb15b8bb9d0e1a094adc2fa09cd4e0671c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 331, "license_type": "no_license", "max_line_length": 105, "num_lines": 10, "path": "/blog/models.py", "repo_name": "codingwithjbear/django-personal-portfolio", "src_encoding": "UTF-8", "text": "from django.db import models\n\n# Create your models here.\nclass Blog(models.Model):\n title = models.CharField(max_length=200)\n description = models.TextField()\n date = models.DateField()\n \n def __str__(self): # functions have nothing to do with the database so it doesn't need to be migrated\n return self.title" }, { "alpha_fraction": 0.7699999809265137, "alphanum_fraction": 0.7699999809265137, "avg_line_length": 55.85714340209961, "blob_id": "d7b00bc455e70e85fb5e73fb6a352b15b5b26848", "content_id": "57f28ca8067fcfb171049673f405f3aa0b100abf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 400, "license_type": "no_license", "max_line_length": 176, "num_lines": 7, "path": "/portfolio/views.py", "repo_name": "codingwithjbear/django-personal-portfolio", "src_encoding": "UTF-8", "text": "from django.shortcuts import render\nfrom .models import Project\n\n# Create your views here.\ndef home(request):\n projects = Project.objects.all() # all the project objects from the database are placed into this variable\n return render(request, 'portfolio/home.html', {'projects':projects}) #pass into the template a dictonary with the key being \"projects\" then pass forward the project objects \n\n" }, { "alpha_fraction": 0.6775407791137695, "alphanum_fraction": 0.6925972104072571, "avg_line_length": 48.875, "blob_id": "5b7b2c08ac42cf0956e5abfc93327107446ed71b", "content_id": "bd62967d96af37777c1f6e9a7590fb7afcaa0bf5", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 797, "license_type": "no_license", "max_line_length": 122, "num_lines": 16, "path": "/blog/views.py", "repo_name": "codingwithjbear/django-personal-portfolio", "src_encoding": "UTF-8", "text": "from django.shortcuts import render, get_object_or_404 # get_Obj... tries to get and show an object or shows the 404 error\nfrom .models import Blog\n\n# Create your views here.\ndef all_blogs(request):\n blog_count = Blog.objects.count\n blogs = Blog.objects.order_by('-date')[:5] \n #order by -date makes it so the most current posts show first\n # [:5] limits the length to the first 5 blog posts\n # you can add a button to go to the next page to see more post or show more\n ## blogs = Blog.objects.order_by('-date') \n return render(request, 'blog/all_blogs.html', {'blogs':blogs,'blogcount':blog_count})\n\ndef detail(request, blog_id):\n blog = get_object_or_404(Blog, pk=blog_id) #pk = primary key for us that is 'id'\n return render(request, 'blog/detail.html',{'blog':blog})" }, { "alpha_fraction": 0.7873563170433044, "alphanum_fraction": 0.7873563170433044, "avg_line_length": 24, "blob_id": "68347167bd3c2d4836fad19ae925923fb5046cb9", "content_id": "1a6e94789f1d3541bb5ccfdab56e3b220754d40f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 174, "license_type": "no_license", "max_line_length": 81, "num_lines": 7, "path": "/portfolio/admin.py", "repo_name": "codingwithjbear/django-personal-portfolio", "src_encoding": "UTF-8", "text": "from django.contrib import admin\n\n# Register your models here.\n\nfrom .models import Project\n\nadmin.site.register(Project) # says that I want to see this model inside of admin" }, { "alpha_fraction": 0.7120181322097778, "alphanum_fraction": 0.725623607635498, "avg_line_length": 43.20000076293945, "blob_id": "1eaa59ca916ca3121651d2df9bbdc97ae3c0c8db", "content_id": "47fbfbc91f8a3f1053d4b4368c05e69ea1e7f287", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 441, "license_type": "no_license", "max_line_length": 151, "num_lines": 10, "path": "/portfolio/models.py", "repo_name": "codingwithjbear/django-personal-portfolio", "src_encoding": "UTF-8", "text": "from django.db import models\n\nclass Project(models.Model):\n title = models.CharField(max_length=100)\n description = models.CharField(max_length=250)\n image = models.ImageField(upload_to='portfolio/images/') #upload_to automatically creates a media folder so this would be in media/portfolio/images\n url = models.URLField(blank=True) # blank = true makes the visibity optional\n \n def __str__(self):\n return self.title" }, { "alpha_fraction": 0.7213930487632751, "alphanum_fraction": 0.7213930487632751, "avg_line_length": 43.77777862548828, "blob_id": "5b973216134ca8fa52dc94aeaef9c4d7b8c7bae5", "content_id": "e24a364cccf85fc81af7e4effaad1a7a676da783", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 402, "license_type": "no_license", "max_line_length": 149, "num_lines": 9, "path": "/blog/urls.py", "repo_name": "codingwithjbear/django-personal-portfolio", "src_encoding": "UTF-8", "text": "from django.urls import path, include\nfrom . import views\n\napp_name = 'blog' #declaring the app name will help limit errors if another app has the same page name \"detail\" in our example\n\nurlpatterns = [\n path('',views.all_blogs, name='all_blogs'),\n path('<int:blog_id>/',views.detail, name='detail'), # if any one enters an integer after blog I want you to represent that integer as the blog id\n]" } ]	6
volyomaS/battle_engine	https://github.com/volyomaS/battle_engine	16f4161ceee257ce2673748e5d9ac62abb964376	95fd3feade63f426f323d2828745d1181157cfad	257d15a62e2ef7f8e6f2ffdc1479cb39bfd884c3	refs/heads/master	2021-04-17T10:18:57.493761	2020-03-23T13:30:25	2020-03-23T13:30:25	249,437,028	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.7197452187538147, "alphanum_fraction": 0.7324841022491455, "avg_line_length": 21.428571701049805, "blob_id": "839ab23ecd60648c4fa0f44ddde7c9380af6dd99", "content_id": "2b1cfbc9d33c171468926310f02ba7adb754fab1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 157, "license_type": "no_license", "max_line_length": 47, "num_lines": 7, "path": "/Modifiers/AttackBuff.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Modifiers.BaseModifier import BaseModifier\n\n\nclass AttackBuff(BaseModifier):\n @staticmethod\n def calc_attack(attack):\n return attack * 1.2\n" }, { "alpha_fraction": 0.7379679083824158, "alphanum_fraction": 0.7379679083824158, "avg_line_length": 22.375, "blob_id": "2ee5db09ceb550ee34b38d56b9d853463d8aa1ae", "content_id": "c1f2a79dba5704ba2720cf19c2d08d9050038bc4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 187, "license_type": "no_license", "max_line_length": 39, "num_lines": 8, "path": "/Casts/Motivate.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Casts.BaseCast import BaseCast\nfrom Modifiers.InitBuff import InitBuff\n\n\nclass Motivate(BaseCast):\n @staticmethod\n def cast(actor, target):\n target.add_buff(InitBuff())\n" }, { "alpha_fraction": 0.6150793433189392, "alphanum_fraction": 0.6626983880996704, "avg_line_length": 24.200000762939453, "blob_id": "0c39d1968be02ad9e71334be881f9e31c8791b85", "content_id": "734fac348281c5d22b08f835e2f947ed18498022", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 252, "license_type": "no_license", "max_line_length": 80, "num_lines": 10, "path": "/Units/Cyclops.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Unit import Unit\nfrom dataclasses import dataclass\nfrom Modifiers import \nfrom Casts import \n\n\n@dataclass(frozen=True)\nclass Cyclops(Unit):\n def __init__(self):\n Unit.__init__(self, \"Cyclops\", 85, 20, 15, (18, 26), 10, list([]), None)\n" }, { "alpha_fraction": 0.7461928725242615, "alphanum_fraction": 0.7512690424919128, "avg_line_length": 23.625, "blob_id": "d0db909cf550bb101485d87411c5122ab0409d1c", "content_id": "4a3983cc9f208a78bb5cc7db1ad5847061e71f46", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 197, "license_type": "no_license", "max_line_length": 43, "num_lines": 8, "path": "/Casts/SharpWeapon.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Casts.BaseCast import BaseCast\nfrom Modifiers.AttackBuff import AttackBuff\n\n\nclass SharpWeapon(BaseCast):\n @staticmethod\n def cast(actor, target):\n target.add_buff(AttackBuff(3))\n" }, { "alpha_fraction": 0.511469304561615, "alphanum_fraction": 0.5182889103889465, "avg_line_length": 26.49431800842285, "blob_id": "bac26fa236c0c205dc934ce6b7d49b8364555796", "content_id": "9fceb4a4f766e927d7bde96ab676bfd258523fae", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4839, "license_type": "no_license", "max_line_length": 74, "num_lines": 176, "path": "/BattleUnitsStack.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from UnitsStack import UnitsStack\nfrom Modifiers import \n\n\nclass BattleUnitsStack:\n # __isAlive: bool\n # __quantity: int\n # __dmg: tuple\n # __type: str\n # __attack: float\n # __hp: float\n # __base_hp: float\n # __defence: float\n # __init: float\n # __buffs: list\n # __retaliate: bool\n\n def __init__(self, unitsstack: UnitsStack):\n self.__isAlive = True\n self.__quantity = unitsstack.quantity\n self.__dmg = unitsstack.unit.dmg\n self.__type = unitsstack.unit.type\n self.__hp = unitsstack.unit.hp\n self.__base_hp = unitsstack.unit.hp\n self.__attack = unitsstack.unit.attack\n self.__defence = unitsstack.unit.defence\n self.__init = unitsstack.unit.init\n self.__buffs = list(unitsstack.unit.buffs)\n self.__cast = unitsstack.unit.cast\n self.__retaliate = True\n\n @property\n def isAlive(self):\n return self.__isAlive\n\n def kill(self):\n self.__isAlive = False\n self.__quantity = 0\n\n def resurrect(self, hp):\n self.__isAlive = True\n self.__quantity = self.__hp // hp\n\n @property\n def quantity(self):\n return self.__quantity\n\n @quantity.setter\n def quantity(self, new_quantity: int):\n if new_quantity > 0:\n self.__quantity = new_quantity\n elif new_quantity == 0:\n exit(\"Error, use BattleUnitsStack.kill instead\")\n else:\n exit(\"Your quantity is incorrect because of new_quantity < 0\")\n\n @property\n def dmg(self):\n new_dmg = self.__dmg\n i = 0\n while i < len(self.__buffs):\n new_dmg = self.__buffs[i].calc_dmg(new_dmg)\n self.__buffs[i].decrease_time()\n if self.__buffs[i].get_time() == 0:\n self.__buffs = self.__buffs[:i] + self.__buffs[i + 1:]\n i += 1\n return new_dmg\n\n @dmg.setter\n def dmg(self, new_dmg: tuple):\n if len(new_dmg) == 2:\n self.__dmg = new_dmg\n else:\n exit(\"Your dmg is incorrect, because of len(new_dmg) != 2\")\n\n @property\n def type(self):\n return self.__type\n\n @type.setter\n def type(self, new_type: str):\n self.__type = new_type\n\n @property\n def hp(self):\n return self.__hp\n\n @hp.setter\n def hp(self, new_hp: float):\n if new_hp > 0:\n self.__hp = new_hp\n else:\n exit(\"Your hp is incorrect, because of new_hp <= 0\")\n\n @property\n def base_hp(self):\n return self.__base_hp\n\n @property\n def attack(self):\n new_attack = self.__attack\n i = 0\n while i < len(self.__buffs):\n new_attack = self.__buffs[i].calc_attack(new_attack)\n self.__buffs[i].decrease_time()\n if self.__buffs[i].get_time() == 0:\n self.__buffs = self.__buffs[:i] + self.__buffs[i + 1:]\n i += 1\n return new_attack\n\n @attack.setter\n def attack(self, new_attack: float):\n if new_attack >= 0:\n self.__attack = new_attack\n else:\n exit(\"Your attack is incorrect, because of new_attack < 0\")\n\n @property\n def defence(self):\n new_def = self.__defence\n i = 0\n while i < len(self.__buffs):\n new_def = self.__buffs[i].calc_def(new_def)\n self.__buffs[i].decrease_time()\n if self.__buffs[i].get_time() == 0:\n self.__buffs = self.__buffs[:i] + self.__buffs[i + 1:]\n i += 1\n return new_def\n\n @defence.setter\n def defence(self, new_defence: float):\n if new_defence >= 0:\n self.__attack = new_defence\n else:\n exit(\"Your defence is incorrect, because of new_defence < 0\")\n\n @property\n def init(self):\n new_init = self.__init\n i = 0\n while i < len(self.__buffs):\n new_init = self.__buffs[i].calc_init(new_init)\n self.__buffs[i].decrease_time()\n if self.__buffs[i].get_time() == 0:\n self.__buffs = self.__buffs[:i] + self.__buffs[i + 1:]\n i += 1\n return new_init\n\n @init.setter\n def init(self, new_init: float):\n if new_init >= 0:\n self.__init = new_init\n else:\n exit(\"Your init is incorrect, because of new_init < 0\")\n\n def add_buff(self, buff):\n self.__buffs.append(buff)\n\n def remove_buff(self, buff):\n i = 0\n while i < len(self.__buffs):\n if buff == self.__buffs[i]:\n self.__buffs = self.__buffs[:i] + self.__buffs[i + 1:]\n i += 1\n\n @property\n def cast(self):\n return self.__cast\n\n @property\n def retaliate(self):\n return self.__retaliate\n\n @retaliate.setter\n def retaliate(self, new: bool):\n self.__retaliate = new\n" }, { "alpha_fraction": 0.7368420958518982, "alphanum_fraction": 0.74210524559021, "avg_line_length": 22.75, "blob_id": "47063ad0896a23e81164f500c8c4d3d9fcd24cc8", "content_id": "c3e0d920372caa21decbcbfb6a8caa80af109ca3", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 190, "license_type": "no_license", "max_line_length": 37, "num_lines": 8, "path": "/Casts/StrongDefence.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Casts.BaseCast import BaseCast\nfrom Modifiers.DefBuff import DefBuff\n\n\nclass StrongDefence(BaseCast):\n @staticmethod\n def cast(actor, target):\n target.add_buff(DefBuff(3))\n" }, { "alpha_fraction": 0.5424710512161255, "alphanum_fraction": 0.546332061290741, "avg_line_length": 26.263158798217773, "blob_id": "169a04c0d7e8e0b80d4f5cbf6828ba9145f25ed2", "content_id": "3a531f0aacf5dcce937238ed67fd13e3beb606d7", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 518, "license_type": "no_license", "max_line_length": 64, "num_lines": 19, "path": "/LoadMod.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "import importlib\n\nimport Mods\n\n\nclass LoadMod:\n @staticmethod\n def load(module: str) -> object:\n try:\n components = module.split('.')\n mod = importlib.import_module(components[0], 'Mods')\n # mod = __import__()\n for comp in components[1:]:\n mod = getattr(mod, comp)\n return mod\n except AttributeError:\n exit(\"There is no such attribute\")\n except ModuleNotFoundError:\n exit(\"There is no such module\")\n" }, { "alpha_fraction": 0.7006802558898926, "alphanum_fraction": 0.7006802558898926, "avg_line_length": 20, "blob_id": "d570af8189b4bb52901a4a2c81fade701bb58444", "content_id": "12a00fdede7ec911842c6f596d31353e98d72e18", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 147, "license_type": "no_license", "max_line_length": 35, "num_lines": 7, "path": "/Casts/RestoreHP.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Casts.BaseCast import BaseCast\n\n\nclass RestoreHP(BaseCast):\n @staticmethod\n def cast(actor, target):\n target.hp = target.base_hp\n" }, { "alpha_fraction": 0.6479400992393494, "alphanum_fraction": 0.6741573214530945, "avg_line_length": 25.700000762939453, "blob_id": "dd0b599258f75f8768a467a842a5db8fb3188f30", "content_id": "35e3d7b578c74eeac4b170c22463fae91b970f51", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 267, "license_type": "no_license", "max_line_length": 91, "num_lines": 10, "path": "/Units/Crossbowman.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Unit import Unit\nfrom dataclasses import dataclass\nfrom Modifiers import \nfrom Casts import \n\n\n@dataclass(frozen=True)\nclass Crossbowman(Unit):\n def __init__(self):\n Unit.__init__(self, \"Crossbowman\", 10, 4, 4, (2, 8), 8, list([AttackBuff()]), None)\n" }, { "alpha_fraction": 0.7086092829704285, "alphanum_fraction": 0.7218543291091919, "avg_line_length": 20.571428298950195, "blob_id": "3ef1ac6efd5ec7c5b2f84f87f21fc54366e1fb61", "content_id": "998ad586db30366a6a4d96c6047b50d04cd8587a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 151, "license_type": "no_license", "max_line_length": 47, "num_lines": 7, "path": "/Modifiers/DefBuff.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Modifiers.BaseModifier import BaseModifier\n\n\nclass DefBuff(BaseModifier):\n @staticmethod\n def calc_def(defend):\n return defend 1.3\n" }, { "alpha_fraction": 0.572139322757721, "alphanum_fraction": 0.6169154047966003, "avg_line_length": 24.125, "blob_id": "170524799f9487516f4a0b9021f0ac041f3f6967", "content_id": "1c15ad31cf71a023bdad458b857e2fa7f9ccc5a4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 402, "license_type": "no_license", "max_line_length": 93, "num_lines": 16, "path": "/Mods/APIUnits.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Unit import Unit\nfrom dataclasses import dataclass\nfrom Modifiers import \nfrom Casts import \n\n\n@dataclass(frozen=True)\nclass Imp(Unit):\n def __init__(self):\n Unit.__init__(self, \"Imp\", 1, 1, 1, (1, 1), 1, list([]), None)\n\n\n@dataclass(frozen=True)\nclass Papich(Unit):\n def __init__(self):\n Unit.__init__(self, \"Papich\", 29, 29, 29, (28, 30), 29, list([KingBuff()]), Motivate)\n" }, { "alpha_fraction": 0.7422680258750916, "alphanum_fraction": 0.7474226951599121, "avg_line_length": 23.25, "blob_id": "74049d80a0b580faddaed12ad1883ba60f725ae3", "content_id": "983a8259f0fab52987b91c91cac9fba9c753a723", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 194, "license_type": "no_license", "max_line_length": 43, "num_lines": 8, "path": "/Casts/Weakness.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Modifiers.WeakWeapon import WeakWeapon\nfrom Casts.BaseCast import BaseCast\n\n\nclass Weakness(BaseCast):\n @staticmethod\n def cast(actor, target):\n target.add_buff(WeakWeapon(3))\n" }, { "alpha_fraction": 0.476592481136322, "alphanum_fraction": 0.4979534447193146, "avg_line_length": 34.698631286621094, "blob_id": "b2dd739d1c76485c34d64e19d6f34887d3d4f826", "content_id": "5c98a273d1958fa63c7c3445c5f9c7c98082c5f2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 7818, "license_type": "no_license", "max_line_length": 173, "num_lines": 219, "path": "/Battle.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from BattleArmy import BattleArmy\nfrom collections import deque\nfrom Modifiers import \nfrom termcolor import colored\nfrom UI import UI\nimport numpy as np\n\n\nclass Battle:\n __army1: BattleArmy\n __army2: BattleArmy\n __current_round = 1\n __isCompleted: bool\n __winner: int\n __init: deque\n __waiting: deque\n\n def __init__(self, army1: BattleArmy, army2: BattleArmy):\n self.__army1 = army1\n self.__army2 = army2\n self.__current_round = 1\n self.__isCompleted = False\n self.__winner = None\n arr = []\n for army in [army1, army2]:\n for stack in army.stacks:\n if army == army1 and stack.isAlive:\n arr.append([stack.init, stack.type, 1])\n elif stack.isAlive:\n arr.append([stack.init, stack.type, 2])\n arr.sort(reverse=True, key=lambda x: x[0])\n self.__init = deque(arr)\n self.__waiting = deque(list())\n\n def get_init(self):\n arr = []\n for army in [self.__army1, self.__army2]:\n for stack in army.stacks:\n if army == self.__army1 and stack.isAlive:\n arr.append([stack.init, stack.type, 1])\n elif stack.isAlive:\n arr.append([stack.init, stack.type, 2])\n arr.sort(reverse=True, key=lambda x: x[0])\n return deque(arr)\n\n @property\n def current_round(self):\n return self.__current_round\n\n def next_round(self):\n self.__current_round += 1\n\n @property\n def current_turn(self):\n return self.__init[0]\n\n def print_turn(self):\n print(f\"{self.__init[0][1]}({self.__init[0][2]})\", end=\" \")\n for i in range(1, len(self.__init)):\n print(f\"-> {self.__init[i][1]}({self.__init[i][2]})\", end=\" \")\n for i in range(0, len(self.__waiting)):\n print(f\"-> {self.__waiting[i][1]}({self.__waiting[i][2]})\", end=\" \")\n print(\"\|\", end=\" \")\n arr = self.get_init()\n print(f\"{arr[0][1]}({arr[0][2]})\", end=\" \")\n for i in range(1, len(arr)):\n print(f\"-> {arr[i][1]}({arr[i][2]})\", end=\" \")\n print()\n\n @property\n def status(self):\n return self.__isCompleted\n\n def print_status(self):\n if self.__isCompleted:\n print(colored(f\"Battle is over, winner is {self.__winner} army!\", 'red'))\n else:\n print(colored(\"Battle is going!\", 'red'))\n\n def do_action(self, action, params):\n if self.__isCompleted:\n self.print_status()\n elif action == \"attack\":\n self.attack(self.current_turn, (0, params[0], self.current_turn[2] % 2 + 1)) if len(params) == 1 and type(params[0]) == str else print(\"Wrong params for attack\")\n elif action == \"wait\":\n self.wait()\n elif action == \"defend\":\n self.defend()\n elif action == \"surrender\":\n self.surrender()\n elif action == \"cast\":\n self.cast(self.current_turn, (0, params[0], params[1]))\n\n if len(self.__init) == 0 and len(self.__waiting) == 0:\n self.__init = self.get_init()\n self.next_round()\n for stack in self.__army1.stacks:\n stack.retaliate = True\n for stack in self.__army2.stacks:\n stack.retaliate = True\n elif len(self.__init) == 0 and len(self.__waiting) != 0:\n self.__init = self.__waiting\n self.__waiting = deque(list())\n\n def attack(self, attack, defend, retaliate = False):\n ind1, ind2 = None, None\n\n if attack[2] == 1:\n army_a = self.__army1\n army_d = self.__army2\n else:\n army_a = self.__army2\n army_d = self.__army1\n\n for i in range(0, len(army_a.stacks)):\n if attack[1] == army_a.stacks[i].type:\n ind1 = i\n break\n for i in range(0, len(army_d.stacks)):\n if defend[1] == army_d.stacks[i].type:\n ind2 = i\n break\n\n if army_a.stacks[ind1].attack > army_d.stacks[ind2].defence:\n damage = army_a.stacks[ind1].quantity * \\\n np.random.choice(np.linspace(army_a.stacks[ind1].dmg[0],\n army_a.stacks[ind1].dmg[1], 100)) * \\\n (1 + 0.05 * (army_a.stacks[ind1].attack - army_d.stacks[ind2].defence))\n else:\n damage = army_a.stacks[ind1].quantity * \\\n np.random.choice(np.linspace(army_a.stacks[ind1].dmg[0],\n army_a.stacks[ind1].dmg[1], 100)) / \\\n (1 + 0.05 * (army_d.stacks[ind2].defence - army_a.stacks[ind1].attack))\n UI.print_dmg(damage, army_a.stacks[ind1].type)\n least_hp = (((army_d.stacks[ind2].quantity - 1) * army_d.stacks[ind2].base_hp) +\n army_d.stacks[ind2].hp) - damage\n if least_hp > 0:\n UI.print_quantity_diff(army_d.stacks[ind2].quantity, least_hp // army_d.stacks[ind2].base_hp + 1,\n army_d.stacks[ind2].type)\n army_d.stacks[ind2].quantity = least_hp // army_d.stacks[ind2].base_hp + 1\n army_d.stacks[ind2].hp = least_hp % army_d.stacks[ind2].base_hp\n if army_d.stacks[ind2].retaliate and retaliate is False:\n army_d.stacks[ind2].retaliate = False\n self.attack(defend, attack, retaliate=True)\n else:\n UI.print_dead(army_d.stacks[ind2].type)\n army_d.stacks[ind2].kill()\n for i in range(0, len(self.__init)):\n if self.__init[i][1] == defend[1] and self.__init[i][2] == defend[2]:\n arr = list(self.__init)\n self.__init = deque(arr[0:i] + arr[i + 1:])\n break\n if self.count_stacks(defend[2]) == 0:\n self.__isCompleted = True\n self.__winner = attack[2]\n\n if retaliate is False and len(self.__init) != 0 and self.__init[0] == attack:\n self.__init.popleft()\n\n def wait(self):\n self.__waiting.appendleft(self.__init.popleft())\n\n def defend(self):\n ct = self.current_turn\n if ct[2] == 1:\n army = self.__army1\n else:\n army = self.__army2\n for i in range(0, len(army.stacks)):\n if ct[1] == army.stacks[i].type:\n ind = i\n break\n army.stacks[ind].add_buff(DefBuff(1))\n self.__init.popleft()\n\n def surrender(self):\n ct = self.current_turn\n self.__isCompleted = True\n self.__winner = (ct[2] % 2) + 1\n self.print_status()\n\n def count_stacks(self, num):\n if num == 1:\n army = self.__army1\n else:\n army = self.__army2\n count = 0\n for stack in army.stacks:\n if stack.isAlive:\n count += 1\n return count\n\n def cast(self, attack, defend):\n ind1, ind2 = None, None\n\n if int(attack[2]) == 1:\n army_a = self.__army1\n else:\n army_a = self.__army2\n if int(defend[2]) == 1:\n army_d = self.__army1\n else:\n army_d = self.__army2\n\n for i in range(0, len(army_a.stacks)):\n if attack[1] == army_a.stacks[i].type:\n ind1 = i\n break\n for i in range(0, len(army_d.stacks)):\n if defend[1] == army_d.stacks[i].type:\n ind2 = i\n break\n\n if army_a.stacks[ind1].cast is not None:\n army_a.stacks[ind1].cast.cast(army_a.stacks[ind1], army_d.stacks[ind2])\n else:\n print(\"This UnitStack has no casts\")\n\n self.__init.popleft()\n" }, { "alpha_fraction": 0.7197452187538147, "alphanum_fraction": 0.7324841022491455, "avg_line_length": 21.428571701049805, "blob_id": "8d6a91b84173b1f9d070064065c74a887be579f8", "content_id": "d354d3932d5b4259833e81eb736b1e97f84bc603", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 157, "license_type": "no_license", "max_line_length": 47, "num_lines": 7, "path": "/Modifiers/WeakWeapon.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Modifiers.BaseModifier import BaseModifier\n\n\nclass WeakWeapon(BaseModifier):\n @staticmethod\n def calc_attack(attack):\n return attack * 0.6\n" }, { "alpha_fraction": 0.6197718381881714, "alphanum_fraction": 0.6692014932632446, "avg_line_length": 25.299999237060547, "blob_id": "ea2954110adca5e4c5ab54a078045e223c0a710b", "content_id": "95c4e17baedb5264110585fbeb19913a41c1c371", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 263, "license_type": "no_license", "max_line_length": 93, "num_lines": 10, "path": "/Units/Angel.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Unit import Unit\nfrom dataclasses import dataclass\nfrom Modifiers import \nfrom Casts import \n\n\n@dataclass(frozen=True)\nclass Angel(Unit):\n def __init__(self):\n Unit.__init__(self, \"Angel\", 180, 27, 27, (45, 45), 11, list([KingBuff()]), Motivate)\n" }, { "alpha_fraction": 0.4675024151802063, "alphanum_fraction": 0.4781099259853363, "avg_line_length": 40.814517974853516, "blob_id": "c33dfc1c4edaf8dedb3b8da2ab8ee89aa44cc815", "content_id": "fe8af8f909c82548c475482091ec5352a3f0db7a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5185, "license_type": "no_license", "max_line_length": 106, "num_lines": 124, "path": "/main.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "import os\nfrom UI import UI\nfrom UnitsStack import UnitsStack\nfrom BattleUnitsStack import BattleUnitsStack\nfrom BattleArmy import BattleArmy\nfrom Battle import Battle\nfrom Units import \nfrom LoadMod import LoadMod\n\nif __name__ == \"__main__\":\n lang = 'en'\n mods = []\n units = [Angel, BoneDragon, Crossbowman, Cyclops, Devil, Fury, Gryphon, Hydra, Lich, Shaman, Skeleton]\n army1 = []\n army2 = []\n\n os.system(\"cls\")\n UI.print_greeting(lang=lang)\n while True:\n UI.print_help(lang=lang)\n UI.print_prompt(lang=lang)\n cmd = input()\n os.system(\"cls\")\n if cmd == '4' or cmd.lower() == 'exit':\n UI.print_exit(lang=lang)\n input()\n exit()\n elif cmd == '2' or cmd.lower() == 'battle':\n if len(army1) < 1 or len(army2) < 1:\n UI.print_not_enough_stacks(lang=lang)\n continue\n b_army1 = BattleArmy(list(map(lambda x: BattleUnitsStack(x), army1)))\n b_army2 = BattleArmy(list(map(lambda x: BattleUnitsStack(x), army2)))\n battle = Battle(b_army1, b_army2)\n while True:\n battle.print_status()\n if battle.status:\n break\n UI.print_battle(lang=lang)\n UI.print_prompt(lang=lang)\n cmd = input()\n os.system(\"cls\")\n if cmd == '1' or cmd.lower() == 'attack':\n print(f\"Select unit to attack (e.g. 'Skeleton')\")\n battle.print_turn()\n unit = input(\"Type: \")\n battle.do_action('attack', unit)\n elif cmd == '4' or cmd.lower() == 'cast':\n print(f\"Select unit and army to cast (e.g. 'Skeleton 2')\")\n battle.print_turn()\n unit = input(\"Type: \").split()\n battle.do_action('cast', unit[0], unit[1])\n elif cmd == '5' or cmd.lower() == 'surrender':\n battle.do_action(\"surrender\")\n break\n elif cmd == '2' or cmd.lower() == 'defend':\n battle.do_action(\"defend\")\n elif cmd == '3' or cmd.lower() == 'wait':\n battle.do_action(\"wait\")\n elif cmd.lower() == 'pt':\n battle.print_turn()\n elif cmd.lower() == 'ps':\n battle.print_status()\n # TODO delete units stack\n new_army1 = []\n new_army2 = []\n os.system(\"cls\")\n UI.print_results(lang=lang)\n UI.print_for_army(1, lang=lang)\n for a, b in zip(army1, b_army1.stacks):\n if not b.isAlive:\n UI.print_dead(b.type, lang=lang)\n else:\n UI.print_quantity_diff(a.quantity, b.quantity, a.unit.type, lang=lang)\n UI.print_hp_diff(a.unit.hp, b.hp, a.unit.type, lang=lang)\n new_army1.append(UnitsStack(a.unit, b.quantity))\n print()\n UI.print_for_army(2)\n for a, b in zip(army2, b_army2.stacks):\n if not b.isAlive:\n UI.print_dead(b.type, lang=lang)\n else:\n UI.print_quantity_diff(a.quantity, b.quantity, a.unit.type, lang=lang)\n UI.print_hp_diff(a.unit.hp, b.hp, a.unit.type, lang=lang)\n new_army2.append(UnitsStack(a.unit, b.quantity))\n print()\n army1 = list(new_army1)\n army2 = list(new_army2)\n elif cmd == '1' or cmd.lower() == 'add':\n UI.print_add(lang=lang)\n for i in range(len(units)):\n print(f\"{i+1}. {units[i].__name__}\")\n for i in range(len(mods)):\n print(f\"{i + 1 + len(units)}. {mods[i].__name__}\")\n ind, count, army = map(int, input().split())\n if army == 1:\n if ind <= len(units):\n army1.append(UnitsStack(units[ind-1](), count))\n else:\n army1.append(UnitsStack(mods[ind-1-len(units)](), count))\n elif army == 2:\n if ind <= len(units):\n army2.append(UnitsStack(units[ind-1](), count))\n else:\n army2.append(UnitsStack(mods[ind-1-len(units)](), count))\n else:\n UI.print_wrong_army(lang=lang)\n continue\n os.system(\"cls\")\n UI.print_succ_add(lang=lang)\n elif cmd == '5' or cmd.lower() == 'load':\n UI.print_load(lang=lang)\n mods.append(LoadMod.load(input()))\n os.system(\"cls\")\n UI.print_succ_add(lang=lang)\n elif cmd == '3' or cmd.lower() == 'get':\n UI.print_for_army(1, lang=lang)\n for stack in army1:\n UI.print_stack(stack.unit.type, stack.quantity, lang=lang)\n UI.print_for_army(2, lang=lang)\n for stack in army2:\n UI.print_stack(stack.unit.type, stack.quantity, lang=lang)\n else:\n UI.print_unexpected(lang=lang)\n" }, { "alpha_fraction": 0.5991379022598267, "alphanum_fraction": 0.6508620977401733, "avg_line_length": 24.77777862548828, "blob_id": "982731c657eb87c321dc215d6b43b7a0aaeec06f", "content_id": "b1ed9f9b035abdfdf33fec1c72a20fb044fdb9e0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 232, "license_type": "no_license", "max_line_length": 85, "num_lines": 9, "path": "/Units/Shaman.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Unit import Unit\nfrom dataclasses import dataclass\nfrom Casts import \n\n\n@dataclass(frozen=True)\nclass Shaman(Unit):\n def __init__(self):\n Unit.__init__(self, \"Shaman\", 40, 12, 10, (7, 12), 10.5, list([]), RestoreHP)\n" }, { "alpha_fraction": 0.8790322542190552, "alphanum_fraction": 0.8790322542190552, "avg_line_length": 40.33333206176758, "blob_id": "2041d842a365e502b75a5814b5943ac94f924cb6", "content_id": "6ef5a566f95682c120665d74421569b300652f73", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 248, "license_type": "no_license", "max_line_length": 47, "num_lines": 6, "path": "/Modifiers/__init__.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Modifiers.BaseModifier import BaseModifier\nfrom Modifiers.AttackBuff import AttackBuff\nfrom Modifiers.DefBuff import DefBuff\nfrom Modifiers.DmgBuff import DmgBuff\nfrom Modifiers.InitBuff import InitBuff\nfrom Modifiers.KingBuff import KingBuff\n" }, { "alpha_fraction": 0.5276764035224915, "alphanum_fraction": 0.5313260555267334, "avg_line_length": 30.01886749267578, "blob_id": "8e111f3f1ab4a0418bd017efa1e4e06378626f61", "content_id": "a42c97622cd01301fddbc7826a129cfc11a6c10d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3288, "license_type": "no_license", "max_line_length": 99, "num_lines": 106, "path": "/UI.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from termcolor import colored\n\n\nclass UI:\n @staticmethod\n def print_greeting(lang='en'):\n if lang == 'en':\n print(colored(\"Hello! It's my battle engine.\", 'blue', attrs=['bold']))\n\n @staticmethod\n def print_help(lang='en'):\n if lang == 'en':\n print(colored(\"\"\"Available commands (num or string):\n 1. Add units stack to an army\n 2. Battle\n 3. Get armies\n 4. Exit\n 5. Load mod (for developers)\"\"\", 'blue'))\n\n @staticmethod\n def print_prompt(lang='en'):\n if lang == 'en':\n print(colored(\"Type a command: \", 'green'))\n\n @staticmethod\n def print_exit(lang='en'):\n if lang == 'en':\n print(colored(\"Thanks for using!\", 'red', attrs=['bold']))\n\n @staticmethod\n def print_unexpected(lang='en'):\n if lang == 'en':\n print(colored(\"Unexpected command, try again\", 'red'))\n\n @staticmethod\n def print_add(lang='en'):\n if lang == 'en':\n print(colored(\"Type unit's num, count and number of army (e.g. Skeleton 2 1)\", 'blue'))\n print(colored(\"Available units:\", 'blue'))\n\n @staticmethod\n def print_succ_add(lang='en'):\n if lang == 'en':\n print(colored(\"Successfully added!\", 'blue'))\n\n @staticmethod\n def print_load(lang='en'):\n if lang == 'en':\n print(colored(\"Type name of unit (e.g. Module.**.Class): \", 'blue'))\n\n @staticmethod\n def print_battle(lang='en'):\n if lang == 'en':\n print(colored(\"Type 'pt' for print turn\", 'blue'))\n print(colored(\"Type 'ps' for print status\", 'blue'))\n print(colored(\"\"\"Available commands:\n 1. Attack\n 2. Defend\n 3. Wait\n 4. Cast\n 5. Surrender\"\"\", 'blue'))\n\n @staticmethod\n def print_quantity_diff(old: int, new: int, utype: str, lang='en'):\n if lang == 'en':\n print(colored(f\"Quantity of {utype} from {int(old)} to {int(new)}\", 'blue'))\n\n @staticmethod\n def print_dmg(dmg: float, utype: str, lang='en'):\n if lang == 'en':\n print(colored(f\"Damage is {dmg} from {utype}\", 'blue'))\n\n @staticmethod\n def print_dead(utype: str, lang='en'):\n if lang == 'en':\n print(colored(f\"{utype} is dead\", 'red'))\n\n @staticmethod\n def print_results(lang='en'):\n if lang == 'en':\n print(colored(\"Results of the battle\", 'blue', attrs=['bold']))\n\n @staticmethod\n def print_for_army(army: int, lang='en'):\n if lang == 'en':\n print(colored(f\"For army {army}:\", 'green'))\n\n @staticmethod\n def print_hp_diff(old: float, new: float, utype: str, lang='en'):\n if lang == 'en':\n print(colored(f\"Hp of {utype} from {old} to {new}\", 'blue'))\n\n @staticmethod\n def print_stack(utype: str, quantity: int, lang='en'):\n if lang == 'en':\n print(colored(f\"{utype}, {int(quantity)}\", 'yellow'))\n\n @staticmethod\n def print_not_enough_stacks(lang='en'):\n if lang == 'en':\n print(colored(\"Not enough stacks for battle!\", 'red'))\n\n @staticmethod\n def print_wrong_army(lang='en'):\n if lang == 'en':\n print(colored(\"Wrong army!\", 'red'))\n" }, { "alpha_fraction": 0.6184210777282715, "alphanum_fraction": 0.6184210777282715, "avg_line_length": 18, "blob_id": "adede19b65e04f83a88f536726bd8f9da8d7e428", "content_id": "17153ca40d99f02fceff4f0473f10d801b743cf8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 76, "license_type": "no_license", "max_line_length": 28, "num_lines": 4, "path": "/Casts/BaseCast.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "class BaseCast:\n @staticmethod\n def cast(actor, target):\n pass\n" }, { "alpha_fraction": 0.848901093006134, "alphanum_fraction": 0.848901093006134, "avg_line_length": 32.09090805053711, "blob_id": "f21808212a4a8dcbb8eee41ad535e2b54c736f88", "content_id": "5607cad2aae2aeaa448dc978aefa9a85e983bc70", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 364, "license_type": "no_license", "max_line_length": 41, "num_lines": 11, "path": "/Units/__init__.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Units.Crossbowman import Crossbowman\nfrom Units.Skeleton import Skeleton\nfrom Units.Angel import Angel\nfrom Units.BoneDragon import BoneDragon\nfrom Units.Cyclops import Cyclops\nfrom Units.Devil import Devil\nfrom Units.Fury import Fury\nfrom Units.Gryphon import Gryphon\nfrom Units.Hydra import Hydra\nfrom Units.Lich import Lich\nfrom Units.Shaman import Shaman\n" }, { "alpha_fraction": 0.6196078658103943, "alphanum_fraction": 0.658823549747467, "avg_line_length": 24.5, "blob_id": "1bb2b7fa5ec1c15eb6e36a0ca7621d0393f8ed33", "content_id": "a88db785f5463c13aa73d143a9b24dd4756bd2bf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 255, "license_type": "no_license", "max_line_length": 85, "num_lines": 10, "path": "/Units/Hydra.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Unit import Unit\nfrom dataclasses import dataclass\nfrom Modifiers import \nfrom Casts import \n\n\n@dataclass(frozen=True)\nclass Hydra(Unit):\n def __init__(self):\n Unit.__init__(self, \"Hydra\", 80, 15, 12, (7, 14), 7, list([DmgBuff()]), None)\n" }, { "alpha_fraction": 0.6404494643211365, "alphanum_fraction": 0.6741573214530945, "avg_line_length": 24.428571701049805, "blob_id": "98854eb1f2f2bed9e30de1236f5048058e4b566d", "content_id": "b70876f429743baf4b2e4326a6c62eb6ac238adf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 178, "license_type": "no_license", "max_line_length": 50, "num_lines": 7, "path": "/Modifiers/DmgBuff.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Modifiers.BaseModifier import BaseModifier\n\n\nclass DmgBuff(BaseModifier):\n @staticmethod\n def calc_dmg(dmg: tuple):\n return tuple([dmg[0] 1.1, dmg[1] * 1.1])\n" }, { "alpha_fraction": 0.6056700944900513, "alphanum_fraction": 0.623711347579956, "avg_line_length": 19.421052932739258, "blob_id": "7f6ffec9691c8097a736b0b01f33e2b1a43280dc", "content_id": "a3f645e778695fcce55a105e7538009e16d59f45", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 388, "license_type": "no_license", "max_line_length": 47, "num_lines": 19, "path": "/Modifiers/KingBuff.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Modifiers.BaseModifier import BaseModifier\n\n\nclass KingBuff(BaseModifier):\n @staticmethod\n def calc_def(defend):\n return defend + 3\n\n @staticmethod\n def calc_dmg(dmg: tuple):\n return tuple([dmg[0] + 3, dmg[1] + 3])\n\n @staticmethod\n def calc_init(init):\n return init + 3\n\n @staticmethod\n def calc_attack(attack):\n return attack + 3\n" }, { "alpha_fraction": 0.6138995885848999, "alphanum_fraction": 0.6640926599502563, "avg_line_length": 24.899999618530273, "blob_id": "fb7fd0485411cf24bbc92857d41ee61c5bedfbba", "content_id": "126e7b3fac9a959e754ea0e90cb738ae3de70a38", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 259, "license_type": "no_license", "max_line_length": 89, "num_lines": 10, "path": "/Units/Devil.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Unit import Unit\nfrom dataclasses import dataclass\nfrom Modifiers import \nfrom Casts import \n\n\n@dataclass(frozen=True)\nclass Devil(Unit):\n def __init__(self):\n Unit.__init__(self, \"Devil\", 166, 27, 25, (36, 66), 11, list([KingBuff()]), None)\n" }, { "alpha_fraction": 0.6141732335090637, "alphanum_fraction": 0.6614173054695129, "avg_line_length": 27.22222137451172, "blob_id": "622e033bcec2f5a0b01efbbe67b5e1d75a188d54", "content_id": "4effabcb82b5b1eaea7fdc672df28d6a761bba74", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 254, "license_type": "no_license", "max_line_length": 86, "num_lines": 9, "path": "/Units/Lich.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Unit import Unit\nfrom dataclasses import dataclass\nfrom Modifiers import \nfrom Casts import \n\n@dataclass(frozen=True)\nclass Lich(Unit):\n def __init__(self):\n Unit.__init__(self, \"Lich\", 50, 15, 15, (12, 17), 10, list([DefBuff()]), None)\n" }, { "alpha_fraction": 0.5282112956047058, "alphanum_fraction": 0.5366146564483643, "avg_line_length": 28.75, "blob_id": "b2f77605493d1698767c6827cc96ee86154d122d", "content_id": "fd09648efb96b09a3d6a22e7222f4e95a7b5e080", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 833, "license_type": "no_license", "max_line_length": 82, "num_lines": 28, "path": "/Army.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from UnitsStack import UnitsStack\n\n\nclass Army:\n __stacks: tuple\n\n def __init__(self, args: UnitsStack):\n if len(args) > 6:\n exit(\"Wrong count of stacks, maximum 6, got {}\".format(len(args)))\n else:\n self.__stacks = tuple(args)\n\n @property\n def stacks(self):\n return self.__stacks\n\n def add_stack(self, stack: UnitsStack):\n if len(self.__stacks) < 6:\n self.__stacks = tuple([self.__stacks, stack])\n else:\n exit(\"There is already 6 stacks\")\n\n def del_stack(self, stack: UnitsStack):\n for s in range(0, len(self.__stacks)):\n if self.__stacks[s] == stack:\n self.__stacks = tuple([self.__stacks[0:s], self.__stacks[s+1:]])\n return\n exit(\"There is no such stack: {}\".format(stack))\n" }, { "alpha_fraction": 0.8781725764274597, "alphanum_fraction": 0.8781725764274597, "avg_line_length": 38.599998474121094, "blob_id": "ae05c405854fed92c2c73ed6d385d59db5e66097", "content_id": "29d066213ba9bfad3cb8f17780085aa42a547d4b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 197, "license_type": "no_license", "max_line_length": 45, "num_lines": 5, "path": "/Casts/__init__.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Casts.SharpWeapon import SharpWeapon\nfrom Casts.Motivate import Motivate\nfrom Casts.RestoreHP import RestoreHP\nfrom Casts.StrongDefence import StrongDefence\nfrom Casts.Weakness import Weakness" }, { "alpha_fraction": 0.6370656490325928, "alphanum_fraction": 0.6640926599502563, "avg_line_length": 24.899999618530273, "blob_id": "4a47604c0e079cb8223db80b3ed3c6d91ce8da7d", "content_id": "d4c4fc2c0bdad1db6ac78671ee52a57d71f9188b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 259, "license_type": "no_license", "max_line_length": 86, "num_lines": 10, "path": "/Units/Skeleton.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Unit import Unit\nfrom dataclasses import dataclass\nfrom Modifiers import \nfrom Casts import \n\n\n@dataclass(frozen=True)\nclass Skeleton(Unit):\n def __init__(self):\n Unit.__init__(self, \"Skeleton\", 5, 1, 2, (1, 1), 10, list([KingBuff()]), None)\n" }, { "alpha_fraction": 0.7593985199928284, "alphanum_fraction": 0.7593985199928284, "avg_line_length": 15.625, "blob_id": "7c5b5b39bc7ce2bd50914b59605019d9f4464da0", "content_id": "c4b84d5cd45eba81a5532e0ba9bb6bfe290067da", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 133, "license_type": "no_license", "max_line_length": 33, "num_lines": 8, "path": "/UnitsStack.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from dataclasses import dataclass\nfrom Unit import Unit\n\n\n@dataclass(frozen=True)\nclass UnitsStack:\n unit: Unit\n quantity: int\n" }, { "alpha_fraction": 0.6224899888038635, "alphanum_fraction": 0.6586345434188843, "avg_line_length": 23.899999618530273, "blob_id": "d8395d0955d53d4c717007adffe1582a321b23da", "content_id": "bfe89f1f8998546f1626b4d94488838d59e914f5", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 249, "license_type": "no_license", "max_line_length": 77, "num_lines": 10, "path": "/Units/Gryphon.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Unit import Unit\nfrom dataclasses import dataclass\nfrom Modifiers import \nfrom Casts import \n\n\n@dataclass(frozen=True)\nclass Gryphon(Unit):\n def __init__(self):\n Unit.__init__(self, \"Gryphon\", 30, 7, 5, (5, 10), 15, list([]), None)\n" }, { "alpha_fraction": 0.6389891505241394, "alphanum_fraction": 0.6859205961227417, "avg_line_length": 26.700000762939453, "blob_id": "21a9a3462989958b3804d63387e28c73839a956c", "content_id": "32bf3b246dcc38b458c11a679149d9c838faa236", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 277, "license_type": "no_license", "max_line_length": 102, "num_lines": 10, "path": "/Units/BoneDragon.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Unit import Unit\nfrom dataclasses import dataclass\nfrom Modifiers import \nfrom Casts import \n\n\n@dataclass(frozen=True)\nclass BoneDragon(Unit):\n def __init__(self):\n Unit.__init__(self, \"BoneDragon\", 150, 27, 28, (15, 30), 11, list([DefBuff()]), StrongDefence)\n" }, { "alpha_fraction": 0.7142857313156128, "alphanum_fraction": 0.7210884094238281, "avg_line_length": 20, "blob_id": "1fdd43170e0dbe771ceac25e610ab0a5738aff2c", "content_id": "34f564efb815446905759e3b77b62e87b13cf014", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 147, "license_type": "no_license", "max_line_length": 47, "num_lines": 7, "path": "/Modifiers/InitBuff.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Modifiers.BaseModifier import BaseModifier\n\n\nclass InitBuff(BaseModifier):\n @staticmethod\n def calc_init(init):\n return init + 5\n" }, { "alpha_fraction": 0.5570865869522095, "alphanum_fraction": 0.5590550899505615, "avg_line_length": 17.14285659790039, "blob_id": "211fa3a38e8ade9f039e53b42c73605a3ca19bef", "content_id": "c158e53975ab4636efdc157c899c0d84e334877a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 508, "license_type": "no_license", "max_line_length": 35, "num_lines": 28, "path": "/Modifiers/BaseModifier.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "class BaseModifier:\n __time: int\n\n def __init__(self, time=None):\n self.__time = time\n\n def get_time(self):\n return self.__time\n\n def decrease_time(self):\n if self.__time is not None:\n self.__time -= 1\n\n @staticmethod\n def calc_def(defend):\n return defend\n\n @staticmethod\n def calc_attack(attack):\n return attack\n\n @staticmethod\n def calc_init(init):\n return init\n\n @staticmethod\n def calc_dmg(dmg):\n return dmg\n" }, { "alpha_fraction": 0.6861924529075623, "alphanum_fraction": 0.6861924529075623, "avg_line_length": 16.071428298950195, "blob_id": "fa297d459cf509eeac8433c97661ca322720169c", "content_id": "489f399053b9423789f8ddcdfc52d18fac0d9364", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 239, "license_type": "no_license", "max_line_length": 35, "num_lines": 14, "path": "/Unit.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from dataclasses import dataclass\nfrom Casts.BaseCast import BaseCast\n\n\n@dataclass(frozen=True)\nclass Unit:\n type: str\n hp: float\n attack: float\n defence: float\n dmg: tuple\n init: float\n buffs: list\n cast: BaseCast\n" }, { "alpha_fraction": 0.6230158805847168, "alphanum_fraction": 0.6547619104385376, "avg_line_length": 24.200000762939453, "blob_id": "5a209bbc0237605c7c10e7649e0b6e2f8f2c2d7d", "content_id": "9f4cd97633b6a0bf362b20ddab01d3bb5a183823", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 252, "license_type": "no_license", "max_line_length": 83, "num_lines": 10, "path": "/Units/Fury.py", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "from Unit import Unit\nfrom dataclasses import dataclass\nfrom Modifiers import \nfrom Casts import \n\n\n@dataclass(frozen=True)\nclass Fury(Unit):\n def __init__(self):\n Unit.__init__(self, \"Fury\", 16, 5, 3, (5, 7), 16, list([InitBuff()]), None)\n" }, { "alpha_fraction": 0.7798742055892944, "alphanum_fraction": 0.7798742055892944, "avg_line_length": 25.5, "blob_id": "24adf58dfe497af1e852b46f3053a6289e65cf72", "content_id": "be115683a5f3d30335522c59d260686f09674653", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 159, "license_type": "no_license", "max_line_length": 53, "num_lines": 6, "path": "/README.md", "repo_name": "volyomaS/battle_engine", "src_encoding": "UTF-8", "text": "# battle_engine\nThis is a prototype of the battle engine.\n\nOOP principles were used in the development.\n\nYou can add new modifiers, units and casts using API.\n" } ]	37
aryamanchandra/Wikipedia-Scrapper	https://github.com/aryamanchandra/Wikipedia-Scrapper	de290c2867deea2024aca6ac77b5128b2b72cac3	7ed9003bc57e391cb927e1e5062a6a3b3c9a90d4	1425ef0e0fe13990af325cfdf4b81b23da3f4731	refs/heads/master	2022-12-03T17:15:07.129528	2020-08-26T14:29:17	2020-08-26T14:29:17	290,129,408	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.5909090638160706, "alphanum_fraction": 0.5928853750228882, "avg_line_length": 19, "blob_id": "45990c90100f23c48a152179d6acf661a2ca9d1a", "content_id": "b526462de5f557d8918e2dfefc7ac0708ca58a79", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 506, "license_type": "no_license", "max_line_length": 62, "num_lines": 24, "path": "/wikipedia-scrapper.py", "repo_name": "aryamanchandra/Wikipedia-Scrapper", "src_encoding": "UTF-8", "text": "import wikipediaapi\r\n\r\nwikipedia_en = wikipediaapi.Wikipedia(\"en\")\r\n\r\nurl = input(\"Enter wikipedia url \")\r\n\r\ninitialrem = [\"https://en.wikipedia.org/wiki/\", \"!\", \" \", \"*\"]\r\n\r\nfor i in initialrem:\r\n url = url.replace(i, \"\")\r\n\r\n\r\npage = wikipedia_en.page(url)\r\nsummary = page.summary\r\ntitle = page.title\r\n\r\nL = list((f\"{title} \\n\", f\"{summary}\"))\r\n\r\nwith open(f\"{title}.txt\", \"w\", encoding=\"utf-8\") as files:\r\n for i in L:\r\n file = files.write(i)\r\n files.close()\r\n\r\nprint(\"Task Complete\")\r\n\r\n" }, { "alpha_fraction": 0.7945205569267273, "alphanum_fraction": 0.801369845867157, "avg_line_length": 35.5, "blob_id": "37010364e92ee13eda95f37857ec984b0897839f", "content_id": "e4f24feaba3c956a0f7e62279303b25fb6d083c0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 146, "license_type": "no_license", "max_line_length": 63, "num_lines": 4, "path": "/README.md", "repo_name": "aryamanchandra/Wikipedia-Scrapper", "src_encoding": "UTF-8", "text": "# Wikipedia-Scrapper\nThis is script takes data from wikipedia and makes a .txt file.\n\nFor using this write pip3 install wikipedia in the terminal\n" } ]	2
spa-pal/UKU207_U	https://github.com/spa-pal/UKU207_U	b8e4bb38739c9c8f0e3c3dd815b89dd8d32c76ae	df47beac4bf60be242ebda7ec84e708cc1e8d6a0	5cab80d583f85ca1ed3e9ffd990465bf58c63446	refs/heads/master	2021-07-08T07:57:28.638976	2021-06-30T08:59:47	2021-06-30T08:59:47	42,571,526	0	2	null	null	null	null	null	[ { "alpha_fraction": 0.5212365984916687, "alphanum_fraction": 0.5817161798477173, "avg_line_length": 20.287141799926758, "blob_id": "347fd3b7a70bb49e44c02e3ff457ca4ef48eb33e", "content_id": "f9b5b769027f09b58451548c28fc076da82c3522", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 169114, "license_type": "no_license", "max_line_length": 162, "num_lines": 7707, "path": "/SOFT/UKU/RKI/control.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#include \"25lc640.h\"\n#include \"control.h\"\n#include \"mess.h\"\n#include \"gran.h\"\n#include \"common_func.h\"\n#include \"eeprom_map.h\"\n#include \"avar_hndl.h\"\n#include \"main.h\"\n#include \"beep.h\"\n#include \"snmp_data_file.h\" \r\n#include \"sacred_sun.h\"\r\n#include \"sc16is7xx.h\"\r\n#include \"modbus.h\"\r\n#include \"modbus_tcp.h\"\n#include <LPC17xx.h>\n\n#define KOEFPOT 105L\n\n\n\n\n\n\n\nextern signed short u_necc,u_necc_,u_necc_up,u_necc_dn;\nextern signed short main_cnt_5Hz;\nextern signed short num_necc;\nextern signed short num_necc_Imax;\nextern signed short num_necc_Imin;\n//extern char bSAME_IST_ON;\n//extern signed short Unet,unet_store;\n//extern char bat_cnt_to_block[2];\n//extern enum {bisON=0x0055,bisOFF=0x00aa}BAT_IS_ON[2];\nextern signed mat_temper;\n\n\n\n\n//*********************************************\n//Аварии\ntypedef struct \n\t{\n unsigned int bAN:1; \n unsigned int bAB1:1; \n unsigned int bAB2:1;\n unsigned int bAS1:1;\n unsigned int bAS2:1;\n unsigned int bAS3:1;\n unsigned int bAS4:1;\n unsigned int bAS5:1;\n unsigned int bAS6:1;\n unsigned int bAS7:1;\n unsigned int bAS8:1;\n unsigned int bAS9:1;\n unsigned int bAS10:1;\n unsigned int bAS11:1;\n unsigned int bAS12:1;\n }avar_struct;\n \nextern union \n{\navar_struct av;\nint avar_stat;\n}a__,a_;\n\n//*******************************************\n//АЦП\nlong adc_buff[16][16];\nsigned short adc_buff_max[12],adc_buff_min[12]={5000,5000,5000,5000,5000,5000,5000,5000,5000,5000},unet_buff_max,unet_buff_min=5000;\nchar adc_self_ch_cnt,adc_ch_net;\nshort adc_buff_[16];\nchar adc_cnt,adc_cnt1,adc_ch,adc_ch_cnt;\nshort zero_cnt;\nenum_adc_stat adc_stat=asCH;\nunsigned short net_buff[32],net_buff_,net_metr_buff_[3];\nchar net_buff_cnt;\nshort ADWR,period_cnt,non_zero_cnt;\nchar rele_stat;\nchar bRELE_OUT;\nsigned short adc_self_ch_buff[3],adc_self_ch_disp[3];\nlong main_power_buffer[8],main_power_buffer_;\nshort adc_result;\nshort main_power_buffer_cnt;\nshort adc_gorb_cnt,adc_zero_cnt;\nchar adc_window_flag;\nshort adc_window_cnt;\nshort adc_net_buff_cnt;\n\n\nextern int mess_par0[MESS_DEEP],mess_par1[MESS_DEEP],mess_data[2];\n\nextern signed short TBAT;\nextern signed short Kunet;\nextern signed short Kubat[2];\nextern unsigned short ad7705_buff[2][16],ad7705_buff_[2];\nextern unsigned short Kibat0[2];\nextern signed short Kibat1[2];\nextern signed short Ktbat[2];\n//extern signed short bat_Ib[2];\nshort adc_buff_out_[3];\nextern char kb_full_ver;\nextern signed short Kuload;\n\nsigned short bat_ver_cnt=150;\nextern signed short Isumm;\nextern signed short Isumm_;\nextern char ND_out[3];\n//extern signed short tout[4];\n\n\nshort plazma_adc_cnt;\nshort plazma_sk;\nextern char cntrl_plazma;\n\n//extern const short ptr_bat_zar_cnt[2];\n\n//*******************************************\n//Управление вентилятором\nsigned char vent_stat=0;\n\n//*******************************************\n//Управление ШИМом\nsigned short cntrl_stat=600;\nsigned short cntrl_stat_old=600;\nsigned short cntrl_stat_new;\nsigned short Ibmax;\nunsigned char unh_cnt0,unh_cnt1,b1Hz_unh;\nunsigned char\tch_cnt0,b1Hz_ch,i,iiii;\r\nunsigned char\tch_cnt1,b1_30Hz_ch;\r\nunsigned char\tch_cnt2,b1_10Hz_ch;\nunsigned short IZMAX_;\r\nunsigned short IZMAX_70;\r\nunsigned short IZMAX_130;\r\nunsigned short Ubpsmax;\r\nunsigned short cntrl_stat_blck_cnt;\n\n\n//*******************************************\n//Самокалиброввка\nsigned short samokalibr_cnt;\n\n\n\n//*******************************************\n//Выравнивание токов\nshort avg_main_cnt=20;\nsigned int i_avg_max,i_avg_min,i_avg_summ,i_avg; \nsigned int avg;\nchar bAVG;\nchar avg_cnt; \nchar avg_num; \n\n//******************************************\n//Контроль наличия батарей\nsigned short \tmain_kb_cnt;\nsigned short \tkb_cnt_1lev;\nsigned short \tkb_cnt_2lev;\nchar \t\tkb_full_ver;\nchar kb_start[2],kb_start_ips;\r\nsigned short ibat_ips,ibat_ips_;\n\n//******************************************\n//Работа с БПСами\nchar num_of_wrks_bps;\nchar bps_all_off_cnt,bps_mask_off_cnt,bps_mask_on_off_cnt;\nchar bps_hndl_2sec_cnt;\nunsigned short bps_on_mask,bps_off_mask;\nchar num_necc_up,num_necc_down;\nunsigned char sh_cnt0,b1Hz_sh;\n\n//*******************************************\n//Спецфункции\nenum_spc_stat spc_stat;\nchar spc_bat;\nchar spc_phase;\nunsigned short vz_cnt_s,vz_cnt_s_,vz_cnt_h,vz_cnt_h_;\nchar bAVZ;\nenum_ke_start_stat ke_start_stat;\nshort cnt_end_ke;\nunsigned long ke_date[2];\nshort __ee_vz_cnt;\nshort __ee_spc_stat;\nshort __ee_spc_bat;\nshort __ee_spc_phase;\n\n//*******************************************\n//Аварии\nextern unsigned avar_stat;\t \t//\"Отображение\" всех аварийных в данный момент устройств в одном месте\nextern unsigned avar_ind_stat; \t//\"Отображение\" всех не просмотренных аварийных устройств в одном месте\nextern unsigned avar_stat_old;\nextern unsigned avar_stat_new,avar_stat_offed;\n//Структура переменных\n//1бит - питающая сеть\n//2бита - батареи\n//12бит - БПСы\n//5бит - инверторы\n//4бита - внешние датчики температуры\n//4бита - внешние сухие контакты\r\n//1бит\t- контроль выходного напряжения\n\n\nshort cntrl_stat_blok_cnt,cntrl_stat_blok_cnt_,cntrl_stat_blok_cnt_plus[2],cntrl_stat_blok_cnt_minus[2];\n\n//*******************************************\n//Сухие контакты\nconst char sk_buff_KONTUR[4]={13,11,15,14};\nconst char sk_buff_RSTKM[4]={13,11,15,14};\nconst char sk_buff_GLONASS[4]={11,13,15,14};\nconst char sk_buff_3U[4]={11,13,15,14};\nconst char sk_buff_6U[4]={11,13,15,14};\nconst char sk_buff_220[4]={11,13,15,14};\r\nconst char sk_buff_TELECORE2015[4]={11,13,15,14};\n\nchar\tplazma_inv[4];\nchar plazma_bat;\r\nchar plazma_cntrl_stat;\r\n\n//*******************************************\n//Ротация ведущего источника\r\nchar numOfForvardBps,numOfForvardBps_old;\r\nchar numOfForvardBps_minCnt;\r\nshort numOfForvardBps_hourCnt;\r\n\r\n//********************************************\n// Параллельная работа в случае перегрева источника\r\nchar bPARALLEL_NOT_ENOUG;\r\nchar bPARALLEL_ENOUG;\r\nchar bPARALLEL;\r\n\r\nchar cntrl_hndl_plazma;\r\n\n//-----------------------------------------------\nvoid ke_start(char in)\n{ \nke_start_stat=(enum_ke_start_stat)0;\t\t \n\nif(spc_stat==spcVZ)ke_start_stat=kssNOT_VZ;\r\n#ifndef UKU_220_IPS_TERMOKOMPENSAT\nelse if(BAT_IS_ON[in]!=bisON)ke_start_stat=kssNOT_BAT;\n#endif\r\nelse if(bat[in]._av&(1<<0))ke_start_stat=kssNOT_BAT_AV;\nelse if(bat[in]._temper_stat&(1<<1))ke_start_stat=kssNOT_BAT_AV_T;\nelse if(bat[in]._av&(1<<1))ke_start_stat=kssNOT_BAT_AV_ASS;\nelse if(bat[in]._Ib>IKB)ke_start_stat=kssNOT_BAT_ZAR;\nelse if(bat[in]._Ib<-IKB)ke_start_stat=kssNOT_BAT_RAZR;\nelse if((spc_stat==spcKE)&&(spc_bat==0))ke_start_stat=kssNOT_KE1;\nelse if((spc_stat==spcKE)&&(spc_bat==1))ke_start_stat=kssNOT_KE2;\nelse \n\t{\n\n\tke_start_stat=kssYES;\n\n\tspc_stat=spcKE;\n\t__ee_spc_stat=spcKE;\n\tlc640_write_int(EE_SPC_STAT,__ee_spc_stat);\n\t\n\tspc_bat=in;\n\t__ee_spc_bat=in;\n\tlc640_write_int(EE_SPC_BAT,__ee_spc_bat);\n\n\tbat[in]._zar_cnt_ke=0;\n\tlc640_write_int(ADR_EE_BAT_ZAR_CNT_KE[in],0);\n\t\n\tspc_phase=0;\n\t__ee_spc_phase=0;\n\tlc640_write_int(EE_SPC_PHASE,__ee_spc_phase);\n\n\t//ke_mem_hndl(in,lc640_read_int(ADR_EE_BAT_ZAR_CNT_KE[spc_bat]));\n\n\t\t{\t\t\t\t\t\n\t\tsigned short temp_temp;\n\t\tsigned char temp;\n\t\ttemp_temp=bat[in]._u_old[((bat_u_old_cnt+1)&0x07)]; \n\t\t \n\t\ttemp=LPC_RTC->YEAR;\n\t\tgran_char(&temp,1,99);\n\t\t((char)(&(ke_date[0])))=temp;\n\t\t\t\n\t\ttemp=LPC_RTC->MONTH;\n\t\tgran_char(&temp,1,12);\n\t\t(((char)(&(ke_date[0])))+1)=temp;\n\t\t\n\t\ttemp=LPC_RTC->DOM;\n\t\tgran_char(&temp,1,31);\n\t\t(((char)(&(ke_date[0])))+2)=temp;\t\t\t\n\t\t\t\t\n\t\t(((char)(&(ke_date[0])))+3)=((char)&temp_temp);\n\t\tlc640_write_long(EE_SPC_KE_DATE0,ke_date[0]);\n\n\t\ttemp=LPC_RTC->HOUR;\n\t\tgran_char(&temp,0,23);\n\t\t((char)(&(ke_date[1])))=temp;\n \n\t\ttemp=LPC_RTC->MIN;\n\t\tgran_char(&temp,0,59);\n\t\t(((char)(&(ke_date[1])))+1)=temp;\n\t \n\t\ttemp=LPC_RTC->SEC;\n\t\tgran_char(&temp,0,59);\n\t\t(((char)(&(ke_date[1])))+2)=temp;\n\t\t\t\n\t\t(((char)(&(ke_date[1])))+3)=(((char)&temp_temp)+1);\n\t\tlc640_write_long(EE_SPC_KE_DATE1,ke_date[1]);\n\t\t}\n\n\t}\n}\n\n//-----------------------------------------------\nvoid ke_drv(void)\n{\n\nif(spc_stat==spcKE)\n\t{\n\tif(spc_phase==0)\n\t\t{\n\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<(1-spc_bat)),20);\n\t\tmess_send(MESS2BPS_HNDL,PARAM_BPS_ALL_OFF_AFTER_2SEC,0xffff,20);\n\n\t\tbat[spc_bat]._zar_cnt_ke+=abs(bat[spc_bat]._Ib);\n\t \t\n\t\tif(bat[spc_bat]._zar_cnt_ke>=AH_CONSTANT)\n\t\t\t{\n\t\t\tbat[spc_bat]._zar_cnt_ke-=AH_CONSTANT;\n\t\t\tlc640_write_int(ADR_EE_BAT_ZAR_CNT_KE[spc_bat],lc640_read_int(ADR_EE_BAT_ZAR_CNT_KE[spc_bat])+1);\n\t\t\t}\n\t\t}\n\n\telse if(spc_phase==1)\n\t\t{\n\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<(1-spc_bat)),20);\n\t\t}\n\n\tif(bat[spc_bat]._Ub<(USIGN10))\n\t\t{\n\t\tcnt_end_ke++;\n\t\tif(cnt_end_ke>=30)\n\t\t\t{\n\t\t\t\n\t\t\tif((spc_stat==spcKE)&&(spc_phase==0))\n\t\t\t\t{\n\t\t\t\tlc640_write_int(ADR_EE_BAT_C_REAL[spc_bat],lc640_read_int(ADR_EE_BAT_ZAR_CNT_KE[spc_bat]));\n\t\t\t\tke_mem_hndl(spc_bat,lc640_read_int(ADR_EE_BAT_ZAR_CNT_KE[spc_bat]));\n\t\t\t\tlc640_write_int(ADR_EE_BAT_ZAR_CNT[spc_bat],0);\n\t\t\t\tcntrl_stat=50;\n\t\t\t\tcntrl_stat_old=50;\n\t\t\t\t}\n\n\t\t\tif((BAT_IS_ON[1-spc_bat]) == bisON)\n\t\t\t\t{\n\t\t\t\tspc_phase=1;\n\t\t\t\t__ee_spc_phase=1;\n\t\t\t\tlc640_write_int(EE_SPC_PHASE,1);\n\t\t\t\t}\t\t\t\n\t\t\telse\n\t\t\t\t{\n\t\t\t\tspc_stat=spcOFF;\n\t\t\t\t__ee_spc_stat=spcOFF;\n\t\t\t\tlc640_write_int(EE_SPC_STAT,spcOFF);\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\telse cnt_end_ke=0;\n\n\tif((bat[spc_bat]._Ub>=bat[1-spc_bat]._Ub)&&(spc_phase==1))\n\t\t{\n\t\tspc_stat=spcOFF;\n\t\t__ee_spc_stat=spcOFF;\n\t\tlc640_write_int(EE_SPC_STAT,spcOFF);\n\t\t}\n\t}\n\t\t\t\n}\n\n//-----------------------------------------------\nchar vz_start(char hour)\n{ \nchar out;\nout=0;\nif((spc_stat==spcOFF)&&(speedChrgBlckStat!=1))\n\t{\n\tspc_stat=spcVZ;\n\t__ee_spc_stat=spcVZ; \n\tlc640_write_int(EE_SPC_STAT,__ee_spc_stat); \n\tvz_cnt_h=hour;\n\t__ee_vz_cnt=hour60;\n\tlc640_write_int(EE_VZ_CNT,__ee_vz_cnt);\n\tlc640_write_int(EE_SPC_VZ_LENGT,hour60);\t\n\tvz_cnt_h_=0;\n\tvz_cnt_s=0;\n\tout=1;\n\tvz_mem_hndl(1);\n\t}\n//else if((spc_stat==spc_KE1p1)\|\|(spc_stat==spc_KE1p2)) out=22; \n//else if((spc_stat==spc_KE2p1)\|\|(spc_stat==spc_KE2p2)) out=33;\n//plazma=out;\t\nreturn out;\n}\n\n//-----------------------------------------------\nvoid vz_stop(void)\n{\nif(spc_stat==spcVZ)\n {\nvz_mem_hndl(vz_cnt_h); \nvz_cnt_s=0;\nvz_cnt_h=0;\nvz_cnt_h_=0;\nspc_stat=spcOFF;\n\n\t\t__ee_spc_stat=spcOFF;\n\t\tlc640_write_int(EE_SPC_STAT,spcOFF);\n }\n\n}\n\n//-----------------------------------------------\nvoid avz_next_date_hndl(void)\n{\nif((LPC_RTC->MONTH+AVZ)>12)lc640_write_int(EE_YEAR_AVZ,LPC_RTC->YEAR+1);\nelse lc640_write_int(EE_YEAR_AVZ,LPC_RTC->YEAR);\n\n//lc640_write_int(EE_YEAR_AVZ,6);\n\nif((LPC_RTC->MONTH+AVZ)>12)lc640_write_int(EE_MONTH_AVZ,(LPC_RTC->MONTH+AVZ)-12);\nelse lc640_write_int(EE_MONTH_AVZ,LPC_RTC->MONTH+AVZ); \n\n//lc640_write_int(EE_MONTH_AVZ,5);\n\nif(LPC_RTC->DOM>28) lc640_write_int(EE_DATE_AVZ,28);\nelse lc640_write_int(EE_DATE_AVZ,LPC_RTC->DOM);\n\n//lc640_write_int(EE_DATE_AVZ,4);\n\nlc640_write_int(EE_HOUR_AVZ,LPC_RTC->HOUR);\nlc640_write_int(EE_MIN_AVZ,LPC_RTC->MIN);\nlc640_write_int(EE_SEC_AVZ,LPC_RTC->SEC);\n\n}\n\n//-----------------------------------------------\nvoid avz_drv(void) \n{ \nif(AVZ!=AVZ_OFF)\n\t{\n\tif((LPC_RTC->YEAR==YEAR_AVZ)&&(LPC_RTC->MONTH==MONTH_AVZ)&&(LPC_RTC->DOM==DATE_AVZ)&&(LPC_RTC->HOUR==HOUR_AVZ)&&(LPC_RTC->MIN==MIN_AVZ)&&(LPC_RTC->SEC==SEC_AVZ))\n\t\t{\n\t\tbAVZ=1;\n\t\t}\n\t}\nif(bAVZ)\n\t{\n\tif(vz_start(AVZ_TIME))\n\t\t{\n\t\tbAVZ=0;\n\t\tavz_next_date_hndl();\n\t\t}\n\t}\t\n\n}\n\n//-----------------------------------------------\nvoid vz_drv(void)\n{ \nif(spc_stat==spcVZ)\n\t{\n\tif(vz_cnt_s_<3600)\n\t\t{\n\t\tvz_cnt_s_++;\n\t\tif(vz_cnt_s_>=3600)\n\t\t\t{\n\t\t\tvz_cnt_s_=0;\n\t\t\tif(vz_cnt_h)\n\t\t\t\t{\n\t\t\t\tvz_cnt_h--;\n\t\t\t\tvz_cnt_h_++;\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\n\n\tif(vz_cnt_s<60)\n\t\t{\n\t\tvz_cnt_s++;\n\t\tif(vz_cnt_s>=60)\n\t\t\t{\n\t\t\tvz_cnt_s=0;\n\t\t\t\n\t\t\t__ee_vz_cnt--;\n\t\t\tlc640_write_int(EE_VZ_CNT,__ee_vz_cnt);\n\t\t\tif((!__ee_vz_cnt)\|\|(speedChrgBlckStat==1))\n\t\t\t\t{\n\t\t\t\tspc_stat=spcOFF;\n\t\t\t\t\t\t__ee_spc_stat=spcOFF;\n\t\tlc640_write_int(EE_SPC_STAT,spcOFF);\n\t\t\t\tvz_mem_hndl(0);\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\n\t}\n\n\n} \n\n\n\n\n//-----------------------------------------------\nvoid kb_init(void)\n{\nmain_kb_cnt=(TBAT60)-60/120/;\n}\n\n//-----------------------------------------------\nvoid kb_hndl(void)\n{\n\nstatic signed short ibat[2],ibat_[2];\n#ifdef UKU_TELECORE2015\nif(((++main_kb_cnt>=TBAT60)&&(TBAT))&&(BAT_TYPE==0))\r\n#else \r\nif(((++main_kb_cnt>=TBAT60)&&(TBAT)))\r\n#endif\n\t{\n\tmain_kb_cnt=0;\n\t\n\tkb_start[0]=0;\n\tkb_start[1]=0;\n\tkb_start_ips=0;\n\n\tif( (BAT_IS_ON[0]==bisON) && (bat[0]._Ub>80) && ( (abs(bat[0]._Ib)<IKB) \|\| (bat[0]._av&1) ) ) kb_start[0]=1;\n\tif( (BAT_IS_ON[1]==bisON) && (bat[1]._Ub>80) && ( (abs(bat[1]._Ib)<IKB) \|\| (bat[1]._av&1) ) ) kb_start[1]=1;\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\tif( (!ips_bat_av_vzvod) && ((abs(Ib_ips_termokompensat)<IKB) \|\| (bat_ips._av&1) ) ) kb_start_ips=1;\n#endif\t\n\tif( (net_av) \|\| (num_of_wrks_bps==0) \|\| ( (spc_stat!=spcOFF) && (spc_stat!=spcVZ) ) ) \n\t\t{\n\t\tkb_start[0]=0;\n\t\tkb_start[1]=0;\n\t\tkb_start_ips=0;\n\t\t}\n\n\tif((kb_start[0]==1)\|\|(kb_start[1]==1)\|\|(kb_start_ips==1))\n\t\t{\n\t\tkb_cnt_1lev=10;\n\t\t}\n\telse kb_cnt_1lev=0;\n\t}\n\nif(kb_cnt_1lev)\n\t{\n\tkb_cnt_1lev--;\n\n\tif(kb_cnt_1lev>5)mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_PLUS,30,15);\n\telse if(kb_cnt_1lev>0) mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_MINUS,30,15);\n\n\n\tif(kb_cnt_1lev==5)\n\t\t{\n\t\tibat[0]=abs(bat[0]._Ib);\n\t\tibat[1]=abs(bat[1]._Ib);\n\t\tibat_ips=abs(Ib_ips_termokompensat);\n\t\t}\n\t\n\tif(kb_cnt_1lev==0)\n\t\t{\n\t\tibat_[0]=abs(bat[0]._Ib);\n\t\tibat_[1]=abs(bat[1]._Ib);\n\t\tibat_ips_=abs(Ib_ips_termokompensat);\n\n\t\tkb_cnt_2lev=0;\n\n\n\t\tif(( (ibat[0]+ibat_[0]) < IKB )&& (kb_start[0]==1))\n\t\t\t{\n\t\t\tkb_cnt_2lev=10; \n\t\t\t}\n\t\telse if(bat[0]._Ub>200)\n\t\t\t{\n\t\t\tkb_start[0]=0;\n\t\t\tavar_bat_hndl(0,0);\n\t\t\t}\n\t\t\n\t\tif(( (ibat[1]+ibat_[1]) < IKB ) && (kb_start[1]==1))\n\t\t\t{\n\t\t\tkb_cnt_2lev=10; \n\t\t\t}\n\t\telse if(bat[1]._Ub>200)\n\t\t\t{\n\t\t\tkb_start[1]=0;\n\t\t\tavar_bat_hndl(1,0);\n\t\t\t}\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\t\tif(( (ibat_ips+ibat_ips_) < IKB ) && (kb_start_ips==1))\n\t\t\t{\r\n\t\t\tif(KB_ALGORITM==1)\r\n\t\t\t\t{\r\n\t\t\t\tavar_bat_ips_hndl(1);\r\n\t\t\t\tkb_start_ips=0;\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\tkb_cnt_2lev=10; \r\n\t\t\t\t}\r\n\t\t\t}\n#endif\n\t\t}\t\n\n\n\t}\nelse if(kb_cnt_2lev)\n\t{\n\tkb_cnt_2lev--;\n\n\tif(kb_cnt_2lev>5)mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_PLUS,200,15);\n\telse if(kb_cnt_2lev>0) mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_MINUS,200,15);\n\n\n\tif(kb_cnt_2lev==5)\n\t\t{\n\t\tibat[0]=abs(bat[0]._Ib);\n\t\tibat[1]=abs(bat[1]._Ib);\n\t\tibat_ips=abs(Ib_ips_termokompensat);\n\t\t}\n\t\n\tif(kb_cnt_2lev==0)\n\t\t{\n\t\tibat_[0]=abs(bat[0]._Ib);\n\t\tibat_[1]=abs(bat[1]._Ib);\n\t\tibat_ips_=abs(Ib_ips_termokompensat);\n\n\t\tkb_full_ver=0;\n\n\t\tif(( (ibat[0]+ibat_[0]) < IKB ) && (kb_start[0]==1))\n\t\t\t{\n\t\t\tkb_full_ver=1; \n\t\t\t}\n\t\telse if(bat[0]._Ub>200)\t\t\t\n\t\t\t{\n\t\t\tkb_start[0]=0;\n\t\t\tavar_bat_hndl(0,0);\n\t\t\t}\n\n\t\tif(( (ibat[1]+ibat_[1]) < IKB ) && (kb_start[1]==1))\n\t\t\t{\n\t\t\tkb_full_ver=1; \n\t\t\t}\n\t\telse\tif(bat[1]._Ub>200)\t\t\n\t\t\t{\n\t\t\tkb_start[1]=0;\n\t\t\tavar_bat_hndl(1,0);\n\t\t\t}\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\t\tif(( (ibat_ips+ibat_ips_) < IKB ) && (kb_start_ips==1))\n\t\t\t{\r\n\t\t\tif(KB_ALGORITM==2)\r\n\t\t\t\t{\r\n\t\t\t\tavar_bat_ips_hndl(1);\r\n\t\t\t\tkb_start_ips=0;\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\tkb_full_ver=1; \r\n\t\t\t\t}\n\t\t\t}\n#endif\n\t\t}\t\n\t}\n\nelse if(kb_full_ver)\n\t{\n\t\n\tmess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_STEP_DOWN,0,15);\n\n\tif( abs(bat[0]._Ib) > IKB ) \n\t\t{\n\t\tif(kb_start[0]==1)\n\t\t\t{\n\t\t\tkb_start[0]=0;\n\t\t\tavar_bat_hndl(0,0);\n\t\t\t}\n\t\t}\n\n\tif( abs(bat[1]._Ib) > IKB ) \n\t\t{\n\t\tif(kb_start[1]==1)\n\t\t\t{\n\t\t\tkb_start[1]=0;\n\t\t\tavar_bat_hndl(1,0);\n\t\t\t}\n\t\t}\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\tif( abs(Ib_ips_termokompensat) > IKB ) \n\t\t{\n\t\tif(kb_start_ips==1)\n\t\t\t{\n\t\t\tkb_start_ips=0;\n\t\t\tavar_bat_ips_hndl(0);\n\t\t\t}\n\t\t}\n#endif\n\n\tif ((kb_start[0]==0) && (kb_start[1]==0) && (kb_start_ips==0)) \n\t\t{\n\t\tkb_full_ver=0;\n\t\t}\n\n\tif(( (mess_find(MESS2KB_HNDL))\t&& (mess_data[0]==PARAM_CNTRL_IS_DOWN) ) \|\| (load_U<(USIGN10)) )\n\t\t{\n\t\tkb_full_ver=0;\n\t\tif((kb_start[0]==1)&&((load_I>(2IKB)/10))&&(!(bat[0]._av&0x01))) avar_bat_hndl(0,1);\n\t\tif((kb_start[1]==1)&&((load_I>(2IKB)/10))&&(!(bat[1]._av&0x01))) avar_bat_hndl(1,1);\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\t\tif((kb_start_ips==1)&&((load_I>(2IKB)/10))&&(!(bat_ips._av&0x01))) avar_bat_ips_hndl(1);\n#endif\n\t\t}\n\t}\n\n}\n\n\n\n\n//-----------------------------------------------\nvoid samokalibr_init(void)\n{\nsamokalibr_cnt=1785;\n}\n//-----------------------------------------------\nvoid samokalibr_hndl(void)\n{\nif(++samokalibr_cnt>=1800)samokalibr_cnt=0;\n\nif(samokalibr_cnt>=1785U)\n\t{\n\tmess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,15);\n\tmess_send(MESS2IND_HNDL,PARAM_SAMOKALIBR,0,15);\n\tmess_send(MESS2MATEMAT,PARAM_SAMOKALIBR,0,15);\n\t} \n\nif(samokalibr_cnt==1799U)\n\t{\n\tif((Kibat0[0]!=ad7705_buff_[0])&&(abs(bat[0]._Ib/10)<IZMAX)) lc640_write_int(ADR_KI0BAT[0],ad7705_buff_[0]);\n\tif((Kibat0[1]!=ad7705_buff_[1])&&(abs(bat[0]._Ib/10)<IZMAX)) lc640_write_int(ADR_KI0BAT[1],ad7705_buff_[1]);\n\t\n\t}\t \t\n}\n\n\n\n//-----------------------------------------------\nvoid ubat_old_drv(void)\n{ \nbat_u_old_cnt++;\ngran_ring(&bat_u_old_cnt,0,8);\n\nbat[0]._u_old[bat_u_old_cnt]=bat[0]._Ub;\nbat[1]._u_old[bat_u_old_cnt]=bat[1]._Ub;\n}\n\n//-----------------------------------------------\nvoid unet_drv(void)\n{\nif(net_U<UMN)\n\t{\n\tif((unet_drv_cnt<10)&&(main_1Hz_cnt>15))\n\t\t{\n\t\tunet_drv_cnt++;\n\t\tif(unet_drv_cnt>=10)\n\t\t\t{\n\t\t\tnet_Ustore=net_U;\n\t\t \tavar_unet_hndl(1);\n\t\t\t\n\t\t\t}\n\t\t}\n\telse if(unet_drv_cnt>=10)unet_drv_cnt=10;\n\n\tif(net_U<net_Ustore) net_Ustore=net_U;\t\n\t}\n\nelse if(net_U>UMN)\n\t{ \n\tif(unet_drv_cnt)\n\t\t{\n\t\tunet_drv_cnt--;\n\t\tif(unet_drv_cnt<=0)\n\t\t\t{\n\t\t\tavar_unet_hndl(0);\n\t\t\t}\n\t\t}\n\telse if(unet_drv_cnt<0)unet_drv_cnt=0;\n\t\n\t}\n\n}\n\n//-----------------------------------------------\nvoid matemat(void)\n{\n//signed short temp_SS;\nsigned long temp_SL/,temp_SL_/;\nchar /temp,/i;\r\n//signed short temp_SS;\n\n#ifdef UKU_MGTS\n//напряжение сети\ntemp_SL=(signed long)net_buff_;\ntemp_SL=Kunet;\ntemp_SL/=110000L;\nnet_U=(signed short)temp_SL;\n#endif\n\n#ifdef UKU_RSTKM\n//напряжение сети\ntemp_SL=(signed long)net_buff_;\ntemp_SL=Kunet;\ntemp_SL/=110000L;\nnet_U=(signed short)temp_SL;\n#endif\n\n#ifdef UKU_3U\n//напряжение сети\ntemp_SL=(signed long)net_buff_;\ntemp_SL=Kunet;\ntemp_SL/=36000L;\nnet_U=(signed short)temp_SL;\n#endif\n\n#ifdef UKU_6U\n//напряжение сети\n\nif((AUSW_MAIN%10)\|\|(AUSW_MAIN==2400)\|\|(AUSW_MAIN==4800)\|\|(AUSW_MAIN==6000))\n\t{\n\n\tif(bps[11]._device==dNET_METR)\n\t\t{\n\t\tnet_metr_buff_[0]=((signed short)bps[11]._buff[0])+(((signed short)bps[11]._buff[1])<<8);\n\t\tnet_metr_buff_[1]=((signed short)bps[11]._buff[2])+(((signed short)bps[11]._buff[3])<<8);\n\t\tnet_metr_buff_[2]=((signed short)bps[11]._buff[4])+(((signed short)bps[11]._buff[5])<<8);\n\n\t\ttemp_SL=(signed long)net_metr_buff_[0];\n\t\ttemp_SL=KunetA;\n\t\ttemp_SL/=6000L;\n\t\tnet_Ua=(signed short)temp_SL;\n\t\n\t\ttemp_SL=(signed long)net_metr_buff_[1];\n\t\ttemp_SL=KunetB;\n\t\ttemp_SL/=6000L;\n\t\tnet_Ub=(signed short)temp_SL;\n\t\n\t\ttemp_SL=(signed long)net_metr_buff_[2];\n\t\ttemp_SL=KunetC;\n\t\ttemp_SL/=6000L;\n\t\tnet_Uc=(signed short)temp_SL;\n\t\t}\n\telse\n\t\t{\n\t\ttemp_SL=(signed long)net_buff_;\n\t\ttemp_SL=KunetA;\n\t\ttemp_SL/=110000L;\n\t\tnet_Ua=(signed short)temp_SL;\n\t\n\t\ttemp_SL=(signed long)adc_buff_[3];\n\t\ttemp_SL=KunetB;\n\t\ttemp_SL/=6000L;\n\t\tnet_Ub=(signed short)temp_SL;\n\t\n\t\ttemp_SL=(signed long)adc_buff_[10];\n\t\ttemp_SL=KunetC;\n\t\ttemp_SL/=6000L;\n\t\tnet_Uc=(signed short)temp_SL;\n\t\t}\n\n\tnet_U=net_Ua;\n\tif(net_Ub<net_U)net_U=net_Ub;\n\tif(net_Uc<net_U)net_U=net_Uc;\n\t}\nelse \n\t{\n\ttemp_SL=(signed long)net_buff_;\n\ttemp_SL=Kunet;\n\ttemp_SL/=110000L;\n\tnet_U=(signed short)temp_SL;\n\t}\n\n\n\n\n#endif\n\n#ifdef UKU_GLONASS\n//напряжение сети\ntemp_SL=(signed long)net_buff_;\ntemp_SL=Kunet;\ntemp_SL/=110000L;\nnet_U=(signed short)temp_SL;\n#endif\n\n#ifdef UKU_KONTUR\n//напряжение сети\ntemp_SL=(signed long)net_buff_;\ntemp_SL=Kunet;\ntemp_SL/=110000L;\nnet_U=(signed short)temp_SL;\n#endif\n\n\n#ifdef UKU_220_V2\n//напряжение сети\r\n\r\nif(AUSW_MAIN==22033)\n\t{\n\ttemp_SL=(signed long)net_buff_;\n\ttemp_SL=KunetA;\n\ttemp_SL/=6000L;\n\tnet_Ua=(signed short)temp_SL;\n\n\ttemp_SL=(signed long)adc_buff_[3];\n\ttemp_SL=KunetB;\n\ttemp_SL/=6000L;\n\tnet_Ub=(signed short)temp_SL;\n\n\ttemp_SL=(signed long)adc_buff_[10];\n\ttemp_SL=KunetC;\n\ttemp_SL/=6000L;\n\tnet_Uc=(signed short)temp_SL;\n\n\tnet_U=net_Ua;\n\tif(net_Ub<net_U)net_U=net_Ub;\n\tif(net_Uc<net_U)net_U=net_Uc;\n\t}\nelse\n\t{\n\ttemp_SL=(signed long)net_buff_;\n\ttemp_SL=Kunet;\n\ttemp_SL/=5000L;\n\tnet_U=(signed short)temp_SL;\n\t}\n#endif\n\n\n#ifdef UKU_220\n//напряжение сети\n\nif(AUSW_MAIN==22035)\n\t{\n\ttemp_SL=(signed long)net_buff_;\n\ttemp_SL=KunetA;\n\ttemp_SL/=6000L;\n\tnet_Ua=(signed short)temp_SL;\n\n\ttemp_SL=(signed long)adc_buff_[3];\n\ttemp_SL=KunetB;\n\ttemp_SL/=6000L;\n\tnet_Ub=(signed short)temp_SL;\n\n\ttemp_SL=(signed long)adc_buff_[10];\n\ttemp_SL=KunetC;\n\ttemp_SL/=6000L;\n\tnet_Uc=(signed short)temp_SL;\n\n\tnet_U=net_Ua;\n\tif(net_Ub<net_U)net_U=net_Ub;\n\tif(net_Uc<net_U)net_U=net_Uc;\n\t}\nelse\n\t{\n\ttemp_SL=(signed long)net_buff_;\n\ttemp_SL=Kunet;\n\t#ifdef _ACDC_\n\ttemp_SL/=500L;\n\t#else\n\ttemp_SL/=5000L;\n\t#endif\n\tnet_U=(signed short)temp_SL;\n\t\n\t}\n#endif\n\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\n//напряжение сети\n\n\n\tif(bps[11]._device==dNET_METR)\n\t\t{\n\t\tnet_metr_buff_[0]=((signed short)bps[11]._buff[0])+(((signed short)bps[11]._buff[1])<<8);\n\t\tnet_metr_buff_[1]=((signed short)bps[11]._buff[2])+(((signed short)bps[11]._buff[3])<<8);\n\t\tnet_metr_buff_[2]=((signed short)bps[11]._buff[4])+(((signed short)bps[11]._buff[5])<<8);\n\n\t\ttemp_SL=(signed long)net_metr_buff_[2];\n\t\ttemp_SL=KunetA;\n\t\ttemp_SL/=6000L;\n\t\tnet_Ua=(signed short)temp_SL;\n\t\n\t\ttemp_SL=(signed long)net_metr_buff_[1];\n\t\ttemp_SL=KunetB;\n\t\ttemp_SL/=6000L;\n\t\tnet_Ub=(signed short)temp_SL;\n\t\n\t\ttemp_SL=(signed long)net_metr_buff_[0];\n\t\ttemp_SL=KunetC;\n\t\ttemp_SL/=6000L;\n\t\tnet_Uc=(signed short)temp_SL;\n\n\t\tnet_F3=((signed short)bps[11]._buff[6])+(((signed short)bps[11]._buff[7])<<8);\n\n\t\tnet_U=net_Ua;\n\t\tif(net_Ub<net_U)net_U=net_Ub;\n\t\tif(net_Uc<net_U)net_U=net_Uc;\n\t\t}\n\t else if(AUSW_MAIN==22033)\n\t{\n\ttemp_SL=(signed long)net_buff_;\n\ttemp_SL=KunetA;\n\ttemp_SL/=4000L;\n\tnet_Ua=(signed short)temp_SL;\n\n\ttemp_SL=(signed long)adc_buff_[3];\n\ttemp_SL=KunetB;\n\ttemp_SL/=6000L;\n\tnet_Ub=(signed short)temp_SL;\n\n\ttemp_SL=(signed long)adc_buff_[10];\n\ttemp_SL=KunetC;\n\ttemp_SL/=6000L;\n\tnet_Uc=(signed short)temp_SL;\n\n\tnet_U=net_Ua;\n\tif(net_Ub<net_U)net_U=net_Ub;\n\tif(net_Uc<net_U)net_U=net_Uc;\n\t}\nelse if((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043)\|\|(AUSW_MAIN==22018))\n\t{\n\ttemp_SL=(signed long)net_buff_;\n\ttemp_SL=KunetA;\n\ttemp_SL/=40000L;\n\tnet_Ua=(signed short)temp_SL;\n\n\ttemp_SL=(signed long)adc_buff_[3];\n\ttemp_SL=KunetB;\n\ttemp_SL/=6000L;\n\tnet_Ub=(signed short)temp_SL;\n\n\ttemp_SL=(signed long)adc_buff_[10];\n\ttemp_SL=KunetC;\n\ttemp_SL/=6000L;\n\tnet_Uc=(signed short)temp_SL;\n\n\tnet_U=net_Ua;\n\tif(net_Ub<net_U)net_U=net_Ub;\n\tif(net_Uc<net_U)net_U=net_Uc;\n\t}\nelse\tif((AUSW_MAIN==22010)\|\|(AUSW_MAIN==22011) )\n\t{\n\ttemp_SL=(signed long)net_buff_;\n\ttemp_SL=Kunet;\n\ttemp_SL/=35000L;\n\tnet_U=(signed short)temp_SL;\n\t\n\t}\nelse\n\t{\n\ttemp_SL=(signed long)net_buff_;\n\ttemp_SL=Kunet;\n\t#ifdef _ACDC_\n\ttemp_SL/=500L;\n\t#else\n\ttemp_SL/=5000L;\n\t#endif\n\tnet_U=(signed short)temp_SL;\n\t\n\t}\nif(bps[11]._device!=dNET_METR) net_F3=net_F;\n#endif\r\n\n#ifdef UKU_TELECORE2015\n//напряжение сети\ntemp_SL=(signed long)net_buff_;\ntemp_SL=Kunet;\ntemp_SL/=110000L;\nnet_U=(signed short)temp_SL;\n#endif\r\n\r\n#ifdef UKU_TELECORE2017\n//напряжение сети\ntemp_SL=(signed long)net_buff_;\ntemp_SL=Kunet;\ntemp_SL/=110000L;\nnet_U=(signed short)temp_SL;\n#endif\r\n\n//Напряжения батарей\ntemp_SL=(signed long)adc_buff_[0];\ntemp_SL=Kubat[0];\ntemp_SL/=2000L;\nbat[0]._Ub=(signed short)temp_SL;\n\n#ifdef UKU_220\n//Напряжения батарей\ntemp_SL=(signed long)adc_buff_[0];\ntemp_SL=Kubat[0];\ntemp_SL/=400L;\nbat[0]._Ub=(signed short)temp_SL;\n#endif\n\n#ifdef UKU_220_V2\n//Напряжения батарей\ntemp_SL=(signed long)adc_buff_[0];\ntemp_SL=Kubat[0];\ntemp_SL/=400L;\nbat[0]._Ub=(signed short)temp_SL;\n#endif\n\ntemp_SL=(signed long)adc_buff_[4];\ntemp_SL=Kubatm[0];\ntemp_SL/=700L;\nbat[0]._Ubm=(signed short)temp_SL;\n\n#ifdef UKU_KONTUR\ntemp_SL=(signed long)adc_buff_[4];\ntemp_SL=Kubatm[0];\ntemp_SL/=2000L;\nbat[0]._Ubm=(signed short)temp_SL;\n#endif\n\ntemp_SL=(signed long)adc_buff_[12];\ntemp_SL=Kubat[1];\ntemp_SL/=2000L;\nbat[1]._Ub=(signed short)temp_SL;\n\n#ifdef UKU_220\ntemp_SL=(signed long)adc_buff_[12];\ntemp_SL=Kubat[1];\ntemp_SL/=400L;\nbat[1]._Ub=(signed short)temp_SL;\n#endif\n\n#ifdef UKU_220_V2\ntemp_SL=(signed long)adc_buff_[12];\ntemp_SL=Kubat[1];\ntemp_SL/=400L;\nbat[1]._Ub=(signed short)temp_SL;\n#endif\n\ntemp_SL=(signed long)adc_buff_[1];\ntemp_SL=Kubatm[1];\ntemp_SL/=700L;\nbat[1]._Ubm=(signed short)temp_SL;\n#ifdef UKU_KONTUR\ntemp_SL=(signed long)adc_buff_[1];\ntemp_SL=Kubatm[1];\ntemp_SL/=2000L;\nbat[1]._Ubm=(signed short)temp_SL;\n#endif\r\n\r\n#ifdef UKU_TELECORE2015\ntemp_SL=(signed long)adc_buff_[2];\ntemp_SL=Kubat[0];\ntemp_SL/=2000L;\nbat[0]._Ub=(signed short)temp_SL;\n#endif\r\n\n/\n//Токи батарей\nif(!mess_find_unvol(MESS2MATEMAT))\n\t{\n\ttemp_SL=(signed long)ad7705_buff_[0];\n\ttemp_SL-=(signed long)Kibat0[0];\n\ttemp_SL=(signed long)Kibat1[0];\n\tif((AUSW_MAIN==24120)\|\|(AUSW_MAIN==24210))temp_SL/=300L;\n\telse temp_SL/=1000L;\n\tbat[0]._Ib=(signed short)temp_SL;\n\n\ttemp_SL=(signed long)ad7705_buff_[1];\n\ttemp_SL-=(signed long)Kibat0[1];\n\ttemp_SL=(signed long)Kibat1[1];\n\tif((AUSW_MAIN==24120)\|\|(AUSW_MAIN==24210))temp_SL/=300L;\n\telse temp_SL/=1000L;\n\tbat[1]._Ib=(signed short)temp_SL;\n\t}\n/\n\n\n//Токи батарей\nif(!mess_find_unvol(MESS2MATEMAT))\n\t{\n\ttemp_SL=(signed long)ad7705_buff_[0];\n\ttemp_SL-=(signed long)Kibat0[0];\n\ttemp_SL=(signed long)Kibat1[0];\n\tif((AUSW_MAIN==24120)\|\|(AUSW_MAIN==24210))temp_SL/=300L;\n\telse if((AUSW_MAIN==22010)\|\|(AUSW_MAIN==22035)\|\|(AUSW_MAIN==22033))temp_SL/=2000L;\n\telse temp_SL/=1000L;\r\n\t#ifdef UKU_TELECORE2015\r\n\ttemp_SL/=2L;\r\n\t//temp_SL=-temp_SL;\r\n\t#endif\r\n\t//#ifdef UKU_TELECORE2017\r\n\t//temp_SL/=-2L;\r\n\t//temp_SL=-temp_SL;\r\n\t//#endif\n\tbat[0]._Ib=(signed short)temp_SL;\n\n\ttemp_SL=(signed long)ad7705_buff_[1];\n\ttemp_SL-=(signed long)Kibat0[1];\n\ttemp_SL=(signed long)Kibat1[1];\n\tif((AUSW_MAIN==24120)\|\|(AUSW_MAIN==24210))temp_SL/=300L;\n\telse if((AUSW_MAIN==22010)\|\|(AUSW_MAIN==22035)\|\|(AUSW_MAIN==22033))temp_SL/=2000L;\n\telse temp_SL/=1000L;\n\tbat[1]._Ib=(signed short)temp_SL;\n\t}\n\n\n\n\n\n//Температуры батарей\n\n#ifdef UKU_KONTUR\nif((adc_buff_[6]>800)&&(adc_buff_[6]<3800))bat[0]._nd=0;\nelse bat[0]._nd=1;\ntemp_SL=(signed long)adc_buff_[6];\ntemp_SL=Ktbat[0];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nbat[0]._Tb=(signed short)temp_SL;\n#else\nif((adc_buff_[6]>800)&&(adc_buff_[6]<3800))bat[0]._nd=0;\nelse bat[0]._nd=1;\ntemp_SL=(signed long)adc_buff_[6];\ntemp_SL=Ktbat[0];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nbat[0]._Tb=(signed short)temp_SL;\n#endif\n\n#ifdef UKU_KONTUR\nif((adc_buff_[7]>800)&&(adc_buff_[7]<3800))bat[1]._nd=0;\nelse bat[1]._nd=1;\ntemp_SL=(signed long)adc_buff_[7];\ntemp_SL=Ktbat[1];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nbat[1]._Tb=(signed short)temp_SL;\n#else\nif((adc_buff_[7]>800)&&(adc_buff_[7]<3800))bat[1]._nd=0;\nelse bat[1]._nd=1;\ntemp_SL=(signed long)adc_buff_[7];\ntemp_SL=Ktbat[1];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nbat[1]._Tb=(signed short)temp_SL;\n#endif\n\n#ifdef UKU_6U\n\nif(NUMMAKB==2)\n\t{\n\tif(makb[0]._cnt<5)\n\t\t{\n\t\tif(makb[0]._T_nd[0]==0)\n\t\t\t{\n\t\t\tbat[0]._Tb=makb[0]._T[0];\n\t\t\tbat[0]._nd=0;\n\t\t\t}\n\t\t}\n\n\tif(makb[1]._cnt<5)\n\t\t{\n\t\tif(makb[1]._T_nd[0]==0)\n\t\t\t{\n\t\t\tbat[1]._Tb=makb[1]._T[0];\n\t\t\tbat[1]._nd=0;\n\t\t\t}\n\t\t}\n\n\t}\nelse if(NUMMAKB==4)\n\t{\n\tsigned short temp_t;\n\ttemp_t=-20;\n\tif(makb[0]._cnt<5)\n\t\t{\n\t\tif(makb[0]._T_nd[0]==0)\n\t\t\t{\n\t\t\ttemp_t=makb[0]._T[0];\n\t\t\tbat[0]._nd=0;\n\t\t\t}\n\t\t}\n\tif(makb[1]._cnt<5)\n\t\t{\n\t\tif(makb[1]._T_nd[0]==0)\n\t\t\t{\n\t\t\tif(temp_t<makb[1]._T[0])\n\t\t\t\t{\n\t\t\t\tbat[0]._nd=0;\n\t\t\t\ttemp_t=makb[1]._T[0];\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\tif(temp_t!=-20)bat[0]._Tb = temp_t;\n\n \ttemp_t=-20;\n\tif(makb[2]._cnt<5)\n\t\t{\n\t\tif(makb[2]._T_nd[0]==0)\n\t\t\t{\n\t\t\ttemp_t=makb[2]._T[0];\n\t\t\tbat[1]._nd=0;\n\t\t\t}\n\t\t}\n\tif(makb[3]._cnt<5)\n\t\t{\n\t\tif(makb[3]._T_nd[0]==0)\n\t\t\t{\n\t\t\tif(temp_t<makb[3]._T[0])\n\t\t\t\t{\n\t\t\t\tbat[1]._nd=0;\n\t\t\t\ttemp_t=makb[3]._T[0];\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\tif(temp_t!=-20)bat[1]._Tb = temp_t;\n\t}\n\n#endif\n\n\n//Напряжение нагрузки\ntemp_SL=(signed long)adc_buff_[2];\ntemp_SL=Kuload;\ntemp_SL/=2000L;\nload_U=(signed short)temp_SL;\n\n#ifdef UKU_220 \n//Напряжение нагрузки\ntemp_SL=(signed long)adc_buff_[2];\ntemp_SL=Kuload;\ntemp_SL/=350L;\nload_U=(signed short)temp_SL;\n#endif\n\n#ifdef UKU_220_V2 \n//Напряжение нагрузки\ntemp_SL=(signed long)adc_buff_[2];\ntemp_SL=Kuload;\ntemp_SL/=350L;\nload_U=(signed short)temp_SL;\n#endif\n\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\n//Напряжение шины\ntemp_SL=(signed long)adc_buff_[1];\ntemp_SL=Kuout;\nif(AUSW_MAIN==22010)temp_SL/=400L;\nelse temp_SL/=500L;\nout_U=(signed short)temp_SL;\r\nload_U=out_U;\r\n\r\n//Напряжение выпрямителей\ntemp_SL=(signed long)adc_buff_[2];\ntemp_SL=Kubps;\nif(AUSW_MAIN==22010)temp_SL/=400L;\nelse temp_SL/=500L;\nbps_U=(signed short)temp_SL;\r\n\r\nif(bps_U<100)\r\n\t{\r\n\tchar i;\r\n\tfor(i=0;i<NUMIST;i++)\r\n\t\t{\r\n\t\tif(bps[i]._Uin>bps_U)bps_U=bps[i]._Uin;\r\n\t\t}\r\n\t}\r\n\r\n//Суммарный ток выпрямителей\r\ntemp_SL=0;\r\nfor (i=0;i<NUMIST;i++)\r\n\t{\r\n\ttemp_SL+=((signed long)bps[i]._Ii);\r\n\t}\r\nbps_I=(signed short)temp_SL;\r\n\r\n\n#endif\n\n\n#ifdef UKU_KONTUR\n//Внешний датчик температуры №1(температура внешнего воздуха)\nif((adc_buff_[5]>800)&&(adc_buff_[5]<3800))ND_EXT[0]=0;\nelse ND_EXT[0]=1;\ntemp_SL=(signed long)adc_buff_[5];\ntemp_SL=Ktext[0];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[0]=(signed short)temp_SL;\n#else \n//Внешний датчик температуры №1(температура внешнего воздуха)\nif((adc_buff_[5]>800)&&(adc_buff_[5]<3800))ND_EXT[0]=0;\nelse ND_EXT[0]=1;\ntemp_SL=(signed long)adc_buff_[5];\ntemp_SL=Ktext[0];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[0]=(signed short)temp_SL;\r\n/\r\nif((adc_buff_[6]>800)&&(adc_buff_[6]<3800))ND_EXT[1]=0;\nelse ND_EXT[1]=1;\ntemp_SL=(signed long)adc_buff_[6];\ntemp_SL=Ktext[1];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[1]=(signed short)temp_SL;\t/\n#endif\n\n#ifdef UKU_220\n\n//Внешний датчик температуры №2(температура отсека ЭПУ)\nif((adc_buff_[3]>800)&&(adc_buff_[3]<3800))ND_EXT[1]=0;\nelse ND_EXT[1]=1;\ntemp_SL=(signed long)adc_buff_[3];\ntemp_SL=Ktext[1];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[1]=(signed short)temp_SL;\n\n//Внешний датчик температуры №3(температура отсека MSAN)\nif((adc_buff_[10]>800)&&(adc_buff_[10]<3800))ND_EXT[2]=0;\nelse ND_EXT[2]=1;\ntemp_SL=(signed long)adc_buff_[10];\ntemp_SL=Ktext[2];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[2]=(signed short)temp_SL;\n\n#else\n\n\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\n//Внешний датчик температуры \nif((adc_buff_[6]>800)&&(adc_buff_[6]<3800))ND_EXT[0]=0;\nelse ND_EXT[0]=1;\ntemp_SL=(signed long)adc_buff_[6];\ntemp_SL=Ktext[0];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[0]=(signed short)temp_SL;\n\n#else\n\n\n\n//Внешний датчик температуры №2(температура отсека ЭПУ)\nif((adc_buff_[6]>800)&&(adc_buff_[6]<3800))ND_EXT[1]=0;\nelse ND_EXT[1]=1;\ntemp_SL=(signed long)adc_buff_[6];\ntemp_SL=Ktext[1];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[1]=(signed short)temp_SL;\n\n//Внешний датчик температуры №3(температура отсека MSAN)\nif((adc_buff_[3]>800)&&(adc_buff_[3]<3800))ND_EXT[2]=0;\nelse ND_EXT[2]=1;\ntemp_SL=(signed long)adc_buff_[3];\ntemp_SL=Ktext[2];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[2]=(signed short)temp_SL;\n\n#endif\n#endif\n\n#ifdef UKU_220_V2\n\n//Внешний датчик температуры №2(температура отсека ЭПУ)\nif((adc_buff_[3]>800)&&(adc_buff_[3]<3800))ND_EXT[1]=0;\nelse ND_EXT[1]=1;\ntemp_SL=(signed long)adc_buff_[3];\ntemp_SL=Ktext[1];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[1]=(signed short)temp_SL;\n\n//Внешний датчик температуры №3(температура отсека MSAN)\nif((adc_buff_[10]>800)&&(adc_buff_[10]<3800))ND_EXT[2]=0;\nelse ND_EXT[2]=1;\ntemp_SL=(signed long)adc_buff_[10];\ntemp_SL=Ktext[2];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[2]=(signed short)temp_SL;\n\n#else\n\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\n//Ток батареи\nif(bps[8]._device==dIBAT_METR)\n\t{\n\tibat_metr_buff_[0]=((signed long)bps[8]._buff[0])+(((signed long)bps[8]._buff[1])<<8);\n\tibat_metr_buff_[1]=((signed long)bps[8]._buff[2])+(((signed long)bps[8]._buff[3])<<8);\n\tbIBAT_SMKLBR=((signed short)bps[8]._buff[4])+(((signed short)bps[8]._buff[5])<<8);\n\n\tif(!bIBAT_SMKLBR)\n\t\t{\n\t\tsigned long temp_SL;\n\t\ttemp_SL=(signed long)ibat_metr_buff_[0];\n\t\ttemp_SL-=(signed long)ibat_metr_buff_[1];\n\t\ttemp_SL=(signed long)Kibat1[0];\n\t\tif((AUSW_MAIN==22010)\|\|(AUSW_MAIN==22011)\|\|(AUSW_MAIN==22035)\|\|(AUSW_MAIN==22033)\|\|(AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043))temp_SL/=2000L;\n\t\n\t\tIb_ips_termokompensat =(signed short)temp_SL;\n\t\t}\n\t}\n\nbat[0]._Ub=load_U;\r\nif(AUSW_MAIN==22018) Ib_ips_termokompensat=bat[0]._Ib;\nelse bat[0]._Ib=Ib_ips_termokompensat;\n\n#endif\n#endif\r\n\r\n\r\n#ifdef UKU_TELECORE2015\r\n\n//Внешний датчик температуры №1\nif((adc_buff_[7]>800)&&(adc_buff_[7]<3800))ND_EXT[0]=0;\nelse ND_EXT[0]=1;\ntemp_SL=(signed long)adc_buff_[7];\ntemp_SL=Ktext[0];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[0]=(signed short)temp_SL;\r\n\r\n\r\n//Внешний датчик температуры №2\nif((adc_buff_[6]>800)&&(adc_buff_[6]<3800))ND_EXT[1]=0;\nelse ND_EXT[1]=1;\ntemp_SL=(signed long)adc_buff_[6];\ntemp_SL=Ktext[1];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[1]=(signed short)temp_SL;\n\n#endif\r\n\r\n#ifdef UKU_TELECORE2017\r\n\n//Внешний датчик температуры №1\nif((adc_buff_[7]>800)&&(adc_buff_[7]<3800))ND_EXT[0]=0;\nelse ND_EXT[0]=1;\ntemp_SL=(signed long)adc_buff_[7];\ntemp_SL=Ktext[0];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[0]=(signed short)temp_SL;\r\n\r\n\r\n//Внешний датчик температуры №2\nif((adc_buff_[6]>800)&&(adc_buff_[6]<3800))ND_EXT[1]=0;\nelse ND_EXT[1]=1;\ntemp_SL=(signed long)adc_buff_[6];\ntemp_SL=Ktext[1];\ntemp_SL/=20000L;\ntemp_SL-=273L;\nt_ext[1]=(signed short)temp_SL;\n\n#endif\r\n\n//напряжение ввода\ntemp_SL=(signed long)adc_buff_ext_[0];\ntemp_SL=Kunet_ext[0];\ntemp_SL/=4000L;\nUvv[0]=(signed short)temp_SL;\nif(Uvv[0]<100) Uvv0=Uvv[0];\nelse Uvv0=net_U;\n\n//напряжение пэс\ntemp_SL=(signed long)adc_buff_ext_[1];\ntemp_SL=Kunet_ext[1];\ntemp_SL/=4000L;\nUvv[1]=(signed short)temp_SL;\n\n\n//напряжение ввода трехфазное\ntemp_SL=(signed long)eb2_data_short[0];\ntemp_SL=Kvv_eb2[0];\ntemp_SL/=6000L;\nUvv_eb2[0]=(signed short)temp_SL;\n\ntemp_SL=(signed long)eb2_data_short[1];\ntemp_SL=Kvv_eb2[1];\ntemp_SL/=6000L;\nUvv_eb2[1]=(signed short)temp_SL;\n\ntemp_SL=(signed long)eb2_data_short[2];\ntemp_SL=Kvv_eb2[2];\ntemp_SL/=6000L;\nUvv_eb2[2]=(signed short)temp_SL;\n\n//напряжение пэс трехфазное\ntemp_SL=(signed long)eb2_data_short[3];\ntemp_SL=Kpes_eb2[0];\ntemp_SL/=6000L;\nUpes_eb2[0]=(signed short)temp_SL;\n\ntemp_SL=(signed long)eb2_data_short[4];\ntemp_SL=Kpes_eb2[1];\ntemp_SL/=6000L;\nUpes_eb2[1]=(signed short)temp_SL;\n\ntemp_SL=(signed long)eb2_data_short[5];\ntemp_SL=Kpes_eb2[2];\ntemp_SL/=6000L;\nUpes_eb2[2]=(signed short)temp_SL;\n\n//Вычисление температуры шкафа\n\nibt._T[0]=t_ext[1]+273;\nibt._T[1]=t_ext[2]+273;\n\nibt._nd[0]=ND_EXT[1];\nibt._nd[1]=ND_EXT[2];\n\n#ifndef UKU_TELECORE2015\nif((ibt._nd[0]==0) && (ibt._nd[1]==0))\n\t{\n\tt_box=((ibt._T[0]+ibt._T[1])/2)-273;\n\t}\nelse if((ibt._nd[0]==1) && (ibt._nd[1]==0))\n\t{\n\tt_box=ibt._T[1]-273;\n\t}\nelse if((ibt._nd[0]==0) && (ibt._nd[1]==1))\n\t{\n\tt_box=ibt._T[0]-273;\n\t}\nelse if((ibt._nd[0]==1) && (ibt._nd[1]==1))\n\t{\n\tif(t_ext_can_nd<5)t_box= t_ext_can;\n\telse t_box=20;\n\t}\n#endif\n/\n//Вычисление температуры шкафа\n\nibt._T[0]=bat[0]._Tb+273;\nibt._T[1]=bat[1]._Tb+273;\nibt._T[2]=t_ext[1]+273;\nibt._T[3]=t_ext[2]+273;\n\nibt._nd[0]=bat[0]._nd;\nibt._nd[1]=bat[1]._nd;\nibt._nd[2]=ND_EXT[1];\nibt._nd[3]=ND_EXT[2];\n\nibt._avg1=0;\nibt._avg_cnt=4;\n\nif(ibt._nd[0]==0)\n\t{\n\tibt._avg1+=ibt._T[0];\n\t}\nelse \n\t{\n\tibt._avg_cnt--;\n\t}\n\nif(ibt._nd[1]==0)\n\t{\n\tibt._avg1+=ibt._T[1];\n\t}\nelse \n\t{\n\tibt._avg_cnt--;\n\t}\n\nif(ibt._nd[2]==0)\n\t{\n\tibt._avg1+=ibt._T[2];\n\t}\nelse \n\t{\n\tibt._avg_cnt--;\n\t}\n\nif(ibt._nd[3]==0)\n\t{\n\tibt._avg1+=ibt._T[3];\n\t}\nelse \n\t{\n\tibt._avg_cnt--;\n\t}\n\nif(ibt._avg_cnt==0)\n\t{\n\t}\nelse\n\t{\n\tibt._avg1/=ibt._avg_cnt;\n\t}\n\n\nif(ibt._nd[0]!=0)\n\t{\n\tibt._T_dispers[0]=0;\n\t}\nelse \n\t{\n\tibt._T_dispers[0]=abs(ibt._T[0]-ibt._avg1);\n\t}\n\nif(ibt._nd[1]!=0)\n\t{\n\tibt._T_dispers[1]=0;\n\t}\nelse \n\t{\n\tibt._T_dispers[1]=abs(ibt._T[1]-ibt._avg1);\n\t}\n\nif(ibt._nd[2]!=0)\n\t{\n\tibt._T_dispers[2]=0;\n\t}\nelse \n\t{\n\tibt._T_dispers[2]=abs(ibt._T[2]-ibt._avg1);\n\t}\n\nif(ibt._nd[3]!=0)\n\t{\n\tibt._T_dispers[3]=0;\n\t}\nelse \n\t{\n\tibt._T_dispers[3]=abs(ibt._T[3]-ibt._avg1);\n\t}\n\nif(\tibt._nd[0]&&\n\tibt._nd[1]&&\n\tibt._nd[2]&&\n\tibt._nd[3]\n\t)\n\t{\n\tt_box=(bps[0]._Ti);\n\t}\n\nelse if(\tibt._nd[0]\|\|\n\tibt._nd[1]\|\|\n\tibt._nd[2]\|\|\n\tibt._nd[3]\n\t)\n\t{\n\tt_box=(ibt._avg1-273);\n\t}\nelse \n\t{\n\tibt._max_dispers_num=0;\n\tibt._max_dispers=ibt._T_dispers[0];\n\n\tif(ibt._T_dispers[1]>ibt._max_dispers)\n\t\t{\n\t\tibt._max_dispers_num=1;\n\t\tibt._max_dispers=ibt._T_dispers[1];\n\t\t}\n\tif(ibt._T_dispers[2]>ibt._max_dispers)\n\t\t{\n\t\tibt._max_dispers_num=2;\n\t\tibt._max_dispers=ibt._T_dispers[2];\n\t\t}\n\tif(ibt._T_dispers[3]>ibt._max_dispers)\n\t\t{\n\t\tibt._max_dispers_num=3;\n\t\tibt._max_dispers=ibt._T_dispers[3];\n\t\t}\n\n\tibt._avg2=0;\n\n\tif(ibt._max_dispers_num!=0)\n\t\t{\n\t\tibt._avg2+=ibt._T[0];\n\t\t}\n\tif(ibt._max_dispers_num!=1)\n\t\t{\n\t\tibt._avg2+=ibt._T[1];\n\t\t}\n\tif(ibt._max_dispers_num!=2)\n\t\t{\n\t\tibt._avg2+=ibt._T[2];\n\t\t}\n\tif(ibt._max_dispers_num!=3)\n\t\t{\n\t\tibt._avg2+=ibt._T[3];\n\t\t}\n\n\tt_box=(ibt._avg2/3)-273;\n\n\t}/\n\n\n//*******************************************\n\n#ifndef TELECORE\nif((BAT_IS_ON[0]==bisON)&&(bat[0]._Ub>200)) Ibmax=bat[0]._Ib;\nif((BAT_IS_ON[1]==bisON)&&(bat[1]._Ub>200)&&(bat[1]._Ib>bat[0]._Ib)) Ibmax=bat[1]._Ib;\n#endif\r\n\r\n#ifdef TELECORE\r\nIbmax=0;\r\n/\r\nif((NUMBAT_TELECORE>0)&&(lakb[0]._communicationFullErrorStat==0)&&(lakb[0]._ch_curr/10>Ibmax))Ibmax=lakb[0]._ch_curr/10;\r\nif((NUMBAT_TELECORE>1)&&(lakb[1]._communicationFullErrorStat==0)&&(lakb[1]._ch_curr/10>Ibmax))Ibmax=lakb[1]._ch_curr/10;\r\nif((NUMBAT_TELECORE>2)&&(lakb[2]._communicationFullErrorStat==0)&&(lakb[2]._ch_curr/10>Ibmax))Ibmax=lakb[2]._ch_curr/10;\r\n/\r\nif((NUMBAT_TELECORE>0)&&(bat[0]._Ib/10>Ibmax))Ibmax=bat[0]._Ib/10;\r\nif((NUMBAT_TELECORE>1)&&(bat[1]._Ib/10>Ibmax))Ibmax=bat[1]._Ib/10;\r\n//if((BAT_IS_ON[0]==bisON)&&(bat[0]._Ub>200)) Ibmax=bat[0]._Ib/1;\n//if((BAT_IS_ON[1]==bisON)&&(bat[1]._Ub>200)&&(bat[1]._Ib>bat[0]._Ib)) Ibmax=bat[1]._Ib;\r\n#endif\r\n//Ibmax=bat[0]._Ib;\n//if((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043))Ibmax=Ib_ips_termokompensat;\r\n\r\n#ifdef UKU_TELECORE2017\r\nIbmax=0;\r\nif((NUMBAT_TELECORE>0)&&(bat[0]._Ib/10>Ibmax))Ibmax=bat[0]._Ib/10;\r\nif((NUMBAT_TELECORE>1)&&(bat[1]._Ib/10>Ibmax))Ibmax=bat[1]._Ib/10;\r\n#endif\r\n\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\nIbmax=Ib_ips_termokompensat;\r\n#endif\nfor(i=0;i<NUMIST;i++)\n\t{\n\tif(bps[i]._cnt<25)\n \t{\n \tbps[i]._Ii=bps[i]._buff[0]+(bps[i]._buff[1]256);\n \tbps[i]._Uin=bps[i]._buff[2]+(bps[i]._buff[3]256);\n \tbps[i]._Uii=bps[i]._buff[4]+(bps[i]._buff[5]256);\n \tbps[i]._Ti=(signed)(bps[i]._buff[6]);\n \tbps[i]._adr_ee=bps[i]._buff[7];\n \tbps[i]._flags_tm=bps[i]._buff[8];\n\t bps[i]._rotor=bps[i]._buff[10]+(bps[i]._buff[11]256); \n \t} \n\telse \n \t{\n \tbps[i]._Uii=0; \n \tbps[i]._Ii=0;\n \tbps[i]._Uin=0;\n \tbps[i]._Ti=0;\n \tbps[i]._flags_tm=0; \n\t bps[i]._rotor=0; \n \t}\n \n }\n\nload_I=0;\n#ifdef TELECORE\r\n\r\n/for(i=0;i<NUMBAT_TELECORE;i++)\r\n\t{\r\n\tload_I-=lakb[i]._ch_curr/10;\r\n\t}/\r\nload_I=-(bat[0]._Ib/10)-(bat[1]._Ib/10);\r\n#elif UKU_TELECORE2017\r\nload_I=-(bat[0]._Ib/10)-(bat[1]._Ib/10);\r\n#else\nload_I=-(bat[0]._Ib/10)-(bat[1]._Ib/10);\n#endif\nIsumm=0;\n\nfor(i=0;i<NUMIST;i++)\n {\n if(bps[i]._cnt<5)Isumm+=bps[i]._Ii;\n } \n \nload_I=load_I+Isumm;\nif(load_I<0)load_I=0;\n\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\nload_I=0;\n\nIsumm=0;\n\nfor(i=0;i<NUMIST;i++)\n {\n if(bps[i]._cnt<5)Isumm+=bps[i]._Ii;\n } \n \nload_I=load_I+Isumm;\nif(load_I<0)load_I=0;\n\n#endif\n\n\n\n#ifdef UKU_GLONASS\ninv[0]._Uio=6;\nif (NUMINV)\n\t{\n\tfor(i=0;i<NUMINV;i++)\n\t\t{\n\t\tif(bps[i+first_inv_slot]._cnt<25)\n \t\t{\n \t\tinv[i]._Ii=bps[i+first_inv_slot]._buff[0]+(bps[i+first_inv_slot]._buff[1]256);\n \t\tinv[i]._Uin=bps[i+first_inv_slot]._buff[2]+(bps[i+first_inv_slot]._buff[3]256);\n \t\tinv[i]._Uio=bps[i+first_inv_slot]._buff[4]+(bps[i+first_inv_slot]._buff[5]256);\n \t\tinv[i]._Ti=(signed)(bps[i+first_inv_slot]._buff[6]);\n \t\tinv[i]._flags_tm=bps[i+first_inv_slot]._buff[8];\n\t \t//\tinv[i]._rotor=bps[i+first_inv_slot]._buff[10]+(bps[i+first_inv_slot]._buff[11]256);\n\t\t\tinv[i]._cnt=0; \n \t\t} \n\t\telse \n \t\t{\n \t\tinv[i]._Uio=0; \n \t\tinv[i]._Ii=0;\n \t\tinv[i]._Uin=0;\n \t\tinv[i]._Ti=0;\n \t\tinv[i]._flags_tm=0; \n//\t \tinv[i]._rotor0;\n\t\t\tinv[i]._cnt=25; \n \t\t}\n \t}\n \t}\n#endif\n\n#ifndef UKU_GLONASS\nif (NUMINV)\n\t{\n\tfor(i=0;i<NUMINV;i++)\n\t\t{\n\t\tif(bps[i+20]._cnt<25)\n \t\t{\n \t\tinv[i]._Ii=bps[i+20]._buff[0]+(bps[i+20]._buff[1]256);\n \t\tinv[i]._Pio=bps[i+20]._buff[2]+(bps[i+20]._buff[3]256);\n \t\tinv[i]._Uio=bps[i+20]._buff[4]+(bps[i+20]._buff[5]256);\n \t\tinv[i]._Ti=(signed)(bps[i+20]._buff[6]);\n \t\tinv[i]._flags_tm=bps[i+20]._buff[7];\n \t\tinv[i]._Uin=bps[i+20]._buff[8]+(bps[i+20]._buff[9]256);\n \t\tinv[i]._Uil=bps[i+20]._buff[10]+(bps[i+20]._buff[11]256);\n\t\t\tinv[i]._cnt=0;\n\t\t\tinv[i]._Uoutmin=bps[i+20]._buff[12]; \n\t\t\tinv[i]._Uoutmax=bps[i+20]._buff[13]; \n\t\t\tinv[i]._Pnom=bps[i+20]._buff[14]; \n\t\t\tinv[i]._net_contr_en=bps[i+20]._buff[15];\n\t\t\tinv[i]._pwm_en=bps[i+20]._buff[16]; \n\t\t\tinv[i]._phase_mode=bps[i+20]._buff[17]; \n \t\t} \n\t\telse \n \t\t{\n \t\tinv[i]._Ii=0;\n\t\t\tinv[i]._Pio=0;\n\t\t\tinv[i]._Uio=0;\n \t\tinv[i]._Ti=0;\n \t\tinv[i]._flags_tm=0; \n \t\tinv[i]._Uil=0;\n \t\tinv[i]._Uin=0;\n\t\t\tinv[i]._cnt=25; \n\t\t\tinv[i]._Uoutmin=0; \n\t\t\tinv[i]._Uoutmax=0; \n\t\t\tinv[i]._Pnom=0; \n\t\t\tinv[i]._net_contr_en=0;\n\t\t\tinv[i]._pwm_en=0; \n\t\t\t \n \t\t}\n \t}\n \t}\n#endif\n\n#ifdef GLADKOV\ninv[0]._Ii=bps[4]._buff[0]+(bps[4]._buff[1]256);\ninv[0]._Pio=bps[4]._buff[2]+(bps[4]._buff[3]256);\ninv[0]._Uio=bps[4]._buff[4]+(bps[4]._buff[5]256);\ninv[0]._Ti=(signed)(bps[4]._buff[6]);\ninv[0]._flags_tm=bps[4]._buff[7];\ninv[0]._Uin=bps[4]._buff[8]+(bps[4]._buff[9]256);\ninv[0]._Uil=bps[4]._buff[10]+(bps[4]._buff[11]256);\ninv[0]._cnt=0; \n\ninv[1]._Ii=bps[21]._buff[0]+(bps[21]._buff[1]256);\ninv[1]._Pio=bps[21]._buff[2]+(bps[21]._buff[3]256);\ninv[1]._Uio=bps[21]._buff[4]+(bps[21]._buff[5]256);\ninv[1]._Ti=(signed)(bps[21]._buff[6]);\ninv[1]._flags_tm=bps[21]._buff[7];\ninv[1]._Uin=bps[21]._buff[8]+(bps[21]._buff[9]256);\ninv[1]._Uil=bps[21]._buff[10]+(bps[21]._buff[11]256);\ninv[1]._cnt=0; \n#endif\r\n\n/\nif((BAT_IS_ON[0]==bisON)&&(BAT_TYPE==1))\n\t{\n\tlakb[0]._battCommState=0;\n\tif(lakb[0]._cnt>10)lakb[0]._battCommState=2;\n\telse if(lakb[0]._bRS485ERR==1)lakb[0]._battCommState=1;\n\t\n\tif(lakb[0]._battCommState==0)\n\t\t{\t\n\t\tbat[0]._Ub=(signed short)((lakb[0]._tot_bat_volt+5)/10);\n\t\tbat[0]._Ib=(signed short)lakb[0]._ch_curr;\n\t\tif(lakb[0]._dsch_curr) bat[0]._Ib=(signed short) (-lakb[0]._dsch_curr);\n\t\tbat[0]._Tb=(signed short)lakb[0]._max_cell_temp;\n\t\t}\n\t}\n/\r\n\r\n#ifdef UKU_TELECORE2015\r\n\r\n\tif(BAT_TYPE==2)\r\n\t\t{\r\n\t\tlakb[0]._ch_curr/temp_SS/=((ascii2halFhex(liBatteryInBuff[113]))<<12)+\r\n\t\t\t\t\t \t\t((ascii2halFhex(liBatteryInBuff[114]))<<8)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[115]))<<4)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[116])));\r\n\t\t\r\n\t\t/if(temp_SS&0x8000)\t\tlakb[0]._ch_curr=~temp_SS;\r\n\t\telse \t\t\t\tlakb[0]._ch_curr=temp_SS;/\r\n\t\r\n\t\tlakb[0]._tot_bat_volt=\t(unsigned short)(((ascii2halFhex(liBatteryInBuff[117]))<<12)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[118]))<<8)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[119]))<<4)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[120]))))/100;\r\n\t\r\n\t\tlakb[0]._max_cell_temp= \t(((ascii2halFhex(liBatteryInBuff[93]))<<12)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[94]))<<8)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[95]))<<4)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[96]))))/10-273;\r\n\t\r\n\t\tlakb[0]._s_o_c_abs=\t\t(unsigned short)((ascii2halFhex(liBatteryInBuff[121]))<<12)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[122]))<<8)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[123]))<<4)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[124])));\r\n\t\r\n\t\tlakb[0]._rat_cap=\t\t(unsigned short)((ascii2halFhex(liBatteryInBuff[127]))<<12)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[128]))<<8)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[129]))<<4)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[130])));\r\n\t\r\n\t\tlakb[0]._s_o_c=\t\tlakb[0]._s_o_c_abs/(lakb[0]._rat_cap/100);\r\n\t\r\n\t\r\n\t/\tlakb[0]._rat_cap= (lakb_damp[i][13]256)+ lakb_damp[i][14];\r\n\t\tlakb[0]._max_cell_volt= (lakb_damp[i][0]256)+ lakb_damp[i][1];\r\n\t\tlakb[0]._min_cell_volt= (lakb_damp[i][2]256)+ lakb_damp[i][3];\r\n\t\tlakb[0]._max_cell_temp= lakb_damp[i][4];\r\n\t\tlakb[0]._min_cell_temp= lakb_damp[i][5];\r\n\t\tlakb[0]._tot_bat_volt= (lakb_damp[i][6]256)+ lakb_damp[i][7];\r\n\t\tlakb[0]._ch_curr= (lakb_damp[i][8]256)+ lakb_damp[i][8];\r\n\t\tlakb[0]._dsch_curr= (lakb_damp[i][10]256)+ lakb_damp[i][11];\r\n\t\tlakb[0]._s_o_c= lakb_damp[i][12];\r\n\t\tlakb[0]._r_b_t= lakb_damp[i][15];\r\n\t\tlakb[0]._c_c_l_v= (lakb_damp[i][16]256)+ lakb_damp[i][17];\r\n\t\tlakb[0]._s_o_h= lakb_damp[i][18];\r\n\t\r\n\t\tif(lakb[i]._rat_cap==0)\r\n\t\t\t{\r\n\t\t\tif(lakb[i]._isOnCnt)\r\n\t\t\t\t{\r\n\t\t\t\tlakb[i]._isOnCnt--;\r\n\t\t\t\tif(lakb[i]._isOnCnt==0)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif(lakb[i]._battIsOn!=0) bLAKB_KONF_CH=1;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tif(lakb[i]._isOnCnt<50)\r\n\t\t\t\t{\r\n\t\t\t\tlakb[i]._isOnCnt++;\r\n\t\t\t\tif(lakb[i]._isOnCnt==50)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif(lakb[i]._battIsOn!=1) bLAKB_KONF_CH=1;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\tgran(&lakb[i]._isOnCnt,0,50);/\r\n\t\t}\r\n\telse if(BAT_TYPE==3)\r\n\t\t{\r\n\t\t//short numOfPacks;\r\n\t\t//short numOfCells, numOfTemperCells, baseOfData;\r\n\t\t\r\n\t\t#ifndef UKU_TELECORE2016\r\n\t\tnumOfCells=((ascii2halFhex(liBatteryInBuff[17]))<<4)+((ascii2halFhex(liBatteryInBuff[18])));\r\n\t\tnumOfTemperCells=((ascii2halFhex(liBatteryInBuff[17+(numOfCells4)+2]))<<4)+((ascii2halFhex(liBatteryInBuff[18+(numOfCells4)+2])));\r\n\t\tnumOfPacks=((ascii2halFhex(liBatteryInBuff[15]))<<4)+((ascii2halFhex(liBatteryInBuff[16])));\r\n\t\tif(numOfPacks)numOfPacks-=1;\r\n\t\tif((numOfPacks<0)\|\|(numOfPacks>NUMBAT_TELECORE))numOfPacks=0;\r\n\t\tplazma_numOfCells=numOfCells;\r\n\t\tplazma_numOfTemperCells=numOfTemperCells;\r\n\t\tplazma_numOfPacks=numOfPacks;\r\n\r\n\r\n\t\tbaseOfData=16+(numOfCells4)+2+(numOfTemperCells4)+2;\r\n\r\n\t\tlakb[numOfPacks]._ch_curr=(signed short)(\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[1+baseOfData]))<<12)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[2+baseOfData]))<<8)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[3+baseOfData]))<<4)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[4+baseOfData])))\r\n\t\t\t\t\t\t\t);\t \r\n\r\n\t\tlakb[numOfPacks]._tot_bat_volt=(signed short)(\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[1+baseOfData+4]))<<12)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[2+baseOfData+4]))<<8)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[3+baseOfData+4]))<<4)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[4+baseOfData+4])))\r\n\t\t\t\t\t\t\t)/10;\r\n\r\n\t\tlakb[numOfPacks]._max_cell_temp=(signed short)(\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[1+baseOfData-4]))<<12)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[2+baseOfData-4]))<<8)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[3+baseOfData-4]))<<4)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[4+baseOfData-4])))\r\n\t\t\t\t\t\t\t)-2730;\r\n\r\n\t\tlakb[numOfPacks]._s_o_c=(signed short)(\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[1+baseOfData+8]))<<12)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[2+baseOfData+8]))<<8)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[3+baseOfData+8]))<<4)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[4+baseOfData+8])))\r\n\t\t\t\t\t\t\t)/10;\r\n\r\n\t\tlakb[numOfPacks]._s_o_h=(signed short)(\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[1+baseOfData+14]))<<12)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[2+baseOfData+14]))<<8)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[3+baseOfData+14]))<<4)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(liBatteryInBuff[4+baseOfData+14])))\r\n\t\t\t\t\t\t\t)/10;\r\n\t\t#endif\r\n\t\t\r\n\t\t#ifdef UKU_TELECORE2016\r\n\t\t{\r\n\t\tchar i;\r\n\t\t\r\n\t\tfor(i=0;i<NUMBAT_TELECORE;i++)\r\n\t\t\t{\r\n\t\t\tlakb[i]._s_o_c_percent= (signed short)(((unsigned long)lakb[i]._s_o_c100UL)/(unsigned long)lakb[i]._s_o_h);\r\n\t\t\t}\r\n\t\t}\r\n\t\t#endif\r\n\t\t\r\n\t\t\t\t\t\t\t\t\t\t \r\n\t\t}\r\n\t\r\nif(sacredSunSilentCnt<3) \r\n\t{\r\n \tbat[0]._Ub=lakb[0]._tot_bat_volt;\r\n \tbat[0]._Tb=lakb[0]._max_cell_temp;\r\n \t//bat[0]._Ib=lakb[0]._ch_curr/10;\r\n\t}\r\nelse \r\n\t{\r\n \t//bat[0]._Ub=0;\r\n \t//bat[0]._Tb=0;\r\n \t//bat[0]._Ib=0;\r\n\t}\r\n\r\nif(BAT_TYPE==1)\r\n\t{\r\n\tchar i;\r\n\tfor(i=0;i<1;i++)\r\n\t\t{\r\n\t\tlakb[i]._rat_cap= (lakb_damp[i][13]256)+ lakb_damp[i][14];\r\n\t\tlakb[i]._max_cell_volt= (lakb_damp[i][0]256)+ lakb_damp[i][1];\r\n\t\tlakb[i]._min_cell_volt= (lakb_damp[i][2]256)+ lakb_damp[i][3];\r\n\t\tlakb[i]._max_cell_temp= lakb_damp[i][4];\r\n\t\tlakb[i]._min_cell_temp= lakb_damp[i][5];\r\n\t\tlakb[i]._tot_bat_volt= (lakb_damp[i][6]256)+ lakb_damp[i][7];\r\n\t\tlakb[i]._ch_curr= (lakb_damp[i][8]256)+ lakb_damp[i][9];\r\n\t\tlakb[i]._dsch_curr= (lakb_damp[i][10]256)+ lakb_damp[i][11];\r\n\t\tlakb[i]._s_o_c= lakb_damp[i][12];\r\n\t\tlakb[i]._r_b_t= lakb_damp[i][15];\r\n\t\tlakb[i]._c_c_l_v= (lakb_damp[i][16]256)+ lakb_damp[i][17];\r\n\t\tlakb[i]._s_o_h= lakb_damp[i][18];\r\n\t\tlakb[i]._flags1= lakb_damp[i][34];\r\n\t\tlakb[i]._flags2= lakb_damp[i][35];\r\n\t\tlakb[i]._b_p_ser_num= lakb_damp[i][36];\r\n\r\n/\t\tif(lakb[i]._rat_cap==0)\r\n\t\t\t{\r\n\t\t\tif(lakb[i]._isOnCnt)\r\n\t\t\t\t{\r\n\t\t\t\tlakb[i]._isOnCnt--;\r\n\t\t\t\tif(lakb[i]._isOnCnt==0)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif(lakb[i]._battIsOn!=0) bLAKB_KONF_CH=1;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tif(lakb[i]._isOnCnt<50)\r\n\t\t\t\t{\r\n\t\t\t\tlakb[i]._isOnCnt++;\r\n\t\t\t\tif(lakb[i]._isOnCnt==50)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif(lakb[i]._battIsOn!=1) bLAKB_KONF_CH=1;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t} /\r\n\t\tgran(&lakb[i]._isOnCnt,0,50);\r\n\t \t}\r\n\r\n\tif(lakb_damp[0][41]==100)\r\n\t\t{\r\n\t\tli_bat._485Error=1;\r\n\t\t}\r\n\tif(lakb_damp[0][41]==0)\r\n\t\t{\r\n\t\t//if(bRS485ERR)bLAKB_KONF_CH=1;\r\n\t\tli_bat._485Error=0;\r\n\t\t}\r\n\tli_bat._485ErrorCnt=lakb_damp[0][41];\r\n\r\n\r\n\t}\r\n\r\n\r\n#endif\r\n\n\t\t#ifdef UKU_TELECORE2017\r\n\t\t{\r\n\t\tchar i;\r\n\t\t\r\n\t\tfor(i=0;i<NUMBAT_TELECORE;i++)\r\n\t\t\t{\r\n\t\t\tlakb[i]._s_o_c_percent= (signed short)(((unsigned long)lakb[i]._s_o_c100UL)/(unsigned long)lakb[i]._s_o_h);\r\n\t\t\t}\r\n\t\t}\r\n\t\t#endif\n#ifdef UKU_TELECORE2015\r\n//вычисление параметров работы батареи\r\n//TODO дописать для всех батарей все параметры и при отцепке батарей\r\nli_bat._batStat=bsOK;\r\nif(BAT_TYPE==1) //COSLIGHT\r\n\t{\r\n\tif(li_bat._batStat==bsOK)\r\n\t\t{\r\n\t\tli_bat._Ub=lakb[0]._tot_bat_volt/10;\r\n\r\n\t\tif(lakb[0]._ch_curr)li_bat._Ib=lakb[0]._ch_curr/10;\r\n\t\telse if(lakb[0]._dsch_curr) li_bat._Ib=bat[0]._Ib/10;//lakb[0]._dsch_curr/10;\r\n\t\r\n\t\tli_bat._ratCap=lakb[0]._rat_cap/100;\r\n\t\tli_bat._soc=lakb[0]._s_o_c;\r\n\t\tli_bat._soh=lakb[0]._s_o_h;\r\n\t\tli_bat._cclv=lakb[0]._c_c_l_v/10;\r\n\t\tli_bat._Tb=lakb[0]._max_cell_temp;\r\n\t\tli_bat._rbt=lakb[0]._r_b_t;\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tli_bat._Ub=bat[0]._Ub;\r\n\t\tli_bat._Ib=bat[0]._Ib/10;\r\n\t\tli_bat._Tb=bat[0]._Tb;\r\n\t\t}\r\n\r\n\tif((li_bat._485Error)\|\|(li_bat._canError))\r\n\t\t{\r\n\t\tli_bat._batStat=bsOFF;\r\n\t\t}\r\n\telse li_bat._batStat=bsOK;\r\n\t}\r\nelse if(BAT_TYPE==2) //SACRED SUN\r\n\t{\r\n\t}\r\nelse if(BAT_TYPE==3) //ZTT\r\n\t{\r\n\tif(li_bat._batStat==bsOK)\r\n\t\t{\r\n\r\n\t\t}\r\n\t}\r\n#endif\r\n\n\n/\nif((BAT_IS_ON[0]==bisON)&&(BAT_TYPE[0]==1)&&(BAT_LINK==0))\n\t{\n\n\n\tif(bat_drv_rx_buff[13]<=0x39)bbb[0]=bat_drv_rx_buff[13]-0x30;\n\telse bbb[0]=bat_drv_rx_buff[13]-55;\n\tif(bat_drv_rx_buff[14]<=0x39)bbb[1]=bat_drv_rx_buff[14]-0x30;\n\telse bbb[1]=bat_drv_rx_buff[14]-55;\n\tif(bat_drv_rx_buff[15]<=0x39)bbb[2]=bat_drv_rx_buff[15]-0x30;\n\telse bbb[2]=bat_drv_rx_buff[15]-55;\n\tif(bat_drv_rx_buff[16]<=0x39)bbb[3]=bat_drv_rx_buff[16]-0x30;\n\telse bbb[3]=bat_drv_rx_buff[16]-55;\n\n\ttempSS=0;\n\ttempSS=((bbb[0]4096)+(bbb[1]256)+(bbb[2]16)+bbb[3]);\n\n\tbat[0]._max_cell_volt=(tempSS+5)/10;\n\n\tif(bat_drv_rx_buff[17]<=0x39)bbb[0]=bat_drv_rx_buff[17]-0x30;\n\telse bbb[0]=bat_drv_rx_buff[17]-55;\n\tif(bat_drv_rx_buff[18]<=0x39)bbb[1]=bat_drv_rx_buff[18]-0x30;\n\telse bbb[1]=bat_drv_rx_buff[18]-55;\n\tif(bat_drv_rx_buff[19]<=0x39)bbb[2]=bat_drv_rx_buff[19]-0x30;\n\telse bbb[2]=bat_drv_rx_buff[19]-55;\n\tif(bat_drv_rx_buff[20]<=0x39)bbb[3]=bat_drv_rx_buff[20]-0x30;\n\telse bbb[3]=bat_drv_rx_buff[20]-55;\n\n\ttempSS=0;\n\ttempSS=((bbb[0]4096)+(bbb[1]256)+(bbb[2]16)+bbb[3]);\n\n\tbat[0]._min_cell_volt=(tempSS+5)/10;\n\n\n\t}/\r\n\r\n\n\n}\n\n//-----------------------------------------------\nvoid mnemo_hndl(void)\n{\nif(((ind==iMn_220)\|\|(ind==iMn))&&(sub_ind==0)&&(MNEMO_ON==mnON))\n\t{\n\tif(mnemo_cnt)mnemo_cnt--;\n\t}\nelse mnemo_cnt=MNEMO_TIME;\n}\n\n//-----------------------------------------------\nvoid adc_init(void)\n{\n\nSET_REG(LPC_PINCON->PINSEL1,1,(25-16)2,2);\nSET_REG(LPC_PINCON->PINSEL1,1,(24-16)2,2);\nSET_REG(LPC_PINCON->PINSEL1,1,(23-16)2,2);\n\n\nSET_REG(LPC_PINCON->PINMODE1,2,(25-16)2,2);\nSET_REG(LPC_PINCON->PINMODE1,2,(24-16)2,2);\nSET_REG(LPC_PINCON->PINMODE1,2,(23-16)2,2);\n\nSET_REG(LPC_ADC->ADCR,0,24,3);\n\nSET_REG(LPC_ADC->ADCR,1,21,1);\nSET_REG(LPC_ADC->ADCR,0,16,1);\nSET_REG(LPC_ADC->ADCR,1,8,8);\n\n//SET_REG(LPC_GPIO0->FIODIR,7,5,3);\n//SET_REG(LPC_GPIO0->FIOPIN,4,5,3);\n\t\n\t/if(adc_ch<=7)///SET_REG(LPC_ADC->ADCR,1<<5,0,8);\n /else if(adc_ch==8) SET_REG(LPC_ADC->ADCR,1<<2,0,8);\n else SET_REG(LPC_ADC->ADCR,1<<4,0,8);/\n\nLPC_ADC->ADINTEN = (1<< 8); /* global enable interrupt /\n\nNVIC_EnableIRQ(ADC_IRQn); / enable ADC Interrupt /\n\n\n}\n\n//-----------------------------------------------\nvoid adc_drv7(void) //(Uсети - постоянка)\n{\n//int temp_S;\n//char i;\n//signed short temp_SS;\n\nadc_self_ch_disp[0]=abs_pal(adc_self_ch_buff[1]-adc_self_ch_buff[0]);//adc_self_ch_buff[0]&0x0f80;\nadc_self_ch_disp[1]=abs_pal(adc_self_ch_buff[2]-adc_self_ch_buff[1]);//adc_self_ch_buff[1]&0x0f80;\nadc_self_ch_disp[2]=abs_pal(adc_self_ch_buff[2]-adc_self_ch_buff[0]);//adc_self_ch_buff[2]&0x0f80;\n\n//adc_self_ch_disp[0]=adc_self_ch_buff[0]&0x0ff0;\n//adc_self_ch_disp[1]=adc_self_ch_buff[1]&0x0ff0;\n//adc_self_ch_disp[2]=adc_self_ch_buff[2]&0x0ff0;\n\n\nif(adc_self_ch_disp[2]<300)//==adc_self_ch_disp[2])\n\t{\n\tadc_result=adc_self_ch_buff[2];\n\t} \nelse if(adc_self_ch_disp[1]<300)//==adc_self_ch_disp[2])\n\t{\n\tadc_result=adc_self_ch_buff[1];\n\t}\nelse if(adc_self_ch_disp[0]<300)//==adc_self_ch_disp[1])\n\t{\n\tadc_result=adc_self_ch_buff[0];\n\t}\n //adc_result=92;\n\nif(adc_ch_net)\n\t{\n\n\tmain_power_buffer[0]+=(long)(adc_result);\n\tmain_power_buffer[1]+=(long)(adc_result);\n\tmain_power_buffer[2]+=(long)(adc_result);\n\tmain_power_buffer[3]+=(long)(adc_result);\n\n\tadc_net_buff_cnt++;\n\tif(adc_net_buff_cnt>=0x1000)\n\t\t{\n\t\tadc_net_buff_cnt=0;\n\t\t}\n\tif((adc_net_buff_cnt&0x03ff)==0)\n\t\t{\n\t\t#ifdef UKU_220\n\t\tnet_buff_=(short)((main_power_buffer[adc_net_buff_cnt>>10])>>11);\n\t\t#else\n\t\t#ifdef UKU_220_V2\n\t\tnet_buff_=(short)((main_power_buffer[adc_net_buff_cnt>>10])>>11);\n\t\t#else\n\t\tnet_buff_=(short)((main_power_buffer[adc_net_buff_cnt>>10])>>8);\n\t\t#endif\n\t\t#endif\n\t\tmain_power_buffer[adc_net_buff_cnt>>10]=0;\n\t\t}\n\n\n\t} \nelse if(!adc_ch_net)\n\t{\n\tadc_buff[adc_ch][adc_ch_cnt]=(long)adc_result;\n\t\n\tif((adc_ch_cnt&0x03)==0)\n\t\t{\n\t\tlong temp_L;\n\t\tchar i;\n\t\ttemp_L=0;\n\t\tfor(i=0;i<16;i++)\n\t\t\t{\n\t\t\ttemp_L+=adc_buff[adc_ch][i];\n\t\t\t}\n\t\tadc_buff_[adc_ch]= (short)(temp_L>>4);\n\n\t\t//adc_buff_[3]=346;\n\t\t}\n\tif(++adc_ch>=16) \n\t\t{\n\t\tadc_ch=0;\n\t\tadc_ch_cnt++;\n\t\tif(adc_ch_cnt>=16)adc_ch_cnt=0;\n\t\t}\n\t}\n\n//adc_buff[adc_ch][adc_cnt1]=(adc_self_ch_buff[2]+adc_self_ch_buff[1])/2;\n\n//if(adc_buff[adc_ch][adc_cnt1]<adc_buff_min[adc_ch])adc_buff_min[adc_ch]=adc_buff[adc_ch][adc_cnt1];\n//if(adc_buff[adc_ch][adc_cnt1]>adc_buff_max[adc_ch])adc_buff_max[adc_ch]=adc_buff[adc_ch][adc_cnt1];\n/\n\t{\n\tif((adc_cnt1&0x03)==0)\n\t\t{\n\t\ttemp_S=0;\n\t\tfor(i=0;i<16;i++)\n\t\t\t{\n\t\t\ttemp_S+=adc_buff[adc_ch][i];\n\t\t\t} \n \tadc_buff_[adc_ch]=temp_S>>4;\n }\n\t}/\n\n\n\t\t \n\nadc_self_ch_cnt=0;\n\nadc_ch_net++;\nadc_ch_net&=1;\n\n//SET_REG(LPC_GPIO0->FIODIR,7,5,3);\n//SET_REG(LPC_GPIO0->FIOPIN,adc_ch,5,3);\n\nif(adc_ch_net)\n\t{\n\t//LPC_GPIO2->FIODIR\|=(1<<7);\n\t//LPC_GPIO2->FIOPIN\|=(1<<7);\n\tSET_REG(LPC_ADC->ADCR,1<<2,0,8);\n\t}\nelse\n\t{\n\t//LPC_GPIO2->FIODIR\|=(1<<7);\n\t//LPC_GPIO2->FIOPIN&=~(1<<7);\n\tif(!(adc_ch&(1<<3)))SET_REG(LPC_ADC->ADCR,1<<0,0,8);\n\telse \t\t\tSET_REG(LPC_ADC->ADCR,1<<1,0,8);\n\n\n\tSET_REG(LPC_GPIO0->FIODIR,1,28,1);\n\tSET_REG(LPC_GPIO1->FIODIR,1,30,1);\n\tSET_REG(LPC_GPIO3->FIODIR,1,26,1);\n\n\tif(!(adc_ch&(1<<0)))SET_REG(LPC_GPIO0->FIOPIN,0,28,1);\n\telse \t\t\tSET_REG(LPC_GPIO0->FIOPIN,1,28,1);\n\n\tif(!(adc_ch&(1<<1)))SET_REG(LPC_GPIO1->FIOPIN,0,30,1);\n\telse \t\t\tSET_REG(LPC_GPIO1->FIOPIN,1,30,1);\n\n\tif(!(adc_ch&(1<<2)))SET_REG(LPC_GPIO3->FIOPIN,0,26,1);\n\telse \t\t\tSET_REG(LPC_GPIO3->FIOPIN,1,26,1);\n\t}\n\t\n\n\n\nLPC_ADC->ADCR \|= (1<<24);\n\n}\n\n//-----------------------------------------------\nvoid adc_drv6(void) //(с попыткой измерять горбы)\n{\n//int temp_S;\n//char i;\n//signed short temp_SS;\n\nadc_self_ch_disp[0]=abs_pal(adc_self_ch_buff[1]-adc_self_ch_buff[0]);//adc_self_ch_buff[0]&0x0f80;\nadc_self_ch_disp[1]=abs_pal(adc_self_ch_buff[2]-adc_self_ch_buff[1]);//adc_self_ch_buff[1]&0x0f80;\nadc_self_ch_disp[2]=abs_pal(adc_self_ch_buff[2]-adc_self_ch_buff[0]);//adc_self_ch_buff[2]&0x0f80;\n\n//adc_self_ch_disp[0]=adc_self_ch_buff[0]&0x0ff0;\n//adc_self_ch_disp[1]=adc_self_ch_buff[1]&0x0ff0;\n//adc_self_ch_disp[2]=adc_self_ch_buff[2]&0x0ff0;\n\n\nif(adc_self_ch_disp[2]<300)//==adc_self_ch_disp[2])\n\t{\n\tadc_result=adc_self_ch_buff[2];\n\t} \nelse if(adc_self_ch_disp[1]<300)//==adc_self_ch_disp[2])\n\t{\n\tadc_result=adc_self_ch_buff[1];\n\t}\nelse if(adc_self_ch_disp[0]<300)//==adc_self_ch_disp[1])\n\t{\n\tadc_result=adc_self_ch_buff[0];\n\t}\n //adc_result=92;\n\nif(adc_ch_net)\n\t{\n\n\tif(adc_window_flag)\n\t\t{\n\t\tmain_power_buffer[0]+=(long)(adc_result>>2);\n\t\tmain_power_buffer[1]+=(long)(adc_result>>2);\n\t\tmain_power_buffer[2]+=(long)(adc_result>>2);\n\t\tmain_power_buffer[3]+=(long)(adc_result>>2);\n\t\t}\n//\tmain_power_buffer[4]+=(long)(adc_result>>2);\n//\tmain_power_buffer[5]+=(long)(adc_result>>2);\n//\tmain_power_buffer[6]+=(long)(adc_result>>2);\n//\tmain_power_buffer[7]+=(long)(adc_result>>2);\n//\tmain_power_buffer_cnt++;\n\n\n\tif(adc_result<100)\n\t\t{\n\t\tadc_zero_cnt++;\n\t\t}\n\telse adc_zero_cnt=0;\n\n\tif(adc_zero_cnt>=2000)\n\t\t{\n\t\tadc_zero_cnt=2000;\n\t\tmain_power_buffer[0]=0;\n\t\tmain_power_buffer[1]=0;\n\t\tmain_power_buffer[2]=0;\n\t\tmain_power_buffer[3]=0;\n\t\tnet_buff_=0;\n\t\t}\n\n\tif(adc_zero_cnt==5)\n\t\t{\n\t\t\n\t\tif(adc_window_flag)\n\t\t\t{\n\t\t\tadc_gorb_cnt++;\n\t\t\tif(adc_gorb_cnt>=512)\n\t\t\t\t{\n\t\t\t\tadc_gorb_cnt=0;\n\t\t\t\t//net_buff_=main_power_buffer[0]>>8;\n\t\t\t\t//main_power_buffer[0]=0;\n\t\t\t \t}\n\n\t\t\tif((adc_gorb_cnt&0x007f)==0)\n\t\t\t\t{\n\t\t\t\tnet_buff_=main_power_buffer[adc_gorb_cnt>>7]>>8;\n\t\t\t\tmain_power_buffer[adc_gorb_cnt>>7]=0;\n\t\t\t\t}\n\t\t\t}\n\n\t\t//LPC_GPIO2->FIODIR\|=(1<<8);\n\t\t//LPC_GPIO2->FIOPIN^=(1<<8);\n\n\t\tif((adc_window_cnt>150)&&(adc_window_flag))\n\t\t\t{\n\t\t\tadc_window_flag=0;\n\n\t\t\t\n\t\t\t}\n\t\tif((adc_window_cnt>30)&&(adc_window_cnt<70)&&(!adc_window_flag))\n\t\t\t{\n\t\t\tadc_window_flag=1;\n\n\t\t\t//LPC_GPIO2->FIODIR\|=(1<<8);\n\t\t\t//LPC_GPIO2->FIOPIN\|=(1<<8);\n\t\t\t}\n\t\t}\n\t} \nelse if(!adc_ch_net)\n\t{\n\tadc_buff[adc_ch][adc_ch_cnt]=(long)adc_result;\n\t\n\tif((adc_ch_cnt&0x03)==0)\n\t\t{\n\t\tlong temp_L;\n\t\tchar i;\n\t\ttemp_L=0;\n\t\tfor(i=0;i<16;i++)\n\t\t\t{\n\t\t\ttemp_L+=adc_buff[adc_ch][i];\n\t\t\t}\n\t\tadc_buff_[adc_ch]= (short)(temp_L>>4);\n\n\t\t//adc_buff_[3]=346;\n\t\t}\n\tif(++adc_ch>=16) \n\t\t{\n\t\tadc_ch=0;\n\t\tadc_ch_cnt++;\n\t\tif(adc_ch_cnt>=16)adc_ch_cnt=0;\n\t\t}\n\t}\n\n//adc_buff[adc_ch][adc_cnt1]=(adc_self_ch_buff[2]+adc_self_ch_buff[1])/2;\n\n//if(adc_buff[adc_ch][adc_cnt1]<adc_buff_min[adc_ch])adc_buff_min[adc_ch]=adc_buff[adc_ch][adc_cnt1];\n//if(adc_buff[adc_ch][adc_cnt1]>adc_buff_max[adc_ch])adc_buff_max[adc_ch]=adc_buff[adc_ch][adc_cnt1];\n/\n\t{\n\tif((adc_cnt1&0x03)==0)\n\t\t{\n\t\ttemp_S=0;\n\t\tfor(i=0;i<16;i++)\n\t\t\t{\n\t\t\ttemp_S+=adc_buff[adc_ch][i];\n\t\t\t} \n \tadc_buff_[adc_ch]=temp_S>>4;\n }\n\t}/\n\n\n\t\t \n\nadc_self_ch_cnt=0;\n\nadc_ch_net++;\nadc_ch_net&=1;\n\n//SET_REG(LPC_GPIO0->FIODIR,7,5,3);\n//SET_REG(LPC_GPIO0->FIOPIN,adc_ch,5,3);\n\nif(adc_ch_net)\n\t{\n\t//LPC_GPIO2->FIODIR\|=(1<<7);\n\t//LPC_GPIO2->FIOPIN\|=(1<<7);\n\tSET_REG(LPC_ADC->ADCR,1<<2,0,8);\n\t}\nelse\n\t{\n\t//LPC_GPIO2->FIODIR\|=(1<<7);\n\t//LPC_GPIO2->FIOPIN&=~(1<<7);\n\tif(!(adc_ch&(1<<3)))SET_REG(LPC_ADC->ADCR,1<<0,0,8);\n\telse \t\t\tSET_REG(LPC_ADC->ADCR,1<<1,0,8);\n\n\n\tSET_REG(LPC_GPIO0->FIODIR,1,28,1);\n\tSET_REG(LPC_GPIO1->FIODIR,1,30,1);\n\tSET_REG(LPC_GPIO3->FIODIR,1,26,1);\n\n\tif(!(adc_ch&(1<<0)))SET_REG(LPC_GPIO0->FIOPIN,0,28,1);\n\telse \t\t\tSET_REG(LPC_GPIO0->FIOPIN,1,28,1);\n\n\tif(!(adc_ch&(1<<1)))SET_REG(LPC_GPIO1->FIOPIN,0,30,1);\n\telse \t\t\tSET_REG(LPC_GPIO1->FIOPIN,1,30,1);\n\n\tif(!(adc_ch&(1<<2)))SET_REG(LPC_GPIO3->FIOPIN,0,26,1);\n\telse \t\t\tSET_REG(LPC_GPIO3->FIOPIN,1,26,1);\n\t}\n\t\n\n\n\nLPC_ADC->ADCR \|= (1<<24);\n\n}\n /\n//-----------------------------------------------\nvoid adc_drv_()\n{\nshort temp_S;\nchar i;\nadc_ch=4;\nif(ADDR&0x00000001)\n\t{\n\tADWR=ADDR_bit.VVDDA;\n\t\n\tif(++period_cnt>=200)\n\t\t{\n\t\tperiod_cnt=0;\n\t\tadc_buff[adc_ch][adc_cnt]=ADWR;\n\t\t\n\t\tif((adc_cnt&0x03)==0)\n\t\t\t{\n\t\t\ttemp_S=0;\n\t\t\tfor(i=0;i<16;i++)\n\t\t\t\t{\n\t\t\t\ttemp_S+=adc_buff[adc_ch][i];\n\t\t\t\t}\n\t\t\tadc_buff_[adc_ch]=temp_S>>4;\n\t\t\tuart_out0(2,((char)&adc_buff_[adc_ch]),(((char)&adc_buff_[adc_ch])+1),0,0,0,0);\n\n\t\t\t}\n\t\tadc_cnt++;\n\t\tif(adc_cnt>=16)adc_cnt=0;\n\t\t\n\t\t}\n\t}\n\nPINSEL1_bit.P0_28=1;\t\nPINSEL1_bit.P0_29=1;\t\nPINSEL1_bit.P0_30=1;\t\n\nPINSEL0_bit.P0_4=0;\nPINSEL0_bit.P0_5=0;\nPINSEL0_bit.P0_6=0;\n\nIO0DIR_bit.P0_4=1;\nIO0DIR_bit.P0_5=1;\nIO0DIR_bit.P0_6=1;\n\n\nif(adc_ch&0x02)IO0SET\|=((long)1UL<<5);\nelse IO0CLR\|=((long)1UL<<5);\nif(adc_ch&0x04)IO0SET\|=((long)1UL<<6);\nelse IO0CLR\|=((long)1UL<<6);\nif(adc_ch&0x08)IO0SET\|=((long)1UL<<4);\nelse IO0CLR\|=((long)1UL<<4);\n\nADCR_bit.PDN=1;\nADCR_bit.CLKDIV=14;\nADCR_bit.BURST=0;\nADCR_bit.CLKS=0;\nADCR_bit.TEST=0;\n\nADCR_bit.SEL=4;\nADCR_bit.START=1;\n\t\n\n}\n/\n\n\n\n//-----------------------------------------------\nvoid avg_hndl(void)\n{ \nchar i;\n\n//#define AVGCNTMAX\t5\nif(avg_main_cnt)\n\t{\n\tavg_main_cnt--;\n\tgoto avg_hndl_end;\n\t} \n\navg_num=0;\n\nfor(i=0;i<NUMIST;i++)\n\t{\n\tif((bps[i]._state==bsWRK)&&(bps[i]._cnt<20))avg_num++;\n\t}\n\n/if((K[NUMI]>=1)&&(bps_state[0]==ssWRK))\tavg_num++;\nif((K[NUMI]>=2)&&(bps_state[1]==ssWRK))\tavg_num++;\nif((K[NUMI]>=3)&&(bps_state[2]==ssWRK))\tavg_num++;/\n\n\t\nif(avg_num<2)\n\t{\n\tgoto avg_hndl_end;\n\t}\n\t\nelse\n\t{\n\ti_avg_min=5000;\n\ti_avg_max=0;\n\ti_avg_summ=0;\n\tfor(i=0;i<NUMIST;i++)\n\t\t{\n\t\tif(bps[i]._state==bsWRK)\n\t\t\t{\n\t\t\tif(bps[i]._Ii>i_avg_max)i_avg_max=bps[i]._Ii;\n\t\t\tif(bps[i]._Ii<i_avg_min)i_avg_min=bps[i]._Ii;\n\t\t\t\n\t\t\ti_avg_summ+=bps[i]._Ii;\n\t\t\t}\n\t\t}\n\ti_avg=i_avg_summ/avg_num;\t\n\t\n\tif(i_avg_min==0)i_avg_min=1;\n\n\tavg=i_avg_max;\n\tavg=100;\n\tavg/=i_avg_min;\n\n\tif(avg>160) bAVG=1;\n\tif(avg<120) bAVG=0;\n\n\tif(bAVG==1)\n\t\t{\n\t\tfor(i=0;i<NUMIST;i++)\n\t\t\t{\n\t\t\tif(bps[i]._state==bsWRK)\n\t\t\t\t{\n\t\t\t\tif(bps[i]._Ii>i_avg)bps[i]._x_--;\n\t\t\t\tif(bps[i]._Ii<i_avg)bps[i]._x_++;\n\t\t\t\n\t\t\t\tif(bps[i]._x_<-50)bps[i]._x_=-50;\n\t\t\t\tif(bps[i]._x_>50)bps[i]._x_=50;\t\n\t\t\t\t}\n\t\t\t}\t\t\n\t\t}\t\t\t\n\t} \t \n\n\navg_hndl_end:\n__nop(); \n}\n\n///-----------------------------------------------\nvoid bp_on_(char in)\n{\nbp_tumbler[in-1]=1;\n}\n\n//-----------------------------------------------\nvoid bp_off_(char in)\n{\nbp_tumbler[in-1]=0;\n}\n /\n//************-----------------------------------------------\nvoid rele_hndl(void)\n{\n//static char cnt_rel_sam;\n//char temp;\n\n//temp=0;\n\n\nSET_REG(LPC_PINCON->PINSEL0,0,42,62);\nSET_REG(LPC_GPIO0->FIODIR,63,4,6);\nSET_REG(LPC_PINCON->PINSEL7,0,(25-16)2,2);\nSET_REG(LPC_GPIO3->FIODIR,1,25,1);\nSET_REG(LPC_PINCON->PINSEL1,0,(29-16)2,2);\nSET_REG(LPC_GPIO0->FIODIR,1,29,1);\n\n\n\n\n\n\nif((((bat[0]._rel_stat) \|\| (tbatdisable_stat!=tbdsON))&&(tbatdisable_cmnd))\t&& (main_1Hz_cnt>5))\n\t{\n\tSET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_BAT1,1);\n\t}\nelse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_BAT1,1);\t \t\n\nif((((bat[1]._rel_stat) \|\| (tbatdisable_stat!=tbdsON))&&(tbatdisable_cmnd))\t&& (main_1Hz_cnt>5))\n\t{\n\tSET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_BAT2,1);\n\t}\nelse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_BAT2,1);\n\n\nif(mess_find_unvol((MESS2RELE_HNDL))&&(mess_data[0]==PARAM_RELE_SAMOKALIBR)) \n\t{\n\tif(mess_data[1]==1)SET_REG(LPC_GPIO0->FIOSET,1,29,1);\n\telse if(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,29,1);\n\t}\nelse SET_REG(LPC_GPIO0->FIOCLR,1,29,1);\r\n\n\n#ifndef UKU2071x\n//Реле аварии сети\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t{\n\tif(mess_data[1]==0) \t\t\tSET_REG(LPC_GPIO3->FIOSET,1,SHIFT_REL_AV_NET,1);\n\telse \t\t\t\t\t\tSET_REG(LPC_GPIO3->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\t}\nelse\tif(!(avar_ind_stat&0x00000001)) \tSET_REG(LPC_GPIO3->FIOSET,1,SHIFT_REL_AV_NET,1);\nelse \t\t\t\t\t\t\tSET_REG(LPC_GPIO3->FIOCLR,1,SHIFT_REL_AV_NET,1);\n#endif\r\n#ifdef UKU2071x\n//Реле аварии сети\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t{\n\tif(mess_data[1]==0)\t\t\t\tSET_REG(LPC_GPIO3->FIOCLR,1,SHIFT_REL_AV_NET,1); \n\telse \t\t\t\t\t\tSET_REG(LPC_GPIO3->FIOSET,1,SHIFT_REL_AV_NET,1);\n\t}\nelse\tif(!(avar_ind_stat&0x00000001))\tSET_REG(LPC_GPIO3->FIOCLR,1,SHIFT_REL_AV_NET,1);\nelse \t\t\t\t\t \t\tSET_REG(LPC_GPIO3->FIOSET,1,SHIFT_REL_AV_NET,1);\n#endif\r\n\n#ifdef UKU_3U\n//Реле аварий батарей\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT1))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT1,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT1,1);\n }\nelse \n\t{\n\tif(!(avar_ind_stat&0x00000002)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT1,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT1,1);\n\t} \n\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT2))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT2,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT2,1);\n }\nelse \n\t{\n\tif(!(avar_ind_stat&0x00000004)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT2,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT2,1);\n\t} \n\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BPS))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n }\nelse \n\t{\n\tif(!(avar_ind_stat&0x000007f8)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n\t} \n\n#endif\n\n\n#ifdef UKU_GLONASS\n//Реле аварий батарей\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT1))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT1,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT1,1);\n }\nelse \n\t{\n\tif(!(avar_ind_stat&0x00000002)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT1,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT1,1);\n\t} \n\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT2))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT2,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT2,1);\n }\nelse \n\t{\n\tif(!(avar_ind_stat&0x00000004)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT2,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT2,1);\n\t} \n\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BPS))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n }\nelse \n\t{\n\tif(!(avar_ind_stat&0x000007f8)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n\t} \n\n#endif\n\n#ifdef U \n\n#endif\n\n#ifdef UKU_RSTKM\n\n//Реле общей аварии\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_COMM))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_COMM,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_COMM,1);\n\t}\nelse \n\t{\n if( (!(avar_ind_stat&0x00007fff))/ &&\n ((!SK_REL_EN[0]) \|\| (sk_av_stat[0]!=sasON)) &&\n ((!SK_REL_EN[1]) \|\| (sk_av_stat[1]!=sasON)) &&\n ((!SK_REL_EN[2]) \|\| (sk_av_stat[2]!=sasON)) &&\n ((!SK_REL_EN[3]) \|\| (sk_av_stat[3]!=sasON))/ )SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_COMM,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_COMM,1);\n\t}\n\t\n\n//Реле освещения\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_LIGHT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LIGHT,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LIGHT,1);\n }\nelse \n\t{\n\tif(sk_av_stat[0]!=sasON) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LIGHT,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LIGHT,1);\n\t}\n\n\n//Реле выключения нагрузки\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_LOAD_OFF))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LOAD_OFF,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LOAD_OFF,1);\n }\nelse if(tloaddisable_cmnd==0)\n\t{\n\tSET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LOAD_OFF,1);\n\t}\nelse if((tloaddisable_cmnd)&&(tloaddisable_cmnd<=11))\n\t{\n\tSET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LOAD_OFF,1);\n\t}\n\nelse \n\t{\n\tif(!(tloaddisable_stat==tldsON)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LOAD_OFF,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LOAD_OFF,1);\n\t} \n\n//Реле осевого вентилятора\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_VENT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n\t}\nelse \n\t{\n\tif(mixer_vent_stat==mvsOFF) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n\t} \n\n#endif\n\n#ifdef UKU_KONTUR\n\n//Реле общей аварии\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_COMM))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_COMM,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_COMM,1);\n\t}\nelse \n\t{\n if( (!(avar_ind_stat&0x00007fff)) &&\n ((!SK_REL_EN[0]) \|\| (sk_av_stat[0]!=sasON)) &&\n ((!SK_REL_EN[1]) \|\| (sk_av_stat[1]!=sasON)) &&\n ((!SK_REL_EN[2]) \|\| (sk_av_stat[2]!=sasON)) /&&\n ((!SK_REL_EN[3]) \|\| (sk_av_stat[3]!=sasON))/ )SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_COMM,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_COMM,1);\n\t}\n\n\t\n//rel_warm_plazma=0;\n//Реле освещения \n/\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_WARM))\n\t{\n\tif(mess_data[1]==0)\n\t\t{\n\t\tSET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_WARM,1);\n\t\trel_warm_plazma=1;\n\t\t}\n\telse if(mess_data[1]==1) \n\t\t{\n\t\tSET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_WARM,1);\n\t\trel_warm_plazma=2;\n\t\t}\n }\nelse \n\t{\n\tif(warm_stat_k==wsOFF) \n\t\t{\n\t\tSET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_WARM,1);\n\t\trel_warm_plazma=3;\n\t\t}\n else \n\t\t{\n\t\tSET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_WARM,1);\n\t\trel_warm_plazma=4;\n\t\t}\n\t}\n/\n//Реле освещения\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_LIGHT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LIGHT,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LIGHT,1);\n }\nelse \n\t{\n\tif(sk_av_stat[0]!=sasON) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LIGHT,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LIGHT,1);\n\t}\n\n\n\n//Реле выключения нагрузки\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_LOAD_OFF))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LOAD_OFF,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LOAD_OFF,1);\n }\nelse if(tloaddisable_cmnd==0)\n\t{\n\tSET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LOAD_OFF,1);\n\t}\nelse if((tloaddisable_cmnd)&&(tloaddisable_cmnd<=11))\n\t{\n\tSET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LOAD_OFF,1);\n\t}\n\nelse \n\t{\n\tif(!(tloaddisable_stat==tldsON)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LOAD_OFF,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LOAD_OFF,1);\n\t} \n\n//Реле осевого вентилятора или отопителя\nif(RELE_LOG)\n\t{\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&(mess_data[0]==PARAM_RELE_VENT_WARM))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT_WARM,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT_WARM,1);\n\t\t}\n\telse \n\t\t{\n\t\tif(warm_stat_k==wsOFF) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT_WARM,1);\n\t else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT_WARM,1);\n\t\t} \n\n\t}\nelse \n\t{\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_VENT_WARM))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT_WARM,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT_WARM,1);\n\t\t}\n\telse \n\t\t{\n\t\tif(vent_stat_k==vsOFF) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT_WARM,1);\n\t else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT_WARM,1);\n\t\t} \n\t}\n#endif\n\n#ifdef UKU_6U\n//Реле аварий батарей\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT1))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT1,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT1,1);\n }\nelse \n\t{\n\tif(!(avar_ind_stat&0x00000002)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT1,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT1,1);\n\t} \n\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT2))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT2,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT2,1);\n }\nelse if(NPN_OUT==npnoRELEAVBAT2)\n\t{\n\tif(npn_stat==npnsOFF)//&&(mess_find_unvol(MESS2RELE_HNDL))&&(mess_data[0]==PARAM_RELE_NPN))\n\t\t{\n\t\t/if(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT2,1);\n\t\telse if(mess_data[1]==1)/ SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT2,1);\n \t}\n\telse SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT2,1);\n\t}\nelse \n\t{\n\tif(!(avar_ind_stat&0x00000004)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT2,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT2,1);\n\t} \n\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BPS))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n }\nelse \n\t{\n\tif(!(avar_ind_stat&0x000007f8)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n\t} \n\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_VENT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n\telse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t}\nelse if((NPN_OUT==npnoRELEVENT))\n\t{\n\tif(npn_stat==npnsOFF)//&&(mess_find_unvol(MESS2RELE_HNDL))&&(mess_data[0]==PARAM_RELE_NPN))\n\t\t{\n\t\t/if(mess_data[1]==0)/ SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t\t//else SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n \t}\n\telse SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n\t}\nelse \n\t{\n\tif(!vent_stat) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n\telse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t}\n\n#endif\n\n#ifdef UKU_220\n//Реле аварий батарей\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT,1);\n }\nelse \n\t{\n\tif(!(avar_ind_stat&0x00000002)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT,1);\n\t} \n\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BPS))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n }\nelse \n\t{\n\tif(!(avar_ind_stat&0x000007f8)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n\t} \n\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_VENT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n\telse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t}\nelse \n\t{\n\tif((RELE_VENT_LOGIC==0)\|\|(RELE_VENT_LOGIC==1))\n\t\t{\n\t\tif(vent_stat) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n\t\telse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t\t}\n\telse \n\t\t{\n\t\tif((avar_ind_stat&0x00000004)) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n \telse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t\t}\n\t}\n\n#endif\n\n#ifdef UKU_220_V2\n//Реле аварий батарей\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT,1);\n }\nelse \n\t{\n\tif(!(avar_ind_stat&0x00000002)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BAT,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BAT,1);\n\t} \n\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BPS))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n }\nelse \n\t{\n\tif(!(avar_ind_stat&0x000007f8)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n\t} \n\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_VENT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n\telse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t}\nelse \n\t{\n\tif((RELE_VENT_LOGIC==0)\|\|(RELE_VENT_LOGIC==1))\n\t\t{\n\t\tif(vent_stat) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n\t\telse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t\t}\n\telse \n\t\t{\n\t\tif((avar_ind_stat&0x00000004)) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n \telse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t\t}\n\t}\n\n#endif\n\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\nif((AUSW_MAIN==22010)\|\|(AUSW_MAIN==22011))\n\t{\r\n\t#ifndef UKU2071x\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO3->FIOSET,1,25,1);\n\t\telse SET_REG(LPC_GPIO3->FIOCLR,1,25,1);\n\t\t}\n\telse\tif(!(avar_ind_stat&0x00000001)) SET_REG(LPC_GPIO3->FIOSET,1,25,1);\n\telse SET_REG(LPC_GPIO3->FIOCLR,1,25,1);\n\t#endif\r\n\t#ifdef UKU2071x\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO3->FIOCLR,1,25,1);\n\t\telse SET_REG(LPC_GPIO3->FIOSET,1,25,1);\n\t\t}\n\telse\tif(!(avar_ind_stat&0x00000001)) SET_REG(LPC_GPIO3->FIOCLR,1,25,1);\n\telse SET_REG(LPC_GPIO3->FIOSET,1,25,1);\n\t#endif\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BPS))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,7,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,7,1);\n\t }\n\telse \n\t\t{\n\t\tif(!(avar_ind_stat&0x100007f8)) SET_REG(LPC_GPIO0->FIOCLR,1,7,1);\n\t else SET_REG(LPC_GPIO0->FIOSET,1,7,1);\n\t\t} \n\n\t//Реле аварий батарей\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,4,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,4,1);\n \t}\n\telse \n\t\t{\n\t\tif(!(ips_bat_av_stat)) SET_REG(LPC_GPIO0->FIOCLR,1,4,1);\n \telse SET_REG(LPC_GPIO0->FIOSET,1,4,1);\n\t\t}\r\n\t}\n\nelse\tif(AUSW_MAIN==22023)\n\t{\n\n\t//Реле аварий батарей\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,4,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,4,1);\n \t}\n\telse \n\t\t{\n\t\tif(!(ips_bat_av_stat)) SET_REG(LPC_GPIO0->FIOCLR,1,4,1);\n \telse SET_REG(LPC_GPIO0->FIOSET,1,4,1);\n\t\t} \n\n\n\t//Реле аварии сети ТУТ КАКАЯ то ЛАЖА с аварией сети. Обращение к разным портам\r\n\t#ifndef UKU2071x\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\t\telse SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_NET,1);\n\t\t}\n\telse\tif(!(avar_ind_stat&0x00000001)) SET_REG(LPC_GPIO1->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\telse SET_REG(LPC_GPIO3->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\t#endif\r\n\t#ifdef UKU2071x\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_NET,1);\n\t\telse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\t\t}\n\telse\tif(!(avar_ind_stat&0x00000001)) SET_REG(LPC_GPIO1->FIOSET,1,SHIFT_REL_AV_NET,1);\n\telse SET_REG(LPC_GPIO3->FIOSET,1,SHIFT_REL_AV_NET,1);\n\t#endif\r\n\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BPS))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,7,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,7,1);\n\t }\n\telse \n\t\t{\n\t\tif(!(avar_ind_stat&0x100007f8)) SET_REG(LPC_GPIO0->FIOCLR,1,7,1);\n\t else SET_REG(LPC_GPIO0->FIOSET,1,7,1);\n\t\t} \r\n\t}\nelse\tif(AUSW_MAIN==22043)\n\t{\n\t//Реле аварий батарей\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,4,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,4,1);\n \t}\n\telse \n\t\t{\n\t\tif(!(ips_bat_av_stat)) SET_REG(LPC_GPIO0->FIOCLR,1,4,1);\n \telse SET_REG(LPC_GPIO0->FIOSET,1,4,1);\n\t\t} \n\t//Реле аварии сети ТУТ КАКАЯ то ЛАЖА с аварией сети. Обращение к разным портам\r\n\t#ifndef UKU2071x \n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\t\telse SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_NET,1);\n\t\t}\n\telse\tif(!(avar_ind_stat&0x00000001)) SET_REG(LPC_GPIO1->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\telse SET_REG(LPC_GPIO3->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\t#endif\r\n\t#ifdef UKU2071x \n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_NET,1);\n\t\telse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\t\t}\n\telse\tif(!(avar_ind_stat&0x00000001)) SET_REG(LPC_GPIO1->FIOSET,1,SHIFT_REL_AV_NET,1);\n\telse SET_REG(LPC_GPIO3->FIOSET,1,SHIFT_REL_AV_NET,1);\n\t#endif\r\n\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BPS))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,7,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,7,1);\n\t }\n\telse \n\t\t{\n\t\tif(!(avar_ind_stat&0x100007f8)) SET_REG(LPC_GPIO0->FIOCLR,1,7,1);\n\t else SET_REG(LPC_GPIO0->FIOSET,1,7,1);\n\t\t}\n\t//Реле аварии БПС\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BPS))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n \t}\n\telse \n\t\t{\n\t\tif(!(avar_ind_stat&0x100007f8)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n \telse SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n\t\t} \r\n\t}\nelse\tif((AUSW_MAIN==22033)\|\|(AUSW_MAIN==22018))\n\t{\r\n\t#ifndef UKU2071x \n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO3->FIOSET,1,25,1);\n\t\telse SET_REG(LPC_GPIO3->FIOCLR,1,25,1);\n\t\t}\n\telse\tif(!(avar_ind_stat&0x00000001)) SET_REG(LPC_GPIO3->FIOSET,1,25,1);\n\telse SET_REG(LPC_GPIO3->FIOCLR,1,25,1);\n\t#endif\n\t#ifdef UKU2071x \n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO3->FIOCLR,1,25,1);\n\t\telse SET_REG(LPC_GPIO3->FIOSET,1,25,1);\n\t\t}\n\telse\tif(!(avar_ind_stat&0x00000001)) SET_REG(LPC_GPIO3->FIOCLR,1,25,1);\n\telse SET_REG(LPC_GPIO3->FIOSET,1,25,1);\n\t#endif\n\t\n\t\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BPS))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,7,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,7,1);\n\t }\n\telse \n\t\t{\n\t\tif(!(avar_ind_stat&0x100007f8)) SET_REG(LPC_GPIO0->FIOCLR,1,7,1);\n\t else SET_REG(LPC_GPIO0->FIOSET,1,7,1);\n\t\t} \n\n\t//Реле аварий батарей\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,4,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,4,1);\n \t}\n\telse \n\t\t{\n\t\tif(!(ips_bat_av_stat)) SET_REG(LPC_GPIO0->FIOCLR,1,4,1);\n \telse SET_REG(LPC_GPIO0->FIOSET,1,4,1);\n\t\t} \n\t} \t \nelse\t\n\t{\n\t//Реле аварии сети ТУТ КАКАЯ то ЛАЖА с аварией сети. Обращение к разным портам\r\n\t#ifndef UKU2071x \n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\t\telse SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_NET,1);\n\t\t}\n\telse\tif(!(avar_ind_stat&0x00000001)) SET_REG(LPC_GPIO1->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\telse SET_REG(LPC_GPIO3->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\t#endif\r\n\t#ifdef UKU2071x \n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_NET,1);\n\t\telse SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\t\t}\n\telse\tif(!(avar_ind_stat&0x00000001)) SET_REG(LPC_GPIO1->FIOSET,1,SHIFT_REL_AV_NET,1);\n\telse SET_REG(LPC_GPIO3->FIOSET,1,SHIFT_REL_AV_NET,1);\n\t#endif\r\n\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BPS))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n \t}\n\telse \n\t\t{\n\t\tif(!(avar_ind_stat&0x100007f8)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_BPS,1);\n \telse SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_BPS,1);\n\t\t}\r\n\t}\r\n//Дополнительное реле УКУ \nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_EXT))\t \n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,9,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,9,1);\n\t}\nelse if(DOP_RELE_FUNC==0)\t//если допреле подключено к ускоренному заряду\n\t{\n\tif((!speedChIsOn)&&(spc_stat!=spcVZ)) SET_REG(LPC_GPIO0->FIOCLR,1,9,1);\n\telse SET_REG(LPC_GPIO0->FIOSET,1,9,1);\n\t}\r\nelse if(DOP_RELE_FUNC==1) //если допреле подключено к индиказии разряженной батареи\n\t{\n\tif((mess_find_unvol(MESS2RELE_HNDL))&& (mess_data[0]==PARAM_RELE_BAT_IS_DISCHARGED)) SET_REG(LPC_GPIO0->FIOCLR,1,9,1);\n\telse SET_REG(LPC_GPIO0->FIOSET,1,9,1);\n\t}\t \t\n#endif\r\n\n#ifdef UKU_KONTUR\n\n//Реле общей аварии\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_COMM))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_COMM,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_COMM,1);\n\t}\nelse \n\t{\n if( (!(avar_ind_stat&0x00007fff)) &&\n ((!SK_REL_EN[0]) \|\| (sk_av_stat[0]!=sasON)) &&\n ((!SK_REL_EN[1]) \|\| (sk_av_stat[1]!=sasON)) &&\n ((!SK_REL_EN[2]) \|\| (sk_av_stat[2]!=sasON)) /&&\n ((!SK_REL_EN[3]) \|\| (sk_av_stat[3]!=sasON))/ )SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_COMM,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_COMM,1);\n\t}\n\n\t\n//rel_warm_plazma=0;\n//Реле освещения \n/\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_WARM))\n\t{\n\tif(mess_data[1]==0)\n\t\t{\n\t\tSET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_WARM,1);\n\t\trel_warm_plazma=1;\n\t\t}\n\telse if(mess_data[1]==1) \n\t\t{\n\t\tSET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_WARM,1);\n\t\trel_warm_plazma=2;\n\t\t}\n }\nelse \n\t{\n\tif(warm_stat_k==wsOFF) \n\t\t{\n\t\tSET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_WARM,1);\n\t\trel_warm_plazma=3;\n\t\t}\n else \n\t\t{\n\t\tSET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_WARM,1);\n\t\trel_warm_plazma=4;\n\t\t}\n\t}\n/\n//Реле освещения\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_LIGHT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LIGHT,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LIGHT,1);\n }\nelse \n\t{\n\tif(sk_av_stat[0]!=sasON) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LIGHT,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LIGHT,1);\n\t}\n\n\n\n//Реле выключения нагрузки\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_LOAD_OFF))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LOAD_OFF,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LOAD_OFF,1);\n }\nelse if(tloaddisable_cmnd==0)\n\t{\n\tSET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LOAD_OFF,1);\n\t}\nelse if((tloaddisable_cmnd)&&(tloaddisable_cmnd<=11))\n\t{\n\tSET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LOAD_OFF,1);\n\t}\n\nelse \n\t{\n\tif(!(tloaddisable_stat==tldsON)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LOAD_OFF,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LOAD_OFF,1);\n\t} \n\n//Реле осевого вентилятора или отопителя\nif(RELE_LOG)\n\t{\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&(mess_data[0]==PARAM_RELE_VENT_WARM))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT_WARM,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT_WARM,1);\n\t\t}\n\telse \n\t\t{\n\t\tif(warm_stat_k==wsOFF) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT_WARM,1);\n\t else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT_WARM,1);\n\t\t} \n\n\t}\nelse \n\t{\n\tif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_VENT_WARM))\n\t\t{\n\t\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT_WARM,1);\n\t\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT_WARM,1);\n\t\t}\n\telse \n\t\t{\n\t\tif(vent_stat_k==vsOFF) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT_WARM,1);\n\t else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT_WARM,1);\n\t\t} \n\t}\n#endif\r\n\r\n\r\n#ifdef UKU_TELECORE2015\n//Реле аварии сети\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\telse SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_NET,1);\n\t}\nelse\tif(!(avar_ind_stat&0x00000001)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_NET,1);\nelse SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_NET,1);\r\n\r\n\n//Реле освещения\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_LIGHT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LIGHT,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LIGHT,1);\n }\nelse \n\t{\n\tif(sk_av_stat[0]!=sasON) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LIGHT,1);\n else SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LIGHT,1);\n\t}\r\n\n//Реле отопителя\r\nif((mess_find_unvol(MESS2RELE_HNDL))&&(mess_data[0]==PARAM_RELE_WARM))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_WARM,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_WARM,1);\n\t}\nelse \n\t{\n\tif(warm_stat_k==wsOFF) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_WARM,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_WARM,1);\n\t} \n//Реле вентилятора\r\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_VENT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t}\nelse \n\t{\n\tif(vent_stat_k==vsOFF) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n else SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t} \r\n\n//Реле внутреннего вентилятора\r\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_VVENT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VVENT,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VVENT,1);\n\t}\nelse \n\t{\n\tif(vvent_stat_k==vsOFF) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VVENT,1);\n else SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VVENT,1);\n\t} \n\n#endif\r\n\r\n#ifdef UKU_TELECORE2017\n//Реле аварии сети\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_NET,1);\n\telse SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_NET,1);\n\t}\nelse\tif(!(avar_ind_stat&0x00000001)) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_AV_NET,1);\nelse SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_AV_NET,1);\r\n\r\n\n//Реле освещения\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_LIGHT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LIGHT,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LIGHT,1);\n }\nelse \n\t{\n\tif(sk_av_stat[0]!=sasON) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_LIGHT,1);\n else SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_LIGHT,1);\n\t}\r\n\n//Реле отопителя\r\nif((mess_find_unvol(MESS2RELE_HNDL))&&(mess_data[0]==PARAM_RELE_WARM))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_WARM,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_WARM,1);\n\t}\nelse \n\t{\n\tif(warm_stat_k==wsOFF) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_WARM,1);\n else SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_WARM,1);\n\t} \n//Реле вентилятора\r\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_VENT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t}\nelse \n\t{\n\tif(vent_stat_k==vsOFF) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VENT,1);\n else SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VENT,1);\n\t} \r\n\n//Реле внутреннего вентилятора\r\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_VVENT))\n\t{\n\tif(mess_data[1]==0) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VVENT,1);\n\telse if(mess_data[1]==1) SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VVENT,1);\n\t}\nelse \n\t{\n\tif(vvent_stat_k==vsOFF) SET_REG(LPC_GPIO0->FIOSET,1,SHIFT_REL_VVENT,1);\n else SET_REG(LPC_GPIO0->FIOCLR,1,SHIFT_REL_VVENT,1);\n\t} \n\n#endif\n}\n\n//-----------------------------------------------\nvoid bps_hndl(void)\n{\nchar ptr__,i;\r\nunsigned short tempUS;\n\nif(sh_cnt0<10)\n\t{\n\tsh_cnt0++;\n\tif(sh_cnt0>=10)\n\t\t{\n\t\tsh_cnt0=0;\n\t\tb1Hz_sh=1;\n\t\t}\n\t}\n\n/if(sh_cnt1<5)\n\t{\n\tsh_cnt1++;\n\tif(sh_cnt1==5)\n\t\t{\n\t\tsh_cnt1=0;\n\t\tb2Hz_sh=1;\n\t\t}\n\t} /\n\n\n/\nif(mess_find(MESS_SRC_ON_OFF))\n\t{\n\tif(mess_data[0]==_MESS_SRC_MASK_BLOK_2SEC)\n\t\t{\n\t\tchar i;\n\t\tfor(i=0;i<NUMIST;i++)\n\t\t\t{\n\t\t\tif(mess_data[1]&(1<<i))src[i]._ist_blok_cnt=20;\n\t\t\t}\n\t\t\n\t\t}\n\telse if(mess_data[0]==_MESS_SRC_MASK_UNBLOK)\n\t\t{\n\t\tchar i;\n\t\tfor(i=0;i<NUMIST;i++)\n\t\t\t{\n\t\t\tif(mess_data[1]&(1<<i))src[i]._ist_blok_cnt=0;\n\t\t\t}\n\t\t\n\t\t}\n\t}\n\t\nelse if(mess_find(_MESS_SRC_MASK_ON))\n\t{\t\t\t\t\n\tif(mess_data[0]==_MESS_SRC_MASK_ON)\n\t\t{\n\t\tchar i;\n\t\tfor(i=0;i<NUMIST;i++)\n\t\t\t{\n\t\t\tif(mess_data[1]&(1<<i))\n\t\t\t\t{\n\t\t\t\tsrc[i]._ist_blok_cnt=0;\n\t\t\t\tsrc[i]._flags_tu=2;\n\t\t\t\t}\n\t\t\t}\n\t\t\n\t\t}\t\t\t\t\n\t}/\n\n\n\n/else/ \nbps_on_mask=0;\nbps_off_mask=0;\n\nif(mess_find_unvol(MESS2BPS_HNDL))\n\t{\n\tif(mess_data[0]==PARAM_BPS_ALL_OFF_AFTER_2SEC)\n\t\t{\n\t\tbps_off_mask=0xffff;\n\t\t}\n\n\tif(mess_data[0]==PARAM_BPS_MASK_OFF_AFTER_2SEC)\n\t\t{\n\t\tbps_off_mask=mess_data[1];\n\t\t}\n\n\tif(mess_data[0]==PARAM_BPS_MASK_ON)\n\t\t{\n\t\tbps_on_mask=mess_data[1];\n\t\t}\n\n\tif(mess_data[0]==PARAM_BPS_ALL_ON)\n\t\t{\n\t\tbps_on_mask=0xffff;\n\t\t}\n\n\tif(mess_data[0]==PARAM_BPS_MASK_ON_OFF_AFTER_2SEC)\n\t\t{\n\t\tbps_on_mask=mess_data[1];\n\t\tbps_off_mask=~(mess_data[1]);\n\t\t}\n\n\n\tfor(i=0;i<=NUMIST;i++)\n\t\t{\n\t\tif(bps_off_mask&(1<<i)) bps[i]._blok_cnt++;\n\t\telse bps[i]._blok_cnt=0;\n\t\tgran(&bps[i]._blok_cnt,0,50);\n\t\tif(bps[i]._blok_cnt>20) bps[i]._flags_tu=1;\n\t\tif(bps_on_mask&(1<<i)) bps[i]._flags_tu=0;\n\t }\n\n\t\n/\n\n\tif(bps_all_off_cnt>20)\n\t\t{\n\t\tfor(i=0;i<=NUMIST;i++)\n\t\t\t{\n\t \tbps[i]._flags_tu=1;\n\t \t}\n\t\t}\n\telse if(bps_mask_off_cnt>20)\n\t\t{\n\t\tfor(i=0;i<=NUMIST;i++)\n\t\t\t{\n\t\t\tif(mess_data[1]&(1<<i)) bps[i]._flags_tu=1;\n\t \t}\n\t\t}\t\n\t\t\n\telse if(bps_mask_on_off_cnt>20)\n\t\t{\n\t\tfor(i=0;i<=NUMIST;i++)\n\t\t\t{\n\t\t\tif(mess_data[1]&(1<<i)) bps[i]._flags_tu=1;\n\t\t\telse bps[i]._flags_tu=0;\n\t \t}\n\t\t}\n\t\t\n\tif(mess_data[0]==PARAM_BPS_MASK_ON)\n\t\t{\n\t\tfor(i=0;i<=NUMIST;i++)\n\t\t\t{\n\t\t\tif(mess_data[1]&(1<<i)) bps[i]._flags_tu=0;\n\t \t}\n\t\t}\n/\t\t\t\t\t\t\t\t\t\t\n\t}\n\n\nelse if(b1Hz_sh)\n\t{\n\tptr__=0;\n for(i=0;i<=NUMIST;i++)\n\t\t{\n\t bps[i]._flags_tu=1;\n\t }\t\n \t \n \tfor(i=0;(i<NUMIST)&&(ptr__<num_necc);i++)\n \t\t{\r\n\t\tchar ii,iii;\r\n\r\n\t\tii=(char)NUMIST;\r\n\t\t//if(ii<0)ii=0;\r\n\t\tif(ii>32)ii=32;\r\n\t\tiii=numOfForvardBps;\r\n\t\t//if(iii<0)iii=0;\r\n\t\tif(iii>=NUMIST)iii=0;\r\n\t\tiii+=i;\r\n\t\tiii=iii%ii;\r\n\t\t\n \t if((bps[iii]._state==bsRDY)\|\|(bps[iii]._state==bsWRK))\n \t \t{\n \t \tbps[iii]._flags_tu=0;\n \t \tptr__++;\n \t \t}\r\n\t\t\t\n \t }\r\n\tbps[numOfForvardBps_old]._flags_tu=0;\r\n\n\tif(main_1Hz_cnt<60)\n\t\t{\n \tfor(i=0;i<=NUMIST;i++)\n\t\t\t{\n\t \tbps[i]._flags_tu=0;\n\t \t}\t\n\t\t}\n\tif(ipsBlckStat)\r\n\t\t{\r\n \tfor(i=0;i<=NUMIST;i++)\n\t\t\t{\n\t \tbps[i]._flags_tu=1;\n\t \t}\r\n\t\t}\r\n\r\n for(i=0;i<=NUMIST;i++)\n\t\t{\n\t if(bps[i]._flags_tu==1) \tbps[i]._x_=-50;\n\t \t}\t\n\t\t \n \t}\n\n\nfor(i=0;i<NUMIST;i++)\n {\n if(bps[i]._ist_blok_host_cnt!=0)\n {\n bps[i]._flags_tu=99;\n\t bps[i]._ist_blok_host_cnt--;\n }\n }\n\n\n\n\nb1Hz_sh=0;\n\n\nnum_of_wrks_bps=0;\r\ntempUS=0;\nfor(i=0;i<NUMIST;i++)\n\t{\n\tif(bps[i]._state==bsWRK)\r\n\t\t{\r\n\t\tnum_of_wrks_bps++;\r\n\t\tif(bps[i]._Uii>tempUS)tempUS=bps[i]._Uii;\r\n\t\t}\n\t}\nUbpsmax=tempUS;\r\n\r\nbPARALLEL_ENOUG=0;\r\nbPARALLEL_NOT_ENOUG=1;\r\n\r\nfor(i=0;i<NUMIST;i++)\n\t{\n\tif(bps[i]._Ti>=TSIGN)\r\n\t\t{\r\n\t\tbPARALLEL_ENOUG=1;\r\n\t\t}\r\n\tif(bps[i]._Ti>=(TSIGN-5))\r\n\t\t{\r\n\t\tbPARALLEL_NOT_ENOUG=0;\r\n\t\t}\n\t}\r\n\nif(bPARALLEL_ENOUG==1)\r\n\t{\r\n\tbPARALLEL=1;\r\n\t}\r\nelse if(bPARALLEL && bPARALLEL_NOT_ENOUG)\r\n\t{\r\n\tbPARALLEL=0;\r\n\t}\n}\n\n//биты аварий в приходящих сообщениях от источников и инверторов\n#define AV_OVERLOAD\t0\n#define AV_T\t1\n#define AVUMAX\t3\n#define AVUMIN\t4\r\n\r\n//-----------------------------------------------\r\nvoid powerAntiAliasingHndl(void)\r\n{\r\nif((power_summary_tempo/10UL)==(power_summary_tempo_old/10UL))\r\n\t{\r\n\tif(powerSummaryCnt<15)powerSummaryCnt++;\r\n\tif(powerSummaryCnt>=10)\r\n\t\t{\r\n\t\tpower_summary=power_summary_tempo;\r\n\t\t}\r\n\t}\r\nelse powerSummaryCnt=0;\r\npower_summary_tempo_old=power_summary_tempo;\r\n\r\nif((power_current_tempo/10UL)==(power_current_tempo_old/10UL))\r\n\t{\r\n\tif(powerCurrentCnt<15)powerCurrentCnt++;\r\n\tif(powerCurrentCnt>=10)\r\n\t\t{\r\n\t\tpower_current=power_current_tempo;\r\n\t\t}\r\n\t}\r\nelse powerCurrentCnt=0;\r\npower_current_tempo_old=power_current_tempo;\r\n}\r\n\n//-----------------------------------------------\r\nvoid ips_current_average_hndl(void)\r\n{\r\nif(++ica_timer_cnt>=10)\r\n\t{\r\n\tica_timer_cnt=0;\r\n\tica_plazma[0]++;\r\n\r\n\tica_my_current=bps_I;\r\n\r\n\tif((ica_my_current>ica_your_current)&&((ica_my_current-ica_your_current)>=10)&&(ICA_EN==1))\r\n\t\t{\r\n\t\tica_plazma[1]++;\r\n\t\tica_u_necc--;\r\n\t\t}\r\n\telse if((ica_my_current<ica_your_current)&&((ica_your_current-ica_my_current)>=10)&&(ICA_EN==1))\r\n\t\t{\r\n\t\tica_plazma[1]--;\r\n\t\tica_u_necc++;\r\n\t\t}\r\n\tgran(&ica_u_necc,-20,20);\r\n\t}\r\n\r\nif((ica_timer_cnt==8)&&(ICA_EN==1))\r\n\t{\r\n\tchar modbus_buff[20],i;\r\n\tshort crc_temp;\r\n\r\n\tmodbus_buff[0] = ICA_MODBUS_ADDRESS;\r\n\tmodbus_buff[1] = 4;\r\n\tmodbus_buff[2] = 0;\r\n\tmodbus_buff[3] = 2;\r\n\tmodbus_buff[4] = 0;\t\r\n\tmodbus_buff[5] = 1;\r\n\r\n\tcrc_temp= CRC16_2(modbus_buff,6);\r\n\r\n\tmodbus_buff[6]= (char)crc_temp;\r\n\tmodbus_buff[7]= (char)(crc_temp>>8);\r\n\r\n\tif(ICA_CH==0)\r\n\t\t{\r\n\t\tfor (i=0;i<8;i++)\r\n\t\t\t{\r\n\t\t\tputchar_sc16is700(modbus_buff[i]);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(ICA_CH==1)\r\n\t\t{\r\n\t/\tstatic U8 rem_IP[4];\r\n\t\trem_IP[0]=ICA_MODBUS_TCP_IP1;\r\n\t\trem_IP[1]=ICA_MODBUS_TCP_IP2;\r\n\t\trem_IP[2]=ICA_MODBUS_TCP_IP3;\r\n\t\trem_IP[3]=ICA_MODBUS_TCP_IP4;/\r\n \t\t//tcp_soc_avg = tcp_get_socket (TCP_TYPE_CLIENT, 0, 30, tcp_callback);\r\n \t\tif (tcp_soc_avg != 0) \r\n\t\t\t{\r\n \t\t\r\n\t\t\t//tcp_connect_stat=0;\r\n \t\t//tcp_connect (tcp_soc_avg, rem_IP, 502, 1000);\r\n\t\t\t/while(!tcp_connect_stat)\r\n\t\t\t\t{\r\n\t\t\t\t}/\r\n\t\t\t//delay_us(500);\r\n\t\t\t//tcp_close(tcp_soc_avg);\r\n\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\nif((ica_timer_cnt==3)&&(ICA_EN==1))\r\n\t{\r\n\t//if(tcp_connect_stat)\r\n\t\t{\r\n\t\t//tcp_close(tcp_soc_avg);\r\n\t\t//tcp_connect_stat=3;\r\n\t\t}\r\n\t}\r\n\r\nif((main_kb_cnt==(TBAT60)-21)&&(ICA_EN==1))\r\n\t{\r\n\tchar modbus_buff[20],i;\r\n\tshort crc_temp;\r\n\r\n\tmodbus_buff[0] = ICA_MODBUS_ADDRESS;\r\n\tmodbus_buff[1] = 6;\r\n\tmodbus_buff[2] = 0;\r\n\tmodbus_buff[3] = 30;\r\n\tmodbus_buff[4] = (char)(TBAT/256);\t\r\n\tmodbus_buff[5] = (char)(TBAT%256);\r\n\r\n\tcrc_temp= CRC16_2(modbus_buff,6);\r\n\r\n\tmodbus_buff[6]= (char)crc_temp;\r\n\tmodbus_buff[7]= (char)(crc_temp>>8);\r\n\r\n\tif(ICA_CH==0)\r\n\t\t{\r\n\t\tfor (i=0;i<8;i++)\r\n\t\t\t{\r\n\t\t\tputchar_sc16is700(modbus_buff[i]);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\n}\r\n\n//-----------------------------------------------\nvoid inv_drv(char in)\n{\nchar temp,temp_;\n//if (bps[in]._device!=dINV) return;\n//plazma_inv[4];\n\ngran_char((signed char)&first_inv_slot,1,7);\n\n\ntemp=inv[in]._flags_tm_old^inv[in]._flags_tm;\nif(temp)plazma_inv[1] =temp;\n\ntemp_=inv[in]._flags_tm&temp;\nif(temp_)plazma_inv[2] =temp_;\n\nif( (temp&(1<<0)) && (temp_&(1<<0)) ) \n\t{\n\tplazma_inv[3]++;\n\tif(in==0)snmp_trap_send(\"Invertor #1 Alarm, overload\",14,1,1);\n\telse if(in==1)snmp_trap_send(\"Invertor #2 Alarm, overload\",14,2,1);\n\telse if(in==2)snmp_trap_send(\"Invertor #3 Alarm, overload\",14,3,1);\n\telse if(in==3)snmp_trap_send(\"Invertor #4 Alarm, overload\",14,4,1);\n\t}\nelse if( (temp&(1<<1)) && (temp_&(1<<1)) )\n\t{\n\t\tplazma_inv[3]++;\n\tif(in==0)snmp_trap_send(\"Invertor #1 Alarm, overheat\",14,1,2);\n\telse if(in==1)snmp_trap_send(\"Invertor #2 Alarm, overheat\",14,2,2);\n\telse if(in==2)snmp_trap_send(\"Invertor #3 Alarm, overheat\",14,3,2);\n\telse if(in==3)snmp_trap_send(\"Invertor #4 Alarm, overheat\",14,4,2);\n\t}\n\nelse if( (temp&(1<<2)) && (temp_&(1<<2)) )\n\t{\n\t\tplazma_inv[3]++;\n\tif(in==0)snmp_trap_send(\"Invertor #1 Alarm, is warm\",14,1,3);\n\telse if(in==1)snmp_trap_send(\"Invertor #2 Alarm, is warm\",14,2,3);\n\telse if(in==2)snmp_trap_send(\"Invertor #3 Alarm, is warm\",14,3,3);\n\telse if(in==3)snmp_trap_send(\"Invertor #4 Alarm, is warm\",14,4,3);\n\t}\n\nelse if( (temp&(1<<3)) && (temp_&(1<<3)) ) \n\t{\n\t\tplazma_inv[3]++;\n\tif(in==0)snmp_trap_send(\"Invertor #1 Alarm, voltage is up\",14,1,4);\n\telse if(in==1)snmp_trap_send(\"Invertor #2 Alarm, voltage is up\",14,2,4);\n\telse if(in==2)snmp_trap_send(\"Invertor #3 Alarm, voltage is up\",14,3,4);\n\telse if(in==3)snmp_trap_send(\"Invertor #4 Alarm, voltage is up\",14,4,4);\n\t}\n\nelse if( (temp&(1<<4)) && (temp_&(1<<4)) ) \n\t{\n\t\tplazma_inv[3]++;\n\tif(in==0)snmp_trap_send(\"Invertor #1 Alarm, voltage is down\",14,1,5);\n\telse if(in==1)snmp_trap_send(\"Invertor #2 Alarm, voltage is down\",14,2,5);\n\telse if(in==2)snmp_trap_send(\"Invertor #3 Alarm, voltage is down\",14,3,5);\n\telse if(in==3)snmp_trap_send(\"Invertor #4 Alarm, voltage is down\",14,4,5);\n\t}\n\nelse if( (temp&(1<<5)) && (temp_&(1<<5)) )\n\t{\n\t\tplazma_inv[3]++;\n\tif(in==0)snmp_trap_send(\"Invertor #1 Alarm, output is offed\",14,1,6);\n\telse if(in==1)snmp_trap_send(\"Invertor #2 Alarm, output is offed\",14,2,6);\n\telse if(in==2)snmp_trap_send(\"Invertor #3 Alarm, output is offed\",14,3,6);\n\telse if(in==3)snmp_trap_send(\"Invertor #4 Alarm, output is offed\",14,4,6);\n\t}\n\nelse if((temp)&&(!temp_)) \n\t{\n\t\tplazma_inv[3]++;\n\tif(in==0)snmp_trap_send(\"Invertor #1 is norm\",14,1,0);\n\telse if(in==1)snmp_trap_send(\"Invertor #2 is norm\",14,2,0);\n\telse if(in==2)snmp_trap_send(\"Invertor #3 is norm\",14,3,0);\n\telse if(in==3)snmp_trap_send(\"Invertor #4 is norm\",14,4,0);\n\t}\n\ninv[in]._flags_tm_old=inv[in]._flags_tm;\n\n}\t\r\n\n//-----------------------------------------------\nvoid ipsBlckHndl(char in)\r\n{\r\n\r\nipsBlckStat=0;\r\nif(ipsBlckSrc==1)\r\n\t{\r\n\tif(((ipsBlckLog==0)&&(adc_buff_[11]>2000)) \|\| ((ipsBlckLog==1)&&(adc_buff_[11]<2000))) ipsBlckStat=1;\r\n\t}\r\nelse if(ipsBlckSrc==2)\r\n\t{\r\n\tif(((ipsBlckLog==0)&&(adc_buff_[13]>2000)) \|\| ((ipsBlckLog==1)&&(adc_buff_[13]<2000))) ipsBlckStat=1;\r\n\t}\r\n}\r\n\n//-----------------------------------------------\nvoid bps_drv(char in)\n{\nchar temp;\n\nif (bps[in]._device!=dSRC) return;\ntemp=bps[in]._flags_tm;\nif(temp&(1<<AV_T))\n\t{\n\tif(bps[in]._temp_av_cnt<1200) \n\t\t{\n\t\tbps[in]._temp_av_cnt++;\n\t\tif(bps[in]._temp_av_cnt>=1200)\n\t\t\t{\n\t\t\tbps[in]._temp_av_cnt=1200;\n\t\t \tif(!(bps[in]._av&(1<<0)))avar_bps_hndl(in,0,1);\n\t\t\t}\n\t\t}\n\t}\n\nelse if(!(temp&(1<<AV_T)))\n\t{\n\tif(bps[in]._temp_av_cnt) \n\t\t{\n\t\tbps[in]._temp_av_cnt--;\n\t\tif(!bps[in]._temp_av_cnt)\n\t\t\t{\n\t\t\tif(bps[in]._av&(1<<0))avar_bps_hndl(in,0,0);\n\t\t\t}\n\t\t} \t\n\n\t}\n\nif((temp&(1<<AVUMAX)))\n\t{\n\tif(bps[in]._umax_av_cnt<10) \n\t\t{\n\t\tbps[in]._umax_av_cnt++;\n\t\tif(bps[in]._umax_av_cnt>=10)\n\t\t\t{ \n\t\t\tbps[in]._umax_av_cnt=10;\n\t\t\tif(!(bps[in]._av&(1<<1)))avar_bps_hndl(in,1,1);\n\t\t \t/if((K[APV]!=ON)\|\|((apv_cnt[in,0]==0)&&(apv_cnt[in,1]==0)&&(apv_cnt[in,2]==0)&&(apv_flags[in]==afOFF)))avar_s_hndl(in,1,1);\n\t\t\tif((apv_cnt[in,0]==0)&&(apv_cnt[in,1]==0)&&(apv_cnt[in,2]==0)&&(apv_flags[in]==afON))\n\t\t\t\t{\n\t\t\t\tapv_cnt[in,0]=APV_INIT;\n\t\t\t\tapv_cnt[in,1]=APV_INIT;\n\t\t\t\tapv_cnt[in,2]=APV_INIT;\n\t\t\t\tapv_flags[in]=afOFF;\n\t\t\t\t}\t\t\t\t/\n\t\t\t\t\t\t\n\t\t\t}\n\t\t} \n\t}\t\t\nelse if(!(temp&(1<<AVUMAX)))\n\t{\n\tif(bps[in]._umax_av_cnt>0) \n\t\t{\n\t\tbps[in]._umax_av_cnt--;\n\t\tif(bps[in]._umax_av_cnt==0)\n\t\t\t{\n\t\t\tbps[in]._umax_av_cnt=0;\n\t\t\tavar_bps_hndl(in,1,0);\n\t //\t\tapv_cnt[in,0]=0;\n\t//\t\tapv_cnt[in,1]=0;\n\t //\t\tapv_cnt[in,2]=0;\t\t\t\n\t\t\t}\n\t\t}\n\telse if(bps[in]._umax_av_cnt<0) bps[in]._umax_av_cnt=0;\t\t \n\t}\n\nif(temp&(1<<AVUMIN))\n\t{\n\tif(bps[in]._umin_av_cnt<10) \n\t\t{\n\t\tbps[in]._umin_av_cnt++;\n\t\tif(bps[in]._umin_av_cnt>=10)\n\t\t\t{ \n\t\t\tbps[in]._umin_av_cnt=10;\n\t\t\tif(!(bps[in]._av&(1<<2)))avar_bps_hndl(in,2,1);\n\t\t \t/\tif((K[APV]!=ON)\|\|((apv_cnt[in,0]==0)&&(apv_cnt[in,1]==0)&&(apv_cnt[in,2]==0)&&(apv_flags[in]==afOFF)))avar_s_hndl(in,2,1);\n\t\t\tif((apv_cnt[in,0]==0)&&(apv_cnt[in,1]==0)&&(apv_cnt[in,2]==0)&&(apv_flags[in]==afON))\n\t\t\t\t{\n\t\t\t\tapv_cnt[in,0]=APV_INIT;\n\t\t\t\tapv_cnt[in,1]=APV_INIT;\n\t\t\t\tapv_cnt[in,2]=APV_INIT;\n\t\t\t\tapv_flags[in]=afOFF;\n\t\t\t\t}/\t\t\t\t\n\t\t\t}\n\t\t} \n\t}\t\n\t\nelse if(!(temp&(1<<AVUMIN)))\n\t{\n\tif(bps[in]._umin_av_cnt) \n\t\t{\n\t\tbps[in]._umin_av_cnt--;\n\t\tif(bps[in]._umin_av_cnt==0)\n\t\t\t{\n\t\t\tbps[in]._umin_av_cnt=0;\n\t\t\tavar_bps_hndl(in,2,0);\n\t\t//\tapv_cnt[in,0]=0;\n\t\t//\tapv_cnt[in,1]=0;\n\t\t//\tapv_cnt[in,2]=0;\n\t\t\t}\n\t\t}\n\telse if(bps[in]._umin_av_cnt>10)bps[in]._umin_av_cnt--;\t \n\t}\n\n//bps[in]._state=bsOFF;\n\nif (bps[in]._av&0x0f)\t\t\t\t\tbps[in]._state=bsAV;\nelse if ( (net_av) && (bps[in]._cnt>20)/&& \n\t\t(bps[in]._Uii<200)/)\t\t\t\tbps[in]._state=bsOFF_AV_NET;\nelse if (bps[in]._flags_tm&BIN8(100000))\tbps[in]._state=bsRDY;\nelse if (bps[in]._cnt<20)\t\t\t\tbps[in]._state=bsWRK;\n\n\n\n//else if(bps[in]._flags_tm&BIN8(100000)) bps[in]._state=ssBL;\n//else if((!(bps[in]._flags_tm&BIN8(100000)))&&(net_U>100))bps[in]._state=ssWRK;\n//else bps[0]._state=ssNOT;\n\n//bps[in]._is_ready=0;\n//bps[in]._is_wrk=0;\n//if(bps[in]._av_net) bps[in]._flags_bp='N';// не подключен\n//else if(bps[in]._av_u_max) bps[in]._flags_bp='P';// завышено напряжение(u_.av_.bAS1T)) bps_state[0]=ssAV;\n//else if(bps[in]._av_u_min) bps[in]._flags_bp='M';// занижено напряжение\n//else if(bps[in]._av_temper) bps[in]._flags_bp='T';// температура\n//else if(bps[in]._flags_tm&BIN8(100000)) \n//\t{\n//\tbps[in]._flags_bp='B';// заблокирован\n//\tbps[in]._is_ready=1;\n//\t}\n//else if((!(bps[in]._flags_tm&BIN8(100000)))&&(net_U>100))\n// {\n// bps[in]._flags_bp='W';// работает\n// bps[in]._is_ready=1;\n// bps[in]._is_wrk=1;\n \n// }\n//else bps[in]._is_ready=1; \n\n\n\n\n\n/\nbps[in]._flags_tu&=BIN8(11111110);\nif(bps[in]._ist_blok_cnt)\n\t{\n\tbps[in]._ist_blok_cnt--;\n\tbps[in]._flags_tu\|=BIN8(1);\n\t}\n\n\t / \n\n//Пересброс БПСа при потере связи\nif(bps[in]._cnt>=10) bps[in]._flags_tu\|=BIN8(10000000);\nelse bps[in]._flags_tu&=BIN8(1111111);\n\t\nbps[in]._vol_u=cntrl_stat+bps[in]._x_;\t\nbps[in]._vol_i=1000; \n}\n\n//-----------------------------------------------\nvoid avt_hndl(void)\n{\nchar i;\nfor(i=0;i<12;i++)\n\t{\n\tif(eb2_data_short[6]&(1<<i))\n\t\t{\n\t\tavt_stat[i]=avtON;\n\t\t}\n\telse avt_stat[i]=avtOFF;\n\t}\n\nif((avt_stat_old[0]!=avt_stat[0])&&(NUMAVT>=1))\n\t{\n\tif(avt_stat[0]==avtON) \tsnmp_trap_send(\"Avtomat #1 is ON \",11,1,1);\n\telse \t\t\t\tsnmp_trap_send(\"Avtomat #1 is OFF\",11,1,0);\n\t}\nif((avt_stat_old[1]!=avt_stat[1])&&(NUMAVT>=2))\n\t{\n\tif(avt_stat[1]==avtON) \tsnmp_trap_send(\"Avtomat #2 is ON \",11,2,1);\n\telse \t\t\t\tsnmp_trap_send(\"Avtomat #2 is OFF\",11,2,0);\n\t}\nif((avt_stat_old[2]!=avt_stat[2])&&(NUMAVT>=3))\n\t{\n\tif(avt_stat[2]==avtON) \tsnmp_trap_send(\"Avtomat #3 is ON \",11,3,1);\n\telse \t\t\t\tsnmp_trap_send(\"Avtomat #3 is OFF\",11,3,0);\n\t}\nif((avt_stat_old[3]!=avt_stat[3])&&(NUMAVT>=4))\n\t{\n\tif(avt_stat[3]==avtON) \tsnmp_trap_send(\"Avtomat #4 is ON \",11,4,1);\n\telse \t\t\t\tsnmp_trap_send(\"Avtomat #4 is OFF\",11,4,0);\n\t}\nif((avt_stat_old[4]!=avt_stat[4])&&(NUMAVT>=5))\n\t{\n\tif(avt_stat[4]==avtON) \tsnmp_trap_send(\"Avtomat #5 is ON \",11,5,1);\n\telse \t\t\t\tsnmp_trap_send(\"Avtomat #5 is OFF\",11,5,0);\n\t}\nif((avt_stat_old[5]!=avt_stat[5])&&(NUMAVT>=6))\n\t{\n\tif(avt_stat[5]==avtON) \tsnmp_trap_send(\"Avtomat #6 is ON \",11,6,1);\n\telse \t\t\t\tsnmp_trap_send(\"Avtomat #6 is OFF\",11,6,0);\n\t}\nif((avt_stat_old[6]!=avt_stat[6])&&(NUMAVT>=7))\n\t{\n\tif(avt_stat[6]==avtON) \tsnmp_trap_send(\"Avtomat #7 is ON \",11,7,1);\n\telse \t\t\t\tsnmp_trap_send(\"Avtomat #7 is OFF\",11,7,0);\n\t}\nif((avt_stat_old[7]!=avt_stat[7])&&(NUMAVT>=8))\n\t{\n\tif(avt_stat[7]==avtON) \tsnmp_trap_send(\"Avtomat #8 is ON \",11,8,1);\n\telse \t\t\t\tsnmp_trap_send(\"Avtomat #8 is OFF\",11,8,0);\n\t}\nif((avt_stat_old[8]!=avt_stat[8])&&(NUMAVT>=9))\n\t{\n\tif(avt_stat[8]==avtON) \tsnmp_trap_send(\"Avtomat #9 is ON \",11,9,1);\n\telse \t\t\t\tsnmp_trap_send(\"Avtomat #9 is OFF\",11,9,0);\n\t}\n\nfor(i=0;i<12;i++)\n\t{\n\tavt_stat_old[i]=avt_stat[i];\n\t}\n}\n\n//-----------------------------------------------\nvoid bat_hndl(void)\n{\n/if(mess_find(_MESS_BAT_MASK_ON))\n\t{\n\tif(mess_data[0]==_MESS_BAT_MASK_ON)\n\t\t{\n\t\tchar i;\n\t\tfor(i=0;i<2;i++)\n\t\t\t{\n\t\t\tif(mess_data[1]&(1<<i))\n\t\t\t\t{\n\t\t\t\tbat[i]._cnt_to_block=0;\n \t\t\tbat[i]._rel_stat=0;\n \t\t\t}\n\t\t\t}\n\t\t}\n\t}\nif(mess_find(_MESS_BAT_MASK_OFF))\n\t{\t\t\n\tif(mess_data[0]==_MESS_BAT_MASK_OFF)\n\t\t{\n\t\tchar i;\n\t\tfor(i=0;i<2;i++)\n\t\t\t{\n\t\t\tif((mess_data[1]&(1<<i)) && (bat[i]._cnt_to_block==0) && (bat[i]._rel_stat==0))\n\t\t\t\t{\n\t\t\t\tbat[i]._cnt_to_block=20;\n\t\t\t\tbat[i]._rel_stat=1;\n \t\t\t}\n\t\t\t}\n\t\t\n\t\t}\t\t\n\t}/\n\nif(mess_find_unvol(MESS2BAT_HNDL))\n\t{ \n\tchar i;\n\t\n\tif(mess_data[0]==PARAM_BAT_ALL_OFF_AFTER_2SEC)\n\t\t{\n\t\tfor(i=0;i<MAX_NUM_OF_BAT;i++)\n\t\t\t{\n\t\t\tif(bat[i]._cnt_to_block<50)bat[i]._cnt_to_block++;\n\t\t\t}\n\t\t}\n\n\telse if(mess_data[0]==PARAM_BAT_MASK_OFF_AFTER_2SEC)\n\t\t{\n\t\tfor(i=0;i<MAX_NUM_OF_BAT;i++)\n\t\t\t{\n\t\t\tif(mess_data[1]&(1<<i))\n\t\t\t\t{\n\t\t\t\tif(bat[i]._cnt_to_block<50) bat[i]._cnt_to_block++;\n\t\t\t\t}\n\t\t\telse bat[i]._cnt_to_block=0;\n\t\t\t}\n\t\t}\n\telse \n\t \t{\n\t\tfor(i=0;i<MAX_NUM_OF_BAT;i++)\n\t\t\t{\n\t\t\tbat[i]._cnt_to_block=0;\n\t\t\t}\n\n\t\t}\n\tfor(i=0;i<MAX_NUM_OF_BAT;i++)\n\t\t{\n\t\tif(bat[i]._cnt_to_block>20)bat[i]._rel_stat=1;\n\t\telse bat[i]._rel_stat=0;\n\t\t}\n\n\t}\n\nelse \n\t{\n\tchar i;\n\tfor(i=0;i<MAX_NUM_OF_BAT;i++)\n\t\t{\n\t\tbat[i]._cnt_to_block=0;\n\t\tbat[i]._rel_stat=0;\n\t\t}\n\n\t}\n\n/if(mess_find_unvol(MESS2BAT_HNDL1))\n\t{\n\tif(PARAM_BAT_ON)\n\t\t{\n\t\tchar i;\n\t\tfor(i=0;i<MAX_NUM_OF_BAT;i++)\n\t\t\t{\n\t\t\tif(mess_data[1]&(1<<i))\n\t\t\t\t{\n\t\t\t\tbat[i]._cnt_to_block=0;\n\t\t\t\tbat[i]._rel_stat=0;\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t} /\n}\r\n\n#ifdef UKU_TELECORE2015\r\n//-----------------------------------------------\nvoid lakb_hndl(void)\n{\r\nchar i;\r\nchar temp;\r\n\r\n//if()\r\ntemp=0;\r\nfor(i=0;i<3;i++)\r\n\t{\r\n\tif(i>=NUMBAT_TELECORE)lakb[i]._communicationFullErrorStat=0;\r\n\telse\r\n\t\t{\r\n\t\tif(lakbKanErrorStat)\t\t\t\t\tlakb[i]._communicationFullErrorStat=1;\r\n\t\tif(lakb[i]._communication2lvlErrorStat)\tlakb[i]._communicationFullErrorStat=2;\r\n\t\telse\r\n\t\t\t{\r\n\t\t\t \t\t\t\t\t\t\t\t\tlakb[i]._communicationFullErrorStat=0;\r\n\t\t\ttemp++;\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\nlakbNotErrorNum=temp;\r\n\r\n\r\n\r\n\r\n\r\nfor(i=0;i<3;i++)\r\n\t{\r\n\tif((NUMBAT_TELECORE>i)&&(lakb[i]._communicationFullErrorStat==0))\r\n\t\t{\r\n\t\tsigned short tempSS;\r\n\t\ttempSS=lakb[i]._s_o_c;\r\n\t\ttempSS=10;\r\n\t\ttempSS/=(lakb[i]._s_o_h/10);\r\n\t\tgran(&tempSS,0,100);\r\n\t\tlakb[i]._zar_percent=tempSS;\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tlakb[i]._zar_percent=0;\r\n\t\t}\r\n\t}\r\n\r\n\r\nfor(i=0;i<3;i++)\r\n\t{\r\n\tif((i>NUMBAT_TELECORE)\|\|(lakb[i]._communicationFullErrorStat))\r\n\t\t{\r\n\t\tlakb[i]._ch_curr=0;\t \r\n\t\tlakb[i]._tot_bat_volt=0;\r\n\t\tlakb[i]._max_cell_temp=0;\r\n\t\tlakb[i]._s_o_c=0;\r\n\t\tlakb[i]._s_o_h=0;\r\n\t\t}\r\n\t}\r\n}\r\n#endif\r\n#ifdef UKU_TELECORE2017\r\n//-----------------------------------------------\nvoid lakb_hndl(void)\n{\r\nchar i;\r\nchar temp;\r\n\r\n//if()\r\ntemp=0;\r\nfor(i=0;i<3;i++)\r\n\t{\r\n\tif(i>=NUMBAT_TELECORE)lakb[i]._communicationFullErrorStat=0;\r\n\telse\r\n\t\t{\r\n\t\tif(lakbKanErrorStat)\t\t\t\t\tlakb[i]._communicationFullErrorStat=1;\r\n\t\tif(lakb[i]._communication2lvlErrorStat)\tlakb[i]._communicationFullErrorStat=2;\r\n\t\telse\r\n\t\t\t{\r\n\t\t\t \t\t\t\t\t\t\t\t\tlakb[i]._communicationFullErrorStat=0;\r\n\t\t\ttemp++;\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\nlakbNotErrorNum=temp;\r\n\r\n\r\n\r\n\r\n\r\nfor(i=0;i<3;i++)\r\n\t{\r\n\tif((NUMBAT_TELECORE>i)&&(lakb[i]._communicationFullErrorStat==0))\r\n\t\t{\r\n\t\tsigned short tempSS;\r\n\t\ttempSS=lakb[i]._s_o_c;\r\n\t\ttempSS=10;\r\n\t\ttempSS/=(lakb[i]._s_o_h/10);\r\n\t\tgran(&tempSS,0,100);\r\n\t\tlakb[i]._zar_percent=tempSS;\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tlakb[i]._zar_percent=0;\r\n\t\t}\r\n\t}\r\n\r\n\r\nfor(i=0;i<3;i++)\r\n\t{\r\n\tif((i>NUMBAT_TELECORE)\|\|(lakb[i]._communicationFullErrorStat))\r\n\t\t{\r\n\t\tlakb[i]._ch_curr=0;\t \r\n\t\tlakb[i]._tot_bat_volt=0;\r\n\t\tlakb[i]._max_cell_temp=0;\r\n\t\tlakb[i]._s_o_c=0;\r\n\t\tlakb[i]._s_o_h=0;\r\n\t\t}\r\n\t}\r\n}\r\n#endif\r\n#ifdef UKU_TELECORE2015\r\n//-----------------------------------------------\nvoid klimat_hndl_telecore2015(void)\n{\nchar i;\r\nchar t_bps=20;\r\n//t_box=25; \r\n\r\nif(TELECORE2015_KLIMAT_WARM_SIGNAL==0)\r\n\t{\r\n\tt_box_warm=t_ext[1];\r\n\tif(ND_EXT[1])t_box_warm=20;\r\n\t}\r\nelse if(TELECORE2015_KLIMAT_WARM_SIGNAL==1) \r\n\t{\r\n\tt_box_warm=t_ext[0];\r\n\tif(ND_EXT[0])t_box_warm=20;\r\n\t}\r\n\r\nif(TELECORE2015_KLIMAT_VENT_SIGNAL==0)\r\n\t{\r\n\tt_box_vent=t_ext[1];\r\n\tif(ND_EXT[1])t_box_vent=20;\r\n\t}\r\nelse if(TELECORE2015_KLIMAT_VENT_SIGNAL==1) \r\n\t{\r\n\tt_box_vent=t_ext[0];\r\n\tif(ND_EXT[0])t_box_vent=20;\r\n\t}\r\n\r\nTELECORE2015_KLIMAT_WARM_ON_temp=TELECORE2015_KLIMAT_WARM_ON;\nif(\r\n\t(lakb_stat_comm_error)\t\t//хотя бы у одной из литиевых батарей есть проблемы со связью \r\n\t\|\| ((NUMBAT_TELECORE>0)&&(lakb[0]._zar_percent<TELECORE2015_KLIMAT_CAP)) //есть 1 батарея и ее заряд снизился ниже установленного порога\n\t\|\| ((NUMBAT_TELECORE>1)&&(lakb[1]._zar_percent<TELECORE2015_KLIMAT_CAP)) //есть 2-я батарея .....\r\n\t\|\| ((NUMBAT_TELECORE>2)&&(lakb[2]._zar_percent<TELECORE2015_KLIMAT_CAP)) //есть 3-я батарея\t.....\n )\tTELECORE2015_KLIMAT_WARM_ON_temp=0;\n\nif(t_box_warm<TELECORE2015_KLIMAT_WARM_ON_temp) t_box_warm_on_cnt++;\nelse if(t_box_warm>TELECORE2015_KLIMAT_WARM_OFF) t_box_warm_on_cnt--;\ngran(&t_box_warm_on_cnt,0,10);\n\nif(t_box_warm_on_cnt>9) warm_stat_k=wsON;\nelse if(t_box_warm_on_cnt<1) warm_stat_k=wsOFF;\r\n\r\n\nif(t_box_vent>TELECORE2015_KLIMAT_VENT_ON) t_box_vent_on_cnt++;\nelse if(t_box_vent<TELECORE2015_KLIMAT_VENT_OFF) t_box_vent_on_cnt--;\ngran(&t_box_vent_on_cnt,0,10);\n\nif(t_box_vent_on_cnt>9) vent_stat_k=vsON;\nelse if(t_box_vent_on_cnt<1) vent_stat_k=vsOFF;\r\n\nfor(i=0;i<NUMIST;i++)\r\n\t{\r\n\tif((bps[i]._Ti>t_bps)&&(bps[i]._cnt<10))t_bps=bps[i]._Ti;\r\n\t}\r\n\nif(t_bps>TELECORE2015_KLIMAT_VVENT_ON) t_box_vvent_on_cnt++;\nelse if(t_bps<TELECORE2015_KLIMAT_VVENT_OFF) t_box_vvent_on_cnt--;\ngran(&t_box_vvent_on_cnt,0,10);\n\nif(t_box_vvent_on_cnt>9) vvent_stat_k=vsON;\nelse if(t_box_vvent_on_cnt<1) vvent_stat_k=vsOFF;\r\n\n}\n#endif\r\n\r\n#ifdef UKU_TELECORE2017\r\n//-----------------------------------------------\nvoid klimat_hndl_telecore2017(void)\n{\n//char i;\r\n//char t_bps=20;\r\nshort delta_t;\r\n \r\n\r\nif(TELECORE2017_KLIMAT_WARM_SIGNAL==0)\r\n\t{\r\n\tt_box_warm=t_ext[1];\r\n\tif(ND_EXT[1])t_box_warm=20;\r\n\t}\r\nelse if(TELECORE2017_KLIMAT_WARM_SIGNAL==1) \r\n\t{\r\n\tt_box_warm=t_ext[0];\r\n\tif(ND_EXT[0])t_box_warm=20;\r\n\t}\r\n\r\nif(TELECORE2017_KLIMAT_VENT_SIGNAL==0)\r\n\t{\r\n\tt_box_vent=t_ext[1];\r\n\tif(ND_EXT[1])t_box_vent=20;\r\n\t}\r\nelse if(TELECORE2017_KLIMAT_VENT_SIGNAL==1) \r\n\t{\r\n\tt_box_vent=t_ext[0];\r\n\tif(ND_EXT[0])t_box_vent=20;\r\n\t}\r\n\r\nTELECORE2017_KLIMAT_WARM_ON_temp=TELECORE2017_KLIMAT_WARM_ON;\nif(\r\n\t(lakb_stat_comm_error)\t\t//хотя бы у одной из литиевых батарей есть проблемы со связью \r\n\t\|\| ((NUMBAT_TELECORE>0)&&(lakb[0]._zar_percent<TELECORE2017_KLIMAT_CAP)) //есть 1 батарея и ее заряд снизился ниже установленного порога\n\t\|\| ((NUMBAT_TELECORE>1)&&(lakb[1]._zar_percent<TELECORE2017_KLIMAT_CAP)) //есть 2-я батарея .....\r\n\t\|\| ((NUMBAT_TELECORE>2)&&(lakb[2]._zar_percent<TELECORE2017_KLIMAT_CAP)) //есть 3-я батарея\t.....\n )\tTELECORE2017_KLIMAT_WARM_ON_temp=0;\r\n\r\nif(t_box_warm<TELECORE2017_KLIMAT_WARM_ON_temp) t_box_warm_on_cnt++;\nelse if(t_box_warm>TELECORE2017_KLIMAT_WARM_OFF) t_box_warm_on_cnt--;\ngran(&t_box_warm_on_cnt,0,10);\n\nif(t_box_warm_on_cnt>9) warm_stat_k=wsON;\nelse if(t_box_warm_on_cnt<1) warm_stat_k=wsOFF;\r\n\r\n\r\nif(/(t_box_vent>TELECORE2017_KLIMAT_VENT_ON0)&&/(t_box_vent<TELECORE2017_KLIMAT_VENT_ON20)) \tTELECORE2017_EXT_VENT_PWM=0;\r\nif((t_box_vent>TELECORE2017_KLIMAT_VENT_ON20)&&(t_box_vent<TELECORE2017_KLIMAT_VENT_ON40)) \tTELECORE2017_EXT_VENT_PWM=1;\r\nif((t_box_vent>TELECORE2017_KLIMAT_VENT_ON40)&&(t_box_vent<TELECORE2017_KLIMAT_VENT_ON60)) \tTELECORE2017_EXT_VENT_PWM=2;\r\nif((t_box_vent>TELECORE2017_KLIMAT_VENT_ON60)&&(t_box_vent<TELECORE2017_KLIMAT_VENT_ON80)) \tTELECORE2017_EXT_VENT_PWM=3;\r\nif((t_box_vent>TELECORE2017_KLIMAT_VENT_ON80)&&(t_box_vent<TELECORE2017_KLIMAT_VENT_ON100)) TELECORE2017_EXT_VENT_PWM=4;\r\nif((t_box_vent>TELECORE2017_KLIMAT_VENT_ON100) ) \t\t\t\t\t\t\t\t\t\t\tTELECORE2017_EXT_VENT_PWM=5;\r\nif(warm_stat_k==wsON) TELECORE2017_EXT_VENT_PWM=0;\r\n\r\ndelta_t= abs(t_ext[0]-t_ext[1]);\r\nif(/(delta_t>TELECORE2017_KLIMAT_DVENT_ON0)&&/(delta_t<TELECORE2017_KLIMAT_DVENT_ON20)) \t\tTELECORE2017_INT_VENT_PWM=0;\r\nif((delta_t>TELECORE2017_KLIMAT_DVENT_ON20)&&(delta_t<TELECORE2017_KLIMAT_DVENT_ON40)) \t\tTELECORE2017_INT_VENT_PWM=1;\r\nif((delta_t>TELECORE2017_KLIMAT_DVENT_ON40)&&(delta_t<TELECORE2017_KLIMAT_DVENT_ON60)) \t\tTELECORE2017_INT_VENT_PWM=2;\r\nif((delta_t>TELECORE2017_KLIMAT_DVENT_ON60)&&(delta_t<TELECORE2017_KLIMAT_DVENT_ON80)) \t\tTELECORE2017_INT_VENT_PWM=3;\r\nif((delta_t>TELECORE2017_KLIMAT_DVENT_ON80)&&(delta_t<TELECORE2017_KLIMAT_DVENT_ON100)) \tTELECORE2017_INT_VENT_PWM=4;\r\nif((delta_t>TELECORE2017_KLIMAT_DVENT_ON100) ) \t\t\t\t\t\t\t\t\t\t\t\tTELECORE2017_INT_VENT_PWM=5;\r\n\r\ngran_char(&TELECORE2017_EXT_VENT_PWM,0,5);\r\ngran_char(&TELECORE2017_INT_VENT_PWM,0,5);\r\n\r\nif(TELECORE2017_EXT_VENT_PWM)TELECORE2017_INT_VENT_PWM=TELECORE2017_EXT_VENT_PWM;\r\n\r\n//ND_EXT[0]=0;\r\n//ND_EXT[1]=0;\r\n\r\n/if((ND_EXT[0])\|\|(ND_EXT[1]))\r\n\t{\r\n\tTELECORE2017_INT_VENT_PWM=3;\r\n\tTELECORE2017_EXT_VENT_PWM=3;\r\n\t} /\r\n\r\n\r\nif((mess_find_unvol(MESS2KLIMAT_CNTRL))&&(mess_data[0]==PARAM_KLIMAT_CNTRL_VENT_INT))\n\t{\n\tTELECORE2017_INT_VENT_PWM=mess_data[1];\n\t}\n/else \n\t{\n\tTELECORE2017_INT_VENT_PWM=0;\n\t}/ \r\n\r\nif((mess_find_unvol(MESS2KLIMAT_CNTRL))&&(mess_data[0]==PARAM_KLIMAT_CNTRL_VENT_EXT))\n\t{\n\tTELECORE2017_EXT_VENT_PWM=mess_data[1];\n\t}\n/else \n\t{\n\tTELECORE2017_EXT_VENT_PWM=0;\n\t}/ \r\n\t\r\nif(TELECORE2017_INT_VENT_PWM\|\|TELECORE2017_EXT_VENT_PWM) \tvent_stat_k=vsON;\r\nelse \t\t\t\t\t\t\t\t\t\t\t\t\t\tvent_stat_k=vsOFF;\r\n\r\n\r\nif(t_box_warm<-20)\r\n\t{\r\n\tif(t_box_warm_minus20_cnt<60)\r\n\t\t{\r\n\t\tt_box_warm_minus20_cnt++;\r\n\t\tif(t_box_warm_minus20_cnt==60)\r\n\t\t\t{\r\n\t\t\tsnmp_trap_send(\"Temperature at the bottom of box is below -20\",20,1,1);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\nelse if(t_box_warm>-20)\r\n\t{\r\n\tif(t_box_warm_minus20_cnt>0)\r\n\t\t{\r\n\t\tt_box_warm_minus20_cnt--;\r\n\t\tif(t_box_warm_minus20_cnt==0)\r\n\t\t\t{\r\n\t\t\tsnmp_trap_send(\"Temperature at the bottom of box is below -20 clear\",20,1,0);\r\n\t\t\t}\r\n\t\t}\r\n\t} \r\n\nif(t_box_warm>65)\r\n\t{\r\n\tif(t_box_warm_plus65_cnt<60)\r\n\t\t{\r\n\t\tt_box_warm_plus65_cnt++;\r\n\t\tif(t_box_warm_plus65_cnt==60)\r\n\t\t\t{\r\n\t\t\tsnmp_trap_send(\"Temperature at the bottom of box is above 65\",20,2,1);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\nelse if(t_box_warm<65)\r\n\t{\r\n\tif(t_box_warm_plus65_cnt>0)\r\n\t\t{\r\n\t\tt_box_warm_plus65_cnt--;\r\n\t\tif(t_box_warm_plus65_cnt==0)\r\n\t\t\t{\r\n\t\t\tsnmp_trap_send(\"Temperature at the bottom of box is above 65 clear\",20,2,0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\t\r\nif(t_box_vent>70)\r\n\t{\r\n\tif(t_box_cool_plus70_cnt<60)\r\n\t\t{\r\n\t\tt_box_cool_plus70_cnt++;\r\n\t\tif(t_box_cool_plus70_cnt==60)\r\n\t\t\t{\r\n\t\t\tsnmp_trap_send(\"Temperature at the top of box is above 70\",20,3,1);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\nelse if(t_box_vent<70)\r\n\t{\r\n\tif(t_box_cool_plus70_cnt>0)\r\n\t\t{\r\n\t\tt_box_cool_plus70_cnt--;\r\n\t\tif(t_box_cool_plus70_cnt==0)\r\n\t\t\t{\r\n\t\t\tsnmp_trap_send(\"Temperature at the top of box is above 70 clear\",20,3,0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\t \n}\r\n\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\n#endif\n\n#ifndef UKU_KONTUR\n//-----------------------------------------------\nvoid klimat_hndl(void)\n{\n\n\nif(t_box>TBOXMAX)\n\t{\n\tav_tbox_cnt++;\n\t} \nelse if(t_box<TBOXMAX)\n\t{\n\tav_tbox_cnt--;\n\t}\ngran(&av_tbox_cnt,0,6);\n\nif(av_tbox_cnt>5)\n\t{\n\tav_tbox_stat=atsON;\n\t}\nif(av_tbox_cnt<1)\n\t{\n\tav_tbox_stat=atsOFF;\n\t}\n\nif(t_box<(TBOXREG-2))\n\t{\n\tif(t_box_cnt<30)\n\t\t{\n\t\tt_box_cnt++;\n\t\tif(t_box_cnt>=30)\n\t\t\t{\n\t\t\tmain_vent_pos--;\n\t\t\tt_box_cnt=0;\n\t\t\t}\n\t\t}\n\t}\nelse if(t_box>(TBOXREG))\n\t{\n\tif(t_box_cnt<30)\n\t\t{\n\t\tt_box_cnt++;\n\t\tif(t_box_cnt>=30)\n\t\t\t{\n\t\t\tmain_vent_pos++;\n\t\t\tt_box_cnt=0;\n\t\t\t}\n\t\t}\n\t}\nelse\n\t{\n\tt_box_cnt=0;\n\t}\n\n#ifndef UKU_KONTUR\nif(t_box>TBOXVENTMAX)gran(&main_vent_pos,0,20); \nelse gran(&main_vent_pos,0,pos_vent+9);\n\nif((mess_find_unvol(MESS2VENT_HNDL))&&(mess_data[0]==PARAM_VENT_CB))\n\t{\n\tmain_vent_pos=mess_data[1];\n\t}\n\n\nif(main_vent_pos<=1)mixer_vent_stat=mvsON;\nelse mixer_vent_stat=mvsOFF;\n#endif\n\n#ifdef UKU_KONTUR\n\nif(t_box>TBOXVENTON) t_box_vent_on_cnt++;\nelse if(t_box<TBOXVENTOFF) t_box_vent_on_cnt--;\ngran(&t_box_vent_on_cnt,0,10);\n\nif(t_box_vent_on_cnt>9) vent_stat_k=vsON;\nelse if(t_box_vent_on_cnt<1) vent_stat_k=vsOFF;\n\nif(t_box<TBOXWARMON) t_box_warm_on_cnt++;\nelse if(t_box>TBOXWARMOFF) t_box_warm_on_cnt--;\ngran(&t_box_warm_on_cnt,0,10);\n\nif(t_box_warm_on_cnt>9) warm_stat_k=wsON;\nelse if(t_box_warm_on_cnt<1) warm_stat_k=wsOFF;\n\n#endif\n\nif((TBATDISABLE>=50) && (TBATDISABLE<=90))\n\t{\n\tif(t_box>TBATDISABLE)\n\t\t{\n\t\ttbatdisable_cnt++;\n\t\t}\n\tif(t_box<TBATENABLE)\n\t\t{\n\t\ttbatdisable_cnt--;\n\t\t}\n\tgran(&tbatdisable_cnt,0,6);\n\n\tif(tbatdisable_cnt>5)\n\t\t{\n\t\ttbatdisable_stat=tbdsOFF;\n\t\t}\n\tif(tbatdisable_cnt<1)\n\t\t{\n\t\ttbatdisable_stat=tbdsON;\n\t\t}\n\t}\nelse \n\t{\n\ttbatdisable_stat=tbdsON;\n\t}\n\nif((TLOADDISABLE>=50) && (TLOADDISABLE<=80))\n\t{\n\tif(t_box>TLOADDISABLE)\n\t\t{\n\t\ttloaddisable_cnt++;\n\t\t}\n\tif(t_box<TLOADENABLE)\n\t\t{\n\t\ttloaddisable_cnt--;\n\t\t}\n\tgran(&tloaddisable_cnt,0,6);\n\n\tif(tloaddisable_cnt>5)\n\t\t{\n\t\ttloaddisable_stat=tldsOFF;\n\t\t}\n\tif(tloaddisable_cnt<1)\n\t\t{\n\t\ttloaddisable_stat=tldsON;\n\t\t}\n\t}\nelse \n\t{\n\ttloaddisable_stat=tldsON;\n\t}\n\n}\n#endif\n\n#ifdef UKU_KONTUR\n//-----------------------------------------------\nvoid klimat_hndl(void)\n{\n\n\nif(t_box>TBOXMAX)\n\t{\n\tav_tbox_cnt++;\n\t} \nelse if(t_box<TBOXMAX)\n\t{\n\tav_tbox_cnt--;\n\t}\ngran(&av_tbox_cnt,0,6);\n\nif(av_tbox_cnt>5)\n\t{\n\tav_tbox_stat=atsON;\n\t}\nif(av_tbox_cnt<1)\n\t{\n\tav_tbox_stat=atsOFF;\n\t}\n\nif(t_box<(TBOXREG-2))\n\t{\n\tif(t_box_cnt<30)\n\t\t{\n\t\tt_box_cnt++;\n\t\tif(t_box_cnt>=30)\n\t\t\t{\n\t\t\tmain_vent_pos--;\n\t\t\tt_box_cnt=0;\n\t\t\t}\n\t\t}\n\t}\nelse if(t_box>(TBOXREG))\n\t{\n\tif(t_box_cnt<30)\n\t\t{\n\t\tt_box_cnt++;\n\t\tif(t_box_cnt>=30)\n\t\t\t{\n\t\t\tmain_vent_pos++;\n\t\t\tt_box_cnt=0;\n\t\t\t}\n\t\t}\n\t}\nelse\n\t{\n\tt_box_cnt=0;\n\t}\n\n\nif(t_box>TBOXVENTMAX)gran(&main_vent_pos,0,20); \nelse gran(&main_vent_pos,0,pos_vent+9);\n\nif((mess_find_unvol(MESS2VENT_HNDL))&&(mess_data[0]==PARAM_VENT_CB))\n\t{\n\tmain_vent_pos=mess_data[1];\n\t}\n\n\nif(main_vent_pos<=1)vent_stat_k=vsON;\nelse vent_stat_k=vsOFF;\n\n\nif(t_box<TBOXWARMON) t_box_warm_on_cnt++;\nelse if(t_box>TBOXWARMOFF) t_box_warm_on_cnt--;\ngran(&t_box_warm_on_cnt,0,10);\n\nif(t_box_warm_on_cnt>9) warm_stat_k=wsON;\nelse if(t_box_warm_on_cnt<1) warm_stat_k=wsOFF;\n\n\n\nif((TBATDISABLE>=50) && (TBATDISABLE<=90))\n\t{\n\n\n\tif(t_box>TBATDISABLE)\n\t\t{\n\t\ttbatdisable_cnt++;\n\t\t}\n\tif(t_box<TBATENABLE)\n\t\t{\n\t\ttbatdisable_cnt--;\n\t\t}\n\tgran(&tbatdisable_cnt,0,6);\n\n\tif(tbatdisable_cnt>5)\n\t\t{\n\t\ttbatdisable_stat=tbdsOFF;\n\t\t}\n\tif(tbatdisable_cnt<1)\n\t\t{\n\t\ttbatdisable_stat=tbdsON;\n\t\t}\n\t}\nelse \n\t{\n\ttbatdisable_stat=tbdsON;\n\t}\n\nif((TLOADDISABLE>=50) && (TLOADDISABLE<=80))\n\t{\n\tif(t_box>TLOADDISABLE)\n\t\t{\n\t\ttloaddisable_cnt++;\n\t\t}\n\tif(t_box<TLOADENABLE)\n\t\t{\n\t\ttloaddisable_cnt--;\n\t\t}\n\tgran(&tloaddisable_cnt,0,6);\n\n\tif(tloaddisable_cnt>5)\n\t\t{\n\t\ttloaddisable_stat=tldsOFF;\n\t\t}\n\tif(tloaddisable_cnt<1)\n\t\t{\n\t\ttloaddisable_stat=tldsON;\n\t\t}\n\t}\nelse \n\t{\n\ttloaddisable_stat=tldsON;\n\t}\n\n}\n#endif\n\n//-----------------------------------------------\nvoid bat_drv(char in)\n{\nunsigned short /tempUS,/tempUS_;\nunsigned long tempUL,tempUL_;\nunsigned short b_zar;\n//static unsigned short time_cnt[2];\n\n\n\nif(cntrl_stat_blok_cnt_plus[in])cntrl_stat_blok_cnt_plus[in]--;\nif(cntrl_stat_blok_cnt_minus[in])cntrl_stat_blok_cnt_minus[in]--;\n\n\nif(bat[in]._Ib>IZMAX) cntrl_stat_blok_cnt_plus[in]=100;\nif(bat[in]._Ib<0) cntrl_stat_blok_cnt_minus[in]=100;\n\nif(cntrl_stat_blok_cnt_plus[in] && cntrl_stat_blok_cnt_minus[in])\n {\n if(!cntrl_stat_blok_cnt_)\n {\n cntrl_stat_blok_cnt_=600; \n cntrl_stat_blok_cnt_plus[in]=0;\n cntrl_stat_blok_cnt_minus[in]=0;\n }\n else cntrl_stat_blok_cnt=3000;\n }\ncntrl_stat_blok_cnt=0;\n\nif(++(bat[in]._time_cnt)>=10)\n\t{\n\tbat[in]._time_cnt=0;\n\t//bat[in]._zar_cnt++;\n\t}\n\nif(main_10Hz_cnt==50)\n\t{\n\tif(!bat[in]._rel_stat)\n\t\t{\n\t\t\n\t\tif(bat[in]._Ub<80) \n\t\t\t{\n\t\t\t\n\t\t\tif(!(bat[in]._av&1))\n\t\t\t\t{\n\t\t\t\tavar_bat_hndl(in,1);\n\t\t\t\t//if(in==0)plazma_bat++;\n\t\t\t\t}\n\t\t\t}\t\t\t\t\n\n\t\t}\n\t}\n\nif(main_10Hz_cnt>200)\n\t{\n\tif(abs(bat[in]._Ib)>IKB) \n\t\t{\n\t\tif((bat[in]._av&1))avar_bat_hndl(in,0);\n\t\t}\n\t}\n\n\n\nif(bat[in]._Ib>(-IKB))\n\t{\n\tif(bat[in]._cnt_wrk<10)\n\t\t{\n\t\tbat[in]._cnt_wrk++;\n\t\tif((bat[in]._cnt_wrk>=10)&&(bat[in]._wrk)) \n\t\t\t{\n\t\t\tbat[in]._wrk=0;\n\t\t\t//beep_init(0x7L,'O');\n\t\t\t//wrk_mem_hndl(0);\n\t\t\twrk_mem_hndl(in);\n\t\t\t//plazma++;\n\t\t\t}\n\t\t}\n\telse bat[in]._cnt_wrk=10;\t\n\t}\t\n\nelse if(bat[in]._Ib<(-IKB))\n\t{\n\tif(bat[in]._cnt_wrk)\n\t\t{\n\t\tbat[in]._cnt_wrk--;\n\t\tif((bat[in]._cnt_wrk==0)&&(bat[in]._wrk==0)) \n\t\t\t{\n\t\t\tbat[in]._wrk=1;\n\n\t\t\t\t{\n\t\t\t\tchar temp;\n\t\t\t\tsigned short temp_temp;\n\t\t\t\ttemp_temp=bat[in]._u_old[((bat_u_old_cnt+1)&0x07)];\n\t\t\t \n\t\t\t\ttemp=LPC_RTC->YEAR;\n\t\t\t\tgran_char((signed char)&temp,1,99);\n\t\t\t\t((char)(&(bat[in]._wrk_date[0])))=temp;\n\t\t\t\n\t\t\t\ttemp=LPC_RTC->MONTH;\n\t\t\t\tgran_char((signed char)&temp,1,12);\n\t\t\t\t(((char)(&(bat[in]._wrk_date[0])))+1)=temp;\n\t\t\t\n\t\t\t\ttemp=LPC_RTC->DOM;\n\t\t\t\tgran_char((signed char)&temp,1,31);\n\t\t\t\t(((char)(&(bat[in]._wrk_date[0])))+2)=temp;\t\t\t\n\t\t\t\t\n\t\t\t\t(((char)(&(bat[in]._wrk_date[0])))+3)=((char)&temp_temp);\n\n\t\t\t\ttemp=LPC_RTC->HOUR;\n\t\t\t\tgran_char((signed char)&temp,0,23);\n\t\t\t\t((char)(&(bat[in]._wrk_date[1])))=temp;\n \t\n\t\t\t\ttemp=LPC_RTC->MIN;\n\t\t\t\tgran_char((signed char)&temp,0,59);\n\t\t\t\t(((char)(&(bat[in]._wrk_date[1])))+1)=temp;\n\t \n\t\t\t\ttemp=LPC_RTC->SEC;\n\t\t\t\tgran_char((signed char)&temp,0,59);\n\t\t\t\t(((char)(&(bat[in]._wrk_date[1])))+2)=temp;\n\t\t\t\n\t\t\t\t(((char)(&(bat[in]._wrk_date[1])))+3)=(((char)&temp_temp)+1);\n\t\t\t\tbat[in]._Iintegr=0;\t\t//Счетчик десятков милиамперсекунд\n\t\t\t\tbat[in]._Iintegr_=0;\t//Счетчик сотен милиамперчасов\n\t\t\t\t}\n\t\n\t\t\t}\n\n\t\t}\n\telse bat[in]._cnt_wrk=0;\t \n\t\n\t}\t\t\t\t\t\n\n/\nif(Ibat>=(-IKB))\n\t{\n\tif(cnt_wrk<10)\n\t\t{\n\t\tcnt_wrk++;\n\t\tif((cnt_wrk>=10)&&(wrk!=wrkOFF)) \n\t\t\t{\n\t\t\twrk=wrkOFF;\n\t\t\t//beep_init(0x7L,'O');\n\t\t\twrk_mem_hndl(ibat_integr);\n\t\t\t}\n\t\t}\n\telse cnt_wrk=10;\t\n\t}\t\n\nelse if((Ibat<(-IKB))&&(spc_stat!=spc_KE))\n\t{\n\tif(cnt_wrk)\n\t\t{\n\t\tcnt_wrk--;\n\t\tif((cnt_wrk==0)&&(wrk!=wrkON)) \n\t\t\t{\n\t\t\tchar temp;\n\t\t\tsigned short temp_temp;\n\t\t\ttemp_temp=ubat_old[((ubat_old_cnt+1)&0x07)];\n\t\t\t \n\t\t\twrk=wrkON;\n\t\t\t\n\t\t\ttemp=_year;\n\t\t\tgran_char(&temp,1,99);\n\t\t\t((char)(&(wrk_date[0])))=temp;\n\t\t\t\n\t\t\ttemp=_month;\n\t\t\tgran_char(&temp,1,12);\n\t\t\t(((char)(&(wrk_date[0])))+1)=temp;\n\t\t\t\n\t\t\ttemp=_date;\n\t\t\tgran_char(&temp,1,31);\n\t\t\t(((char)(&(wrk_date[0])))+2)=temp;\t\t\t\n\t\t\t\t\n\t\t\t(((char)(&(wrk_date[0])))+3)=((char)&temp_temp);\n\n\t\t\ttemp=_hour;\n\t\t\tgran_char(&temp,0,23);\n\t\t\t((char)(&(wrk_date[1])))=temp;\n \n\t\t\ttemp=_min;\n\t\t\tgran_char(&temp,0,59);\n\t\t\t(((char)(&(wrk_date[1])))+1)=temp;\n\t \n\t\t\ttemp=_sec;\n\t\t\tgran_char(&temp,0,59);\n\t\t\t(((char)(&(wrk_date[1])))+2)=temp;\n\t\t\t\n\t\t\t(((char)(&(wrk_date[1])))+3)=(((char)&temp_temp)+1);\n\n\t\t\t\n\t\t\t//beep_init(0xFL,'O'); \n\t\t\tibat_integr=0;\n\t\t\tibat_integr_=0;\n\t\t\t}\n\t\t}\n\telse cnt_wrk=0;\t \n\t\n\t}\nif(wrk==wrkON)\n\t{\n\tibat_integr_+=-Ibat;\n\tif(ibat_integr_>=SEC_IN_HOUR10L)\n\t\t{\n\t\tibat_integr_-=SEC_IN_HOUR10L;\n\t\tibat_integr++;\n\t\t}\n\t}\n\n/\n\n\n/if(bat[in]._cnt_to_block)\n\t{\n\tbat[in]._cnt_to_block--;\n\tif(!(bat[in]._cnt_to_block))\n\t\t{\n\t\t//bat[in]._rel_stat=1;\n\t\t}\n\t}\n/\n\n\n\n\n//unsigned int tempUI,tempUI_;\n//unsigned int b_zar; \n//char i;\n//Ibat[0]=5000; \n\n\n \nif(bat[in]._time_cnt==0)\n\t{\n\tbat[in]._zar_cnt+=(signed long)bat[in]._Ib;\n\t\n\tif(bat[in]._zar_cnt>=AH_CONSTANT)\n\t\t{\n\t\tif(BAT_C_REAL[in]==0x5555) tempUS_=BAT_C_NOM[in];\n\t\telse tempUS_=BAT_C_REAL[in];\n\t\t\n\t\tb_zar=lc640_read_int(ADR_EE_BAT_ZAR_CNT[in]);\n\n\t\tif(b_zar<(tempUS_/10/))\n\t\t\t{\n\t\t\tbat[in]._zar_cnt-=AH_CONSTANT;\n\n\t\t\tlc640_write_int(ADR_EE_BAT_ZAR_CNT[in],b_zar+1);\n\t\t\t}\n\t\telse if(b_zar>(tempUS_/*10/)) \n\t\t\t{\n\t\t\tlc640_write_int(ADR_EE_BAT_ZAR_CNT[in],tempUS_);\n\t\t\tbat[in]._zar_cnt=AH_CONSTANT;\n\n\t\t\t}\n\n\t\t}\n\n\telse if(bat[in]._zar_cnt<=-AH_CONSTANT)\n\t\t{\n\t\tif(BAT_C_REAL[in]==0x5555) tempUS_=BAT_C_NOM[in];\n\t\telse tempUS_=BAT_C_REAL[in];\n\t\t\n\t\tb_zar=lc640_read_int(ADR_EE_BAT_ZAR_CNT[in]);\n\n\t\tif(b_zar>tempUS_)\n\t\t\t{\n\t\t\tlc640_write_int(ADR_EE_BAT_ZAR_CNT[in],tempUS_);\n\t\t\tb_zar=tempUS_;\n\t\t\t}\n\t\tif(b_zar)\n\t\t\t{\n\t\t\tbat[in]._zar_cnt+=AH_CONSTANT;\n\n\t\t\tlc640_write_int(ADR_EE_BAT_ZAR_CNT[in],b_zar-1);\n\t\t\t}\n\t\telse \n\t\t\t{\n\t\t\tbat[in]._zar_cnt=-AH_CONSTANT;\n\t\t\t}\n\n\t\t}\n\n\t\t\t\n\ttempUL=(unsigned long)lc640_read_int(ADR_EE_BAT_ZAR_CNT[in]);\n\t\n\tif(BAT_C_REAL[in]==0x5555) tempUL_=(unsigned long)BAT_C_NOM[in];\n\telse tempUL_=(unsigned long)BAT_C_REAL[in];\n\t\t \t\n\ttempUL=1000L;\n\n\n\tif(tempUL_==0) tempUL=0;\n\telse tempUL/=tempUL_;\n\n\ttempUL/=10L;\n\n\tbat[in]._zar=(unsigned short)tempUL;\n\n\tif(BAT_TYPE==1)\n\t\t{\n\t\tbat[in]._zar=lakb[in]._s_o_c;\n\t\t}\n\t\n\tgran((signed short)&bat[in]._zar,0,100);\n }\n\n\n//Подсчет тока разряда батареи \nif(bat[in]._wrk==1)\n\t{\n\tif(bat[in]._Iintegr<36000)\n\t\t{ \n\t\tbat[in]._Iintegr+=abs(bat[in]._Ib);\n\t\tif(bat[in]._Iintegr>=36000)\n\t\t\t{\n\t\t\tbat[in]._Iintegr=0;\t\t//Счетчик десятков милиамперсекунд\n\t\t\tbat[in]._Iintegr_++;\t//Счетчик сотен милиамперчасов\n\t\t\t}\n\t\t}\n\telse \n\t\t{\n\t\tbat[in]._Iintegr=0;\n\t\t}\t\n\t} \n\t \n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\nif((t_ext[0]>TBATSIGN)&&(!ND_EXT[0]))\t\n\t{\n\tbat[in]._sign_temper_cnt++;\n\t}\nelse \n\t{\n\tbat[in]._sign_temper_cnt--;\n\t}\r\n#else\nif((bat[in]._Tb>TBATSIGN)&&(!bat[in]._nd))\t\n\t{\n\tbat[in]._sign_temper_cnt++;\n\t}\nelse \n\t{\n\tbat[in]._sign_temper_cnt--;\n\t}\n#endif\ngran(&bat[in]._sign_temper_cnt,0,600);\nif(bat[in]._sign_temper_cnt>=590)\tbat[in]._temper_stat\|=(1<<0);\nif(bat[in]._sign_temper_cnt<=10)\tbat[in]._temper_stat&=~(1<<0);\n\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\nif((t_ext[0]>TBATMAX)&&(!ND_EXT[0]))\t\n\t{\n\tbat[in]._max_temper_cnt++;\n\t}\nelse \n\t{\n\tbat[in]._max_temper_cnt--;\n\t}\r\n#else\nif((bat[in]._Tb>TBATMAX)&&(!bat[in]._nd))\t\n\t{\n\tbat[in]._max_temper_cnt++;\n\t}\nelse \n\t{\n\tbat[in]._max_temper_cnt--;\n\t}\n#endif\r\n\ngran(&bat[in]._max_temper_cnt,0,600);\nif(bat[in]._max_temper_cnt>=590)\tbat[in]._temper_stat\|=(1<<1);\nif(bat[in]._max_temper_cnt<=10)\tbat[in]._temper_stat&=~(1<<1);\n\n\n\n//Подсчет наработки батареи\nif(bat[in]._resurs_cnt<36000)\n\t{ \n\tbat[in]._resurs_cnt++;\n\tif(bat[in]._resurs_cnt>=36000)\n\t\t{\n\t\tbat[in]._resurs_cnt=0;\n\t\tlc640_write_int(ADR_EE_BAT_RESURS[in],lc640_read_int(ADR_EE_BAT_RESURS[in])+1);\n\t\t}\n\t}\nelse bat[in]._resurs_cnt=0;\n\n\n#ifndef UKU_220_V2\n#ifndef UKU_GLONASS\n#ifndef UKU_6U\n//#ifndef UKU_220\nif(UBM_AV)\n {\n signed short temp_SS;\n#ifdef UKU_220\ntemp_SS=bat[in]._Ub/2;\n#else\n if(U0B<600)\n {\n temp_SS=bat[in]._Ub/4;\n }\n else temp_SS=bat[in]._Ub/5;\n\t\n\ttemp_SS+=temp_SS; \n#endif\n temp_SS-=(bat[in]._Ubm);\n\n temp_SS=abs(temp_SS);\n\n temp_SS=10;\n\n temp_SS/=12;\n\n bat[in]._dUbm=temp_SS;\n\n\n if(\t(bat[in]._dUbm>UBM_AV) &&\n\t\t(abs(bat[in]._Ib)<(5IKB)) &&\n\t\t(bat[in]._Ub>((short)(((long)USIGN115)/100))) &&\n\t\t(!(bat[in]._av & 2)) )\n\t\t{\n\t\tbat[in]._cnt_as++;\n\t\tif(bat[in]._cnt_as==3000)\n\t\t\t{\n\t\t\tavar_bat_as_hndl(in,1);\n\t\t\t}\n\t\tif(bat[in]._cnt_as>=3005) bat[in]._cnt_as=3005;\n\t\t}\n\telse \n\t\t{\n\t\tbat[in]._cnt_as=0;\n\t\t}\n \n }\n#endif \n#endif \n#endif\n\n}\n\n\n\n\n\n\n\n//-----------------------------------------------\nvoid u_necc_hndl(void)\n{\nsigned long temp_L;\nsigned long temp_SL;\n//signed short temp_SS;\n\n//char i;\n\n//temp_SS=0;\nsigned short t[2];\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\nif(!TERMOKOMPENS)\n\t{\n\t//u_necc=U0B;\r\n\tu_necc=UB20;\n\t}\nelse\n\t{\n\tif(ND_EXT[0])t[0]=20;\n\telse t[0]=t_ext[0];\n\n\tmat_temper=t[0];\n\t\t\t\n\tif(mat_temper<0)temp_SL=UB0; \n\telse \n\t\t{\n\t\tif(mat_temper>40)mat_temper=40; \n\t\ttemp_SL=(UB20-UB0)10;\n\t\ttemp_SL=mat_temper;\n\t\ttemp_SL/=200;\n\t\ttemp_SL+=UB0;\n\t\t}\n\tif(spc_stat==spcVZ)\n\t\t{\n\t\ttemp_SL=UVZ;\n\t\t}\n\tu_necc=(unsigned int)temp_SL;\n\t///u_necc=3456;\n\t} \n\n//u_necc=2355;\r\n\r\nif(speedChIsOn)\r\n\t{\r\n\tu_necc=speedChrgVolt;\r\n\t}\n\nif(mess_find_unvol(MESS2UNECC_HNDL))\n\t{\t\t\n\tif(mess_data[0]==PARAM_UNECC_SET)\n\t\t{\n\t\tu_necc=mess_data[1];\n\t\t}\t\t\n\t}\r\nif(ICA_EN)u_necc+=ica_u_necc;\n#endif\n\n\n#ifndef UKU_220_IPS_TERMOKOMPENSAT\r\n\r\n#ifndef UKU_TELECORE2015\r\n#ifndef UKU_TELECORE2017\nif(unh_cnt0<10)\n\t{\n\tunh_cnt0++;\n\tif(unh_cnt0>=10)\n\t\t{\n\t\tunh_cnt0=0;\n\t\tb1Hz_unh=1;\n\t\t}\n\t}\n\nif(unh_cnt1<5)\n\t{\n\tunh_cnt1++;\n\tif(unh_cnt1==5)\n\t\t{\n\t\tunh_cnt1=0;\n//\t\tb2Hz_unh=1;\n\t\t}\n\t} \n\n\n\nif(mess_find_unvol(MESS2UNECC_HNDL))\n\t{\t\t\n\tif(mess_data[0]==PARAM_UNECC_SET)\n\t\t{\n\t\tu_necc=mess_data[1];\n\t\t}\t\t\n\t}\n\n\nelse if(b1Hz_unh)\n\t{\n\t\n\tif((BAT_IS_ON[0]!=bisON) && (BAT_IS_ON[1]!=bisON))\n\t\t{\n\t\t\n\t\tu_necc=U0B;\n\t\t}\n\telse \n\t\t{\n\t\tif(BAT_TYPE==0) //если батарея обычная\n\t\t\t{\n\t\t\tfor(i=0;i<2;i++)\n\t\t\t\t{\n\t\t\t\tif(BAT_IS_ON[i]==bisON)\n\t\t\t\t\t{\n\t\t\t\t\tif(bat[i]._nd)t[i]=20;\n\t\t\t\t\telse t[i]=bat[i]._Tb;\n\t\t\t\t\t}\n\t\t\t\telse\n\t\t\t\t\t{\n\t\t\t\t\tt[i]=-20;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\tif(t[0]>t[1])mat_temper=t[0];\n\t\t\telse mat_temper=t[1];\n\t\t\t\n\t\t\n\t\t\tif(mat_temper<0)temp_SL=UB0; \n\t\t\telse \n\t\t\t\t{\n\t\t\t\tif(mat_temper>40)mat_temper=40; \n\t\t\t\ttemp_SL=(UB20-UB0)10;\n\t\t\t\ttemp_SL=mat_temper;\n\t\t\t\ttemp_SL/=200;\n\t\t\t\ttemp_SL+=UB0;\n\t\t\t\t}\n\t\t\tif(spc_stat==spcVZ)\n\t\t\t\t{\n\t\t\t\ttemp_SL=UVZ;\n\t\t\t\t}\n\t\t\tu_necc=(unsigned int)temp_SL;\n\t\t\t}\n\t\telse if(BAT_TYPE==1) //если батарея китайская\n\t\t\t{\n\t\t\tu_necc=U0B;\n\t\t\t\t\t\n\t\t\tu_necc=bat[0]._Ub+10;\n\n\t\t\t\n\t\t\tif(spc_stat==spcVZ)\n\t\t\t\t{\n\t\t\t\tu_necc=UVZ;\n\t\t\t\t}\n\t\t\tif(u_necc>=UB0) u_necc=UB0;\n\t\t\tif(u_necc>=UB20) u_necc=UB20;\n\t\t\t}\n\t\t} \n\t}\r\n#endif\r\n#endif\r\n\r\n#ifdef UKU_TELECORE2015\r\n\r\nif(unh_cnt0<10)\n\t{\n\tunh_cnt0++;\n\tif(unh_cnt0>=10)\n\t\t{\n\t\tunh_cnt0=0;\n\t\tb1Hz_unh=1;\n\t\t}\n\t}\n\nif(unh_cnt1<5)\n\t{\n\tunh_cnt1++;\n\tif(unh_cnt1==5)\n\t\t{\n\t\tunh_cnt1=0;\n//\t\tb2Hz_unh=1;\n\t\t}\n\t} \n\n\n\nif(mess_find_unvol(MESS2UNECC_HNDL))\n\t{\t\t\n\tif(mess_data[0]==PARAM_UNECC_SET)\n\t\t{\n\t\tu_necc=mess_data[1];\n\t\t}\t\t\n\t}\n\n\nelse if(b1Hz_unh)\n\t{\n\tb1Hz_unh=0;\r\n\r\n\tif(BAT_TYPE==0)\r\n\t\t{\r\n\t\tif(bat[0]._nd)mat_temper=20;\n\t\telse mat_temper=bat[0]._Tb;\n\n\t\t\t\n\t\tif(mat_temper<0)temp_SL=UB0; \n\t\telse \n\t\t\t{\n\t\t\tif(mat_temper>40)mat_temper=40; \n\t\t\ttemp_SL=(UB20-UB0)10;\n\t\t\ttemp_SL=mat_temper;\n\t\t\ttemp_SL/=200;\n\t\t\ttemp_SL+=UB0;\n\t\t\t}\n\t\tif(spc_stat==spcVZ)\n\t\t\t{\n\t\t\ttemp_SL=UVZ;\n\t\t\t}\n\t\tu_necc=(unsigned int)temp_SL;\n\t///u_necc=3456;\r\n\t\t}\r\n\telse if(BAT_TYPE==1)\r\n\t\t{\r\n\t\t\r\n\t\tgran(&DU_LI_BAT,1,30);\r\n\t\tu_necc=li_bat._Ub+DU_LI_BAT;\r\n\t\tgran(&u_necc,0,UB0);\r\n\t\tgran(&u_necc,0,UB20);\r\n\t\tgran(&u_necc,0,540);\t\t\r\n\r\n\r\n\t\tif(li_bat._batStat!=bsOK)\r\n\t\t\t{\r\n\t\t\tu_necc=U0B;\r\n\t\t\t}\r\n\t\tif(spc_stat==spcVZ)\n\t\t\t{\n\t\t\tu_necc=UVZ;\n\t\t\t}\r\n\t\t/ \r\n\t\tu_necc=U0B;\n\t\t\r\n\n\t\r\n\t\tu_necc=UB0;\r\n\t\tu_necc=li_bat._Ub+10;\r\n\t\tif((li_bat._Ub<450)\|\|(li_bat._Ub>550))\r\n\t\t\t{\r\n\t\t\tlakb_error_cnt++;\r\n\t\t\tif(lakb_error_cnt>=30)\r\n\t\t\t\t{\r\n\t\t\t\tlakb_error_cnt=30;\r\n\t\t\t\tu_necc=U0B;\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse lakb_error_cnt=0;/\r\n\t\t}\r\n\telse if(BAT_TYPE==2)\r\n\t\t{\r\n\t\tu_necc=U0B;\n\t\t\r\n\t\tif(spc_stat==spcVZ)\n\t\t\t{\n\t\t\tu_necc=UVZ;\n\t\t\t}\n\t\r\n\t\tu_necc=UB0;\r\n\t\t}\r\n\n\telse if(BAT_TYPE==3)\r\n\t\t{\r\n\t\tu_necc=U0B;\n\t\t\r\n\t\tif(spc_stat==spcVZ)\n\t\t\t{\n\t\t\tu_necc=UVZ;\n\t\t\t}\r\n\n\t\tgran(&DU_LI_BAT,1,30);\r\n\r\n\r\n\t\tif(lakbNotErrorNum==0)\r\n\t\t\t{\r\n\t\t\tu_necc=U0B;\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tsigned short i;\r\n\t\t\t//signed short u_necc_max;\r\n\t\t\t//u_necc_max=0;\r\n\t\t\tchar soc_flag=0;\r\n\r\n\t\t\tfor(i=(NUMBAT_TELECORE-1);i>=0;i--)\r\n\t\t\t\t{\r\n\t\t\t\tif(lakb[i]._communicationFullErrorStat==0)u_necc=lakb[i]._tot_bat_volt+DU_LI_BAT;\r\n\t\t\t\tif(lakb[i]._s_o_c_percent<QSODERG_LI_BAT)soc_flag=1;\r\n\t\t\t\t}\r\n\r\n\t\t\tif(soc_flag==0)u_necc=USODERG_LI_BAT;\r\n\t\t\t}\r\n\t\tgran(&u_necc,0,UB0);\r\n\t\t//gran(&u_necc,0,UB20);\r\n\t\tgran(&u_necc,0,540);\n\t\t}\n\t}\r\n\r\n#endif \r\n\n#ifdef UKU_TELECORE2017\r\n\r\nif(unh_cnt0<10)\n\t{\n\tunh_cnt0++;\n\tif(unh_cnt0>=10)\n\t\t{\n\t\tunh_cnt0=0;\n\t\tb1Hz_unh=1;\n\t\t}\n\t}\n\nif(unh_cnt1<5)\n\t{\n\tunh_cnt1++;\n\tif(unh_cnt1==5)\n\t\t{\n\t\tunh_cnt1=0;\n//\t\tb2Hz_unh=1;\n\t\t}\n\t} \n\n\n\nif(mess_find_unvol(MESS2UNECC_HNDL))\n\t{\t\t\n\tif(mess_data[0]==PARAM_UNECC_SET)\n\t\t{\n\t\tu_necc=mess_data[1];\n\t\t}\t\t\n\t}\n\n\nelse if(b1Hz_unh)\n\t{\n\tb1Hz_unh=0;\r\n\r\n\tif(BAT_TYPE==0)\r\n\t\t{\r\n\t\tif(bat[0]._nd)mat_temper=20;\n\t\telse mat_temper=bat[0]._Tb;\n\n\t\t\t\n\t\tif(mat_temper<0)temp_SL=UB0; \n\t\telse \n\t\t\t{\n\t\t\tif(mat_temper>40)mat_temper=40; \n\t\t\ttemp_SL=(UB20-UB0)10;\n\t\t\ttemp_SL=mat_temper;\n\t\t\ttemp_SL/=200;\n\t\t\ttemp_SL+=UB0;\n\t\t\t}\n\t\tif(spc_stat==spcVZ)\n\t\t\t{\n\t\t\ttemp_SL=UVZ;\n\t\t\t}\n\t\tu_necc=(unsigned int)temp_SL;\n\t///u_necc=3456;\r\n\t\t}\r\n\telse if(BAT_TYPE==1)\r\n\t\t{\r\n\t\t\r\n\t\tgran(&DU_LI_BAT,1,30);\r\n\t\tu_necc=li_bat._Ub+DU_LI_BAT;\r\n\t\tgran(&u_necc,0,UB0);\r\n\t\tgran(&u_necc,0,UB20);\r\n\t\tgran(&u_necc,0,540);\t\t\r\n\r\n\r\n\t\tif(li_bat._batStat!=bsOK)\r\n\t\t\t{\r\n\t\t\tu_necc=U0B;\r\n\t\t\t}\r\n\t\tif(spc_stat==spcVZ)\n\t\t\t{\n\t\t\tu_necc=UVZ;\n\t\t\t}\r\n\t\t}\r\n\telse if(BAT_TYPE==2)\r\n\t\t{\r\n\t\tu_necc=U0B;\n\t\t\r\n\t\tif(spc_stat==spcVZ)\n\t\t\t{\n\t\t\tu_necc=UVZ;\n\t\t\t}\n\t\r\n\t\tu_necc=UB0;\r\n\t\t}\r\n\n\telse if(BAT_TYPE==3)\r\n\t\t{\r\n\t\tu_necc=U0B;\n\t\t\r\n\t\tif(spc_stat==spcVZ)\n\t\t\t{\n\t\t\tu_necc=UVZ;\n\t\t\t}\r\n\n\t\tgran(&DU_LI_BAT,1,30);\r\n\r\n\r\n\t\tif(lakbNotErrorNum==0)\r\n\t\t\t{\r\n\t\t\tu_necc=U0B;\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tsigned short i;\r\n\t\t\t//signed short u_necc_max;\r\n\t\t\t//u_necc_max=0;\r\n\t\t\tchar soc_flag=0;\r\n\r\n\t\t\tfor(i=(NUMBAT_TELECORE-1);i>=0;i--)\r\n\t\t\t\t{\r\n\t\t\t\tif(lakb[i]._communicationFullErrorStat==0)u_necc=lakb[i]._tot_bat_volt+DU_LI_BAT;\r\n\t\t\t\tif(lakb[i]._s_o_c_percent<QSODERG_LI_BAT)soc_flag=1;\r\n\t\t\t\t}\r\n\r\n\t\t\tif(soc_flag==0)u_necc=USODERG_LI_BAT;\r\n\t\t\t}\r\n\t\tgran(&u_necc,0,UB0);\r\n\t\t//gran(&u_necc,0,UB20);\r\n\t\tgran(&u_necc,0,540);\n\t\t}\n\t}\r\n\r\n#endif \n//u_necc=2356;\n#endif//gran(&u_necc,400,UMAX);\n\ntemp_L=(signed long) u_necc;\ntemp_L=98L;\ntemp_L/=100L;\nu_necc_dn=(signed short)temp_L;\n\ntemp_L=(signed long) u_necc;\ntemp_L=102L;\ntemp_L/=100L;\nu_necc_up=(signed short)temp_L;\n\n\n}\n\n\n//-----------------------------------------------\nvoid num_necc_hndl(void)\n{\n\nstatic short num_necc_block_cnt;\nif(num_necc_block_cnt) num_necc_block_cnt--;\n\nIsumm_=Isumm;\n\nif(bat[0]._Ib<0) Isumm_+=(abs(bat[0]._Ib))/10;\nif(bat[1]._Ib<0) Isumm_+=(abs(bat[1]._Ib))/10;\n\nnum_necc_up=(Isumm_/((signed short)IMAX))+1;\n////Isumm_+=(signed short)((IMAX(10-KIMAX))/10);\n////Isumm_+=(signed short)(IMAX-IMIN);\n\nnum_necc_down=(Isumm_/((signed short)IMIN))+1;\n\nif(num_necc_up>num_necc)\n\t{\n\tnum_necc=num_necc_up;\n\tnum_necc_block_cnt=60;\n\t}\nelse if(num_necc_down<num_necc)\n\t{\n\tif(!num_necc_block_cnt)\n\t\t{\n\t\tnum_necc=num_necc_down;\n\t\tnum_necc_block_cnt=60;\n\t\t}\n\t}\n\nif(PAR) num_necc=NUMIST;\r\n\r\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\nif(bPARALLEL) num_necc=NUMIST;\r\n#endif\n\ngran(&num_necc,1,NUMIST);\n\n}\n\n\n#ifndef TELECORE\n//-----------------------------------------------\nvoid cntrl_hndl(void)\n{\n\nIZMAX_=IZMAX;\r\n\r\n//cntrl_hndl_plazma=10;\r\n\nif(speedChIsOn)IZMAX_=speedChrgCurr;\r\n\nif(cntrl_stat_blok_cnt)cntrl_stat_blok_cnt--;\nif(cntrl_stat_blok_cnt_)cntrl_stat_blok_cnt_--;\n\nif((bat[0]._temper_stat&0x03)\|\|(bat[1]._temper_stat&0x03))IZMAX_=IZMAX/10;\r\n\n\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\nif((REG_SPEED<1)\|\|(REG_SPEED>5)) REG_SPEED=1;\nif(ch_cnt0<(10REG_SPEED))\n\t{\n\tch_cnt0++;\n\tif(ch_cnt0>=10REG_SPEED)\n\t\t{\n\t\tch_cnt0=0;\n\t\tb1Hz_ch=1;\n\t\t}\n\t}\n#endif\n#ifndef UKU_220_IPS_TERMOKOMPENSAT\nif(ch_cnt0<10)\n\t{\n\tch_cnt0++;\n\tif(ch_cnt0>=10)\n\t\t{\n\t\tch_cnt0=0;\n\t\tb1Hz_ch=1;\n\t\t}\n\t}\n#endif\n\n\nif(mess_find_unvol(MESS2CNTRL_HNDL))\n\t{\n\tif(mess_data[0]==PARAM_CNTRL_STAT_PLUS)\n\t\t{\n\t\tcntrl_stat=cntrl_stat_old+mess_data[1];\n\t\t}\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_MINUS)\n\t\t{\n\t\tcntrl_stat=cntrl_stat_old-mess_data[1];\n\t\t}\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_STEP_DOWN)\n\t\t{\r\n\t\tstatic char cntrlStatIsDownCnt;\n\t\tcntrl_stat--;\n\n\t\tif((cntrl_stat<=30)\|\|(load_U<USIGN))\r\n\t\t\t{\r\n\t\t\tif(++cntrlStatIsDownCnt==250)mess_send(MESS2KB_HNDL,PARAM_CNTRL_IS_DOWN,0,10);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tcntrlStatIsDownCnt=0;\r\n\t\t\t}\n\n\t\t}\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_SET)\n\t\t{\n\t\tcntrl_stat=mess_data[1];\n\t\t}\n\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_FAST_REG)\n\t\t{\r\n\t\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\t\tif(load_U>u_necc)\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=11;\n\t\t\tif(((bps_U-u_necc)>40)&&(cntrl_stat>0))cntrl_stat-=5;\n\t\t\telse if((cntrl_stat)&&b1Hz_ch)cntrl_stat--;\n\t\t\t}\n\t\telse if(bps_U<u_necc)\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=12;\t\n\t\t\tif(((u_necc-bps_U)>40)&&(cntrl_stat<1015))cntrl_stat+=5;\n\t\t\telse\tif((cntrl_stat<1020)&&b1Hz_ch)cntrl_stat++;\n\t\t\t}\n\t\t#elif defined(UKU_220)\n\t\tif(load_U>u_necc)\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=13;\n\t\t\tif(((load_U-u_necc)>40)&&(cntrl_stat>0))cntrl_stat-=5;\n\t\t\telse if((cntrl_stat)&&b1Hz_ch)cntrl_stat--;\n\t\t\t}\n\t\telse if(load_U<u_necc)\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=14;\t\n\t\t\tif(((u_necc-load_U)>40)&&(cntrl_stat<1015))cntrl_stat+=5;\n\t\t\telse\tif((cntrl_stat<1020)&&b1Hz_ch)cntrl_stat++;\n\t\t\t}\n\t\t#elif defined(UKU_220_V2)\n\t\tif(load_U>u_necc)\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=15;\n\t\t\tif(((load_U-u_necc)>40)&&(cntrl_stat>0))cntrl_stat-=5;\n\t\t\telse if((cntrl_stat)&&b1Hz_ch)cntrl_stat--;\n\t\t\t}\n\t\telse if(load_U<u_necc)\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=16;\t\n\t\t\tif(((u_necc-load_U)>40)&&(cntrl_stat<1015))cntrl_stat+=5;\n\t\t\telse\tif((cntrl_stat<1020)&&b1Hz_ch)cntrl_stat++;\n\t\t\t}\n\t\t#else\n\n\t\tif(load_U>u_necc)\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=17;\n\t\t\tif(((load_U-u_necc)>10)&&(cntrl_stat>0))cntrl_stat-=5;\n\t\t\telse if((cntrl_stat)&&b1Hz_ch)cntrl_stat--;\n\t\t\t}\n\t\telse if(load_U<u_necc)\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=18;\t\n\t\t\tif(((u_necc-load_U)>10)&&(cntrl_stat<1015))cntrl_stat+=5;\n\t\t\telse\tif((cntrl_stat<1020)&&b1Hz_ch)cntrl_stat++;\n\t\t\t}\n\t\t#endif\t\n\t \t}\n\t}\r\n\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\nelse if((b1Hz_ch)&&((!bIBAT_SMKLBR)\|\|(bps[8]._cnt>40)))\n\t{\n\tcntrl_stat_new=cntrl_stat_old;\n\tcntrl_hndl_plazma=19;\n\tif((Ibmax/10)>(2IZMAX_))\n\t\t{\r\n\t\tcntrl_hndl_plazma=20;\n if(cntrl_stat_blok_cnt)cntrl_stat_new--;\n\t\telse\tcntrl_stat_new-=10;\n\t\t}\t\t\n\telse if(((Ibmax/10)<(IZMAX_2))&&(Ibmax>(IZMAX_15)))\n\t\t{\r\n\t\tcntrl_hndl_plazma=21;\n if(cntrl_stat_blok_cnt)cntrl_stat_new--;\n else\tcntrl_stat_new-=3;\n\t\t} \n\telse if((Ibmax<(IZMAX_15))&&((Ibmax/10)>IZMAX_))\n\t\t{\r\n\t\tcntrl_hndl_plazma=22;\n\t\tcntrl_stat_new--;\n\t\t}\n\t\t\n\telse if(bps_U<u_necc)\n\t\t{\r\n\t\tcntrl_hndl_plazma=23;\n\t\tif(bps_U<(u_necc-(UB0-UB20)))\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=24;\n\t\t\tif(Ibmax<0)\n\t\t\t\t{\r\n\t\t\t\tcntrl_hndl_plazma=25;\n if(cntrl_stat_blok_cnt)cntrl_stat_new++;\n\t\t\t\telse cntrl_stat_new+=10;\n\t\t\t\t}\n\t\t\telse if(Ibmax<(IZMAX_5))\n\t\t\t\t{\r\n\t\t\t\tcntrl_hndl_plazma=26;\n if(cntrl_stat_blok_cnt)cntrl_stat_new++;\n\t\t\t\telse\tcntrl_stat_new+=2;\n\t\t\t\t}\n\t\t\telse if(Ibmax<((IZMAX_10)/-10/))//(Ibmax<((IZMAX_95)/10))\n\t\t\t\t{\r\n\t\t\t\tcntrl_hndl_plazma=27;\n\t\t\t\tcntrl_stat_new++;\n\t\t\t\t}\t\t\t\t\t\n\t\t\t}\n\t\telse if(bps_U<(u_necc-((UB0-UB20)/4)))\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=28;\n\t\t\tif(Ibmax<(IZMAX_5))\n\t\t\t\t{\r\n\t\t\t\tcntrl_hndl_plazma=29;\n if(cntrl_stat_blok_cnt)cntrl_stat_new++;\n\t\t\t\telse\tcntrl_stat_new+=2;\n\t\t\t\t}\n\t\t\telse if(Ibmax<((IZMAX_10)/-10/))//(Ibmax<((IZMAX_95)/10))\n\t\t\t\t{\r\n\t\t\t\tcntrl_hndl_plazma=30;\n\t\t\t\tcntrl_stat_new++;\n\t\t\t\t}\t\t\t\t\t\n\t\t\t}\t\n\t\telse if(bps_U<(u_necc-1))\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=31;\n\t\t\tif(Ibmax<((IZMAX_10)/-10/))//(Ibmax<((IZMAX_95)/10))\n\t\t\t\t{\r\n\t\t\t\tcntrl_hndl_plazma=32;\n\t\t\t\tcntrl_stat_new++;\n\t\t\t\t}\t\t\t\t\t\n\t\t\t}\t\t\t\t\t\n\t\t}\t\n\telse if((bps_U>u_necc)/&&(!cntrl_blok)/)\r\n\t\t{ \t\r\n\t\tcntrl_hndl_plazma=33;\n\t\tif(bps_U>(u_necc+(UB0-UB20)))\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=34;\n if(cntrl_stat_blok_cnt)cntrl_stat_new--;\n\t\t\telse\tcntrl_stat_new-=10;\n\t\t\t}\n\t\telse if(bps_U>(u_necc+((UB0-UB20)/4)))\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=35;\n if(cntrl_stat_blok_cnt)cntrl_stat_new--;\n\t\t\telse cntrl_stat_new-=2;\n\t\t\t}\t\n\t\telse if(bps_U>(u_necc+1))\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=36;\n\t\t\tcntrl_stat_new--;\n\t\t\t}\t\t\t\t\t\n\t\t}\n\n\tgran(&cntrl_stat_new,10,1010);\t\t\t\n\tcntrl_stat_old=cntrl_stat_new;\n\tcntrl_stat=cntrl_stat_new;\t\n\t}\n#else\r\nelse if((b1Hz_ch)&&((!bIBAT_SMKLBR)\|\|(bps[8]._cnt>40)))\n\t{\r\n\tcntrl_hndl_plazma=37;\n\tcntrl_stat_new=cntrl_stat_old;\n\t\n\tif((Ibmax/10)>(2IZMAX_))\n\t\t{\r\n\t\tcntrl_hndl_plazma=38;\n if(cntrl_stat_blok_cnt)cntrl_stat_new--;\n\t\telse\tcntrl_stat_new-=10;\n\t\t}\t\t\n\telse if(((Ibmax/10)<(IZMAX_2))&&(Ibmax>(IZMAX_15)))\n\t\t{\r\n\t\tcntrl_hndl_plazma=39;\n if(cntrl_stat_blok_cnt)cntrl_stat_new--;\n else\tcntrl_stat_new-=3;\n\t\t} \n\telse if((Ibmax<(IZMAX_15))&&((Ibmax/10)>IZMAX_))\n\t\t{\r\n\t\tcntrl_hndl_plazma=40;\n\t\tcntrl_stat_new--;\n\t\t}\n\t\t\n\telse if(load_U<u_necc)\n\t\t{\r\n\t\tcntrl_hndl_plazma=41;\n\t\tif(load_U<(u_necc-(UB0-UB20)))\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=42;\n\t\t\tif(Ibmax<0)\n\t\t\t\t{\r\n\t\t\t\tcntrl_hndl_plazma=43;\n if(cntrl_stat_blok_cnt)cntrl_stat_new++;\n\t\t\t\telse cntrl_stat_new+=10;\n\t\t\t\t}\n\t\t\telse if(Ibmax<(IZMAX_5))\n\t\t\t\t{\r\n\t\t\t\tcntrl_hndl_plazma=44;\n if(cntrl_stat_blok_cnt)cntrl_stat_new++;\n\t\t\t\telse\tcntrl_stat_new+=2;\n\t\t\t\t}\n\t\t\telse if(Ibmax<((IZMAX_95)/10))\n\t\t\t\t{\r\n\t\t\t\tcntrl_hndl_plazma=45;\n\t\t\t\tcntrl_stat_new++;\n\t\t\t\t}\t\t\t\t\t\n\t\t\t}\n\t\telse if(load_U<(u_necc-((UB0-UB20)/4)))\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=46;\n\t\t\tif(Ibmax<(IZMAX_5))\n\t\t\t\t{\r\n\t\t\t\tcntrl_hndl_plazma=47;\n if(cntrl_stat_blok_cnt)cntrl_stat_new++;\n\t\t\t\telse\tcntrl_stat_new+=2;\n\t\t\t\t}\n\t\t\telse if(Ibmax<((IZMAX_95)/10))\n\t\t\t\t{\r\n\t\t\t\tcntrl_hndl_plazma=48;\n\t\t\t\tcntrl_stat_new++;\n\t\t\t\t}\t\t\t\t\t\n\t\t\t}\t\n\t\telse if(load_U<(u_necc-1))\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=49;\n\t\t\tif(Ibmax<((IZMAX_95)/10))\n\t\t\t\t{\r\n\t\t\t\tcntrl_hndl_plazma=50;\n\t\t\t\tcntrl_stat_new++;\n\t\t\t\t}\t\t\t\t\t\n\t\t\t}\t\t\t\t\t\n\t\t}\t\n\telse if((load_U>u_necc)/&&(!cntrl_blok)/)\n\t\t{\r\n\t\tcntrl_hndl_plazma=51;\n\t\tif(load_U>(u_necc+(UB0-UB20)))\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=52;\n if(cntrl_stat_blok_cnt)cntrl_stat_new--;\n\t\t\telse\tcntrl_stat_new-=10;\n\t\t\t}\n\t\telse if(load_U>(u_necc+((UB0-UB20)/4)))\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=53;\n if(cntrl_stat_blok_cnt)cntrl_stat_new--;\n\t\t\telse cntrl_stat_new-=2;\n\t\t\t}\t\n\t\telse if(load_U>(u_necc+1))\n\t\t\t{\r\n\t\t\tcntrl_hndl_plazma=54;\n\t\t\tcntrl_stat_new--;\n\t\t\t}\t\t\t\t\t\n\t\t}\n\n\tgran(&cntrl_stat_new,10,1010);\t\t\t\n\tcntrl_stat_old=cntrl_stat_new;\n\tcntrl_stat=cntrl_stat_new;\t\n\t}\r\n#endif\n\niiii=0;\nfor(i=0;i<NUMIST;i++)\n {\n if(bps[i]._cnt<30)iiii=1;\n }\n\nif(iiii==0)\n {\n cntrl_stat=600;\t\n cntrl_stat_old=600;\n cntrl_stat_new=600;\r\n\t#ifdef UKU_TELECORE2015\r\n\t//cntrl_stat=0;\r\n\t//cntrl_stat_old=0;\r\n\t//cntrl_stat_new=0;\r\n\t#endif\n }\ngran(&cntrl_stat,10,1010); \nb1Hz_ch=0;\n}\n#endif\r\n\r\n#ifdef TELECORE\r\n//-----------------------------------------------\nvoid cntrl_hndl_telecore(void)\n{\n\nIZMAX_=IZMAX;\r\n\nif(speedChIsOn)IZMAX_=speedChrgCurr;\r\n\nif(cntrl_stat_blok_cnt)cntrl_stat_blok_cnt--;\nif(cntrl_stat_blok_cnt_)cntrl_stat_blok_cnt_--;\n\n//if((bat[0]._temper_stat&0x03)\|\|(bat[1]._temper_stat&0x03))IZMAX_=IZMAX/10;\n\n\nif(ch_cnt0<(5CNTRL_HNDL_TIME))\n\t{\n\tch_cnt0++;\n\tif(ch_cnt0>=(5CNTRL_HNDL_TIME))\n\t\t{\n\t\tch_cnt0=0;\n\t\tb1Hz_ch=1;\r\n\r\n\t\tif(ch_cnt1<5)\n\t\t\t{\n\t\t\tch_cnt1++;\n\t\t\tif(ch_cnt1>=5)\n\t\t\t\t{\n\t\t\t\tch_cnt1=0;\n\t\t\t\tb1_30Hz_ch=1;\n\t\t\t\t}\n\t\t\t}\r\n\r\n\n\t\t}\n\t}\r\nelse ch_cnt0=0;\n\n\n\n\nif(mess_find_unvol(MESS2CNTRL_HNDL))\n\t{\n\tif(mess_data[0]==PARAM_CNTRL_STAT_PLUS)\n\t\t{\n\t\tcntrl_stat=cntrl_stat_old+mess_data[1];\n\t\t}\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_MINUS)\n\t\t{\n\t\tcntrl_stat=cntrl_stat_old-mess_data[1];\n\t\t}\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_STEP_DOWN)\n\t\t{\n\t\tcntrl_stat--;\n\n\t\tif((cntrl_stat<=30)\|\|(load_U<USIGN)) mess_send(MESS2KB_HNDL,PARAM_CNTRL_IS_DOWN,0,10);\n\n\t\t}\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_SET)\n\t\t{\n\t\tcntrl_stat=mess_data[1];\n\t\t}\n\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_FAST_REG)\n\t\t{\r\n\t\tif(load_U>u_necc)\n\t\t\t{\n\t\t\tif(((load_U-u_necc)>10)&&(cntrl_stat>0))cntrl_stat-=5;\n\t\t\telse if((cntrl_stat)&&b1Hz_ch)cntrl_stat--;\n\t\t\t}\n\t\telse if(load_U<u_necc)\n\t\t\t{\t\n\t\t\tif(((u_necc-load_U)>10)&&(cntrl_stat<1015))cntrl_stat+=5;\n\t\t\telse\tif((cntrl_stat<1020)&&b1Hz_ch)cntrl_stat++;\n\t\t\t}\n\t\t}\n\n\t}\n\nelse if((b1Hz_ch)&&(!bIBAT_SMKLBR))\n\t{\n\tcntrl_stat_new=cntrl_stat_old;\r\n\r\n\tplazma_cntrl_stat=0;\r\n\r\n\tif((NUMBAT_TELECORE==0)\|\|(lakbNotErrorNum==0))\r\n\t\t{\r\n\t\tcntrl_stat_blck_cnt=TZAS+2;\r\n\t\tplazma_cntrl_stat=1;\r\n\t\tif(load_U<u_necc)\r\n\t\t\t{\r\n\t\t\tif((u_necc-load_U)>10)\tcntrl_stat_new+=10;\r\n\t\t\telse \t\t\t\t\tcntrl_stat_new++;\r\n\t\t\tplazma_cntrl_stat=2;\r\n\t\t\t}\r\n\t\telse if(load_U>u_necc)\r\n\t\t\t{\r\n\t\t\tif((load_U>u_necc)>10)\tcntrl_stat_new-=10;\r\n\t\t\telse \t\t\t\t\tcntrl_stat_new--;\r\n\t\t\tplazma_cntrl_stat=3;\r\n\t\t\t}\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tplazma_cntrl_stat=4;\n\t\tif(Ibmax==IZMAX_)\n\t\t\t{\r\n\t\t\tcntrl_stat_blck_cnt=TZAS+2;\n\t\t\tplazma_cntrl_stat=5;\t\t\t\t\t\t\n\t\t\t}\t\n\t\telse if(Ibmax>(IZMAX_2))\n\t\t\t{\r\n\t\t\tcntrl_stat_blck_cnt=TZAS+2;\n\t if(cntrl_stat_blok_cnt)\tcntrl_stat_new--;\n\t\t\telse\t\t\t\t\tcntrl_stat_new-=5;\r\n\t\t\tplazma_cntrl_stat=6;\r\n\t\t\tcntrl_stat_new=0;\n\t\t\t}\r\n\t\telse if(Ibmax>((IZMAX_12)/10))\r\n\t\t\t{\r\n\t\t\tcntrl_stat_blck_cnt=TZAS+2;\r\n\t\t\t\r\n\t\t\tcntrl_stat_new--;\r\n\t\t\tplazma_cntrl_stat=8;\r\n\t\t\t\r\n\t\t\t}\r\n\t\telse if((Ibmax<((IZMAX_12)/10))&&(Ibmax>IZMAX_))\r\n\t\t\t{\r\n\t\t\tcntrl_stat_blck_cnt=TZAS+2;\r\n\r\n\t\t\tif(b1_30Hz_ch)\r\n\t\t\t\t{\r\n\t\t\t\tb1_30Hz_ch=0; \r\n\t\t\t\tcntrl_stat_new--;\r\n\t\t\t\tplazma_cntrl_stat=88;\r\n\t\t\t\t}\t\r\n\t\t\t}\r\n/\t\telse if((Ibmax>((IZMAX_4)/5))&&(Ibmax<IZMAX_))\r\n\t\t\t{\t\t\t\t\r\n\t\t\tif(load_U<u_necc)\n\t\t\t\t{\n\t\t\t\tif(b1_30Hz_ch)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tb1_30Hz_ch=0;\r\n\t\t\t\t\t\t\t\t\tcntrl_stat_new++;\r\n\t\t\t\t\t}\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\tif(b1_30Hz_ch)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tb1_30Hz_ch=0;\r\n\t\t\t\t\t\t\t\t\tcntrl_stat_new--;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\n\t\t\t}/ \t\t\r\n\t\t\r\n\t\telse if(Ubpsmax<u_necc)\r\n\t\t\t{\r\n\t\t\tplazma_cntrl_stat=44;\r\n\t\t\tif(Ibmax<=0)\r\n\t\t\t\t{\r\n\t\t\t\tif(cntrl_stat_blck_cnt)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tcntrl_stat_blck_cnt--;\r\n\t\t\t\t\tplazma_cntrl_stat=99;\r\n\t\t\t\t\t}\r\n\t\t\t\telse \r\n\t\t\t\t\t{\r\n\t\t\t\t\tcntrl_stat_new+=15;\r\n\t\t\t\t\tplazma_cntrl_stat=9;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\telse if((Ibmax<((IZMAX_4)/5)))\r\n\t\t\t\t{\r\n\t\t\t\tcntrl_stat_blck_cnt=TZAS+2;\r\n\t\t\t\tplazma_cntrl_stat=10;\r\n\t\t\t\t\r\n\t\t\t\tif(Ubpsmax<(u_necc-DU_LI_BAT))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tcntrl_stat_new+=5;\r\n\t\t\t\t\tplazma_cntrl_stat=11;\r\n\t\t\t\t\t}\t\t\t\t\r\n\t\t\t\telse if(load_U<u_necc)\n\t\t\t\t\t{\r\n\t\t\t\t\tplazma_cntrl_stat=12;\n\t\t\t\t\tcntrl_stat_new+=2;\r\n\t\t\t\t\tplazma_cntrl_stat=13;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\tcntrl_stat_blck_cnt=TZAS+2;\r\n\t\t\t\tif(b1_30Hz_ch)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tb1_30Hz_ch=0;\r\n\t\t\t\t\tcntrl_stat_new++;\r\n\t\t\t\t\tplazma_cntrl_stat=18;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\n\t\t\t}\r\n\t\t\t\t\t\t\t\n\t\n\t\telse if(load_U>u_necc)\n\t\t\t{\r\n\t\t\tcntrl_stat_blck_cnt=TZAS+2;\n\t\t\t\t\t\t\t\t\tcntrl_stat_new--;\r\n\t\t\t\t\t\t\t\t\tplazma_cntrl_stat=19;\n\t\t\t}\n\t\n\t\n\t\t}\r\n\t\t\r\n\tgran(&cntrl_stat_new,10,1010);\t\t\t\n\tcntrl_stat_old=cntrl_stat_new;\n\tcntrl_stat=cntrl_stat_new;\r\n\t}\n\n\niiii=0;\nfor(i=0;i<NUMIST;i++)\n {\n if(bps[i]._cnt<30)iiii=1;\n }\n\nif(iiii==0)\n {\n cntrl_stat=0;\t\n cntrl_stat_old=0;\n cntrl_stat_new=0;\r\n\t plazma_cntrl_stat=20;\r\n\t#ifdef UKU_TELECORE2015\r\n\t//cntrl_stat=0;\r\n\t//cntrl_stat_old=0;\r\n\t//cntrl_stat_new=0;\r\n\t#endif\n }\ngran(&cntrl_stat,10,1010); \nb1Hz_ch=0;\n}\r\n#endif\r\n\n#ifdef UKU_TELECORE2017\r\n//-----------------------------------------------\nvoid cntrl_hndl_telecore2017(void)\n{\r\n\ngran(&TELECORE2017_T4,1,10);\r\n\r\n\r\n\r\nif(ch_cnt0<10)\n\t{\n\tch_cnt0++;\n\tif(ch_cnt0>=10)\n\t\t{\n\t\tch_cnt0=0;\n\t\tb1Hz_ch=1;\r\n\r\n\t\tif(ch_cnt1<TELECORE2017_T4)\n\t\t\t{\n\t\t\tch_cnt1++;\n\t\t\tif(ch_cnt1>=TELECORE2017_T4)\n\t\t\t\t{\n\t\t\t\tch_cnt1=0;\n\t\t\t\tb1_30Hz_ch=1;\n\t\t\t\t}\n\t\t\t}\r\n\t\telse ch_cnt1=0;\r\n\r\n\t\tif(ch_cnt2<10)\n\t\t\t{\n\t\t\tch_cnt2++;\n\t\t\tif(ch_cnt2>=10)\n\t\t\t\t{\n\t\t\t\tch_cnt2=0;\n\t\t\t\tb1_10Hz_ch=1;\n\t\t\t\t}\n\t\t\t}\r\n\t\telse ch_cnt2=0;\r\n\t\t}\n\t}\r\nelse ch_cnt0=0;\r\n\r\nif(mess_find_unvol(MESS2CNTRL_HNDL))\n\t{\n\tif(mess_data[0]==PARAM_CNTRL_STAT_PLUS)\n\t\t{\n\t\tcntrl_stat=cntrl_stat_old+mess_data[1];\n\t\t}\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_MINUS)\n\t\t{\n\t\tcntrl_stat=cntrl_stat_old-mess_data[1];\n\t\t}\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_STEP_DOWN)\n\t\t{\n\t\tcntrl_stat--;\n\n\t\tif((cntrl_stat<=30)\|\|(load_U<USIGN)) mess_send(MESS2KB_HNDL,PARAM_CNTRL_IS_DOWN,0,10);\n\n\t\t}\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_SET)\n\t\t{\n\t\tcntrl_stat=mess_data[1];\n\t\t}\n\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_FAST_REG)\n\t\t{\r\n\t\tif(load_U>u_necc)\n\t\t\t{\n\t\t\tif(((load_U-u_necc)>10)&&(cntrl_stat>0))cntrl_stat-=5;\n\t\t\telse if((cntrl_stat)&&b1Hz_ch)cntrl_stat--;\n\t\t\t}\n\t\telse if(load_U<u_necc)\n\t\t\t{\t\n\t\t\tif(((u_necc-load_U)>10)&&(cntrl_stat<1015))cntrl_stat+=5;\n\t\t\telse\tif((cntrl_stat<1020)&&b1Hz_ch)cntrl_stat++;\n\t\t\t}\n\t\t}\n\n\t}\r\n\r\nIZMAX_=TELECORE2017_IZMAX1;\r\n\r\nfor(i=0;i<NUMBAT_TELECORE;i++)\r\n\t{\r\n\tif(lakb[i]._s_o_c_percent>=TELECORE2017_Q)\r\n\t\t{\r\n\t\tIZMAX_=TELECORE2017_IZMAX2;\r\n\t\tbreak;\r\n\t\t}\r\n\t}\r\n\r\nIZMAX_130=IZMAX_+IZMAX_/10+IZMAX_/5;\r\n\r\nIZMAX_70=IZMAX_-IZMAX_/10-IZMAX_/5;\r\n\r\nif(b1Hz_ch)\n\t{\n\tcntrl_stat_new=cntrl_stat_old;\r\n\r\n\r\n\tTELECORE2017_ULINECC_=TELECORE2017_ULINECC;\r\n\r\n\tif(lakb[0]._voltage_event_code\|\|lakb[1]._voltage_event_code/\|\|lakb[0]._balanced_event_code\|\|lakb[1]._balanced_event_code/)\r\n\t\t{\r\n\t\tif(TELECORE2017_AVAR_CNT<209)TELECORE2017_AVAR_CNT++;\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tif(b1_10Hz_ch)\r\n\t\t\t{\r\n\t\t\tif(TELECORE2017_AVAR_CNT)TELECORE2017_AVAR_CNT--;\r\n\t\t\t}\r\n\t\t}\r\n\tif(TELECORE2017_AVAR_CNT) TELECORE2017_ULINECC_=TELECORE2017_ULINECC-TELECORE2017_AVAR_CNT/10;\r\n\r\n\r\n\t\r\n\tplazma_cntrl_stat=50;\r\n\r\n\tif(Ibmax>=IZMAX_130)\r\n\t\t{\r\n\t\tcntrl_stat_new-=10;\r\n\t\tplazma_cntrl_stat=51;\r\n\t\t}\r\n\telse if(Ubpsmax<(load_U-20))\r\n\t\t{\r\n\t\tcntrl_stat_new+=TELECORE2017_K1;\r\n\t\tplazma_cntrl_stat=58;\r\n\t\t}\r\n\telse if((Ubpsmax>=(load_U-20))&&(Ibmax==0))\r\n\t\t{\r\n\t\tif(load_U>TELECORE2017_ULINECC_)\r\n\t\t\t{\r\n\t\t\tcntrl_stat_new-=TELECORE2017_K2;\r\n\t\t\tplazma_cntrl_stat=57;\r\n\t\t\t}\r\n\t\telse if(load_U<TELECORE2017_ULINECC_)\r\n\t\t\t{\r\n\t\t\tcntrl_stat_new+=TELECORE2017_K2;\r\n\t\t\tplazma_cntrl_stat=58;\r\n\t\t\t}\r\n\t\t}\r\n\telse if\t(Ibmax>=IZMAX_)\r\n\t\t{\r\n\t\tplazma_cntrl_stat=60;\r\n\t\tif(b1_30Hz_ch)\r\n\t\t\t{\r\n\t\t//\tif(load_U>TELECORE2017_ULINECC_)\r\n\t\t//\t\t{\r\n\t\t\t\tcntrl_stat_new--;\r\n\t\t\t\tplazma_cntrl_stat=52;\r\n\t\t//\t\t}\r\n\t\t//\telse if(load_U<TELECORE2017_ULINECC_)\r\n\t\t//\t\t{\r\n\t\t//\t\tcntrl_stat_new++;\r\n\t\t//\t\tplazma_cntrl_stat=53;\r\n\t\t//\t\t}\r\n\t\t\t}\r\n\t\t}\r\n\telse if\t(Ibmax>=IZMAX_70)\r\n\t\t{\r\n\t\tplazma_cntrl_stat=61;\r\n\t\tif(b1_30Hz_ch)\r\n\t\t\t{\r\n\t\t\tif(load_U>TELECORE2017_ULINECC_)\r\n\t\t\t\t{\r\n\t\t\t\tcntrl_stat_new--;\r\n\t\t\t\tplazma_cntrl_stat=54;\r\n\t\t\t\t}\r\n\t\t\telse if(load_U<TELECORE2017_ULINECC_)\r\n\t\t\t\t{\r\n\t\t\t\tcntrl_stat_new++;\r\n\t\t\t\tplazma_cntrl_stat=55;\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t}\r\n\telse if((Ibmax)&&(Ibmax<IZMAX_70))\r\n\t\t{\r\n\t\t//cntrl_stat_new+=TELECORE2017_K3;\r\n\t\tif(load_U>TELECORE2017_ULINECC_)\r\n\t\t\t{\r\n\t\t\tcntrl_stat_new-=TELECORE2017_K3;\r\n\t\t\tplazma_cntrl_stat=71;\r\n\t\t\t}\r\n\t\telse if(load_U<TELECORE2017_ULINECC_)\r\n\t\t\t{\r\n\t\t\tcntrl_stat_new+=TELECORE2017_K3;\r\n\t\t\tplazma_cntrl_stat=72;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\r\n\r\n\r\n\r\n\r\n/\r\n\t &&(Ibmax<IZMAX_110))\r\n\tif(Ibmax>40)\r\n\t\t{\r\n\t\tcntrl_stat_new--;\r\n\t\t\r\n\t\t}\r\n\telse if((Ibmax<40)&&(Ibmax>0))\r\n\t\t{\r\n\t\tcntrl_stat_new++;\r\n\t\tplazma_cntrl_stat=52;\r\n\t\t}\r\n\telse if(Ibmax<=0)\r\n\t\t{\r\n\t\tif(load_U<ULINECC)\r\n\t\t\t{\r\n\t\t\tcntrl_stat_new+=3;\r\n\t\t\tplazma_cntrl_stat=53;\r\n\t\t\t}\r\n\t\t}\r\n\t/\r\n\t\t\r\n\tgran(&cntrl_stat_new,10,1010);\t\t\t\n\tcntrl_stat_old=cntrl_stat_new;\n\tcntrl_stat=cntrl_stat_new;\r\n\t}\n\n\niiii=0;\nfor(i=0;i<NUMIST;i++)\n {\n if(bps[i]._cnt<30)iiii=1;\n }\n\nif(iiii==0)\n {\n cntrl_stat=0;\t\n cntrl_stat_old=0;\n cntrl_stat_new=0;\r\n\t plazma_cntrl_stat=20;\r\n }\ngran(&cntrl_stat,10,1010); \nb1Hz_ch=0;\nb1_30Hz_ch=0;\r\nb1_10Hz_ch=0;\n}\r\n#endif\r\n\n//-----------------------------------------------\nvoid ext_drv(void)\n{\nchar i;\n\n\nfor(i=0;i<NUMSK;i++)\n\t{\n\t#ifdef UKU_MGTS\n\tif(adc_buff_[sk_buff_RSTKM[i]]<2000)\n\t#endif\n\t#ifdef UKU_RSTKM\n\tif(adc_buff_[sk_buff_RSTKM[i]]<2000)\n\t#endif\n\t#ifdef UKU_3U\n\tif(adc_buff_[sk_buff_3U[i]]<2000)\n\t#endif\n\t#ifdef UKU_GLONASS\n\tif(adc_buff_[sk_buff_GLONASS[i]]<2000)\n\t#endif\n\t#ifdef UKU_KONTUR\n\tif(adc_buff_[sk_buff_KONTUR[i]]<2000)\n\t#endif\n\t#ifdef UKU_6U\n\tif(adc_buff_[sk_buff_6U[i]]<2000)\n\t#endif\n\t#ifdef UKU_220\n\tif(adc_buff_[sk_buff_220[i]]<2000)\n\t#endif\n\t#ifdef UKU_220_V2\n\tif(adc_buff_[sk_buff_220[i]]<2000)\n\t#endif\n\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\tif(adc_buff_[sk_buff_220[i]]<2000)\n\t#endif\n\t#ifdef UKU_TELECORE2015\t\n\tif(adc_buff_[sk_buff_TELECORE2015[i]]<2000)\t //TODO\n\t#endif\n\t#ifdef UKU_TELECORE2017\n\tif(adc_buff_[sk_buff_TELECORE2015[i]]<2000)\t //TODO\n\t#endif\t\t\r\n\t\t{\n\t\tif(sk_cnt[i]<10)\n\t\t\t{\n\t\t\tsk_cnt[i]++;\n\t\t\tif(sk_cnt[i]>=10)\n\t\t\t\t{\n\t\t\t\tsk_stat[i]=ssON;\n\t\t\t\t}\n\t\t\t}\n\t\telse \n\t\t\t{\n\t\t\tsk_cnt[i]=10;\n\t\t\t}\n \n\t\t}\n\telse\n\t\t{\n\t\tif(sk_cnt[i]>0)\n\t\t\t{\n\t\t\tsk_cnt[i]--;\n\t\t\tif(sk_cnt[i]<=0)\n\t\t\t\t{\n\t\t\t\tsk_stat[i]=ssOFF;\n\t\t\t\t}\n\t\t\t}\n\t\telse \n\t\t\t{\n\t\t\tsk_cnt[i]=0;\n\t\t\t}\n\t\t}\n\t}\n\nfor(i=0;i<NUMSK;i++)\n\t{\n\tif(((SK_SIGN[i]==0)&&(sk_stat[i]==ssON))\|\|((SK_SIGN[i])&&(sk_stat[i]==ssOFF)) )\n\t\t{\n\t\tif(sk_av_cnt[i]<10)\n\t\t\t{\n\t\t\tsk_av_cnt[i]++;\n\t\t\tif(sk_av_cnt[i]>=10)\n\t\t\t\t{\n\t\t\t\tsk_av_stat[i]=sasON;\n\t\t\t\t}\n\t\t\t}\n\t\telse \n\t\t\t{\n\t\t\tsk_av_cnt[i]=10;\n\t\t\t}\n\t\t}\n\telse\n\t\t{\n\t\tif(sk_av_cnt[i]>=0)\n\t\t\t{\n\t\t\tsk_av_cnt[i]--;\n\t\t\tif(sk_av_cnt[i]<=0)\n\t\t\t\t{\n\t\t\t\tsk_av_stat[i]=sasOFF;\n\t\t\t\t}\n\t\t\t}\n\t\telse \n\t\t\t{\n\t\t\tsk_av_cnt[i]=0;\n\t\t\t}\n\t\t}\n\n#ifndef UKU_KONTUR\n\tif(sk_av_stat_old[i]!=sk_av_stat[i])\n\t\t{\n\t\tplazma_sk++;\n\t\tif(sk_av_stat[i]==sasON)\n\t\t\t{\n\t\t\tif(i==0)snmp_trap_send(\"SK #1 Alarm\",15,1,1);\n\t\t\telse if(i==1)\r\n\t\t\t\t{\r\n\t\t\t\t#ifndef UKU_TELEKORE2017\r\n\t\t\t\tsnmp_trap_send(\"SK #2 Alarm\",15,2,1);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_TELEKORE2017\r\n\t\t\t\tsnmp_trap_send(\"Door open\",15,2,1);\r\n\t\t\t\t#endif\r\n\t\t\t\t}\n\t\t\telse if(i==2)snmp_trap_send(\"SK #3 Alarm\",15,3,1);\n\t\t\telse if(i==3)snmp_trap_send(\"SK #4 Alarm\",15,4,1);\n\t\t\t}\n\t\telse \n\t\t\t{\n\t\t\tif(i==0)snmp_trap_send(\"SK #1 Alarm is off\",15,1,0);\n\t\t\telse if(i==1)\r\n\t\t\t\t{\r\n\t\t\t\t#ifndef UKU_TELEKORE2017\r\n\t\t\t\tsnmp_trap_send(\"SK #2 Alarm is off\",15,2,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_TELEKORE2017\r\n\t\t\t\tsnmp_trap_send(\"Door open clear\",15,2,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t}\n\t\t\telse if(i==2)snmp_trap_send(\"SK #3 Alarm is off\",15,3,0);\n\t\t\telse if(i==3)snmp_trap_send(\"SK #4 Alarm is off\",15,4,0);\n\t\t\t}\n\t \t}\n#endif\n\n#ifdef UKU_KONTUR\n\tif(sk_av_stat_old[i]!=sk_av_stat[i])\n\t\t{\n\t\tplazma_sk++;\n\t\tif(sk_av_stat[i]==sasON)\n\t\t\t{\n\t\t\tif(i==0)snmp_trap_send(\"Door is opened\",15,1,1);\n\t\t\telse if(i==1)snmp_trap_send(\"Smoke Alarm\",15,2,1);\n\t\t\telse if(i==2)snmp_trap_send(\"Shock Sensor Alarm\",15,3,1);\n\t\t\telse if(i==3)snmp_trap_send(\"SK #4 Alarm\",15,4,1);\n\t\t\t}\n\t\telse \n\t\t\t{\n\t\t\tif(i==0)snmp_trap_send(\"Door is closed\",15,1,0);\n\t\t\telse if(i==1)snmp_trap_send(\"Smoke Alarm is off\",15,2,0);\n\t\t\telse if(i==2)snmp_trap_send(\"Shock Sensor Alarm is off\",15,3,0);\n\t\t\telse if(i==3)snmp_trap_send(\"SK #4 Alarm is off\",15,4,0);\n\t\t\t}\n\t \t}\n#endif\n\tsk_av_stat_old[i]=sk_av_stat[i];\n\t}\n}\n\n\n//-----------------------------------------------\nvoid zar_superviser_drv(void)\n{\n\nif(((bat[0]._Ub>u_necc_up) \|\| (bat[0]._Ub<u_necc_dn))&&(main_kb_cnt<((TBAT60)-30))&&(main_kb_cnt>((TBAT60)-150))) sign_U[0]=0;\n\nif(((bat[0]._Ib>(2IKB)) \|\| (bat[0]._Ib<(-IKB2))) &&(main_kb_cnt<((TBAT60)-30))&&(main_kb_cnt>((TBAT60)-150))) sign_I[0]=0;\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \nif((main_kb_cnt==((TBAT60)-10)) &&(spc_stat==spcOFF))\n\t{\n\tif((sign_U[0]==1) && (sign_I[0]==1) && (lc640_read_int(EE_BAT1_ZAR_CNT)!=BAT_C_REAL[0]) && (NUMBAT) && (!(bat[0]._av&1)))\n\t\t{\n\t\tlc640_write_int(EE_BAT1_ZAR_CNT,BAT_C_REAL[0]);\n\t\tsuperviser_cnt++;\n\t\t}\n\t\n\t}\n\nif(((bat[0]._Ub>u_necc_up) \|\| (bat[1]._Ub<u_necc_dn))&&(main_kb_cnt<((TBAT60)-30))&&(main_kb_cnt>((TBAT60)-150))) sign_U[1]=0;\n\nif(((bat[1]._Ib>(2IKB)) \|\| (bat[1]._Ib<(-IKB2))) &&(main_kb_cnt<((TBAT60)-30))&&(main_kb_cnt>((TBAT60)-150))) sign_I[1]=0;\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \nif((main_kb_cnt==((TBAT60)-10)) &&(spc_stat==spcOFF))\n\t{\n\tif((sign_U[1]==1) && (sign_I[1]==1) && (lc640_read_int(EE_BAT2_ZAR_CNT)!=BAT_C_REAL[1]) && (NUMBAT==2) && (!(bat[1]._av&1)))\n\t\t{\n\t\tlc640_write_int(EE_BAT2_ZAR_CNT,BAT_C_REAL[1]);\n\t\tsuperviser_cnt++;\n\t\t}\n\t\n\t}\n\nif(main_kb_cnt==((TBAT60)-2)) zar_superviser_start();\n}\n\n//-----------------------------------------------\nvoid zar_superviser_start(void)\n{\nsign_U[0]=1;\nsign_I[0]=1;\nsign_U[1]=1;\nsign_I[1]=1;\n\n}\n\n//-----------------------------------------------\nvoid npn_hndl(void)\n{\nif(NPN_OUT!=npnoOFF)\n\t{\n/\tif(NPN_SIGN==npnsAVNET)\n\t\t{\n\t\tif(net_av==1)\n\t\t\t{\n\t\t\tif(npn_tz_cnt<TZNPN)\n\t\t\t\t{\n\t\t\t\tnpn_tz_cnt++;\n\t\t\t\tif(npn_tz_cnt==TZNPN)\n\t\t\t\t\t{\n\t\t\t\t\tnpn_stat=npnsOFF;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\telse\n\t\t\t{\n\t\t\tif(npn_tz_cnt)\n\t\t\t\t{\n\t\t\t\tnpn_tz_cnt--;\n\t\t\t\tif(npn_tz_cnt==0)\n\t\t\t\t\t{\n\t\t\t\t\tnpn_stat=npnsON;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t}/\n/\tif(NPN_SIGN==npnsULOAD)\n\t\t{\n\t\tif(load_U<UONPN)\n\t\t\t{\n\t\t\tif(npn_tz_cnt<TZNPN)\n\t\t\t\t{\n\t\t\t\tnpn_tz_cnt++;\n\t\t\t\tif(npn_tz_cnt==TZNPN)\n\t\t\t\t\t{\n\t\t\t\t\tnpn_stat=npnsOFF;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\telse if(load_U>UVNPN)\n\t\t\t{\n\t\t\tif(npn_tz_cnt)\n\t\t\t\t{\n\t\t\t\tnpn_tz_cnt--;\n\t\t\t\tif(npn_tz_cnt==0)\n\t\t\t\t\t{\n\t\t\t\t\tnpn_stat=npnsON;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t}/\n\n\tif((load_U<UONPN)&&((net_Ua<UMN)\|\|(net_Ub<UMN)\|\|(net_Uc<UMN)))\n\t\t{\n\t\tif(npn_tz_cnt<TZNPN)\n\t\t\t{\n\t\t\tnpn_tz_cnt++;\n\t\t\tif(npn_tz_cnt==TZNPN)\n\t\t\t\t{\n\t\t\t\tnpn_stat=npnsOFF;\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\telse if((load_U>UVNPN)&&(net_Ua>UMN)&&(net_Ub>UMN)&&(net_Uc>UMN))\n\t\t{\n\t\tif(npn_tz_cnt)\n\t\t\t{\n\t\t\tnpn_tz_cnt--;\n\t\t\tif(npn_tz_cnt==0)\n\t\t\t\t{\n\t\t\t\tnpn_stat=npnsON;\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t}\nelse\n\t{\n\tnpn_tz_cnt=0;\n\tnpn_stat=npnsON;\n\t}\n\nif(npn_stat==npnsOFF) mess_send(MESS2RELE_HNDL,PARAM_RELE_NPN,1,15);\n\n\n}\r\n\n//-----------------------------------------------\r\nvoid speedChargeHndl(void)\r\n{\r\nif(speedChIsOn)\r\n\t{\r\n\tspeedChTimeCnt++;\r\n\tif(speedChTimeCnt>=((signed long)speedChrgTimeInHour3600L))\r\n\t\t{\r\n\t\tspeedChIsOn=0;\r\n\t\t}\r\n\tif(speedChrgBlckStat)\r\n\t\t{\r\n\t\tspeedChIsOn=0;\r\n\t\tspeedChTimeCnt=0;\r\n\t\t}\r\n\t}\r\n\r\n\r\n\r\nif(speedChrgAvtEn)\r\n\t{\r\n\tif(!speedChIsOn)\r\n\t\t{\r\n\t\tif((load_U<u_necc)&&((u_necc-load_U)>speedChrgDU)&&(abs(Ib_ips_termokompensat/10-IZMAX)<5)&&(!speedChrgBlckStat))\r\n\t\t\t{\r\n\t\t\tspeedChIsOn=1;\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\n\r\n\r\nif((speedChrgBlckSrc!=1)&&(speedChrgBlckSrc!=2)) speedChrgBlckStat=0;\r\nelse\r\n\t{\r\n\tspeedChrgBlckStat=0;\r\n\tif(speedChrgBlckSrc==1)\r\n\t\t{\r\n\t\tif(((speedChrgBlckLog==0)&&(adc_buff_[11]>2000)) \|\| ((speedChrgBlckLog==1)&&(adc_buff_[11]<2000))) speedChrgBlckStat=1;\r\n\t\t}\r\n\telse if(speedChrgBlckSrc==2)\r\n\t\t{\r\n\t\tif(((speedChrgBlckLog==0)&&(adc_buff_[13]>2000)) \|\| ((speedChrgBlckLog==1)&&(adc_buff_[13]<2000))) speedChrgBlckStat=1;\r\n\t\t}\r\n\t}\r\n\r\n\r\nif(speedChrgBlckStat==1)\r\n\t{\r\n\r\n\t//speedChargeStartStop();\r\n\r\n\tspeedChrgShowCnt++;\r\n\tif(speedChrgShowCnt>=30)\t\r\n\t\t{\r\n\t\tspeedChrgShowCnt=0;\r\n\t\tshow_mess(\t\" УСКОРЕННЫЙ \",\r\n\t\t\t\t\t\" ЗАРЯД \",\r\n\t\t\t\t\t\" ЗАПРЕЩЕН!!! \",\r\n\t\t\t\t\t\" \",\r\n\t\t\t\t\t5000);\r\n\t\t}\r\n\t}\r\nelse speedChrgShowCnt=0;\r\n\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid speedChargeStartStop(void)\r\n{\r\nif(speedChIsOn)\r\n\t{\r\n\tspeedChIsOn=0;\r\n\t}\r\n\r\nelse\r\n\t{\r\n\tif(speedChrgBlckStat==0)\r\n\t\t{\r\n\t\tspeedChIsOn=1;\r\n\t\tspeedChTimeCnt=0;\r\n\t\t}\r\n\telse\r\n\t\t{\r\n\t\tshow_mess(\t\" Ускоренный \",\r\n\t \t\t\" заряд \",\r\n\t \t\t\" заблокирован! \",\r\n\t \t\t\" \",2000);\t \r\n\t\t}\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\nvoid\tnumOfForvardBps_hndl(void)\t\t\t//Программа смены первого источника для равномерного износа БПСов\r\n{\r\n\r\nnumOfForvardBps_old=numOfForvardBps;\r\n\r\nnumOfForvardBps=0;\r\n\r\n//FORVARDBPSCHHOUR=10;\r\n\r\nif((FORVARDBPSCHHOUR<=0)\|\|(FORVARDBPSCHHOUR>500))\r\n\t{\r\n\tFORVARDBPSCHHOUR=0;\r\n\treturn;\r\n\t}\r\n\r\nnumOfForvardBps_minCnt++;\r\n\r\n\r\nif(numOfForvardBps_minCnt>=60)\r\n\t{\r\n\tnumOfForvardBps_minCnt=0;\r\n\tnumOfForvardBps_hourCnt=lc640_read_int(EE_FORVBPSHOURCNT);\r\n\tnumOfForvardBps_hourCnt++;\r\n\tif(numOfForvardBps_hourCnt>=(FORVARDBPSCHHOURNUMIST))\r\n\t\t{\r\n\t\tnumOfForvardBps_hourCnt=0;\r\n\t\t}\r\n\tlc640_write_int(EE_FORVBPSHOURCNT,numOfForvardBps_hourCnt);\r\n\t}\r\n\r\nnumOfForvardBps=numOfForvardBps_hourCnt/FORVARDBPSCHHOUR;\r\n\r\n//if(numOfForvardBps)\r\n//numOfForvardBps_old=numOfForvardBps; \r\n}\r\n\r\n//-----------------------------------------------\nvoid\tnumOfForvardBps_init(void)\t\t\t//Программа сброса системы смены первого источника для равномерного износа БПСов\n{\t\t\t\t\t\t\t\t\t//Должна вызываться при изменении кол-ва источников в структуре\r\nlc640_write_int(EE_FORVBPSHOURCNT,0);\r\nnumOfForvardBps_minCnt=58;\r\n}\r\n\r\n//-----------------------------------------------\nvoid outVoltContrHndl(void)\r\n{ \r\nif((load_U>U_OUT_KONTR_MAX)\|\|(load_U<U_OUT_KONTR_MIN))\r\n\t{\r\n\toutVoltContrHndlCnt_=0;\r\n\tif(outVoltContrHndlCnt<U_OUT_KONTR_DELAY)\r\n\t\t{\r\n\t\toutVoltContrHndlCnt++;\r\n\t\tif(outVoltContrHndlCnt==U_OUT_KONTR_DELAY)\r\n\t\t\t{\r\n\t\t\tavar_uout_hndl(1);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\nelse\r\n\t{\r\n\tif(outVoltContrHndlCnt)\r\n\t\t{\r\n\t\tif(outVoltContrHndlCnt_<5)\r\n\t\t\t{\r\n\t\t\toutVoltContrHndlCnt_++;\r\n\t\t\tif(outVoltContrHndlCnt_>=5)\r\n\t\t\t\t{\r\n\t\t\t\toutVoltContrHndlCnt=0;\r\n\t\t\t\tif(uout_av)avar_uout_hndl(0);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\nif (load_U<(USIGN10)) \r\n\t{\r\n\tif(!bSILENT)\r\n\t\t{\r\n\t\tmess_send(MESS2RELE_HNDL,PARAM_RELE_BAT_IS_DISCHARGED,1,20);\r\n\t\t}\r\n\r\n\t//bU_BAT2REL_AV_BAT=1;\r\n\t}\r\n\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid vent_resurs_hndl(void)\r\n{\r\nchar i;\r\nchar crc_in,crc_eval;\r\n\r\nfor(i=0;i<NUMIST;i++)\r\n\t{\r\n\tif((bps[i]._buff[7]&0xc0)==0x00)\r\n\t\t{\r\n\t\tbps[i]._vent_resurs_temp[0]=bps[i]._buff[7];\r\n\t\t}\r\n\telse if((bps[i]._buff[7]&0xc0)==0x40)\r\n\t\t{\r\n\t\tbps[i]._vent_resurs_temp[1]=bps[i]._buff[7];\r\n\t\t}\r\n\telse if((bps[i]._buff[7]&0xc0)==0x80)\r\n\t\t{\r\n\t\tbps[i]._vent_resurs_temp[2]=bps[i]._buff[7];\r\n\t\t}\r\n\telse if((bps[i]._buff[7]&0xc0)==0xc0)\r\n\t\t{\r\n\t\tbps[i]._vent_resurs_temp[3]=bps[i]._buff[7];\r\n\t\t}\r\n\tcrc_in=0;\r\n\tcrc_in\|=(bps[i]._vent_resurs_temp[0]&0x30)>>4;\r\n\tcrc_in\|=(bps[i]._vent_resurs_temp[1]&0x30)>>2;\r\n\tcrc_in\|=(bps[i]._vent_resurs_temp[2]&0x30);\r\n\tcrc_in\|=(bps[i]._vent_resurs_temp[3]&0x30)<<2;\r\n\r\n\tcrc_eval =bps[i]._vent_resurs_temp[0]&0x0f;\r\n\tcrc_eval^=bps[i]._vent_resurs_temp[1]&0x0f;\r\n\tcrc_eval^=bps[i]._vent_resurs_temp[2]&0x0f;\r\n\tcrc_eval^=bps[i]._vent_resurs_temp[3]&0x0f;\r\n\r\n\tif(crc_eval==crc_in)\r\n\t\t{\r\n\t\tunsigned short temp_US;\r\n\t\ttemp_US=0;\r\n\r\n\t\ttemp_US\|=(bps[i]._vent_resurs_temp[3]&0x0f);\r\n\t\ttemp_US<<=4;\r\n\t\ttemp_US\|=(bps[i]._vent_resurs_temp[2]&0x0f);\r\n\t\ttemp_US<<=4;\r\n\t\ttemp_US\|=(bps[i]._vent_resurs_temp[1]&0x0f);\r\n\t\ttemp_US<<=4;\r\n\t\ttemp_US\|=(bps[i]._vent_resurs_temp[0]&0x0f);\r\n\r\n\t\tif(bps[i]._vent_resurs!=temp_US)bps[i]._vent_resurs=temp_US;\r\n\t\t}\r\n\r\n\tif(bps[i]._vent_resurs>TVENTMAX10)\r\n\t\t{\r\n\t\tbps[i]._av\|=(1<<4);\r\n\t\t}\r\n\telse bps[i]._av&=~(1<<4);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\nvoid vent_hndl(void)\n{\nif(RELEVENTSIGN==rvsAKB)\n\t{\n\tif(vent_stat==0)\n\t\t{\n\t\tif\t(\n\t\t\t(BAT_IS_ON[0]==bisON)&&((bat[0]._Tb>TVENTON)\|\|(bat[0]._nd))\n\t\t\t\|\|\n\t\t\t(BAT_IS_ON[1]==bisON)&&((bat[1]._Tb>TVENTON)\|\|(bat[1]._nd))\n\t\t\t)\n\t\t\t{\n\t\t\tvent_stat=1;\n\t\t\t}\n\t\t}\n\telse if(vent_stat==1)\n\t\t{\n\t\tif\t(\n\t\t\t((BAT_IS_ON[0]!=bisON)\|\|((BAT_IS_ON[0]==bisON)&&(bat[0]._Tb<TVENTOFF)&&(!bat[0]._nd)))\n\t\t\t&&\n\t\t\t((BAT_IS_ON[1]!=bisON)\|\|((BAT_IS_ON[1]==bisON)&&(bat[1]._Tb<TVENTOFF)&&(!bat[1]._nd)))\n\t\t\t)\n\t\t\t{\n\t\t\tvent_stat=0;\n\t\t\t}\n\t\t}\n\t}\nelse if(RELEVENTSIGN==rvsBPS)\n\t{\n/\tif\t(\n\t\t(((bps[0]._flags_tm&0x06)\|\|(bps[0]._cnt>=30)))\|\|\n\t\t(((bps[1]._flags_tm&0x06)\|\|(bps[1]._cnt>=30))&&(NUMIST>1))\|\|\n\t\t(((bps[2]._flags_tm&0x06)\|\|(bps[2]._cnt>=30))&&(NUMIST>2))\|\|\n\t\t(((bps[3]._flags_tm&0x06)\|\|(bps[3]._cnt>=30))&&(NUMIST>3))\|\|\n\t\t(((bps[4]._flags_tm&0x06)\|\|(bps[4]._cnt>=30))&&(NUMIST>4))\|\|\n\t\t(((bps[5]._flags_tm&0x06)\|\|(bps[5]._cnt>=30))&&(NUMIST>5))\|\|\n\t\t(((bps[6]._flags_tm&0x06)\|\|(bps[6]._cnt>=30))&&(NUMIST>6))\n\t\t)\n\t\t{\n\t\tvent_stat=1;\n\t\t}\n\telse vent_stat=0;\n\t/\n\n\tif\t(\n\t\t((NUMIST)&&((bps[0]._Ti>TVENTON)\|\|(bps[0]._cnt>=30)))\n\t\t\|\|\n\t\t((NUMIST>1)&&((bps[1]._Ti>TVENTON)\|\|(bps[1]._cnt>=30)))\n\t\t\|\|\n\t\t((NUMIST>2)&&((bps[2]._Ti>TVENTON)\|\|(bps[2]._cnt>=30)))\n\t\t\|\|\n\t\t((NUMIST>3)&&((bps[3]._Ti>TVENTON)\|\|(bps[3]._cnt>=30)))\n\t\t\|\|\n\t\t((NUMIST>4)&&((bps[4]._Ti>TVENTON)\|\|(bps[4]._cnt>=30)))\n\t\t\|\|\n\t\t((NUMIST>5)&&((bps[5]._Ti>TVENTON)\|\|(bps[5]._cnt>=30)))\n\t\t\|\|\n\t\t((NUMIST>6)&&((bps[6]._Ti>TVENTON)\|\|(bps[6]._cnt>=30)))\n\t\t\|\|\n\t\t((NUMIST>7)&&((bps[7]._Ti>TVENTON)\|\|(bps[7]._cnt>=30)))\n\t\t)\n\t\t{\n\t\tvent_stat=1;\n\t\t}\n\telse if(vent_stat==1)\n\t\t{\n\t\tif\t(\n\t\t\t((!NUMIST)\|\|((NUMIST)&&(bps[0]._Ti<TVENTOFF)&&(bps[0]._cnt<10)))\n\t\t\t&&\n\t\t\t((NUMIST<2)\|\|((NUMIST>=2)&&(bps[1]._Ti<TVENTOFF)&&(bps[1]._cnt<10)))\n\t\t\t&&\n\t\t\t((NUMIST<3)\|\|((NUMIST>=3)&&(bps[2]._Ti<TVENTOFF)&&(bps[2]._cnt<10)))\n\t\t\t&&\n\t\t\t((NUMIST<4)\|\|((NUMIST>=4)&&(bps[3]._Ti<TVENTOFF)&&(bps[3]._cnt<10)))\n\t\t\t&&\n\t\t\t((NUMIST<5)\|\|((NUMIST>=5)&&(bps[4]._Ti<TVENTOFF)&&(bps[4]._cnt<10)))\n\t\t\t&&\n\t\t\t((NUMIST<6)\|\|((NUMIST>=6)&&(bps[5]._Ti<TVENTOFF)&&(bps[5]._cnt<10)))\n\t\t\t&&\n\t\t\t((NUMIST<7)\|\|((NUMIST>=7)&&(bps[6]._Ti<TVENTOFF)&&(bps[6]._cnt<10)))\n\t\t\t&&\n\t\t\t((NUMIST<8)\|\|((NUMIST>=8)&&(bps[7]._Ti<TVENTOFF)&&(bps[7]._cnt<10)))\n\t\t\t)\n\t\t\t{\n\t\t\tvent_stat=0;\n\t\t\t}\n\t\t}\n\t}\nelse if(RELEVENTSIGN==rvsEXT)\n\t{\n\tif\t(\n\t\t((NUMDT)&&((t_ext[0]>TVENTON)\|\|(ND_EXT[0])))\n\t\t\|\|\n\t\t((NUMDT>1)&&((t_ext[1]>TVENTON)\|\|(ND_EXT[1])))\n\t\t\|\|\n\t\t((NUMDT>2)&&((t_ext[2]>TVENTON)\|\|(ND_EXT[2])))\n\t\t)\n\t\t{\n\t\tvent_stat=1;\n\t\t}\n\telse if(vent_stat==1)\n\t\t{\n\t\tif\t(\n\t\t\t((!NUMDT)\|\|((NUMDT)&&(t_ext[0]<TVENTOFF)&&(!ND_EXT[0])))\n\t\t\t&&\n\t\t\t((NUMDT<2)\|\|((NUMDT>=2)&&(t_ext[1]<TVENTOFF)&&(!ND_EXT[1])))\n\t\t\t&&\n\t\t\t((NUMDT<3)\|\|((NUMDT>=3)&&(t_ext[2]<TVENTOFF)&&(!ND_EXT[2])))\n\t\t\t)\n\t\t\t{\n\t\t\tvent_stat=0;\n\t\t\t}\n\t\t}\n\t}\nelse vent_stat=1;\n}\n\n\n" }, { "alpha_fraction": 0.33430927991867065, "alphanum_fraction": 0.41405346989631653, "avg_line_length": 13.213364601135254, "blob_id": "708b1f1d0381e886dcdc5680ad723aeb03ab4278", "content_id": "6e89f5097c5d6e6736143510327b52745c12aebb", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 12979, "license_type": "no_license", "max_line_length": 92, "num_lines": 853, "path": "/SOFT/UKU/2/lcd_AGM1232_uku207_3.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "//#include \"global_define.h\"\r\n#include \"lcd_AGM1232_uku207_3.h\"\r\n#include \"LPC17xx.H\"\r\n#include \"main.h\"\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid lcd1_chk(void)\r\n{\r\nLPC_GPIO1->FIODIR&=(~((1<<D0)\|(1<<D1)\|(1<<D2)\|(1<<D3)\|(1<<D4)\|(1<<D5)\|(1<<D6)\|(1<<D7)));\r\nLPC_GPIO1->FIOSET\|=(1<<RW);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOCLR\|=(1<<A0);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOSET\|=(1<<E1);\r\n\r\nchk1:\r\n\r\nif(LPC_GPIO1->FIOPIN&(1<<D7)) goto chk1;\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid lcd2_chk(void)\r\n{\r\nLPC_GPIO1->FIODIR&=(~((1<<D0)\|(1<<D1)\|(1<<D2)\|(1<<D3)\|(1<<D4)\|(1<<D5)\|(1<<D6)\|(1<<D7)));\r\nLPC_GPIO1->FIOSET\|=(1<<RW);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOCLR\|=(1<<A0);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOSET\|=(1<<E2);\r\n\r\nchk2:\r\n\r\nif(LPC_GPIO1->FIOPIN&(1<<D7)) goto chk2;\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid lcd1_wr(char in)\r\n{\r\n\r\nLPC_GPIO1->FIODIR\|=((1UL<<A0)\|(1UL<<E1)\|(1UL<<RW));\r\n\r\nlcd1_chk();\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOCLR\|=(1UL<<A0);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOCLR\|=(1UL<<RW);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIODIR\|=((1<<D0)\|(1<<D1)\|(1<<D2)\|(1<<D3)\|(1<<D4)\|(1<<D5)\|(1<<D6)\|(1<<D7));\r\nLPC_GPIO1->FIOSET\|=(((long)in)<<D0);\r\nLPC_GPIO1->FIOCLR\|=(((long)(~in))<<D0)&(0xffUL<<D0);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOCLR\|=(1<<E1);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\n}\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid lcd2_wr(char in)\r\n{\r\n\r\nLPC_GPIO1->FIODIR\|=(1<<A0);\r\nLPC_GPIO1->FIODIR\|=((1<<RW)\|(1<<E2));\r\n\r\n\r\nlcd2_chk();\r\n \r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOCLR\|=(1<<A0);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOCLR\|=(1<<RW);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIODIR\|=((1<<D0)\|(1<<D1)\|(1<<D2)\|(1<<D3)\|(1<<D4)\|(1<<D5)\|(1<<D6)\|(1<<D7));\r\nLPC_GPIO1->FIOSET\|=(((long)in)<<D0);\r\nLPC_GPIO1->FIOCLR\|=(((long)(~in))<<D0)&(0xffUL<<D0);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOCLR\|=(1<<E2);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nchar data1_wr(char in)\r\n{\r\n//__disable_irq();\r\nLPC_GPIO1->FIODIR\|=((1<<A0)\|(1<<E1));\r\nLPC_GPIO1->FIODIR\|=(1<<RW);\r\n\r\nlcd1_chk();\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOSET\|=(1<<A0);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOCLR\|=(1<<RW);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIODIR\|=((1<<D0)\|(1<<D1)\|(1<<D2)\|(1<<D3)\|(1<<D4)\|(1<<D5)\|(1<<D6)\|(1<<D7));\r\nLPC_GPIO1->FIOSET\|=(((long)in)<<D0);\r\nLPC_GPIO1->FIOCLR\|=(((long)(~in))<<D0)&(0xffUL<<D0);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOCLR\|=(1<<E1);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nreturn in;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid data2_wr(char in)\r\n{\r\nLPC_GPIO1->FIODIR\|=(1<<A0);\r\nLPC_GPIO1->FIODIR\|=((1<<RW)\|(1<<E2));\r\n\r\nlcd2_chk();\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOSET\|=(1<<A0);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOCLR\|=(1<<RW);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIODIR\|=((1<<D0)\|(1<<D1)\|(1<<D2)\|(1<<D3)\|(1<<D4)\|(1<<D5)\|(1<<D6)\|(1<<D7));\r\nLPC_GPIO1->FIOSET\|=(((long)in)<<D0);\r\nLPC_GPIO1->FIOCLR\|=(((long)(~in))<<D0)&(0xffUL<<D0);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\nLPC_GPIO1->FIOCLR\|=(1<<E2);\r\n\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid lcd_set_page(char in)\r\n{\r\nlcd1_wr(_SET_PAGE_\|in);\r\nlcd2_wr(_SET_PAGE_\|in);\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid lcd_set_col(char in)\r\n{\r\nlcd1_wr(_SET_COLUMN_\|in);\r\nlcd2_wr(_SET_COLUMN_\|in);\r\n} \r\n\r\n//-----------------------------------------------\r\nvoid lcd_set_raw(char in)\r\n{\r\nlcd1_wr(_SET_RAW_\|in);\r\nlcd2_wr(_SET_RAW_\|in);\r\n} \r\n\r\n//-----------------------------------------------\r\nvoid lcd_init(void) \r\n{\r\nint i/,ii/;\r\n\r\n\t\t /\r\n#if(RES<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(RES2))&~(1<<((RES2)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((RES-16)2))&~(1<<(((RES-16)2)+1));\r\n\t}\r\n#endif\r\n\r\nLPC_PINCON->PINSEL2&=~(1<<((E1-16)2))&~(1<<(((E1-16)2)+1));\r\n\t\r\nLPC_PINCON->PINSEL2&=~(1<<((E2-16)2))&~(1<<(((E2-16)2)+1));\r\n\r\nLPC_PINCON->PINSEL2&=~(1<<((A0-16)2))&~(1<<(((A0-16)2)+1));\r\n\r\nLPC_PINCON->PINSEL2&=~(1<<((RW-16)2))&~(1<<(((RW-16)2)+1));\r\n\t\t\t\t\r\n\r\n\r\n\r\n\r\n\r\n#if(D0<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D02))&~(1<<((D02)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D0-16)2))&~(1<<(((D0-16)2)+1));\r\n\t}\r\n#endif\r\n\r\n#if(D1<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D12))&~(1<<((D12)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D1-16)2))&~(1<<(((D1-16)2)+1));\r\n\t}\r\n#endif\r\n\t\r\n#if(D2<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D22))&~(1<<((D22)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D2-16)2))&~(1<<(((D2-16)2)+1));\r\n\t}\r\n#endif\r\n\t\r\n#if(D3<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D32))&~(1<<((D32)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D3-16)2))&~(1<<(((D3-16)2)+1));\r\n\t}\t\r\n#endif\r\n\t\r\n#if(D4<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D42))&~(1<<((D42)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D4-16)2))&~(1<<(((D4-16)2)+1));\r\n\t}\r\n#endif\r\n\r\n#if(D5<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D52))&~(1<<((D52)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D5-16)2))&~(1<<(((D5-16)2)+1));\r\n\t}\r\n#endif\r\n\t\r\n#if(D6<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D62))&~(1<<((D62)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D6-16)2))&~(1<<(((D6-16)2)+1));\r\n\t}\r\n#endif\r\n\t\r\n#if(D7<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D72))&~(1<<((D72)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D7-16)2))&~(1<<(((D7-16)2)+1));\r\n\t}\r\n#endif\t\r\n\r\n /\r\n\t\r\n\t\t\t\t\t\r\nLPC_GPIO1->FIODIR\|=(1<<D0)\|(1<<D1)\|(1<<D2)\|(1<<D3)\|(1<<D4)\|(1<<D5)\|(1<<D6)\|(1<<D7);\r\nLPC_GPIO1->FIODIR\|=(1<<E1)\|(1<<A0)\|(1<<E2)\|(1<<RW);\r\nLPC_GPIO0->FIODIR\|=(1<<RES)\|(1<<29);\r\n\r\nfor(i=0;i<100;i++)\r\n\t{\r\n\tLPC_GPIO0->FIOCLR\|=(1<<RES);\r\n\t}\r\nfor(i=0;i<166000;i++)\r\n\t{\r\n\t__nop();\r\n\t}\r\nfor(i=0;i<50;i++)\r\n\t{\r\n\tLPC_GPIO0->FIOSET\|=(1<<RES);\r\n\t}\t\r\n\r\n for(i=0;i<166000;i++)\r\n\t{\r\n\t__nop();\r\n\t}\r\n\t\r\n\r\n//lcd_reset();\r\n//E1d=1;\r\n//E2d=1;\r\n//A0d=1;\r\n//RWd=1;\r\n\r\n//E1=0;\r\n//E2=0;\r\n/IO1CLR\|=(1<<E1);\r\nIO1CLR\|=(1<<E2);\r\n//A0=1;\r\nIO1SET\|=(1<<A0);\r\n//RW=1;\r\nIO1SET\|=(1<<RW);\r\n\r\nlcd1_wr(_RESET_);\r\nlcd2_wr(_RESET_);/\r\n //LCD_PORTc=0xFF;\r\n //LCD_PORT=0xFF;\r\n//disp_page0(); \r\n\r\n//IO0CLR\|=(1<<A0)\|(1<<RW);\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid status(void)\r\n{\r\n\r\nLPC_GPIO1->FIOCLR=(1<<A0);//clr P3.2 ; A0=0 for read\r\nLPC_GPIO1->FIOSET=(1<<RW);//setb P3.6 ; wr=1\r\nLPC_GPIO1->FIOSET=(1<<E1);//setb P3.3 ;Left side enabled\r\n__nop();;//mov P1, #0FFH ; load input\r\nstat1: //clr P3.5 ; rd=0\r\n//nop\r\n__nop();\r\n__nop();\r\n__nop();\r\n//nop\r\n//nop\r\n//mov a, P1 ; move status\r\n//anl a, #80H ;check bit 8\r\n//setb P3.5 ; rd=1\r\n//jnz stat1 ; jump if A not 0\r\n\r\nif(LPC_GPIO1->FIOPIN&(1<<D7)) goto stat1;\r\nLPC_GPIO1->FIOCLR=(1<<E1);//clr P3.3 ;\r\n\r\n//ret\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid delay(void)\r\n{\r\nsigned short i;\r\n\r\nfor(i=0;i<100;i++)\r\n\t{\r\n\t__nop();\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid ltstrobe(char in)\r\n{\r\nstatus();\r\nLPC_GPIO1->FIOSET=(1<<RW);//setb p3.5 ;RD=1\r\nLPC_GPIO1->FIOCLR=(1<<A0);//clr p3.2 ;A=0\r\nLPC_GPIO1->FIOSET=(1<<E1);//setb p3.3 ;CS1=1\r\nLPC_GPIO1->FIOSET=(1<<E2);//setb p3.4 ;CS2=1\r\nLPC_GPIO1->FIOSET\|=(((long)in)<<D0);\r\nLPC_GPIO1->FIOCLR\|=(((long)(~in))<<D0)&(0xffUL<<D0);\r\n//delay();\r\nLPC_GPIO1->FIOCLR=(1<<E1);//clr p3.3 ;CS1=0\r\nLPC_GPIO1->FIOCLR=(1<<E2);//clr p3.4 ;CS2=0\r\nLPC_GPIO1->FIOCLR=(1<<RW);//clr p3.5 ;RD=0\r\n//ret\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid lcd_init_(void) \r\n{\r\nint i/,ii/;\r\n#if(RES<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(RES2))&~(1<<((RES2)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((RES-16)2))&~(1<<(((RES-16)2)+1));\r\n\t}\r\n#endif\t\r\nLPC_PINCON->PINSEL2&=~(1<<((A0-16)2))&~(1<<(((A0-16)2)+1));\r\nLPC_PINCON->PINSEL2&=~(1<<((E1-16)2))&~(1<<(((E1-16)2)+1));\t\r\nLPC_PINCON->PINSEL2&=~(1<<((E2-16)2))&~(1<<(((E2-16)2)+1));\r\nLPC_PINCON->PINSEL2&=~(1<<((RW-16)2))&~(1<<(((RW-16)2)+1));\r\n\t\t\t\t\r\n\r\n\r\n\r\n\r\n\r\n#if(D0<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D02))&~(1<<((D02)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D0-16)2))&~(1<<(((D0-16)2)+1));\r\n\t}\r\n#endif\r\n\r\n#if(D1<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D12))&~(1<<((D12)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D1-16)2))&~(1<<(((D1-16)2)+1));\r\n\t}\r\n#endif\r\n\t\r\n#if(D2<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D22))&~(1<<((D22)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D2-16)2))&~(1<<(((D2-16)2)+1));\r\n\t}\r\n#endif\r\n\t\r\n#if(D3<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D32))&~(1<<((D32)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D3-16)2))&~(1<<(((D3-16)2)+1));\r\n\t}\t\r\n#endif\r\n\t\r\n#if(D4<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D42))&~(1<<((D42)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D4-16)2))&~(1<<(((D4-16)2)+1));\r\n\t}\r\n#endif\r\n\r\n#if(D5<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D52))&~(1<<((D52)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D5-16)2))&~(1<<(((D5-16)2)+1));\r\n\t}\r\n#endif\r\n\t\r\n#if(D6<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D62))&~(1<<((D62)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D6-16)2))&~(1<<(((D6-16)2)+1));\r\n\t}\r\n#endif\r\n\t\r\n#if(D7<16)\r\n\t{\r\n\tLPC_PINCON->PINSEL0&=~(1<<(D72))&~(1<<((D72)+1));\r\n\t}\r\n#else \t\r\n\t{\r\n\tLPC_PINCON->PINSEL1&=~(1<<((D7-16)2))&~(1<<(((D7-16)2)+1));\r\n\t}\r\n#endif\r\n\t\r\n\r\n\r\n\t\r\n\t\t\t\t\t\r\nLPC_GPIO1->FIODIR\|=(1<<D0)\|(1<<D1)\|(1<<D2)\|(1<<D3)\|(1<<D4)\|(1<<D5)\|(1<<D6)\|(1<<D7)\|(1<<RES);\r\nLPC_GPIO0->FIODIR\|=(1<<E2)\|(1<<RW)\|(1<<E1)\|(1<<A0);\r\n\r\n\r\nfor(i=0;i<10;i++)\r\n\t{\r\n\tLPC_GPIO1->FIOCLR\|=(1<<RES);\r\n\t}\r\nfor(i=0;i<500;i++)\r\n\t{\r\n\t__nop();\r\n\t}\r\nfor(i=0;i<50000;i++)\r\n\t{\r\n\tLPC_GPIO1->FIOSET\|=(1<<RES);\r\n\t}\t\r\n\r\n/\r\nmov a, #0E2H ;Reset column address, display\r\nacall ltstrobe ;startline, page address counter=0./\r\nltstrobe(0xE2);\r\n\r\n/\r\nmov a, #0AfH ;display=On\r\nlcall ltstrobe/\r\n//ltstrobe(0xAF);\r\n\r\n/\r\nmov a, #0C0H ;Starts on first line\r\nlcall ltstrobe/\r\n//ltstrobe(0xC0);\r\n\r\n/\r\nmov a, #0A4H ;static driver=Off\r\nlcall ltstrobe/\r\n//ltstrobe(0xA4);\r\n\r\n/\r\nmov a, #0A9H ;duty cycle=1/32\r\nlcall ltstrobe/\r\n//ltstrobe(0xA9);\r\n\r\n/\r\nmov a, #0A0H ;ADC=forward\r\nlcall ltstrobe/\r\n//ltstrobe(0xA0);\r\n\r\n/\r\nmov a, #0EEH ;Read Modified Write=End\r\nlcall ltstrobe/\r\n//ltstrobe(0xEE);\r\n\r\n/\r\nlcall clrsc ;Clear screen routine\r\nmov R3, #0\r\nmov R4, #0B8H\r\n/\r\n\r\n}\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid lcd_clear(void)\r\n{\r\nchar page,col/,i/;\r\n\r\nfor(page=0;page<=Max_page;page++)\r\n\r\n\t{\r\n\tlcd_set_page(page);\r\n\tlcd_set_col(0);\r\n\tfor(col=0;col<=Max_Col;col++)\r\n \t{\r\n \tdata1_wr(0x00);\r\n\t \tdata2_wr(0x00);\r\n \t}\r\n } \r\n}\r\n\r\n\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid lcd_on(void) \r\n{\r\nlcd1_wr(_DISPLAY_ON_);\r\nlcd2_wr(_DISPLAY_ON_);\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid lcd_off(void)\r\n{\r\nlcd1_wr(_DISPLAY_OFF_);\r\nlcd2_wr(_DISPLAY_OFF_);\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid lcd_out(char adr)\r\n{\r\nchar* ptr0;\r\nchar* ptr1;\r\nchar i,n;\r\nptr0=adr;\r\nptr1=adr+61;\r\nlcd_set_raw(0);\r\n\r\nfor(n=0;n<=3;n++)\r\n\t{\r\n\tptr0=adr+(122(unsigned)n);\r\n\tptr1=ptr0+61;\r\n\tlcd_set_page(n);\r\n\tlcd_set_col(0);\r\n\tfor(i=0;i<61;i++)\r\n\t\t{\r\n\t\tdata1_wr(ptr0);\r\n\t\tdata2_wr(ptr1);\r\n\t\tptr0++;\r\n\t\tptr1++;\r\n\t \t}\r\n\t}\r\n}\r\n\r\n" }, { "alpha_fraction": 0.7979274392127991, "alphanum_fraction": 0.7979274392127991, "avg_line_length": 30.5, "blob_id": "d57bf18d3bdbd43e796d94db3dd243ab9aa5ab06", "content_id": "f4f00c99c56ecf98ca4f08e7e3fce689eabd91df", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 193, "license_type": "no_license", "max_line_length": 36, "num_lines": 6, "path": "/SOFT/UKU/2/curr_version.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "extern const short HARDVARE_VERSION;\r\nextern const short SOFT_VERSION;\r\nextern const short BUILD;\r\nextern const short BUILD_YEAR;\r\nextern const short BUILD_MONTH;\r\nextern const short BUILD_DAY;" }, { "alpha_fraction": 0.5416012406349182, "alphanum_fraction": 0.5729984045028687, "avg_line_length": 17.84375, "blob_id": "fba330d94d00e3a96dc007030e265c901f449bc6", "content_id": "352c355dc1f15a46d36fd3848e945bae20e77daf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 637, "license_type": "no_license", "max_line_length": 58, "num_lines": 32, "path": "/SOFT/UKU/2rki/watchdog.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include <LPC21XX.h>\r\n#include \"watchdog.h\"\r\n\r\n//-----------------------------------------------\r\nvoid watchdog_init(unsigned long f,unsigned long time_out)\r\n{\r\nunsigned long tempUL;\r\nunsigned \tcurrent_interrupt_status;\r\ntempUL=f/4000UL;\r\ntempUL=time_out;\r\nWDTC=tempUL;\r\nWDMOD = 0x03;\r\n\r\nVICProtection = 0; \r\ncurrent_interrupt_status = VICIntEnable; \r\nVICIntEnClr = 0xffffffff; \r\n\r\nWDFEED = 0xAA; \r\nWDFEED = 0x55;\r\n\r\nVICIntEnable = current_interrupt_status;\r\nVICProtection = 1;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid watchdog_reset()\r\n{\r\n__disable_irq();\t\r\nWDFEED = 0xAA; \r\nWDFEED = 0x55;\r\n__enable_irq();\r\n}\r\n\r\n" }, { "alpha_fraction": 0.4890173375606537, "alphanum_fraction": 0.6559537649154663, "avg_line_length": 23.269006729125977, "blob_id": "8177a4347f3574f38b45dba4317444870bfb8979", "content_id": "856c30dadcb584f7e6179fa1db00aa492f2a6c57", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 4325, "license_type": "no_license", "max_line_length": 102, "num_lines": 171, "path": "/SOFT/UKU/2rki/mcp2515.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\n#define MCP2515_CS 1\r\n#define MCP2515_CS_ON LPC_GPIO0->FIODIR\|=(1UL<<MCP2515_CS);LPC_GPIO0->FIOCLR\|=(1UL<<MCP2515_CS);\r\n#define MCP2515_CS_OFF LPC_GPIO0->FIODIR\|=(1UL<<MCP2515_CS);LPC_GPIO0->FIOSET\|=(1UL<<MCP2515_CS);\r\n\r\n\r\n\r\n\r\n//#if(KAN_XTAL==8)\r\n//#define CNF1_init\t0xc3 /0b11000011/ //tq=500ns //8MHz\r\n//#define CNF2_init\t0xfb /0b11111011/ //Ps1=7tq,Pr=2tq \r\n//#define CNF3_init\t0x02 /0b00000010/ //Ps2=6tq \r\n//#elif(KAN_XTAL==10)\r\n#define CNF1_init\t0xc3 /0b11000011/ //tq=500ns //10MHz\r\n#define CNF2_init\t0xfe /0b11111110/ //Ps1=7tq,Pr=2tq \r\n#define CNF3_init\t0x03 /0b00000011/ //Ps2=6tq\r\n//#elif(KAN_XTAL==20)\r\n//#define CNF1_init\t0xc7 /0b11000111/ //tq=500ns //20MHz\r\n//#define CNF2_init\t0xfe /0b11111110/ //Ps1=7tq,Pr=2tq \r\n//#define CNF3_init\t0x03 /0b00000011/ //Ps2=6tq\r\n//#endif\r\n\r\n\r\n\r\n\r\n\r\n#define RXF0SIDH\t0x00\r\n#define RXF0SIDL\t0x01\r\n#define RXF0EID8\t0x02\r\n#define RXF0EID0\t0x03\r\n#define RXF1SIDH\t0x04\r\n#define RXF1SIDL\t0x05\r\n#define RXF1EID8\t0x06\r\n#define RXF1EID0\t0x07\r\n#define RXF2SIDH\t0x08\r\n#define RXF2SIDL\t0x09\r\n#define RXF2EID8\t0x0a\r\n#define RXF2EID0\t0x0b\r\n#define BFPCTRL\t0x0c\r\n#define TXRTSCTRL\t0x0d\r\n#define CANSTAT\t0x0e\r\n#define CANCTRL\t0x0f\r\n\r\n#define RXF3SIDH\t0x10\r\n#define RXF3SIDL\t0x11\r\n#define RXF3EID8\t0x12\r\n#define RXF3EID0\t0x13\r\n#define RXF4SIDH\t0x14\r\n#define RXF4SIDL\t0x15\r\n#define RXF4EID8\t0x16\r\n#define RXF4EID0\t0x17\r\n#define RXF5SIDH\t0x18\r\n#define RXF5SIDL\t0x19\r\n#define RXF5EID8\t0x1a\r\n#define RXF5EID0\t0x1b\r\n#define TEC\t\t0x1c\r\n#define REC\t\t0x1d \r\n\r\n#define RXM0SIDH\t0x20\r\n#define RXM0SIDL\t0x21\r\n#define RXM0EID8\t0x22\r\n#define RXM0EID0\t0x23\r\n#define RXM1SIDH\t0x24\r\n#define RXM1SIDL\t0x25\r\n#define RXM1EID8\t0x26\r\n#define RXM1EID0\t0x27\r\n#define CNF3\t\t0x28 \r\n#define CNF2\t\t0x29\r\n#define CNF1\t\t0x2a\r\n#define CANINTE\t0x2b\r\n#define CANINTF\t0x2c\r\n#define EFLG\t\t0x2d\r\n\r\n#define TXB0CTRL\t0x30\r\n#define TXB0SIDH\t0x31\r\n#define TXB0SIDL\t0x32\r\n#define TXB0EID8\t0x33\r\n#define TXB0EID0\t0x34\r\n#define TXB0DLC\t0x35\r\n#define TXB0D0\t\t0x36\r\n#define TXB0D1\t\t0x37\r\n#define TXB0D2\t\t0x38 \r\n#define TXB0D3\t\t0x39\r\n#define TXB0D4\t\t0x3a\r\n#define TXB0D5\t\t0x3b\r\n#define TXB0D6\t\t0x3c\r\n#define TXB0D7\t\t0x3d\r\n\r\n#define TXB1CTRL\t0x40\r\n#define TXB1SIDH\t0x41\r\n#define TXB1SIDL\t0x42\r\n#define TXB1EID8\t0x43\r\n#define TXB1EID0\t0x44\r\n#define TXB1DLC\t0x45\r\n#define TXB1D0\t\t0x46\r\n#define TXB1D1\t\t0x47\r\n#define TXB1D2\t\t0x48 \r\n#define TXB1D3\t\t0x49\r\n#define TXB1D4\t\t0x4a\r\n#define TXB1D5\t\t0x4b\r\n#define TXB1D6\t\t0x4c\r\n#define TXB1D7\t\t0x4d\r\n\r\n#define TXB2CTRL\t0x50\r\n#define TXB2SIDH\t0x51\r\n#define TXB2SIDL\t0x52\r\n#define TXB2EID8\t0x53\r\n#define TXB2EID0\t0x54\r\n#define TXB2DLC\t0x55\r\n#define TXB2D0\t\t0x56\r\n#define TXB2D1\t\t0x57\r\n#define TXB2D2\t\t0x58 \r\n#define TXB2D3\t\t0x59\r\n#define TXB2D4\t\t0x5a\r\n#define TXB2D5\t\t0x5b\r\n#define TXB2D6\t\t0x5c\r\n#define TXB2D7\t\t0x5d\r\n\r\n#define RXB0CTRL\t0x60\r\n#define RXB0SIDH\t0x61\r\n#define RXB0SIDL\t0x62\r\n#define RXB0EID8\t0x63\r\n#define RXB0EID0\t0x64\r\n#define RXB0DLC\t0x65\r\n#define RXB0D0\t\t0x66\r\n#define RXB0D1\t\t0x67\r\n#define RXB0D2\t\t0x68 \r\n#define RXB0D3\t\t0x69\r\n#define RXB0D4\t\t0x6a\r\n#define RXB0D5\t\t0x6b\r\n#define RXB0D6\t\t0x6c\r\n#define RXB0D7\t\t0x6d\r\n\r\n#define RXB1CTRL\t0x70\r\n#define RXB1SIDH\t0x71\r\n#define RXB1SIDL\t0x72\r\n#define RXB1EID8\t0x73\r\n#define RXB1EID0\t0x74\r\n#define RXB1DLC\t0x75\r\n#define RXB1D0\t\t0x76\r\n#define RXB1D1\t\t0x77\r\n#define RXB1D2\t\t0x78 \r\n#define RXB1D3\t\t0x79\r\n#define RXB1D4\t\t0x7a\r\n#define RXB1D5\t\t0x7b\r\n#define RXB1D6\t\t0x7c\r\n#define RXB1D7\t\t0x7d\r\n\r\nextern char mcp2515_can_st,mcp2515_can_st_old;\r\nextern char MCP2515_RXBUFF[40];\r\nextern char bMCP2515_IN;\r\nextern char mcp2515_out_buff[8][8];\r\nextern char mcp2515_buff_wr_ptr;\r\nextern char mcp2515_buff_rd_ptr;\r\n\r\n\r\n//-----------------------------------------------\r\nvoid mcp2515_reset(void);\r\n//-----------------------------------------------\r\nchar mcp2515_write(char addr,char in);\r\n//-----------------------------------------------\r\nchar mcp2515_read(char addr);\r\n//-----------------------------------------------\r\nvoid mcp2515_bit_modify(char addr,char mask,char data);\r\n//-----------------------------------------------\r\nchar mcp2515_read_status(void);\r\n//-----------------------------------------------\r\nvoid mcp2515_rts(char in);\r\n//-----------------------------------------------\r\nvoid can_mcp2515_init(void);\r\n//-----------------------------------------------\r\nvoid can_mcp2515_hndl(void);\r\n\r\n" }, { "alpha_fraction": 0.3447943329811096, "alphanum_fraction": 0.669987142086029, "avg_line_length": 40.6301383972168, "blob_id": "0af638b12d31acfd18d42e39eb1b54a5c22ea24d", "content_id": "33f4384caa380605ece7b112b3332a4da579e01e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "INI", "length_bytes": 3112, "license_type": "no_license", "max_line_length": 65, "num_lines": 73, "path": "/SOFT/UKU/Олег-2021.02.12/WEB_old/OIDS.properties", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "command_byte=1.3.6.1.4.1.33183.1.2.8.1.0\r\ncommand_answer=1.3.6.1.4.1.33183.1.2.8.2.0\r\ncommand_id=1.3.6.1.4.1.33183.1.2.8.3.0\r\n\r\ncontrol_byte=1.3.6.1.4.1.33183.1.2.7.1.0\r\nspecfunctions=1.3.6.1.4.1.33183.1.2.7.2.0\r\n\r\npower_main.voltage=1.3.6.1.4.1.33183.1.2.1.1.0\r\npower_main.frequency=1.3.6.1.4.1.33183.1.2.1.2.0\r\npower_main.status=1.3.6.1.4.1.33183.1.2.1.3.0\r\n\r\nload.voltage=1.3.6.1.4.1.33183.14.3.1.0\r\nload.current=1.3.6.1.4.1.33183.14.3.2.0\r\n\r\npsus_count=1.3.6.1.4.1.33183.1.2.3.1.0\r\npsus_array.i.number=1.3.6.1.4.1.33183.1.2.3.2.1.1\r\npsus_array.i.voltage=1.3.6.1.4.1.33183.1.2.3.2.1.2\r\npsus_array.i.current=1.3.6.1.4.1.33183.1.2.3.2.1.3\r\npsus_array.i.temperature=1.3.6.1.4.1.33183.1.2.3.2.1.4\r\npsus_array.i.status=1.3.6.1.4.1.33183.1.2.3.2.1.11\r\n\r\nbatteries_count=1.3.6.1.4.1.33183.1.2.4.1.0\r\n\r\nbatteries_array.i.number=1.3.6.1.4.1.33183.1.2.4.2.1.1\r\nbatteries_array.i.voltage=1.3.6.1.4.1.33183.14.5.1.2\r\nbatteries_array.i.current=1.3.6.1.4.1.33183.1.2.4.2.1.3\r\nbatteries_array.i.temperature=1.3.6.1.4.1.33183.1.2.4.2.1.4\r\nbatteries_array.i.capacity=1.3.6.1.4.1.33183.1.2.4.2.1.5\r\nbatteries_array.i.charge=1.3.6.1.4.1.33183.1.2.4.2.1.6\r\nbatteries_array.i.status=1.3.6.1.4.1.33183.1.2.4.2.1.9\r\n\r\nexternal_temperature_count=1.3.6.1.4.1.33183.1.2.5.1.0\r\n\r\nexternal_temperature_array.i.number=1.3.6.1.4.1.33183.1.2.5.2.1.1\r\nexternal_temperature_array.i=1.3.6.1.4.1.33183.1.2.5.2.1.2\r\nexternal_temperature_array.i.status=1.3.6.1.4.1.33183.1.2.5.2.1.5\r\nexternal_jumper_count=1.3.6.1.4.1.33183.1.2.6.1.0\r\nexternal_jumper_array.i.number=1.3.6.1.4.1.33183.1.2.6.2.1.1\r\nexternal_jumper_array.i.status=1.3.6.1.4.1.33183.1.2.6.2.1.4\r\n\r\nevents_quantity=1.3.6.1.4.1.33183.1.2.9.1.0\r\n\r\nevents.i.device_type=1.3.6.1.4.1.33183.1.2.9.2.1.2\r\nevents.i.device_number=1.3.6.1.4.1.33183.1.2.9.2.1.3\r\nevents.i.event_type=1.3.6.1.4.1.33183.1.2.9.2.1.4\r\nevents.i.year_start=1.3.6.1.4.1.33183.1.2.9.2.1.5\r\nevents.i.month_start=1.3.6.1.4.1.33183.1.2.9.2.1.6\r\nevents.i.day_start=1.3.6.1.4.1.33183.1.2.9.2.1.7\r\nevents.i.hour_start=1.3.6.1.4.1.33183.1.2.9.2.1.8\r\nevents.i.minute_start=1.3.6.1.4.1.33183.1.2.9.2.1.9\r\nevents.i.second_start=1.3.6.1.4.1.33183.1.2.9.2.1.10\r\nevents.i.year_finished=1.3.6.1.4.1.33183.1.2.9.2.1.11\r\nevents.i.month_finished=1.3.6.1.4.1.33183.1.2.9.2.1.12\r\nevents.i.day_finished=1.3.6.1.4.1.33183.1.2.9.2.1.13\r\nevents.i.hour_finished=1.3.6.1.4.1.33183.1.2.9.2.1.14\r\nevents.i.minute_finished=1.3.6.1.4.1.33183.1.2.9.2.1.15\r\nevents.i.second_finished=1.3.6.1.4.1.33183.1.2.9.2.1.16\r\n\r\nextio_count=1.3.6.1.4.1.33183.1.2.10.1.0\r\nextio_status=1.3.6.1.4.1.33183.1.2.10.2.0\r\n\r\ninfo_device_code=1.3.6.1.4.1.33183.1.2.11.1.0\r\ninfo_serial_number=1.3.6.1.4.1.33183.1.2.11.\r\ninfo_location=1.3.6.1.4.1.33183.1.2.11.4.0\r\n\r\nextBoard.boardExists=1.3.6.1.4.1.33183.1.2.13.1.0\r\nextBoard.voltageInput1=1.3.6.1.4.1.33183.1.2.13.2.0\r\nextBoard.voltageInput2=1.3.6.1.4.1.33183.1.2.13.3.0\r\nextBoard.voltagePES=1.3.6.1.4.1.33183.1.2.13.4.0\r\nextBoard.totalPower=1.3.6.1.4.1.33183.1.2.13.5.0\r\nextBoard.currentPower=1.3.6.1.4.1.33183.1.2.13.6.0\r\nextBoard.activeInput=1.3.6.1.4.1.33183.1.2.13.7.0\r\nextBoard.fanSpeed=1.3.6.1.4.1.33183.1.2.13.8.0\r\n" }, { "alpha_fraction": 0.5056067109107971, "alphanum_fraction": 0.5525630712509155, "avg_line_length": 27.811941146850586, "blob_id": "d50df5c41d757bb0a8dd4bcaf59d3f65778727fc", "content_id": "3d3ae0e65d3fa245998fabf49c615f1856a76de3", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 19976, "license_type": "no_license", "max_line_length": 81, "num_lines": 670, "path": "/SOFT/UKU/Олег-2021.02.12/LPC_FullCAN_SW.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "/************************************************************************\r\nMODULE: LPC_FullCAN_SW\r\nCONTAINS: Philips LPC2000 CAN interface driver.\r\n The first revisions of the Philips LPC2000 with CAN interface\r\n do NOT support the FullCAN mode in hardware. This driver \r\n implements the FullCAN mode in software.\r\n\t\t Compiled and Tested with Keil Tools www.keil.com\r\nCOPYRIGHT: Embedded Systems Academy, Inc. 2004.\r\nLICENSE: THIS VERSION CREATED FOR FREE DISTRIBUTION\r\n\t\t FOR PHILIPS SEMICONDUCTORS www.philipsmcu.com\r\n FOR KEIL SOFTWARE www.keil.com\r\nVERSION: 1.01, Pf 19-APR-04\r\n---------------------------------------------------------------------------\r\nHISTORY: 1.01, Pf 18-APR-04, Added Timer and LED output\r\nHISTORY: 1.00, Pf 16-APR-04, First published release\r\n***********************************************************************/ \r\n\r\n#include <LPC21XX.H> // LPC21XX Peripheral Registers\r\n#include \"LPC_FullCAN_SW.h\"\r\n\r\n\r\n/**********************************************************************\r\nGLOBAL VARIABLES\r\n***********************************************************************/ \r\n\r\n// Counts number of filters (CAN message objects) used so far\r\nshort volatile gCANFilter = 0;\r\n\r\n// FullCAN Message List\r\nFULLCAN_MSG volatile gFullCANList[MAX_FILTERS];\r\n\r\n\r\n/**********************************************************************\r\nPUBLIC FUNCTIONS\r\n***********************************************************************/ \r\n\r\n/**********************************************************************\r\nInitialization of a CAN interface\r\nas described in LPC_FullCAN_SW.h\r\n************************************************************************/ \r\nshort FullCAN_Init (\r\n unsigned short can_port, // CAN interface to use\r\n unsigned short can_isrvect, // interrupt vector number to use for Rx ISR (0-15)\r\n unsigned int can_btr // CAN BTR value used to set CAN baud rate\r\n )\r\n{\r\nunsigned int pSFR; // pointer into SFR space\r\nunsigned int pSFR2; // pointer into SFR space\r\nunsigned int offset; // offset added to pSFR\r\n\r\n // Double check can_isrvect value\r\n if (can_isrvect > 15)\r\n { // Illegal value for can_isrvect\r\n return 0;\r\n }\r\n \r\n // Enable pins for selected CAN interface\r\n switch (can_port)\r\n {\r\n case 1:\r\n PINSEL1 \|= 0x00040000L; // Set bit 18\r\n offset = 0x00000000L; // Use 1st set of CAN registers\r\n break;\r\n#if (MAX_CANPORTS > 1)\r\n case 2:\r\n PINSEL1 \|= 0x00014000L; // Set bits 14 and 16\r\n offset = 0x00001000L; // Use 2nd set of CAN registers\r\n break;\r\n#endif\r\n#if (MAX_CANPORTS > 2)\r\n case 3:\r\n PINSEL1 \|= 0x00001800L; // Set bits 11 and 12\r\n offset = 0x00002000L; // Use 3rd set of CAN registers\r\n break;\r\n#endif\r\n#if (MAX_CANPORTS > 3)\r\n case 4:\r\n PINSEL0 \|= 0x0F000000L; // Set bits 24 to 27\r\n offset = 0x00003000L; // Use 4th set of CAN registers\r\n break;\r\n#endif\r\n default:\r\n return 0; // illegal value used\r\n }\r\n\r\n // Reset and disable all message filters\r\n gCANFilter = 0;\r\n // Acceptance Filter Mode Register = off !\r\n AFMR = 0x00000001L;\r\n\r\n pSFR = (unsigned int ) &C1MOD + offset; // Select Mode register\r\n pSFR = 1; // Go into Reset mode\r\n\r\n pSFR = (unsigned int ) &C1IER + offset; // Select Interrupt Enable Register\r\n pSFR = 0;// Disable All Interrupts\r\n\r\n pSFR = (unsigned int ) &C1GSR + offset; // Select Status Register\r\n pSFR = 0; // Clear Status register\r\n\r\n pSFR = (unsigned int ) &C1BTR + offset; // Select BTR Register\r\n pSFR = can_btr; // Set bit timing\r\n\r\n // Set and enable receive interrupt\r\n pSFR = (unsigned int ) &VICVectAddr0;\r\n pSFR += can_isrvect; // Set to desired interrupt vector\r\n \r\n pSFR2 = (unsigned int ) &VICVectCntl0;\r\n pSFR2 += can_isrvect; // Set to desired interrupt control\r\n\r\n switch (can_port)\r\n {\r\n case 1:\r\n // Set interrupt vector\r\n pSFR = (unsigned long) FullCAN_CANISR_Rx1; \r\n // Use this Interrupt for CAN Rx1 Interrupt\r\n pSFR2 = 0x20 \| 26;\r\n // Enable CAN Rx1 Interrupt\r\n VICIntEnable = 0x04000000L; \r\n break;\r\n#if (MAX_CANPORTS > 1)\r\n case 2:\r\n // Set interrupt vector\r\n pSFR = (unsigned long) FullCAN_CANISR_Rx2; \r\n // Use this Interrupt for CAN Rx2 Interrupt\r\n pSFR2 = 0x20 \| 27;\r\n // Enable CAN Rx2 Interrupt\r\n VICIntEnable = 0x08000000L; \r\n break;\r\n#endif\r\n#if (MAX_CANPORTS > 2)\r\n case 3:\r\n // Set interrupt vector\r\n pSFR = (unsigned long) FullCAN_CANISR_Rx3; \r\n // Use this Interrupt for CAN Rx3 Interrupt\r\n pSFR2 = 0x20 \| 28;\r\n // Enable CAN Rx3 Interrupt\r\n VICIntEnable = 0x10000000L; \r\n break;\r\n#endif\r\n#if (MAX_CANPORTS > 3)\r\n case 4:\r\n // Set interrupt vector\r\n pSFR = (unsigned long) FullCAN_CANISR_Rx4; \r\n // Use this Interrupt for CAN Rx4 Interrupt\r\n pSFR2 = 0x20 \| 29;\r\n // Enable CAN Rx4 Interrupt\r\n VICIntEnable = 0x20000000L; \r\n break;\r\n#endif\r\n default:\r\n return 0; // illegal value used\r\n }\r\n\r\n pSFR = (unsigned int ) &C1IER + offset; // Select Interrupt register\r\n pSFR = 1; // Enable Receive Interrupt\r\n\r\n // Enter Normal Operating Mode\r\n pSFR = (unsigned int ) &C1MOD + offset; // Select Mode register\r\n pSFR = 0; // Operating Mode \r\n\r\n return 1;\r\n}\r\n \r\n\r\n/***********************************************************************\r\nSetting a CAN receive filter\r\nas described in LPC_FullCAN_SW.h\r\n************************************************************************/ \r\nshort FullCAN_SetFilter (\r\n unsigned short can_port, // CAN interface number\r\n unsigned int CANID // 11-bit CAN ID\r\n )\r\n{\r\nunsigned int p, n;\r\nunsigned int buf0, buf1;\r\nunsigned int ID_lower, ID_upper;\r\nunsigned int candata;\r\nunsigned int pAddr;\r\n\r\n // Double check can_port value\r\n if ((can_port < 1) \|\| (can_port > MAX_CANPORTS))\r\n { // Illegal value for can_port\r\n return 0;\r\n }\r\n\r\n // Acceptance Filter Mode Register = off !\r\n AFMR = 0x00000001L;\r\n\r\n if (gCANFilter == 0)\r\n { // First call, init entry zero\r\n gFullCANList[0].Dat1 = 0x000037FFL; // CAN 1, disabled and unused\r\n }\r\n if (gCANFilter >= MAX_FILTERS)\r\n {\r\n return 0;\r\n }\r\n\r\n CANID &= 0x000007FFL; // Mask out 11-bit ID\r\n CANID \|= (can_port << 13); // Put can_port info in bits 13-15\r\n\r\n // Filters must be sorted by interface, then by priority\r\n // new filter is sorted into array\r\n p = 0;\r\n while (p < gCANFilter) // loop through all existing filters \r\n {\r\n if ((gFullCANList[p].Dat1 & 0x0000FFFFL) > CANID)\r\n {\r\n break;\r\n }\r\n p++;\r\n }\r\n\r\n // insert new filter here\r\n buf0 = gFullCANList[p].Dat1; // save current entry\r\n gFullCANList[p].Dat1 = CANID; // insert the new entry\r\n\r\n // move all remaining entries one row up\r\n gCANFilter++;\r\n while (p < gCANFilter)\r\n {\r\n p++;\r\n buf1 = gFullCANList[p].Dat1;\r\n gFullCANList[p].Dat1 = buf0;\r\n buf0 = buf1;\r\n }\r\n\r\n // Now work on Acceptance Filter Configuration \r\n // Set CAN filter for 11-bit standard identifiers\r\n p = 0;\r\n\r\n // Set pointer for Standard Frame Individual\r\n // Standard Frame Explicit\r\n SFF_sa = p;\r\n\r\n pAddr = (unsigned int ) ACCEPTANCE_FILTER_RAM_BASE;\r\n for (n = 0; n < ((gCANFilter+1)/2); n++)\r\n {\r\n ID_lower = gFullCANList[n 2].Dat1 & 0x0000FFFFL;\r\n ID_upper = gFullCANList[n * 2 + 1].Dat1 & 0x0000FFFFL;\r\n candata = (ID_lower << 16) + ID_upper;\r\n pAddr = candata;\r\n p += 4;\r\n pAddr++;\r\n }\r\n\r\n // p is still pointing to ENDofTable;\r\n \r\n // Set pointer for Standard Frame Groups\r\n // Standard Frame Group Start Address Register\r\n SFF_GRP_sa = p;\r\n\r\n // Set pointer for Extended Frame Individual\r\n // Extended Frame Start Address Register\r\n EFF_sa = p;\r\n\r\n // Set pointer for Extended Frame Groups\r\n // Extended Frame Group Start Address Register\r\n EFF_GRP_sa = p;\r\n\r\n // Set ENDofTable \r\n // End of AF Tables Register\r\n ENDofTable = p;\r\n\r\n // Acceptance Filter Mode Register, start using filter\r\n AFMR = 0;\r\n \r\n return 1;\r\n}\r\n\r\n\r\n/***********************************************************************\r\nInstalling the CAN Err ISR\r\nas described in LPC_FullCAN_SW.h\r\n************************************************************************/ \r\nshort FullCAN_SetErrIRQ (\r\n unsigned short can_isrvect // interrupt vector number to use for Err ISR (0-15)\r\n )\r\n{\r\nunsigned int pSFR; // pointer into SFR space\r\n\r\n // Double check can_isrvect value\r\n if (can_isrvect > 15)\r\n { // Illegal value for can_isrvect\r\n return 0;\r\n }\r\n\r\n // Set and enable err interrupt\r\n pSFR = (unsigned int ) &VICVectAddr0;\r\n pSFR += can_isrvect; // Set to desired interrupt vector\r\n // Set interrupt vector\r\n pSFR = (unsigned long) FullCAN_CANISR_Err; \r\n \r\n pSFR = (unsigned int ) &VICVectCntl0;\r\n pSFR += can_isrvect; // Set to desired interrupt control\r\n pSFR = 0x20 \| 19;\r\n\r\n // Enable Interrupt source\r\n VICIntEnable = 0x00080000L; \r\n\r\n return 1;\r\n}\r\n\r\n\r\n/************************************************************************\r\nTransmitting a CAN message on a selected CAN interface\r\nas described in LPC_FullCAN_SW.h\r\n************************************************************************/ \r\nshort FullCAN_PushMessage (\r\n unsigned short can_port,\r\n FULLCAN_MSG pTransmitBuf\r\n )\r\n{\r\nunsigned int pAddr; \r\nunsigned int pCandata;\r\nunsigned int offset;\r\nunsigned char TXBufOffset;\r\n \r\n\r\n switch (can_port)\r\n {\r\n case 1:\r\n offset = 0x00000000L; // Use 1st set of CAN registers\r\n break;\r\n#if (MAX_CANPORTS > 1)\r\n case 2:\r\n offset = 0x00001000L; // Use 2nd set of CAN registers\r\n break;\r\n#endif\r\n#if (MAX_CANPORTS > 2)\r\n case 3:\r\n offset = 0x00002000L; // Use 3rd set of CAN registers\r\n break;\r\n#endif\r\n#if (MAX_CANPORTS > 3)\r\n case 4:\r\n offset = 0x00003000L; // Use 4th set of CAN registers\r\n break;\r\n#endif\r\n default:\r\n return 0; // illegal value used\r\n }\r\n\r\n pAddr = (unsigned int ) &C1SR + offset; // CANSR\r\n if (!(pAddr & 0x00000004L))\r\n { // Transmit Channel 1 is not available\r\n if (!(pAddr & 0x00000400L))\r\n { // Transmit Channel 2 is not available\r\n if (!(pAddr & 0x00040000L))\r\n { // Transmit Channel 3 is not available\r\n return 0; // No channel available\r\n }\r\n else\r\n {\r\n TXBufOffset = 0x08;\r\n }\r\n }\r\n else\r\n {\r\n TXBufOffset = 0x04;\r\n }\r\n }\r\n else\r\n {\r\n TXBufOffset = 0x00;\r\n } \r\n\r\n // Write DLC\r\n pAddr = (unsigned int ) &C1TFI1 + offset + TXBufOffset;\r\n pAddr = pTransmitBuf->Dat1 & 0x000F0000L; \r\n \r\n // Write CAN ID\r\n pAddr++;\r\n pAddr = pTransmitBuf->Dat1 & 0x000007FFL;\r\n \r\n // Write first 4 data bytes \r\n pCandata = (unsigned int ) &(pTransmitBuf->DatA);\r\n pAddr++;\r\n pAddr = pCandata;\r\n\r\n // Write second 4 data bytes \r\n pCandata++;\r\n pAddr++;\r\n pAddr = pCandata;\r\n \r\n // Write transmission request\r\n pAddr = (unsigned int ) &C1CMR + offset;\r\n if (TXBufOffset == 0x00)\r\n {\r\n pAddr = 0x21; // Transmission Request Buf 1\r\n }\r\n else if (TXBufOffset == 0x04)\r\n {\r\n pAddr = 0x41; // Transmission Request Buf 2\r\n }\r\n else if (TXBufOffset == 0x08)\r\n {\r\n pAddr = 0x81; // Transmission Request Buf 3\r\n }\r\n else\r\n {\r\n return 0;\r\n }\r\n\r\n return 1;\r\n}\r\n\r\n/************************************************************************\r\nReceiving a CAN message\r\nas described in LPC_FullCAN_SW.h\r\n************************************************************************/ \r\nshort FullCAN_PullMessage (\r\n unsigned short can_port,\r\n FULLCAN_MSG pReceiveBuf\r\n )\r\n{\r\nunsigned short obj; // loop counter for message objects/filters\r\nunsigned int pSrc; // Source pointer\r\nunsigned int pDst; // Destination pointer\r\nunsigned int match; // Match value for can_port and semaphore\r\n\r\n // Double check can_port value\r\n if ((can_port < 1) \|\| (can_port > MAX_CANPORTS))\r\n { // Illegal value for can_port\r\n return 0;\r\n }\r\n\r\n // Initialize pointers\r\n pSrc = (unsigned int ) &(gFullCANList[0].Dat1);\r\n pDst = (unsigned int ) &(pReceiveBuf->Dat1);\r\n\r\n // Prepare match value for CAN interface\r\n match = can_port << 13;\r\n match \|= 0x03000000L; // Semaphore bits are 11b\r\n \r\n obj = 0; \r\n while (obj < gCANFilter)\r\n {\r\n // match can_port and semaphore set to 11?\r\n if ((pSrc & 0x0300E000L) == match)\r\n { // Object Updated since last access\r\n pSrc &= 0xFCFFFFFFL; // clear Semaphore\r\n\r\n pDst = pSrc; // Copy Dat1\r\n\r\n pSrc++; // set to gFullCANList[obj].DatA\r\n pDst++; // set to pReceiveBuf->DatA\r\n\r\n pDst = pSrc; // Copy DatA\r\n\r\n pSrc++; // set to gFullCANList[obj].DatB\r\n pDst++; // set to pReceiveBuf->DatB\r\n\r\n pDst = pSrc; // Copy DatB\r\n\r\n pSrc -= 2; // set back to gFullCANList[obj].Dat1\r\n pDst -= 2; // set back to &(pReceiveBuf->Dat1)\r\n\r\n if ((pSrc & 0x03000000L) == 0)\r\n { // Only return it, if not updated while reading\r\n return 1;\r\n }\r\n }\r\n obj ++; // Next message object buffer\r\n pSrc += 3; // set to gFullCANList[obj].Dat1\r\n }\r\n return 0; // Return False, no msg rcvd \r\n}\r\n\r\n\r\n/***********************************************************************\r\nPRIVATE FUNCTIONS\r\n***********************************************************************/ \r\n\r\n/**********************************************************************\r\nDOES: Interrupt Service Routine for CAN Errors\r\nGLOBALS: none\r\nRETURNS: nothing\r\n***********************************************************************/ \r\nvoid FullCAN_CANISR_Err (\r\n void\r\n ) \r\n{\r\n // DEBUG VERSION: do not return from Errors\r\n // Replace this with application specific error handling\r\n while (1)\r\n { \r\n }\r\n VICVectAddr = 0xFFFFFFFFL; // acknowledge Interrupt\r\n}\r\n\r\n\r\n/**********************************************************************\r\nDOES: Interrupt Service Routine for CAN receive on CAN interface 1\r\nGLOBALS: Copies the received message into the gFullCANList[] array\r\n Handles semaphore bits as described in LPC user manual\r\nRETURNS: nothing\r\n************************************************************************/ \r\nvoid FullCAN_CANISR_Rx1 (\r\n void\r\n ) \r\n{\r\nunsigned int buf;\r\nunsigned int pDest;\r\n\r\n if (!(C1RFS & 0xC0000400L))\r\n { // 11-bit ID, no RTR, matched a filter\r\n\r\n // initialize destination pointer\r\n // filter number is in lower 10 bits of C1RFS\r\n pDest = (unsigned int ) &(gFullCANList[(C1RFS & 0x000003FFL)].Dat1);\r\n \r\n // calculate contents for first entry into FullCAN list\r\n buf = C1RFS & 0xC00F0000L; // mask FF, RTR and DLC\r\n buf \|= 0x01002000L; // set semaphore to 01b and CAN port to 1\r\n buf \|= C1RID & 0x000007FFL; // get CAN message ID\r\n\r\n // now copy entire message to FullCAN list\r\n pDest = buf; \r\n pDest++; // set to gFullCANList[(C1RFS & 0x000003FFL)].DatA\r\n pDest = C1RDA; \r\n pDest++; // set to gFullCANList[(C1RFS & 0x000003FFL)].DatB\r\n pDest = C1RDB; \r\n\r\n // now set the sempahore to complete\r\n buf \|= 0x03000000L; // set semaphore to 11b\r\n pDest -= 2; // set to gFullCANList[(C1RFS & 0x000003FFL)].Dat1\r\n pDest = buf; \r\n }\r\n\r\n C1CMR = 0x04; // release receive buffer\r\n VICVectAddr = 0xFFFFFFFFL; // acknowledge Interrupt\r\n}\r\n\r\n\r\n#if (MAX_CANPORTS > 1)\r\n/***********************************************************************\r\nDOES: Interrupt Service Routine for CAN receive on CAN interface 2\r\nGLOBALS: Copies the received message into the gFullCANList[] array\r\n Handles semaphore bits as described in LPC user manual\r\nRETURNS: nothing\r\n************************************************************************/ \r\nvoid FullCAN_CANISR_Rx2 (\r\n void\r\n ) \r\n{\r\nunsigned int buf;\r\nunsigned int pDest;\r\n\r\n if (!(C2RFS & 0xC0000400L))\r\n { // 11-bit ID, no RTR, matched a filter\r\n\r\n // initialize destination pointer\r\n // filter number is in lower 10 bits of C2RFS\r\n pDest = (unsigned int ) &(gFullCANList[(C2RFS & 0x000003FFL)].Dat1);\r\n \r\n // calculate contents for first entry into FullCAN list\r\n buf = C2RFS & 0xC00F0000L; // mask FF, RTR and DLC\r\n buf \|= 0x01004000L; // set semaphore to 01b and CAN port to 2\r\n buf \|= C2RID & 0x000007FFL; // get CAN message ID\r\n\r\n // now copy entire message to FullCAN list\r\n pDest = buf; \r\n pDest++; // set to gFullCANList[(C2RFS & 0x000003FFL)].DatA\r\n pDest = C2RDA; \r\n pDest++; // set to gFullCANList[(C2RFS & 0x000003FFL)].DatB\r\n pDest = C2RDB; \r\n\r\n // now set the sempahore to complete\r\n buf \|= 0x03000000L; // set semaphore to 11b\r\n pDest -= 2; // set to gFullCANList[(C2RFS & 0x000003FFL)].Dat1\r\n pDest = buf; \r\n }\r\n\r\n C2CMR = 0x04; // release receive buffer\r\n VICVectAddr = 0xFFFFFFFFL; // acknowledge Interrupt\r\n}\r\n#endif // MAX_CANPORTS > 1\r\n\r\n\r\n#if (MAX_CANPORTS > 2)\r\n/***********************************************************************\r\nDOES: Interrupt Service Routine for CAN receive on CAN interface 3\r\nGLOBALS: Copies the received message into the gFullCANList[] array\r\n Handles semaphore bits as described in LPC user manual\r\nRETURNS: nothing\r\n************************************************************************/ \r\nvoid FullCAN_CANISR_Rx3 (\r\n void\r\n ) \r\n{\r\nunsigned int buf;\r\nunsigned int pDest;\r\n\r\n if (!(C3RFS & 0xC0000400L))\r\n { // 11-bit ID, no RTR, matched a filter\r\n\r\n // initialize destination pointer\r\n // filter number is in lower 10 bits of C3RFS\r\n pDest = (unsigned int ) &(gFullCANList[(C3RFS & 0x000003FFL)].Dat1);\r\n \r\n // calculate contents for first entry into FullCAN list\r\n buf = C3RFS & 0xC00F0000L; // mask FF, RTR and DLC\r\n buf \|= 0x01006000L; // set semaphore to 01b and CAN port to 3\r\n buf \|= C3RID & 0x000007FFL; // get CAN message ID\r\n\r\n // now copy entire message to FullCAN list\r\n pDest = buf; \r\n pDest++; // set to gFullCANList[(C3RFS & 0x000003FFL)].DatA\r\n pDest = C3RDA; \r\n pDest++; // set to gFullCANList[(C3RFS & 0x000003FFL)].DatB\r\n pDest = C3RDB; \r\n\r\n // now set the sempahore to complete\r\n buf \|= 0x03000000L; // set semaphore to 11b\r\n pDest -= 2; // set to gFullCANList[(C3RFS & 0x000003FFL)].Dat1\r\n pDest = buf; \r\n }\r\n\r\n C3CMR = 0x04; // release receive buffer\r\n VICVectAddr = 0xFFFFFFFFL; // acknowledge Interrupt\r\n}\r\n#endif // MAX_CANPORTS > 2\r\n\r\n\r\n#if (MAX_CANPORTS > 3)\r\n/***********************************************************************\r\nDOES: Interrupt Service Routine for CAN receive on CAN interface 4\r\nGLOBALS: Copies the received message into the gFullCANList[] array\r\n Handles semaphore bits as described in LPC user manual\r\nRETURNS: nothing\r\n************************************************************************/ \r\nvoid FullCAN_CANISR_Rx4 (\r\n void\r\n ) \r\n{\r\nunsigned int buf;\r\nunsigned int pDest;\r\n\r\n if (!(C4RFS & 0xC0000400L))\r\n { // 11-bit ID, no RTR, matched a filter\r\n\r\n // initialize destination pointer\r\n // filter number is in lower 10 bits of C4RFS\r\n pDest = (unsigned int ) &(gFullCANList[(C4RFS & 0x000003FFL)].Dat1);\r\n \r\n // calculate contents for first entry into FullCAN list\r\n buf = C4RFS & 0xC00F0000L; // mask FF, RTR and DLC\r\n buf \|= 0x01008000L; // set semaphore to 01b and CAN port to 4\r\n buf \|= C2RID & 0x000007FFL; // get CAN message ID\r\n\r\n // now copy entire message to FullCAN list\r\n pDest = buf; \r\n pDest++; // set to gFullCANList[(C4RFS & 0x000003FFL)].DatA\r\n pDest = C4RDA; \r\n pDest++; // set to gFullCANList[(C4RFS & 0x000003FFL)].DatB\r\n pDest = C4RDB; \r\n\r\n // now set the sempahore to complete\r\n buf \|= 0x03000000L; // set semaphore to 11b\r\n pDest -= 2; // set to gFullCANList[(C4RFS & 0x000003FFL)].Dat1\r\n pDest = buf; \r\n }\r\n\r\n C4CMR = 0x04; // release receive buffer\r\n VICVectAddr = 0xFFFFFFFFL; // acknowledge Interrupt\r\n}\r\n#endif // MAX_CANPORTS > 4\r\n\r\n\r\n/----------------------- END OF FILE ----------------------------------/\r\n\r\n" }, { "alpha_fraction": 0.35271191596984863, 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"command_byte=1.3.6.1.4.1.33183.14.8.1.0\r\ncommand_answer=1.3.6.1.4.1.33183.14.8.2.0\r\ncommand_id=1.3.6.1.4.1.33183.14.8.3.0\r\n\r\ncontrol_byte=1.3.6.1.4.1.33183.14.6.1.0\r\nspecfunctions=1.3.6.1.4.1.33183.14.6.2.0\r\n\r\npower_main.voltage=1.3.6.1.4.1.33183.14.2.1.0\r\npower_main.frequency=1.3.6.1.4.1.33183.14.2.2.0\r\npower_main.status=1.3.6.1.4.1.33183.14.2.3.0\r\n\r\nload.voltage=1.3.6.1.4.1.33183.14.3.1.0\r\nload.current=1.3.6.1.4.1.33183.14.3.2.0\r\n\r\npsus_count=1.3.6.1.4.1.33183.14.1.5.0\r\npsus_array.i.number=1.3.6.1.4.1.33183.14.4.1.1\r\npsus_array.i.voltage=1.3.6.1.4.1.33183.14.4.1.2\r\npsus_array.i.current=1.3.6.1.4.1.33183.14.4.1.3\r\npsus_array.i.temperature=1.3.6.1.4.1.33183.14.4.1.4\r\npsus_array.i.status=1.3.6.1.4.1.33183.14.4.1.5\r\n\r\nbatteries_count=1.3.6.1.4.1.33183.14.1.4.0\r\n\r\nbatteries_array.i.number=1.3.6.1.4.1.33183.14.5.1.1\r\nbatteries_array.i.voltage=1.3.6.1.4.1.33183.14.5.1.2\r\nbatteries_array.i.current=1.3.6.1.4.1.33183.14.5.1.3\r\nbatteries_array.i.temperature=1.3.6.1.4.1.33183.14.5.1.4\r\nbatteries_array.i.capacity=1.3.6.1.4.1.33183.14.5.1.5\r\nbatteries_array.i.charge=1.3.6.1.4.1.33183.14.5.1.6\r\nbatteries_array.i.status=1.3.6.1.4.1.33183.14.5.1.7\r\n\r\nexternal_temperature_count=1.3.6.1.4.1.33183.14.1.8.0\r\n\r\nexternal_temperature_array.i.number=1.3.6.1.4.1.33183.14.17.1.1\r\nexternal_temperature_array.i=1.3.6.1.4.1.33183.14.17.1.2\r\nexternal_temperature_array.i.status=1.3.6.1.4.1.33183.14.17.1.2\r\n\r\nexternal_jumper_count=1.3.6.1.4.1.33183.14.1.9.0\r\nexternal_jumper_array.i.number=1.3.6.1.4.1.33183.14.15.1.1\r\nexternal_jumper_array.i.status=1.3.6.1.4.1.33183.14.15.1.4\r\n\r\nevents_quantity=1.3.6.1.4.1.33183.1.2.9.1.0\r\n\r\nevents.i.device_type=1.3.6.1.4.1.33183.1.2.9.2.1.2\r\nevents.i.device_number=1.3.6.1.4.1.33183.1.2.9.2.1.3\r\nevents.i.event_type=1.3.6.1.4.1.33183.1.2.9.2.1.4\r\nevents.i.year_start=1.3.6.1.4.1.33183.1.2.9.2.1.5\r\nevents.i.month_start=1.3.6.1.4.1.33183.1.2.9.2.1.6\r\nevents.i.day_start=1.3.6.1.4.1.33183.1.2.9.2.1.7\r\nevents.i.hour_start=1.3.6.1.4.1.33183.1.2.9.2.1.8\r\nevents.i.minute_start=1.3.6.1.4.1.33183.1.2.9.2.1.9\r\nevents.i.second_start=1.3.6.1.4.1.33183.1.2.9.2.1.10\r\nevents.i.year_finished=1.3.6.1.4.1.33183.1.2.9.2.1.11\r\nevents.i.month_finished=1.3.6.1.4.1.33183.1.2.9.2.1.12\r\nevents.i.day_finished=1.3.6.1.4.1.33183.1.2.9.2.1.13\r\nevents.i.hour_finished=1.3.6.1.4.1.33183.1.2.9.2.1.14\r\nevents.i.minute_finished=1.3.6.1.4.1.33183.1.2.9.2.1.15\r\nevents.i.second_finished=1.3.6.1.4.1.33183.1.2.9.2.1.16\r\n\r\nextio_count=1.3.6.1.4.1.33183.14.1.8.0\r\nextio_status=1.3.6.1.4.1.33183.14.1.1.0\r\n\r\ninfo_device_code=1.3.6.1.4.1.33183.14.1.1.0\r\ninfo_serial_number=1.3.6.1.4.1.33183.14.1.2.0\r\ninfo_location=1.3.6.1.4.1.33183.14.1.3.0\r\ninfo_model_name=1.3.6.1.4.1.33183.14.1.3.0\r\n\r\nextBoard.boardExists=1.3.6.1.4.1.33183.14.1.1.0\r\nextBoard.voltageInput1=1.3.6.1.4.1.33183.14.1.1.0\r\nextBoard.voltageInput2=1.3.6.1.4.1.33183.14.1.1.0\r\nextBoard.voltagePES=1.3.6.1.4.1.33183.14.1.1.0\r\nextBoard.totalPower=1.3.6.1.4.1.33183.14.1.1.0\r\nextBoard.currentPower=1.3.6.1.4.1.33183.14.1.1.0\r\nextBoard.activeInput=1.3.6.1.4.1.33183.14.1.1.0\r\nextBoard.fanSpeed=1.3.6.1.4.1.33183.14.1.1.0\r\n" }, { "alpha_fraction": 0.41456952691078186, "alphanum_fraction": 0.5018212199211121, "avg_line_length": 24.091413497924805, "blob_id": "504a2ff70fbeb6d1f1cc7a8d9a0e2d1109fcaeac", "content_id": "55107f5138cb1ac830aeea5d1137a67384610124", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 18534, "license_type": "no_license", "max_line_length": 82, "num_lines": 722, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/tempo.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "\t\t\t\t\telse if(ind==iAusw)\n\t{\n\tif(AUSW_MAIN==6024)\t\tptrs[0]=\" ИБЭП220/60-24A \";\n\telse if(AUSW_MAIN==6012)\tptrs[0]=\" ИБЭП220/60-12A \";\n\telse if(AUSW_MAIN==4824)\tptrs[0]=\" ИБЭП220/48-24A \";\n\telse if(AUSW_MAIN==4812)\tptrs[0]=\" ИБЭП220/48-12A \";\n\telse if(AUSW_MAIN==6010)\tptrs[0]=\" ИБЭП220/60-10A \";\n\telse if(AUSW_MAIN==6005)\tptrs[0]=\" ИБЭП220/60-5A \";\n\telse if(AUSW_MAIN==4810)\tptrs[0]=\" ИБЭП220/48-10A \";\n\telse if(AUSW_MAIN==4805)\tptrs[0]=\" ИБЭП220/48-5A \";\n\telse if(AUSW_MAIN==2424)\tptrs[0]=\" ИБЭП220/24-24A \";\n\telse if(AUSW_MAIN==2412)\tptrs[0]=\" ИБЭП220/24-12A \";\n\telse if(AUSW_MAIN==4840)\tptrs[0]=\" ИБЭП220/48-40A \";\n\telse if(AUSW_MAIN==6030)\tptrs[0]=\" ИБЭП220/60-30A \";\n\telse if(AUSW_MAIN==4820)\tptrs[0]=\" ИБЭП220/48-20A \";\n\telse if(AUSW_MAIN==6015)\tptrs[0]=\" ИБЭП220/60-15A \";\n\telse if(AUSW_MAIN==2450)\tptrs[0]=\" ИБЭП220/24-50A \";\n\telse if(AUSW_MAIN==2425)\tptrs[0]=\" ИБЭП220/24-25A \";\t\n\telse if(AUSW_MAIN==2424)\tptrs[0]=\" ИБЭП220/24-24A \";\n\telse if(AUSW_MAIN==2412)\tptrs[0]=\" ИБЭП220/24-12A \";\n\n\telse ptrs[0]=\" Тип неизвестен \";\n\t\n\tptrs[1]=\"Дата изгот. 0!/0@/0#\";\n\t\n\tptrs[2]=\"шасси S/N00000? \";\n\t\n\tptrs[3]=\"УКУ202.+( S/N00000) \";\n\t\n\tptrs[4]=\"ПО v [ \";\n\t\n\tptrs[5]=\"БПС1 - S/N00000< \";\n\t\n\tptrs[6]=\"БПС2 - S/N00000> \";\n\t\n\tptrs[7]=\"RS232 v $ \";\n\n\tptrs[8]=\"CAN PDH - v % \";\n\t\n\tptrs[9]=\"CAN SDH - v ^ \";\n\t\n\tptrs[10]=\"Ethernet- v & \";\n\n\tptrs[11]=\" Выход \";\t\t\n\t\n\t\n\tbgnd_par(ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\t\n\tif(index_set==8)lcd_buffer[60]=1;\n\t/long2lcdyx_mmm(AUSW_BPS2_NUMBER,3,9,0);\n\tlong2lcdyx_mmm(lc640_read_long(EE_AUSW_BPS2_NUMBER),3,19,0);/\n\t\n\tif(AUSW_DAY<32)int2lcd(AUSW_DAY,'!',0);\n\telse sub_bgnd(\"\",'!',-1);\n\tif(AUSW_MONTH<13)int2lcd(AUSW_MONTH,'@',0);\n\telse sub_bgnd(\"\",'@',-1);\n\tif(AUSW_YEAR<100)int2lcd(AUSW_YEAR,'#',0);\n\telse sub_bgnd(\"\",'#',-1);\t\n\n\tif(AUSW_MAIN_NUMBER>=1000000)sub_bgnd(\"****\",'?',-5);\n\telse long2lcd_mmm(AUSW_MAIN_NUMBER,'?',0);\n\n\t/if(AUSW_UKU>=1000) sub_bgnd(\"*\",'+',-2);\n\telse int2lcd(AUSW_UKU,'+',0);\n\n\tif(AUSW_UKU_SUB>=100) sub_bgnd(\"\",'(',-1);\n\telse int2lcd(AUSW_UKU_SUB,'(',0);/\n\tint2lcd(UKU_VERSION/100,'+',0);\n\tint2lcd(HARDVARE_VERSION,'(',0);\n\t\n\tif(AUSW_UKU_NUMBER>=1000000)sub_bgnd(\"***\",')',-5);\n\telse long2lcd_mmm(AUSW_UKU_NUMBER,')',0);\n\n\tif(AUSW_UKU_NUMBER>=1000000)sub_bgnd(\"**\",')',-5);\n\telse long2lcd_mmm(AUSW_UKU_NUMBER,')',0);\n\t\n\tif(AUSW_BPS1_NUMBER>=1000000)sub_bgnd(\"**\",'<',-5);\n\telse long2lcd_mmm(AUSW_BPS1_NUMBER,'<',0);\t\n\t\n\tif(AUSW_BPS2_NUMBER>=1000000)sub_bgnd(\"***\",'>',-5);\n\telse long2lcd_mmm(AUSW_BPS2_NUMBER,'>',0);\t\n\n\t#ifdef SOFT \n\tint2lcd(SOFT,'[',2);\n\t#else \n\tsub_bgnd(\"---------\",'[',-4);\n\t#endif\n\n\t#ifdef RS232_VERSION \n\tint2lcd(RS232_VERSION,'$',2);\n\t#else \n\tsub_bgnd(\"---------\",'$',-4);\n\t#endif\n\t\n\t#ifdef CAN_PDH_VERSION \n\tint2lcd(CAN_PDH_VERSION,'%',2);\n\t#else \n\tsub_bgnd(\"---------\",'%',-4);\n\t#endif\t\n\t//else if((AUSW_RS232<0)\|\|(AUSW_RS232>=1000))sub_bgnd(\"не установлен\",'$',-5);\n\t//else \n\n\t//if(AUSW_PDH==0)sub_bgnd(\"отсутствует\",'%',-5);\n//\telse if((AUSW_PDH<0)\|\|(AUSW_PDH>=1000))sub_bgnd(\"не установлен\",'%',-5);\n\t//else int2lcd(AUSW_PDH,'%',2);\n\n\t#ifdef CAN_SDH_VERSION \n\tint2lcd(CAN_SDH_VERSION,'^',2);\n\t#else \n\tsub_bgnd(\"---------\",'^',-4);\n\t#endif\t\n\t\n\t//if(AUSW_SDH==0)sub_bgnd(\"отсутствует\",'%',-5);\n\t//else if((AUSW_SDH<0)\|\|(AUSW_SDH>=1000))sub_bgnd(\"не установлен\",'%',-5);\n\t//else int2lcd(AUSW_SDH,'%',2);\n\n\t#ifdef ETH_VERSION \n\tint2lcd(ETH_VERSION,'&',2);\n\t#else \n\tsub_bgnd(\"---------\",'&',-4);\n\t#endif\t\n\t\n\tfl_simv(0,0,0);\n\t\n\t}\n\nelse if(ind==iAusw_set)\n\t{\n\tif(AUSW_MAIN==6024)\t\tptrs[0]=\" ИБЭП220/60-24A \";\n\telse if(AUSW_MAIN==6012)\tptrs[0]=\" ИБЭП220/60-12A \";\n\telse if(AUSW_MAIN==4824)\tptrs[0]=\" ИБЭП220/48-24A \";\n\telse if(AUSW_MAIN==4812)\tptrs[0]=\" ИБЭП220/48-12A \";\n\telse if(AUSW_MAIN==6010)\tptrs[0]=\" ИБЭП220/60-10A \";\n\telse if(AUSW_MAIN==6005)\tptrs[0]=\" ИБЭП220/60-5A \";\n\telse if(AUSW_MAIN==4810)\tptrs[0]=\" ИБЭП220/48-10A \";\n\telse if(AUSW_MAIN==4805)\tptrs[0]=\" ИБЭП220/48-5A \";\n\telse if(AUSW_MAIN==2424)\tptrs[0]=\" ИБЭП220/24-24A \";\n\telse if(AUSW_MAIN==2412)\tptrs[0]=\" ИБЭП220/24-12A \";\n\telse if(AUSW_MAIN==4840)\tptrs[0]=\" ИБЭП220/48-40A \";\n\telse if(AUSW_MAIN==6030)\tptrs[0]=\" ИБЭП220/60-30A \";\n\telse if(AUSW_MAIN==4820)\tptrs[0]=\" ИБЭП220/48-20A \";\n\telse if(AUSW_MAIN==6015)\tptrs[0]=\" ИБЭП220/60-15A \";\n\telse if(AUSW_MAIN==2450)\tptrs[0]=\" ИБЭП220/24-50A \";\n\telse if(AUSW_MAIN==2425)\tptrs[0]=\" ИБЭП220/24-25A \";\n\t\t\n\telse ptrs[0]=\" Тип неизвестен \";\n\t\n\tptrs[1]=\"Дата изгот. 0!/0@/0#\";\n\t\n\tptrs[2]=\"шасси S/N00000? \";\n\t\n\tptrs[3]=\"УКУ00+.0( S/N00000) \";\n\t\n\tptrs[4]=\"БПС1 - S/N00000< \";\n\t\n\tptrs[5]=\"БПС2 - S/N00000> \";\n\t\n\tptrs[6]=\" Выход \";\t\t\n\t\n\t\n\tbgnd_par(ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\t\n\t\n\t/long2lcdyx_mmm(AUSW_BPS2_NUMBER,3,9,0);\n\tlong2lcdyx_mmm(lc640_read_long(EE_AUSW_BPS2_NUMBER),3,19,0);/\n\n\tif(AUSW_DAY<32)int2lcd(AUSW_DAY,'!',0);\n\telse sub_bgnd(\"\",'!',-1);\n\tif(AUSW_MONTH<13)int2lcd(AUSW_MONTH,'@',0);\n\telse sub_bgnd(\"\",'@',-1);\n\tif(AUSW_YEAR<100)int2lcd(AUSW_YEAR,'#',0);\n\telse sub_bgnd(\"\",'#',-1);\t\n\t\n\tif(AUSW_MAIN_NUMBER>=1000000)sub_bgnd(\"****\",'?',-5);\n\telse long2lcd_mmm(AUSW_MAIN_NUMBER,'?',0);\n\t\n\t/if(AUSW_UKU>=1000) sub_bgnd(\"*\",'+',-2);\n\telse int2lcd(AUSW_UKU,'+',0);\n\n\tif(AUSW_UKU_SUB>=100) sub_bgnd(\"\",'(',-1);\n\telse int2lcd(AUSW_UKU_SUB,'(',0);/\n\t\n\tint2lcd(UKU_VERSION,'+',0);\n\tint2lcd(HARDVARE_VERSION,'(',0);\t\n\n\tif(AUSW_UKU_NUMBER>=1000000)sub_bgnd(\"***\",')',-5);\n\telse long2lcd_mmm(AUSW_UKU_NUMBER,')',0);\n\n\tif(AUSW_BPS1_NUMBER>=1000000)sub_bgnd(\"**\",'<',-5);\n\telse long2lcd_mmm(AUSW_BPS1_NUMBER,'<',0);\t\n\n\tif(AUSW_BPS2_NUMBER>=1000000)sub_bgnd(\"***\",'>',-5);\n\telse long2lcd_mmm(AUSW_BPS2_NUMBER,'>',0);\n\t\n\t\t\t\t\n\tif((index_set==3)&&(sub_ind==9))lcd_buffer[60]=1;\n\n\t\n\tif((sub_ind==0)&&(!index_set)) fl_simv(0,0,20);\t\n\telse if((sub_ind==1)&&(index_set<2))fl_simv(1-index_set,12,2);\n\telse if((sub_ind==2)&&(index_set<2))fl_simv(1-index_set,15,2);\n\telse if((sub_ind==3)&&(index_set<2))fl_simv(1-index_set,18,2);\n\t\n\telse if((sub_ind==4)&&(index_set<3)) fl_simv(2-index_set,10,10);\t\n\telse if((sub_ind==5)&&(index_set<4)) fl_simv(3-index_set,3,6);\t\n\telse if((sub_ind==6)&&(index_set<4)) fl_simv(3-index_set,10,10);\t\n\n\telse if((sub_ind==7)/&&(index_set<4)/) fl_simv(4-index_set,10,10);\t\n\telse if((sub_ind==8)/&&(index_set<4)/) fl_simv(5-index_set,10,10);\t\n\telse fl_simv(0,0,0);\t\n\t/\n\t\n\t\n\tptrs[1]=\"Дата изгот. - неизв.\";\n\tif((AUSW_YEAR<=99)\|\|(AUSW_MONTH<=12)\|\|(AUSW_DAY<=31))\n\t\t{\n\t\t\n\n\t\t}\t\n\t\n\t\n\tptrs[2]=\"шасси S/N - неизв. \";\n\tptrs[2]=\"шасси S/N - неизв. \";\n\tif(AUSW_MAIN_NUMBER<60000)\n\t\t{\n\t\tptrs[2]=\"шасси S/N - 00000? \";\n\t\t\n\t\t}\t\n\n\tptrs[3]=\"УКУ--+.-( S/N неуст)\";\n\tif(AUSW_UKU>1000) sub_bgnd(\"-.--\",'(',-3);\n\telse \n\t\t{\n\t\n\t\t}\n\tif(AUSW_UKU_SUB>99) sub_bgnd(\"-\",'(',0);\n\telse \n\t\t{\n\t\n\t\t}\t\t\n\tif(AUSW_UKU_NUMBER>30000)sub_bgnd(\"ст.\",')',-2);\n\telse\n\t\t{\n\t\tsub_bgnd(\"00000)\",')',-5);\n\t\t//int2lcd((signed short)AUSW_UKU_NUMBER,')',0);\n\t\t}\n\n\tptrs[4]=\"БПС1 - не установлен\";\n\tif(AUSW_BPS1<60000)\n\t\t{\n\t\tptrs[4]=\"БПС1 - S/N0000< \";\n\t\t\n\t\t}\n\t\t\n\tptrs[5]=\"БПС2 - не установлен\";\t\n\tif(AUSW_BPS2<60000)\n\t\t{\n\t\tptrs[5]=\"БПС2 - S/N0000> \";\n\t\t\n\t\t}\t\n\n\tif((AUSW_RS232==0)\|\|(AUSW_RS232>=1000))\n\t\t{\n\t\tptrs[6]=\"RS232 отсутствует \";\n\t\t}\n\telse ptrs[6]=\"RS232 - версия [\";\n\t\n\tif((AUSW_PDH==0)\|\|(AUSW_PDH>=1000))\n\t\t{\n\t\tptrs[7]=\"CAN PDH отсутствует \";\n\t\t}\n\telse ptrs[7]=\"CAN PDH - версия ]\";\n\t\n\tif((AUSW_SDH==0)\|\|(AUSW_SDH>=1000))\n\t\t{\n\t\tptrs[8]=\"CAN SDH отсутствует \";\n\t\t}\n\telse ptrs[8]=\"CAN SDH - версия )\";\t\t\n\t\n\t\n\tint2lcd((unsigned short)AUSW_MAIN_NUMBER,'?',0);\n\tif(AUSW_DAY<32)int2lcd(AUSW_DAY,'!',0);\n\telse sub_bgnd(\"\",'!',-1);\n\tif(AUSW_MONTH<13)int2lcd(AUSW_MONTH,'@',0);\n\telse sub_bgnd(\"\",'@',-1);\n\tif(AUSW_YEAR<100)int2lcd(AUSW_YEAR,'#',0);\n\telse sub_bgnd(\"*\",'#',-1);\n\tint2lcd((unsigned short)AUSW_BPS1,'<',0);\n\tint2lcd((unsigned short)AUSW_BPS2,'>',0);\n\tint2lcd(AUSW_UKU,'+',0);\n\tint2lcd(AUSW_UKU_SUB,'(',0);\n\tif(AUSW_UKU_NUMBER==0xffff)\n\t\t{\n\t\tsub_bgnd(\" \",')',0);\n\t\t}\n\telse\n\t\t{\n\t\tsub_bgnd(\" )\",')',-5);\n\t\tint2lcd((unsigned short)AUSW_UKU_NUMBER,')',0);\n\t\t}\n\t\n\t//int2lcdyx(AUSW_UKU,0,19,0);\n\t\n\tif(ind==iAusw_set)\n\t\t{\n\t\tif((sub_ind==0)&&(!index_set)) fl_simv(0,0,20);\n\t\t\n\t\telse if((sub_ind==1)&&(index_set<2))\n\t\t\t{\n\t\t\tif((AUSW_YEAR>99)&&(AUSW_MONTH>12)&&(AUSW_DAY>31)) fl_simv(1-index_set,14,6);\n\t\t\telse fl_simv(1,12,2);\n\t\t\t}\n\t\telse if((sub_ind==2)&&(index_set<2))\n\t\t\t{\n\t\t\tif((AUSW_YEAR>99)&&(AUSW_MONTH>12)&&(AUSW_DAY>31)) fl_simv(1-index_set,14,6);\n\t\t\telse fl_simv(1,15,2);\n\t\t\t}\t\n\t\telse if((sub_ind==3)&&(index_set<2))\n\t\t\t{\n\t\t\tif((AUSW_YEAR>99)&&(AUSW_MONTH>12)&&(AUSW_DAY>31)) fl_simv(1-index_set,14,6);\n\t\t\telse fl_simv(1,18,2);\n\t\t\t}\t\n\t\telse if((sub_ind==4)&&(index_set<3)) fl_simv(2-index_set,10,10);\t\n\t\telse if((sub_ind==5)&&(index_set<4)) fl_simv(3-index_set,3,6);\t\n\t\telse if((sub_ind==6)&&(index_set<4)) fl_simv(3-index_set,14,6);\t\t\t\t\n\t\t}/\n\t}\n\n\nelse if(ind==iAusw)\n\t{\n\tif(but==butD)\n\t\t{\n\t\tindex_set++;\n\t\tgran_char(&index_set,0,8);\n\t\t}\n\telse if(but==butU)\n\t\t{\n\t\tindex_set--;\n\t\tgran_char(&index_set,0,8);\n\t\t}\n\telse if(but==butD_)\n\t\t{\n\t\tindex_set=8;\n\t\t}\t\t\t\t\n\telse if(but==butE_)\n\t\t{\n\t\ttree_up(iAusw_prl,0,0,0);\n\t\tret(50);\n\t\tparol_init();\n\t\t}\t\n else if(index_set==8)\n\t {\n\t if(but==butE)\n\t {\n\t tree_down(0,0);\n\t ret(0);\n\t }\n\t }\t\t\n else if(but==butL)\n\t {\n tree_down(0,0);\n ret(0);\n\t }\t\t\t \t\n\t}\n\nelse if(ind==iAusw_set)\n\t{\n\tif(but==butD)\n\t\t{\n\t\tsub_ind++;\n\t\tif(sub_ind==5)sub_ind++;\n\t\tif(sub_ind==6)sub_ind++;\n\t\tgran_char(&sub_ind,0,9);\n\t\tif((sub_ind>6)&&(index_set<1))index_set=1;\n\t\tif((sub_ind>7)&&(index_set<2))index_set=2;\n\t\tif((sub_ind>8)&&(index_set<3))index_set=3;\n\t\t}\n\telse if(but==butU)\n\t\t{\n\t\tsub_ind--;\n\t\tif(sub_ind==6)sub_ind--;\n\t\tif(sub_ind==5)sub_ind--;\n\t\tgran_char(&sub_ind,0,9);\n\t\tif((sub_ind<5)&&(index_set>2))index_set=2;\n\t\tif((sub_ind<4)&&(index_set>1))index_set=1;\n\t\tif((sub_ind<1)&&(index_set))index_set=0;\n\t\t}\n\telse if(but==butD_)\n\t\t{\n\t\tsub_ind=9;\n\t\t}\t\t\t\n\telse if((but==butE_)\|\|((but==butE)&&(sub_ind==9)))\n\t\t{\n\t\tfl_simv(0,0,0);\n\t\ttree_down(-1,0);\n\t\tret(0);\n\t\t}\n\t\t\t\n else if(sub_ind==0)\n\t {\n/\t if((but==butR)\|\|(but==butR_))\n\t \t{\n\t\t\tif(AUSW_MAIN==4812)AUSW_MAIN=4824;\n\t else if(AUSW_MAIN==4824)AUSW_MAIN=6012;\n\t else if(AUSW_MAIN==6012)AUSW_MAIN=6024;\n\t else AUSW_MAIN=4812;\n\t lc640_write_int(EE_AUSW_MAIN,AUSW_MAIN);\n\t }\n\t else if((but==butL)\|\|(but==butL_))\n\t {\n\t if(AUSW_MAIN==4812)AUSW_MAIN=6024;\n\t else if(AUSW_MAIN==4824)AUSW_MAIN=4812;\n\t else if(AUSW_MAIN==6012)AUSW_MAIN=4824;\n\t else AUSW_MAIN=6012;\n\t lc640_write_int(EE_AUSW_MAIN,AUSW_MAIN);\n\t }/\n\n#if(UKU_VERSION==900)\n\n#ifdef _24_\n\n\n\t if((but==butR)\|\|(but==butR_))\n\t \t{\n\t\t\tif(AUSW_MAIN==2450)AUSW_MAIN=2425;\n\t else AUSW_MAIN=2450;\n\t lc640_write_int(EE_AUSW_MAIN,AUSW_MAIN);\n\t }\n\t else if((but==butL)\|\|(but==butL_))\n\t {\n\t\t\tif(AUSW_MAIN==2450)AUSW_MAIN=2425;\n\t else AUSW_MAIN=2450;\n\t lc640_write_int(EE_AUSW_MAIN,AUSW_MAIN);\n\t }\n\n#else\n\n\n\t if((but==butR)\|\|(but==butR_))\n\t \t{\n\t\t\tif(AUSW_MAIN==6024)AUSW_MAIN=4824;\n else if(AUSW_MAIN==4824)AUSW_MAIN=6012;\n else if(AUSW_MAIN==6012)AUSW_MAIN=4812;\n else if(AUSW_MAIN==4812)AUSW_MAIN=6040;\n else if(AUSW_MAIN==6040)AUSW_MAIN=4840;\n else if(AUSW_MAIN==4840)AUSW_MAIN=6020;\n else if(AUSW_MAIN==6020)AUSW_MAIN=4820;\n else AUSW_MAIN=6024;\n\t lc640_write_int(EE_AUSW_MAIN,AUSW_MAIN);\n\t }\n\t else if((but==butL)\|\|(but==butL_))\n\t {\n\t\t\tif(AUSW_MAIN==6024)AUSW_MAIN=4820;\n else if(AUSW_MAIN==4824)AUSW_MAIN=6024;\n else if(AUSW_MAIN==6012)AUSW_MAIN=4824;\n else if(AUSW_MAIN==4812)AUSW_MAIN=6012;\n else if(AUSW_MAIN==6040)AUSW_MAIN=4812;\n else if(AUSW_MAIN==4840)AUSW_MAIN=6040;\n else if(AUSW_MAIN==6020)AUSW_MAIN=4840;\n else AUSW_MAIN=6020;\n\t lc640_write_int(EE_AUSW_MAIN,AUSW_MAIN);\n\t }\n\n#endif\t\t\t\t\n#endif \n\n#if(UKU_VERSION==300)\n#ifdef _24_\n\n\t if((but==butR)\|\|(but==butR_))\n\t \t{\n\t\t\tif(AUSW_MAIN==2424)AUSW_MAIN=2412;\n\t else AUSW_MAIN=2424;\n\t lc640_write_int(EE_AUSW_MAIN,AUSW_MAIN);\n\t }\n\t else if((but==butL)\|\|(but==butL_))\n\t {\n\t\t\tif(AUSW_MAIN==2424)AUSW_MAIN=2412;\n\t else AUSW_MAIN=2424;\n\t lc640_write_int(EE_AUSW_MAIN,AUSW_MAIN);\n\t }\n\n#else\n\n\t if((but==butR)\|\|(but==butR_))\n\t \t{\n\t\t\tif(AUSW_MAIN==6010)AUSW_MAIN=4810;\n else if(AUSW_MAIN==4810)AUSW_MAIN=6005;\n else if(AUSW_MAIN==6005)AUSW_MAIN=4805;\n else AUSW_MAIN=6010;\n\t lc640_write_int(EE_AUSW_MAIN,AUSW_MAIN);\n\t }\n\t else if((but==butL)\|\|(but==butL_))\n\t {\n\t\t\tif(AUSW_MAIN==6010)AUSW_MAIN=4805;\n else if(AUSW_MAIN==4810)AUSW_MAIN=6010;\n else if(AUSW_MAIN==6005)AUSW_MAIN=4810;\n else AUSW_MAIN=6005;\n\t lc640_write_int(EE_AUSW_MAIN,AUSW_MAIN);\n\t }\n\n\n#endif\t\t\t\t\n#endif \n\t\t}\n\n\t \t \n\t \t\n\t \n else if(sub_ind==1)\n\t {\n\t speed=1;\n\t if(but==butR)\n\t {\n\t AUSW_DAY++;\n\t }\n\t else if(but==butR_)\n\t {\n\t AUSW_DAY+=2;\n\t\t }\n\t else if(but==butL)\n\t {\n\t AUSW_DAY--;\n\t\t }\n\t else if(but==butL_)\n\t {\n\t AUSW_DAY-=2;\n\t\t }\n\t\telse if(but==butLR)\n\t {\n\t lc640_write_int(EE_AUSW_DAY,LPC_RTC->DOM);\n\t lc640_write_int(EE_AUSW_MONTH,LPC_RTC->MONTH);\n\t lc640_write_int(EE_AUSW_YEAR,LPC_RTC->YEAR);\n\t sub_ind=4;\n\t\t } \n\t\tgran(&AUSW_DAY,1,31); \t\t \t\t \n\t\tlc640_write_int(EE_AUSW_DAY,AUSW_DAY); \t\n\t }\n\t \t\n else if(sub_ind==2)\n\t {\n\t speed=1;\n\t if(but==butR)\n\t {\n\t AUSW_MONTH++;\n\t }\n\t else if(but==butR_)\n\t {\n\t AUSW_MONTH+=2;\n\t\t }\n\t else if(but==butL)\n\t {\n\t AUSW_MONTH--;\n\t\t }\n\t else if(but==butL_)\n\t {\n\t AUSW_MONTH-=2;\n\t\t }\n\t\telse if(but==butLR)\n\t {\n\t lc640_write_int(EE_AUSW_DAY,LPC_RTC->DOM);\n\t lc640_write_int(EE_AUSW_MONTH,LPC_RTC->MONTH);\n\t lc640_write_int(EE_AUSW_YEAR,LPC_RTC->YEAR);\n\t sub_ind=4;\n\t\t }\t\t \n\t\tgran(&AUSW_MONTH,1,12); \t\t \t\t \n\t\tlc640_write_int(EE_AUSW_MONTH,AUSW_MONTH);\n\t }\t\t\n\t \n else if(sub_ind==3)\n\t {\n\t speed=1;\n\t if(but==butR)\n\t {\n\t AUSW_YEAR++;\n\t }\n\t else if(but==butR_)\n\t {\n\t AUSW_YEAR+=5;\n\t\t }\n\t else if(but==butL)\n\t {\n\t AUSW_YEAR--;\n\t\t }\n\t else if(but==butL_)\n\t {\n\t AUSW_YEAR-=5;\n\t\t }\n\t\telse if(but==butLR)\n\t {\n\t lc640_write_int(EE_AUSW_DAY,LPC_RTC->DOM);\n\t lc640_write_int(EE_AUSW_MONTH,LPC_RTC->MONTH);\n\t lc640_write_int(EE_AUSW_YEAR,LPC_RTC->YEAR);\n\t sub_ind=4;\n\t\t }\t\t \n\t\tgran(&AUSW_YEAR,1,12); \t\t \t\t \n\t\tlc640_write_int(EE_AUSW_YEAR,AUSW_YEAR);\n\t }\t\t \t\t\t \t\t\n\t \n else if(sub_ind==4)\n\t {\n\t speed=1;\n\t if(but==butR)\n\t {\n\t AUSW_MAIN_NUMBER++;\n\t }\n\t else if(but==butR_)\n\t {\n\t AUSW_MAIN_NUMBER+=10;\n\t\t }\n\t else if(but==butL)\n\t {\n\t AUSW_MAIN_NUMBER--;\n\t\t }\n\t else if(but==butL_)\n\t {\n\t AUSW_MAIN_NUMBER-=10;\n\t\t }\n\t\tgran_long(&AUSW_MAIN_NUMBER,9000,999999L); \t\t \t\t \n\t\tlc640_write_long(EE_AUSW_MAIN_NUMBER,AUSW_MAIN_NUMBER);\n\t\tlc640_write_long(EE_AUSW_UKU_NUMBER,AUSW_MAIN_NUMBER);\n\t }\t\t\t\t \t\t\n\n else if(sub_ind==6)\n\t {\n \tspeed=1;\n\t if(but==butR)\n\t {\n\t AUSW_UKU_NUMBER++;\n\t }\n\t else if(but==butR_)\n\t {\n\t AUSW_UKU_NUMBER+=10;\n\t\t }\n\t else if(but==butL)\n\t {\n\t AUSW_UKU_NUMBER--;\n\t\t }\n\t else if(but==butL_)\n\t {\n\t AUSW_UKU_NUMBER-=10;\n\t\t }\n\t\tgran_long(&AUSW_UKU_NUMBER,1,999999); \t\t \t\t \n\t\tlc640_write_long(EE_AUSW_UKU_NUMBER,AUSW_UKU_NUMBER);\n\t }\n\t \n else if(sub_ind==7)\n\t {\n \tspeed=1;\n\t if(but==butR)\n\t {\n\t AUSW_BPS1_NUMBER++;\n\t }\n\t else if(but==butR_)\n\t {\n\t AUSW_BPS1_NUMBER+=10;\n\t\t }\n\t else if(but==butL)\n\t {\n\t AUSW_BPS1_NUMBER--;\n\t\t }\n\t else if(but==butL_)\n\t {\n\t AUSW_BPS1_NUMBER-=10;\n\t\t }\n\t\tgran_long(&AUSW_BPS1_NUMBER,20000,999999); \t\t \t\t \n\t\tlc640_write_long(EE_AUSW_BPS1_NUMBER,AUSW_BPS1_NUMBER);\n\t }\t \n\t \n else if(sub_ind==8)\n\t {\n \tspeed=1;\n\t if(but==butR)\n\t {\n\t AUSW_BPS2_NUMBER++;\n\t }\n\t else if(but==butR_)\n\t {\n\t AUSW_BPS2_NUMBER+=10;\n\t\t }\n\t else if(but==butL)\n\t {\n\t AUSW_BPS2_NUMBER--;\n\t\t }\n\t else if(but==butL_)\n\t {\n\t AUSW_BPS2_NUMBER-=10;\n\t\t }\n\t\tgran_long(&AUSW_BPS2_NUMBER,20000,999999); \t\t \t\t \n\t\tlc640_write_long(EE_AUSW_BPS2_NUMBER,AUSW_BPS2_NUMBER);\n\t }\t \t \n\t \nelse if(sub_ind==9)\n\t {\n \tspeed=1;\n\t if(but==butR)\n\t {\n\t AUSW_RS232++;\n\t }\n\t else if(but==butR_)\n\t {\n\t AUSW_RS232+=10;\n\t\t }\n\t else if(but==butL)\n\t {\n\t AUSW_RS232--;\n\t\t }\n\t else if(but==butL_)\n\t {\n\t AUSW_RS232-=10;\n\t\t }\n\t\tgran(&AUSW_RS232,0,1000); \t\t \t\t \n\t\tlc640_write_long(EE_AUSW_BPS2_NUMBER,AUSW_BPS2_NUMBER);\n\t }\t\n\telse if(sub_ind==10)\n\t {\n\t if(but==butE)\n\t \t{\n\t \ttree_down(-1,0);\n\t \tret(0);\n\t \t}\n\t } \t \t \n\t}" }, { "alpha_fraction": 0.5755965113639832, "alphanum_fraction": 0.6604113578796387, "avg_line_length": 41.09701156616211, "blob_id": "b8f8ee33c9c27c48e9bce8bffa268d9c0294fcee", "content_id": "f106404a82a66e7eb20a8772fdc3321ffc4d4405", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 73462, "license_type": "no_license", "max_line_length": 203, "num_lines": 1505, "path": "/SOFT/UKU/Олег авг/08_13/modbus.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "\r\n#include \"snmp_data_file.h\" \n#include <lpc17xx.h>\n#include \"modbus.h\"\n//#include \"LPC17xx.H\"\n#include \"main.h\"\r\n#include \"control.h\"\n#include <string.h>\n\n#include \"eeprom_map.h\"\r\n#include \"rtl.h\"\r\n#include \"modbus_tcp.h\"\r\n#include \"25lc640.h\"\r\n#include \"sc16is7xx.h\"\r\n#include \"uart0.h\"\r\n#include \"avar_hndl.h\"\r\n\n#define MODBUS_RTU_PROT\t0\r\n\nextern int mem_copy (void dp, void sp, int len);\n\nunsigned char modbus_buf[20];\nshort modbus_crc16;\nchar modbus_timeout_cnt;\nchar bMODBUS_TIMEOUT;\nunsigned char modbus_rx_buffer[30];\t//Буфер, куда складывает принимаемые даннные обработчик прерывания по приему УАРТа \nunsigned char modbus_an_buffer[30]; \t//Буфер, куда они потом копируются для анализа\nunsigned char modbus_rx_buffer_ptr;\t//Указатель на текущую позицию принимающего буфера\nunsigned char modbus_rx_counter;\t\t//Количество принятых байт, используется при анализе целостности посылки и при расшифровке\n\nshort modbus_plazma;\t\t\t\t//Отладка\nshort modbus_plazma1;\t\t\t\t//Отладка\nshort modbus_plazma2;\t\t\t\t//Отладка\nshort modbus_plazma3;\t\t\t\t//Отладка\r\nshort modbus_plazma_p;\t\t\t\t//Отладка\nshort modbus_plazma_pp;\t\t\t\t//Отладка\r\n\r\nunsigned short modbus_rx_arg0;\t\t//встроенный в посылку первый аргумент\nunsigned short modbus_rx_arg1;\t\t//встроенный в посылку второй аргумент\nunsigned short modbus_rx_arg2;\t\t//встроенный в посылку третий аргумент\nunsigned short modbus_rx_arg3;\t\t//встроенный в посылку четвертый аргумент\r\n\r\nchar modbus_tx_buff[100];\r\n\n//char modbus_registers[200];\r\n\r\n//static const char foo[] = \"I wish I'd read K&R, and other tomes more diligently\";\r\n\r\n\r\n\n/modbus_registers[3]=(char)(bps_I%256);\nmodbus_registers[4]=(char)(net_U/256);\t\t\t\t\t//Рег3 \tнапряжение сети питания, 1В\nmodbus_registers[5]=(char)(net_U%256);\nmodbus_registers[6]=(char)(net_F/256);\t\t\t\t\t//Рег4 \tчастота сети питания, 0.1Гц\nmodbus_registers[7]=(char)(net_F%256);\nmodbus_registers[8]=(char)(net_Ua/256);\t\t\t\t\t//Рег5\tнапряжение сети питания фаза A, 1В\t\nmodbus_registers[9]=(char)(net_Ua%256);\t\t \t\nmodbus_registers[10]=(char)(net_Ub/256);\t\t\t\t//Рег6\tнапряжение сети питания фаза B, 1В\nmodbus_registers[11]=(char)(net_Ub%256);\nmodbus_registers[12]=(char)(net_Uc/256);\t\t\t\t//Рег7\tнапряжение сети питания фаза C, 1В\nmodbus_registers[13]=(char)(net_Uc%256);\nmodbus_registers[14]=(char)(bat[0]._Ub/256);\t\t\t\t//Рег8\tнапряжение батареи №1, 0.1В\nmodbus_registers[15]=(char)(bat[0]._Ub%256);\nmodbus_registers[16]=(char)(bat[0]._Ib/256);\t\t\t\t//Рег9 \tток батареи №1, 0.01А\nmodbus_registers[17]=(char)(bat[0]._Ib%256);\r\nmodbus_registers[18]=(char)(bat[0]._Tb/256);\t\t\t\t//Рег10\tтемпература батареи №1, 1Гц\nmodbus_registers[19]=(char)(bat[0]._Tb%256);\nmodbus_registers[20]=(char)(bat[0]._zar/256);\t\t\t//Рег11\tзаряд батареи №1, %\nmodbus_registers[21]=(char)(bat[0]._zar%256);\nmodbus_registers[22]=(char)(bat[0]._Ubm/256);\t\t\t//Рег12\tнапряжение средней точки батареи №1, 0.1В\nmodbus_registers[23]=(char)(bat[0]._Ubm%256);\nmodbus_registers[24]=(char)(bat[0]._dUbm/256);\t\t\t//Рег13\tошибка средней точки батареи №1, %\nmodbus_registers[25]=(char)(bat[0]._dUbm%256);\nmodbus_registers[26]=(char)(BAT_C_REAL[0]/256);\t\t\t//Рег14\tРеальная емкость батареи №1, 0.1Ач, если 0x5555 то не измерялась\nmodbus_registers[27]=(char)(BAT_C_REAL[0]%256);\nmodbus_registers[28]=(char)(bat[1]._Ub/256);\t\t\t\t//Рег15\tнапряжение батареи №1, 0.1В\nmodbus_registers[29]=(char)(bat[1]._Ub%256);\nmodbus_registers[30]=(char)(bat[1]._Ib/256);\t\t\t\t//Рег16 \tток батареи №1, 0.01А\nmodbus_registers[31]=(char)(bat[1]._Ib%256);\nmodbus_registers[32]=(char)(bat[1]._Tb/256);\t\t\t\t//Рег17\tтемпература батареи №1, 1Гц\nmodbus_registers[33]=(char)(bat[1]._Tb%256);\nmodbus_registers[34]=(char)(bat[1]._zar/256);\t\t\t//Рег18\tзаряд батареи №1, %\nmodbus_registers[35]=(char)(bat[1]._zar%256);\nmodbus_registers[36]=(char)(bat[1]._Ubm/256);\t\t\t//Рег19\tнапряжение средней точки батареи №1, 0.1В\nmodbus_registers[37]=(char)(bat[1]._Ubm%256);\nmodbus_registers[38]=(char)(bat[1]._dUbm/256);\t\t\t//Рег20\tошибка средней точки батареи №1, %\nmodbus_registers[39]=(char)(bat[1]._dUbm%256);\nmodbus_registers[40]=(char)(BAT_C_REAL[1]/256);\t\t\t//Рег21\tРеальная емкость батареи №1, 0.1Ач, если 0x5555 то не измерялась\nmodbus_registers[41]=(char)(BAT_C_REAL[1]%256);\nmodbus_registers[42]=(char)(bps[0]._Uii/256);\t\t\t//Рег22\tВыходное напряжение выпрямителя №1, 0.1В\nmodbus_registers[43]=(char)(bps[0]._Uii%256);\nmodbus_registers[44]=(char)(bps[0]._Ii/256);\t\t\t\t//Рег23\tВыходной ток выпрямителя №1, 0.1А\nmodbus_registers[45]=(char)(bps[0]._Ii%256);\nmodbus_registers[46]=(char)(bps[0]._Ti/256);\t\t\t\t//Рег24\tТемпература радиатора выпрямителя №1, 1гЦ\nmodbus_registers[47]=(char)(bps[0]._Ti%256);\nmodbus_registers[48]=(char)(bps[0]._av/256);\t\t\t\t//Рег25\tБайт флагов выпрямителя №1, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[49]=(char)(bps[0]._av%256);\nmodbus_registers[50]=(char)(bps[1]._Uii/256);\t\t\t//Рег26\tВыходное напряжение выпрямителя №2, 0.1В\nmodbus_registers[51]=(char)(bps[1]._Uii%256);\nmodbus_registers[52]=(char)(bps[1]._Ii/256);\t\t\t\t//Рег27\tВыходной ток выпрямителя №2, 0.1А\nmodbus_registers[53]=(char)(bps[1]._Ii%256);\nmodbus_registers[54]=(char)(bps[1]._Ti/256);\t\t\t\t//Рег28\tТемпература радиатора выпрямителя №2, 1гЦ\nmodbus_registers[55]=(char)(bps[1]._Ti%256);\nmodbus_registers[56]=(char)(bps[1]._av/256);\t\t\t\t//Рег29\tБайт флагов выпрямителя №2, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[57]=(char)(bps[1]._av%256);\nmodbus_registers[58]=(char)(bps[2]._Uii/256);\t\t\t//Рег30\tВыходное напряжение выпрямителя №3, 0.1В\nmodbus_registers[59]=(char)(bps[2]._Uii%256);\nmodbus_registers[60]=(char)(bps[2]._Ii/256);\t\t\t\t//Рег31\tВыходной ток выпрямителя №3, 0.1А\nmodbus_registers[61]=(char)(bps[2]._Ii%256);\nmodbus_registers[62]=(char)(bps[2]._Ti/256);\t\t\t\t//Рег32\tТемпература радиатора выпрямителя №3, 1гЦ\nmodbus_registers[63]=(char)(bps[2]._Ti%256);\nmodbus_registers[64]=(char)(bps[2]._av/256);\t\t\t\t//Рег33\tБайт флагов выпрямителя №3, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[65]=(char)(bps[2]._av%256);\nmodbus_registers[66]=(char)(bps[3]._Uii/256);\t\t\t//Рег34\tВыходное напряжение выпрямителя №4, 0.1В\nmodbus_registers[67]=(char)(bps[3]._Uii%256);\nmodbus_registers[68]=(char)(bps[3]._Ii/256);\t\t\t\t//Рег35\tВыходной ток выпрямителя №4, 0.1А\nmodbus_registers[69]=(char)(bps[3]._Ii%256);\nmodbus_registers[70]=(char)(bps[3]._Ti/256);\t\t\t\t//Рег36\tТемпература радиатора выпрямителя №4, 1гЦ\nmodbus_registers[71]=(char)(bps[3]._Ti%256);\nmodbus_registers[72]=(char)(bps[3]._av/256);\t\t\t\t//Рег37\tБайт флагов выпрямителя №4, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[73]=(char)(bps[3]._av%256);\nmodbus_registers[74]=(char)(bps[4]._Uii/256);\t\t\t//Рег38\tВыходное напряжение выпрямителя №5, 0.1В\nmodbus_registers[75]=(char)(bps[4]._Uii%256);\nmodbus_registers[76]=(char)(bps[4]._Ii/256);\t\t\t\t//Рег39\tВыходной ток выпрямителя №5, 0.1А\nmodbus_registers[77]=(char)(bps[4]._Ii%256);\nmodbus_registers[78]=(char)(bps[4]._Ti/256);\t\t\t\t//Рег40\tТемпература радиатора выпрямителя №5, 1гЦ\nmodbus_registers[79]=(char)(bps[4]._Ti%256);\nmodbus_registers[80]=(char)(bps[4]._av/256);\t\t\t\t//Рег41\tБайт флагов выпрямителя №5, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[81]=(char)(bps[4]._av%256);\nmodbus_registers[82]=(char)(bps[5]._Uii/256);\t\t\t//Рег42\tВыходное напряжение выпрямителя №6, 0.1В\nmodbus_registers[83]=(char)(bps[5]._Uii%256);\nmodbus_registers[84]=(char)(bps[5]._Ii/256);\t\t\t\t//Рег43\tВыходной ток выпрямителя №6, 0.1А\nmodbus_registers[85]=(char)(bps[5]._Ii%256);\nmodbus_registers[86]=(char)(bps[5]._Ti/256);\t\t\t\t//Рег44\tТемпература радиатора выпрямителя №6, 1гЦ\nmodbus_registers[87]=(char)(bps[5]._Ti%256);\nmodbus_registers[88]=(char)(bps[5]._av/256);\t\t\t\t//Рег45\tБайт флагов выпрямителя №6, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[89]=(char)(bps[5]._av%256);\nmodbus_registers[90]=(char)(bps[6]._Uii/256);\t\t\t//Рег46\tВыходное напряжение выпрямителя №7, 0.1В\nmodbus_registers[91]=(char)(bps[6]._Uii%256);\nmodbus_registers[92]=(char)(bps[6]._Ii/256);\t\t\t\t//Рег47\tВыходной ток выпрямителя №7, 0.1А\nmodbus_registers[93]=(char)(bps[6]._Ii%256);\nmodbus_registers[94]=(char)(bps[6]._Ti/256);\t\t\t\t//Рег48\tТемпература радиатора выпрямителя №7, 1гЦ\nmodbus_registers[95]=(char)(bps[6]._Ti%256);\nmodbus_registers[96]=(char)(bps[6]._av/256);\t\t\t\t//Рег49\tБайт флагов выпрямителя №7, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[97]=(char)(bps[6]._av%256);\nmodbus_registers[98]=(char)(bps[7]._Uii/256);\t\t\t//Рег50\tВыходное напряжение выпрямителя №8, 0.1В\nmodbus_registers[99]=(char)(bps[7]._Uii%256);\nmodbus_registers[100]=(char)(bps[7]._Ii/256);\t\t\t//Рег51\tВыходной ток выпрямителя №8, 0.1А\nmodbus_registers[101]=(char)(bps[7]._Ii%256);\nmodbus_registers[102]=(char)(bps[7]._Ti/256);\t\t\t//Рег52\tТемпература радиатора выпрямителя №8, 1гЦ\nmodbus_registers[103]=(char)(bps[7]._Ti%256);\nmodbus_registers[104]=(char)(bps[7]._av/256);\t\t\t//Рег53\tБайт флагов выпрямителя №8, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[105]=(char)(bps[7]._av%256);\r\nmodbus_registers[106]=(char)(bps_U/256);\t\t\t\t\t//Рег54 \tнапряжение выпрямителей, 0.1В\nmodbus_registers[107]=(char)(bps_U%256);\r\ntempS=0;\r\nif(speedChIsOn) tempS=1;\r\nmodbus_registers[108]=(char)(tempS/256);\t\t\t\t\t//Рег55 \tУскоренный заряд включенность, (1 - вкл, 0 - Выкл)\nmodbus_registers[109]=(char)(tempS%256);\r\ntempS=0;\r\nif(spc_stat==spcVZ) tempS=1;\r\nmodbus_registers[110]=(char)(tempS/256);\t\t\t\t\t//Рег56 \tВыравнивающий заряд включенность, (1 - вкл, 0 - Выкл)\nmodbus_registers[111]=(char)(tempS%256);\r\nmodbus_registers[112]=(char)(uout_av/256);\t\t\t\t\t//Рег57 Контроль выходного напряжения, (0 - норма, 1 - завышено, 2 - занижено)\nmodbus_registers[113]=(char)(uout_av%256);\r\n\ntempS=t_ext[0];\r\nif(ND_EXT[0])tempS=-1000;\r\nmodbus_registers[400]=(char)(tempS/256);\t\t\t\t//Рег201\tВнешний датчик температуры №1\nmodbus_registers[401]=(char)(tempS%256);\r\ntempS=t_ext[1];\r\nif(ND_EXT[1])tempS=-1000;\r\nmodbus_registers[402]=(char)(tempS/256);\t\t\t\t//Рег202\tВнешний датчик температуры №2\nmodbus_registers[403]=(char)(tempS%256);\r\ntempS=t_ext[2];\r\nif(ND_EXT[2])tempS=-1000;\r\nmodbus_registers[404]=(char)(tempS/256);\t\t\t\t//Рег203\tВнешний датчик температуры №3\nmodbus_registers[405]=(char)(tempS%256);\r\ntempS=t_ext[3];\r\nif(ND_EXT[3])tempS=-1000;\r\nmodbus_registers[406]=(char)(tempS/256);\t\t\t\t//Рег204\tВнешний датчик температуры №4\nmodbus_registers[407]=(char)(tempS%256);\r\n\r\ntempS=0;\r\nif(sk_stat[0]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[0]==sasON) tempS\|=0x0002;\r\nmodbus_registers[420]=(char)(tempS/256);\t\t\t\t//Рег211\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[421]=(char)(tempS%256);\r\ntempS=0;\r\nif(sk_stat[1]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[1]==sasON) tempS\|=0x0002;\r\nmodbus_registers[422]=(char)(tempS/256);\t\t\t\t//Рег212\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[423]=(char)(tempS%256);\r\ntempS=0;\r\nif(sk_stat[2]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[2]==sasON) tempS\|=0x0002;\r\nmodbus_registers[424]=(char)(tempS/256);\t\t\t\t//Рег213\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[425]=(char)(tempS%256);\r\ntempS=0;\r\nif(sk_stat[3]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[3]==sasON) tempS\|=0x0002;\r\nmodbus_registers[426]=(char)(tempS/256);\t\t\t\t//Рег214\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[427]=(char)(tempS%256);\r\n\r\nif(prot==MODBUS_RTU_PROT)\r\n\t{\r\n\tmodbus_tx_buff[0]=adr;\n\tmodbus_tx_buff[1]=func;\n\n\tmodbus_tx_buff[2]=(char)(reg_quantity2);\n\n\tmem_copy((char)&modbus_tx_buff[3],(char)&modbus_registers[(reg_adr-1)2],reg_quantity2);\n\n\tcrc_temp=CRC16_2(modbus_tx_buff,(reg_quantity2)+3);\n\n\tmodbus_tx_buff[3+(reg_quantity2)]=crc_temp%256;\n\tmodbus_tx_buff[4+(reg_quantity2)]=crc_temp/256;\n\n\tfor (i=0;i<(5+(reg_quantity2));i++)\n\t\t{\n\t\tputchar0(modbus_tx_buff[i]);\n\t\t}\r\n\tfor (i=0;i<(5+(reg_quantity2));i++)\n\t\t{\n\t\tputchar_sc16is700(modbus_tx_buff[i]);\n\t\t}\r\n\t}\r\nelse if(prot==MODBUS_TCP_PROT)\r\n\t{\r\n\tmodbus_tcp_out_ptr=(char)&modbus_registers[(reg_adr-1)2];\r\n\t} /\r\n\r\n\t// \t};\r\n\n\n//-----------------------------------------------\nunsigned short CRC16_2(char* buf, short len)\n{\nunsigned short crc = 0xFFFF;\nshort pos;\nshort i;\n\nfor (pos = 0; pos < len; pos++)\n \t{\n \tcrc ^= (unsigned short)buf[pos]; // XOR byte into least sig. byte of crc\n\n \tfor ( i = 8; i != 0; i--) \n\t\t{ // Loop over each bit\n \tif ((crc & 0x0001) != 0) \n\t\t\t{ // If the LSB is set\n \t\tcrc >>= 1; // Shift right and XOR 0xA001\n \t\tcrc ^= 0xA001;\n \t\t}\n \telse crc >>= 1; // Just shift right\n \t\t}\n \t}\n // Note, this number has low and high bytes swapped, so use it accordingly (or swap bytes)\nreturn crc;\n}\r\n\n//-----------------------------------------------\r\nvoid modbus_zapros_ENMV (void){\t //o_2_s\r\nunsigned short crc_temp;\r\nunsigned char i_cnt;\r\n\tmodbus_tx_buff[0]=MODBUS_ADRESS;\n\tmodbus_tx_buff[1]=1;\n\tmodbus_tx_buff[2]=0;\n\tmodbus_tx_buff[3]=0;\r\n\tmodbus_tx_buff[4]=0;\r\n\tmodbus_tx_buff[5]=64;\r\n\tcrc_temp=CRC16_2(modbus_tx_buff,6);\n\tmodbus_tx_buff[6]=(char)crc_temp;\n\tmodbus_tx_buff[7]=crc_temp>>8;\n\tfor (i_cnt=0;i_cnt<8;i_cnt++)\tputchar_sc16is700(modbus_tx_buff[i_cnt]);\n\tif(enmv_on<5)enmv_on++;\r\n \telse {for (i_cnt=0;i_cnt<64;i_cnt++) snmp_enmv_data[i_cnt]=0xFF;}\r\n} //o_2_e\r\n\n//-----------------------------------------------\nvoid modbus_in(void)\n{\nshort crc16_calculated;\t\t//вычисляемая из принятых данных CRC\nshort crc16_incapsulated;\t//встроеннная в посылку CRC\nunsigned short modbus_rx_arg0;\t\t//встроенный в посылку первый аргумент\nunsigned short modbus_rx_arg1;\t\t//встроенный в посылку второй аргумент\n//unsigned short modbus_rx_arg2;\t\t//встроенный в посылку третий аргумент\n//unsigned short modbus_rx_arg3;\t\t//встроенный в посылку четвертый аргумент\nunsigned char modbus_func;\t\t\t//встроенный в посылку код функции\nchar i_cnt, j_cnt; //o_2\n\n\nmem_copy(modbus_an_buffer,modbus_rx_buffer,modbus_rx_buffer_ptr);\nmodbus_rx_counter=modbus_rx_buffer_ptr;\nmodbus_rx_buffer_ptr=0;\nbMODBUS_TIMEOUT=0;\n\t\ncrc16_calculated = CRC16_2((char)modbus_an_buffer, modbus_rx_counter-2);\ncrc16_incapsulated = ((short)&modbus_an_buffer[modbus_rx_counter-2]);\n\nmodbus_plazma1=modbus_rx_counter;\nmodbus_plazma2=crc16_calculated;\nmodbus_plazma3=crc16_incapsulated;\n\nmodbus_func=modbus_an_buffer[1];\nmodbus_rx_arg0=(((unsigned short)modbus_an_buffer[2])((unsigned short)256))+((unsigned short)modbus_an_buffer[3]);\nmodbus_rx_arg1=(((unsigned short)modbus_an_buffer[4])((unsigned short)256))+((unsigned short)modbus_an_buffer[5]);\n//modbus_rx_arg2=(((unsigned short)modbus_an_buffer[6])((unsigned short)256))+((unsigned short)modbus_an_buffer[7]);\n//modbus_rx_arg3=(((unsigned short)modbus_an_buffer[8])((unsigned short)256))+((unsigned short)modbus_an_buffer[9]);\r\n\n//#define IPS_CURR_AVG_MODBUS_ADRESS\t1\r\n\r\n\r\nif(modbus_an_buffer[0]=='r')\r\n\t{\r\n\tpvlk=1;\r\n\tif(modbus_an_buffer[1]=='e')\r\n\t\t{\r\n\t\tpvlk=2;\r\n\t\tif(modbus_an_buffer[2]=='a')\r\n\t\t\t{\r\n\t\t\tpvlk=3;\r\n\t\t\tif(modbus_an_buffer[3]=='d')\r\n\t\t\t\t{\r\n\t\t\t\tpvlk=4;\r\n\t\t\t\tif(modbus_an_buffer[6]==crc_87(modbus_an_buffer,6))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tpvlk=5;\r\n\t\t\t\t\tif(modbus_an_buffer[7]==crc_95(modbus_an_buffer,6))\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tpvlk=6;\t\r\n\r\n\t\t\t\t\t\t\t{\r\n\t\t\t\t\t\t\tunsigned short ptr;\r\n\t\t\t\t\t\t\tunsigned long data1,data2;\r\n\t\t\t\t\t\t\tchar temp_out[20];\r\n\t\t\t\t\t\t\tpvlk++;\r\n\t\t\t\t\t\t\tptr=modbus_an_buffer[4]+(modbus_an_buffer[5]256U);\r\n\t\t\t\t\t\t\tdata1=lc640_read_long(ptr);\r\n\t\t\t\t\t\t\tdata2=lc640_read_long(ptr+4);\r\n\t\t\t\t\t\t\ttemp_out[0]='r';\r\n\t\t\t\t\t\t\ttemp_out[1]='e';\r\n\t\t\t\t\t\t\ttemp_out[2]='a';\r\n\t\t\t\t\t\t\ttemp_out[3]='d';\r\n\t\t\t\t\t\t\ttemp_out[4]=((char)&ptr);\r\n\t\t\t\t\t\t\ttemp_out[5]=(((char)&ptr)+1);\t\r\n\t\t\t\t\t\t\ttemp_out[6]=((char)&data1);\r\n\t\t\t\t\t\t\ttemp_out[7]=(((char)&data1)+1);\t\t\r\n\t\t\t\t\t\t\ttemp_out[8]=(((char)&data1)+2);\t\r\n\t\t\t\t\t\t\ttemp_out[9]=(((char)&data1)+3);\t\t\r\n\t\t\t\t\t\t\ttemp_out[10]=((char)&data2);\r\n\t\t\t\t\t\t\ttemp_out[11]=(((char)&data2)+1);\t\t\r\n\t\t\t\t\t\t\ttemp_out[12]=(((char)&data2)+2);\t\r\n\t\t\t\t\t\t\ttemp_out[13]=(((char)&data2)+3);\t\r\n\t\t\t\t\t\t\ttemp_out[14]=crc_87(temp_out,14);\t\r\n\t\t\t\t\t\t\ttemp_out[15]=crc_95(temp_out,14);\t\t\t\r\n\t\t\t\t\t\t\t\r\n\t\t\t\t\t\t\ttemp_out[17]=0;\r\n\t\t\t\t\t\t\tfor (i=0;i<16;i++)\n\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\tputchar_sc16is700(temp_out[i]);\r\n\t\t\t\t\t\t\t\ttemp_out[17]^=temp_out[i];\n\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\tputchar_sc16is700(16);\r\n\t\t\t\t\t\t\tputchar_sc16is700(temp_out[17]^16);\r\n\t\t\t\t\t\t\tputchar_sc16is700(0x0a);\r\n\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t} \r\n\t\t}\t \r\n\t} \r\n\r\nif(modbus_an_buffer[0]=='w')\r\n\t{\r\n//\tpvlk=1;\r\n\tif(modbus_an_buffer[1]=='r')\r\n\t\t{\r\n//\t\tpvlk=2;\r\n\t\tif(modbus_an_buffer[2]=='i')\r\n\t\t\t{\r\n//\t\t\tpvlk=3;\r\n\t\t\tif(modbus_an_buffer[3]=='t')\r\n\t\t\t\t{\r\n//\t\t\t\tpvlk=4;\r\n\t\t\t\tif(modbus_an_buffer[4]=='e')\r\n\t\t\t\t\t{\r\n//\t\t\t\t\tpvlk=5;\r\n\t\t\t\t\tif(modbus_an_buffer[15]==crc_87(modbus_an_buffer,15))\r\n\t\t\t\t\t\t{\r\n//\t\t\t\t\t\tpvlk=6;\r\n\t\t\t\t\t\tif(modbus_an_buffer[16]==crc_95(modbus_an_buffer,15))\r\n\r\n\t\t\t\t\t\t\t{\r\n\t\t\t\t\t\t\tunsigned short ptr;\r\n\t\t\t\t\t\t\tunsigned long data1,data2;\r\n\t\t\t\t\t\t\tchar temp_out[20];\r\n//\t\t\t\t\t\t\tpvlk=7;\r\n\t\t\t\t\t\t\tptr=modbus_an_buffer[5]+(modbus_an_buffer[6]256U);\r\n\t\t\t\t\t\t\t((char)&data1)=modbus_an_buffer[7];\r\n\t\t\t\t\t\t\t(((char)&data1)+1)=modbus_an_buffer[8];\r\n\t\t\t\t\t\t\t(((char)&data1)+2)=modbus_an_buffer[9];\r\n\t\t\t\t\t\t\t(((char)&data1)+3)=modbus_an_buffer[10];\r\n\t\t\t\t\t\t\t((char)&data2)=modbus_an_buffer[11];\r\n\t\t\t\t\t\t\t(((char)&data2)+1)=modbus_an_buffer[12];\r\n\t\t\t\t\t\t\t(((char)&data2)+2)=modbus_an_buffer[13];\r\n\t\t\t\t\t\t\t(((char)&data2)+3)=modbus_an_buffer[14];\t\r\n\t\t\t\t\t\t\tlc640_write_long(ptr,data1);\r\n\t\t\t\t\t\t\tlc640_write_long(ptr+4,data2);\r\n\t\t\t\t\t\t\t\r\n\t\t\t\t\t\t\t//data1=lc640_read_long(ptr);\r\n\t\t\t\t\t\t\t//data2=lc640_read_long(ptr+4);\r\n\t\t\t\t\t\t\ttemp_out[0]='w';\r\n\t\t\t\t\t\t\ttemp_out[1]='r';\r\n\t\t\t\t\t\t\ttemp_out[2]='i';\r\n\t\t\t\t\t\t\ttemp_out[3]='t';\r\n\t\t\t\t\t\t\ttemp_out[4]='e';\r\n\t\t\t\t\t\t\ttemp_out[5]=((char)&ptr);\r\n\t\t\t\t\t\t\ttemp_out[6]=(((char)&ptr)+1);\t\r\n\t\t\t\t\t\t\r\n\t\t\t\t\t\t\ttemp_out[7]=crc_87(temp_out,7);\t\r\n\t\t\t\t\t\t\ttemp_out[8]=crc_95(temp_out,7);\t\t\t\r\n\t\t\t\t\t\t\t\r\n\t\t\t\t\t\t\ttemp_out[10]=0;\r\n\t\t\t\t\t\t\tfor (i=0;i<9;i++)\n\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\tputchar_sc16is700(temp_out[i]);\r\n\t\t\t\t\t\t\t\ttemp_out[10]^=temp_out[i];\n\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\tputchar_sc16is700(9);\r\n\t\t\t\t\t\t\tputchar_sc16is700(temp_out[10]^9);\r\n\t\t\t\t\t\t\tputchar_sc16is700(0x0a);\r\n\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t \t}\r\n\t\t}\r\n\t}\n\nif(crc16_calculated==crc16_incapsulated)\n\t{\r\n\tica_plazma[4]++;\r\n \tif(modbus_an_buffer[0]==MODBUS_ADRESS)\n\t\t{\r\n\t\tmodbus_modbus_adress_eq++;\n\t\tif(modbus_func==3)\t\t//чтение произвольного кол-ва регистров хранения\n\t\t\t{\r\n\t\t\tmodbus_plazma++;\n\t\t\tmodbus_hold_registers_transmit(MODBUS_ADRESS,modbus_func,modbus_rx_arg0,modbus_rx_arg1,MODBUS_RTU_PROT);\n\t\t\t}\n\n\t\tif(modbus_func==4)\t\t//чтение произвольного кол-ва регистров\tвходов\n\t\t\t{\n\t\t\tmodbus_input_registers_transmit(MODBUS_ADRESS,modbus_func,modbus_rx_arg0,modbus_rx_arg1,MODBUS_RTU_PROT);\r\n\t\t\tmodbus_modbus4f_cnt++;\n\t\t\t}\n\n\t\telse if(modbus_func==6) \t//запись регистров хранения\n\t\t\t{\n\t\t\tif(modbus_rx_arg0==11)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->YEAR=(uint16_t)modbus_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==12)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->MONTH=(uint16_t)modbus_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==13)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->DOM=(uint16_t)modbus_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==14)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->HOUR=(uint16_t)modbus_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==15)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->MIN=(uint16_t)modbus_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==16)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->SEC=(uint16_t)modbus_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==20)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t{\n\t\t\t\tif((modbus_rx_arg1>=0)&&(modbus_rx_arg1<=18))\n\t\t\t\tlc640_write_int(EE_NUMIST,modbus_rx_arg1); \n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==21)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t{\n\t\t\t\tif((modbus_rx_arg1==0)\|\|(modbus_rx_arg1==1))\n\t\t\t\tlc640_write_int(EE_PAR,modbus_rx_arg1); \n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==22)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t{\n\t\t\t\tif((modbus_rx_arg1==0)\|\|(modbus_rx_arg1==1))\n\t\t\t\tlc640_write_int(EE_ZV_ON,modbus_rx_arg1); \n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==23)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t{\n\t\t\t\tif((modbus_rx_arg1==0)\|\|(modbus_rx_arg1==1))\n\t\t\t\tlc640_write_int(EE_TERMOKOMP,modbus_rx_arg1); \n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==24)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t{\n\t\t\t\tif(/(modbus_rx_arg1>=0)\|\|/(modbus_rx_arg1<=20))\n\t\t\t\tlc640_write_int(EE_UBM_AV,modbus_rx_arg1); \n\t\t\t\t}\n\n\n\t\t\tif(modbus_rx_arg0==30)\t\t//напряжение стабилизации для режима стабилизации напряжения\n\t\t\t\t{\n\t\t\t\tif((modbus_rx_arg1>0)&&(modbus_rx_arg1<5))modbus_rx_arg1=0;\n\t\t\t\telse if(modbus_rx_arg1>=60)TBAT=60;\n\t\t\t\telse TBAT=modbus_rx_arg1;\n\t\t\t\tlc640_write_int(EE_TBAT,TBAT);\r\n\r\n\t\t\t\tmain_kb_cnt=(TBAT60)-20;\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==31)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UMAX,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==32)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_DU,UB20-modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==33)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UB0,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==34)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UB20,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==35)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_USIGN,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==36)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UMN,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==37)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_U0B,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==38)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_IKB,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==39)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_IZMAX,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==40)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_IMAX,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==41)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_IMIN,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==42)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UVZ,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==43)\t\t//\n\t\t\t\t{\r\n\t\t\t\tif((modbus_rx_arg1>=0)&&(modbus_rx_arg1<=3))lc640_write_int(EE_TZAS,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==44)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_TMAX,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==45)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_TSIGN,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==46)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_TBATMAX,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==47)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_TBATSIGN,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==48)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_SPEED_CHRG_CURR,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==49)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_SPEED_CHRG_VOLT,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==50)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_SPEED_CHRG_TIME,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==51)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_U_OUT_KONTR_MAX,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==52)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_U_OUT_KONTR_MIN,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==53)\t\t//\n\t\t\t\t{\n\t\t\t\tif((modbus_rx_arg1>=5)&&(modbus_rx_arg1<=100))lc640_write_int(EE_U_OUT_KONTR_DELAY,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==54)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UB0,modbus_rx_arg1);\n\t\t\t\tlc640_write_int(EE_UB20,modbus_rx_arg1);\n\t \t\t}\r\n\n\t\t\tif(modbus_rx_arg0==19)\t\t//вкл/выкл источника напр.\n\t\t\t\t{\n\t/\t\t\tif(modbus_rx_arg1==1)\n\t\t\t\t\t{\n\t\t\t\t\tif(work_stat!=wsPS)\n\t\t\t\t\t\t{\n\t\t\t\t\t\twork_stat=wsPS;\n\t\t\t\t\t\ttime_proc=0;\n\t\t\t\t\t\ttime_proc_remain=T_PROC_PS;\n\t\t\t\t\t\trestart_on_PS();\n\t\t\t\t\t\tlc640_write_int(EE_MAIN_MENU_MODE,mmmIN);\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\tif(modbus_rx_arg1==0)\n\t\t\t\t\t{\n\t\t\t\t\tif(work_stat==wsPS)\n\t\t\t\t\t\t{\n\t\t\t\t\t\twork_stat=wsOFF;\n\t\t\t\t\t\trestart_off();\n\t\t\t\t\t\t}\n\t\t\t\t\t} /\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==20)\t\t//вкл/выкл источника тока\n\t\t\t\t{\n/\t\t\t\tif(modbus_rx_arg1==1)\n\t\t\t\t\t{\n\t\t\t\t\tif(work_stat!=wsGS)\n\t\t\t\t\t\t{\n\t\t\t\t\t\twork_stat=wsGS;\n\t\t\t\t\t\ttime_proc=0;\n\t\t\t\t\t\ttime_proc_remain=T_PROC_GS;\n\t\t\t\t\t\tlc640_write_int(EE_MAIN_MENU_MODE,mmmIT);\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\tif(modbus_rx_arg1==0)\n\t\t\t\t\t{\n\t\t\t\t\tif(work_stat==wsGS)\n\t\t\t\t\t\t{\n\t\t\t\t\t\twork_stat=wsOFF;\n\t\t\t\t\t\trestart_off();\n\t\t\t\t\t\t}\n\t\t\t\t\t}/\n\t\t\t\t}\n\t\t\t//modbus_hold_register_transmit(MODBUS_ADRESS,modbus_func,modbus_rx_arg0);\r\n\r\n\t\t\tif(modbus_rx_arg0==100)\t\t//Передача шима для управления от ведущего ИПС\r\n\t\t\t\t{\r\n\t\t\t\t//plazma1000[2]=modbus_rx_arg1;\r\n\t\t\t\tif(modbus_rx_arg1&0x4000)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshort tempSSSS;\r\n\t\t\t\t\t\r\n\t\t\t\t\ttempSSSS=modbus_rx_arg1&0x3fff;\r\n\t\t\t\t\t//plazma1000[3]=tempSSSS;\r\n\t\t\t\t\tif((tempSSSS>0)&&(tempSSSS<5))tempSSSS=0;\r\n\t\t\t\t\telse if(tempSSSS>=60)tempSSSS=60;\r\n\t\t\t\t//\telse tempSSSS=modbus_rx_arg1;\r\n\t\t\t\t\tif(TBAT!=tempSSSS)lc640_write_int(EE_TBAT,tempSSSS);\r\n\r\n\t\t\t\t\tmain_kb_cnt=(tempSSSS60)-20;\r\n\t\t\t\t\t}\r\n\t\t\t\telse ica_cntrl_hndl=modbus_rx_arg1;\r\n\t\t\t\tica_cntrl_hndl_cnt=200;\r\n\r\n\t\t\t\t//plazma1000[1]++;\r\n\t\t\t\t}\r\n\t\t\tif(modbus_rx_arg0==101)\t\t//Значение тока в ведомом ИПСе (прочитанное мастером в ведомом и переданное ведущему)\r\n\t\t\t\t{\r\n\t\t\t\tica_your_current==modbus_rx_arg1;\r\n\t\t\t\tica_cntrl_hndl_cnt=200;\r\n\t\t\t\t//plazma1000[2]++;\r\n\t\t\t\t}\r\n\r\n\t\t\t//modbus_hold_registers_transmit(MODBUS_ADRESS,modbus_func,modbus_rx_arg0,1,MODBUS_RTU_PROT);\r\n\t\t\t\t{\r\n\t\t\t/if(prot==MODBUS_RTU_PROT)\r\n\t\t\t\t{/\n\t\t\t\tmem_copy(modbus_tx_buff,modbus_rx_buffer,8);\n\t\n\t\t\t\tfor (i=0;i<(8);i++)\n\t\t\t\t\t{\n\t\t\t\t\tputchar0(modbus_tx_buff[i]);\n\t\t\t\t\t}\r\n\n\t\t\t\tfor (i=0;i<(8);i++)\n\t\t\t\t\t{\n\t\t\t\t\tputchar_sc16is700(modbus_tx_buff[i]);\n\t\t\t\t\t}\r\n\t\t\t/\t}\r\n\t\t\telse if(prot==MODBUS_TCP_PROT)\r\n\t\t\t\t{\r\n\t\t\t\tmodbus_tcp_out_ptr=(char)&modbus_registers[(reg_adr-1)2];\r\n\t\t\t\t}/\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t\telse if(modbus_func==1) {\t\r\n\t\t\t\tif(modbus_an_buffer[2]==8){\r\n\t\t\t\t for(i_cnt=0;i_cnt<8;i_cnt++) {\r\n\t\t\t\t \tfor(j_cnt=0;j_cnt<8;j_cnt++){\r\n\t\t\t\t\t snmp_enmv_data[i_cnt8+j_cnt]=(modbus_an_buffer[3+i_cnt]>>j_cnt)&0x01;\r\n\t\t\t\t\t}\t\t\t\t \r\n\t\t\t\t }\r\n\t\t\t\t enmv_on=0;\r\n\t\t\t\t}\r\n\t\t\t} \r\n\n\t\t} \n\telse if(modbus_an_buffer[0]==ICA_MODBUS_ADDRESS)\r\n\t\t{\r\n\t\tica_plazma[3]++;\r\n\t\tif(modbus_func==4)\t\t//чтение произвольного кол-ва регистров\tвходов\n\t\t\t{\r\n\t\t\tica_plazma[2]++;\r\n\t\t\tif(modbus_an_buffer[2]==2)\r\n\t\t\t\t{\r\n\t\t\t\tica_your_current=(((unsigned short)modbus_an_buffer[3])((unsigned short)256))+((unsigned short)modbus_an_buffer[4]);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t}\n\t\n\t}\n\n\n}\n/\n//-----------------------------------------------\nvoid modbus_register_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr)\n{\nchar modbus_registers[150];\n//char modbus_tx_buff[50];\nunsigned short crc_temp;\nchar i;\n\n\nmodbus_registers[0]=(char)(load_U/256);\t\t\t\t\t//Рег1\nmodbus_registers[1]=(char)(load_U%256);\nmodbus_registers[2]=(char)(load_I/256);\t\t\t\t\t//Рег2\nmodbus_registers[3]=(char)(load_I%256);\nmodbus_registers[4]=(char)(Ib_ips_termokompensat/256);\t\t//Рег3\nmodbus_registers[5]=(char)(Ib_ips_termokompensat%256);\nmodbus_registers[6]=(char)(t_ext[0]/256);\t\t\t\t//Рег4\nmodbus_registers[7]=(char)(t_ext[0]%256);\nmodbus_registers[8]=(char)(net_Ua/256);\t\t\t\t\t//Рег5\nmodbus_registers[9]=(char)(net_Ua%256);\t\t \t\nmodbus_registers[10]=(char)(net_Ub/256);\t\t\t\t//Рег6\nmodbus_registers[11]=(char)(net_Ub%256);\nmodbus_registers[12]=(char)(net_Uc/256);\t\t\t\t//Рег7\nmodbus_registers[13]=(char)(net_Uc%256);\nmodbus_registers[14]=(char)(net_F3/256);\t\t\t\t//Рег8\nmodbus_registers[15]=(char)(net_F3%256);\nmodbus_registers[16]=(char)(load_I/256);\t\t\t\t//Рег9\nmodbus_registers[17]=(char)(load_I%256);\nmodbus_registers[18]=(char)(load_I/256);\t\t\t\t//Рег10\nmodbus_registers[19]=(char)(load_I%256);\nmodbus_registers[20]=(char)((LPC_RTC->YEAR)/256);\t\t\t//Рег11\nmodbus_registers[21]=(char)((LPC_RTC->YEAR)%256);\nmodbus_registers[22]=(char)((LPC_RTC->MONTH)/256);\t\t//Рег12\nmodbus_registers[23]=(char)((LPC_RTC->MONTH)%256);\nmodbus_registers[24]=(char)((LPC_RTC->DOM)/256);\t\t\t//Рег13\nmodbus_registers[25]=(char)((LPC_RTC->DOM)%256);\nmodbus_registers[26]=(char)((LPC_RTC->HOUR)/256);\t\t\t//Рег14\nmodbus_registers[27]=(char)((LPC_RTC->HOUR)%256);\nmodbus_registers[28]=(char)((LPC_RTC->MIN)/256);\t\t\t//Рег15\nmodbus_registers[29]=(char)((LPC_RTC->MIN)%256);\nmodbus_registers[30]=(char)((LPC_RTC->SEC)/256);\t\t\t//Рег16\nmodbus_registers[31]=(char)((LPC_RTC->SEC)%256);\nmodbus_registers[32]=(char)(load_I/256);\t\t\t\t//Рег17\nmodbus_registers[33]=(char)(load_I%256);\nmodbus_registers[34]=(char)(load_I/256);\t\t\t\t//Рег18\nmodbus_registers[35]=(char)(load_I%256);\nmodbus_registers[36]=(char)(load_I/256);\t\t//Рег19\nmodbus_registers[37]=(char)(load_I%256);\nmodbus_registers[38]=(char)(NUMIST/256);\t\t//Рег20\nmodbus_registers[39]=(char)(NUMIST%256);\nmodbus_registers[40]=(char)(PAR/256);\t\t//Рег21\nmodbus_registers[41]=(char)(PAR%256);\nmodbus_registers[42]=(char)(ZV_ON/256);\t\t//Рег22\nmodbus_registers[43]=(char)(ZV_ON%256);\nmodbus_registers[44]=(char)(TERMOKOMPENS/256);\t\t//Рег23\nmodbus_registers[45]=(char)(TERMOKOMPENS%256);\nmodbus_registers[46]=(char)(UBM_AV/256);\t\t//Рег24\nmodbus_registers[47]=(char)(UBM_AV%256);\nmodbus_registers[48]=(char)(load_I/256);\t\t//Рег25\nmodbus_registers[49]=(char)(load_I%256);\nmodbus_registers[50]=(char)(load_I/256);\t\t//Рег26\nmodbus_registers[51]=(char)(load_I%256);\nmodbus_registers[52]=(char)(load_I/256);\t\t//Рег27\nmodbus_registers[53]=(char)(load_I%256);\nmodbus_registers[54]=(char)(load_I/256);\t\t//Рег28\nmodbus_registers[55]=(char)(load_I%256);\nmodbus_registers[56]=(char)(load_I/256);\t\t//Рег29\nmodbus_registers[57]=(char)(load_I%256);\nmodbus_registers[58]=(char)(TBAT/256);\t\t\t//Рег30\nmodbus_registers[59]=(char)(TBAT%256);\nmodbus_registers[60]=(char)(UMAX/256);\t\t\t//Рег31\nmodbus_registers[61]=(char)(UMAX%256);\nmodbus_registers[62]=(char)((UB20-DU)/256);\t\t//Рег32\nmodbus_registers[63]=(char)((UB20-DU)%256);\nmodbus_registers[64]=(char)(UB0/256);\t\t\t//Рег33\nmodbus_registers[65]=(char)(UB0%256);\nmodbus_registers[66]=(char)(UB20/256);\t\t\t//Рег34\nmodbus_registers[67]=(char)(UB20%256);\nmodbus_registers[68]=(char)(USIGN/256);\t\t//Рег35\nmodbus_registers[69]=(char)(USIGN%256);\nmodbus_registers[70]=(char)(UMN/256);\t\t//Рег36\nmodbus_registers[71]=(char)(UMN%256);\nmodbus_registers[72]=(char)(U0B/256);\t\t//Рег37\nmodbus_registers[73]=(char)(U0B%256);\nmodbus_registers[74]=(char)(IKB/256);\t\t//Рег38\nmodbus_registers[75]=(char)(IKB%256);\nmodbus_registers[76]=(char)(IZMAX/256);\t\t//Рег39\nmodbus_registers[77]=(char)(IZMAX%256);\nmodbus_registers[78]=(char)(IMAX/256);\t\t//Рег40\nmodbus_registers[79]=(char)(IMAX%256);\nmodbus_registers[80]=(char)(IMIN/256);\t\t//Рег41\nmodbus_registers[81]=(char)(IMIN%256);\nmodbus_registers[82]=(char)(UVZ/256);\t\t//Рег42\nmodbus_registers[83]=(char)(UVZ%256);\nmodbus_registers[84]=(char)(TZAS/256);\t\t//Рег43\nmodbus_registers[85]=(char)(TZAS%256);\nmodbus_registers[86]=(char)(TMAX/256);\t\t//Рег44\nmodbus_registers[87]=(char)(TMAX%256);\nmodbus_registers[88]=(char)(TSIGN/256);\t\t//Рег45\nmodbus_registers[89]=(char)(TSIGN%256);\nmodbus_registers[90]=(char)(TBATMAX/256);\t\t//Рег46\nmodbus_registers[91]=(char)(TBATMAX%256);\nmodbus_registers[92]=(char)(TBATSIGN/256);\t\t//Рег47\nmodbus_registers[93]=(char)(TBATSIGN%256);\nmodbus_registers[94]=(char)(load_I/256);\t\t//Рег48\nmodbus_registers[95]=(char)(load_I%256);\nmodbus_registers[96]=(char)(load_I/256);\t\t//Рег49\nmodbus_registers[97]=(char)(load_I%256);\nmodbus_registers[98]=(char)(load_I/256);\t\t//Рег50\nmodbus_registers[99]=(char)(load_I%256);\n\nmodbus_tx_buff[0]=adr;\nmodbus_tx_buff[1]=func;\nmodbus_tx_buff[2]=(char)(reg_adr/256);\nmodbus_tx_buff[3]=(char)(reg_adr%256);\n//modbus_tx_buff[4]=(char)(reg_quantity/256);\n//modbus_tx_buff[5]=(char)(reg_quantity%256);\n\n\nmem_copy((char)&modbus_tx_buff[4],(char)&modbus_registers[(reg_adr-1)2],2);\n\ncrc_temp=CRC16_2(modbus_tx_buff,6);\n\nmodbus_tx_buff[6]=crc_temp%256;\nmodbus_tx_buff[7]=crc_temp/256;\n\nfor (i=0;i<8;i++)\n\t{\n\tputchar0(modbus_tx_buff[i]);\n\t}\r\nfor (i=0;i<8;i++)\n\t{\n\tputchar_sc16is700(modbus_tx_buff[i]);\n\t}\n}/\n///-----------------------------------------------\nvoid modbus_registers_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr,unsigned short reg_quantity)\n{\nchar modbus_registers[100];\n//char modbus_tx_buff[100];\nunsigned short crc_temp;\nchar i;\n\n\nmodbus_registers[0]=(char)(load_U/256);\t\t\t\t\t//Рег1\nmodbus_registers[1]=(char)(load_U%256);\nmodbus_registers[2]=(char)(load_I/256);\t\t\t\t\t//Рег2\nmodbus_registers[3]=(char)(load_I%256);\nmodbus_registers[4]=(char)(Ib_ips_termokompensat/256);\t\t//Рег3\nmodbus_registers[5]=(char)(Ib_ips_termokompensat%256);\nmodbus_registers[6]=(char)(t_ext[0]/256);\t\t\t\t//Рег4\nmodbus_registers[7]=(char)(t_ext[0]%256);\nmodbus_registers[8]=(char)(net_Ua/256);\t\t\t\t\t//Рег5\nmodbus_registers[9]=(char)(net_Ua%256);\t\t \t\nmodbus_registers[10]=(char)(net_Ub/256);\t\t\t\t//Рег6\nmodbus_registers[11]=(char)(net_Ub%256);\nmodbus_registers[12]=(char)(net_Uc/256);\t\t\t\t//Рег7\nmodbus_registers[13]=(char)(net_Uc%256);\nmodbus_registers[14]=(char)(net_F3/256);\t\t\t\t//Рег8\nmodbus_registers[15]=(char)(net_F3%256);\nmodbus_registers[16]=(char)(load_I/256);\t\t\t\t//Рег9\nmodbus_registers[17]=(char)(load_I%256);\nmodbus_registers[18]=(char)(load_I/256);\t\t\t\t//Рег10\nmodbus_registers[19]=(char)(load_I%256);\nmodbus_registers[20]=(char)((LPC_RTC->YEAR)/256);\t\t\t//Рег11\nmodbus_registers[21]=(char)((LPC_RTC->YEAR)%256);\nmodbus_registers[22]=(char)((LPC_RTC->MONTH)/256);\t\t//Рег12\nmodbus_registers[23]=(char)((LPC_RTC->MONTH)%256);\nmodbus_registers[24]=(char)((LPC_RTC->DOM)/256);\t\t\t//Рег13\nmodbus_registers[25]=(char)((LPC_RTC->DOM)%256);\nmodbus_registers[26]=(char)((LPC_RTC->HOUR)/256);\t\t\t//Рег14\nmodbus_registers[27]=(char)((LPC_RTC->HOUR)%256);\nmodbus_registers[28]=(char)((LPC_RTC->MIN)/256);\t\t\t//Рег15\nmodbus_registers[29]=(char)((LPC_RTC->MIN)%256);\nmodbus_registers[30]=(char)((LPC_RTC->SEC)/256);\t\t\t//Рег16\nmodbus_registers[31]=(char)((LPC_RTC->SEC)%256);\nmodbus_registers[32]=(char)(load_I/256);\t\t\t\t//Рег17\nmodbus_registers[33]=(char)(load_I%256);\nmodbus_registers[34]=(char)(load_I/256);\t\t\t\t//Рег18\nmodbus_registers[35]=(char)(load_I%256);\nmodbus_registers[36]=(char)(load_I/256);\t\t//Рег19\nmodbus_registers[37]=(char)(load_I%256);\nmodbus_registers[38]=(char)(NUMIST/256);\t\t//Рег20\nmodbus_registers[39]=(char)(NUMIST%256);\nmodbus_registers[40]=(char)(PAR/256);\t\t//Рег21\nmodbus_registers[41]=(char)(PAR%256);\nmodbus_registers[42]=(char)(ZV_ON/256);\t\t//Рег22\nmodbus_registers[43]=(char)(ZV_ON%256);\nmodbus_registers[44]=(char)(TERMOKOMPENS/256);\t\t//Рег23\nmodbus_registers[45]=(char)(TERMOKOMPENS%256);\nmodbus_registers[46]=(char)(UBM_AV/256);\t\t//Рег24\nmodbus_registers[47]=(char)(UBM_AV%256);\nmodbus_registers[48]=(char)(load_I/256);\t\t//Рег25\nmodbus_registers[49]=(char)(load_I%256);\nmodbus_registers[50]=(char)(load_I/256);\t\t//Рег26\nmodbus_registers[51]=(char)(load_I%256);\nmodbus_registers[52]=(char)(load_I/256);\t\t//Рег27\nmodbus_registers[53]=(char)(load_I%256);\nmodbus_registers[54]=(char)(load_I/256);\t\t//Рег28\nmodbus_registers[55]=(char)(load_I%256);\nmodbus_registers[56]=(char)(load_I/256);\t\t//Рег29\nmodbus_registers[57]=(char)(load_I%256);\nmodbus_registers[58]=(char)(TBAT/256);\t\t\t//Рег30\nmodbus_registers[59]=(char)(TBAT%256);\nmodbus_registers[60]=(char)(UMAX/256);\t\t\t//Рег31\nmodbus_registers[61]=(char)(UMAX%256);\nmodbus_registers[62]=(char)((UB20-DU)/256);\t\t//Рег32\nmodbus_registers[63]=(char)((UB20-DU)%256);\nmodbus_registers[64]=(char)(UB0/256);\t\t\t//Рег33\nmodbus_registers[65]=(char)(UB0%256);\nmodbus_registers[66]=(char)(UB20/256);\t\t\t//Рег34\nmodbus_registers[67]=(char)(UB20%256);\nmodbus_registers[68]=(char)(USIGN/256);\t\t//Рег35\nmodbus_registers[69]=(char)(USIGN%256);\nmodbus_registers[70]=(char)(UMN/256);\t\t//Рег36\nmodbus_registers[71]=(char)(UMN%256);\nmodbus_registers[72]=(char)(U0B/256);\t\t//Рег37\nmodbus_registers[73]=(char)(U0B%256);\nmodbus_registers[74]=(char)(IKB/256);\t\t//Рег38\nmodbus_registers[75]=(char)(IKB%256);\nmodbus_registers[76]=(char)(IZMAX/256);\t\t//Рег39\nmodbus_registers[77]=(char)(IZMAX%256);\nmodbus_registers[78]=(char)(IMAX/256);\t\t//Рег40\nmodbus_registers[79]=(char)(IMAX%256);\nmodbus_registers[80]=(char)(IMIN/256);\t\t//Рег41\nmodbus_registers[81]=(char)(IMIN%256);\nmodbus_registers[82]=(char)(UVZ/256);\t\t//Рег42\nmodbus_registers[83]=(char)(UVZ%256);\nmodbus_registers[84]=(char)(TZAS/256);\t\t//Рег43\nmodbus_registers[85]=(char)(TZAS%256);\nmodbus_registers[86]=(char)(TMAX/256);\t\t//Рег44\nmodbus_registers[87]=(char)(TMAX%256);\nmodbus_registers[88]=(char)(TSIGN/256);\t\t//Рег45\nmodbus_registers[89]=(char)(TSIGN%256);\nmodbus_registers[90]=(char)(TBATMAX/256);\t\t//Рег46\nmodbus_registers[91]=(char)(TBATMAX%256);\nmodbus_registers[92]=(char)(TBATSIGN/256);\t\t//Рег47\nmodbus_registers[93]=(char)(TBATSIGN%256);\nmodbus_registers[94]=(char)(load_I/256);\t\t//Рег48\nmodbus_registers[95]=(char)(load_I%256);\nmodbus_registers[96]=(char)(load_I/256);\t\t//Рег49\nmodbus_registers[97]=(char)(load_I%256);\nmodbus_registers[98]=(char)(load_I/256);\t\t//Рег50\nmodbus_registers[99]=(char)(load_I%256);\n\n\n\n\nmodbus_tx_buff[0]=adr;\nmodbus_tx_buff[1]=func;\n//modbus_tx_buff[2]=(char)(reg_adr/256);\n//modbus_tx_buff[3]=(char)(reg_adr%256);\nmodbus_tx_buff[2]=(char)(reg_quantity2);\n//modbus_tx_buff[5]=(char)(reg_quantity%256);\n\n\nmem_copy((char)&modbus_tx_buff[3],(char)&modbus_registers[(reg_adr-1)2],reg_quantity2);\n\ncrc_temp=CRC16_2(modbus_tx_buff,(reg_quantity2)+3);\n\nmodbus_tx_buff[3+(reg_quantity2)]=crc_temp%256;\nmodbus_tx_buff[4+(reg_quantity2)]=crc_temp/256;\n\n//int2lcdyx(reg_quantity,0,10,0);\n\nfor (i=0;i<15;i++)\n\t{\n\tputchar0(modbus_tx_buff[i]);\n\t} \r\nfor (i=0;i<15;i++)\n\t{\n\tputchar_sc16is700(modbus_tx_buff[i]);\n\t}\n}/\n/\n//-----------------------------------------------\nvoid modbus_hold_register_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr)\n{\nchar modbus_registers[150];\n//char modbus_tx_buff[150];\nunsigned short crc_temp;\nchar i;\n\nmodbus_registers[20]=(char)((LPC_RTC->YEAR)/256);\t\t\t//Рег11 Время, год\nmodbus_registers[21]=(char)((LPC_RTC->YEAR)%256);\nmodbus_registers[22]=(char)((LPC_RTC->MONTH)/256);\t\t//Рег12 Время, месяц\nmodbus_registers[23]=(char)((LPC_RTC->MONTH)%256);\nmodbus_registers[24]=(char)((LPC_RTC->DOM)/256);\t\t\t//Рег13 Время, день месяца\nmodbus_registers[25]=(char)((LPC_RTC->DOM)%256);\nmodbus_registers[26]=(char)((LPC_RTC->HOUR)/256);\t\t\t//Рег14 Время, час\nmodbus_registers[27]=(char)((LPC_RTC->HOUR)%256);\nmodbus_registers[28]=(char)((LPC_RTC->MIN)/256);\t\t\t//Рег15 Время, минуты\nmodbus_registers[29]=(char)((LPC_RTC->MIN)%256);\nmodbus_registers[30]=(char)((LPC_RTC->SEC)/256);\t\t\t//Рег16 Время, секунды\nmodbus_registers[31]=(char)((LPC_RTC->SEC)%256);\nmodbus_registers[38]=(char)(NUMIST/256);\t\t\t\t//Рег20 Количество выпрямителей в структуре\nmodbus_registers[39]=(char)(NUMIST%256);\nmodbus_registers[40]=(char)(PAR/256);\t\t\t\t\t//Рег21 Параллельная работа выпрямителей вкл./выкл.\nmodbus_registers[41]=(char)(PAR%256);\nmodbus_registers[42]=(char)(ZV_ON/256);\t\t\t\t\t//Рег22 Звуковая аварийная сигнализация вкл./выкл.\nmodbus_registers[43]=(char)(ZV_ON%256);\nmodbus_registers[46]=(char)(UBM_AV/256);\t\t\t\t//Рег24 Аварийный уровень отклонения напряжения средней точки батареи, %\nmodbus_registers[47]=(char)(UBM_AV%256);\nmodbus_registers[58]=(char)(TBAT/256);\t\t\t\t\t//Рег30 Период проверки цепи батареи, минут.\nmodbus_registers[59]=(char)(TBAT%256);\nmodbus_registers[60]=(char)(UMAX/256);\t\t\t\t\t//Рег31 Максимальное (аварийное) напряжение выпрямителей, 0.1В\nmodbus_registers[61]=(char)(UMAX%256);\nmodbus_registers[62]=(char)((UB20-DU)/256);\t\t\t\t//Рег32 Минимальное (аварийное) напряжение выпрямителей, 0.1В\nmodbus_registers[63]=(char)((UB20-DU)%256);\nmodbus_registers[64]=(char)(UB0/256);\t\t\t\t\t//Рег33 Напряжение содержания батареи при 0гЦ, 0.1В\nmodbus_registers[65]=(char)(UB0%256);\nmodbus_registers[66]=(char)(UB20/256);\t\t\t\t\t//Рег34 Напряжение содержания батареи при 20гЦ, 0.1В\nmodbus_registers[67]=(char)(UB20%256);\nmodbus_registers[68]=(char)(USIGN/256);\t\t\t\t\t//Рег35 Минимальное (сигнальное) напряжение батареи, 1В\nmodbus_registers[69]=(char)(USIGN%256);\nmodbus_registers[70]=(char)(UMN/256);\t\t\t\t\t//Рег36 Минимальное (аварийное) напряжение питающей сети, 1В\nmodbus_registers[71]=(char)(UMN%256);\nmodbus_registers[72]=(char)(U0B/256);\t\t\t\t\t//Рег37 Рабочее напряжение при невведенных батареях, 0.1В\nmodbus_registers[73]=(char)(U0B%256);\nmodbus_registers[74]=(char)(IKB/256);\t\t\t\t\t//Рег38 Ток контроля наличия батареи, 0.1а\nmodbus_registers[75]=(char)(IKB%256);\nmodbus_registers[76]=(char)(IZMAX/256);\t\t\t\t\t//Рег39 Ток заряда батареи максимальный, 0.1А\nmodbus_registers[77]=(char)(IZMAX%256);\nmodbus_registers[78]=(char)(IMAX/256);\t\t\t\t\t//Рег40 Ток переключения на большее кол-во выпрямителей, 0.1А\nmodbus_registers[79]=(char)(IMAX%256);\nmodbus_registers[80]=(char)(IMIN/256);\t\t\t\t\t//Рег41 Ток переключения на меньшее кол-во выпрямителей, 0.1А\nmodbus_registers[81]=(char)(IMIN%256);\nmodbus_registers[82]=(char)(UVZ/256);\t\t\t\t\t//Рег42 Напряжение выравнивающего заряда, 0.1В\nmodbus_registers[83]=(char)(UVZ%256);\nmodbus_registers[84]=(char)(TZAS/256);\t\t\t\t\t//Рег43 Время задержки включения выпрямителей, сек\nmodbus_registers[85]=(char)(TZAS%256);\nmodbus_registers[86]=(char)(TMAX/256);\t\t\t\t\t//Рег44 Температура выпрямителей аварийная, 1гЦ\nmodbus_registers[87]=(char)(TMAX%256);\nmodbus_registers[88]=(char)(TSIGN/256);\t\t\t\t\t//Рег45 Температура выпрямителей сигнальная, 1гЦ\nmodbus_registers[89]=(char)(TSIGN%256);\nmodbus_registers[90]=(char)(TBATMAX/256);\t\t\t\t//Рег46 Температура батареи аварийная, 1гЦ\nmodbus_registers[91]=(char)(TBATMAX%256);\nmodbus_registers[92]=(char)(TBATSIGN/256);\t\t\t\t//Рег47 Температура батареи сигнальная, 1гЦ\nmodbus_registers[93]=(char)(TBATSIGN%256);\nmodbus_registers[94]=(char)(speedChrgCurr/256);\t\t\t\t\t//Рег48 Ток ускоренного заряда, 0.1А\nmodbus_registers[95]=(char)(speedChrgCurr%256);\nmodbus_registers[96]=(char)(speedChrgVolt/256);\t\t\t\t//Рег49\t Напряжение ускоренного заряда, 0.1В \nmodbus_registers[97]=(char)(speedChrgVolt%256);\nmodbus_registers[98]=(char)(speedChrgTimeInHour/256);\t\t\t\t//Рег50\t Время ускоренного заряда, 1ч\r\nmodbus_registers[99]=(char)(speedChrgTimeInHour%256);\r\n\n\nmodbus_tx_buff[0]=adr;\nmodbus_tx_buff[1]=func;\nmodbus_tx_buff[2]=(char)(reg_adr/256);\nmodbus_tx_buff[3]=(char)(reg_adr%256);\n\nmem_copy((char)&modbus_tx_buff[4],(char)&modbus_registers[(reg_adr-1)2],2);\n\ncrc_temp=CRC16_2(modbus_tx_buff,6);\n\nmodbus_tx_buff[6]=crc_temp%256;\nmodbus_tx_buff[7]=crc_temp/256;\n\nfor (i=0;i<8;i++)\n\t{\n\tputchar0(modbus_tx_buff[i]);\n\t}\r\nfor (i=0;i<8;i++)\n\t{\n\tputchar_sc16is700(modbus_tx_buff[i]);\n\t}\n}\n/\r\n\n//-----------------------------------------------\nvoid modbus_hold_registers_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr,unsigned short reg_quantity, char prot)\n{\nsigned char modbus_registers[150];\n//char modbus_tx_buff[150];\nunsigned short crc_temp;\nchar i;\n\nmodbus_registers[20]=(char)((LPC_RTC->YEAR)>>8);\t\t\t//Рег11 Время, год\nmodbus_registers[21]=(char)((LPC_RTC->YEAR));\nmodbus_registers[22]=(char)((LPC_RTC->MONTH)>>8);\t\t//Рег12 Время, месяц\nmodbus_registers[23]=(char)((LPC_RTC->MONTH));\nmodbus_registers[24]=(char)((LPC_RTC->DOM)>>8);\t\t\t//Рег13 Время, день месяца\nmodbus_registers[25]=(char)((LPC_RTC->DOM));\nmodbus_registers[26]=(char)((LPC_RTC->HOUR)>>8);\t\t\t//Рег14 Время, час\nmodbus_registers[27]=(char)((LPC_RTC->HOUR));\nmodbus_registers[28]=(char)((LPC_RTC->MIN)>>8);\t\t\t//Рег15 Время, минуты\nmodbus_registers[29]=(char)((LPC_RTC->MIN));\nmodbus_registers[30]=(char)((LPC_RTC->SEC)>>8);\t\t\t//Рег16 Время, секунды\nmodbus_registers[31]=(char)((LPC_RTC->SEC));\nmodbus_registers[38]=(char)(NUMIST>>8);\t\t\t\t//Рег20 Количество выпрямителей в структуре\nmodbus_registers[39]=(char)(NUMIST);\nmodbus_registers[40]=(char)(PAR>>8);\t\t\t\t\t//Рег21 Параллельная работа выпрямителей вкл./выкл.\nmodbus_registers[41]=(char)(PAR);\nmodbus_registers[42]=(char)(ZV_ON>>8);\t\t\t\t\t//Рег22 Звуковая аварийная сигнализация вкл./выкл.\nmodbus_registers[43]=(char)(ZV_ON);\nmodbus_registers[46]=(char)(UBM_AV>>8);\t\t\t\t//Рег24 Аварийный уровень отклонения напряжения средней точки батареи, %\nmodbus_registers[47]=(char)(UBM_AV);\nmodbus_registers[58]=(char)(TBAT>>8);\t\t\t\t\t//Рег30 Период проверки цепи батареи, минут.\nmodbus_registers[59]=(char)(TBAT);\nmodbus_registers[60]=(char)(UMAX>>8);\t\t\t\t\t//Рег31 Максимальное (аварийное) напряжение выпрямителей, 0.1В\nmodbus_registers[61]=(char)(UMAX);\nmodbus_registers[62]=(char)((UB20-DU)>>8);\t\t\t\t//Рег32 Минимальное (аварийное) напряжение выпрямителей, 0.1В\nmodbus_registers[63]=(char)((UB20-DU));\nmodbus_registers[64]=(char)(UB0>>8);\t\t\t\t\t//Рег33 Напряжение содержания батареи при 0гЦ, 0.1В\nmodbus_registers[65]=(char)(UB0);\nmodbus_registers[66]=(char)(UB20>>8);\t\t\t\t\t//Рег34 Напряжение содержания батареи при 20гЦ, 0.1В\nmodbus_registers[67]=(char)(UB20);\nmodbus_registers[68]=(char)(USIGN>>8);\t\t\t\t\t//Рег35 Минимальное (сигнальное) напряжение батареи, 1В\nmodbus_registers[69]=(char)(USIGN);\nmodbus_registers[70]=(char)(UMN>>8);\t\t\t\t\t//Рег36 Минимальное (аварийное) напряжение питающей сети, 1В\nmodbus_registers[71]=(char)(UMN);\nmodbus_registers[72]=(char)(U0B>>8);\t\t\t\t\t//Рег37 Рабочее напряжение при невведенных батареях, 0.1В\nmodbus_registers[73]=(char)(U0B);\nmodbus_registers[74]=(char)(IKB>>8);\t\t\t\t\t//Рег38 Ток контроля наличия батареи, 0.1а\nmodbus_registers[75]=(char)(IKB);\nmodbus_registers[76]=(char)(IZMAX>>8);\t\t\t\t\t//Рег39 Ток заряда батареи максимальный, 0.1А\nmodbus_registers[77]=(char)(IZMAX);\nmodbus_registers[78]=(char)(IMAX>>8);\t\t\t\t\t//Рег40 Ток переключения на большее кол-во выпрямителей, 0.1А\nmodbus_registers[79]=(char)(IMAX);\nmodbus_registers[80]=(char)(IMIN>>8);\t\t\t\t\t//Рег41 Ток переключения на меньшее кол-во выпрямителей, 0.1А\nmodbus_registers[81]=(char)(IMIN);\nmodbus_registers[82]=(char)(UVZ>>8);\t\t\t\t\t//Рег42 Напряжение выравнивающего заряда, 0.1В\nmodbus_registers[83]=(char)(UVZ);\nmodbus_registers[84]=(char)(TZAS>>8);\t\t\t\t\t//Рег43 Время задержки включения выпрямителей, сек\nmodbus_registers[85]=(char)(TZAS);\nmodbus_registers[86]=(char)(TMAX>>8);\t\t\t\t\t//Рег44 Температура выпрямителей аварийная, 1гЦ\nmodbus_registers[87]=(char)(TMAX);\nmodbus_registers[88]=(char)(TSIGN>>8);\t\t\t\t\t//Рег45 Температура выпрямителей сигнальная, 1гЦ\nmodbus_registers[89]=(char)(TSIGN);\nmodbus_registers[90]=(char)(TBATMAX>>8);\t\t\t\t//Рег46 Температура батареи аварийная, 1гЦ\nmodbus_registers[91]=(char)(TBATMAX);\nmodbus_registers[92]=(char)(TBATSIGN>>8);\t\t\t\t//Рег47 Температура батареи сигнальная, 1гЦ\nmodbus_registers[93]=(char)(TBATSIGN);\nmodbus_registers[94]=(char)(speedChrgCurr>>8);\t\t\t\t\t//Рег48 Ток ускоренного заряда, 0.1А\nmodbus_registers[95]=(char)(speedChrgCurr);\nmodbus_registers[96]=(char)(speedChrgVolt>>8);\t\t\t\t//Рег49\t Напряжение ускоренного заряда, 0.1В \nmodbus_registers[97]=(char)(speedChrgVolt);\nmodbus_registers[98]=(char)(speedChrgTimeInHour>>8);\t\t\t\t//Рег50\t Время ускоренного заряда, 1ч\r\nmodbus_registers[99]=(char)(speedChrgTimeInHour);\r\nmodbus_registers[100]=(char)(U_OUT_KONTR_MAX>>8);\t\t\t\t\t//Рег51\t Контроль выходного напряжения, Umax, 0.1В\r\nmodbus_registers[101]=(char)(U_OUT_KONTR_MAX);\r\nmodbus_registers[102]=(char)(U_OUT_KONTR_MIN>>8);\t\t\t\t\t//Рег52\t Контроль выходного напряжения, Umin, 0.1В\r\nmodbus_registers[103]=(char)(U_OUT_KONTR_MIN);\r\nmodbus_registers[104]=(char)(U_OUT_KONTR_DELAY>>8);\t\t\t\t//Рег53\t Контроль выходного напряжения, Tзадержки, 1сек.\r\nmodbus_registers[105]=(char)(U_OUT_KONTR_DELAY);\r\nmodbus_registers[106]=(char)(UB0>>8);\t\t\t\t\t\t\t//Рег54\t Установка выходного напряжения для ИПС без батареи(СГЕП-ГАЗПРОМ)\r\nmodbus_registers[107]=(char)(UB0);\r\n\r\n\r\n\r\n\nif(prot==MODBUS_RTU_PROT)\r\n\t{\n\tmodbus_tx_buff[0]=adr;\n\tmodbus_tx_buff[1]=func;\n\tmodbus_tx_buff[2]=(char)(reg_quantity2);\n\tmem_copy((char)&modbus_tx_buff[3],(char)&modbus_registers[(reg_adr-1)2],reg_quantity2);\n\t\n\tcrc_temp=CRC16_2(modbus_tx_buff,(reg_quantity2)+3);\n\n\tmodbus_tx_buff[3+(reg_quantity2)]=(char)crc_temp;\n\tmodbus_tx_buff[4+(reg_quantity2)]=crc_temp>>8;\n\n\tfor (i=0;i<(5+(reg_quantity2));i++)\n\t\t{\n\t\tputchar0(modbus_tx_buff[i]);\n\t\t}\r\n\n\tfor (i=0;i<(5+(reg_quantity2));i++)\n\t\t{\n\t\tputchar_sc16is700(modbus_tx_buff[i]);\n\t\t}\r\n\t}\r\nelse if(prot==MODBUS_TCP_PROT)\r\n\t{\r\n\tmodbus_tcp_out_ptr=(char)&modbus_registers[(reg_adr-1)2];\r\n\t}\n}\n\n//-----------------------------------------------\nvoid modbus_input_registers_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr,unsigned short reg_quantity, char prot)\n{\nsigned char modbus_registers[500];\n//char modbus_tx_buff[200];\nunsigned short crc_temp;\nchar i;\nshort tempS;\r\n\r\n//tempS=(MODBUS_INPUT_REGS[0]);\r\n//bps_I=bps_I_phantom;\r\n\r\n#if defined(UKU_6U) \|\| defined(UKU_220_V2)\r\nmodbus_registers[0]=(signed char)(load_U>>8);\t\t\t\t\t//Рег1 \tнапряжение выходной шины, 0.1В\nmodbus_registers[1]=(signed char)(load_U);\nmodbus_registers[2]=(signed char)(load_I>>8);\t\t\t\t\t//Рег2 \tток выпрямителей, 0.1А\nmodbus_registers[3]=(signed char)(load_I);\r\n#else\nmodbus_registers[0]=(signed char)(out_U>>8);\t\t\t\t\t//Рег1 \tнапряжение выходной шины, 0.1В\nmodbus_registers[1]=(signed char)(out_U);\nmodbus_registers[2]=(signed char)(bps_I>>8);\t\t\t\t\t//Рег2 \tток выпрямителей, 0.1А\nmodbus_registers[3]=(signed char)(bps_I);\n#endif\r\n/\nmodbus_registers[0]=(signed char)(out_U>>8);\t\t\t\t\t//Рег1 \tнапряжение выходной шины, 0.1В\nmodbus_registers[1]=(signed char)(out_U);\nmodbus_registers[2]=(signed char)(bps_I>>8);\t\t\t\t\t//Рег2 \tток выпрямителей, 0.1А\nmodbus_registers[3]=(signed char)(bps_I);\n/\r\nmodbus_registers[4]=(signed char)(net_U>>8);\t\t\t\t\t//Рег3 \tнапряжение сети питания, 1В\nmodbus_registers[5]=(signed char)(net_U);\nmodbus_registers[6]=(signed char)(net_F>>8);\t\t\t\t\t//Рег4 \tчастота сети питания, 0.1Гц\nmodbus_registers[7]=(signed char)(net_F);\nmodbus_registers[8]=(signed char)(net_Ua>>8);\t\t\t\t\t//Рег5\tнапряжение сети питания фаза A, 1В\t\nmodbus_registers[9]=(signed char)(net_Ua);\t\t \t\nmodbus_registers[10]=(signed char)(net_Ub>>8);\t\t\t\t//Рег6\tнапряжение сети питания фаза B, 1В\nmodbus_registers[11]=(signed char)(net_Ub);\nmodbus_registers[12]=(signed char)(net_Uc>>8);\t\t\t\t//Рег7\tнапряжение сети питания фаза C, 1В\nmodbus_registers[13]=(signed char)(net_Uc);\nmodbus_registers[14]=(signed char)(bat[0]._Ub>>8);\t\t\t\t//Рег8\tнапряжение батареи №1, 0.1В\nmodbus_registers[15]=(signed char)(bat[0]._Ub);\r\nmodbus_registers[16]=(signed char)(bat[0]._Ib>>8);\t\t\t\t//Рег9 \tток батареи №1, 0.01А\nmodbus_registers[17]=(signed char)(bat[0]._Ib);\r\n#ifdef UKU_ZVU\r\nmodbus_registers[18]=(signed char)(t_ext[0]>>8);\t\t\t\t//Рег10\tтемпература батареи №1, 1Гц\nmodbus_registers[19]=(signed char)(t_ext[0]);\r\n#else\r\nmodbus_registers[18]=(signed char)(bat[0]._Tb>>8);\t\t\t\t//Рег10\tтемпература батареи №1, 1Гц\nmodbus_registers[19]=(signed char)(bat[0]._Tb);\r\n#endif\r\n#ifdef UKU_ZVU\r\nmodbus_registers[20]=(signed char)(((short)(bat_hndl_zvu_Q/10000L))>>8);\t\t\t//Рег11\tзаряд батареи №1, %\nmodbus_registers[21]=(signed char)(((short)(bat_hndl_zvu_Q/10000L)));\r\n#else\nmodbus_registers[20]=(signed char)(bat[0]._zar>>8);\t\t\t//Рег11\tзаряд батареи №1, %\nmodbus_registers[21]=(signed char)(bat[0]._zar);\r\n#endif\nmodbus_registers[22]=(signed char)(bat[0]._Ubm>>8);\t\t\t//Рег12\tнапряжение средней точки батареи №1, 0.1В\nmodbus_registers[23]=(signed char)(bat[0]._Ubm);\nmodbus_registers[24]=(signed char)(bat[0]._dUbm>>8);\t\t\t//Рег13\tошибка средней точки батареи №1, %\nmodbus_registers[25]=(signed char)(bat[0]._dUbm);\nmodbus_registers[26]=(signed char)(BAT_C_REAL[0]>>8);\t\t\t//Рег14\tРеальная емкость батареи №1, 0.1Ач, если 0x5555 то не измерялась\nmodbus_registers[27]=(signed char)(BAT_C_REAL[0]);\nmodbus_registers[28]=(signed char)(bat[1]._Ub>>8);\t\t\t\t//Рег15\tнапряжение батареи №1, 0.1В\nmodbus_registers[29]=(signed char)(bat[1]._Ub);\nmodbus_registers[30]=(signed char)(bat[1]._Ib>>8);\t\t\t\t//Рег16 \tток батареи №1, 0.01А\nmodbus_registers[31]=(signed char)(bat[1]._Ib);\nmodbus_registers[32]=(signed char)(bat[1]._Tb>>8);\t\t\t\t//Рег17\tтемпература батареи №1, 1Гц\nmodbus_registers[33]=(signed char)(bat[1]._Tb);\nmodbus_registers[34]=(signed char)(bat[1]._zar>>8);\t\t\t//Рег18\tзаряд батареи №1, %\nmodbus_registers[35]=(signed char)(bat[1]._zar);\nmodbus_registers[36]=(signed char)(bat[1]._Ubm>>8);\t\t\t//Рег19\tнапряжение средней точки батареи №1, 0.1В\nmodbus_registers[37]=(signed char)(bat[1]._Ubm);\nmodbus_registers[38]=(signed char)(bat[1]._dUbm>>8);\t\t\t//Рег20\tошибка средней точки батареи №1, %\nmodbus_registers[39]=(signed char)(bat[1]._dUbm);\nmodbus_registers[40]=(signed char)(BAT_C_REAL[1]>>8);\t\t\t//Рег21\tРеальная емкость батареи №1, 0.1Ач, если 0x5555 то не измерялась\nmodbus_registers[41]=(signed char)(BAT_C_REAL[1]);\nmodbus_registers[42]=(signed char)(bps[0]._Uii>>8);\t\t\t//Рег22\tВыходное напряжение выпрямителя №1, 0.1В\nmodbus_registers[43]=(signed char)(bps[0]._Uii);\nmodbus_registers[44]=(signed char)(bps[0]._Ii>>8);\t\t\t\t//Рег23\tВыходной ток выпрямителя №1, 0.1А\nmodbus_registers[45]=(signed char)(bps[0]._Ii);\nmodbus_registers[46]=(signed char)(bps[0]._Ti>>8);\t\t\t\t//Рег24\tТемпература радиатора выпрямителя №1, 1гЦ\nmodbus_registers[47]=(signed char)(bps[0]._Ti);\nmodbus_registers[48]=(signed char)(bps[0]._av>>8);\t\t\t\t//Рег25\tБайт флагов выпрямителя №1, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[49]=(signed char)(bps[0]._av);\nmodbus_registers[50]=(signed char)(bps[1]._Uii>>8);\t\t\t//Рег26\tВыходное напряжение выпрямителя №2, 0.1В\nmodbus_registers[51]=(signed char)(bps[1]._Uii);\nmodbus_registers[52]=(signed char)(bps[1]._Ii>>8);\t\t\t\t//Рег27\tВыходной ток выпрямителя №2, 0.1А\nmodbus_registers[53]=(signed char)(bps[1]._Ii);\nmodbus_registers[54]=(signed char)(bps[1]._Ti>>8);\t\t\t\t//Рег28\tТемпература радиатора выпрямителя №2, 1гЦ\nmodbus_registers[55]=(signed char)(bps[1]._Ti);\nmodbus_registers[56]=(signed char)(bps[1]._av>>8);\t\t\t\t//Рег29\tБайт флагов выпрямителя №2, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[57]=(signed char)(bps[1]._av);\nmodbus_registers[58]=(signed char)(bps[2]._Uii>>8);\t\t\t//Рег30\tВыходное напряжение выпрямителя №3, 0.1В\nmodbus_registers[59]=(signed char)(bps[2]._Uii);\nmodbus_registers[60]=(signed char)(bps[2]._Ii>>8);\t\t\t\t//Рег31\tВыходной ток выпрямителя №3, 0.1А\nmodbus_registers[61]=(signed char)(bps[2]._Ii);\nmodbus_registers[62]=(signed char)(bps[2]._Ti>>8);\t\t\t\t//Рег32\tТемпература радиатора выпрямителя №3, 1гЦ\nmodbus_registers[63]=(signed char)(bps[2]._Ti);\nmodbus_registers[64]=(signed char)(bps[2]._av>>8);\t\t\t\t//Рег33\tБайт флагов выпрямителя №3, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[65]=(signed char)(bps[2]._av);\nmodbus_registers[66]=(signed char)(bps[3]._Uii>>8);\t\t\t//Рег34\tВыходное напряжение выпрямителя №4, 0.1В\nmodbus_registers[67]=(signed char)(bps[3]._Uii);\nmodbus_registers[68]=(signed char)(bps[3]._Ii>>8);\t\t\t\t//Рег35\tВыходной ток выпрямителя №4, 0.1А\nmodbus_registers[69]=(signed char)(bps[3]._Ii);\nmodbus_registers[70]=(signed char)(bps[3]._Ti>>8);\t\t\t\t//Рег36\tТемпература радиатора выпрямителя №4, 1гЦ\nmodbus_registers[71]=(signed char)(bps[3]._Ti);\nmodbus_registers[72]=(signed char)(bps[3]._av>>8);\t\t\t\t//Рег37\tБайт флагов выпрямителя №4, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[73]=(signed char)(bps[3]._av);\nmodbus_registers[74]=(signed char)(bps[4]._Uii>>8);\t\t\t//Рег38\tВыходное напряжение выпрямителя №5, 0.1В\nmodbus_registers[75]=(signed char)(bps[4]._Uii);\nmodbus_registers[76]=(signed char)(bps[4]._Ii>>8);\t\t\t\t//Рег39\tВыходной ток выпрямителя №5, 0.1А\nmodbus_registers[77]=(signed char)(bps[4]._Ii);\nmodbus_registers[78]=(signed char)(bps[4]._Ti>>8);\t\t\t\t//Рег40\tТемпература радиатора выпрямителя №5, 1гЦ\nmodbus_registers[79]=(signed char)(bps[4]._Ti);\nmodbus_registers[80]=(signed char)(bps[4]._av>>8);\t\t\t\t//Рег41\tБайт флагов выпрямителя №5, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[81]=(signed char)(bps[4]._av);\nmodbus_registers[82]=(signed char)(bps[5]._Uii>>8);\t\t\t//Рег42\tВыходное напряжение выпрямителя №6, 0.1В\nmodbus_registers[83]=(signed char)(bps[5]._Uii);\nmodbus_registers[84]=(signed char)(bps[5]._Ii>>8);\t\t\t\t//Рег43\tВыходной ток выпрямителя №6, 0.1А\nmodbus_registers[85]=(signed char)(bps[5]._Ii);\nmodbus_registers[86]=(signed char)(bps[5]._Ti>>8);\t\t\t\t//Рег44\tТемпература радиатора выпрямителя №6, 1гЦ\nmodbus_registers[87]=(signed char)(bps[5]._Ti);\nmodbus_registers[88]=(signed char)(bps[5]._av>>8);\t\t\t\t//Рег45\tБайт флагов выпрямителя №6, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[89]=(signed char)(bps[5]._av);\nmodbus_registers[90]=(signed char)(bps[6]._Uii>>8);\t\t\t//Рег46\tВыходное напряжение выпрямителя №7, 0.1В\nmodbus_registers[91]=(signed char)(bps[6]._Uii);\nmodbus_registers[92]=(signed char)(bps[6]._Ii>>8);\t\t\t\t//Рег47\tВыходной ток выпрямителя №7, 0.1А\nmodbus_registers[93]=(signed char)(bps[6]._Ii);\nmodbus_registers[94]=(signed char)(bps[6]._Ti>>8);\t\t\t\t//Рег48\tТемпература радиатора выпрямителя №7, 1гЦ\nmodbus_registers[95]=(signed char)(bps[6]._Ti);\nmodbus_registers[96]=(signed char)(bps[6]._av>>8);\t\t\t\t//Рег49\tБайт флагов выпрямителя №7, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[97]=(signed char)(bps[6]._av);\nmodbus_registers[98]=(signed char)(bps[7]._Uii>>8);\t\t\t//Рег50\tВыходное напряжение выпрямителя №8, 0.1В\nmodbus_registers[99]=(signed char)(bps[7]._Uii);\nmodbus_registers[100]=(signed char)(bps[7]._Ii>>8);\t\t\t//Рег51\tВыходной ток выпрямителя №8, 0.1А\nmodbus_registers[101]=(signed char)(bps[7]._Ii);\nmodbus_registers[102]=(signed char)(bps[7]._Ti>>8);\t\t\t//Рег52\tТемпература радиатора выпрямителя №8, 1гЦ\nmodbus_registers[103]=(signed char)(bps[7]._Ti);\nmodbus_registers[104]=(signed char)(bps[7]._av>>8);\t\t\t//Рег53\tБайт флагов выпрямителя №8, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[105]=(signed char)(bps[7]._av);\r\nmodbus_registers[106]=(signed char)(bps_U>>8);\t\t\t\t\t//Рег54 \tнапряжение выпрямителей, 0.1В\nmodbus_registers[107]=(signed char)(bps_U);\r\ntempS=0;\r\nif((speedChIsOn)\|\|(sp_ch_stat==scsWRK)) tempS=1;\r\nmodbus_registers[108]=(signed char)(tempS>>8);\t\t\t\t\t//Рег55 \tУскоренный заряд включенность, (1 - вкл, 0 - Выкл)\nmodbus_registers[109]=(signed char)(tempS);\r\ntempS=0;\r\nif(spc_stat==spcVZ) tempS=1;\r\nmodbus_registers[110]=(signed char)(tempS>>8);\t\t\t\t\t//Рег56 \tВыравнивающий заряд включенность, (1 - вкл, 0 - Выкл)\nmodbus_registers[111]=(signed char)(tempS);\r\nmodbus_registers[112]=(signed char)(uout_av>>8);\t\t\t\t\t//Рег57 Контроль выходного напряжения, (0 - норма, 1 - завышено, 2 - занижено)\nmodbus_registers[113]=(signed char)(uout_av);\r\n\r\ntempS=0;\t\t\t\t\t\t\t\t\t\t\t\t\t //Рег60\tРегистр флагов состояния системы\r\nif(bat_ips._av)\t\t\ttempS\|=(1<<0);\t\t\t\t\t\t // Бит 0\tАвария батареи\r\nif(avar_stat&0x0001) \ttempS\|=(1<<1);\t\t\t\t\t\t //\tБит 1\tАвария питающей сети \r\nif(avar_stat&(1<<(3+0)))tempS\|=(1<<2);\t\t\t\t\t\t //\tБит 2\tАвария выпрямителя №1\r\nif(avar_stat&(1<<(3+1)))tempS\|=(1<<3);\t\t\t\t\t\t //\tБит 3\tАвария выпрямителя №2\r\nif(avar_stat&(1<<(3+2)))tempS\|=(1<<4);\t\t\t\t\t\t //\tБит 4\tАвария выпрямителя №2\r\nmodbus_registers[118]=(signed char)(tempS>>8);\r\nmodbus_registers[119]=(signed char)(tempS);\r\n\r\nmodbus_registers[120]=(signed char)(volta_short>>8);\t\t//Рег61 \tнапряжение счетчика, 0.1В\nmodbus_registers[121]=(signed char)(volta_short);\r\nmodbus_registers[122]=(signed char)(curr_short>>8);\t\t\t//Рег62 \tток счетчика, 0.01А\nmodbus_registers[123]=(signed char)(curr_short);\r\nmodbus_registers[124]=(signed char)(power_int>>8);\t\t\t//Рег63 \tмощность счетчика, 1Вт\nmodbus_registers[125]=(signed char)(power_int);\r\n\r\n\r\ntempS=cntrl_stat_old;\r\nif(\t(main_kb_cnt==(TBAT60)-21) \|\| (main_kb_cnt==(TBAT60)-20) \|\| (main_kb_cnt==(TBAT60)-19)) tempS=((short)TBAT)\|0x4000;\r\n//tempS=0x800f;\r\nmodbus_registers[198]=(signed char)(tempS>>8);\t\t\t\t//???100\t????????? ???\r\nmodbus_registers[199]=(signed char)(tempS);\r\n\ntempS=t_ext[0];\r\nif(ND_EXT[0])tempS=-1000;\r\nmodbus_registers[400]=(signed char)(tempS>>8);\t\t\t\t//Рег201\tВнешний датчик температуры №1\nmodbus_registers[401]=(signed char)(tempS);\r\ntempS=t_ext[1];\r\nif(ND_EXT[1])tempS=-1000;\r\nmodbus_registers[402]=(signed char)(tempS>>8);\t\t\t\t//Рег202\tВнешний датчик температуры №2\nmodbus_registers[403]=(signed char)(tempS);\r\ntempS=t_ext[2];\r\nif(ND_EXT[2])tempS=-1000;\r\nmodbus_registers[404]=(signed char)(tempS>>8);\t\t\t\t//Рег203\tВнешний датчик температуры №3\nmodbus_registers[405]=(signed char)(tempS);\r\n/tempS=t_ext[3];\r\nif(ND_EXT[3])tempS=-1000;\r\nmodbus_registers[406]=(signed char)(tempS>>8);\t\t\t\t//Рег204\tВнешний датчик температуры №4\nmodbus_registers[407]=(signed char)(tempS); /\r\n\r\ntempS=0;\r\nif(sk_stat[0]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[0]==sasON) tempS\|=0x0002;\r\nmodbus_registers[420]=(signed char)(tempS>>8);\t\t\t\t//Рег211\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[421]=(signed char)(tempS);\r\ntempS=0;\r\nif(sk_stat[1]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[1]==sasON) tempS\|=0x0002;\r\nmodbus_registers[422]=(signed char)(tempS>>8);\t\t\t\t//Рег212\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[423]=(signed char)(tempS);\r\ntempS=0;\r\nif(sk_stat[2]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[2]==sasON) tempS\|=0x0002;\r\nmodbus_registers[424]=(signed char)(tempS>>8);\t\t\t\t//Рег213\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[425]=(signed char)(tempS);\r\ntempS=0;\r\nif(sk_stat[3]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[3]==sasON) tempS\|=0x0002;\r\nmodbus_registers[426]=(signed char)(tempS>>8);\t\t\t\t//Рег214\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[427]=(signed char)(tempS);\r\n\r\n//o_4_s\r\ntempS=0;\r\nif(avar_stat&0x0001)tempS=1;\r\nmodbus_registers[438]=(signed char)(tempS>>8);\t//Рег220 //аварии сети \nmodbus_registers[439]=(signed char)(tempS);\r\n\r\ntempS=0;\r\nif(BAT_IS_ON[0]!=bisON) tempS=0xFF;\r\nelse tempS=bat[0]._av;\r\nif(NUMBAT==0) {\r\n\tmodbus_registers[440]=0;\t//Рег221 // //Статус батареи №1\n\tmodbus_registers[441]=0xFF;\r\n\tmodbus_registers[442]=0;\t//Рег222 // //флаги батареи №1\n\tmodbus_registers[443]=0;\r\n}\r\nelse{\t\t\t\t\t\t \r\n\tmodbus_registers[440]=(signed char)(tempS>>8);\t//Рег221 // //Статус батареи №1\n\tmodbus_registers[441]=(signed char)(tempS);\r\n\tmodbus_registers[442]=(signed char)(snmp_bat_flag[0]>>8);\t//Рег222 // //флаги батареи №1\n\tmodbus_registers[443]=(signed char)(snmp_bat_flag[0]);\r\n}\r\n#ifndef UKU_ZVU\r\ntempS=0;\r\nif(BAT_IS_ON[1]!=bisON) tempS=0xFF;\r\nelse tempS=bat[1]._av;\r\nmodbus_registers[444]=(signed char)(tempS>>8);\t//Рег223 // //Статус батареи №2\nmodbus_registers[445]=(signed char)(tempS);\r\nmodbus_registers[446]=(signed char)(snmp_bat_flag[1]>>8);\t//Рег224 // //флаги батареи №1\nmodbus_registers[447]=(signed char)(snmp_bat_flag[1]);\t \r\n#else\r\nmodbus_registers[444]=0;\t//Рег223 // //Статус батареи №2\nmodbus_registers[445]=0xFF;\r\nmodbus_registers[446]=0;\t//Рег224 // //флаги батареи №1\nmodbus_registers[447]=0;\r\n#endif\r\n//o_4_e\r\n\r\n//modbus_registers[\r\n\r\n\r\nif(prot==MODBUS_RTU_PROT)\r\n\t{\r\n\tmodbus_tx_buff[0]=adr;\n\tmodbus_tx_buff[1]=func;\n\n\tmodbus_tx_buff[2]=(char)(reg_quantity2);\n\n\tmem_copy((signed char)&modbus_tx_buff[3],(signed char)&modbus_registers[(reg_adr-1)2],reg_quantity2);\n\n\tcrc_temp=CRC16_2(modbus_tx_buff,(reg_quantity2)+3);\n\n\tmodbus_tx_buff[3+(reg_quantity2)]=(char)crc_temp;\n\tmodbus_tx_buff[4+(reg_quantity2)]=crc_temp>>8;\n\n\tfor (i=0;i<(5+(reg_quantity2));i++)\n\t\t{\n\t\tputchar0(modbus_tx_buff[i]);\n\t\t}\r\n\tfor (i=0;i<(5+(reg_quantity2));i++)\n\t\t{\n\t\tputchar_sc16is700(modbus_tx_buff[i]);\n\t\t}\r\n\t}\r\nelse if(prot==MODBUS_TCP_PROT)\r\n\t{\r\n\tmem_copy((signed char)modbus_tx_buff,(signed char)&modbus_registers[(reg_adr-1)2],reg_quantity2);\r\n\tmodbus_tcp_out_ptr=(signed char)modbus_tx_buff;\r\n\t}\n}\n\n" }, { "alpha_fraction": 0.5058363676071167, "alphanum_fraction": 0.5844402313232422, "avg_line_length": 32.042266845703125, "blob_id": "6d977cbc343c2e6791400340e14592549891c3e6", "content_id": "8014a5a7080bff62a397fa36dc3e04968a1aea6b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 35404, "license_type": "no_license", "max_line_length": 140, "num_lines": 1041, "path": "/SOFT/UKU/2/MODBUS_TCP.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "\r\n#include <lpc17xx.h>\r\n#include <rtl.h>\r\n#include \"main.h\"\r\n#include \"modbus_tcp.h\"\r\n#include \"eeprom_map.h\"\r\n#include \"25lc640.h\"\r\n\r\nchar plazma_modbus_tcp[20];\r\nchar modbus_tcp_plazma[20];\r\n\r\nchar modbus_tcp_func;\r\nchar modbus_tcp_unit;\r\nshort modbus_tcp_rx_arg0;\r\nshort modbus_tcp_rx_arg1;\r\n\r\n//#define MODBUS_TCP_PROT\t1\r\n\r\nchar modbus_tcp_out_ptr;\r\n\r\n/--------------------------- TCP socket ------------------------------------/\r\n\r\nU16 tcp_callback (U8 soc, U8 evt, U8 ptr, U16 par) \r\n{\r\n/ This function is called by the TCP module on TCP event /\r\n/ Check the 'Net_Config.h' for possible events. /\r\npar = par;\r\n\r\nif (soc != socket_tcp) {\r\n\treturn (0);\r\n}\r\n\r\nmodbus_tcp_plazma[0]++;\r\n\r\nswitch (evt) \r\n\t{\r\n case TCP_EVT_DATA:\r\n / TCP data frame has arrived, data is located at par1, /\r\n /* data length is par2. Allocate buffer to send reply. /\r\n //procrec(ptr);\r\n\t\r\n\tplazma_modbus_tcp[1]=ptr[0];\r\n\tplazma_modbus_tcp[2]=ptr[1];\r\n\tplazma_modbus_tcp[3]=ptr[2];\r\n\tplazma_modbus_tcp[4]=ptr[3];\r\n\tplazma_modbus_tcp[5]=ptr[4];\r\n\tplazma_modbus_tcp[6]=ptr[5];\r\n\tplazma_modbus_tcp[7]=ptr[6];\r\n\tplazma_modbus_tcp[8]=ptr[7];\r\n\tplazma_modbus_tcp[9]=ptr[8];\r\n\tplazma_modbus_tcp[10]=ptr[9];\r\n\tplazma_modbus_tcp[11]=ptr[10];\r\n\t //plazma_modbus_tcp[4]=ptr[3];\r\n\t //plazma_modbus_tcp[5]=par;\r\n\t //plazma_modbus_tcp[6]=ptr[5];\r\n\r\n \t\r\n\tmodbus_tcp_func=ptr[7];\r\n\tmodbus_tcp_unit=ptr[6];\r\n\n\tmodbus_tcp_rx_arg0=(((unsigned short)ptr[8])((unsigned short)256))+((unsigned short)ptr[9]);\n\tmodbus_tcp_rx_arg1=(((unsigned short)ptr[10])((unsigned short)256))+((unsigned short)ptr[11]);\r\n\n\tif(modbus_tcp_unit==MODBUS_ADRESS)\n\t\t{\r\n\t\tchar modbus_tcp_tx_buff[200];\r\n\r\n\t\tif(modbus_tcp_func==3)\t\t//чтение произвольного кол-ва регистров хранения\n\t\t\t{\r\n\t\t\tU8 sendbuf;\r\n\t\t\t\r\n\r\n\t\t\tmodbus_hold_registers_transmit(MODBUS_ADRESS,modbus_tcp_func,modbus_tcp_rx_arg0,modbus_tcp_rx_arg1,MODBUS_TCP_PROT);\r\n\r\n\t\t\tsendbuf = tcp_get_buf((modbus_tcp_rx_arg12)+9);\r\n\t\t\tsendbuf[0]=ptr[0];\r\n\t\t\tsendbuf[1]=ptr[1];\r\n\t\t\tsendbuf[2]=ptr[2];\r\n\t\t\tsendbuf[3]=ptr[3];\r\n\t\t\tsendbuf[4]=((modbus_tcp_rx_arg12)+3)/256;\r\n\t\t\tsendbuf[5]=((modbus_tcp_rx_arg12)+3)%256;;\r\n\t\t\tsendbuf[6]=modbus_tcp_unit;\r\n\t\t\tsendbuf[7]=modbus_tcp_func;\r\n\t\t\tsendbuf[8]=(U8)(modbus_tcp_rx_arg12);\r\n\t\t\tmem_copy((char)&sendbuf[9],modbus_tcp_out_ptr,(modbus_tcp_rx_arg12));\r\n\t\t\t//sendbuf[9]=3;\r\n\t\t\t//sendbuf[10]=4;\r\n \ttcp_send (socket_tcp, sendbuf, ((modbus_tcp_rx_arg12)+9));\r\n\t\t\t//\n\t\t\t\r\n\t\t\t//modbus_tcp_tx_buff[4]=0;\r\n\t\t\t//modbus_tcp_tx_buff[5]=5;\r\n\t\t\t//modbus_tcp_tx_buff[6]=1;//modbus_tcp_unit;\r\n\t\t\t//modbus_tcp_tx_buff[7]=3;//modbus_tcp_func;\r\n\t\t\t//modbus_tcp_tx_buff[8]=2;\r\n\t\t\t//mem_copy((char)&modbus_tcp_tx_buff[9],modbus_tcp_out_ptr,2);\r\n\t\t\t//modbus_tcp_tx_buff[9]=2;\r\n\t\t\t//modbus_tcp_tx_buff[10]=3;\r\n\t\t\t//tcp_send (socket_tcp, modbus_tcp_tx_buff, 11);\r\n\r\n\r\n\t\t\t}\n\n\t\tif(modbus_tcp_func==4)\t\t//чтение произвольного кол-ва регистров\tвходов\n\t\t\t{\r\n\t\t\tU8 sendbuf;\r\n\n\t\t\tmodbus_input_registers_transmit(MODBUS_ADRESS,modbus_tcp_func,modbus_tcp_rx_arg0,modbus_tcp_rx_arg1,MODBUS_TCP_PROT);\r\n\n\t\t\tsendbuf = tcp_get_buf((modbus_tcp_rx_arg12)+9);\r\n\t\t\tsendbuf[0]=ptr[0];\r\n\t\t\tsendbuf[1]=ptr[1];\r\n\t\t\tsendbuf[2]=ptr[2];\r\n\t\t\tsendbuf[3]=ptr[3];\r\n\t\t\tsendbuf[4]=((modbus_tcp_rx_arg12)+3)/256;\r\n\t\t\tsendbuf[5]=((modbus_tcp_rx_arg12)+3)%256;;\r\n\t\t\tsendbuf[6]=modbus_tcp_unit;\r\n\t\t\tsendbuf[7]=modbus_tcp_func;\r\n\t\t\tsendbuf[8]=(U8)(modbus_tcp_rx_arg12);\r\n\t\t\tmem_copy((char)&sendbuf[9],modbus_tcp_out_ptr,(modbus_tcp_rx_arg12));\r\n\t\t\t//sendbuf[9]=3;\r\n\t\t\t//sendbuf[10]=4;\r\n \ttcp_send (socket_tcp, sendbuf, ((modbus_tcp_rx_arg12)+9));\r\n\t\t\t//\n\t\t\t\r\n\t\t\t//modbus_tcp_tx_buff[4]=0;\r\n\t\t\t//modbus_tcp_tx_buff[5]=5;\r\n\t\t\t//modbus_tcp_tx_buff[6]=1;//modbus_tcp_unit;\r\n\t\t\t//modbus_tcp_tx_buff[7]=3;//modbus_tcp_func;\r\n\t\t\t//modbus_tcp_tx_buff[8]=2;\r\n\t\t\t//mem_copy((char)&modbus_tcp_tx_buff[9],modbus_tcp_out_ptr,2);\r\n\t\t\t//modbus_tcp_tx_buff[9]=2;\r\n\t\t\t//modbus_tcp_tx_buff[10]=3;\r\n\t\t\t//tcp_send (socket_tcp, modbus_tcp_tx_buff, 11);\r\n\t\t\t}\n\n\t\telse if(modbus_tcp_func==6) \t//запись регистров хранения\n\t\t\t{\r\n\t\t\tU8 sendbuf;\r\n\r\n\t\t\t\n\t\t\tif(modbus_tcp_rx_arg0==11)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->YEAR=(uint16_t)modbus_tcp_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_tcp_rx_arg0==12)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->MONTH=(uint16_t)modbus_tcp_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_tcp_rx_arg0==13)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->DOM=(uint16_t)modbus_tcp_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_tcp_rx_arg0==14)\t\t//Установка времени \n\t\t\t\t{\r\n\t\t\t\tplazma_modbus_tcp[0]++;\n\t\t\t\tLPC_RTC->HOUR=(uint16_t)modbus_tcp_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_tcp_rx_arg0==15)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->MIN=(uint16_t)modbus_tcp_rx_arg1;\n\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==16)\t\t//Установка времени \n\t\t\t\t\t{\n\t\t\t\t\tLPC_RTC->SEC=(uint16_t)modbus_tcp_rx_arg1;\n\t\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==20)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t\t{\n\t\t\t\t\tif((modbus_tcp_rx_arg1>0)&&(modbus_tcp_rx_arg1<=18))\n\t\t\t\t\tlc640_write_int(EE_NUMIST,modbus_tcp_rx_arg1); \n\t\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==21)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t\t{\n\t\t\t\t\tif((modbus_tcp_rx_arg1==0)\|\|(modbus_tcp_rx_arg1==1))\n\t\t\t\t\tlc640_write_int(EE_PAR,modbus_tcp_rx_arg1); \n\t\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==22)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t\t{\n\t\t\t\t\tif((modbus_tcp_rx_arg1==0)\|\|(modbus_tcp_rx_arg1==1))\n\t\t\t\t\tlc640_write_int(EE_ZV_ON,modbus_tcp_rx_arg1); \n\t\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==23)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t\t{\n\t\t\t\t\tif((modbus_tcp_rx_arg1==0)\|\|(modbus_tcp_rx_arg1==1))\n\t\t\t\t\tlc640_write_int(EE_TERMOKOMP,modbus_tcp_rx_arg1); \n\t\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==24)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t\t{\n\t\t\t\t\tif((modbus_tcp_rx_arg1>=0)\|\|(modbus_tcp_rx_arg1<=20))\n\t\t\t\t\tlc640_write_int(EE_UBM_AV,modbus_tcp_rx_arg1); \n\t\t\t\t\t}\n\t\n\t\n\t\t\t\tif(modbus_tcp_rx_arg0==30)\t\t//напряжение стабилизации для режима стабилизации напряжения\n\t\t\t\t\t{\n\t\t\t\t\tif(modbus_tcp_rx_arg1<0)TBAT=0;\n\t\t\t\t\telse if((modbus_tcp_rx_arg1>0)&&(modbus_tcp_rx_arg1<=5))modbus_tcp_rx_arg1=0;\n\t\t\t\t\telse if(modbus_tcp_rx_arg1>=60)TBAT=60;\n\t\t\t\t\telse TBAT=modbus_tcp_rx_arg1;\n\t\t\t\t\tlc640_write_int(EE_TBAT,TBAT);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==31)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_UMAX,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==32)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_DU,UB20-modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==33)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_UB0,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==34)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_UB20,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==35)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_USIGN,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==36)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_UMN,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==37)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_U0B,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==38)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_IKB,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==39)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_IZMAX,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==40)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_IMAX,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==41)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_IMIN,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==42)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_UVZ,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==43)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_TZAS,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==44)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_TMAX,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==45)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_TSIGN,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==46)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_TBATMAX,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==47)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_TBATSIGN,modbus_tcp_rx_arg1);\n\t\t \t\t}\r\n\t\t\t\tif(modbus_tcp_rx_arg0==48)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_SPEED_CHRG_CURR,modbus_tcp_rx_arg1);\n\t\t \t\t}\r\n\t\t\t\tif(modbus_tcp_rx_arg0==49)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_SPEED_CHRG_VOLT,modbus_tcp_rx_arg1);\n\t\t \t\t}\r\n\t\t\t\tif(modbus_tcp_rx_arg0==50)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_SPEED_CHRG_TIME,modbus_tcp_rx_arg1);\n\t\t \t\t}\r\n\t\t\t\tif(modbus_tcp_rx_arg0==51)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_U_OUT_KONTR_MAX,modbus_tcp_rx_arg1);\n\t\t \t\t}\r\n\t\t\t\tif(modbus_tcp_rx_arg0==52)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_U_OUT_KONTR_MIN,modbus_tcp_rx_arg1);\n\t\t \t\t}\r\n\t\t\t\tif(modbus_tcp_rx_arg0==53)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_U_OUT_KONTR_DELAY,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t//o_10_s\t забыл в прошлый раз про modbus tcp\r\n\t\t\tif(modbus_tcp_rx_arg0==54)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UB0,modbus_tcp_rx_arg1);\n\t\t\t\tlc640_write_int(EE_UB20,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==55)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UMAXN,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==56)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=3) lc640_write_int(EE_SNTP_ENABLE,modbus_tcp_rx_arg1);\n\t \t\t}\t\t\t\t\t\t\r\n\t\t\tif(modbus_tcp_rx_arg0==57)\t\t\n\t\t\t\t{\r\n\t\t\t\tsigned short www=(signed short)modbus_tcp_rx_arg1;\n\t\t\t\tif(www>=-12 && www<=13) lc640_write_int(EE_SNTP_GMT,modbus_tcp_rx_arg1);\n\t \t\t}\t\t\t\t\t\t\r\n\t\t\tif(modbus_tcp_rx_arg0==58)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_SNTP_IP1,modbus_tcp_rx_arg1);\n\t \t\t}\t\t\t\t\t\t\r\n\t\t\tif(modbus_tcp_rx_arg0==59)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_SNTP_IP2,modbus_tcp_rx_arg1);\n\t \t\t}\t\t\t\t\t\t\r\n\t\t\tif(modbus_tcp_rx_arg0==60)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_SNTP_IP3,modbus_tcp_rx_arg1);\n\t \t\t}\t\t\t\t\t\t\r\n\t\t\tif(modbus_tcp_rx_arg0==61)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_SNTP_IP4,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==62)\t\t\n\t\t\t\t{\r\n\t\t\t\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\t\t\t\tif(modbus_tcp_rx_arg1<=2) lc640_write_int(EE_NUMBAT,modbus_tcp_rx_arg1);\r\n\t\t\t\t#else\r\n\t\t\t\tif(modbus_tcp_rx_arg1<=1) lc640_write_int(EE_NUMBAT,modbus_tcp_rx_arg1);\r\n\t\t\t\t#endif\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==63)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=3) lc640_write_int(EE_NUMDT,modbus_tcp_rx_arg1);\n\t \t\t}\t\r\n\t\t\tif(modbus_tcp_rx_arg0==64)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==2 \|\| modbus_tcp_rx_arg1==4) lc640_write_int(EE_NUMMAKB,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==65)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=4) lc640_write_int(EE_NUMSK,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==66)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_NUM_RKI,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==67)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_NUM_NET_IN,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==68)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_NUMBDR,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==69)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>0 && modbus_tcp_rx_arg1<9) lc640_write_int(EE_NUMENMV,modbus_tcp_rx_arg1); //o_12\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==70)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=1 && modbus_tcp_rx_arg1<=200) lc640_write_int(EE_BAT_C_POINT_NUM_ELEM,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==71)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=25000) lc640_write_int(EE_BAT_C_POINT_20,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==72)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=21000) lc640_write_int(EE_BAT_C_POINT_10,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==73)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=20000) lc640_write_int(EE_BAT_C_POINT_5,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==74)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=18000) lc640_write_int(EE_BAT_C_POINT_3,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==75)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=16000) lc640_write_int(EE_BAT_C_POINT_1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==76)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=13000) lc640_write_int(EE_BAT_C_POINT_1_2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==77)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=8000) lc640_write_int(EE_BAT_C_POINT_1_6,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==78)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_20,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==79)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_10,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==80)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_5,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==81)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_3,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==82)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==83)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_1_2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==84)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_1_6,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==85)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=100) lc640_write_int(EE_BAT_K_OLD,modbus_tcp_rx_arg1);\n\t \t\t}\t\t\r\n\t\t\tif(modbus_tcp_rx_arg0==86)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=15 && modbus_tcp_rx_arg1<=250) lc640_write_int(EE_UVENTOFF,modbus_tcp_rx_arg1);\n\t \t\t}\t\t\t\r\n\t\t\tif(modbus_tcp_rx_arg0==87)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=2000) lc640_write_int(EE_IMAX_VZ,modbus_tcp_rx_arg1);\n\t \t\t} \r\n\t\t\tif(modbus_tcp_rx_arg0==88)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=72) lc640_write_int(EE_VZ_HR,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==89)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_VZ_CH_VENT_BLOK,modbus_tcp_rx_arg1);\n\t \t\t} \r\n\t\t\tif(modbus_tcp_rx_arg0==90)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_SPEED_CHRG_AVT_EN,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==91)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>0 && modbus_tcp_rx_arg1<=100) lc640_write_int(EE_SPEED_CHRG_D_U,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==92)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==2) lc640_write_int(EE_SPEED_CHRG_BLOCK_SRC,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==93)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_SPEED_CHRG_BLOCK_LOG,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==94)\t\t\n\t\t\t\t{\t\t\t\t\t\t\t\t\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_SP_CH_VENT_BLOK,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==95)\t\t\n\t\t\t\t{\t\t\t\t\t\t\t\t\n\t\t\t\tif(modbus_tcp_rx_arg1>=UB20 && modbus_tcp_rx_arg1<=2600) lc640_write_int(EE_UZ_U,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==96)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=10000) lc640_write_int(EE_UZ_IMAX,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==97)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=1 && modbus_tcp_rx_arg1<=72) lc640_write_int(EE_UZ_T,modbus_tcp_rx_arg1);\n\t \t\t}\t\t\t\t\t \r\n\t\t\tif(modbus_tcp_rx_arg0==98)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=UB20 && modbus_tcp_rx_arg1<=3000) lc640_write_int(EE_FZ_U1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==99)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=1000) lc640_write_int(EE_FZ_IMAX1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\t// 2 регистра внизу\r\n\t\t\tif(modbus_tcp_rx_arg0==102)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=1 && modbus_tcp_rx_arg1<=10) lc640_write_int(EE_FZ_T1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==103)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=1000) lc640_write_int(EE_FZ_ISW12,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==104)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=UB20 && modbus_tcp_rx_arg1<=3000) lc640_write_int(EE_FZ_U2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==105)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=1000) lc640_write_int(EE_FZ_IMAX2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==106)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=1 && modbus_tcp_rx_arg1<=10) lc640_write_int(EE_FZ_T2,modbus_tcp_rx_arg1);\n\t \t\t}\t \r\n\t\t\tif(modbus_tcp_rx_arg0==107)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_AV_OFF_AVT,modbus_tcp_rx_arg1);\n\t \t\t}\t\t\t\t\r\n\t\t \tif(modbus_tcp_rx_arg0==108)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_APV_ON1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t \tif(modbus_tcp_rx_arg0==109)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_APV_ON2,modbus_tcp_rx_arg1);\n\t \t\t}\t\t \r\n\t\t \tif(modbus_tcp_rx_arg0==110)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=1 && modbus_tcp_rx_arg1<=24) lc640_write_int(EE_APV_ON2_TIME,modbus_tcp_rx_arg1);\n\t \t\t} \r\n\t\t\tif(modbus_tcp_rx_arg0==111)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0)\t lc640_write_int(EE_SK_SIGN0,0xFFFF);\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==1) lc640_write_int(EE_SK_SIGN0,0);\n\t \t\t} \t \r\n\t\t\tif(modbus_tcp_rx_arg0==112)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0)\t lc640_write_int(EE_SK_ZVUK_EN0,0xFFFF);\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==1) lc640_write_int(EE_SK_ZVUK_EN0,0);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==113)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0)\t lc640_write_int(EE_SK_LCD_EN0,0xFFFF);\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==1) lc640_write_int(EE_SK_LCD_EN0,0);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==114)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0)\t lc640_write_int(EE_SK_SIGN1,0xFFFF);\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==1) lc640_write_int(EE_SK_SIGN1,0);\n\t \t\t} \t \r\n\t\t\tif(modbus_tcp_rx_arg0==115)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0)\t lc640_write_int(EE_SK_ZVUK_EN1,0xFFFF);\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==1) lc640_write_int(EE_SK_ZVUK_EN1,0);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==116)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0)\t lc640_write_int(EE_SK_LCD_EN1,0xFFFF);\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==1) lc640_write_int(EE_SK_LCD_EN1,0);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==117)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0)\t lc640_write_int(EE_SK_SIGN2,0xFFFF);\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==1) lc640_write_int(EE_SK_SIGN2,0);\n\t \t\t} \t \r\n\t\t\tif(modbus_tcp_rx_arg0==118)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0)\t lc640_write_int(EE_SK_ZVUK_EN2,0xFFFF);\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==1) lc640_write_int(EE_SK_ZVUK_EN2,0);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==119)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0)\t lc640_write_int(EE_SK_LCD_EN2,0xFFFF);\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==1) lc640_write_int(EE_SK_LCD_EN2,0);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==120)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0)\t lc640_write_int(EE_SK_SIGN3,0xFFFF);\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==1) lc640_write_int(EE_SK_SIGN3,0);\n\t \t\t} \t \r\n\t\t\tif(modbus_tcp_rx_arg0==121)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0)\t lc640_write_int(EE_SK_ZVUK_EN3,0xFFFF);\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==1) lc640_write_int(EE_SK_ZVUK_EN3,0);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==122)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0)\t lc640_write_int(EE_SK_LCD_EN3,0xFFFF);\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==1) lc640_write_int(EE_SK_LCD_EN3,0);\n\t \t\t}\t\t \r\n\t\t \tif(modbus_tcp_rx_arg0==123)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_TERMOKOMP,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==124)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=500) lc640_write_int(EE_FORVARDBPSCHHOUR,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==125)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_DOP_RELE_FUNC,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==126)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=2) lc640_write_int(EE_IPS_BLOCK_SRC,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==127)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_IPS_BLOCK_LOG,modbus_tcp_rx_arg1);\n\t \t\t} \r\n\t\t \tif(modbus_tcp_rx_arg0==128)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>0 && modbus_tcp_rx_arg1<=100) lc640_write_int(EE_MODBUS_ADRESS,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==129)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==120 \|\| modbus_tcp_rx_arg1==240 \|\| modbus_tcp_rx_arg1==480 \|\| modbus_tcp_rx_arg1==960 \|\| modbus_tcp_rx_arg1==1920 \r\n\t\t\t\t\|\| modbus_tcp_rx_arg1==3840 \|\| modbus_tcp_rx_arg1==5760 \|\| modbus_tcp_rx_arg1==11520){ \r\n\t\t\t\t\tlc640_write_int(EE_MODBUS_BAUDRATE,modbus_tcp_rx_arg1);\r\n\t\t\t\t\tMODBUS_BAUDRATE=modbus_tcp_rx_arg1;\r\n\t\t\t\t\t}\n\t \t\t} \t\r\n\t\t\tif(modbus_tcp_rx_arg0==130)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_ETH_IS_ON,modbus_tcp_rx_arg1);\n\t \t\t}\t \r\n\t\t\tif(modbus_tcp_rx_arg0==131)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_ETH_DHCP_ON,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==132) //IP адрес\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_IP_1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==133)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_IP_2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==134)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_IP_3,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==135)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_IP_4,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==136)\t//маска подсети\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_MASK_1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==137)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_MASK_2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==138)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_MASK_3,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==139)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_MASK_4,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==140)\t//шлюз\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_GW_1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==141)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_GW_2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==142)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_GW_3,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==143)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_GW_4,modbus_tcp_rx_arg1);\n\t \t\t}\t \r\n\t\t\tif(modbus_tcp_rx_arg0==144)\t\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_ETH_SNMP_PORT_READ,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==145)\t\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_ETH_SNMP_PORT_WRITE,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==146)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_COMMUNITY,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==147)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==148)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+4,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==149)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+6,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==150)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+8,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==151)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+10,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==152)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+12,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==153)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+14,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==154) //TRAP1 IP адрес\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP1_IP_1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==155)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP1_IP_2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==156)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP1_IP_3,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==157)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP1_IP_4,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==158) //TRAP2 IP адрес\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP2_IP_1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==159)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP2_IP_2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==160)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP2_IP_3,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==161)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP2_IP_4,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==162) //TRAP3 IP адрес\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP3_IP_1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==163)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP3_IP_2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==164)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP3_IP_3,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==165)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP3_IP_4,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==166) //TRAP4 IP адрес\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP4_IP_1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==167)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP4_IP_2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==168)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP4_IP_3,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==169)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP4_IP_4,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==170) //TRAP5 IP адрес\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP5_IP_1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==171)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP5_IP_2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==172)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP5_IP_3,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==173)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP5_IP_4,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==174)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_WEB_PASSWORD,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==175)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_WEB_PASSWORD+2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==176)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_WEB_PASSWORD+4,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==177 && modbus_tcp_rx_arg1>0) bRESET_INT_WDT=1;// перегрузка УКУ, инициализировать интернет \r\n\t\t\tif(modbus_tcp_rx_arg0==178)\t\t\n\t\t\t\t{\r\n\t\t\t\tmodbus_tcp_rx_arg1/=10;\n\t\t\t\tif(modbus_tcp_rx_arg1<=6000) lc640_write_int(EE_TVENTMAX,modbus_tcp_rx_arg1);\n\t \t\t} \r\n\t\t \tif(modbus_tcp_rx_arg0==179)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=2) lc640_write_int(EE_ICA_EN,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==180)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=2) lc640_write_int(EE_ICA_CH,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==181) //IP адрес второго ИПС\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ICA_MODBUS_TCP_IP1,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==182)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ICA_MODBUS_TCP_IP2,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==183)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ICA_MODBUS_TCP_IP3,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==184)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=255) lc640_write_int(EE_ICA_MODBUS_TCP_IP4,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==185)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>0 && modbus_tcp_rx_arg1<=254) lc640_write_int(EE_ICA_MODBUS_TCP_UNIT_ID,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==186)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>0 && modbus_tcp_rx_arg1<=254) lc640_write_int(EE_ICA_MODBUS_ADDRESS,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==187)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=100) lc640_write_int(EE_PWM_START,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==188)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=1 && modbus_tcp_rx_arg1<=3) lc640_write_int(EE_KB_ALGORITM,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==189)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=1 && modbus_tcp_rx_arg1<=5) lc640_write_int(EE_REG_SPEED,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==190)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==0 \|\| modbus_tcp_rx_arg1==1) lc640_write_int(EE_SMART_SPC,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==191)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==1 \|\| modbus_tcp_rx_arg1==3) lc640_write_int(EE_NUMPHASE,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==192)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=100) lc640_write_int(EE_TVENTON,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==193)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=100) lc640_write_int(EE_TVENTOFF,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==194)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=2) lc640_write_int(EE_RELEVENTSIGN,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==195)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1<=2) lc640_write_int(EE_NPN_OUT,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==196)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=100 && modbus_tcp_rx_arg1<=2500) lc640_write_int(EE_UONPN,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==197)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=100 && modbus_tcp_rx_arg1<=2500) lc640_write_int(EE_UVNPN,modbus_tcp_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==198)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1>=10 && modbus_tcp_rx_arg1<=60) lc640_write_int(EE_TZNPN,modbus_tcp_rx_arg1);\n\t \t\t}\t\t\r\n\r\n\t\t\tif(modbus_tcp_rx_arg0==200)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==1 ) command_rki=36;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==10 ) command_rki=37;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==-1 ) command_rki=38; //-1\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==-10 ) command_rki=39;\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==201)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==1 ) command_rki=40;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==10 ) command_rki=41;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==-1 ) command_rki=42;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==-10 ) command_rki=43;\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==202)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==1 ) command_rki=14;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==-1 ) command_rki=13;\r\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==203)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==1 ) command_rki=20;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==5 ) command_rki=22;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==0xFFFF ) command_rki=19;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==0xFFFB ) command_rki=21;\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==204)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==1 ) command_rki=24;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==5 ) command_rki=26;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==-1 ) command_rki=23;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==-5 ) command_rki=25;\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==205)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==1 ) command_rki=28;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==5 ) command_rki=30;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==-1 ) command_rki=27;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==-5 ) command_rki=29;\n\t \t\t}\r\n\t\t\tif(modbus_tcp_rx_arg0==206)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_tcp_rx_arg1==1 ) command_rki=16;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==10 ) command_rki=18;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==-1 ) command_rki=15;\r\n\t\t\t\telse if(modbus_tcp_rx_arg1==-10 ) command_rki=17;\n\t \t\t}\r\n\r\n\r\n\t\t//o_10_e\n\t\n\t\t\t\tif(modbus_tcp_rx_arg0==19)\t\t//вкл/выкл источника напр.\n\t\t\t\t\t{\n\t\t/\t\t\tif(modbus_tcp_rx_arg1==1)\n\t\t\t\t\t\t{\n\t\t\t\t\t\tif(work_stat!=wsPS)\n\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\twork_stat=wsPS;\n\t\t\t\t\t\t\ttime_proc=0;\n\t\t\t\t\t\t\ttime_proc_remain=T_PROC_PS;\n\t\t\t\t\t\t\trestart_on_PS();\n\t\t\t\t\t\t\tlc640_write_int(EE_MAIN_MENU_MODE,mmmIN);\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\t\tif(modbus_tcp_rx_arg1==0)\n\t\t\t\t\t\t{\n\t\t\t\t\t\tif(work_stat==wsPS)\n\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\twork_stat=wsOFF;\n\t\t\t\t\t\t\trestart_off();\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t} /\n\t\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==20)\t\t//вкл/выкл источника тока\n\t\t\t\t\t{\n\t/\t\t\t\tif(modbus_tcp_rx_arg1==1)\n\t\t\t\t\t\t{\n\t\t\t\t\t\tif(work_stat!=wsGS)\n\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\twork_stat=wsGS;\n\t\t\t\t\t\t\ttime_proc=0;\n\t\t\t\t\t\t\ttime_proc_remain=T_PROC_GS;\n\t\t\t\t\t\t\tlc640_write_int(EE_MAIN_MENU_MODE,mmmIT);\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\t\tif(modbus_tcp_rx_arg1==0)\n\t\t\t\t\t\t{\n\t\t\t\t\t\tif(work_stat==wsGS)\n\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\twork_stat=wsOFF;\n\t\t\t\t\t\t\trestart_off();\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}/\n\t\t\t\t\t}\n\t\t\t\tmodbus_hold_registers_transmit(MODBUS_ADRESS,modbus_tcp_func,modbus_tcp_rx_arg0,1,MODBUS_TCP_PROT);\r\n\t\r\n\t\t\t\tsendbuf = tcp_get_buf(11);\r\n\t\t\t\tsendbuf[0]=ptr[0];\r\n\t\t\t\tsendbuf[1]=ptr[1];\r\n\t\t\t\tsendbuf[2]=ptr[2];\r\n\t\t\t\tsendbuf[3]=ptr[3];\r\n\t\t\t\tsendbuf[4]=0;\r\n\t\t\t\tsendbuf[5]=6;\r\n\t\t\t\tsendbuf[6]=modbus_tcp_unit;\r\n\t\t\t\tsendbuf[7]=modbus_tcp_func;\r\n\t\t\t\tsendbuf[8]=modbus_tcp_rx_arg0/256;\r\n\t\t\t\tsendbuf[9]=modbus_tcp_rx_arg0%256;\r\n\t\t\t\tmem_copy((char)&sendbuf[10],modbus_tcp_out_ptr,2);\r\n\t\t\t\t//sendbuf[9]=3;\r\n\t\t\t\t//sendbuf[10]=4;\r\n\t \ttcp_send (socket_tcp, sendbuf, 12);\r\n\t\t\t\t//\n\t\t\t\t\r\n\t\t\t\t//modbus_tcp_tx_buff[4]=0;\r\n\t\t\t\t//modbus_tcp_tx_buff[5]=5;\r\n\t\t\t\t//modbus_tcp_tx_buff[6]=1;//modbus_tcp_unit;\r\n\t\t\t\t//modbus_tcp_tx_buff[7]=3;//modbus_tcp_func;\r\n\t\t\t\t//modbus_tcp_tx_buff[8]=2;\r\n\t\t\t\t//mem_copy((char)&modbus_tcp_tx_buff[9],modbus_tcp_out_ptr,2);\r\n\t\t\t\t//modbus_tcp_tx_buff[9]=2;\r\n\t\t\t\t//modbus_tcp_tx_buff[10]=3;\r\n\t\t\t\t//tcp_send (socket_tcp, modbus_tcp_tx_buff, 11);\r\n\r\n\r\n\r\n\r\n\r\n\r\n\t\t\t\t}\r\n\r\n\r\n\t\t\t\n\t\t\t} \n \tbreak;\r\n\r\n \tcase TCP_EVT_CONREQ:\r\n \t\t/* Remote peer requested connect, accept it /\r\n\t\t\t//ica_plazma[5]++;\r\n \t\treturn (1);\r\n\r\n \tcase TCP_EVT_CONNECT:\r\n \t\t/ The TCP socket is connected /\r\n\t\t\ttcp_connect_stat=1;\r\n\t\t\t//ica_plazma[6]++;\r\n \t\treturn (1);\r\n\r\n \tcase TCP_EVT_CLOSE: \r\n \t\t/ The TCP socket is connected /\r\n\t\t\ttcp_connect_stat=0;\r\n\t\t\t//ica_plazma[7]++;\r\n \t\treturn (1);\r\n \t\t}\r\n \treturn (0);\r\n}" }, { "alpha_fraction": 0.4605841338634491, "alphanum_fraction": 0.5009046196937561, "avg_line_length": 19.084468841552734, "blob_id": "3fa4f45cc345a95707d30cf896fddafeaf22b09a", "content_id": "75f526f33066f645f489bfc1fca2b95724388791", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 7962, "license_type": "no_license", "max_line_length": 110, "num_lines": 367, "path": "/SOFT/UKU/2/uku206_12_01_09.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#define BIN__N(x) (x) \| x>>3 \| x>>6 \| x>>9\r\n#define BIN__B(x) (x) & 0xf \| (x)>>12 & 0xf0\r\n#define BIN8(v) (BIN__B(BIN__N(0x##v)))\r\n\r\n//********************************************\r\n//Таймер\r\nchar b100Hz,b50Hz,b10Hz,b5Hz,b2Hz,b1Hz;\r\nshort t0cnt,t0cnt0,t0cnt1,t0cnt2,t0cnt3,t0cnt4,t0cnt5,t0cnt6,t0_cnt7;\r\nchar bFL5,bFL2,bFL,bFL_;\r\n\r\n//*******************************************\r\n//АЦП\r\n\r\nshort adc_buff[16][16],adc_buff_[16];\r\nchar adc_cnt,adc_cnt1,adc_ch;\r\n\r\n \r\nchar bp_tumbler[2];\r\n\r\n//*******************************************\r\n//Состояние первичной сети\r\nchar u_net_av_stat,u_net_av_stat_;\r\nsigned short Unet,unet_store;\r\nsigned short Hz_cnt,fnet,Hz_out;\r\n\r\n//*******************************************\r\n//Состояние внешних датчиков\r\nsigned short tout[3];\r\n\r\n\r\n//*******************************************\r\n//Состояние батарей\r\nchar bat_cnt_to_block[2];\r\nchar bat_rel_stat[2];\r\nsigned bat_Ub[2]; \r\nsigned bat_Ib[2];\r\nsigned bat_Tb[2];\r\nchar bat_nd[2];\r\nchar bat_av_stat[2];\r\nchar bat_zar[2];\r\n\r\n//*******************************************\r\n//Состояние источников\r\n\r\n#define ssOFF 0\r\n#define ssAV 1\r\n#define ssBL 2\r\n#define ssWRK 3\r\n#define ssNOT 4\r\n#define dSRC 3\r\n#define dINV 5\r\n\r\ntypedef struct\r\n {\r\n char _device; \r\n char _state;\r\n char _cnt;\r\n char _cnt_old;\r\n char _cnt_more2;\r\n char _buff[16]; \r\n char _av_net;\r\n char _av_u_max;\r\n char _av_u_min;\r\n char _av_temper; \r\n signed _Uii; \r\n signed _Uin;\r\n signed _Ii;\r\n signed _Ti; \r\n char _flags_tu;\r\n //char _flags_tu_old;\r\n char _is_ready;\r\n char _is_wrk;\r\n char _is_link;\r\n char _is_av;\r\n signed _vol_u;\r\n signed _vol_i;\r\n char _is_on_cnt;\r\n int _ist_blok_host_cnt_; //блокирование источников извне(CAN или RS), если не 0 то источник заблокирован.\r\n int _ist_blok_host_cnt;\r\n int _ist_blok_cnt; //блокирование источников \r\n char _flags_tm; \r\n char _flags_bp;\r\n signed _temp_av_cnt;\r\n signed _umax_av_cnt;\r\n signed _umin_av_cnt;\r\n signed _rotor;\r\n signed _x_; \r\n //char _off_bp_cnt;\r\n char _adr_ee;\r\n } SRC_STAT; \r\n \r\nSRC_STAT src[10];\r\n\r\n//*******************************************\r\n//Состояние нагрузки\r\nsigned short load_U;\r\nsigned short load_I;\r\n\r\n\r\n\r\n\r\n//*******************************************\r\n//Коэффициенты, отображаемые из EEPROM\r\nsigned short Ktsrc[2];\r\nsigned short Kusrc[2];\r\nsigned short Kisrc[2];\r\nsigned short Ki0src[2];\r\nsigned short Kubat[2];\r\nsigned short Kibat0[2];\r\nsigned short Kibat1[2];\r\nsigned short Ktbat[2];\r\nsigned short Kunet;\r\nsigned short Ktout[3];\r\n\r\nsigned short MAIN_IST;\r\nsigned short UMAX;\r\nsigned short UB0;\r\nsigned short UB20;\r\nsigned short TMAX;\r\nsigned short TSIGN;\r\nsigned short AV_OFF_AVT;\r\nsigned short USIGN;\r\nsigned short UMN;\r\nsigned short ZV_ON;\r\nsigned short IKB;\r\nsigned short KVZ;\r\nsigned short IMAX;\r\nsigned short KIMAX;\r\nsigned short APV_ON;\r\nsigned short IZMAX;\r\nsigned short U0B;\r\nsigned short TZAS;\r\nsigned short VZ_HR;\r\nsigned short TBAT;\r\nsigned short U_AVT;\r\nsigned short DU;\r\nsigned short PAR;\r\n\r\nsigned short NUMBAT;\r\nsigned short NUMIST;\r\nsigned short NUMINV;\r\nsigned short NUMDT;\r\nsigned short NUMSK;\r\n\r\n\r\n/\r\nsigned short BAT2_DAY_OF_ON;\r\n\r\nsigned short BAT2_C_REAL;\r\n/\r\n\r\n//signed short ZAR_CNT,ZAR_CNT_KE;\r\nenum {bisON=0x0055,bisOFF=0x00aa}BAT_IS_ON[2];\r\nsigned short BAT_DAY_OF_ON[2];\r\nsigned short BAT_MONTH_OF_ON[2];\r\nsigned short BAT_YEAR_OF_ON[2];\r\nsigned short BAT_C_NOM[2];\r\nsigned short BAT_RESURS[2];\r\nsigned short BAT_C_REAL[2];\r\n\r\nunsigned short AUSW_MAIN;\r\nunsigned long \tAUSW_MAIN_NUMBER;\r\nunsigned short AUSW_DAY;\r\nunsigned short AUSW_MONTH;\r\nunsigned short AUSW_YEAR;\r\nunsigned short AUSW_UKU;\r\nunsigned short AUSW_UKU_SUB;\r\nunsigned long AUSW_UKU_NUMBER;\r\nunsigned long\tAUSW_BPS1_NUMBER;\r\nunsigned long AUSW_BPS2_NUMBER;\r\nunsigned short AUSW_RS232;\r\nunsigned short AUSW_PDH;\r\nunsigned short AUSW_SDH;\r\nunsigned short AUSW_ETH;\r\n\r\nsigned short TMAX_EXT_EN[3];\r\nsigned short TMAX_EXT[3];\r\nsigned short TMIN_EXT_EN[3];\r\nsigned short TMIN_EXT[3];\r\nsigned short T_EXT_REL_EN[3];\r\nsigned short T_EXT_ZVUK_EN[3];\r\nsigned short T_EXT_LCD_EN[3];\r\nsigned short T_EXT_RS_EN[3];\r\n\r\nsigned short SK_SIGN[4];\r\nsigned short SK_REL_EN[4];\r\nsigned short SK_ZVUK_EN[4];\r\nsigned short SK_LCD_EN[4];\r\nsigned short SK_RS_EN[4];\r\n\r\nenum {AVZ_1=1,AVZ_2=2,AVZ_3=3,AVZ_6=6,AVZ_12=12,AVZ_OFF=0}AVZ;\r\nunsigned short HOUR_AVZ;\r\nunsigned short MIN_AVZ;\r\nunsigned short SEC_AVZ;\r\nunsigned short DATE_AVZ;\r\nunsigned short MONTH_AVZ;\r\nunsigned short YEAR_AVZ;\r\nunsigned short AVZ_TIME;\r\n\r\n//*********************************************\r\n//Спецфункции\r\nenum {spc_OFF=0,spc_KE1p1,spc_KE1p2,spc_KE2p1,spc_KE2p2,spc_VZ}spc_stat=spc_OFF;\r\n\r\n\r\nsigned short cntrl_stat=600,cntrl_stat_old/,cntrl_stat_i/;\r\nsigned short Ibmax;\r\nsigned short u_necc,u_necc_;\r\nsigned short main_cnt_5Hz;\r\nsigned short num_necc;\r\nsigned short cnt_num_necc;\r\nchar bSAME_IST_ON;\r\nsigned mat_temper;\r\n\r\n\r\n#include <LPC21xx.H> / LPC21xx definitions /\r\n#include \"Timer.h\"\r\n#include \"gran.c\"\r\n#include \"control.c\"\r\n#include \"eeprom_map.c\"\r\n\r\n\r\nchar flag=0;\r\n\r\n\r\n\r\n\r\n\r\n\r\nvoid wait (void) { / wait function /\r\n unsigned long i;\r\n\r\n i = timeval;\r\n while ((i + 10) != timeval); / wait 100ms /\r\n}\r\n\r\n//********************************************\r\n//*******************************************\r\n//*******************************************\r\n//*******************************************\r\n//********************************************\r\n__irq void timer1_interrupt(void) \r\n{\r\n//__enable_interrupt(); \r\nT1IR = 0xff; // Clear timer 0 interrupt line.\r\n/\r\n#if(UKU_VERSION==900)\r\nbFF=IO0PIN_bit.P0_22;\r\n\r\nif(bFF!=bFF_)\r\n\t{\r\n\tHz_out++;\r\n\t} \r\nbFF_=bFF; \r\n#endif\r\n/\r\n\r\nadc_drv();\r\n\r\nif(++t0cnt5>=200)\r\n {\r\n t0cnt5=0;\r\n b50Hz=1;\r\n }\r\n \r\nif(++t0cnt>=100)\r\n {\r\n t0cnt=0;\r\n b100Hz=1;\r\n\r\n Hz_cnt++;\r\n if(Hz_cnt>=500)\r\n\t {\t\r\n\t Hz_cnt=0;\r\n\t fnet=Hz_out;\r\n\t Hz_out=0;\r\n\t }\r\n\r\n if(++t0cnt0>=10)\r\n\t {\r\n\t t0cnt0=0;\r\n\t b10Hz=1;\r\n\t //beep_drv();\r\n\t }\r\n\r\n if(t0cnt0==5)\r\n\t {\r\n\t //beep_drv();\r\n\t }\r\n\r\n if(++t0cnt1>=20)\r\n\t {\r\n\t t0cnt1=0;\r\n\t b5Hz=1;\r\n\t \r\n \t\tif(bFL5)bFL5=0;\r\n \t\telse bFL5=1;\t \r\n\t }\r\n\r\n if(++t0cnt2>=50)\r\n\t {\r\n\t t0cnt2=0;\r\n\t b2Hz=1;\r\n\t \r\n\t if(bFL2)bFL2=0;\r\n\t else bFL2=1;\r\n\r\n\t\tflag=1;\r\n\t } \r\n\r\n if(++t0cnt3>=100)\r\n\t {\r\n\t t0cnt3=0;\r\n\t b1Hz=1;\r\n\t \tif(bFL)bFL=0;\r\n\t else \r\n\t \t{\r\n\t \tbFL=1;\r\n\t \tif(bFL_)bFL_=0;\r\n\t \telse bFL_=1;\r\n\t \t}\r\n\t }\r\n }\r\n\r\nVICVectAddr = 0;\r\n\r\n}\r\n\r\n//*********************************************\r\n__irq void timer0_interrupt(void) \r\n{\t\r\n/if(BPS1_spa_leave)T0EMR_bit.EM1=0; \r\nelse T0EMR_bit.EM1=1;\r\nif(BPS2_spa_leave)T0EMR_bit.EM3=0; \r\nelse T0EMR_bit.EM3=1;\r\nT0IR = 0xff;/\r\n}\r\n\r\n//===============================================\r\n//===============================================\r\n//===============================================\r\n//===============================================\r\nint main (void) \r\n{\r\nunsigned int j; / LED var /\r\n\r\nIODIR1 \|= (1<<21); / P1.16..23 defined as Outputs /\r\n\r\ninit_timer1();\r\n\r\nwhile (1) \r\n\t{ \r\n\twhile(!flag);\r\n\tIOSET1 = (1<<21);\r\n\tflag=0; \r\n\twhile(!flag);\r\n\tIOCLR1 = (1<<21);\r\n\tflag=0; \t \r\n/ \tfor (j = 0; j < 1000000; j ++) \r\n\t\t{ \r\n \tIOSET1 = (1<<21); \r\n\t\t}\r\n \tfor (j = 0; j < 1000000; j ++) \r\n\t\t{ \r\n \tIOCLR1 = (1<<21); \r\n\t\t}/\r\n\t}\r\n}\r\n" }, { "alpha_fraction": 0.505115807056427, "alphanum_fraction": 0.5618278384208679, "avg_line_length": 27.20808982849121, "blob_id": "9ef86f2cfafb9b321353627aa701aeeaa74dbb1c", "content_id": "4800dd1eb442414c1937650bbd76e8bb3c81fde2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 68379, "license_type": "no_license", "max_line_length": 131, "num_lines": 2225, "path": "/SOFT/UKU/RKI/snmp_data_file.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#include \"snmp_data_file.h\" \r\n#include \"eeprom_map.h\"\r\n#include \"main.h\"\r\n#include \"net_config.h\"\r\n//#include \"main.h\"\r\n#include \"control.h\"\r\n#include \"LPC17xx.H\"\r\n#include <string.h>\r\n#include \"25lc640.h\"\r\n#include \"common_func.h\"\r\n\r\nchar snmp_community[10];\r\n\r\n//Информация об устройстве\r\nsigned short snmp_device_code;\r\nsigned \t snmp_sernum;\r\nsigned short snmp_sernum_lsb;\r\nsigned short snmp_sernum_msb;\r\nchar \t snmp_location[100];\r\nsigned short snmp_numofbat;\r\nsigned short snmp_numofbps;\r\nsigned short snmp_numofinv;\r\nsigned short snmp_numofavt;\r\nsigned short snmp_numofdt;\r\nsigned short snmp_numofsk;\r\nsigned short snmp_numofevents;\r\n\r\n\r\n//Состояние первичной сети\r\nsigned short snmp_mains_power_voltage;\r\nsigned short snmp_mains_power_frequency;\r\nsigned short snmp_mains_power_status;\r\nsigned short snmp_mains_power_alarm;\r\nsigned short snmp_mains_power_voltage_phaseA;\r\nsigned short snmp_mains_power_voltage_phaseB;\r\nsigned short snmp_mains_power_voltage_phaseC;\r\n\r\n//Состояние нагрузки\r\nsigned short snmp_load_voltage;\r\nsigned short snmp_load_current;\r\n\r\n//Состояние БПСов\r\nsigned short snmp_bps_number[8];\r\nsigned short snmp_bps_voltage[8];\r\nsigned short snmp_bps_current[8];\r\nsigned short snmp_bps_temperature[8];\r\nsigned short snmp_bps_stat[8];\r\n\r\n//Состояние инверторов\r\nsigned short snmp_inv_number[3];\r\nsigned short snmp_inv_voltage[3];\r\nsigned short snmp_inv_current[3];\r\nsigned short snmp_inv_temperature[3];\r\nsigned short snmp_inv_stat[3];\r\n\r\n//Состояние Батарей\r\nsigned short snmp_bat_number[2];\r\nsigned short snmp_bat_voltage[2];\r\nsigned short snmp_bat_current[2];\r\nsigned short snmp_bat_temperature[2];\r\nsigned short snmp_bat_capacity[2];\r\nsigned short snmp_bat_charge[2];\r\nsigned short snmp_bat_status[2]; \r\n\r\n//Мониторы состояния Батарей\r\nsigned short snmp_makb_number[4];\r\nsigned short snmp_makb_connect_status[4];\r\nsigned short snmp_makb_voltage0[4];\r\nsigned short snmp_makb_voltage1[4];\r\nsigned short snmp_makb_voltage2[4];\r\nsigned short snmp_makb_voltage3[4];\r\nsigned short snmp_makb_voltage4[4];\r\nsigned short snmp_makb_temper0[4];\r\nsigned short snmp_makb_temper1[4];\r\nsigned short snmp_makb_temper2[4];\r\nsigned short snmp_makb_temper3[4];\r\nsigned short snmp_makb_temper4[4];\r\nsigned short snmp_makb_temper0_stat[4];\r\nsigned short snmp_makb_temper1_stat[4];\r\nsigned short snmp_makb_temper2_stat[4];\r\nsigned short snmp_makb_temper3_stat[4];\r\nsigned short snmp_makb_temper4_stat[4];\r\nsigned short snmp_bat_voltage[2];\r\nsigned short snmp_bat_part_voltage[2];\r\nsigned short snmp_bat_current[2];\r\nsigned short snmp_bat_temperature[2];\r\nsigned short snmp_bat_capacity[2];\r\nsigned short snmp_bat_charge[2];\r\nsigned short snmp_bat_status[2]; \r\n\r\n//Спецфункции\r\nsigned short snmp_spc_stat;\r\nchar snmp_spc_trap_message[100];\r\nsigned short snmp_spc_trap_value_0,snmp_spc_trap_value_1,snmp_spc_trap_value_2;\r\n\r\n//Состояние автоматов\r\nsigned char snmp_avt_number[12];\r\nsigned char snmp_avt_stat[12];\r\n\r\n//Состояние силовых вводов\r\nsigned short snmp_energy_vvod_phase_a;\r\nsigned short snmp_energy_vvod_phase_b;\r\nsigned short snmp_energy_vvod_phase_c;\r\nsigned short snmp_energy_pes_phase_a;\r\nsigned short snmp_energy_pes_phase_b;\r\nsigned short snmp_energy_pes_phase_c;\r\nsigned short snmp_energy_input_voltage;\r\n\r\n//Показания счетчика\r\nsigned long snmp_energy_total_energy;\r\nsigned short snmp_energy_current_energy;\r\n\r\n//Состояние сухих контактов\r\nsigned char snmp_sk_number[4];\r\nsigned char snmp_sk_aktiv[4];\r\nsigned char snmp_sk_alarm_aktiv[4];\r\nsigned char snmp_sk_alarm[4];\r\nchar snmp_sk_name[4][20];\r\n\r\n//Состояние датчиков температур\r\nsigned char snmp_dt_number[3];\r\nsigned short snmp_dt_temper[3];\r\nsigned char snmp_dt_error[3];\r\n\r\n//Команды\r\nsigned short snmp_command;\r\nsigned short snmp_command_parametr;\r\n\r\n//Журнал аварий\r\nchar snmp_log[64][128]=\r\n\t\t\t\t{\r\n\t\t\t\t\"01@abcd@efgh@ijkl@01@ \",\r\n\t\t\t\t\"02@abcd@efgh@ijkl@02@ \",\r\n\t\t\t\t\"03@abcd@efgh@ijkl@03@ \",\r\n\t\t\t\t\"04@abcd@efgh@ijkl@04@ \",\r\n\t\t\t\t\"05@abcd@efgh@ijkl@05@ \",\r\n\t\t\t\t\"06@abcd@efgh@ijkl@06@ \",\r\n\t\t\t\t\"07@abcd@efgh@ijkl@07@ \",\r\n\t\t\t\t\"08@abcd@efgh@ijkl@08@ \",\r\n\t\t\t\t\"09@abcd@efgh@ijkl@09@ \",\r\n\t\t\t\t\"10@abcd@efgh@ijkl@10@ \",\r\n\t\t\t\t\"11@abcd@efgh@ijkl@11@ \",\r\n\t\t\t\t\"12@abcd@efgh@ijkl@12@ \",\r\n\t\t\t\t\"13@abcd@efgh@ijkl@13@ \",\r\n\t\t\t\t\"14@abcd@efgh@ijkl@14@ \",\r\n\t\t\t\t\"15@abcd@efgh@ijkl@15@ \",\r\n\t\t\t\t\"16@abcd@efgh@ijkl@16@ \",\r\n\t\t\t\t\"17@abcd@efgh@ijkl@17@ \",\r\n\t\t\t\t\"18@abcd@efgh@ijkl@18@ \",\r\n\t\t\t\t\"19@abcd@efgh@ijkl@19@ \",\r\n\t\t\t\t\"20@abcd@efgh@ijkl@20@ \",\r\n\t\t\t\t\"21@abcd@efgh@ijkl@21@ \",\r\n\t\t\t\t\"22@abcd@efgh@ijkl@22@ \",\r\n\t\t\t\t\"23@abcd@efgh@ijkl@23@ \",\r\n\t\t\t\t\"24@abcd@efgh@ijkl@24@ \",\r\n\t\t\t\t\"25@abcd@efgh@ijkl@25@ \",\r\n\t\t\t\t\"26@abcd@efgh@ijkl@26@ \",\r\n\t\t\t\t\"27@abcd@efgh@ijkl@27@ \",\r\n\t\t\t\t\"28@abcd@efgh@ijkl@28@ \",\r\n\t\t\t\t\"29@abcd@efgh@ijkl@29@ \",\r\n\t\t\t\t\"30@abcd@efgh@ijkl@30@ \"\r\n\t\t\t\t};\r\n\r\n//Установочные параметры\r\nsigned short snmp_main_bps;\r\nsigned short snmp_zv_en;\r\nsigned short snmp_alarm_auto_disable;\r\nsigned short snmp_bat_test_time;\r\nsigned short snmp_u_max;\r\nsigned short snmp_u_min;\r\nsigned short snmp_u_0_grad;\r\nsigned short snmp_u_20_grad;\r\nsigned short snmp_u_sign;\r\nsigned short snmp_u_min_power;\r\nsigned short snmp_u_withouth_bat;\r\nsigned short snmp_control_current;\r\nsigned short snmp_max_charge_current;\r\nsigned short snmp_max_current;\r\nsigned short snmp_min_current;\r\nsigned short snmp_uvz;\r\nsigned short snmp_max_current_koef;\r\nsigned short snmp_max_current_koef;\r\nsigned short snmp_up_charge_koef;\r\nsigned short snmp_powerup_psu_timeout;\r\nsigned short snmp_max_temperature;\r\nsigned short snmp_tsign_bat; \r\nsigned short snmp_tmax_bat;\r\nsigned short snmp_tsign_bps;\r\nsigned short snmp_tmax_bps;\r\nsigned short snmp_bat_part_alarm;\r\nsigned short snmp_power_cnt_adress;\r\n\r\n//Климат-контроль\r\nsigned short snmp_klimat_box_temper;\r\nsigned short snmp_klimat_settings_box_alarm;\r\nsigned short snmp_klimat_settings_vent_on;\r\nsigned short snmp_klimat_settings_vent_off;\r\nsigned short snmp_klimat_settings_warm_on;\r\nsigned short snmp_klimat_settings_warm_off;\r\nsigned short snmp_klimat_settings_load_on;\r\nsigned short snmp_klimat_settings_load_off;\r\nsigned short snmp_klimat_settings_batt_on;\r\nsigned short snmp_klimat_settings_batt_off;\r\n\r\n//Внешние датчики температур\r\nsigned short snmp_dt_ext;\r\nsigned short snmp_dt_msan;\r\nsigned short snmp_dt_epu;\r\n\r\n\r\n//Литиевые батареи\r\nshort snmp_lakb_number[7];\t\t\t\t\t\t//Номер ЛАКБ\r\nshort snmp_lakb_voltage[7];\t\t\t\t\t\t//Напряжение ЛАКБ\r\nshort snmp_lakb_max_cell_voltage[7];\t\t\t//Максимальное напряжение ячейки ЛАКБ\r\nshort snmp_lakb_min_cell_voltage[7];\t\t\t//Минимальное напряжение ячейки ЛАКБ\r\nshort snmp_lakb_max_cell_temperature[7];\t\t//Максимальная температура ячейки ЛАКБ\r\nshort snmp_lakb_min_cell_temperature[7];\t\t//Минимальная температура ячейки ЛАКБ\r\nshort snmp_lakb_ch_curr[7];\t\t\t\t\t\t//Ток заряда ЛАКБ\r\nshort snmp_lakb_dsch_curr[7];\t\t\t\t\t//Ток разряда ЛАКБ\r\nshort snmp_lakb_rat_cap[7];\t\t\t\t\t\t//Номинальная емкость ЛАКБ\r\nshort snmp_lakb_soh[7];\t\t\t\t\t\t\t//Остаточная емкость ЛАКБ\r\nshort snmp_lakb_soc[7];\t\t\t\t\t\t\t//Заряд ЛАКБ\r\nshort snmp_lakb_cclv[7]; \t\t\t\t\t\t//Максимальный ток заряда ЛАКБ\r\nshort snmp_lakb_rbt[7];\t\t\t\t\t\t\t//Оцениваемое время работы ЛАКБ\r\nshort snmp_lakb_flags1[7];\t\t\t\t\t\t//Первый флаг состояния ЛАКБ\r\nshort snmp_lakb_flags2[7];\t\t\t\t\t\t//Второй флаг состояния ЛАКБ\r\nchar snmp_lakb_damp1[3][150];\t\t\t\t\t//Первая строка передаваемого дампа\r\nchar snmp_lakb_damp2[100];\t\t\t\t\t\t//Первая строка передаваемого дампа\r\nsigned char\tsnmp_lakb_cell_temperature_1[3];\t\t//Температура 1-й ячейки ЛАКБ(ZTT)\r\nsigned char\tsnmp_lakb_cell_temperature_2[3];\t\t//Температура 2-й ячейки ЛАКБ(ZTT)\r\nsigned char\tsnmp_lakb_cell_temperature_3[3];\t\t//Температура 3-й ячейки ЛАКБ(ZTT)\r\nsigned char\tsnmp_lakb_cell_temperature_4[3];\t\t//Температура 4-й ячейки ЛАКБ(ZTT)\r\nsigned char\tsnmp_lakb_cell_temperature_ambient[3];\t//Температура окружающая ЛАКБ(ZTT)\r\nsigned char\tsnmp_lakb_cell_temperature_power[3];\t//Температура силовой части ЛАКБ(ZTT)\r\n\r\n//Установки климатконтроля для TELECORE2017\r\nsigned char\tsnmp_warm_sign;\t\t\t\t//^^номер первого бпса \r\nsigned char\tsnmp_cool_sign;\t\t\t\t//^^номер первого бпса \r\nsigned char\tsnmp_warm_on_temper;\t\t//^^номер первого бпса \r\nsigned char\tsnmp_warm_off_temper;\t\t//^^номер первого бпса \r\nsigned char\tsnmp_warm_q;\t\t\t\t//^^номер первого бпса \r\nsigned char\tsnmp_cool_100_temper;\t\t//^^номер первого бпса \r\nsigned char\tsnmp_cool_80_temper;\t\t//^^номер первого бпса \r\nsigned char\tsnmp_cool_60_temper;\t\t//^^номер первого бпса \r\nsigned char\tsnmp_cool_40_temper;\t\t//^^номер первого бпса \r\nsigned char\tsnmp_cool_20_temper;\t\t//^^номер первого бпса \r\nsigned char\tsnmp_cool_100_dtemper;\t\t//^^номер первого бпса \r\nsigned char\tsnmp_cool_80_dtemper;\t\t//^^номер первого бпса \r\nsigned char\tsnmp_cool_60_dtemper;\t\t//^^номер первого бпса \r\nsigned char\tsnmp_cool_40_dtemper;\t\t//^^номер первого бпса \r\nsigned char\tsnmp_cool_20_dtemper;\t\t//^^номер первого бпса \r\nsigned char snmp_warm_stat;\t\t\t\t//^^\r\n\r\n\r\nU16 obj[10];\r\nU8 temp_ip[4];\r\nchar snmp_trap_send_i,snmp_trap_send_ii;\r\n\r\n//-----------------------------------------------\r\nvoid snmp_data (void) \r\n{\r\nchar i;\r\n\r\nsnmp_mains_power_voltage=net_U;\r\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\nsnmp_mains_power_frequency=net_F3;\r\n#else\r\nsnmp_mains_power_frequency=net_F;\r\n#endif\r\nsnmp_mains_power_voltage_phaseA=net_Ua;\r\nsnmp_mains_power_voltage_phaseB=net_Ub;\r\nsnmp_mains_power_voltage_phaseC=net_Uc;\r\n\r\n/\r\nsnmp_mains_power_status=0; \r\n#if(UKU_VERSION==900)\r\nsnmp_mains_power_status=2;\r\n#endif\r\nif(St&0x01)snmp_mains_power_status\|=0x01;\r\nif(St&0x01)snmp_mains_power_alarm=1;\r\n\r\n\r\n\r\n\r\n\r\n\r\nfor(i=0;i<snmp_numofevents;i++)event2snmp(i);\r\n//snmp_bpsnumber[0]=1;\r\n//snmp_bpsnumber[1]=2;\r\n\r\nsnmp_sernum=AUSW_MAIN_NUMBER;\r\nsnmp_sernum_lsb=0x1122;\r\nsnmp_sernum_msb=0x3344;\r\nsnmp_device_code=AUSW_MAIN;\r\n\r\n//memcpy(snmp_location,\"lkhg;la\",);\r\n\r\n\r\nsnmp_numofbat=1;\r\n\r\n/\r\n\r\nsnmp_load_voltage=load_U;\r\nsnmp_load_current=load_I;\r\nsnmp_numofbat=NUMBAT;\r\nsnmp_numofbps=NUMIST;\r\nsnmp_numofinv=NUMINV;\r\nsnmp_numofavt=NUMAVT;\r\nsnmp_numofdt=NUMDT;\r\nsnmp_numofsk=NUMSK;\r\nsnmp_numofevents=lc640_read_int(CNT_EVENT_LOG);\r\n\r\nsnmp_energy_vvod_phase_a=Uvv_eb2[0];\r\nsnmp_energy_vvod_phase_b=Uvv_eb2[1];\r\nsnmp_energy_vvod_phase_c=Uvv_eb2[2];\r\nsnmp_energy_pes_phase_a=Upes_eb2[0];\r\nsnmp_energy_pes_phase_b=Upes_eb2[1];\r\nsnmp_energy_pes_phase_c=Upes_eb2[2];\r\n\r\n#ifdef UKU_KONTUR\r\nsnmp_energy_vvod_phase_a=Uvv0;\r\nsnmp_energy_pes_phase_a=Uvv[1];\r\n#endif\r\n\r\nsnmp_energy_total_energy=power_summary;\r\nsnmp_energy_current_energy=power_current;\r\nsnmp_energy_input_voltage=net_U;\r\n\r\nsnmp_bat_number[0]=1;\r\nsnmp_bat_voltage[0]=bat[0]._Ub;\r\nsnmp_bat_part_voltage[0]=bat[0]._Ubm;\r\nsnmp_bat_current[0]=bat[0]._Ib;\r\n\r\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\nif(((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023))&&(bps[8]._device==dIBAT_METR))\r\n\t{\r\n\tsnmp_bat_current[0]=Ib_ips_termokompensat;\r\n\t}\r\n#endif\r\n\r\nsnmp_bat_temperature[0]=bat[0]._Tb;\r\nif(BAT_C_REAL[0]==0x5555)snmp_bat_capacity[0]=BAT_C_NOM[0];\r\nelse snmp_bat_capacity[0]=BAT_C_REAL[0];\r\nsnmp_bat_charge[0]=bat[0]._zar;\r\nsnmp_bat_status[0]=bat[0]._av;\r\nif(BAT_IS_ON[0]!=bisON)snmp_bat_status[0]=0xff;\r\n\r\nsnmp_bat_number[1]=2;\r\nsnmp_bat_voltage[1]=bat[1]._Ub;\r\nsnmp_bat_part_voltage[1]=bat[1]._Ubm;\r\nsnmp_bat_current[1]=bat[1]._Ib;\r\nsnmp_bat_temperature[1]=bat[1]._Tb;\r\nif(BAT_C_REAL[1]==0x5555)snmp_bat_capacity[1]=BAT_C_NOM[1];\r\nelse snmp_bat_capacity[1]=BAT_C_REAL[1];\r\nsnmp_bat_charge[1]=bat[1]._zar;\r\nsnmp_bat_status[1]=bat[1]._av;\r\nif(BAT_IS_ON[1]!=bisON)snmp_bat_status[1]=0xff;\r\n\r\n\r\n\r\nsnmp_bps_number[0]=1;\r\nsnmp_bps_voltage[0]=bps[0]._Uii;\r\nsnmp_bps_current[0]=bps[0]._Ii;\r\nsnmp_bps_temperature[0]=bps[0]._Ti;\r\nsnmp_bps_stat[0]=bps[0]._av;\r\nif(!(NUMIST>0))snmp_bps_stat[0]=0xff;\t\t\t\t\t\t\t\t\t\t\t\t//Байт состояния БПСа.\r\n\r\n/if(St_[0]&(1<<2))snmp_bps_stat[0]=(1<<3); \t\t\t\t\t\t\t//авария по Umin\r\nelse if(St_[0]&(1<<3))snmp_bps_stat[0]=(1<<2); \t\t\t\t\t\t//авария по Umax\r\nelse if(bps[0]._av&(1<<0))snmp_bps_stat[0]=(1<<1); \t\t\t\t\t\t//авария по Tmax\r\nelse if(St_[0]&(1<<5))snmp_bps_stat[0]=(1<<5); \t\t\t\t\t\t//заблокирован\r\nelse if((!(St_[0]&0x3c))&&(!St&0x01)&&(!OFFBP1))snmp_bps_stat[0]=1; \t\t//Работает\r\n/\r\n\r\nsnmp_bps_number[1]=2;\r\nsnmp_bps_voltage[1]=bps[1]._Uii;\r\nsnmp_bps_current[1]=bps[1]._Ii;\r\nsnmp_bps_temperature[1]=bps[1]._Ti;\r\nsnmp_bps_stat[1]=bps[1]._av;\r\nif(!(NUMIST>1))snmp_bps_stat[1]=0xff;\t\t\t\t\t\t\t\t\t\t\t\t//Байт состояния БПСа.\r\n/if(St_[1]&(1<<2))snmp_bps_stat[1]=(1<<3); \t\t\t\t\t\t\t//авария по Umin\r\nelse if(St_[1]&(1<<3))snmp_bps_stat[1]=(1<<2); \t\t\t\t\t\t//авария по Umax\r\nelse if(St_[1]&(1<<4))snmp_bps_stat[1]=(1<<1); \t\t\t\t\t\t//авария по Tmax\r\nelse if(St_[1]&(1<<5))snmp_bps_stat[1]=(1<<5); \t\t\t\t\t\t//заблокирован\r\nelse if((!(St_[1]&0x3c))&&(!St&0x01)&&(!OFFBP2))snmp_bps_stat[1]=1; \t\t//Работает\r\n/\r\n\r\nsnmp_bps_number[2]=3;\r\nsnmp_bps_voltage[2]=bps[2]._Uii;\r\nsnmp_bps_current[2]=bps[2]._Ii;\r\nsnmp_bps_temperature[2]=bps[2]._Ti;\r\nsnmp_bps_stat[2]=bps[2]._av;\r\nif(!(NUMIST>2))snmp_bps_stat[2]=0xff;\r\n\r\nsnmp_bps_number[3]=4;\r\nsnmp_bps_voltage[3]=bps[3]._Uii;\r\nsnmp_bps_current[3]=bps[3]._Ii;\r\nsnmp_bps_temperature[3]=bps[3]._Ti;\r\nsnmp_bps_stat[3]=bps[3]._av;\r\nif(!(NUMIST>3))snmp_bps_stat[3]=0xff;\r\n\r\nsnmp_bps_number[4]=5;\r\nsnmp_bps_voltage[4]=bps[4]._Uii;\r\nsnmp_bps_current[4]=bps[4]._Ii;\r\nsnmp_bps_temperature[4]=bps[4]._Ti;\r\nsnmp_bps_stat[4]=bps[4]._av;\r\nif(!(NUMIST>4))snmp_bps_stat[4]=0xff;\r\n\r\nsnmp_bps_number[5]=6;\r\nsnmp_bps_voltage[5]=bps[5]._Uii;\r\nsnmp_bps_current[5]=bps[5]._Ii;\r\nsnmp_bps_temperature[5]=bps[5]._Ti;\r\nsnmp_bps_stat[5]=bps[5]._av;\r\nif(!(NUMIST>5))snmp_bps_stat[5]=0xff;\r\n\r\nsnmp_bps_number[6]=7;\r\nsnmp_bps_voltage[6]=bps[6]._Uii;\r\nsnmp_bps_current[6]=bps[6]._Ii;\r\nsnmp_bps_temperature[6]=bps[6]._Ti;\r\nsnmp_bps_stat[6]=bps[6]._av;\r\nif(!(NUMIST>6))snmp_bps_stat[6]=0xff;\r\n\r\nsnmp_bps_number[7]=8;\r\nsnmp_bps_voltage[7]=bps[7]._Uii;\r\nsnmp_bps_current[7]=bps[7]._Ii;\r\nsnmp_bps_temperature[7]=bps[7]._Ti;\r\nsnmp_bps_stat[7]=bps[7]._av;\r\nif(!(NUMIST>7))snmp_bps_stat[7]=0xff;\r\n\r\n\r\n\r\nsnmp_inv_number[0]=1;\r\nsnmp_inv_voltage[0]=inv[0]._Uio;\r\nsnmp_inv_current[0]=inv[0]._Ii;\r\nsnmp_inv_temperature[0]=inv[0]._Ti;\r\nsnmp_inv_stat[0]=inv[0]._flags_tm;\r\n\r\nsnmp_inv_number[1]=2;\r\nsnmp_inv_voltage[1]=inv[1]._Uio;\r\nsnmp_inv_current[1]=inv[1]._Ii;\r\nsnmp_inv_temperature[1]=inv[1]._Ti;\r\nsnmp_inv_stat[1]=inv[1]._flags_tm;\r\n\r\nsnmp_inv_number[2]=3;\r\nsnmp_inv_voltage[2]=inv[2]._Uio;\r\nsnmp_inv_current[2]=inv[2]._Ii;\r\nsnmp_inv_temperature[2]=inv[2]._Ti;\r\nsnmp_inv_stat[2]=inv[2]._flags_tm;\r\n\r\n\r\n\r\n\r\n\t\t\t\t\t \r\nsnmp_sk_number[0]=1;\r\nmemcpy(&snmp_sk_name[0][0],\"Door\",10);\r\nif(sk_stat[0]==ssON) snmp_sk_aktiv[0]=1;\r\nelse snmp_sk_aktiv[0]=0;\r\nif(!SK_SIGN[0])snmp_sk_alarm_aktiv[0]=1;\r\nelse snmp_sk_alarm_aktiv[0]=0;\r\nif(sk_av_stat[0]==sasON)\tsnmp_sk_alarm[0]=1;\r\nelse snmp_sk_alarm[0]=0;\r\n\r\n\r\nsnmp_sk_number[1]=2;\r\nmemcpy(&snmp_sk_name[1][0],\"Smoke\",10);\r\nif(sk_stat[1]==ssON) snmp_sk_aktiv[1]=1;\r\nelse snmp_sk_aktiv[1]=0;\r\nif(!SK_SIGN[1])snmp_sk_alarm_aktiv[1]=1;\r\nelse snmp_sk_alarm_aktiv[1]=0;\r\nif(sk_av_stat[1]==sasON)\tsnmp_sk_alarm[1]=1;\r\nelse snmp_sk_alarm[1]=0;\r\n\r\nsnmp_sk_number[2]=3;\r\nmemcpy(&snmp_sk_name[2][0],\"Shock\",10);\r\nif(sk_stat[2]==ssON) snmp_sk_aktiv[2]=1;\r\nelse snmp_sk_aktiv[2]=0;\r\nif(!SK_SIGN[2])snmp_sk_alarm_aktiv[2]=1;\r\nelse snmp_sk_alarm_aktiv[2]=0;\r\nif(sk_av_stat[2]==sasON)\tsnmp_sk_alarm[2]=1;\r\nelse snmp_sk_alarm[2]=0;\r\n\r\nsnmp_sk_number[3]=4;\r\nmemcpy(&snmp_sk_name[3][0],\" \",10);\r\nif(sk_stat[3]==ssON) snmp_sk_aktiv[3]=1;\r\nelse snmp_sk_aktiv[3]=0;\r\nif(!SK_SIGN[3])snmp_sk_alarm_aktiv[3]=1;\r\nelse snmp_sk_alarm_aktiv[3]=0;\r\nif(sk_av_stat[3]==sasON)\tsnmp_sk_alarm[3]=1;\r\nelse snmp_sk_alarm[3]=0;\r\n\r\n\r\nif(makb[0]._cnt>8) snmp_makb_connect_status[0]=1;\r\nelse if(makb[0]._cnt<2) snmp_makb_connect_status[0]=0;\r\nif(makb[1]._cnt>8) snmp_makb_connect_status[1]=1;\r\nelse if(makb[1]._cnt<2) snmp_makb_connect_status[1]=0;\r\nif(makb[2]._cnt>8) snmp_makb_connect_status[2]=1;\r\nelse if(makb[2]._cnt<2) snmp_makb_connect_status[2]=0;\r\nif(makb[3]._cnt>8) snmp_makb_connect_status[3]=1;\r\nelse if(makb[3]._cnt<2) snmp_makb_connect_status[3]=0;\r\n\r\nsnmp_makb_voltage0[0]=makb[0]._Ub[0];\r\nsnmp_makb_voltage1[0]=makb[0]._Ub[1];\r\nsnmp_makb_voltage2[0]=makb[0]._Ub[2];\r\nsnmp_makb_voltage3[0]=makb[0]._Ub[3];\r\nsnmp_makb_voltage4[0]=makb[0]._Ub[4];\r\nsnmp_makb_voltage0[1]=makb[1]._Ub[0];\r\nsnmp_makb_voltage1[1]=makb[1]._Ub[1];\r\nsnmp_makb_voltage2[1]=makb[1]._Ub[2];\r\nsnmp_makb_voltage3[1]=makb[1]._Ub[3];\r\nsnmp_makb_voltage4[1]=makb[1]._Ub[4];\r\nsnmp_makb_voltage0[2]=makb[2]._Ub[0];\r\nsnmp_makb_voltage1[2]=makb[2]._Ub[1];\r\nsnmp_makb_voltage2[2]=makb[2]._Ub[2];\r\nsnmp_makb_voltage3[2]=makb[2]._Ub[3];\r\nsnmp_makb_voltage4[2]=makb[2]._Ub[4];\r\nsnmp_makb_voltage0[3]=makb[3]._Ub[0];\r\nsnmp_makb_voltage1[3]=makb[3]._Ub[1];\r\nsnmp_makb_voltage2[3]=makb[3]._Ub[2];\r\nsnmp_makb_voltage3[3]=makb[3]._Ub[3];\r\nsnmp_makb_voltage4[3]=makb[3]._Ub[4];\r\n\r\nsnmp_makb_temper0[0]=makb[0]._T[0];\r\nsnmp_makb_temper1[0]=makb[0]._T[1];\r\nsnmp_makb_temper2[0]=makb[0]._T[2];\r\nsnmp_makb_temper3[0]=makb[0]._T[3];\r\nsnmp_makb_temper4[0]=makb[0]._T[4];\r\nsnmp_makb_temper0[1]=makb[1]._T[0];\r\nsnmp_makb_temper1[1]=makb[1]._T[1];\r\nsnmp_makb_temper2[1]=makb[1]._T[2];\r\nsnmp_makb_temper3[1]=makb[1]._T[3];\r\nsnmp_makb_temper4[1]=makb[1]._T[4];\r\nsnmp_makb_temper0[2]=makb[2]._T[0];\r\nsnmp_makb_temper1[2]=makb[2]._T[1];\r\nsnmp_makb_temper2[2]=makb[2]._T[2];\r\nsnmp_makb_temper3[2]=makb[2]._T[3];\r\nsnmp_makb_temper4[2]=makb[2]._T[4];\r\nsnmp_makb_temper0[3]=makb[3]._T[0];\r\nsnmp_makb_temper1[3]=makb[3]._T[1];\r\nsnmp_makb_temper2[3]=makb[3]._T[2];\r\nsnmp_makb_temper3[3]=makb[3]._T[3];\r\nsnmp_makb_temper4[3]=makb[3]._T[4];\r\n\r\nsnmp_makb_temper0_stat[0]=makb[0]._T_nd[0];\r\nsnmp_makb_temper1_stat[0]=makb[0]._T_nd[1];\r\nsnmp_makb_temper2_stat[0]=makb[0]._T_nd[2];\r\nsnmp_makb_temper3_stat[0]=makb[0]._T_nd[3];\r\nsnmp_makb_temper4_stat[0]=makb[0]._T_nd[4];\r\nsnmp_makb_temper0_stat[1]=makb[1]._T_nd[0];\r\nsnmp_makb_temper1_stat[1]=makb[1]._T_nd[1];\r\nsnmp_makb_temper2_stat[1]=makb[1]._T_nd[2];\r\nsnmp_makb_temper3_stat[1]=makb[1]._T_nd[3];\r\nsnmp_makb_temper4_stat[1]=makb[1]._T_nd[4];\r\nsnmp_makb_temper0_stat[2]=makb[2]._T_nd[0];\r\nsnmp_makb_temper1_stat[2]=makb[2]._T_nd[1];\r\nsnmp_makb_temper2_stat[2]=makb[2]._T_nd[2];\r\nsnmp_makb_temper3_stat[2]=makb[2]._T_nd[3];\r\nsnmp_makb_temper4_stat[2]=makb[2]._T_nd[4];\r\nsnmp_makb_temper0_stat[3]=makb[3]._T_nd[0];\r\nsnmp_makb_temper1_stat[3]=makb[3]._T_nd[1];\r\nsnmp_makb_temper2_stat[3]=makb[3]._T_nd[2];\r\nsnmp_makb_temper3_stat[3]=makb[3]._T_nd[3];\r\nsnmp_makb_temper4_stat[3]=makb[3]._T_nd[4];\r\n\r\n\r\nsnmp_klimat_box_temper=t_box;\r\nsnmp_klimat_settings_box_alarm=TBOXMAX;\r\nsnmp_klimat_settings_vent_on=TBOXVENTON;\r\nsnmp_klimat_settings_vent_off=TBOXVENTOFF;\r\nsnmp_klimat_settings_warm_on=TBOXWARMON;\r\nsnmp_klimat_settings_warm_off=TBOXWARMOFF;\r\nsnmp_klimat_settings_load_on=TLOADENABLE;\r\nsnmp_klimat_settings_load_off=TLOADDISABLE;\r\nsnmp_klimat_settings_batt_on=TBATENABLE;\r\nsnmp_klimat_settings_batt_off=TBATDISABLE;\r\n\r\nsnmp_dt_ext=t_ext[0];\r\nsnmp_dt_msan=t_ext[1];\r\nsnmp_dt_epu=t_ext[2];\r\n\r\n/\r\nsnmp_bat_voltage=Ubat;\r\nsnmp_bat_current=Ibat;\r\nsnmp_bat_temperature=t_b;\r\nif(BAT_C_REAL==0x5555)\r\n\t{\r\n\tsnmp_bat_capacity=BAT_C_NOM10;\t\t\t\t\t\t\t\t\t\t\t\t 11\r\n\t}\r\nelse\r\n\t{\r\n\tsnmp_bat_capacity=BAT_C_REAL;\r\n\t}\r\nsnmp_bat_charge=zar_percent;\r\nsnmp_bat_status=0;\r\nif(St&0x02)snmp_bat_status\|=0x01;\r\nif(Ibat>0)snmp_bat_status\|=0x02;\r\n\r\n\r\nif(spc_stat==spc_OFF) snmp_spc_stat=0;\r\nelse if(spc_stat==spc_KE) snmp_spc_stat=1;\r\nelse if(spc_stat==spc_VZ) snmp_spc_stat=10;\r\n\r\n\r\nsnmp_main_bps=MAIN_IST+1;\r\n/\r\nsnmp_zv_en=ZV_ON;\r\nsnmp_alarm_auto_disable=AV_OFF_AVT;\r\nsnmp_bat_test_time=TBAT;\r\nsnmp_u_max=UMAX;\r\nsnmp_u_min=UB20-DU;\r\nsnmp_u_0_grad=UB0;\r\nsnmp_u_20_grad=UB20;\r\nsnmp_u_sign=USIGN;\r\nsnmp_u_min_power=UMN;\r\nsnmp_u_withouth_bat=U0B;\r\nsnmp_control_current=IKB;\r\nsnmp_max_charge_current=IZMAX;\r\nsnmp_max_current=IMAX;\r\nsnmp_min_current=IMIN;\r\n//snmp_max_current_koef=KIMAX;\r\nsnmp_uvz=UVZ;\r\nsnmp_powerup_psu_timeout=TZAS;\r\nsnmp_max_temperature=TMAX;\r\nsnmp_tsign_bat=TBATSIGN; \r\nsnmp_tmax_bat=TBATMAX;\r\nsnmp_tsign_bps=TSIGN;\r\nsnmp_tmax_bps=TMAX;\r\nsnmp_bat_part_alarm=UBM_AV; \r\nsnmp_power_cnt_adress=POWER_CNT_ADRESS;\r\n\r\nfor(i=0;i<12;i++)\r\n\t{\r\n\tsnmp_avt_number[i]=i+1;\r\n\tif(avt_stat[i]==avtOFF)snmp_avt_stat[i]=0;\r\n\telse snmp_avt_stat[i]=1;\r\n\t}\r\n\r\nsnmp_dt_number[0]=1;\r\nsnmp_dt_number[1]=2;\r\nsnmp_dt_number[2]=3;\r\n//snmp_dt_number[3]=4;\r\nsnmp_dt_temper[0]=t_ext[0];\r\nsnmp_dt_temper[1]=t_ext[1];\r\nsnmp_dt_temper[2]=t_ext[2];\r\n//snmp_dt_temper[3]=t_ext[3];\r\nsnmp_dt_error[0]=ND_EXT[0];\r\nif(NUMDT<1)snmp_dt_error[0]=0xff;\r\nsnmp_dt_error[1]=ND_EXT[1];\r\nif(NUMDT<2)snmp_dt_error[0]=0xff;\r\nsnmp_dt_error[2]=ND_EXT[2];\r\nif(NUMDT<3)snmp_dt_error[0]=0xff;\r\n//snmp_dt_error[3]=ND_EXT[3];\r\nif(NUMDT<4)snmp_dt_error[0]=0xff;\r\n\r\n/\r\n//Литиевые батареи\r\nsnmp_lakb_number[0]=1;\t\t\t\t\t\t\t\t//Номер ЛАКБ\r\nsnmp_lakb_number[1]=2;\t\t\t\t\t\t\t\t//Номер ЛАКБ\r\nsnmp_lakb_voltage[0]=lakb[0]._tot_bat_volt;\t\t\t\t//Напряжение ЛАКБ\r\nsnmp_lakb_voltage[1]=lakb[1]._tot_bat_volt;\t\t\t\t//Напряжение ЛАКБ\r\nsnmp_lakb_max_cell_voltage[0]=lakb[0]._max_cell_volt;\t\t//Максимальное напряжение ячейки ЛАКБ\r\nsnmp_lakb_max_cell_voltage[1]=lakb[1]._max_cell_volt;\t\t//Максимальное напряжение ячейки ЛАКБ\r\nsnmp_lakb_min_cell_voltage[0]=lakb[0]._min_cell_volt;\t\t//Минимальное напряжение ячейки ЛАКБ\r\nsnmp_lakb_min_cell_voltage[1]=lakb[1]._min_cell_volt;\t\t//Минимальное напряжение ячейки ЛАКБ\r\nsnmp_lakb_max_cell_temperature[0]=lakb[0]._max_cell_temp;\t//Максимальная температура ячейки ЛАКБ\r\nsnmp_lakb_max_cell_temperature[1]=lakb[1]._max_cell_temp;\t//Максимальная температура ячейки ЛАКБ\r\nsnmp_lakb_min_cell_temperature[0]=lakb[0]._min_cell_temp;\t//Минимальная температура ячейки ЛАКБ\r\nsnmp_lakb_min_cell_temperature[1]=lakb[1]._min_cell_temp;\t//Минимальная температура ячейки ЛАКБ\r\nsnmp_lakb_ch_curr[0]=lakb[0]._ch_curr;\t\t\t\t\t//Ток заряда ЛАКБ\r\nsnmp_lakb_ch_curr[1]=lakb[1]._ch_curr;\t\t\t\t\t//Ток заряда ЛАКБ\r\nsnmp_lakb_dsch_curr[0]=lakb[0]._dsch_curr;\t\t\t\t//Ток разряда ЛАКБ\r\nsnmp_lakb_dsch_curr[1]=lakb[1]._dsch_curr;\t\t\t\t//Ток разряда ЛАКБ\r\nsnmp_lakb_rat_cap[0]=lakb[0]._rat_cap;\t\t\t\t\t//Номинальная емкость ЛАКБ\r\nsnmp_lakb_rat_cap[1]=lakb[1]._rat_cap;\t\t\t\t\t//Номинальная емкость ЛАКБ\r\nsnmp_lakb_soh[0]=lakb[0]._s_o_h;\t\t\t\t\t\t//Остаточная емкость ЛАКБ\r\nsnmp_lakb_soh[1]=lakb[1]._s_o_h;\t\t\t\t\t\t//Остаточная емкость ЛАКБ\r\nsnmp_lakb_soc[0]=lakb[0]._s_o_c;\t\t\t\t\t\t//Заряд ЛАКБ\r\nsnmp_lakb_soc[1]=lakb[1]._s_o_c;\t\t\t\t\t\t//Заряд ЛАКБ\r\nsnmp_lakb_cclv[0]=lakb[0]._c_c_l_v; \t\t\t\t\t//Максимальный ток заряда ЛАКБ\r\nsnmp_lakb_cclv[1]=lakb[1]._c_c_l_v; \t\t\t\t\t//Максимальный ток заряда ЛАКБ\r\nsnmp_lakb_rbt[0]=lakb[0]._r_b_t;\t\t\t\t\t\t//Оцениваемое время работы ЛАКБ\r\nsnmp_lakb_rbt[1]=lakb[1]._r_b_t;\t\t\t\t\t\t//Оцениваемое время работы ЛАКБ\r\nsnmp_lakb_flags1[0]=lakb[0]._flags1;\t\t\t\t\t//Первый флаг состояния ЛАКБ\r\nsnmp_lakb_flags1[1]=lakb[1]._flags1;\t\t\t\t\t//Первый флаг состояния ЛАКБ\r\nsnmp_lakb_flags2[0]=lakb[0]._flags2;\t\t\t\t\t//Второй флаг состояния ЛАКБ\r\nsnmp_lakb_flags2[1]=lakb[1]._flags2;\t\t\t\t\t//Второй флаг состояния ЛАКБ /\r\n\r\n//Литиевые батареи\r\nsnmp_lakb_number[0]=1;\t\t\t\t\t\t\t\t//Номер ЛАКБ\r\nsnmp_lakb_number[1]=2;\t\t\t\t\t\t\t\t//Номер ЛАКБ\r\nsnmp_lakb_number[2]=3;\t\t\t\t\t\t\t\t//Номер ЛАКБ\r\nsnmp_lakb_number[3]=4;\t\t\t\t\t\t\t\t//Номер ЛАКБ\r\nsnmp_lakb_number[4]=5;\t\t\t\t\t\t\t\t//Номер ЛАКБ\r\nsnmp_lakb_number[5]=6;\t\t\t\t\t\t\t\t//Номер ЛАКБ\r\nsnmp_lakb_number[6]=7;\t\t\t\t\t\t\t\t//Номер ЛАКБ\r\n\r\nfor (i=0;i<3;i++)\r\n\t{\r\n\tsnmp_lakb_voltage[i]=lakb[i]._tot_bat_volt;\t\t\t\t//Напряжение ЛАКБ\r\n\tsnmp_lakb_max_cell_voltage[i]=lakb[i]._max_cell_volt;\t\t//Максимальное напряжение ячейки ЛАКБ\r\n\tsnmp_lakb_min_cell_voltage[i]=lakb[i]._min_cell_volt;\t\t//Минимальное напряжение ячейки ЛАКБ\r\n\tsnmp_lakb_max_cell_temperature[i]=lakb[i]._max_cell_temp;\t//Максимальная температура ячейки ЛАКБ\r\n\t//snmp_lakb_max_cell_temperature[1]=lakb[1]._max_cell_temp;\t//Максимальная температура ячейки ЛАКБ\r\n\tsnmp_lakb_min_cell_temperature[i]=lakb[i]._min_cell_temp;\t//Минимальная температура ячейки ЛАКБ\r\n\t//snmp_lakb_min_cell_temperature[1]=lakb[1]._min_cell_temp;\t//Минимальная температура ячейки ЛАКБ\r\n\tsnmp_lakb_ch_curr[i]=lakb[i]._ch_curr;\t\t\t\t\t//Ток заряда ЛАКБ\r\n\t//snmp_lakb_ch_curr[1]=lakb[1]._ch_curr;\t\t\t\t\t//Ток заряда ЛАКБ\r\n\tsnmp_lakb_dsch_curr[i]=lakb[i]._dsch_curr;\t\t\t\t//Ток разряда ЛАКБ\r\n\t//snmp_lakb_dsch_curr[1]=lakb[1]._dsch_curr;\t\t\t\t//Ток разряда ЛАКБ\r\n\tsnmp_lakb_rat_cap[i]=lakb[i]._rat_cap;\t\t\t\t\t//Номинальная емкость ЛАКБ\r\n\t//snmp_lakb_rat_cap[1]=lakb[1]._rat_cap;\t\t\t\t\t//Номинальная емкость ЛАКБ\r\n\tsnmp_lakb_soh[i]=lakb[i]._s_o_h;\t\t\t\t\t\t//Остаточная емкость ЛАКБ\r\n\t//snmp_lakb_soh[1]=lakb[1]._s_o_h;\t\t\t\t\t\t//Остаточная емкость ЛАКБ\r\n\tsnmp_lakb_soc[i]=lakb[i]._s_o_c;\t\t\t\t\t\t//Заряд ЛАКБ\r\n\t//snmp_lakb_soc[1]=lakb[1]._s_o_c;\t\t\t\t\t\t//Заряд ЛАКБ\r\n\tsnmp_lakb_cclv[i]=lakb[i]._c_c_l_v; \t\t\t\t\t//Максимальный ток заряда ЛАКБ\r\n\t//snmp_lakb_cclv[1]=lakb[1]._c_c_l_v; \t\t\t\t\t//Максимальный ток заряда ЛАКБ\r\n\tsnmp_lakb_rbt[i]=lakb[i]._r_b_t;\t\t\t\t\t\t//Оцениваемое время работы ЛАКБ\r\n\t//snmp_lakb_rbt[1]=lakb[1]._r_b_t;\t\t\t\t\t\t//Оцениваемое время работы ЛАКБ\r\n\tsnmp_lakb_flags1[i]=lakb[i]._flags1;\t\t\t\t\t//Первый флаг состояния ЛАКБ\r\n\t//snmp_lakb_flags1[1]=lakb[1]._flags1;\t\t\t\t\t//Первый флаг состояния ЛАКБ\r\n\tsnmp_lakb_flags2[i]=lakb[i]._flags2;\t\t\t\t\t//Второй флаг состояния ЛАКБ\r\n\t//snmp_lakb_flags2[1]=lakb[1]._flags2;\t\t\t\t\t//Второй флаг состояния ЛАКБ\r\n\r\n\tsnmp_lakb_cell_temperature_1[i]= lakb[i]._cell_temp_1;\r\n\tsnmp_lakb_cell_temperature_2[i]= lakb[i]._cell_temp_2;\r\n\tsnmp_lakb_cell_temperature_3[i]= lakb[i]._cell_temp_3;\r\n\tsnmp_lakb_cell_temperature_4[i]= lakb[i]._cell_temp_4;\r\n\tsnmp_lakb_cell_temperature_ambient[i]=lakb[i]._cell_temp_ambient;\r\n\tsnmp_lakb_cell_temperature_power[i]=lakb[i]._cell_temp_power;\r\n\t}\r\n\r\nfor (i=0;i<7;i++)\r\n{\r\n/\r\nsnmp_lakb_damp1[i][0]=ABCDEF[(lakb_damp[i][0])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][1]=ABCDEF[(lakb_damp[i][0])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][2]=' ';\r\nsnmp_lakb_damp1[i][3]=ABCDEF[(lakb_damp[i][1])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][4]=ABCDEF[(lakb_damp[i][1])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][5]=' ';\r\nsnmp_lakb_damp1[i][6]=ABCDEF[(lakb_damp[i][2])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][7]=ABCDEF[(lakb_damp[i][2])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][8]=' ';\r\nsnmp_lakb_damp1[i][9]=ABCDEF[(lakb_damp[i][3])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][10]=ABCDEF[(lakb_damp[i][3])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][11]=' ';\r\nsnmp_lakb_damp1[i][12]=ABCDEF[(lakb_damp[i][4])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][13]=ABCDEF[(lakb_damp[i][4])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][14]=' '; \r\nsnmp_lakb_damp1[i][15]=ABCDEF[(lakb_damp[i][5])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][16]=ABCDEF[(lakb_damp[i][5])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][17]=' ';\r\nsnmp_lakb_damp1[i][18]=ABCDEF[(lakb_damp[i][6])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][19]=ABCDEF[(lakb_damp[i][6])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][20]=' ';\r\nsnmp_lakb_damp1[i][21]=ABCDEF[(lakb_damp[i][7])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][22]=ABCDEF[(lakb_damp[i][7])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][23]=' ';\r\nsnmp_lakb_damp1[i][24]=ABCDEF[(lakb_damp[i][8])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][25]=ABCDEF[(lakb_damp[i][8])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][26]=' ';\r\nsnmp_lakb_damp1[i][27]=ABCDEF[(lakb_damp[i][9])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][28]=ABCDEF[(lakb_damp[i][9])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][29]=0; \r\n\r\nsnmp_lakb_damp1[i][30]=ABCDEF[(lakb_damp[i][10])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][31]=ABCDEF[(lakb_damp[i][10])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][32]=' ';\r\nsnmp_lakb_damp1[i][33]=ABCDEF[(lakb_damp[i][11])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][34]=ABCDEF[(lakb_damp[i][11])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][35]=' ';\r\nsnmp_lakb_damp1[i][36]=ABCDEF[(lakb_damp[i][12])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][37]=ABCDEF[(lakb_damp[i][12])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][38]=' ';\r\nsnmp_lakb_damp1[i][39]=ABCDEF[(lakb_damp[i][13])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][40]=ABCDEF[(lakb_damp[i][13])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][41]=' ';\r\nsnmp_lakb_damp1[i][42]=ABCDEF[(lakb_damp[i][14])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][43]=ABCDEF[(lakb_damp[i][14])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][44]=' '; \r\nsnmp_lakb_damp1[i][45]=ABCDEF[(lakb_damp[i][15])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][46]=ABCDEF[(lakb_damp[i][15])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][47]=' ';\r\nsnmp_lakb_damp1[i][48]=ABCDEF[(lakb_damp[i][16])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][49]=ABCDEF[(lakb_damp[i][16])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][50]=' ';\r\nsnmp_lakb_damp1[i][51]=ABCDEF[(lakb_damp[i][17])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][52]=ABCDEF[(lakb_damp[i][17])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][53]=' ';\r\nsnmp_lakb_damp1[i][54]=ABCDEF[(lakb_damp[i][18])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][55]=ABCDEF[(lakb_damp[i][18])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][56]=' ';\r\nsnmp_lakb_damp1[i][57]=ABCDEF[(lakb_damp[i][19])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][58]=ABCDEF[(lakb_damp[i][19])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][59]=0; \r\n\r\n\r\nsnmp_lakb_damp1[i][60]=ABCDEF[(lakb_damp[i][20])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][61]=ABCDEF[(lakb_damp[i][20])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][62]=' ';\r\nsnmp_lakb_damp1[i][63]=ABCDEF[(lakb_damp[i][21])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][64]=ABCDEF[(lakb_damp[i][21])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][65]=' ';\r\nsnmp_lakb_damp1[i][66]=ABCDEF[(lakb_damp[i][22])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][67]=ABCDEF[(lakb_damp[i][22])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][68]=' ';\r\nsnmp_lakb_damp1[i][69]=ABCDEF[(lakb_damp[i][23])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][70]=ABCDEF[(lakb_damp[i][23])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][71]=' ';\r\nsnmp_lakb_damp1[i][72]=ABCDEF[(lakb_damp[i][24])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][73]=ABCDEF[(lakb_damp[i][24])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][74]=' '; \r\nsnmp_lakb_damp1[i][75]=ABCDEF[(lakb_damp[i][25])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][76]=ABCDEF[(lakb_damp[i][25])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][77]=' ';\r\nsnmp_lakb_damp1[i][78]=ABCDEF[(lakb_damp[i][26])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][79]=ABCDEF[(lakb_damp[i][26])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][80]=' ';\r\nsnmp_lakb_damp1[i][81]=ABCDEF[(lakb_damp[i][27])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][82]=ABCDEF[(lakb_damp[i][27])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][83]=' ';\r\nsnmp_lakb_damp1[i][84]=ABCDEF[(lakb_damp[i][28])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][85]=ABCDEF[(lakb_damp[i][28])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][86]=' ';\r\nsnmp_lakb_damp1[i][87]=ABCDEF[(lakb_damp[i][29])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][88]=ABCDEF[(lakb_damp[i][29])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][89]=0;\r\n\r\n\r\nsnmp_lakb_damp1[i][90]=ABCDEF[(lakb_damp[i][30])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][91]=ABCDEF[(lakb_damp[i][30])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][92]=' ';\r\nsnmp_lakb_damp1[i][93]=ABCDEF[(lakb_damp[i][31])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][94]=ABCDEF[(lakb_damp[i][31])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][95]=' ';\r\nsnmp_lakb_damp1[i][96]=ABCDEF[(lakb_damp[i][32])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][97]=ABCDEF[(lakb_damp[i][32])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][98]=' ';\r\nsnmp_lakb_damp1[i][99]=ABCDEF[(lakb_damp[i][33])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][100]=ABCDEF[(lakb_damp[i][33])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][101]=' ';\r\nsnmp_lakb_damp1[i][102]=ABCDEF[(lakb_damp[i][34])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][103]=ABCDEF[(lakb_damp[i][34])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][104]=' '; \r\nsnmp_lakb_damp1[i][105]=ABCDEF[(lakb_damp[i][35])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][106]=ABCDEF[(lakb_damp[i][35])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][107]=' ';\r\nsnmp_lakb_damp1[i][108]=ABCDEF[(lakb_damp[i][36])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][109]=ABCDEF[(lakb_damp[i][36])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][110]=' ';\r\nsnmp_lakb_damp1[i][111]=ABCDEF[(lakb_damp[i][37])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][112]=ABCDEF[(lakb_damp[i][37])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][113]=' ';\r\nsnmp_lakb_damp1[i][114]=ABCDEF[(lakb_damp[i][38])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][115]=ABCDEF[(lakb_damp[i][38])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][116]=' ';\r\nsnmp_lakb_damp1[i][117]=ABCDEF[(lakb_damp[i][39])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][118]=ABCDEF[(lakb_damp[i][39])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][119]=0; \r\n \r\n\r\nsnmp_lakb_damp1[i][120]=ABCDEF[(lakb_damp[i][40])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][121]=ABCDEF[(lakb_damp[i][40])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][122]=' ';\r\nsnmp_lakb_damp1[i][123]=ABCDEF[(lakb_damp[i][41])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][124]=ABCDEF[(lakb_damp[i][41])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][125]=' ';\r\nsnmp_lakb_damp1[i][126]=ABCDEF[(lakb_damp[i][42])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][127]=ABCDEF[(lakb_damp[i][42])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][128]=' ';\r\nsnmp_lakb_damp1[i][129]=ABCDEF[(lakb_damp[i][43])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][130]=ABCDEF[(lakb_damp[i][43])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][131]=' ';\r\nsnmp_lakb_damp1[i][132]=ABCDEF[(lakb_damp[i][44])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][133]=ABCDEF[(lakb_damp[i][44])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][134]=' '; \r\nsnmp_lakb_damp1[i][135]=ABCDEF[(lakb_damp[i][45])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][136]=ABCDEF[(lakb_damp[i][45])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][137]=' ';\r\nsnmp_lakb_damp1[i][138]=ABCDEF[(lakb_damp[i][46])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][139]=ABCDEF[(lakb_damp[i][46])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][140]=' ';\r\nsnmp_lakb_damp1[i][141]=ABCDEF[(lakb_damp[i][47])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][142]=ABCDEF[(lakb_damp[i][47])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][143]=' ';\r\nsnmp_lakb_damp1[i][144]=ABCDEF[(lakb_damp[i][48])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][145]=ABCDEF[(lakb_damp[i][48])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][146]=' ';\r\nsnmp_lakb_damp1[i][147]=ABCDEF[(lakb_damp[i][49])>>4];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][148]=ABCDEF[(lakb_damp[i][49])&0x0f];\t\t\t//Дамп\r\nsnmp_lakb_damp1[i][149]=0; /\r\n}\r\n\r\n#ifdef UKU_TELECORE2017\r\nsnmp_warm_sign=0;\r\nif(TELECORE2017_KLIMAT_WARM_SIGNAL==0) snmp_warm_sign=2;\r\nelse if(TELECORE2017_KLIMAT_WARM_SIGNAL==1) snmp_warm_sign=1;\r\nsnmp_cool_sign=0;\r\nif(TELECORE2017_KLIMAT_VENT_SIGNAL==0) snmp_cool_sign=2;\r\nelse if(TELECORE2017_KLIMAT_VENT_SIGNAL==1) snmp_cool_sign=1;\r\nsnmp_warm_on_temper=(signed char)TELECORE2017_KLIMAT_WARM_ON; \r\nsnmp_warm_off_temper=(signed char)TELECORE2017_KLIMAT_WARM_OFF;\r\nsnmp_warm_q=(signed char)TELECORE2017_KLIMAT_CAP;\t\r\nsnmp_cool_20_temper=(signed char)TELECORE2017_KLIMAT_VENT_ON20;\r\nsnmp_cool_40_temper=(signed char)TELECORE2017_KLIMAT_VENT_ON40;\r\nsnmp_cool_60_temper=(signed char)TELECORE2017_KLIMAT_VENT_ON60;\r\nsnmp_cool_80_temper=(signed char)TELECORE2017_KLIMAT_VENT_ON80;\r\nsnmp_cool_100_temper=(signed char)TELECORE2017_KLIMAT_VENT_ON100;\r\nsnmp_cool_20_dtemper=(signed char)TELECORE2017_KLIMAT_DVENT_ON20;\r\nsnmp_cool_40_dtemper=(signed char)TELECORE2017_KLIMAT_DVENT_ON40;\r\nsnmp_cool_60_dtemper=(signed char)TELECORE2017_KLIMAT_DVENT_ON60;\r\nsnmp_cool_80_dtemper=(signed char)TELECORE2017_KLIMAT_DVENT_ON80;\r\nsnmp_cool_100_dtemper=(signed char)TELECORE2017_KLIMAT_DVENT_ON100;\r\nsnmp_warm_stat=0;\r\nif(warm_stat_k==wsON) snmp_warm_stat=1;\r\n#endif\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_sernum_write (int mode) \r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_long(EE_AUSW_MAIN_NUMBER,snmp_sernum);\r\n\tlc640_write_long(EE_AUSW_UKU_NUMBER,snmp_sernum);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_location_write (int mode) \r\n{\r\nchar i;\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tfor(i=0;i<64;i++)\r\n\t\t{\r\n\t\tlc640_write(EE_LOCATION+i,snmp_location[i]);\r\n\t\t}\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_alarm_aktiv_write1(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tif(!snmp_sk_alarm_aktiv[0]) lc640_write_int(ADR_SK_SIGN[0],0xffff);\r\n\telse lc640_write_int(ADR_SK_SIGN[0],0);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_alarm_aktiv_write2(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tif(!snmp_sk_alarm_aktiv[1]) lc640_write_int(ADR_SK_SIGN[1],0xffff);\r\n\telse lc640_write_int(ADR_SK_SIGN[1],0);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_alarm_aktiv_write3(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tif(!snmp_sk_alarm_aktiv[2]) lc640_write_int(ADR_SK_SIGN[2],0xffff);\r\n\telse lc640_write_int(ADR_SK_SIGN[2],0);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_alarm_aktiv_write4(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tif(!snmp_sk_alarm_aktiv[3]) lc640_write_int(ADR_SK_SIGN[3],0xffff);\r\n\telse lc640_write_int(ADR_SK_SIGN[3],0);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_main_bps_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n//\tlc640_write_int(EE_MAIN_BPS,snmp_main_bps-1);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_zv_on_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_ZV_ON,snmp_zv_en);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_alarm_auto_disable_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_AV_OFF_AVT,snmp_alarm_auto_disable);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_bat_test_time_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_TBAT,snmp_bat_test_time);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_u_max_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_UMAX,snmp_u_max);\r\n\t}\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid snmp_u_min_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_DU,UB20-snmp_u_min);\r\n\t}\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid snmp_u_0_grad_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_UB0,snmp_u_0_grad);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_u_20_grad_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_UB20,snmp_u_20_grad);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_u_sign_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_USIGN,snmp_u_sign);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_u_min_power_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_UMN,snmp_u_min_power);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_u_withouth_bat_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_U0B,snmp_u_withouth_bat);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_control_current_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_IKB,snmp_control_current);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_max_charge_current_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_IZMAX,snmp_max_charge_current);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_max_current_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_IMAX,snmp_max_current);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_min_current_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_IMIN,snmp_min_current);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_max_current_koef_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n// lc640_write_int(EE_KIMAX,snmp_max_current_koef);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_up_charge_koef_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n // lc640_write_int(EE_KVZ,snmp_up_charge_koef);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_powerup_psu_timeout_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TZAS,snmp_powerup_psu_timeout);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_max_temperature_write (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TMAX,snmp_max_temperature);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_tsign_bat_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n \tlc640_write_int(EE_TBATSIGN,snmp_tsign_bat);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_tmax_bat_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n \tlc640_write_int(EE_TBATMAX,snmp_tmax_bat);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_tsign_bps_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_TSIGN,snmp_tsign_bps);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_tmax_bps_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_TMAX,snmp_tmax_bps);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_uvz_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_UVZ,snmp_uvz);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_bat_part_alarm_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_UBM_AV,snmp_bat_part_alarm);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_power_cnt_adress_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\tlc640_write_int(EE_POWER_CNT_ADRESS,snmp_power_cnt_adress);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_command_execute (int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n\t\r\n\t//snmp_command=0x5555;\r\n\r\n\tswitch (snmp_command)\r\n\t\t{\r\n\t\tcase SNMP_BPS_DISABLE:\r\n\t\t\t{\r\n\t\t\tsnmp_command=COMMAND_OK;\r\n\r\n\t\t/\tswitch (snmp_command_parametr)\r\n\t\t\t\t{\r\n\t\t\t\r\n\t\t\t\tcase 1: \r\n\t\t\t\t{\r\n\t\t\t\tSt_[0]\|=0x20;\r\n\t\t\t\tSt_[1]&=0xdf;\r\n\t\t\t\tSt&=0xfb;\r\n\t\t\t\tcnt_src[1]=10;\r\n\t\t\t\tsnmp_plazma++;\r\n\t\t\t\tsnmp_plazma++;\r\n\t\t\t\tbreak;\r\n\t\t\t\t}\r\n\t\t\t\r\n\t\t\t\tcase 2:\r\n\t\t\t\t{\r\n\t\t\t\tSt_[1]\|=0x20;\r\n\t\t\t\tSt_[0]&=0xdf;\r\n\t\t\t\tSt&=0xfb;\r\n\t\t\t\tcnt_src[0]=10;\t\r\n\t\t\t\tsnmp_plazma++;\r\n\t\t\t\tbreak;\r\n\t\t\t\t}/\t\r\n\t\t\t\r\n\t\t\t\t//break;\r\n\t\t\t//\t}\r\n\t\t\tif(snmp_command_parametr==1) \r\n\t\t\t\t{\r\n\t\t\t//\tSt_[0]\|=0x20;\r\n\t\t\t//\tSt_[1]&=0xdf;\r\n\t\t\t//\tSt&=0xfb;\r\n\t\t//\t\tcnt_src[1]=10;\r\n\t\t//\t\tsnmp_plazma++;\r\n\t\t//\t\tsnmp_plazma++;\r\n\t\t\t\t}\r\n\t\t\t\r\n\t\t\telse if(snmp_command_parametr==2)\r\n\t\t\t\t{\r\n\t\t\t//\tSt_[1]\|=0x20;\r\n\t\t\t//\tSt_[0]&=0xdf;\r\n\t\t\t//\tSt&=0xfb;\r\n\t\t//\t\tcnt_src[0]=10;\t\r\n\t\t//\t\tsnmp_plazma++;\r\n\t\t\t\t}\t\r\n\t\t\t\r\n\t\t\tbreak;\r\n\t\t\t}\r\n\r\n\t\tcase SNMP_BPS_UNDISABLE:\r\n\t\t\t{\r\n\t\t\tsnmp_command=COMMAND_OK;\r\n\t\t//\tSt_[0]&=0xdf;\r\n\t\t//\tSt_[1]&=0xdf;\r\n\t\t\tbreak;\r\n\t\t\t}\r\n\r\n\t\tcase SNMP_SPEC_VZ:\r\n\t\t\t{\r\n\t\t\tif((snmp_command_parametr>=1)&&(snmp_command_parametr<=24))\r\n\t\t\t\t{\r\n\t\t\t//\tif(!(St&0x03)&&(NUMBAT))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsnmp_command=COMMAND_OK;\r\n\t\t//\t\t\tspc_stat=spc_VZ;\r\n\t\t//\t\t\tcnt_vz_sec_=3600ULsnmp_command_parametr;\r\n\t\t\t\t\t}\r\n\t\t\t//\telse\r\n \t\t\t\t\t{\r\n\t\t\t\t\tsnmp_command=COMAND_FAIL;\t\r\n \t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t\t\tsnmp_command=WRONG_PARAMETER;\r\n\t\t\t\t}\r\n\t\t\tbreak;\r\n\t\t\t}\r\n\r\n\t\tcase SNMP_SPEC_KE:\r\n\t\t\t{\r\n\t \t//\tif(!(St&0x02)&&(NUMBAT))\r\n\t\t\t\t{\r\n\t\t\t\t//spc_stat=spc_KE;\r\n\t\t\t//zar_cnt_ee_ke=0;\r\n\t\t\t//\tzar_cnt=0L;\r\n\t\t\t\tsnmp_command=COMMAND_OK;\r\n\t\t\t\t}\r\n\t\t//\telse\r\n\t\t\t\t{\r\n\t\t\t\tsnmp_command=COMAND_FAIL;\t\r\n\t\t\t\t}\r\n\t\t\tbreak;\r\n\t\t\t}\r\n\r\n\t\tcase SNMP_SPEC_DISABLE:\r\n\t\t\t{\r\n\t\t//\tspc_stat=spc_OFF;\r\n\t\t\tsnmp_command=COMMAND_OK;\r\n\t\t\tbreak;\r\n\t\t\t}\r\n\r\n\r\n\t\tdefault:\r\n\t\t\t{\r\n\t\t\tsnmp_command=COMMAND_INVALID;\r\n\t\t\tbreak;\r\n\t\t\t}\r\n\t\t}\r\n/\t\telse if((UIB2[1]==0x52)&&(UIB2[4]==5)&&(UIB2[5]==5)&&(UIB2[6])&&(UIB2[6]<=NUMIST)&&(UIB2[6]==UIB2[7])) \t//Выключение источника \r\n\t\t{\r\n\t\r\n\t\tif((UIB2[6]==1)&&(UIB2[7]==1)) \r\n\t\t\t{\r\n\t\t\tSt_[0]\|=0x20;\r\n\t\t\tSt_[1]&=0xdf;\r\n\t\t\tSt&=0xfb;\r\n\t\t\tcnt_src[1]=10;\r\n\t\t\t}\r\n\t\t\t\r\n\t\telse if((UIB2[6]==2)&&(UIB2[7]==2))\r\n\t\t\t{\r\n\t\t\tSt_[1]\|=0x20;\r\n\t\t\tSt_[0]&=0xdf;\r\n\t\t\tSt&=0xfb;\r\n\t\t\tcnt_src[0]=10;\r\n\t\t\t}\t\r\n\t\t\r\n \tmemo_out2[0]=0x33;\r\n \tmemo_out2[1]=0x62;\r\n \tmemo_out2[2]=4;\r\n \tmemo_out2[3]=0x03;\r\n \t\r\n \tmemo_out2[4]=5;\r\n \tmemo_out2[5]=5;\r\n \tmemo_out2[6]=UIB2[6];\r\n \tmemo_out2[7]=UIB2[6];\r\n \tmemo_out2[8]=crc_87(memo_out2,8);\r\n\t\tmemo_out2[9]=crc_95(memo_out2,8);\r\n \tuart_out_adr2(memo_out2,10); \t\t\r\n\t\t} /\r\n\r\n\r\n\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nchar datatime2str(char day,char month,char year, char hour, char min, char sec)\r\n{\r\nstatic char temp_str[20];\r\nmemcpy(temp_str,\"00/янв/00 00:00:00 \",20);\r\n\r\ntemp_str[1]=(day%10)+0x30;\r\ntemp_str[0]=(day/10)+0x30;\r\n\r\nmemcpy(&temp_str[3],sm_mont[month],3);\r\n\r\ntemp_str[8]=(year%10)+0x30;\r\ntemp_str[7]=(year/10)+0x30;\r\n\r\ntemp_str[12]=(hour%10)+0x30;\r\ntemp_str[11]=(hour/10)+0x30;\r\n\r\ntemp_str[15]=(min%10)+0x30;\r\ntemp_str[14]=(min/10)+0x30;\r\n\r\ntemp_str[18]=(sec%10)+0x30;\r\ntemp_str[17]=(sec/10)+0x30;\r\nreturn temp_str;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid event2snmp(char num)\r\n{\r\nchar /iii,/index;\r\nchar dt[4],dt_[4],dt__[4],dt___[4],dt____[4],dt4[4];\r\nunsigned int tempii; \r\n\r\nmemcpy(&snmp_log[num][0],\" \",78);\r\n//memcpy(&snmp_log[num][0],\"BKL\",10);\r\n\r\n\r\n\t\t\r\ntempii=lc640_read_int(PTR_EVENT_LOG);\r\ntempii=ptr_carry(tempii,64,-1((signed)num));\r\ntempii=32;\r\ntempii+=EVENT_LOG;\r\n \r\nlc640_read_long_ptr(tempii,dt);\r\nlc640_read_long_ptr(tempii+4,dt4);\r\nlc640_read_long_ptr(tempii+8,dt_);\r\nlc640_read_long_ptr(tempii+12,dt__);\r\nlc640_read_long_ptr(tempii+16,dt___);\r\nlc640_read_long_ptr(tempii+20,dt____);\r\n//iii=find(simbol);\r\n \r\nif(dt[0]=='U')\t \t\t//Включение ИБЭПа\r\n \t{ \r\n \tif(dt[2]=='R')\r\n \t\t{\r\n\t\tmemcpy(&snmp_log[num][0],\"Включение ИБЭПа@ \",50);\r\n\t\tmemcpy(&snmp_log[num][17],datatime2str(dt_[2],dt_[1],dt_[0],dt__[0],dt__[1],dt__[2]),20);\r\n\t\tmemcpy(&snmp_log[num][40],\"@ \",20);\r\n \t\t}\r\n } \r\n\r\n \r\nelse if(dt[0]=='P')\t\t//Авария питающей сети\r\n\t{\r\n\tindex=0;\r\n memcpy(&snmp_log[num][index],\"Авария питающей сети @ \",23);\t\r\n\tindex+=23;\r\n\tmemcpy(&snmp_log[num][index],datatime2str(dt_[2],dt_[1],dt_[0],dt__[0],dt__[1],dt__[2]),19);\r\n\tindex+=19;\r\n\tsnmp_log[num][index]='@';\r\n\tindex++;\r\n\r\n\tif((dt___[0]=='A')&&(dt___[1]=='A'))\r\n\t\t{\r\n\t\tmemcpy(&snmp_log[num][index],\" не устранена \",13);\r\n\t\tindex+=13;\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tmemcpy(&snmp_log[num][index],\" устранена \",11);\r\n\t\tindex+=11;\r\n\t\t\t\r\n\t\tmemcpy(&snmp_log[num][index],datatime2str(dt___[2],dt___[1],dt___[0],dt____[0],dt____[1],dt____[2]),19);\r\n\t\t}\r\n\r\n } \r\n\r\nelse if(dt[0]=='B')\t\t//События батареи\r\n \t{\r\n\tindex=0;\r\n \tif(dt[2]=='C')\r\n \t\t{\r\n\t\tmemcpy(&snmp_log[num][index],\"Батарея. Авария!!! @ \",21);\r\n\t\tindex+=21;\r\n\t\tmemcpy(&snmp_log[num][index],datatime2str(dt_[2],dt_[1],dt_[0],dt__[0],dt__[1],dt__[2]),19);\r\n\t\tindex+=19;\r\n\t\t\r\n\t\tsnmp_log[num][index]='@';\r\n\t\tindex++;\r\n\r\n\t\tmemcpy(&snmp_log[num][index],\"Батарея не обнаружена, \",22);\r\n\t\tindex+=22;\r\n\r\n\t\tif((dt___[0]=='A')&&(dt___[1]=='A'))\r\n\t\t\t{\r\n\t\t\tmemcpy(&snmp_log[num][index],\" не устранена \",13);\r\n\t\t\tindex+=13;\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tmemcpy(&snmp_log[num][index],\" устранена \",11);\r\n\t\t\tindex+=11;\r\n\t\t\tmemcpy(&snmp_log[num][index],datatime2str(dt___[2],dt___[1],dt___[0],dt____[0],dt____[1],dt____[2]),19);\r\n\t\t\t}\r\n\r\n \t\t}\r\n \tif(dt[2]=='Z')\r\n \t\t{\r\n\r\n\t\tmemcpy(&snmp_log[num][index],\"Батарея. Выравнивающий заряд @ \",32);\r\n\t\tindex+=32;\r\n\t\tmemcpy(&snmp_log[num][index],datatime2str(dt_[2],dt_[1],dt_[0],dt__[0],dt__[1],dt__[2]),19);\r\n\t\tindex+=19;\r\n\t\t\r\n\t\tsnmp_log[num][index]='@';\r\n\t\tindex++;\r\n\r\n\t\tif((dt___[0]=='A')&&(dt___[1]=='A'))\r\n\t\t\t{\r\n\t\t\tmemcpy(&snmp_log[num][index],\" не завершен \",13);\r\n\t\t\tindex+=13;\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tmemcpy(&snmp_log[num][index],\" завершен \",11);\r\n\t\t\tindex+=11;\r\n\t\t\tmemcpy(&snmp_log[num][index],datatime2str(dt___[2],dt___[1],dt___[0],dt____[0],dt____[1],dt____[2]),19);\r\n\t\t\t}\r\n\r\n\r\n/\r\n \t\tlcd_buffer[iii++]='В';\r\n \t\tlcd_buffer[iii++]='З';\r\n \t\tlcd_buffer[iii++]=' '; \t\t\r\n \t\tlcd_buffer[iii++]=' ';\r\n \t\tlcd_buffer[iii++]=' '; \r\n \t\tlcd_buffer[iii++]=' ';\r\n \t\tlcd_buffer[iii++]=' ';\r\n \t\t\r\n \t\tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\r\n \t\t\t{\r\n \t \t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='!';\r\n \t \t\tlcd_buffer[iii++]=':'; \r\n \t\t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='@';\r\n \t\t\tlcd_buffer[iii++]=':';\r\n \t\t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='#';\r\n \t \t\tint2lcd(dt__[0],'!',0);\r\n \t\t\tint2lcd(dt__[1],'@',0);\r\n \t\t\tint2lcd(dt__[2],'#',0); \t\t \t\t\r\n \t\t\t}\t \r\n \t\telse \t\r\n \t\t\t{\r\n \t \t\tlcd_buffer[iii++]=' ';\r\n \t\t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='!';\r\n \t\t\tlcd_buffer[iii++]='@'; \r\n \t\t\tlcd_buffer[iii++]=' ';\r\n \t\t\tlcd_buffer[iii++]=' ';\r\n \t\t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='#';\r\n \t\t\tint2lcd(dt_[2],'!',0);\r\n \t\t\t\r\n \t\t\tint2lcd(dt_[0],'#',0); \r\n \t\t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \r\n \t\t\t} / \t\t\r\n \t\t} \t\t\r\n/\r\n \tif(dt[2]=='W')\r\n \t\t{\r\n \t\tlcd_buffer[iii++]='Б';\r\n \t\tlcd_buffer[iii++]='а';\r\n \t\tlcd_buffer[iii++]='т';\r\n\t\tif(dt[1]<9)\r\n \t\t\t{\r\n \t\t\tlcd_buffer[iii++]=0x31+dt[1];\r\n \t\t\tlcd_buffer[iii++]='р';\r\n \t\t\tlcd_buffer[iii++]=' ';\r\n \t\t\t}\r\n \t\telse if((dt[1]>=9)&&(dt[1]<99))\r\n \t\t\t{\r\n \t\t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\r\n \t\t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\r\n \t\t\tlcd_buffer[iii++]='р';\r\n \t\t\t}\r\n \t\telse \r\n \t\t\t{\r\n \t\t\tlcd_buffer[iii++]=' ';\r\n \t\t\tlcd_buffer[iii++]=' '; \r\n \t\t\tlcd_buffer[iii++]=' '; \t\t\r\n \t\t\t} \r\n \t\tlcd_buffer[iii++]=' '; \t\t\r\n \t\t\r\n \t\t\r\n\t\t\r\n \t\tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\r\n \t\t\t{\r\n \t \t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='!';\r\n \t \t\tlcd_buffer[iii++]=':'; \r\n \t\t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='@';\r\n \t\t\tlcd_buffer[iii++]=':';\r\n \t\t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='#';\r\n \t \t\tint2lcd(dt__[0],'!',0);\r\n \t\t\tint2lcd(dt__[1],'@',0);\r\n \t\t\tint2lcd(dt__[2],'#',0); \t\t \t\t\r\n \t\t\t}\t \r\n \t\telse \t\r\n \t\t\t{\r\n \t \t\tlcd_buffer[iii++]=' ';\r\n \t\t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='!';\r\n \t\t\tlcd_buffer[iii++]='@'; \r\n \t\t\tlcd_buffer[iii++]=' ';\r\n \t\t\tlcd_buffer[iii++]=' ';\r\n \t\t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='#';\r\n \t\t\tint2lcd(dt_[2],'!',0);\r\n \t\t\t\r\n \t\t\tint2lcd(dt_[0],'#',0); \r\n \t\t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \r\n \t\t\t} \t\t\r\n \t\t} / \t\t\r\n \r\n \tif(dt[2]=='K')\r\n \t\t{\r\n\r\n\t\tmemcpy(&snmp_log[num][index],\"Батарея. Контроль емкости @ \",29);\r\n\t\tindex+=29;\r\n\t\tmemcpy(&snmp_log[num][index],datatime2str(dt_[2],dt_[1],dt_[0],dt__[0],dt__[1],dt__[2]),19);\r\n\t\tindex+=19;\r\n\t\t\r\n\t\tsnmp_log[num][index]='@';\r\n\t\tindex++;\r\n\r\n\t\tif((dt___[0]=='A')&&(dt___[1]=='A'))\r\n\t\t\t{\r\n\t\t\tmemcpy(&snmp_log[num][index],\" не завершен \",13);\r\n\t\t\tindex+=13;\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tshort temp_US;\r\n\t\t\tmemcpy(&snmp_log[num][index],\" завершен \",11);\r\n\t\t\tindex+=11;\r\n\t\t\tmemcpy(&snmp_log[num][index],datatime2str(dt___[2],dt___[1],dt___[0],dt____[0],dt____[1],dt____[2]),19);\r\n\t\t\tmemcpy(&snmp_log[num][index],\", Uнач , В, Uкон , В, Cбат , Ач \", 39);\r\n\t\t\t\r\n\t\t\ttemp_US=dt_[3]+(dt__[3]256);\r\n\r\n\t\t\tsnmp_log[num][index+10]=(temp_US%10)+0x30;\r\n\t\t\ttemp_US/=10;\r\n\t\t\tsnmp_log[num][index+8]=(temp_US%10)+0x30;\r\n\t\t\ttemp_US/=10;\r\n\t\t\tif(temp_US)snmp_log[num][index+7]=(temp_US%10)+0x30;\r\n\t\t\telse snmp_log[num][index+7]=0x20;\r\n\r\n\r\n\t\t\ttemp_US=dt4[2]+(dt4[3]256);\r\n\r\n\t\t\tsnmp_log[num][index+22]=(temp_US%10)+0x30;\r\n\t\t\ttemp_US/=10;\r\n\t\t\tsnmp_log[num][index+20]=(temp_US%10)+0x30;\r\n\t\t\ttemp_US/=10;\r\n\t\t\tif(temp_US)snmp_log[num][index+19]=(temp_US%10)+0x30;\r\n\t\t\telse snmp_log[num][index+19]=0x20;\r\n\r\n\r\n\t\t\ttemp_US=dt4[0]+(dt4[1]256);\r\n\r\n\t\t\tsnmp_log[num][index+35]=(temp_US%10)+0x30;\r\n\t\t\ttemp_US/=10;\r\n\t\t\tsnmp_log[num][index+33]=(temp_US%10)+0x30;\r\n\t\t\ttemp_US/=10;\r\n\t\t\tif(temp_US)snmp_log[num][index+32]=(temp_US%10)+0x30;\r\n\t\t\telse snmp_log[num][index+32]=0x20;\r\n\t\t\t}\r\n\r\n\r\n\r\n\t\t/\r\n \t\tlcd_buffer[iii++]='Б';\r\n \t\tlcd_buffer[iii++]='а';\r\n \t\tlcd_buffer[iii++]='т';\r\n\t\tif(dt[1]<9)\r\n \t\t\t{\r\n \t\t\tlcd_buffer[iii++]=0x31+dt[1];\r\n \t\t\tlcd_buffer[iii++]='к';\r\n \t\t\tlcd_buffer[iii++]='е';\r\n \t\t\t}\r\n \t\telse if((dt[1]>=9)&&(dt[1]<99))\r\n \t\t\t{\r\n \t\t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\r\n \t\t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\r\n \t\t\tlcd_buffer[iii++]='к';\r\n \t\t\t}\r\n \t\telse \r\n \t\t\t{\r\n \t\t\tlcd_buffer[iii++]=' ';\r\n \t\t\tlcd_buffer[iii++]=' '; \r\n \t\t\tlcd_buffer[iii++]=' '; \t\t\r\n \t\t\t} \r\n \t\tlcd_buffer[iii++]=' '; \t\t\r\n \t\t\r\n \t\tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\r\n \t\t\t{\r\n \t \t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='!';\r\n \t \t\tlcd_buffer[iii++]=':'; \r\n \t\t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='@';\r\n \t\t\tlcd_buffer[iii++]=':';\r\n \t\t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='#';\r\n \t \t\tint2lcd(dt__[0],'!',0);\r\n \t\t\tint2lcd(dt__[1],'@',0);\r\n \t\t\tint2lcd(dt__[2],'#',0); \t\t \t\t\r\n \t\t\t}\t \r\n \t\telse \t\r\n \t\t\t{\r\n \t \t\tlcd_buffer[iii++]=' ';\r\n \t\t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='!';\r\n \t\t\tlcd_buffer[iii++]='@'; \r\n \t\t\tlcd_buffer[iii++]=' ';\r\n \t\t\tlcd_buffer[iii++]=' ';\r\n \t\t\tlcd_buffer[iii++]='0';\r\n \t\t\tlcd_buffer[iii++]='#';\r\n \t\t\tint2lcd(dt_[2],'!',0);\r\n \t\t\t\r\n \t\t\tint2lcd(dt_[0],'#',0); \r\n \t\t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \r\n \t\t\t} / \t\t\r\n \t\t} \t\t\r\n\r\n \t\t \t \t\r\n \t} \t \r\n \t\r\nelse if(dt[0]=='S')\r\n \t{\r\n\tindex=0;\r\n\tmemcpy(&snmp_log[num][0],\"БПС № \",6);\r\n\tindex=6;\r\n\tsnmp_log[num][5]=0x31+dt[1];\r\n\tindex=7;\r\n\tmemcpy(&snmp_log[num][index],\" Авария!!!@ \",14);\r\n\tindex+=14;\r\n\t\t//memcpy(&snmp_log[num][0/+num/],\"00/янв/11 00:00:00 @\",20);\r\n\tmemcpy(&snmp_log[num][index],datatime2str(dt_[2],dt_[1],dt_[0],dt__[0],dt__[1],dt__[2]),19);\r\n\tindex+=20;\r\n\r\n\tif(dt[2]=='L')\r\n\t\t{\r\n\t\tmemcpy(&snmp_log[num][40],\"@отключился \",20);\r\n\t\tindex=65;\r\n\t\t}\r\n\telse if(dt[2]=='T')\r\n\t\t{\r\n\t\tmemcpy(&snmp_log[num][index],\"@ перегрев \",10);\r\n\t\tindex+=10;\r\n\t\t}\t\t\r\n\telse if(dt[2]=='U')\r\n\t\t{\r\n\t\tmemcpy(&snmp_log[num][index],\"@ завышено Uвых. \",16);\r\n\t\tindex+=16;\r\n\t\t}\t\t\r\n\telse if(dt[2]=='u')\r\n\t\t{\r\n\t\tmemcpy(&snmp_log[num][index],\"@ занижено Uвых. \",16);\r\n\t\tindex+=16;\r\n\t\t}\r\n\telse \t\t\r\n\t\t{\r\n\t\tmemcpy(&snmp_log[num][index],\"@ фигня \",7);\r\n\t\tindex+=7;\r\n\t\t}\r\n\r\n\r\n\tif((dt___[0]=='A')&&(dt___[1]=='A'))\r\n\t\t{\r\n\t\tmemcpy(&snmp_log[num][index],\", не устранена \",15);\r\n\t\tindex+=15;\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tmemcpy(&snmp_log[num][index],\", устранена \",13);\r\n\t\tindex+=13;\r\n\t\t\t\r\n\t\tmemcpy(&snmp_log[num][index],datatime2str(dt___[2],dt___[1],dt___[0],dt____[0],dt____[1],dt____[2]),19);\r\n\r\n\r\n\t\t /\r\n\t\t\tptrs[4]=\" 0[] 0< 0>:0=:0) \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'>',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'<',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0); /\r\n\r\n\r\n\r\n\r\n\r\n /\r\n\t\tptrs[0]=\" Авария БПС N+ \";\r\n\t\t\r\n\t\tif(av_head[2]=='L')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" отключился \";\r\n\t\t\t}\r\n\t\telse if(av_head[2]=='T')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" перегрев \";\r\n\t\t\t}\t\t\r\n\t\telse if(av_head[2]=='U')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" завышено Uвых. \";\r\n\t\t\t}\t\t\r\n\t\telse if(av_head[2]=='u')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" занижено Uвых. \";\r\n\t\t\t}\t\t\t\t\t\t\t\t\r\n\t\t\r\n\t\t\r\n\t\tptrs[2]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\t\t\r\n\t\t\t\t\t\t\r\n\t\t\t}\t\r\n\t\tint2lcd(av_head[1]+1,'+',0);\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t/\r\n\t }\r\n\r\n\r\n\r\n/* \tlcd_buffer[iii++]='Б';\r\n \tlcd_buffer[iii++]='П';\r\n \tlcd_buffer[iii++]='С';\r\n \tif(dt[1]<9)\r\n \t\t{\r\n \t\tlcd_buffer[iii++]=0x31+dt[1];\r\n \t\tlcd_buffer[iii++]=' ';\r\n \t\t}\r\n \telse if((dt[1]>=9)&&(dt[1]<99))\r\n \t\t{\r\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\r\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\r\n \t\t}\r\n \telse \r\n \t\t{\r\n \t\tlcd_buffer[iii++]=' ';\r\n \t\tlcd_buffer[iii++]=' '; \t\t\r\n \t\t} \r\n \tlcd_buffer[iii++]=' '; \r\n \tlcd_buffer[iii++]=' ';\r\n \t\r\n \tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\r\n \t\t{\r\n \t \tlcd_buffer[iii++]='0';\r\n \t\tlcd_buffer[iii++]='!';\r\n \t \tlcd_buffer[iii++]=':'; \r\n \t\tlcd_buffer[iii++]='0';\r\n \t\tlcd_buffer[iii++]='@';\r\n \t\tlcd_buffer[iii++]=':';\r\n \t\tlcd_buffer[iii++]='0';\r\n \t\tlcd_buffer[iii++]='#';\r\n \t \tint2lcd(dt__[0],'!',0);\r\n \t\tint2lcd(dt__[1],'@',0);\r\n \t\tint2lcd(dt__[2],'#',0); \t\t \t\t\r\n \t\t}\t \r\n \telse \t\r\n \t\t{\r\n \t \tlcd_buffer[iii++]=' ';\r\n \t\tlcd_buffer[iii++]='0';\r\n \t\tlcd_buffer[iii++]='!';\r\n \t\tlcd_buffer[iii++]='@'; \r\n \t\tlcd_buffer[iii++]=' ';\r\n \t\tlcd_buffer[iii++]=' ';\r\n \t\tlcd_buffer[iii++]='0';\r\n \t\tlcd_buffer[iii++]='#';\r\n \t\tint2lcd(dt_[2],'!',0);\r\n \t\tint2lcd(dt_[0],'#',0); \r\n \t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\r\n\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \r\n\t\t} / \t\r\n \t}\r\n / \t\r\nelse if(dt[0]=='B')\r\n \t{\r\n \tlcd_buffer[iii++]='Б';\r\n \tlcd_buffer[iii++]='а';\r\n \tlcd_buffer[iii++]='т';\r\n \tif(dt[1]<9)\r\n \t\t{\r\n \t\tlcd_buffer[iii++]=0x31+dt[1];\r\n \t\tlcd_buffer[iii++]=' ';\r\n \t\t}\r\n \telse if((dt[1]>=9)&&(dt[1]<99))\r\n \t\t{\r\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\r\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\r\n \t\t}\r\n \telse \r\n \t\t{\r\n \t\tlcd_buffer[iii++]=' ';\r\n \t\tlcd_buffer[iii++]=' '; \t\t\r\n \t\t} \r\n \tlcd_buffer[iii++]=' ';\r\n \t} \t \r\nelse if(dt[0]=='I')\r\n \t{\r\n \tlcd_buffer[iii++]='И';\r\n \tlcd_buffer[iii++]='н';\r\n \tlcd_buffer[iii++]='в';\r\n\tif(dt[1]<9)\r\n \t\t{\r\n \t\tlcd_buffer[iii++]=0x31+dt[1];\r\n \t\tlcd_buffer[iii++]=' ';\r\n \t\t}\r\n \telse if((dt[1]>=9)&&(dt[1]<99))\r\n \t\t{\r\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\r\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\r\n \t\t}\r\n \telse \r\n \t\t{\r\n \t\tlcd_buffer[iii++]=' ';\r\n \t\tlcd_buffer[iii++]=' '; \t\t\r\n \t\t} \r\n \tlcd_buffer[iii++]=' ';\r\n \t} / \r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_trap_send(char str, signed short in0, signed short in1, signed short in2)\r\n{\r\nfor(snmp_trap_send_i=0;snmp_trap_send_i<100;snmp_trap_send_i++)\r\n\t{\r\n\tsnmp_spc_trap_message[snmp_trap_send_i]=0;\r\n\t}\r\n\r\n\r\nobj[0] = 0;\r\nsnmp_trap_send_ii=1;\r\nif(str!=0)\r\n\t{\r\n\tobj[0]++;\r\n\tfor(snmp_trap_send_i=0;snmp_trap_send_i<100&&(str[snmp_trap_send_i]);snmp_trap_send_i++)\r\n\t\t{\r\n\t\tsnmp_spc_trap_message[snmp_trap_send_i]=str[snmp_trap_send_i];\r\n\t\t}\r\n\tobj[snmp_trap_send_ii] = 7;\r\n\tsnmp_trap_send_ii++;\r\n\t}\r\nif(in0!=0xffff)\r\n\t{\r\n\tobj[0]++;\r\n\tsnmp_spc_trap_value_0=in0;\r\n\tobj[snmp_trap_send_ii] = 8;\r\n\tsnmp_trap_send_ii++;\r\n\t}\r\nif(in1!=0xffff)\r\n\t{\r\n\tobj[0]++;\r\n\tsnmp_spc_trap_value_1=in1;\r\n\tobj[snmp_trap_send_ii] = 9;\r\n\tsnmp_trap_send_ii++;\r\n\t}\r\nif(in2!=0xffff)\r\n\t{\r\n\tobj[0]++;\r\n\tsnmp_spc_trap_value_2=in2;\r\n\tobj[snmp_trap_send_ii] = 10;\r\n\tsnmp_trap_send_ii++;\r\n\t}\r\n\r\n\r\nif((ETH_TRAP1_IP_1!=255)&&(ETH_TRAP1_IP_2!=255)&&(ETH_TRAP1_IP_3!=255)&&(ETH_TRAP1_IP_4!=255))\r\n\t{\r\n\ttemp_ip[0]= ETH_TRAP1_IP_1;\r\n\ttemp_ip[1]= ETH_TRAP1_IP_2;\r\n\ttemp_ip[2]= ETH_TRAP1_IP_3;\r\n\ttemp_ip[3]= ETH_TRAP1_IP_4;\r\n\tsnmp_trap (temp_ip, 6, 3, obj);\r\n\t}\r\nif((ETH_TRAP2_IP_1!=255)&&(ETH_TRAP2_IP_2!=255)&&(ETH_TRAP2_IP_3!=255)&&(ETH_TRAP2_IP_4!=255))\r\n\t{\r\n\ttemp_ip[0]= ETH_TRAP2_IP_1;\r\n\ttemp_ip[1]= ETH_TRAP2_IP_2;\r\n\ttemp_ip[2]= ETH_TRAP2_IP_3;\r\n\ttemp_ip[3]= ETH_TRAP2_IP_4;\r\n\tsnmp_trap (temp_ip, 6, 3, obj);\r\n\t}\r\n\r\nif((ETH_TRAP3_IP_1!=255)&&(ETH_TRAP3_IP_2!=255)&&(ETH_TRAP3_IP_3!=255)&&(ETH_TRAP3_IP_4!=255))\r\n\t{\r\n\ttemp_ip[0]= ETH_TRAP3_IP_1;\r\n\ttemp_ip[1]= ETH_TRAP3_IP_2;\r\n\ttemp_ip[2]= ETH_TRAP3_IP_3;\r\n\ttemp_ip[3]= ETH_TRAP3_IP_4;\r\n\tsnmp_trap (temp_ip, 6, 3, obj);\r\n\t}\r\n\r\nif((ETH_TRAP4_IP_1!=255)&&(ETH_TRAP4_IP_2!=255)&&(ETH_TRAP4_IP_3!=255)&&(ETH_TRAP4_IP_4!=255))\r\n\t{\r\n\ttemp_ip[0]= ETH_TRAP4_IP_1;\r\n\ttemp_ip[1]= ETH_TRAP4_IP_2;\r\n\ttemp_ip[2]= ETH_TRAP4_IP_3;\r\n\ttemp_ip[3]= ETH_TRAP4_IP_4;\r\n\tsnmp_trap (temp_ip, 6, 3, obj);\r\n\t}\r\n\r\nif((ETH_TRAP5_IP_1!=255)&&(ETH_TRAP5_IP_2!=255)&&(ETH_TRAP5_IP_3!=255)&&(ETH_TRAP5_IP_4!=255))\r\n\t{\r\n\ttemp_ip[0]= ETH_TRAP5_IP_1;\r\n\ttemp_ip[1]= ETH_TRAP5_IP_2;\r\n\ttemp_ip[2]= ETH_TRAP5_IP_3;\r\n\ttemp_ip[3]= ETH_TRAP5_IP_4;\r\n\tsnmp_trap (temp_ip, 6, 3, obj);\r\n\t}\t\t\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_klimat_settings_box_alarm_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TBOXMAX,snmp_klimat_settings_box_alarm);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_klimat_settings_vent_on_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TBOXVENTON,snmp_klimat_settings_vent_on);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_klimat_settings_vent_off_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TBOXVENTOFF,snmp_klimat_settings_vent_off);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_klimat_settings_warm_on_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TBOXWARMON,snmp_klimat_settings_warm_on);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_klimat_settings_warm_off_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TBOXWARMOFF,snmp_klimat_settings_warm_off);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_klimat_settings_load_on_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TLOADENABLE,snmp_klimat_settings_load_on);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_klimat_settings_load_off_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TLOADDISABLE,snmp_klimat_settings_load_off);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_klimat_settings_batt_on_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TBATENABLE,snmp_klimat_settings_batt_on);\r\n\t}\r\n}\r\n//-----------------------------------------------\r\nvoid snmp_klimat_settings_batt_off_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TBATDISABLE,snmp_klimat_settings_batt_off);\r\n\t}\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid snmp_warm_sign_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n if(snmp_warm_sign==1)lc640_write_int(EE_TELECORE2017_KLIMAT_WARM_SIGNAL,1);\r\n\t else lc640_write_int(EE_TELECORE2017_KLIMAT_WARM_SIGNAL,0);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_cool_sign_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n if(snmp_cool_sign==1)lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_SIGNAL,1);\r\n\telse lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_SIGNAL,0);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_warm_on_temper_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_WARM_ON,snmp_warm_on_temper);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_warm_off_temper_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_WARM_OFF,snmp_warm_off_temper);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_warm_q_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_CAP,snmp_warm_q);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_cool_100_temper_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON100,snmp_cool_100_temper);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_cool_80_temper_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON80,snmp_cool_80_temper);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_cool_60_temper_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON60,snmp_cool_60_temper);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_cool_40_temper_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON40,snmp_cool_40_temper);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_cool_20_temper_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON20,snmp_cool_20_temper);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_cool_100_dtemper_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON100,snmp_cool_100_dtemper);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_cool_80_dtemper_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON80,snmp_cool_80_dtemper);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_cool_60_dtemper_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON60,snmp_cool_60_dtemper);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_cool_40_dtemper_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON40,snmp_cool_40_dtemper);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid snmp_cool_20_dtemper_write(int mode)\r\n{\r\nif(mode==MIB_WRITE)\r\n\t{\r\n lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON20,snmp_cool_20_dtemper);\r\n\t}\r\n}\r\n\r\n \r\n\r\n" }, { "alpha_fraction": 0.521616518497467, "alphanum_fraction": 0.594924807548523, "avg_line_length": 18.075471878051758, "blob_id": "cd161d45cc07c7c1dbc3542148c05ea008f31ba5", "content_id": "6c2edd3d7869a1e74e75421264151c68b3667824", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1064, "license_type": "no_license", "max_line_length": 37, "num_lines": 53, "path": "/SOFT/UKU/2/lcd_AGM1232_uku207_3.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#ifndef _LCD_AGM1232_UKU203_H_\r\n\r\n#define _LCD_AGM1232_UKU203_H_\r\n\r\n\r\n#define A0\t18\r\n#define E1\t19\r\n#define E2\t20\r\n#define RW 21\r\n\r\n#define D0 22\r\n#define D1 D0+1\r\n#define D2 D1+1\r\n#define D3 D2+1\r\n#define D4 D3+1\r\n#define D5 D4+1\r\n#define D6 D5+1\r\n#define D7 D6+1\r\n\r\n#define RES\t30\r\n\r\n\r\n#define _RESET_\t\t\t\t226\r\n#define _DISPLAY_ON_ \t175\r\n#define _DISPLAY_OFF_ \t174\r\n#define _SET_PAGE_ \t184\r\n#define _SET_COLUMN_ \t0\r\n#define _SET_RAW_ \t0xc0\r\n#define _SET_DISPLAY_START_LINE_ \t192\r\n#define Max_Col\t\t60\r\n#define Max_page \t\t3 \r\n\r\n\r\nvoid lcd1_chk(void);\r\nvoid lcd1_wr(char in);\r\nvoid lcd2_chk(void);\r\nvoid lcd2_wr(char in);\r\nchar data1_wr(char in);\r\nvoid data2_wr(char in);\r\nvoid lcd_set_page(char in);\r\nvoid lcd_set_col(char in);\r\nvoid lcd_set_raw(char in);\r\nvoid lcd_init(void);\r\nvoid status(void);\r\nvoid delay(void);\r\nvoid ltstrobe(char in);\r\nvoid lcd_init_(void);\r\nvoid lcd_clear(void);\r\nvoid lcd_on(void);\r\nvoid lcd_off(void);\r\nvoid lcd_out(char* adr);\r\n\r\n#endif\r\n" }, { "alpha_fraction": 0.4702228009700775, "alphanum_fraction": 0.4897172152996063, "avg_line_length": 18.295652389526367, "blob_id": "24f112388c9b49f798ce3e020554e3646f3ca347", "content_id": "9d3b14b072cb360f0f102fb1867dcf83011ec77c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 4668, "license_type": "no_license", "max_line_length": 76, "num_lines": 230, "path": "/SOFT/UKU/2rki/i2c.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"i2c.h\"\r\n#include <LPC21xx.H>\r\n#include \"main.h\"\r\n\r\n#define SCL_HIGH() IO0CLR=(1UL<<SCL__);IO0DIR&=~(1UL<<SCL__);\r\n#define SCL_LOW() IO0CLR=(1UL<<SCL__);IO0DIR\|=(1UL<<SCL__);\r\n//#define SCL_DIR_INPUT() PORTF\|=0x80; DDRF&=0x7f;\r\n#define SCL_PIN IO0PIN&(1<<SCL__) \r\n\r\n#define SDA_HIGH() IO0CLR=(1UL<<SDA__);IO0DIR&=~(1UL<<SDA__);\r\n#define SDA_LOW() IO0CLR=(1UL<<SDA__);IO0DIR\|=(1UL<<SDA__);\r\n//#define SDA_DIR_INPUT() PORTF\|=0x40; DDRF&=0xB0;\r\n#define SDA_PIN IO0PIN&(1<<SDA__) \r\n \r\n//#define i2c_Start()\t\ti2c_Restart()\r\n#define i2c_WriteTo(address)\ti2c_Open((address), I2C_WRITE)\r\n#define i2c_ReadFrom(address)\ti2c_Open((address), I2C_READ)\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid i2c_Start(void)\r\n{\r\n // ensure clock is low \r\n//SDA_HIGH() // ensure data is high \r\n\r\n//delay_us(I2C_TM_DATA_SU);\r\n//SDA_HIGH()\r\n//SDA_HIGH()\r\n//SDA_HIGH()\r\n//SDA_HIGH()\r\n//SDA_HIGH()\r\n\r\nSDA_LOW()\r\nSCL_HIGH()\r\n//delay_us(I2C_TM_SCL_HIGH);\r\nSCL_HIGH()\r\nSCL_HIGH()\r\nSCL_HIGH()\r\nSCL_HIGH()\r\n\r\nSCL_LOW()\r\nSCL_LOW()\r\nSCL_LOW()\r\nSCL_LOW() // the high->low transition \r\n//delay_us(I2C_TM_START_HD);\r\n//SDA_LOW()\r\n//SDA_LOW()\r\n//SDA_LOW()\r\nreturn;\r\n} \r\n\r\n//-----------------------------------------------\r\nvoid i2c_Restart(void)\r\n{\r\nSCL_LOW() // ensure clock is low \r\nSDA_HIGH() // ensure data is high \r\n\r\n//delay_us(I2C_TM_DATA_SU);\r\nSDA_HIGH()\r\nSDA_HIGH()\r\nSDA_HIGH()\r\nSDA_HIGH()\r\nSDA_HIGH()\r\n\r\n\r\nSCL_HIGH()\r\n//delay_us(I2C_TM_SCL_HIGH);\r\nSCL_HIGH()\r\nSCL_HIGH()\r\nSCL_HIGH()\r\nSCL_HIGH()\r\n\r\nSDA_LOW() // the high->low transition \r\n//delay_us(I2C_TM_START_HD);\r\nSDA_LOW()\r\nSDA_LOW()\r\nSDA_LOW()\r\nreturn;\r\n} \r\n\r\n\r\n\r\n//-----------------------------------------------\r\nunsigned char i2c_SendByte(unsigned char byte)\r\n{\r\nsigned char i;\r\nSCL_LOW()\r\n//delay_us(I2C_TM_DATA_SU);\r\nSCL_LOW()\r\n\r\nfor(i=8; i>=1; i--)\r\n\t{\r\n if(byte&0x80)\r\n \t{\r\n \tSDA_HIGH()\r\n \t}\r\n else\r\n \t{\r\n \tSDA_LOW()\r\n \t}\r\n //delay_us(I2C_TM_SCL_HIGH);\r\n byte<<=1;\r\n SCL_HIGH()\r\n SCL_HIGH()\r\n SCL_HIGH()\r\n SCL_HIGH()\r\n\t//delay_us(I2C_TM_DATA_SU);\r\n\tSCL_LOW()\r\n\r\n\r\n\t//\tDelayUs(I2C_TM_SCL_HIGH);\t/* clock high time /\r\n \t}\r\n\r\nSDA_HIGH()\r\nreturn 0;\r\n}\r\n\r\n//-----------------------------------------------\r\nunsigned char i2c_SendAddress(unsigned char address, unsigned char rw)\r\n{\r\nreturn i2c_SendByte(address \| (rw&0x01));\r\n} \r\n\r\n\r\n//-----------------------------------------------\r\nsigned char i2c_ReadAcknowledge(void)\r\n{\r\nunsigned char ack;\r\nSDA_HIGH()\r\nSCL_LOW()\r\n//delay_us(I2C_TM_SCL_TO_DATA);\r\nSCL_LOW()\r\nSCL_LOW()\r\nSCL_LOW()\r\n\r\nSCL_HIGH() / make clock is low /\r\n\t\t/ disable data line - listen for ack /\r\n//delay_us(I2C_TM_SCL_TO_DATA);\t\t/ SCL low to data out valid /\r\nSCL_HIGH()\r\nSCL_HIGH()\r\nSCL_HIGH()\r\n\r\nif(SDA_PIN) ack = 1;\r\nelse ack = 0;\r\n\r\nSCL_LOW()\t\t/ float clock high /\r\n//delay_us(I2C_TM_DATA_SU);\r\n\t\t\t\t\t/ read the acknowledge /\r\nreturn\tack;\t\t\t\t\r\n}\r\n\r\n//-----------------------------------------------\r\nchar i2c_ReadByte(void)\r\n{\r\nunsigned char i;\r\nunsigned char byte = 0;\r\nSDA_HIGH();\r\nfor(i=0; i<8; i++)\r\n\t{\r\n\t / drive clock low /\r\n\t//delay_us(I2C_TM_SCL_LOW);\t/ min clock low period /\r\n\t//SCL_LOW()\r\n\t//SCL_LOW()\r\n\t//SCL_LOW()\r\n\tSCL_LOW()\r\n\tSDA_HIGH();\t\t/ release data line /\r\n\t//SCL_HIGH();\t\t/ float clock high /\r\n\t//delay_us(I2C_TM_SCL_HIGH);\r\n\t//SCL_HIGH();\r\n\tSCL_HIGH();\r\n\tSCL_HIGH();\r\n\tbyte = byte << 1;\t\t/ read the next bit / \r\n\tif(SDA_PIN) byte\|=1;\r\n\telse byte&=0xfe;\r\n\tSCL_LOW()\r\n\t}\r\nreturn byte;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid i2c_SendAcknowledge(unsigned char status)\r\n{\r\n\r\nSCL_LOW()\r\nSCL_LOW()\r\nif(status&0x01)\r\n\t{\r\n SDA_LOW() / drive line low -> more to come /\r\n }\r\nelse\r\n\t{\r\n SDA_HIGH()\r\n\t}\r\n//delay_us(I2C_TM_DATA_SU);\r\nSCL_HIGH()\t\t\t/ float clock high /\r\n//delay_us(I2C_TM_SCL_HIGH);\r\nSCL_HIGH()\r\nSCL_HIGH()\r\nSCL_HIGH()\r\nSCL_LOW()\r\nSCL_LOW()\r\nreturn;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid i2c_Stop(void)\r\n{\r\nSDA_LOW() / ensure data is low first /\r\nSCL_HIGH()\r\n\r\n//delay_us(I2C_TM_DATA_SU);\r\n//SCL_DIR_INPUT()\t\t/ float clock high /\r\nSCL_HIGH()\r\n//delay_us(I2C_TM_STOP_SU);\r\nSCL_HIGH()\r\nSCL_HIGH()\r\nSCL_HIGH()\r\n\r\nSDA_HIGH() / the low->high data transistion /\r\n//delay_us(I2C_TM_BUS_FREE);\t/ bus free time before next start /\r\nSDA_HIGH()\r\nSDA_HIGH()\r\nSDA_HIGH()\r\nSDA_HIGH()\r\n\r\n//SDA_DIR_INPUT() / float data high /\r\nSDA_HIGH()\r\nreturn;\r\n}\r\n" }, { "alpha_fraction": 0.649350643157959, "alphanum_fraction": 0.6953955292701721, "avg_line_length": 29.370370864868164, "blob_id": "4ed216e4111eb56c1f3127e7aef11f03cb3dc18e", "content_id": "6b540634899a47c4d40f84405320f4936c37bf1e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 847, "license_type": "no_license", "max_line_length": 71, "num_lines": 27, "path": "/SOFT/UKU/Олег-2021.02.12/i2c.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#define SDA__ 3\r\n#define SCL__ 2\r\n \r\n#define I2C_TM_BUS_FREE\t\t5\r\n#define\tI2C_TM_START_SU\t\t5\r\n#define I2C_TM_START_HD\t\t4\r\n#define I2C_TM_SCL_LOW\t\t5\r\n#define\tI2C_TM_SCL_HIGH\t\t4\r\n#define I2C_TM_DATA_SU\t\t1\r\n#define I2C_TM_DATA_HD 0\r\n#define I2C_TM_SCL_TO_DATA\t4\t/ SCL low to data valid /\r\n#define\tI2C_TM_STOP_SU\t\t4\r\n#define I2C_TM_SCL_TMO\t\t10\t/ clock time out /\r\n\r\n\r\n//#define i2c_Start()\t\ti2c_Restart()\r\n#define i2c_WriteTo(address)\ti2c_Open((address), I2C_WRITE)\r\n#define i2c_ReadFrom(address)\ti2c_Open((address), I2C_READ)\r\n\r\nvoid i2c_Start(void);\r\nvoid i2c_Restart(void);\r\nunsigned char i2c_SendByte(unsigned char byte);\r\nunsigned char i2c_SendAddress(unsigned char address, unsigned char rw);\r\nsigned char i2c_ReadAcknowledge(void);\r\nchar i2c_ReadByte(void);\r\nvoid i2c_SendAcknowledge(unsigned char status);\r\nvoid i2c_Stop(void);\r\n" }, { "alpha_fraction": 0.31425485014915466, "alphanum_fraction": 0.3558315336704254, "avg_line_length": 44.29999923706055, "blob_id": "55de7410c46eef5ffdf7a8408527ef1636fbb5f0", "content_id": "fae40739a6f95f11082491510c25a076bc089019", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1852, "license_type": "no_license", "max_line_length": 80, "num_lines": 40, "path": "/SOFT/UKU/2rki/Копия uku206.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "/****************************************************************************/\r\n/ BLINKY.C: LED Flasher /\r\n/****************************************************************************/\r\n/ This file is part of the uVision/ARM development tools. /\r\n/ Copyright (c) 2005-2006 Keil Software. All rights reserved. /\r\n/ This software may only be used under the terms of a valid, current, /\r\n/ end user licence from KEIL for a compatible version of KEIL software /\r\n/ development tools. Nothing else gives you the right to use this software. /\r\n/****************************************************************************/\r\n\r\n#include <LPC21xx.H> / LPC21xx definitions /\r\n#include \"Timer.h\"\r\n\r\nvoid wait (void) { / wait function /\r\n unsigned long i;\r\n\r\n i = timeval;\r\n while ((i + 10) != timeval); / wait 100ms /\r\n}\r\n\r\nint main (void) {\r\n unsigned int j; / LED var /\r\n\r\n IODIR1 = 0xFF0000; / P1.16..23 defined as Outputs /\r\n\r\n init_timer();\r\n\r\n while (1) { / Loop forever /\r\n for (j = 0x010000; j < 0x800000; j <<= 1) { / Blink LED 0,1,2,3,4,5,6 /\r\n IOSET1 = j; / Turn on LED /\r\n wait (); / call wait function /\r\n IOCLR1 = j; / Turn off LED /\r\n }\r\n for (j = 0x800000; j > 0x010000; j >>=1 ) { / Blink LED 7,6,5,4,3,2,1 /\r\n IOSET1 = j; / Turn on LED /\r\n wait (); / call wait function /\r\n IOCLR1 = j; / Turn off LED /\r\n }\r\n }\r\n}\r\n" }, { "alpha_fraction": 0.5780802369117737, "alphanum_fraction": 0.6855300664901733, "avg_line_length": 19.84375, "blob_id": "e1341f743c632927efa6cb16c9dd4b9cec39b021", "content_id": "008c224641e2fb349e794c87e07a5c920a1523f3", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1396, "license_type": "no_license", "max_line_length": 134, "num_lines": 64, "path": "/SOFT/UKU/2/sacred_sun.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"stdint.h\"\r\n#include \"sacred_sun.h\"\r\n#include \"uart0.h\"\r\n#include \"stdio.h\"\r\n\r\nchar portForSacredSunBatteryIsInitiated=0;\r\nchar sacredSunBatteryHndlPhase;\r\nchar liBatteryInBuff[400];\r\nchar sacredSunRequestPhase;\r\nshort sacredSunSilentCnt;\r\n\r\nvoid sacred_san_bat_hndl(void)\r\n{\r\n\r\nif(portForSacredSunBatteryIsInitiated==0)\r\n\t{\r\n\tUARTInit(0, 1200);\t/ baud rate setting /\r\n\tportForSacredSunBatteryIsInitiated=1;\r\n\t}\r\n\r\nsacredSunBatteryHndlPhase++;\r\n\r\nif(sacredSunBatteryHndlPhase==5)\r\n\t{\r\n\tchar sacredSunButteryOutBuff[]={0x7e,0x32,0x35,0x30,0x31,0x34,0x36,0x34,0x32,0x45,0x30,0x30,0x32,0x30,0x31,0x46,0x44,0x33,0x30,0x0d};\r\n\tuart_out_buff0(sacredSunButteryOutBuff,20);\r\n\tsacredSunRequestPhase=0;\r\n\r\n\tif(sacredSunSilentCnt<10) sacredSunSilentCnt++;\r\n\t\r\n\t}\r\nelse if(sacredSunBatteryHndlPhase==10)\r\n\t{\r\n\tchar sacredSunButteryOutBuff[]={0x7e,0x32,0x35,0x30,0x31,0x34,0x36,0x34,0x34,0x45,0x30,0x30,0x32,0x30,0x31,0x46,0x44,0x32,0x45,0x0d};\r\n\tuart_out_buff0(sacredSunButteryOutBuff,20);\r\n\tsacredSunRequestPhase=1;\r\n\tsacredSunBatteryHndlPhase=0;\r\n\r\n\tif(sacredSunSilentCnt<10) sacredSunSilentCnt++;\r\n\r\n\t}\r\n\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nshort ascii2halFhex(char in)\r\n{\r\nif(isalnum(in))\r\n\t{\r\n\tif(isdigit(in))\r\n\t\t{\r\n\t\treturn (short)(in-'0');\r\n\t\t}\r\n\tif(islower(in))\r\n\t\t{\r\n\t\treturn (short)(in-'a'+10);\r\n\t\t}\r\n\tif(isupper(in))\r\n\t\t{\r\n\t\treturn (short)(in-'A'+10);\r\n\t\t}\r\n\t}\r\n}" }, { "alpha_fraction": 0.2514970004558563, "alphanum_fraction": 0.28742516040802, "avg_line_length": 39.75, "blob_id": "4525016ec4a817f71139e21688b75b53026c8d45", "content_id": "f7c0035631d97489a1cd1b21636b169e7b3d062d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 167, "license_type": "no_license", "max_line_length": 49, "num_lines": 4, "path": "/SOFT/UKU/RKI/bat_driver.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "//-----------------------------------------------\r\nvoid rs485_bat_driver(void);\r\n//-----------------------------------------------\r\nvoid rs485_bat_driver_init(void);\r\n" }, { "alpha_fraction": 0.5564655065536499, "alphanum_fraction": 0.6281608939170837, "avg_line_length": 28.49576187133789, "blob_id": "c709d6817630144aa0b67dc423649dec71192181", "content_id": "c2287e0f9d0cea82a6fd3303c8b7bd8e797ca382", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "JavaScript", "length_bytes": 7579, "license_type": "no_license", "max_line_length": 420, "num_lines": 236, "path": "/DOCs/ФСО/[email protected] Входящие Message_files/scripts.js.Без названия", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "function submit_search( ) {\n\n\tif ($('#act').val() == '1') {\n\t\tvar mode;\n\t\tif ( $('#web').attr('checked') ) {\n\t\t\tmode = $('#web').val();\n\t\t}\n\t\telse if ( $('#city').attr('checked') ) {\n\t\t\tmode = $('#city').val();\n\t\t}\n\t\telse if ( $('#ngs').attr('checked') ) {\n\t\t\tmode = $('#ngs').val();\n\t\t}\n\t\telse {\n\t\t\tdocument.frm.submit();\n\t\t\treturn true;\n\t\t}\n\n\t\t$('#mode').val(mode);\n\t\t$('#q').val($('#search_str').val());\n\n\t\tdocument.ngs_poisk.submit();\n\t\treturn false;\n\t}\n\telse {\n\t\treturn true;\n\t}\n}\n\nfunction clear_search_form() {\n\t$('#search_str').val('');\n\n\tif ( $('#email').attr('checked') ) {\n\t\tdocument.frm.submit();\n\t\treturn true;\n\t}\n\n\t$('#search_str').focus();\n}\n\nfunction del_folder(n) {\n\treturn confirm ('Вы подтверждаете удаление папки \\''+n+'\\'?');\n}\n\nfunction clean_folder(n) {\n\treturn confirm ('Вы подтверждаете удаление всех писем из папки \\''+n+'\\'?');\n}\n\nfunction del_mess() {\n\tdocument.getElementById(\"butn_del\").click();\n}\n\nfunction clickSpamButton( spam ) {\n\n\tif (document.getElementById('butn_spam').disabled ) {\n\t\treturn false;\n\t}\n\tif ( spam ) {\n\t\tif (!confirm(\"Спам - это сообщения, присылаемые Вам без Вашего согласия, содержащие, как правило, рекламу, коммерческие предложения, бесcмысленный набор слов или символов. Рассылки и уведомления, полученные с сайтов, на которых Вы зарегистрированы, как правило, не являются спамом.\\n\\nВы уверены, что выбранные Вами сообщения являются спамом?\")) {\n\t\t\treturn false;\n\t\t}\n\t}\n\n\tdocument.frm.action = 'spam/';\n\tdocument.getElementById('butn_spam').disabled = 'disabled';\n\tdocument.frm.submit();\n}\n\nfunction msg_ch(f, ch, n) {\n\tvar i = 0;\n\tif (f.elements['Msg'].length) {\n\t\tfor (i = 0; i < f.elements['Msg'].length; i++) {\n\t\t\tf.elements['Msg'][i].checked = ch;\n\t\t\tif (ch == 'checked') {\n\t\t\t\tf.elements['Msg'][i].nextSibling.value = f.elements['Msg'][i].value;\n\t\t\t}\n\t\t\telse {\n\t\t\t\tf.elements['Msg'][i].nextSibling.value = '';\n\t\t\t}\n\t\t}\n\t} else {\n\t\tf.elements['Msg'].checked = ch;\n\n\t\tif (ch == 'checked') {\n\t\t\tf.elements['Msg'].nextSibling.value = f.elements['Msg'].value;\n\t\t}\n\t\telse {\n\t\t\tf.elements['Msg'].nextSibling.value = '';\n\t\t}\n\t}\n\tif (n == 'checkbox')\n\t\tf.checkbox1.checked = ch;\n\telse\n\t\tf.checkbox.checked = ch;\n\tdocument.getElementById('add_operation').style.display = (ch)?'block':'none';\n\tdocument.getElementById('butn_del').disabled = (ch)?'':'disabled';\n\tdocument.getElementById('link_del').disabled = (ch)?'':'disabled';\n\t$('#butn_spam').attr('disabled', (ch)?'':'disabled');\n\t$('#link_spam').attr('disabled', (ch)?'':'disabled');\n}\n\nfunction msg_ch2(f, ch) {\n\tvar i = 0;\n\tvar t = 0;\n\tif (f.elements['Msg'].length) {\n\t\tfor (i = 0; i < f.elements['Msg'].length; i++) {\n\t\t\tif (f.elements['Msg'][i].checked) {\n\t\t\t\tf.elements['Msg'][i].nextSibling.value = f.elements['Msg'][i].value;\n\t\t\t\tt = 1;\n\t\t\t}\n\t\t\telse {\n\t\t\t\tf.elements['Msg'][i].nextSibling.value = '';\n\t\t\t}\n\t\t}\n\t} else {\n\t\tif (f.elements['Msg'].checked) {\n\t\t\tf.elements['Msg'].nextSibling.value = f.elements['Msg'].value;\n\t\t\tt = 1;\n\t\t}\n\t\telse {\n\t\t\tf.elements['Msg'].nextSibling.value = '';\n\t\t}\n\t}\n\tdocument.getElementById('add_operation').style.display = (t)?'block':'none';\n\tdocument.getElementById('butn_del').disabled = (t)?'':'disabled';\n\tdocument.getElementById('link_del').disabled = (t)?'':'disabled';\n\n\t$('#butn_spam').attr('disabled', (ch)?'':'disabled');\n\t$('#link_spam').attr('disabled', (ch)?'':'disabled');\n\n}\n\n\n/* New message /\nfunction addinfo() {\n\tvar msg;\n\tvar div = document.getElementById('divaddinfo');\n\tvar a = document.getElementById('addinfo');\n\tvar s = div.style.display;\n\tif (s == 'block') {\n\t\ts = 'none';\n\t\tmsg = 'показать дополнительные параметры';\n\t} else {\n\t\ts = 'block';\n\t\tmsg = 'скрыть дополнительные параметры';\n\t}\n\tdiv.style.display = s;\n\ta.innerText = msg;\n\treturn false;\n}\n\nfunction set_mail (f, o) {\n\tif (f.Book.selectedIndex >= 0) {\n\t\tobj = f.elements[''+o];\n\t\tif (obj.value != '') {\n\t\t\tobj.value += ', '+f.Book.options[f.Book.selectedIndex].text;\n\t\t} else {\n\t\t\tobj.value = f.Book.options[f.Book.selectedIndex].text;\n\t\t}\n\t}\n}\n\nfunction check(){\n\tvar s=document.getElementById('write').value;\n\ts=s.replace(/[\\uE000-\\uF8FF\\u0098]+/g,'');\n\tvar coding=document.getElementById('desiredCharset').value;\n\tvar sim_win = /[^\\u0001-~а-яА-Я\\u0402\\u0403\\u201A\\u0453\\u201E\\u2026\\u2020\\u2021\\u20AC\\u2030\\u0409\\u2039\\u040A\\u040C\\u040B\\u040F\\u0452\\u2018\\u2019\\u201C\\u201D\\u2022\\u2013\\u2014\\u2122\\u0459\\u203A\\u045A\\u045C\\u045B\\u045F\\u00A0\\u040E\\u045E\\u0408\\u00A4\\u0490\\u00A6\\u00A7\\u0401\\u00A9\\u0404\\u00AB\\u00AC\\u00AE\\u0407\\u00B0\\u00B1\\u0406\\u0456\\u0491\\u00B5\\u00B6\\u00B7\\u0451\\u2116\\u0454\\u00BB\\u0458\\u0405\\u0455\\u0457]+/;\n\tvar sim_koi = /[^\\u0001-~а-яА-Я\\u2500\\u2502\\u250C\\u2510\\u2514\\u2518\\u251C\\u2524\\u252C\\u2534\\u253C\\u2580\\u2584\\u2588\\u258C\\u2590\\u2591\\u2592\\u2593\\u2320\\u25A0\\u2219\\u221A\\u2248\\u2264\\u2265\\u00A0\\u2321\\u00B0\\u00B2\\u00B7\\u00F7\\u2550\\u2551\\u2552\\u0451\\u2553\\u2554\\u2555\\u2556\\u2557\\u2558\\u2559\\u255A\\u255B\\u255C\\u255D\\u255E\\u255F\\u2560\\u2561\\u0401\\u2562\\u2563\\u2564\\u2565\\u2566\\u2567\\u2568\\u2569\\u256A\\u256B\\u256C\\u00A9]+/;\n\tif (coding=='KOI8-R') var regex = sim_koi;\n\telse if (coding=='windows-1251') var regex = sim_win;\n\telse return true;\n\tif (regex.test(s)){\n\t\tvar result=Array();\n\t\tvar n=0;\n\t\twhile (regex.exec(s)!=null){\n\t\t\tvar arr=regex.exec(s);\n\t\t\tvar e=new RegExp(arr[0],'g');\n\t\t\ts=s.replace(e,'');\n\t\t\tresult[n]=arr[0];\n\t\t\tn=n+1;\n\t\t}\n\t\tif (result.length==1){\n\t\t\tvar mess=\"Символ: \"+result.join(\" \")+\" не может быть отправлен в кодировке \"+document.getElementById('desiredCharset').value+\".\\n Изменить кодировку письма на Универсальную (utf8) и отправить?\";\n\t\t}else var mess=\"Символы: \"+result.join(\" \")+\" не могут быть отправлены в кодировке \"+document.getElementById('desiredCharset').value+\".\\n Изменить кодировку письма на Универсальную (utf8) и отправить?\";\n\t\tif (confirm(mess)){\n\t\t\tdocument.getElementById('desiredCharset').value = \"utf-8\";\n\t\t\treturn true;\n\t\t}\n\t\treturn false;\n\t}\n\n}\n\n/ website */\nfunction file_ch(f, ch) {\n\tvar i = 0;\n\tif (f.elements['folder']) {\n\tif (f.elements['folder'].length) {\n\t\tfor (i = 0; i < f.elements['folder'].length; i++) {\n\t\t\tf.elements['folder'][i].checked = ch;\n }\n\t} else {\n\t\tf.elements['folder'].checked = ch;\n\t}\n\t}\n\tvar i = 0;\n\tif(f.elements['file']) {\n\tif (f.elements['file'].length) {\n\t\tfor (i = 0; i < f.elements['file'].length; i++) {\n\t\t\tf.elements['file'][i].checked = ch;\n }\n\t} else {\n\t\tf.elements['file'].checked = ch;\n\t}\n\t}\n\n}\n\nvar on_domain = 'ngs.ru.d';\n\nfunction save_in_cookie( name, value ) {\n \t$.cookie( name, value, {expires: 8640000, domain: on_domain, path: '/'} );\n}\n\n$(document).ready( function() {\n\t$('#search_str').focus();\n\n //удаляем пустой блок с текстовой рекламой (левая колонка)\n if (jQuery(\".js-text-adv-box\").length) {\n jQuery(\".js-text-adv-box\").each(function() {\n if (jQuery(this).find(\".js-text-adv-links-box\").length && jQuery(this).find(\".js-text-adv-links-box\").children().length > 1) {\n jQuery(this).show();\n }\n });\n }\n})" }, { "alpha_fraction": 0.6401869058609009, "alphanum_fraction": 0.7056074738502502, "avg_line_length": 24.75, "blob_id": "5416fb38eb2e883bef573dd841136b1ad67af205", "content_id": "a2b24140d80e334651b3887bb8ab477e51cf1120", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 214, "license_type": "no_license", "max_line_length": 34, "num_lines": 8, "path": "/SOFT/UKU/2/curr_version.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"curr_version.h\"\r\n\r\nconst short HARDVARE_VERSION = 10;\r\nconst short SOFT_VERSION = 19;\r\nconst short BUILD = 849;\r\nconst short BUILD_YEAR = 2021;\r\nconst short BUILD_MONTH = 6;\r\nconst short BUILD_DAY = 22;\r\n" }, { "alpha_fraction": 0.5949119329452515, "alphanum_fraction": 0.6878669261932373, "avg_line_length": 25.45945930480957, "blob_id": "6919e778f46821f10ce579174df7bcff29765d87", "content_id": "e979a4fdfd9f06082c7fa55e584387687d3ac4f1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1022, "license_type": "no_license", "max_line_length": 64, "num_lines": 37, "path": "/SOFT/UKU/Олег-2021.02.12/sntp.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\n#define PORT_NUM 1001\r\n\r\n#define SNTP_IP1 88\r\n#define SNTP_IP2 147\r\n#define SNTP_IP3 254\r\n#define SNTP_IP4 230\r\n//#define GMT 7L\r\n\r\n\r\nextern U8 socket_udp;\r\nextern U16 udp_callback_cnt,udp_callback_cnt1;\r\nextern U8 Rem_IP[4];\r\nextern const int NTP_PACKET_SIZE;\r\nextern U16 udp_callback_plazma[12];\r\nextern U16 day_of_year;\r\nextern U32 full_days_since_2000_01_01;\r\nextern U32 curr_days_since_2000_01_01;\r\nextern U32 sec_after_2000_01_01;\r\nextern U16 day_after_this_month;\r\nextern const U16 days_of_month[];\r\nextern U16\tthis_year;\r\nextern long tempL;\r\nextern U32 day_after_this_year;\r\nextern U16 this_month;\r\nextern U16 day_of_month;\r\nextern U32 sec_in_this_day;\r\nextern U16 hour_in_this_day;\r\nextern U16 min_in_this_hour;\r\nextern U16 sec_in_this_min;\r\nextern U16 time_sinc_hndl_req_cnt;\r\nextern U32 time_sinc_hndl_main_cnt;\r\n\r\nextern char sntp_plazma;\r\n\r\nU16 udp_callback (U8 soc, U8 rip, U16 rport, U8 buf, U16 len);\r\nvoid sntp_requ (void);\r\nvoid time_sinc_hndl(void);\r\n\r\n\r\n" }, { "alpha_fraction": 0.5971329808235168, "alphanum_fraction": 0.710825502872467, "avg_line_length": 22.059524536132812, "blob_id": "f0877e0dc00a92d94963a899b5dda2890f679680", "content_id": "a41675c182867bce4f4912bf2d358373b983eb95", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 2037, "license_type": "no_license", "max_line_length": 49, "num_lines": 84, "path": "/SOFT/UKU/2/cmd.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "//-----------------------------------------------\r\n// Символы передач\r\n#define REGU 0xf5\r\n#define REGI 0xf6\r\n#define GetTemp 0xfc\r\n#define TVOL0 0x75\r\n#define TVOL1 0x76\r\n#define TVOL2 0x77\r\n#define TVOL3 0x78\r\n#define TVOL4 0x79\r\n#define TVOL5 0x7A\r\n#define TVOL6 0x7A\r\n#define TVOL7 0x7A\r\n#define TTEMPER\t0x7c\r\n#define CSTART 0x1a\r\n#define CMND\t0x16\r\n#define Blok_flip\t0x57\r\n#define END \t0x0A\r\n#define QWEST\t0x25\r\n#define IM\t0x52\r\n#define ADD_KF 0x60\r\n#define SUB_KF 0x61\r\n#define Zero_kf0 0x63\r\n#define Zero_kf2 0x64\r\n#define MEM_KF 0x62\r\n#define PUT_BDR 0x69\r\n#define BLKON 0x80\r\n#define BLKOFF 0x81\r\n#define Put_reg 0x90\r\n#define PUTID 0x91\r\n#define PUTTM1 0xDA\r\n#define PUTTM2 0xDB\r\n#define PUTTM1INV2 0xDD\r\n#define PUTTM2INV2 0xDE\r\n#define PUTTM3INV2 0xDf\r\n#define PUTTM_NET 0xEA\r\n#define PUTTM_NET1 0xEB\r\n#define PUTTM_IBATMETER \t0xD1\r\n#define PUTTM_IBATMETER2 \t0xD2\r\n#define GETTM_IBATMETER \t0x1D\r\n#define GETTM_IBATMETER2 \t0x2D\r\n#define PUTTM 0xDE\r\n#define GETTM 0xED \r\n#define GETTM_INV 0xFD \r\n#define GET_MAKB 0xE1 \r\n#define PUTTM_MAKB1\t\t0xE2\r\n#define PUTTM_MAKB2\t\t0xE3\r\n#define PUTTM_MAKB3\t\t0xE4\r\n#define KLBR 0xEE\r\n#define KLBR_MAKB 0xEF\r\n#define MEM_KF 0x62 \r\n#define MEM_KF1 0x26\r\n#define ALRM_RES 0x63\r\n#define VENT_RES 0x64\r\n#define PUTTM1BYPS 0xD8\r\n#define PUTTM2BYPS 0xD9\r\n#define PUT_LB_TM1 \t0x18\r\n#define PUT_LB_TM2 \t0x78\r\n#define PUT_LB_TM3 \t0x38\r\n#define PUT_LB_TM4 \t0x48\r\n#define PUT_LB_TM5 \t0x58\r\n#define PUT_LB_TM6 \t0x68\r\n#define PUT_ZTT_TM1 \t0xC1\r\n#define PUT_ZTT_TM2 \t0xC2\r\n#define PUT_ZTT_TM3 \t0xC3\r\n#define PUT_ZTT_TM4 \t0xC4\r\n#define PUT_ZTT_TM5 \t0xC5\r\n#define PUT_ZTT_TM6 \t0xC6\r\n#define PUT_ZTT_TM7 \t0xC7\r\n#define PUT_ZTT_TM8 \t0xC8\r\n#define PUT_STARK_TM1 \t0xB1\r\n#define PUT_STARK_TM2 \t0xB2\r\n#define PUT_STARK_TM3 \t0xB3\r\n#define PUT_STARK_TM4 \t0xB4\r\n#define PUT_STARK_TM5 \t0xB5\r\n#define PUT_STARK_TM6 \t0xB6\r\n#define PUT_STARK_TM7 \t0xB7\r\n#define PUT_STARK_TM8 \t0xB8\r\n#define PUT_STARK_TM9 \t0xB9\r\n//o_12_s\r\n#define PUT_NET_IN\t\t0xE6\r\n#define PUT_RKI\t\t\t0xE7\r\n#define PUT_LVBD\t\t0xE8\r\n//o_12_e\r\n\r\n" }, { "alpha_fraction": 0.35530146956443787, "alphanum_fraction": 0.528274416923523, "avg_line_length": 16.909448623657227, "blob_id": "87f108f7db6e0882b667c9a57df044c8650907c6", "content_id": "4a4bb0d48d949f133f773794d66635bdc38d2250", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 4819, "license_type": "no_license", "max_line_length": 130, "num_lines": 254, "path": "/SOFT/UKU/2rki/ad7705.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#include \"ad7705.h\"\r\n#include \"25lc640.h\"\r\n#include <LPC17xx.H>\r\n//#include \"global_define.h\"\r\n#include \"main.h\"\r\n\r\nunsigned short ad7705_res1,ad7705_res2;\r\nunsigned short ad7705_buff[2][16],ad7705_buff_[2];\r\nunsigned short ad7705_res;\r\nchar b7705ch,ad7705_wrk_cnt;\r\nunsigned short cnt_ad7705_vis,cnt_ad7705_vis_wrk;\r\nsigned short ad7705_plazma;\r\n\r\n\r\n//----------------------------------------------- \r\n//настройка SPI1\r\nvoid spi1_ad7705_config(void)\r\n{\r\nSET_REG( LPC_PINCON->PINSEL0, 3, 152, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 0, (16-16)2, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 3, (17-16)2, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 3, (18-16)2, 2); \r\n/\r\nS1SPCCR=100;\r\nS1SPCR=0x3f; /\r\n\r\n\r\nLPC_SPI->SPCCR=20;\r\nLPC_SPI->SPCR=0x38;\r\n}\r\n//-----------------------------------------------\r\nvoid ad7705_reset(void)\r\n{\r\n//short i;\r\n///IO1DIR\|=(1UL<<23);\r\nLPC_GPIO2->FIODIR\|=(1<<13);\r\n///IO1CLR\|=(1UL<<23);\r\nLPC_GPIO2->FIOCLR\|=(1<<13);\r\ndelay_ms(10);\r\n///IO1SET\|=(1UL<<23);\r\nLPC_GPIO2->FIOPIN\|=(1<<13);\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid ad7705_write(char in)\r\n{\r\nchar i;\r\n///IO0DIR\|=(1UL<<11);\r\nLPC_GPIO0->FIODIR\|=(1UL<<11);\r\n//IO0SET\|=(1UL<<11);\r\nLPC_GPIO0->FIOPIN\|=(1UL<<11);\r\nspi1_ad7705_config();\r\n///IO0CLR\|=(1UL<<11);\r\nfor(i=0;i<5;i++)LPC_GPIO0->FIOPIN&=~(1UL<<11);\r\nspi1(in);\r\n///for(i=0;i<5;i++)IO0CLR\|=(1UL<<11);\r\n///IO0SET\|=(1UL<<11);\r\nfor(i=0;i<5;i++)LPC_GPIO0->FIOPIN&=~(1UL<<11);\r\nfor(i=0;i<5;i++)LPC_GPIO0->FIOPIN\|=(1UL<<11);\r\nspi1_unconfig(); \r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid ad7705_read(char num)\r\n{\r\n//char temp;\r\nchar i;\r\n \r\nLPC_GPIO0->FIODIR\|=(1UL<<11);\r\n\r\nLPC_GPIO0->FIOPIN\|=(1UL<<11);\r\nspi1_ad7705_config();\r\n\r\n///IO0CLR\|=(1UL<<11);\r\nfor(i=0;i<5;i++)LPC_GPIO0->FIOPIN&=~(1UL<<11);\r\nad7705_res=0;\r\nif(num==1) \r\n\t{\r\n\tad7705_res=spi1(0);\r\n\t}\r\nelse if(num==2)\r\n\t{\r\n\t(((char)(&ad7705_res))+1)=spi1(0); \r\n\t(((char)(&ad7705_res)))=spi1(0);\r\n\t}\t \r\n\r\n///IO0CLR\|=(1UL<<11);\r\n\r\nfor(i=0;i<5;i++)LPC_GPIO0->FIOPIN&=~(1UL<<11);\r\nfor(i=0;i<5;i++)LPC_GPIO0->FIOPIN\|=(1UL<<11);\r\n\r\nspi1_unconfig(); \r\n}\r\n\r\n//-----------------------------------------------\r\nvoid ad7705_drv(void)\r\n{\r\n//__disable_irq();\r\n\r\n\r\n\tad7705_write(0x08);\r\n\tad7705_read(1);\r\n\r\n\r\n///IO0DIR\|=(1UL<<11);\r\n///IO0DIR&=~(1UL<<10);\r\n\r\nif(!(ad7705_res&0x0001))\r\n\t{\r\n\tad7705_write(0x38+b7705ch);\r\n\tad7705_read(2);\r\n\t//ad7705_buff[0][0]=ad7705_res;\r\n\r\n\tad7705_plazma++;\r\n\t\r\n\r\n\tif(!b7705ch)\r\n\t\t{\r\n\t\tad7705_buff[0][ad7705_wrk_cnt]=ad7705_res;\r\n\t\tad7705_res1=ad7705_res;\r\n\t\t}\r\n\telse if(b7705ch) \r\n\t\t{\r\n\t\tad7705_buff[1][ad7705_wrk_cnt]=ad7705_res;\r\n\t\tad7705_res2=ad7705_res;\r\n\t\t} \r\n\r\n\tif(b7705ch)\r\n\t\t{\r\n\t\tb7705ch=0;\r\n\t\tad7705_wrk_cnt++;\r\n\t\tif(ad7705_wrk_cnt>=16)ad7705_wrk_cnt=0;\r\n\t\t\r\n\t\tif((ad7705_wrk_cnt&0x01)==0)\r\n\t\t\t{\r\n\t\t\tunsigned temp_U;\r\n\t\t\tchar i,ii;\r\n\r\n\t\t\tfor(i=0;i<2;i++)\r\n\t\t\t\t{\r\n\t\t\t\ttemp_U=0;\r\n\t\t\t\tfor(ii=0;ii<16;ii++)\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttemp_U+=(unsigned long)ad7705_buff[i][ii];\r\n\t\t\t\t\t}\r\n\t\t\t\tad7705_buff_[i]=(unsigned short)(temp_U>>4);\r\n\t\t\t\t}\t\r\n\t\t\t} \r\n\t\t}\t\r\n\t\t\r\n\t\t\r\n\telse b7705ch=1;\r\n\t\r\n\t//b7705ch=1;\r\n \r\n\tif(!b7705ch) ad7705_write(0x20);\r\n\telse if(b7705ch) ad7705_write(0x21);\r\n\r\n\tad7705_write(BIN8(1101)); \r\n\r\n\tif(!b7705ch) ad7705_write(0x10);\r\n\telse if(b7705ch) ad7705_write(0x11);\r\n\r\n\tad7705_write(0x44);\t\r\n\t\r\n\t}\r\n/\r\nad7705_write(0x20);\r\nad7705_write(BIN8(1101));\r\nad7705_write(0x10);\r\nad7705_write(0x44);\r\n/\r\n//\t__enable_irq();\r\n\r\n\r\n/\r\nif(((ad7705_res1&0x0fff)==0x0000)\|\|((ad7705_res1&0x0fff)==0x0fff)\|\|((ad7705_res2&0x0fff)==0x0000)\|\|((ad7705_res2&0x0fff)==0x0fff))\r\n{\r\nif(cnt_ad7705_vis<50)\r\n\t{\r\n\tcnt_ad7705_vis++;\r\n\tif(cnt_ad7705_vis>=50) cnt_ad7705_vis_wrk=50;\r\n\t\t\r\n\t}\r\n}\r\nelse cnt_ad7705_vis=0;\r\n\r\nif(cnt_ad7705_vis_wrk)\r\n\t{\r\n\tcnt_ad7705_vis_wrk--;\r\n\r\n\tif(cnt_ad7705_vis_wrk==30)\r\n\t\t{\r\n\t\tad7705_reset();\r\n\t\tad7705_write(0x20);\r\n\t\tad7705_write(BIN8(1101)); \r\n\t\tad7705_write(0x10);\r\n\t\tad7705_write(0x44); \r\n\t }\r\n\telse if(cnt_ad7705_vis_wrk==20)\r\n\t\t{ \r\n\t\tad7705_reset();\r\n\t\tad7705_write(0x20);\r\n\t\tad7705_write(BIN8(1101)); \r\n\t\tad7705_write(0x10);\r\n\t\tad7705_write(0x44); \r\n\t }\t\r\n\telse if(cnt_ad7705_vis_wrk==10)\r\n\t\t{ \r\n\t\tad7705_reset();\r\n\t\tad7705_write(0x20);\r\n\t\tad7705_write(BIN8(1101)); \r\n\t\tad7705_write(0x10);\r\n\t\tad7705_write(0x44); \r\n\t }\r\n\telse if(cnt_ad7705_vis_wrk==2)\r\n\t\t{\r\n\r\n\t }\t\t \t\t \r\n\t} \r\nelse \r\n\t{\r\n\r\n\t}/\t\r\n\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid ad7705_drv_(void)\r\n{\r\nb7705ch++;\r\nb7705ch&=0x0001;\r\n\r\nad7705_write(0x20+b7705ch);\r\nad7705_write(BIN8(1101));\r\nad7705_write(0x10+b7705ch);\r\nad7705_write(0x44);\r\n\r\n\r\nad7705_drv_loop:\r\n\r\nad7705_write(0x08);\r\nad7705_read(1);\r\n\r\nif(ad7705_res&0x0001) goto ad7705_drv_loop;\r\nelse \r\n\t{\r\n\tad7705_write(0x38+b7705ch);\r\n\tad7705_read(2);\r\n\tad7705_plazma++;\r\n\t}\r\n\t\r\n}\r\n\r\n \r\n\r\n" }, { "alpha_fraction": 0.805343508720398, "alphanum_fraction": 0.8206107020378113, "avg_line_length": 30.5, "blob_id": "2b214d49f1dd01ab4684b4f2695c2f76d7f0b64a", "content_id": "b177a45482ac8052206ecabe2dd06fe33a74e1e9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 262, "license_type": "no_license", "max_line_length": 47, "num_lines": 8, "path": "/SOFT/UKU/2/sacred_sun.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\nextern char portForSacredSunBatteryIsInitiated;\r\nextern char sacredSunBatteryHndlPhase;\r\nextern char liBatteryInBuff[400];\r\nextern char sacredSunRequestPhase;\r\nextern short sacredSunSilentCnt;\r\n\r\nvoid sacred_san_bat_hndl(void);\r\nshort ascii2halFhex(char in);\r\n" }, { "alpha_fraction": 0.5251637697219849, "alphanum_fraction": 0.673764169216156, "avg_line_length": 26.591489791870117, "blob_id": "e856d345211dc14c181b3d4646ad964266eff1a6", "content_id": "ba786c2f0db23c2924781c62a5ae3bd572315bd4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 7404, "license_type": "no_license", "max_line_length": 155, "num_lines": 235, "path": "/SOFT/UKU/2/sc16is7xx.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "\r\n#include \"sc16is7xx.h\"\r\n#include <LPC17xx.H>\r\n#include \"main.h\"\r\n#include \"modbus.h\"\r\n\r\nchar sc16is700ByteAvailable;\r\nchar sc16is700TxFifoLevel;\r\nchar tx_buffer_sc16is700[TX_BUFFER_SIZE_SC16IS700];//программный буфер передачи\r\nchar tx_wr_index_sc16is700;//указатель записи в программный буфер передачи\r\nchar tx_rd_index_sc16is700;//указатель чтения из программного буфера передачи\r\nchar sc16is700TxFifoEmptyCnt; //Временной счетчик свободности ФИФО передачи\r\nchar sc16is700TxPossibleFlag;//Флаг возможности передачи\r\nchar sc16is700RecieveDisableFlag;\r\n\r\n\r\nchar sc16is700_spi_init_cnt;\r\n\r\n//----------------------------------------------- \r\n//настройка SPI1\r\nvoid sc16is700_spi_init(void)\r\n{\r\nSET_REG( LPC_PINCON->PINSEL0, 0, 02, 2);\r\nSET_REG( LPC_PINCON->PINSEL0, 3, 152, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 0, (16-16)2, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 3, (17-16)2, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 3, (18-16)2, 2); \r\n/\r\nS1SPCCR=100;\r\nS1SPCR=0x3f; /\r\n\r\nLPC_SPI->SPCCR=40;\r\nLPC_SPI->SPCR=0x20;\r\n}\r\n\r\n//----------------------------------------------- \r\n//Отправка num байт из программного буфера передачи в sc16is700\r\nvoid sc16is700_wr_buff(char reg_num,char num)\r\n{\r\nshort i;\r\nsc16is700_spi_init();\r\ndelay_us(2);\r\nsc16is700_CS_ON \r\nspi1((reg_num&0x0f)<<3);\r\nfor (i=0;i<num;i++)spi1(tx_buffer_sc16is700[i]);\r\nsc16is700_CS_OFF\r\n}\r\n\r\nvoid sc16is700_wr_byte(char reg_num,char data)\r\n{\r\nsc16is700_spi_init();\r\ndelay_us(2);\r\nsc16is700_CS_ON\r\nspi1((reg_num&0x0f)<<3);\r\nspi1(data);\r\nsc16is700_CS_OFF\r\n}\r\n\r\n\r\nchar sc16is700_rd_byte(char reg_num)\r\n{\r\nchar out;\r\nsc16is700_spi_init();\r\ndelay_us(2);\r\nsc16is700_CS_ON\r\nspi1(((reg_num&0x0f)<<3)\|0x80);\r\nout = spi1(0xff);\r\nsc16is700_CS_OFF\r\nreturn out;\r\n}\r\n\r\nvoid sc16is700_init_(void)\r\n{\r\nsc16is700_wr_byte(CS16IS7xx_LCR, 0x80);\r\nsc16is700_wr_byte(CS16IS7xx_DLL, 0x41);\r\nsc16is700_wr_byte(CS16IS7xx_DLH, 0x00);\r\nsc16is700_wr_byte(CS16IS7xx_LCR, 0xBF);\r\nsc16is700_wr_byte(CS16IS7xx_EFR, 0X10);\r\nsc16is700_wr_byte(CS16IS7xx_LCR, 0x03);\r\nsc16is700_wr_byte(CS16IS7xx_FCR, 0x06);\r\nsc16is700_wr_byte(CS16IS7xx_FCR, 0x01);\r\nsc16is700_wr_byte(CS16IS7xx_EFCR, 0X30);\r\n//sc16is700_wr_byte(CS16IS7xx_DLH, 0x04);\r\n//sc16is700_wr_byte(CS16IS7xx_DLH, 0x04);\r\n//sc16is700_wr_byte(CS16IS7xx_DLH, 0x04);\r\n//sc16is700_wr_byte(CS16IS7xx_DLH, 0x04);\r\n//sc16is700_wr_byte(CS16IS7xx_DLH, 0x04);\r\n}\r\n\r\n\r\n\r\nvoid sc16is700_init(uint32_t baudrate)\r\n{\r\n\r\nunsigned char baud_h,baud_l;\r\n\r\nbaud_h = (char)((10000000U/16U/baudrate)>>8);\r\nbaud_l = (char)((10000000U/16U/baudrate));\r\n\r\nif(RS485_QWARZ_DIGIT==40)\r\n\t{\r\n\tbaud_h = (char)((40000000U/16U/baudrate)>>8);\r\n\tbaud_l = (char)((40000000U/16U/baudrate));\r\n\t} \r\nif(RS485_QWARZ_DIGIT==30)\r\n\t{\r\n\tbaud_h = (char)((30000000U/16U/baudrate)>>8);\r\n\tbaud_l = (char)((30000000U/16U/baudrate));\r\n\t}\r\n \r\n\r\nsc16is700_wr_byte(CS16IS7xx_LCR, 0x80);\r\nsc16is700_wr_byte(CS16IS7xx_DLL, baud_l);\r\nsc16is700_wr_byte(CS16IS7xx_DLH, baud_h);\r\nsc16is700_wr_byte(CS16IS7xx_LCR, 0xBF);\r\nsc16is700_wr_byte(CS16IS7xx_EFR, 0X10);\r\n\r\n/\r\n#ifdef UKU_ZVU\r\n\t\tif(MODBUS_PARITY==0) \t\t\r\n\t\t\t{\r\n\t\t\tchar temp;\r\n\t\t\ttemp=0x07;\r\n\t\t\ttemp&=0xc7;\r\n\t\t\tsc16is700_wr_byte(CS16IS7xx_LCR, temp);\r\n\t\t\t}\r\n\t\telse if(MODBUS_PARITY==1) \t\r\n\t\t\t{\r\n\t\t\tchar temp;\r\n\t\t\ttemp=0x07;\r\n\t\t\ttemp&=0xc7;\r\n\t\t\ttemp\|=0x08;\r\n\t\t\tsc16is700_wr_byte(CS16IS7xx_LCR, temp);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{ \r\n\t\t\tchar temp;\r\n\t\t\ttemp=0x07;\r\n\t\t\ttemp&=0xc7;\r\n\t\t\ttemp\|=0x18;\r\n\t\t\tsc16is700_wr_byte(CS16IS7xx_LCR, temp);\r\n\t\t\t} \r\n\r\n#endif /\r\n\r\nsc16is700_wr_byte(CS16IS7xx_LCR, 0x03);\r\nsc16is700_wr_byte(CS16IS7xx_FCR, 0x06);\r\nsc16is700_wr_byte(CS16IS7xx_FCR, 0x01);\r\nsc16is700_wr_byte(CS16IS7xx_EFCR, 0X30);\r\n//sc16is700_wr_byte(CS16IS7xx_DLH, 0x04);\r\n//sc16is700_wr_byte(CS16IS7xx_DLH, 0x04);\r\n//sc16is700_wr_byte(CS16IS7xx_DLH, 0x04);\r\n//sc16is700_wr_byte(CS16IS7xx_DLH, 0x04);\r\n//sc16is700_wr_byte(CS16IS7xx_DLH, 0x04);\r\n}\r\n\r\n/\r\nVoid SC16IS752_Init_ChA (void) // program channel A for SPI-UART\r\n{ // set 115200 baud, 8N1\r\nSPI_wr_752 (LCR, 0x80, 0); // 0x80 to program baud rate\r\nSPI_wr_752 (DLL, 0x08, 0); // 0x08 = 115.2K with X1 = 14.7456 MHz\r\nSPI_wr_752 (DLM, 0x00, 0); // divisor = 0x0008 for 115200 bps\r\nSPI_wr_752 (LCR, 0xBF, 0); // access EFR register\r\nSPI_wr_752 (EFR, 0X10, 0); // enable enhanced registers\r\nSPI_wr_752 (LCR, 0x03, 0); // 8 data bit, 1 stop bit, no parity\r\nSPI_wr_752 (FCR, 0x01, 0); // enable FIFO mode\r\nSPI_wr_752 (SPR, 'A', 0); // scratch pad = character A (0x41)\r\nSPI_wr_752 (IODIR, 0xFF, 0); // set GPIO [7:0] to output\r\n// (default: 0x00=input)\r\nSPI_wr_752 (IOSTATE, 0x00, 0); // set GPIO [7:0] to 0x00 (LEDs on)\r\nSPI_wr_752 (IER, 0x01, 0); // enable Rx data ready interrupt\r\n}/\r\n\r\n//----------------------------------------------- \r\n//Посылка байта через sc16is700\r\nvoid putchar_sc16is700(char out_byte)\r\n{\r\ntx_buffer_sc16is700[tx_wr_index_sc16is700]=out_byte;\nif (++tx_wr_index_sc16is700 == TX_BUFFER_SIZE_SC16IS700) tx_wr_index_sc16is700=0;\n}\r\n\r\n\n//----------------------------------------------- \r\n//Обработчик sc16is700\r\nvoid sc16is700_uart_hndl(void)\r\n{\r\n\r\nsc16is700ByteAvailable=sc16is700_rd_byte(CS16IS7xx_RXLVL); //Читаем состояние ФИФО приема микросхемы\r\n\r\nif(sc16is700ByteAvailable) //Если в приемном ФИФО\tмикросхемы есть данные\r\n\t{\r\n\tchar i;\r\n\tfor(i=0;(i<sc16is700ByteAvailable)&&(i<5);i++) //Читаем их пачками не больше 5 в программный буфер модбас\r\n\t\t{\r\n\t\tif(!sc16is700RecieveDisableFlag)\r\n\t\t\t{\r\n\t\t\tmodbus_rx_buffer[modbus_rx_buffer_ptr]=sc16is700_rd_byte(CS16IS7xx_RHR);\n\t\t\tmodbus_rx_buffer_ptr++;\n\t\t\tmodbus_timeout_cnt=0; //Запускаем таймер опознавания конца посылки \r\n\t\t\t//pvlk++;\r\n\t\t\t}\r\n\t\telse sc16is700_rd_byte(CS16IS7xx_RHR);\r\n\t\t}\r\n\t}\r\n\r\n\r\n\r\nsc16is700TxFifoLevel=sc16is700_rd_byte(CS16IS7xx_TXLVL);//Читаем состояние ФИФО передачи\r\n\r\nif(sc16is700TxFifoLevel!=64) sc16is700TxFifoEmptyCnt=0;//Если ФИФО не пустой обнуляем счетчик свободности ФИФО передачи\r\nif(sc16is700TxFifoLevel==64) //если ФИФО пустой то плюсуем счетчик если он меньше константы\r\n\t{\r\n\tif(sc16is700TxFifoEmptyCnt<SC16IS700TXFIFOEMPTYCNTMAX)sc16is700TxFifoEmptyCnt++;\r\n\t}\r\nif(sc16is700TxFifoEmptyCnt==SC16IS700TXFIFOEMPTYCNTMAX) sc16is700TxPossibleFlag=1;//Если счетчик сравнялся с константой поднимаем флаг возможности передачи\r\nelse sc16is700TxPossibleFlag=0;//Если не сравнялся - флаг сбрасываем.\r\n\r\n\r\nif((tx_wr_index_sc16is700)&&(tx_wr_index_sc16is700!=tx_rd_index_sc16is700)) //Если программный буфер передачи не пуст\r\n\t{\r\n\tif(sc16is700TxPossibleFlag)//проверяем возможность передачи\r\n\t\t{\r\n\t\t//char i;\r\n\t\t//for(;tx_rd_index_sc16is700++;tx_rd_index_sc16is700<=tx_wr_index_sc16is700)\r\n\t\t\t//{\r\n\t\tsc16is700RecieveDisableFlag=1;\r\n\t\tsc16is700_wr_buff(CS16IS7xx_THR, tx_wr_index_sc16is700);\r\n\t\t\t//}\r\n\t\ttx_wr_index_sc16is700=0;\r\n\t\t}\r\n\t}\r\n\r\nif((sc16is700_rd_byte(CS16IS7xx_LSR))&0x40)\tsc16is700RecieveDisableFlag=0;\r\n\r\n\r\n}\r\n" }, { "alpha_fraction": 0.8235294222831726, "alphanum_fraction": 0.8235294222831726, "avg_line_length": 32, "blob_id": "82fbb1d9e245bd2b03128de98103cb2822650891", "content_id": "34796be8d414fe48952bd6ad3c4cdbca8dc52120", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 34, "license_type": "no_license", "max_line_length": 32, "num_lines": 1, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/ips_sgep_gazprom.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\nvoid ipsSgepGazpromEeSets(void);" }, { "alpha_fraction": 0.7222222089767456, "alphanum_fraction": 0.7268518805503845, "avg_line_length": 24.75, "blob_id": "14ab17d06506ae491d7adebc303aa157a2117fd2", "content_id": "c85445e450fc0e93322b7be2150cb979a3f39894", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 216, "license_type": "no_license", "max_line_length": 46, "num_lines": 8, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/beep.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\nextern unsigned long beep_stat_temp,beep_stat;\r\nextern char beep_stat_cnt;\r\nextern char beep_cnt;\r\nextern char bU_BAT2REL_AV_BAT;\r\n\r\nvoid beep_drv(void);\r\nvoid beep_init(long zvuk,char fl);\r\nvoid beep_hndl(void);\r\n" }, { "alpha_fraction": 0.5902306437492371, "alphanum_fraction": 0.6797829270362854, "avg_line_length": 26.269229888916016, "blob_id": "c0eb98377906c2dcf0134c1cb137b265bcd57a79", "content_id": "6998bdeaa5eccbf6d166d61a7ff5d3f6c7347c5f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 737, "license_type": "no_license", "max_line_length": 90, "num_lines": 26, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/25lc640.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\n#define LC640_CS 20\r\n#define CS_ON LPC_GPIO0->FIODIR\|=(1UL<<LC640_CS);LPC_GPIO0->FIOCLR\|=(1UL<<LC640_CS);\r\n#define CS_OFF LPC_GPIO0->FIODIR\|=(1UL<<LC640_CS);LPC_GPIO0->FIOSET\|=(1UL<<LC640_CS);\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\nchar spi1(char in);\r\nvoid spi1_config(void);\r\nvoid spi1_config_mcp2515(void);\r\nvoid spi1_unconfig(void);\r\nvoid lc640_wren(void);\r\nchar lc640_rdsr(void);\r\nint lc640_read(int ADR);\r\nint lc640_read_int(int ADR);\r\nlong lc640_read_long(int ADR);\r\nvoid lc640_read_long_ptr(int ADR,char* out_ptr);\r\nvoid lc640_read_str(int ADR, char* ram_ptr, char num);\r\nchar lc640_write(int ADR,char in);\r\nchar lc640_write_int(short ADR,short in);\r\nchar lc640_write_long(int ADR,long in);\r\nchar lc640_write_long_ptr(int ADR,char* in);\r\n" }, { "alpha_fraction": 0.5845323801040649, "alphanum_fraction": 0.5949640274047852, "avg_line_length": 31.071428298950195, "blob_id": "27cad6994c010fe3b9047f97c00fe25d6ff640f9", "content_id": "fbfd10a6a72012db62becc388a736452949500ec", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2881, "license_type": "no_license", "max_line_length": 126, "num_lines": 84, "path": "/SOFT/UKU/2rki/0_release_UKU-220-IPS-termokompens.py", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\r\n\r\nimport re\r\nimport os\r\nimport shutil\r\nimport sys\r\n\r\n#targetDir = \"P:\\\\ПТЭСТ\\\\ИПС_ЗВУ\\\\\"\r\ntargetDir = \"P:\\\\Прошивки2018\\\\ИПС_ЗВУ\\\\\"\r\nsource_file = 'curr_version.c'\r\nsource_file1 = \".\\\\EXE\\\\UKU_220_IPS_TERMOKOMPENSAT.hex\"\r\n\r\nversion_string = 'const short HARDVARE_VERSION = {};'\r\nsubversion_string = 'const short SOFT_VERSION = {};'\r\nbuild_string = 'const short BUILD = {};'\r\nbuild_year_string = 'const short BUILD_YEAR = {};'\r\nbuild_month_string = 'const short BUILD_MONTH = {};'\r\nbuild_day_string = 'const short BUILD_DAY = {};'\r\n\r\nversion_re = re.compile(version_string.format('(\\d+)'))\r\nsubversion_re = re.compile(subversion_string.format('(\\d+)'))\r\nbuild_re = re.compile(build_string.format('(\\d+)'))\r\nbuild_year_re = re.compile(build_year_string.format('(\\d+)'))\r\nbuild_month_re = re.compile(build_month_string.format('(\\d+)'))\r\nbuild_day_re = re.compile(build_day_string.format('(\\d+)'))\r\n\r\n\r\nwith open(source_file) as f:\r\n for line in f:\r\n match = version_re.search(line)\r\n if match:\r\n version = match.group(1)\r\n match = subversion_re.search(line)\r\n if match:\r\n subversion = match.group(1)\r\n match = build_re.search(line)\r\n if match:\r\n build = match.group(1)\r\n match = build_year_re.search(line)\r\n if match:\r\n build_year = match.group(1)\r\n match = build_month_re.search(line)\r\n if match:\r\n build_month = match.group(1)\r\n mont=int(build_month)\r\n build_month = \"%02d\" % mont\r\n match = build_day_re.search(line)\r\n if match:\r\n build_day = match.group(1)\r\n d=int(build_day)\r\n build_day= \"%02d\" % d\r\n\r\ntargetDir_=targetDir+build_year+\"_\"+build_month+\"_\"+build_day+\"__\"+version+\".\"+subversion+\".\"+build\r\nprint(targetDir_)\r\n\r\ntry : os.mkdir(targetDir_)\r\nexcept FileExistsError :\r\n print (\"Папка уже существует\")\r\n input()\r\n #os.system(\"pause\")\r\n\r\ntarget_file=targetDir_+ \"\\\\ips_zvu_\"+\"_\"+build_year+\"_\"+build_month+\"_\"+build_day+\"__\"+version+\".\"+subversion+\".\"+build+\".hex\"\r\n\r\ntry : shutil.copy(source_file1,target_file)\r\nexcept Exception as err:\r\n print(err)\r\n\r\nmessageStr = input(\"Если хотите оставить комментарий в файле истории, \\n оставьте его здесь - \")\r\nif messageStr != '':\r\n print (messageStr)\r\n my_file = open(targetDir+ \"\\\\history.txt\", 'a')\r\n my_file.write(\"\\n \\n \\n\" +build_year+\"/\"+build_month+\"/\"+build_day+\" \"+version+\".\"+subversion+\".\"+build)\r\n my_file.write(\"\\n \\n\" + messageStr)\r\n my_file.close()\r\n\r\n \r\n\"\"\"\r\nfor param in sys.argv:\r\n print (param)\r\n\"\"\" \r\n\"\"\"\r\ntargetDir1 = targetDir+\"2018_05_30\"\r\nshutil.copy(\"test.hex\",targetDir1+\"\\\\efert\"+str(version)+\".\"+str(subversion)+\".\"+str(build)+\".hex\")\r\n\"\"\"\r\n\r\n" }, { "alpha_fraction": 0.37608030438423157, "alphanum_fraction": 0.414397656917572, "avg_line_length": 19.99283790588379, "blob_id": "6dffcd53cb9db63cbb964a24d50360cbd6ee6348", "content_id": "4f4c790ddd0fefdf5b5551b271380ec34f012a84", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 32359, "license_type": "no_license", "max_line_length": 96, "num_lines": 1536, "path": "/SOFT/UKU/2rki/common_func.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1252", "text": "#include \"common_func.h\"\n#include \"ret.h\"\n#include \"eeprom_map.h\"\n#include \"25lc640.h\"\n#include \"main.h\"\n#include <LPC17xx.H>\n\n\n\n\n//-----------------------------------------------\nsigned short abs(signed short in)\n{\nif(in<0)in=-in;\nreturn in;\n}\n\n//-----------------------------------------------\nvoid clr_scrn(void)\n{\nchar i;\nfor (i=0;i<LCD_SIZE;i++)\n\t{\n\tlcd_buffer[i]=' ';\n\t}\n}\n\n//-----------------------------------------------\nchar find(char xy)\n{\nchar i=0;\ndo i++;\nwhile ((lcd_buffer[i]!=xy)&&(i<LCD_SIZE));\n//if(i==(LCD_SIZE)) i++;\nreturn i;\n}\n\n\n//-----------------------------------------------\nvoid bin2bcd_int(unsigned int in)\n{\n\nchar i=5;\nfor(i=0;i<5;i++)\n\t{\n\tdig[i]=in%10;\n\tin/=10;\n\t} \n}\n//-----------------------------------------------\nvoid bcd2lcd_zero(char sig)\n{\nchar i;\nzero_on=1;\nfor (i=5;i>0;i--)\n\t{\n\tif(zero_on&&(!dig[i-1])&&(i>sig))\n\t\t{\n\t\tdig[i-1]=0x20;\n\t\t}\n\telse\n\t\t{\n\t\tdig[i-1]=dig[i-1]+0x30;\n\t\tzero_on=0;\n\t\t}\t\n\t}\n} \n\n//-----------------------------------------------\nvoid int2lcd_m(signed short in,char xy,char des)\n{\nchar i;\nchar n;\nchar bMinus;\nbMinus=0;\nif(in<0)\n\t{\n\tbMinus=1;\n\tin=(~in+1);\n\t}\nbin2bcd_int(in);\nbcd2lcd_zero(des+1);\ni=find(xy);\nif(i!=255)\n\t{\n\tfor (n=0;n<5;n++)\n\t\t{ \n\t\tif(n<des)\n\t\t\t{\n\t\t\tlcd_buffer[i]=dig[n];\n\t\t\t} \n\t\telse if (n==des)\n \t\t\t{\n \t\t\tlcd_buffer[i]='.';\n \t\t\tlcd_buffer[i-1]=dig[n];\n \t\t\t} \t \n\t\telse if((n>=des)&&(dig[n]!=0x20))\n\t\t\t{\n\t\t\tif(!des)lcd_buffer[i]=dig[n];\t\n\t\t\telse lcd_buffer[i-1]=dig[n];\n \t\t\t}\n \t\telse if((n>=des)&&(dig[n]!=0x20)&&(bMinus))\n\t \t\t{\n\t\t\tif(!des)lcd_buffer[i]='-';\t\n\t\t\telse lcd_buffer[i-1]='-';\n\t\t\tn=5;\n \t\t\t}\t \n\t\ti--;\t\n\t\t}\n\t}\n}\n\n//-----------------------------------------------\nvoid int2lcd_mm(signed short in,char xy,char des)\n{\nchar i;\nchar n;\nchar minus='+';\nif(in<0)\n\t{\n\tin=-in;\n\tminus='-';\n\t}\nminus='-';\t\nbin2bcd_int(in);\nbcd2lcd_zero(des+1);\ni=find(xy);\nfor (n=0;n<5;n++)\n\t{\n \tif(!des&&(dig[n]!=' '))\n \t\t{\n \t\tif((dig[n+1]==' ')&&(minus=='-'))lcd_buffer[i-1]='-';\n \t\tlcd_buffer[i]=dig[n];\t \n \t\t}\n \telse \n \t\t{\n \t\tif(n<des)lcd_buffer[i]=dig[n];\n \t\telse if (n==des)\n \t\t\t{\n \t\t\tlcd_buffer[i]='.';\n \t\t\tlcd_buffer[i-1]=dig[n];\n \t\t\t} \n \t\telse if ((n>des)&&(dig[n]!=' ')) lcd_buffer[i-1]=dig[n]; \n \t\telse if ((minus=='-')&&(n>des)&&(dig[n]!=' ')&&(dig[n+1]==' ')) lcd_buffer[i]='-'; \t\t\n \t\t} \n\t\t\n\ti--;\t\n\t}\n}\n\n//-----------------------------------------------\nvoid int2lcd_mmm(signed short in,char xy,char des)\n{\nsigned char i;\nchar n;\nchar s[10];\nchar minus='+';\nchar zero_on;\nchar simb_num;\n\nif(in<0)\n\t{\n\tin=-in;\n\tminus='-';\n\t}\n\nfor(i=0;i<10;i++)\n\t{\n\ts[i]=in%10;\n\tin/=10;\n\t} \n\nzero_on=1;\nsimb_num=0;\n\nfor (i=9;i>=0;i--)\n\t{\n\tif(zero_on&&(!s[i])&&(i>(des)))\n\t {\n\t s[i]=0x20;\n\t }\n\telse \n\t {\n\t s[i]=s[i]+0x30;\n\t zero_on=0;\n\t simb_num++;\n\t }\n\t }\n\t \nif(minus=='-')\t\n {\n s[simb_num++]=minus; \n } \nif(des)\n {\n for(i=simb_num;i>des;i--)\n {\n s[i]=s[i-1];\n }\n s[des]='.';\n simb_num++; \n }\n\t\nn=find(xy);\nfor (i=0;i<simb_num;i++)\n\t{\n lcd_buffer[n-i]=s[i];\n\t}\n}\n\n//-----------------------------------------------\nvoid long2lcd_mmm(signed long in,char xy,char des)\n{\nsigned char i;\nchar n;\nchar s[10];\nchar minus='+';\nchar zero_on;\nchar simb_num;\n\nif(in<0)\n\t{\n\tin=-in;\n\tminus='-';\n\t}\n\nfor(i=0;i<10;i++)\n\t{\n\ts[i]=in%10;\n\tin/=10;\n\t} \n\nzero_on=1;\nsimb_num=0;\n\nfor (i=9;i>=0;i--)\n\t{\n\tif(zero_on&&(!s[i])&&(i>(des)))\n\t {\n\t s[i]=0x20;\n\t }\n\telse \n\t {\n\t s[i]=s[i]+0x30;\n\t zero_on=0;\n\t simb_num++;\n\t }\n\t }\n\t \nif(minus=='-')\t\n {\n s[simb_num++]=minus; \n } \nif(des)\n {\n for(i=simb_num;i>des;i--)\n {\n s[i]=s[i-1];\n }\n s[des]='.';\n simb_num++; \n }\n\t\nn=find(xy);\nfor (i=0;i<simb_num;i++)\n\t{\n lcd_buffer[n-i]=s[i];\n\t}\n}\n\n//-----------------------------------------------\nvoid long2lcdyx_mmm(signed long in,char y,char x,char des)\n{\nsigned char i;\nchar n;\nchar s[10];\nchar minus='+';\nchar zero_on;\nchar simb_num;\n\nif(in<0)\n\t{\n\tin=-in;\n\tminus='-';\n\t}\n\nfor(i=0;i<10;i++)\n\t{\n\ts[i]=in%10;\n\tin/=10;\n\t} \n\nzero_on=1;\nsimb_num=0;\n\nfor (i=9;i>=0;i--)\n\t{\n\tif(zero_on&&(!s[i])&&(i>(des)))\n\t {\n\t s[i]=0x20;\n\t }\n\telse \n\t {\n\t s[i]=s[i]+0x30;\n\t zero_on=0;\n\t simb_num++;\n\t }\n\t }\n\t \nif(minus=='-')\t\n {\n s[simb_num++]=minus; \n } \nif(des)\n {\n for(i=simb_num;i>des;i--)\n {\n s[i]=s[i-1];\n }\n s[des]='.';\n simb_num++; \n }\n\t\nn=(20y)+x;\nfor (i=0;i<simb_num;i++)\n\t{\n lcd_buffer[n-i]=s[i];\n\t}\n\n\n\n}\n\n//-----------------------------------------------\nvoid int2lcdyx(unsigned short in,char y,char x,char des)\n{\nchar i;\nchar n;\nbin2bcd_int(in);\nbcd2lcd_zero(des+1);\ni=(y20)+x;\nfor (n=0;n<5;n++)\n\t{ \n\tif(n<des)\n\t\t{\n\t\tlcd_buffer[i]=dig[n];\n\t\t} \n\tif((n>=des)&&(dig[n]!=0x20))\n\t\t{\n\t\tif(!des)lcd_buffer[i]=dig[n];\t\n\t\telse lcd_buffer[i-1]=dig[n];\n \t\t} \n\ti--;\t\n\t}\n}\n\n\n//-----------------------------------------------\nvoid event2ind(char num, char simbol)\n{\nchar iii;\nchar dt[4],dt_[4],dt__[4];\nunsigned int tempii; \n\t\t\ntempii=lc640_read_int(PTR_EVENT_LOG);\ntempii=ptr_carry(tempii,64,-1((signed)num));\ntempii=32;\ntempii+=EVENT_LOG;\n \nlc640_read_long_ptr(tempii,dt);\nlc640_read_long_ptr(tempii+8,dt_);\nlc640_read_long_ptr(tempii+12,dt__);\n\niii=find(simbol);\n \nif(dt[0]=='U')\n { \n if(dt[2]=='R')\n \t\t{\n \tlcd_buffer[iii++]='Â';\n \t\tlcd_buffer[iii++]='ê';\n \tlcd_buffer[iii++]='ë';\n \t\t}\n \t\n\tlcd_buffer[iii++]=' ';\n\tlcd_buffer[iii++]=' '; \t\t\n \tlcd_buffer[iii++]=' ';\n \tlcd_buffer[iii++]=' ';\n\tlcd_buffer[iii++]=' ';\n \tlcd_buffer[iii++]=' ';\n\tlcd_buffer[iii++]=' ';\r\n \tlcd_buffer[iii++]=' ';\n//\tlcd_buffer[iii++]=' ';\n if((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\n \t{\n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='!';\n \tlcd_buffer[iii++]=':'; \n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='@';\n \tlcd_buffer[iii++]=':';\n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='#';\n \tint2lcd(dt__[0],'!',0);\n \tint2lcd(dt__[1],'@',0);\n \tint2lcd(dt__[2],'#',0); \t\t \t\t\n \t}\t \n\telse \t\n {\n \t\tlcd_buffer[iii++]=' ';\n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='!';\n \tlcd_buffer[iii++]='@'; \n \tlcd_buffer[iii++]=' ';\n \tlcd_buffer[iii++]=' ';\n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='#';\n \tint2lcd(dt_[2],'!',0);\n \tint2lcd(dt_[0],'#',0); \n \tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\n\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \n \t\t}\t \n } \n \nelse if(dt[0]=='P')\n\t{\n \tlcd_buffer[iii++]='À';\n lcd_buffer[iii++]='Â'; \t\t\n lcd_buffer[iii++]='.';\n lcd_buffer[iii++]='Ï';\n lcd_buffer[iii++]='Ñ';\n\tlcd_buffer[iii++]=' ';\n lcd_buffer[iii++]=' ';\n\tlcd_buffer[iii++]=' ';\r\n lcd_buffer[iii++]=' ';\n\tlcd_buffer[iii++]=' ';\r\n lcd_buffer[iii++]=' ';\n\t//lcd_buffer[iii++]=' ';\n \t\n if((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\n \t{\n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='!';\n \t \tlcd_buffer[iii++]=':'; \n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='@';\n \tlcd_buffer[iii++]=':';\n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='#';\n \tint2lcd(dt__[0],'!',0);\n \tint2lcd(dt__[1],'@',0);\n \tint2lcd(dt__[2],'#',0); \t\t \t\t\n \t}\t \n \telse \t\n \t{\n \tlcd_buffer[iii++]=' ';\n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='!';\n \tlcd_buffer[iii++]='@'; \n \tlcd_buffer[iii++]=' ';\n \tlcd_buffer[iii++]=' ';\n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='#';\n \tint2lcd(dt_[2],'!',0);\n \tint2lcd(dt_[0],'#',0); \n \tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\n\t \tsub_bgnd(sm_mont[dt_[1]],'@',0); \n \t\t} \t\n } \n\nelse if(dt[0]=='Q')\n\t{\n \tlcd_buffer[iii++]='À';\n lcd_buffer[iii++]='Â'; \t\t\n lcd_buffer[iii++]='.';\n lcd_buffer[iii++]='U';\n lcd_buffer[iii++]='â';\n\tlcd_buffer[iii++]='û';\n lcd_buffer[iii++]='õ';\n\tlcd_buffer[iii++]=' ';\r\n\tlcd_buffer[iii++]=' ';\n\tlcd_buffer[iii++]=' ';\r\n\tlcd_buffer[iii++]=' ';\r\n\t\t \t\n if((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\n \t{\n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='!';\n \t \tlcd_buffer[iii++]=':'; \n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='@';\n \tlcd_buffer[iii++]=':';\n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='#';\n \tint2lcd(dt__[0],'!',0);\n \tint2lcd(dt__[1],'@',0);\n \tint2lcd(dt__[2],'#',0); \t\t \t\t\n \t}\t \n \telse \t\n \t{\n \tlcd_buffer[iii++]=' ';\n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='!';\n \tlcd_buffer[iii++]='@'; \n \tlcd_buffer[iii++]=' ';\n \tlcd_buffer[iii++]=' ';\n \tlcd_buffer[iii++]='0';\n \tlcd_buffer[iii++]='#';\n \tint2lcd(dt_[2],'!',0);\n \tint2lcd(dt_[0],'#',0); \n \tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\n\t \tsub_bgnd(sm_mont[dt_[1]],'@',0); \n \t\t} \t\n } \n\nelse if(dt[0]=='B')\n \t{\n \tif(dt[2]=='C')\n \t\t{\n \t\t\tlcd_buffer[iii++]='À';\n \t\tlcd_buffer[iii++]='Â'; \t\t\n \t\tlcd_buffer[iii++]='.';\n \t\tlcd_buffer[iii++]='Á';\n \t\tlcd_buffer[iii++]='à';\n \t\tlcd_buffer[iii++]='ò';\r\n\t\t\tlcd_buffer[iii++]='N';\n\t\tif(dt[1]<9)\n \t\t\t{\n \t\t\tlcd_buffer[iii++]=0x31+dt[1];\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\t}\n \t\telse if((dt[1]>=9)&&(dt[1]<99))\n \t\t\t{\n \t\t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\n \t\t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\t}\n \t\telse \n \t\t\t{\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]=' '; \n \t\t\tlcd_buffer[iii++]=' '; \t\t\n \t\t\t} \n \t\tlcd_buffer[iii++]=' ';\n \t\n \t\tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\n \t\t\t{\n \t\t \tlcd_buffer[iii++]='0';\n \t \t\tlcd_buffer[iii++]='!';\n \t\t \tlcd_buffer[iii++]=':'; \n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='@';\n \t \t\tlcd_buffer[iii++]=':';\n \t \t\tlcd_buffer[iii++]='0';\n \t \t\tlcd_buffer[iii++]='#';\n \t \t \tint2lcd(dt__[0],'!',0);\n \t \t\tint2lcd(dt__[1],'@',0);\n \t \t\tint2lcd(dt__[2],'#',0); \t\t \t\t\n \t\t\t}\t \n \t\telse \t\n \t\t\t{\n \t \t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='!';\n \t \t\tlcd_buffer[iii++]='@'; \n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='#';\n \t\t\tint2lcd(dt_[2],'!',0);\n \t\t\tint2lcd(dt_[0],'#',0); \n \t \t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\n\t\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \n \t\t\t}\n \t\t}\n\n \tif(dt[2]=='S')\n \t\t{\n \t\t\tlcd_buffer[iii++]='À';\n \t\tlcd_buffer[iii++]='Â'; \t\t\n \t\tlcd_buffer[iii++]='.';\n \t\tlcd_buffer[iii++]='Á';\n \t\tlcd_buffer[iii++]='à';\n \t\tlcd_buffer[iii++]='ò';\n\t\tif(dt[1]<9)\n \t\t\t{\n \t\t\tlcd_buffer[iii++]=0x31+dt[1];\n \t\t\tlcd_buffer[iii++]='À';\n \t\t\tlcd_buffer[iii++]='C';\n \t\t\t}\n \t\telse if((dt[1]>=9)&&(dt[1]<99))\n \t\t\t{\n \t\t\tlcd_buffer[iii++]='À';\n \t\t\tlcd_buffer[iii++]='C';\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\t}\n \t\telse \n \t\t\t{\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]=' '; \n \t\t\tlcd_buffer[iii++]=' '; \t\t\n \t\t\t} \n \t\t//lcd_buffer[iii++]=' ';\n \t\n \t\tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\n \t\t\t{\n \t\t \tlcd_buffer[iii++]='0';\n \t \t\tlcd_buffer[iii++]='!';\n \t\t \tlcd_buffer[iii++]=':'; \n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='@';\n \t \t\tlcd_buffer[iii++]=':';\n \t \t\tlcd_buffer[iii++]='0';\n \t \t\tlcd_buffer[iii++]='#';\n \t \t \tint2lcd(dt__[0],'!',0);\n \t \t\tint2lcd(dt__[1],'@',0);\n \t \t\tint2lcd(dt__[2],'#',0); \t\t \t\t\n \t\t\t}\t \n \t\telse \t\n \t\t\t{\n \t \t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='!';\n \t \t\tlcd_buffer[iii++]='@'; \n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='#';\n \t\t\tint2lcd(dt_[2],'!',0);\n \t\t\tint2lcd(dt_[0],'#',0); \n \t \t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\n\t\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \n \t\t\t}\n \t\t}\n\n \tif(dt[2]=='Z')\n \t\t{\n \t\tlcd_buffer[iii++]='Â';\n \t\tlcd_buffer[iii++]='Ç';\n \t\tlcd_buffer[iii++]=' '; \t\t\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' '; \n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' ';\n \t\t\n \t\tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\n \t\t\t{\n \t \t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='!';\n \t \t\tlcd_buffer[iii++]=':'; \n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='@';\n \t\t\tlcd_buffer[iii++]=':';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='#';\n \t \t\tint2lcd(dt__[0],'!',0);\n \t\t\tint2lcd(dt__[1],'@',0);\n \t\t\tint2lcd(dt__[2],'#',0); \t\t \t\t\n \t\t\t}\t \n \t\telse \t\n \t\t\t{\n \t \t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='!';\n \t\t\tlcd_buffer[iii++]='@'; \n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='#';\n \t\t\tint2lcd(dt_[2],'!',0);\n \t\t\t\n \t\t\tint2lcd(dt_[0],'#',0); \n \t\t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\n\t\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \n \t\t\t} \t\t\n \t\t} \t\t\n\n \tif(dt[2]=='W')\n \t\t{\n \t\tlcd_buffer[iii++]='Á';\n \t\tlcd_buffer[iii++]='à';\n \t\tlcd_buffer[iii++]='ò';\n\t\tif(dt[1]<9)\n \t\t\t{\n \t\t\tlcd_buffer[iii++]=0x31+dt[1];\n \t\t\tlcd_buffer[iii++]='ð';\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\t}\n \t\telse if((dt[1]>=9)&&(dt[1]<99))\n \t\t\t{\n \t\t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\n \t\t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\n \t\t\tlcd_buffer[iii++]='ð';\n \t\t\t}\n \t\telse \n \t\t\t{\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]=' '; \n \t\t\tlcd_buffer[iii++]=' '; \t\t\n \t\t\t} \n \t\tlcd_buffer[iii++]=' '; \t\t\n \t\t\n \t\t\n /* \t\tlcd_buffer[iii++]='Á';\n\t\tif(dt[1]<9)\n \t\t\t{\n \t\t\tlcd_buffer[iii++]=0x31+dt[1];\n \t\t\tlcd_buffer[iii++]='ð';\n \t\t\t}\n \t\telse if((dt[1]>=9)&&(dt[1]<99))\n \t\t\t{\n \t\t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\n \t\t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\n \t\t\t}\n \t\telse \n \t\t\t{\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]=' '; \n \t\t\t}\n \t\tlcd_buffer[iii++]=' ';\t \n \t\tlcd_buffer[iii++]=' '; / \t\t\n \t\tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\n \t\t\t{\n \t \t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='!';\n \t \t\tlcd_buffer[iii++]=':'; \n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='@';\n \t\t\tlcd_buffer[iii++]=':';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='#';\n \t \t\tint2lcd(dt__[0],'!',0);\n \t\t\tint2lcd(dt__[1],'@',0);\n \t\t\tint2lcd(dt__[2],'#',0); \t\t \t\t\n \t\t\t}\t \n \t\telse \t\n \t\t\t{\n \t \t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='!';\n \t\t\tlcd_buffer[iii++]='@'; \n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='#';\n \t\t\tint2lcd(dt_[2],'!',0);\n \t\t\t\n \t\t\tint2lcd(dt_[0],'#',0); \n \t\t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\n\t\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \n \t\t\t} \t\t\n \t\t} \t\t\n \n \tif(dt[2]=='K')\n \t\t{\n \t\tlcd_buffer[iii++]='Á';\n \t\tlcd_buffer[iii++]='à';\n \t\tlcd_buffer[iii++]='ò';\r\n\t\t\tlcd_buffer[iii++]='#';\n\t\tif(dt[1]<9)\n \t\t\t{\n \t\t\tlcd_buffer[iii++]=0x31+dt[1];\n \t\t\tlcd_buffer[iii++]='ê';\n \t\t\tlcd_buffer[iii++]='å';\r\n\t\t\t\tlcd_buffer[iii++]=' ';\n \t\t\t}\n \t\telse if((dt[1]>=9)&&(dt[1]<99))\n \t\t\t{\n \t\t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\n \t\t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\n \t\t\tlcd_buffer[iii++]='ê';\r\n\t\t\t\tlcd_buffer[iii++]='å';\n \t\t\t}\n \t\telse \n \t\t\t{\n \t\t\t\n \t\t\tlcd_buffer[iii++]=' '; \n \t\t\tlcd_buffer[iii++]=' '; \t\t\n \t\t\t} \n \t\tlcd_buffer[iii++]=' '; \t\t\n \t\t\n \t\tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\n \t\t\t{\n \t \t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='!';\n \t \t\tlcd_buffer[iii++]=':'; \n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='@';\n \t\t\tlcd_buffer[iii++]=':';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='#';\n \t \t\tint2lcd(dt__[0],'!',0);\n \t\t\tint2lcd(dt__[1],'@',0);\n \t\t\tint2lcd(dt__[2],'#',0); \t\t \t\t\n \t\t\t}\t \n \t\telse \t\n \t\t\t{\n \t \t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='!';\n \t\t\tlcd_buffer[iii++]='@'; \n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]=' ';\n \t\t\tlcd_buffer[iii++]='0';\n \t\t\tlcd_buffer[iii++]='#';\n \t\t\tint2lcd(dt_[2],'!',0);\n \t\t\t\n \t\t\tint2lcd(dt_[0],'#',0); \n \t\t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\n\t\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \n \t\t\t} \t\t\n \t\t} \t\t\n\n \t\t \t \t\n \t} \t \n \t\nelse if(dt[0]=='S')\n \t{\n \t\tlcd_buffer[iii++]='À';\n \tlcd_buffer[iii++]='Â'; \t\t\n \tlcd_buffer[iii++]='.';\n \tlcd_buffer[iii++]='Á';\n \tlcd_buffer[iii++]='Ï';\n \tlcd_buffer[iii++]='Ñ';\r\n\t\tlcd_buffer[iii++]='#';\n \tif(dt[1]<9)\n \t\t{\n \t\tlcd_buffer[iii++]=0x31+dt[1];\n \t\tlcd_buffer[iii++]=' ';\n \t\t}\n \telse if((dt[1]>=9)&&(dt[1]<99))\n \t\t{\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\n \t\t}\n \telse \n \t\t{\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' '; \t\t\n \t\t} \n \tlcd_buffer[iii++]=' '; \n \t\tlcd_buffer[iii++]=' ';\r\n\t\t//lcd_buffer[iii++]=' ';\n \t\n \tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\n \t\t{\n \t \tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='!';\n \t \tlcd_buffer[iii++]=':'; \n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='@';\n \t\tlcd_buffer[iii++]=':';\n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='#';\n \t \tint2lcd(dt__[0],'!',0);\n \t\tint2lcd(dt__[1],'@',0);\n \t\tint2lcd(dt__[2],'#',0); \t\t \t\t\n \t\t}\t \n \telse \t\n \t\t{\n \t \tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='!';\n \t\tlcd_buffer[iii++]='@'; \n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='#';\n \t\tint2lcd(dt_[2],'!',0);\n \t\tint2lcd(dt_[0],'#',0); \n \t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\n\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \n\t\t} \t\n \t}\n \t\nelse if(dt[0]=='B')\n \t{\n \tlcd_buffer[iii++]='Á';\n \tlcd_buffer[iii++]='à';\n \tlcd_buffer[iii++]='ò';\n \tif(dt[1]<9)\n \t\t{\n \t\tlcd_buffer[iii++]=0x31+dt[1];\n \t\tlcd_buffer[iii++]=' ';\n \t\t}\n \telse if((dt[1]>=9)&&(dt[1]<99))\n \t\t{\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\n \t\t}\n \telse \n \t\t{\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' '; \t\t\n \t\t} \n \tlcd_buffer[iii++]=' ';\n \t} \t \n \t\nelse if(dt[0]=='I')\n \t{\n \t\tlcd_buffer[iii++]='À';\n \tlcd_buffer[iii++]='Â'; \t\t\n \tlcd_buffer[iii++]='.';\n \tlcd_buffer[iii++]='È';\n \tlcd_buffer[iii++]='í';\n \tlcd_buffer[iii++]='â';\r\n\t\tlcd_buffer[iii++]='#';\n\tif(dt[1]<9)\n \t\t{\n \t\tlcd_buffer[iii++]=0x31+dt[1];\n \t\tlcd_buffer[iii++]=' ';\n \t\t}\n \telse if((dt[1]>=9)&&(dt[1]<99))\n \t\t{\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\n \t\t}\n \telse \n \t\t{\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' '; \t\t\n \t\t} \n \tlcd_buffer[iii++]=' ';\r\n\t\tlcd_buffer[iii++]=' ';\n \t}\r\n\r\nelse if(dt[0]=='s')\n {\n if(dt[2]=='Z')\n \t{\n \t\tlcd_buffer[iii++]='Ó';\n \tlcd_buffer[iii++]='ñ';\r\n\t\tlcd_buffer[iii++]='ê';\r\n\t\tlcd_buffer[iii++]='î';\r\n\t\tlcd_buffer[iii++]='ð'; \t\t\n \tlcd_buffer[iii++]='.';\n \tlcd_buffer[iii++]='ç';\n\t\tlcd_buffer[iii++]='à';\n \tlcd_buffer[iii++]='ð'; \r\n \tlcd_buffer[iii++]='.';\n \t\n/\t\tif(dt[1]<9)\n \t\t{\n \t\tlcd_buffer[iii++]=0x31+dt[1];\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' ';\n \t\t}\n \telse if((dt[1]>=9)&&(dt[1]<99))\n \t\t{\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\n \t\tlcd_buffer[iii++]=' ';\n \t\t}\n \telse /\n \t\t{\n \t\t//lcd_buffer[iii++]=' ';\n \t\t//lcd_buffer[iii++]=' '; \n \t\tlcd_buffer[iii++]=' '; \t\t\n \t\t} \n \t\t//lcd_buffer[iii++]=' ';\n \t\n \tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\n \t\t{\n \t \tlcd_buffer[iii++]='0';\n \t \t\tlcd_buffer[iii++]='!';\n \t lcd_buffer[iii++]=':'; \n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='@';\n \t \t\tlcd_buffer[iii++]=':';\n \t \t\tlcd_buffer[iii++]='0';\n \t \t\tlcd_buffer[iii++]='#';\n \t \t int2lcd(dt__[0],'!',0);\n \t \t\tint2lcd(dt__[1],'@',0);\n \t \t\tint2lcd(dt__[2],'#',0); \t\t \t\t\n \t\t}\t \n \telse \t\n \t\t{\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='!';\n \t\tlcd_buffer[iii++]='@'; \n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='#';\n \t\tint2lcd(dt_[2],'!',0);\n \t\tint2lcd(dt_[0],'#',0); \n \t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\n\t\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \n \t\t}\r\n\t\t}\t\t \r\n }\t\r\n\r\nelse if(dt[0]=='u')\n {\n if(dt[2]=='Z')\n \t{\n \t\tlcd_buffer[iii++]='Ó';\n \tlcd_buffer[iii++]='ð';\r\n\t\tlcd_buffer[iii++]='à';\r\n\t\tlcd_buffer[iii++]='â';\r\n\t\tlcd_buffer[iii++]='í'; \t\t\n \tlcd_buffer[iii++]='.';\n \tlcd_buffer[iii++]='ç';\n\t\tlcd_buffer[iii++]='à';\n \tlcd_buffer[iii++]='ð'; \r\n \tlcd_buffer[iii++]='.';\t\t \t\n/\t\tif(dt[1]<9)\n \t\t{\n \t\tlcd_buffer[iii++]=0x31+dt[1];\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' ';\n \t\t}\n \telse if((dt[1]>=9)&&(dt[1]<99))\n \t\t{\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\n \t\tlcd_buffer[iii++]=' ';\n \t\t}\n \telse /\n \t\t{\n \t\t//lcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' '; \n \t\t//lcd_buffer[iii++]=' '; \t\t\n \t\t} \n \t\t//lcd_buffer[iii++]=' ';\n \t\n \tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\n \t\t{\n \t \tlcd_buffer[iii++]='0';\n \t \t\tlcd_buffer[iii++]='!';\n \t lcd_buffer[iii++]=':'; \n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='@';\n \t \t\tlcd_buffer[iii++]=':';\n \t \t\tlcd_buffer[iii++]='0';\n \t \t\tlcd_buffer[iii++]='#';\n \t \t int2lcd(dt__[0],'!',0);\n \t \t\tint2lcd(dt__[1],'@',0);\n \t \t\tint2lcd(dt__[2],'#',0); \t\t \t\t\n \t\t}\t \n \telse \t\n \t\t{\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='!';\n \t\tlcd_buffer[iii++]='@'; \n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='#';\n \t\tint2lcd(dt_[2],'!',0);\n \t\tint2lcd(dt_[0],'#',0); \n \t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\n\t\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \n \t\t}\r\n\t\t}\t\t \r\n }\t\r\nelse if(dt[0]=='f')\n {\n if(dt[2]=='Z')\n \t{\n \t\tlcd_buffer[iii++]='Ô';\n \tlcd_buffer[iii++]='î'; \t\t\n \tlcd_buffer[iii++]='ð';\n \tlcd_buffer[iii++]='ì';\n \tlcd_buffer[iii++]='.';\n \tlcd_buffer[iii++]='ç';\r\n\t\tlcd_buffer[iii++]='à';\r\n\t\tlcd_buffer[iii++]='ð';\r\n\t\tlcd_buffer[iii++]='.';\n/\t\tif(dt[1]<9)\n \t\t{\n \t\tlcd_buffer[iii++]=0x31+dt[1];\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' ';\n \t\t}\n \telse if((dt[1]>=9)&&(dt[1]<99))\n \t\t{\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)/10);\n \t\tlcd_buffer[iii++]=0x30+((dt[1]+1)%10);\n \t\tlcd_buffer[iii++]=' ';\n \t\t}\n \telse/ \n \t\t{\n \t\t//lcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' '; \n \t\tlcd_buffer[iii++]=' '; \t\t\n \t\t} \n \t\t//lcd_buffer[iii++]=' ';\n \t\n \tif((dt_[0]==LPC_RTC->YEAR)&&(dt_[1]==LPC_RTC->MONTH)&&(dt_[2]==LPC_RTC->DOM))\n \t\t{\n \t \tlcd_buffer[iii++]='0';\n \t \t\tlcd_buffer[iii++]='!';\n \t lcd_buffer[iii++]=':'; \n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='@';\n \t \t\tlcd_buffer[iii++]=':';\n \t \t\tlcd_buffer[iii++]='0';\n \t \t\tlcd_buffer[iii++]='#';\n \t \t int2lcd(dt__[0],'!',0);\n \t \t\tint2lcd(dt__[1],'@',0);\n \t \t\tint2lcd(dt__[2],'#',0); \t\t \t\t\n \t\t}\t \n \telse \t\n \t\t{\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='!';\n \t\tlcd_buffer[iii++]='@'; \n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]=' ';\n \t\tlcd_buffer[iii++]='0';\n \t\tlcd_buffer[iii++]='#';\n \t\tint2lcd(dt_[2],'!',0);\n \t\tint2lcd(dt_[0],'#',0); \n \t\tif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\n\t\t\tsub_bgnd(sm_mont[dt_[1]],'@',0); \n \t\t}\r\n\t\t}\t\t \r\n }\t\t\t \n}\t\n\n//-----------------------------------------------\nvoid community2lcd(char in,\n\t\t\tchar xy,\n\t\t\tchar flash_pos,\n\t\t\tchar flash_on)\n{\nchar temp;\nchar i;\n//char n;\n\n\ni=find(xy);\n\n//in1=192;\n\n//in2=34;\n\n\n\ntemp=i;\n\n//ptr_ram=&lcd_buffer[find(xy)];\nif(temp!=255)\nwhile (in)\n\t{\n\tlcd_buffer[temp]=in++;\n\ttemp++;\n \t}\n\n\n\nif((bFL2)&&(flash_on))\n\t{\n\tlcd_buffer[i+flash_pos]=95;\n\t}\n\n}\n\n//-----------------------------------------------\nvoid ip2lcd(\tshort in1,\n\t\t\tshort in2,\n\t\t\tshort in3,\n\t\t\tshort in4,\n\t\t\tchar xy,\n\t\t\tchar flash_pos)\n{\nchar i;\n//char n;\n\n//bin2bcd_int(in);\n//bcd2lcd_zero(des+1);\ni=find(xy);\n\n//in1=192;\n\n//in2=34;\n\nif((flash_pos==1)&&(bFL2))\n\t{\n\tlcd_buffer[i-12]=' ';\n\tlcd_buffer[i-13]=' ';\n\tlcd_buffer[i-14]=' ';\n\t}\nelse \n\t{\n\tlcd_buffer[i-12]=0x30+(in1%10);\n\tlcd_buffer[i-13]=0x30+(in1/10)%10;\n\tlcd_buffer[i-14]=0x30+(in1/100);\n\t}\n\nif((flash_pos==2)&&(bFL2))\n\t{\n\tlcd_buffer[i-8]=' ';\n\tlcd_buffer[i-9]=' ';\n\tlcd_buffer[i-10]=' ';\n\t}\nelse \n\t{\n\tlcd_buffer[i-8]=0x30+(in2%10);\n\tlcd_buffer[i-9]=0x30+(in2/10)%10;\n\tlcd_buffer[i-10]=0x30+(in2/100);\n\t}\n\nif((flash_pos==3)&&(bFL2))\n\t{\n\tlcd_buffer[i-4]=' ';\n\tlcd_buffer[i-5]=' ';\n\tlcd_buffer[i-6]=' ';\n\t}\nelse \n\t{\n\tlcd_buffer[i-4]=0x30+in3%10;\n\tlcd_buffer[i-5]=0x30+(in3/10)%10;\n\tlcd_buffer[i-6]=0x30+(in3/100);\n\t}\n\nif((flash_pos==4)&&(bFL2))\n\t{\n\tlcd_buffer[i]=' ';\n\tlcd_buffer[i-1]=' ';\n\tlcd_buffer[i-2]=' ';\n\t}\nelse \n\t{\n\tlcd_buffer[i]=0x30+in4%10;\n\tlcd_buffer[i-1]=0x30+(in4/10)%10;\n\tlcd_buffer[i-2]=0x30+(in4/100);\n\t}\n}\n\n//-----------------------------------------------\nvoid checkboxing(char xy,short in)\n{\nchar i;\ni=find(xy);\nif(in)lcd_buffer[i]=3;\nelse lcd_buffer[i]=4;\t \n}\n\n//-----------------------------------------------\nvoid int2lcd(unsigned short in,char xy,char des)\n{\nchar i;\nchar n;\n\nbin2bcd_int(in);\nbcd2lcd_zero(des+1);\ni=find(xy);\nfor (n=0;n<5;n++)\n\t{\n \tif(!des&&(dig[n]!=' '))\n \t\t{\n \t\tlcd_buffer[i]=dig[n];\t \n \t\t}\n \telse \n \t\t{\n \t\tif(n<des)lcd_buffer[i]=dig[n];\n \t\telse if (n==des)\n \t\t\t{\n \t\t\tlcd_buffer[i]='.';\n \t\t\tlcd_buffer[i-1]=dig[n];\n \t\t\t} \n \t\telse if ((n>des)&&(dig[n]!=' ')) lcd_buffer[i-1]=dig[n]; \t\t\n \t\t} \n\t\t\n\ti--;\t\n\t}\n}\n\n//-----------------------------------------------\nvoid long2lcdhyx(unsigned long in,char y,char x)\n{\nchar i;\nchar n;\n\ni=(20y)+x;\n\nn=((char)&in);\nlcd_buffer[i]=ABCDEF[n%16];\ni--;\nlcd_buffer[i]=ABCDEF[n/16];\ni--;\n\nn=(((char)&in)+1);\nlcd_buffer[i]=ABCDEF[n%16];\ni--;\nlcd_buffer[i]=ABCDEF[n/16];\ni--;\n\nn=(((char)&in)+2);\nlcd_buffer[i]=ABCDEF[n%16];\ni--;\nlcd_buffer[i]=ABCDEF[n/16];\ni--;\n\nn=(((char)&in)+3);\nlcd_buffer[i]=ABCDEF[n%16];\ni--;\nlcd_buffer[i]=ABCDEF[n/16];\ni--;\n}\n\n//-----------------------------------------------\nvoid char2lcdh(char in,char yx)\n{\nchar i;\n\ni=find(yx);\n\nlcd_buffer[i]=ABCDEF[in%16];\ni--;\nlcd_buffer[i]=ABCDEF[in/16];\ni--;\n}\n\n//-----------------------------------------------\nvoid char2lcdhyx(char in,char y,char x)\n{\nchar i;\n\ni=(20y)+x;\n\nlcd_buffer[i]=ABCDEF[in%16];\ni--;\nlcd_buffer[i]=ABCDEF[in/16];\ni--;\n}\n\n//-----------------------------------------------\nvoid int2lcdhyx(unsigned short in,char y,char x)\n{\nchar i;\n\ni=(20y)+x;\n\nlcd_buffer[i]=ABCDEF[in%16];\ni--;\nin/=16;\nlcd_buffer[i]=ABCDEF[in%16];\ni--;\nin/=16;\nlcd_buffer[i]=ABCDEF[in%16];\ni--;\nin/=16;\nlcd_buffer[i]=ABCDEF[in];\n\n}\n\n//-----------------------------------------------\nvoid char2lcdbyx(char in,char y,char x)\n{\nchar i;\n\ni=(20y)+x;\n\nlcd_buffer[i--]=ABCDEF[in%2];\nin/=2;\nlcd_buffer[i--]=ABCDEF[in%2];\nin/=2;\nlcd_buffer[i--]=ABCDEF[in%2];\nin/=2;\nlcd_buffer[i--]=ABCDEF[in%2];\nin/=2;\nlcd_buffer[i--]=ABCDEF[in%2];\nin/=2;\nlcd_buffer[i--]=ABCDEF[in%2];\nin/=2;\nlcd_buffer[i--]=ABCDEF[in%2];\nin/=2;\nlcd_buffer[i--]=ABCDEF[in%2];\nin/=2;\n}\n\n//-----------------------------------------------\nvoid pointer_set(char num_of_first_row)\n{\nif(sub_ind==index_set)lcd_buffer[num_of_first_row20]=1;\nelse if(sub_ind==(index_set+1))lcd_buffer[(num_of_first_row+1)20]=1;\nelse if(sub_ind==(index_set+2))lcd_buffer[(num_of_first_row+2)20]=1;\nelse if(sub_ind==(index_set+3))lcd_buffer[(num_of_first_row+3)20]=1;\nelse if(sub_ind==(index_set+4))lcd_buffer[(num_of_first_row+4)20]=1;\nelse if(sub_ind==(index_set+5))lcd_buffer[(num_of_first_row+5)20]=1;\nelse if(sub_ind==(index_set+6))lcd_buffer[(num_of_first_row+6)20]=1;\nelse if(sub_ind==(index_set+7))lcd_buffer[(num_of_first_row+7)20]=1;\n}\n\n\n//-----------------------------------------------\nvoid tree_down(signed char offset_ind,signed char offset_sub_ind)\n{\nind_pointer--;\r\nif(ind_pointer<=0)ind_pointer=0;\nind_pointer+=offset_ind;\na_ind=b_ind[ind_pointer];\n\nsub_ind+=offset_sub_ind;\n}\n\n//-----------------------------------------------\nvoid tree_up(char tind, char tsub_ind, char tindex_set, char tsub_ind1)\n{\nb_ind[ind_pointer++]=a_ind;\nind=(i_enum)tind;\nsub_ind=tsub_ind;\nindex_set=tindex_set;\nsub_ind1=tsub_ind1;\n}\n\n//-----------------------------------------------\nvoid bgnd_par(char const ptr0,char const ptr1,char const ptr2,char const ptr3)\n{\nchar i,ptr_ram;\nclr_scrn();\n\nptr_ram=lcd_buffer;\nfor(i=0;i<20;i++)\n\t{\n\tptr_ram++=ptr0++;\n\t}\nfor(i=0;i<20;i++)\n\t{\n\tptr_ram++=ptr1++;\n\t}\nfor(i=0;i<20;i++)\n\t{\n\tptr_ram++=ptr2++;\n\t}\nfor(i=0;i<20;i++)\n\t{\n\tptr_ram++=ptr3++;\n\t}\n\n\n}\n\n//-----------------------------------------------\nvoid sub_bgnd(char const adr,char xy,signed char offset)\n{\nchar temp;\ntemp=find(xy);\n\n//ptr_ram=&lcd_buffer[find(xy)];\nif(temp!=255)\nwhile (adr)\n\t{\n\tlcd_buffer[temp+offset]=adr++;\n\ttemp++;\n \t}\n}\n\n//-----------------------------------------------\nvoid show_mess(char* p1, char* p2, char* p3, char* p4,int m_sec)\n{\n//bgnd_par(p1,p2,p3,p4);\n//tree_up(iSM,sub_ind,sub_ind1,sub_ind2);\n//ret((char)(m_sec/100));\nshow_mess_cnt=(char)(m_sec/100);\nshow_mess_p1=p1;\nshow_mess_p2=p2;\nshow_mess_p3=p3;\nshow_mess_p4=p4;\n}\n//-----------------------------------------------\nvoid show_mess_number(char* p1, char* p2, char* p3, char* p4,int m_sec,short number, char komma)\n{\n/bgnd_par(p1,p2,p3,p4);\nint2lcd(number,'@',1);\ntree_up(iSM,sub_ind,sub_ind1,sub_ind2);\nret((char)(m_sec/100));/\nshow_mess_cnt=(char)(m_sec/100);\nshow_mess_p1=p1;\nshow_mess_p2=p2;\nshow_mess_p3=p3;\nshow_mess_p4=p4;\nshow_mess_number_=number;\nshow_mess_komma=komma;\n}\n//-----------------------------------------------\nchar ptr_carry(signed int in,unsigned char modul,signed int carry)\n{\nsigned int tempSI;\ntempSI=in; \ntempSI+=carry;\nif(tempSI<0)tempSI+=modul;\nelse if(tempSI>=modul)tempSI-=modul;\n\nreturn (char)tempSI;\n}\n\n//-----------------------------------------------\nvoid event_data2ind(char num, char simbol)\n{\nchar iii;\nchar dt[4],dt_[4],dt__[4];\nunsigned int tempii; \n\t\t\n/tempii=lc640_read_int(PTR_EVENT_LOG);\ntempii=ptr_carry(tempii,64,-1((signed)num));/\ntempii=(signed)num;\ntempii=32;\ntempii+=EVENT_LOG;\n \nlc640_read_long_ptr(tempii,dt);\nlc640_read_long_ptr(tempii+8,dt_);\nlc640_read_long_ptr(tempii+12,dt__);\n\niii=find(simbol);\n\nlcd_buffer[iii++]=' ';\nlcd_buffer[iii++]='0';\nlcd_buffer[iii++]='!';\nlcd_buffer[iii++]='@'; \nlcd_buffer[iii++]=' ';\nlcd_buffer[iii++]=' ';\nlcd_buffer[iii++]='0';\nlcd_buffer[iii++]='#';\nint2lcd(dt_[2],'!',0);\nint2lcd(dt_[0],'#',0); \nif(!((dt_[1]>=1)&&(dt_[1]<=12)))dt_[1]=1;\nsub_bgnd(sm_mont[dt_[1]],'@',0); \nlcd_buffer[iii++]=' ';\t\t\nlcd_buffer[iii++]='0';\nlcd_buffer[iii++]='!';\nlcd_buffer[iii++]=':'; \nlcd_buffer[iii++]='0';\nlcd_buffer[iii++]='@';\nint2lcd(dt__[0],'!',0);\nint2lcd(dt__[1],'@',0);\n \t\t \t\t\nlcd_buffer[iii++]=' ';\n}\t\n" }, { "alpha_fraction": 0.5858823657035828, "alphanum_fraction": 0.7435294389724731, "avg_line_length": 30.076923370361328, "blob_id": "e2effba6fb2aa79d05a81c1c343be7f8c0e1b0a5", "content_id": "402c0d4afdd492ba78840e1e5744d5db8dc5c98b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 425, "license_type": "no_license", "max_line_length": 57, "num_lines": 13, "path": "/SOFT/UKU/Олег-2021.02.12/ad7705.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\nextern unsigned short ad7705_res1,ad7705_res2;\r\nextern unsigned short ad7705_buff[2][16],ad7705_buff_[2];\r\nextern unsigned short ad7705_res;\r\nextern char b7705ch,ad7705_wrk_cnt;\r\nextern unsigned short cnt_ad7705_vis,cnt_ad7705_vis_wrk;\r\nextern signed short ad7705_plazma;\r\n\r\n\r\nvoid spi1_ad7705_config(void);\r\nvoid ad7705_reset(void);\r\nvoid ad7705_write(char in);\r\nvoid ad7705_read(char num);\r\nvoid ad7705_drv(void);\r\n\r\n\r\n\r\n" }, { "alpha_fraction": 0.42152467370033264, "alphanum_fraction": 0.4295964241027832, "avg_line_length": 37.75, "blob_id": "c907e1d2f06eec7247966df051a2bb4adb2b8286", "content_id": "d2e5614d117060159d9c77c1ba541a3e2cd22a4e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1129, "license_type": "no_license", "max_line_length": 61, "num_lines": 28, "path": "/SOFT/UKU/2/http_data.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "//Телеметрия сети\r\nextern char http_power_num_of_phases;\r\nextern short http_power_voltage_of_phase[3];\r\nextern short http_power_frequncy;\r\nextern char http_power_status;\r\nextern char http_output_buff[70];\r\nextern char log_item_cnt;\r\nextern char http_string_of_model[50];\r\nextern char* http_model;\r\n\r\n//-----------------------------------------------\r\nvoid http_data(void);\r\n//-----------------------------------------------\r\nshort http_get_log_deep(void);\r\n//-----------------------------------------------\r\nchar* http_get_log_rec(char num);\r\n//-----------------------------------------------\r\nchar* http_tm_dt_output(char numOfDt);\r\n//-----------------------------------------------\r\nchar* http_tm_sk_output(char numOfSk);\r\n//-----------------------------------------------\r\nchar* http_tm_src_output(char numOfSrc);\r\n//-----------------------------------------------\r\nchar* http_ip_output(char ip1, char ip2, char ip3, char ip4);\r\n//-----------------------------------------------\r\nchar* http_tm_bat_output(char numOfSrc);\r\n//-----------------------------------------------\r\nchar* pal_cyr_decoder(char* input);\r\n\r\n" }, { "alpha_fraction": 0.5233471989631653, "alphanum_fraction": 0.665742039680481, "avg_line_length": 24.515336990356445, "blob_id": "628b5cc554a3f13c0177c9b5dbc6d833ce3f86f1", "content_id": "75df9888af31a8fe898493cc64811b227a377333", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 4326, "license_type": "no_license", "max_line_length": 55, "num_lines": 163, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/sgep.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"main.h\"\r\n#include \"sgep.h\"\r\n#include \"eeprom_map.h\"\r\n#include \"25lc640.h\"\r\n\r\n//-----------------------------------------------\t \r\nvoid def_sgep_ips_set(short num_of_cell)\r\n{\r\nlc640_write_int(EE_SNTP_ENABLE,3);\r\nlc640_write_int(EE_SNTP_GMT,9);\r\n\r\nlc640_write_int(EE_NUMBAT,1);\r\nlc640_write_int(EE_NUMIST,2);\r\nlc640_write_int(EE_NUMDT,1);\r\nlc640_write_int(EE_NUMMAKB,0);\r\nlc640_write_int(EE_NUMSK,0);\r\nlc640_write_int(EE_NUM_RKI,0);\r\nlc640_write_int(EE_NUM_NET_IN,0);\r\nlc640_write_int(EE_NUMBDR,0);\r\n\r\nlc640_write_int(EE_BAT_C_POINT_NUM_ELEM,num_of_cell6);\r\nlc640_write_int(EE_BAT_C_POINT_20,1500);\r\nlc640_write_int(EE_BAT_C_POINT_10,1500);\r\nlc640_write_int(EE_BAT_C_POINT_5,1480);\r\nlc640_write_int(EE_BAT_C_POINT_3,1410);\r\nlc640_write_int(EE_BAT_C_POINT_1,1140);\r\nlc640_write_int(EE_BAT_C_POINT_1_2,945);\r\nlc640_write_int(EE_BAT_C_POINT_1_6,550);\r\n\r\nlc640_write_int(EE_BAT_U_END_20,108num_of_cell);\r\nlc640_write_int(EE_BAT_U_END_10,108num_of_cell);\r\nlc640_write_int(EE_BAT_U_END_5,105num_of_cell);\r\nlc640_write_int(EE_BAT_U_END_3,102num_of_cell);\r\nlc640_write_int(EE_BAT_U_END_1,99num_of_cell);\r\nlc640_write_int(EE_BAT_U_END_1_2,96num_of_cell);\r\nlc640_write_int(EE_BAT_U_END_1_6,96num_of_cell);\r\n\r\nif(num_of_cell==17)\r\n\t{\r\n\tlc640_write_int(EE_UB0,2363);\r\n\tlc640_write_int(EE_UB20,2295);\r\n\tlc640_write_int(EE_USIGN,178);\r\n\t}\r\nelse if(num_of_cell==18)\r\n\t{\r\n\tlc640_write_int(EE_UB0,2502);\r\n\tlc640_write_int(EE_UB20,2430);\r\n\tlc640_write_int(EE_USIGN,189);\r\n\t}\r\nelse if(num_of_cell==20)\r\n\t{\r\n\tlc640_write_int(EE_UB0,2780);\r\n\tlc640_write_int(EE_UB20,2700);\r\n\tlc640_write_int(EE_USIGN,210);\r\n\t}\r\nlc640_write_int(EE_IKB,20);\r\nlc640_write_int(EE_IZMAX,150); \r\nlc640_write_int(EE_TBATMAX,50); \r\nlc640_write_int(EE_TBATSIGN,40);\r\nlc640_write_int(EE_TBAT,60);\r\n \r\nif(num_of_cell==17)\r\n\t{\r\n\tlc640_write_int(EE_UVENTOFF,250);\r\n\tlc640_write_int(EE_UVZ,2448);\r\n\t}\r\nelse if(num_of_cell==18)\r\n\t{\r\n\tlc640_write_int(EE_UVENTOFF,250);\r\n\tlc640_write_int(EE_UVZ,2560);\r\n\t}\r\nelse if(num_of_cell==20)\r\n\t{\r\n\tlc640_write_int(EE_UVENTOFF,278);\r\n\tlc640_write_int(EE_UVZ,2880);\r\n\t}\r\nlc640_write_int(EE_IMAX_VZ,150);\r\nlc640_write_int(EE_VZ_HR,48);\r\n\r\nif(num_of_cell==17)\r\n\t{\r\n\tlc640_write_int(EE_SPEED_CHRG_CURR,250);\r\n\tlc640_write_int(EE_SPEED_CHRG_VOLT,2295);\r\n\r\n\t}\r\nelse if(num_of_cell==18)\r\n\t{\r\n\tlc640_write_int(EE_SPEED_CHRG_CURR,250);\r\n\tlc640_write_int(EE_SPEED_CHRG_VOLT,2430);\r\n\r\n\t}\r\nelse if(num_of_cell==20)\r\n\t{\r\n\tlc640_write_int(EE_SPEED_CHRG_CURR,210);\r\n\tlc640_write_int(EE_SPEED_CHRG_VOLT,2700);\r\n\t}\r\nlc640_write_int(EE_SPEED_CHRG_TIME,5);\r\nlc640_write_int(EE_SPEED_CHRG_D_U,10);\t\r\nlc640_write_int(EE_SPEED_CHRG_BLOCK_SRC,0);\r\nlc640_write_int(EE_SPEED_CHRG_AVT_EN,1);\r\nlc640_write_int(EE_BAT_K_OLD,100);\r\nlc640_write_int(EE_ZV_ON,0);\r\nlc640_write_int(EE_AV_OFF_AVT,1);\r\nlc640_write_int(EE_APV_ON1,apvON);\r\nlc640_write_int(EE_APV_ON2,apvON);\r\nlc640_write_int(EE_APV_ON2_TIME,1);\r\nlc640_write_int(EE_PAR,1);\r\n\r\nif(num_of_cell==17)\r\n\t{\r\n\tlc640_write_int(EE_UMAX,2600);\r\n\tlc640_write_int(EE_DU,1200);\r\n\r\n\t}\r\nelse if(num_of_cell==18)\r\n\t{\r\n\tlc640_write_int(EE_UMAX,2700);\r\n\tlc640_write_int(EE_DU,1330);\r\n\r\n\t}\r\nelse if(num_of_cell==20)\r\n\t{\r\n\tlc640_write_int(EE_UMAX,3000);\r\n\tlc640_write_int(EE_DU,1580);\r\n\t}\r\nlc640_write_int(EE_UMN,187);\r\nlc640_write_int(EE_IMAX,80);\r\nlc640_write_int(EE_IMIN,50);\r\nlc640_write_int(EE_TZAS,3);\r\nlc640_write_int(EE_TMAX,80);\r\nlc640_write_int(EE_TSIGN,70);\r\n\r\nif(num_of_cell==17)\r\n\t{\r\n\tlc640_write_int(EE_U_OUT_KONTR_MAX,2600);\r\n\tlc640_write_int(EE_U_OUT_KONTR_MIN,1750);\r\n\tlc640_write_int(EE_U_OUT_KONTR_DELAY,100);\r\n\tlc640_write_int(EE_AUSW_MAIN,22011);\r\n\t}\r\nelse if(num_of_cell==18)\r\n\t{\r\n\tlc640_write_int(EE_U_OUT_KONTR_MAX,2600);\r\n\tlc640_write_int(EE_U_OUT_KONTR_MIN,1870);\r\n\tlc640_write_int(EE_U_OUT_KONTR_DELAY,100);\r\n\tlc640_write_int(EE_AUSW_MAIN,22011);\r\n\t}\r\nelse if(num_of_cell==20)\r\n\t{\r\n\tlc640_write_int(EE_U_OUT_KONTR_MAX,2900);\r\n\tlc640_write_int(EE_U_OUT_KONTR_MIN,1870);\r\n\tlc640_write_int(EE_U_OUT_KONTR_DELAY,100);\r\n\tlc640_write_int(EE_AUSW_MAIN,22011);\r\n\t}\r\nlc640_write_int(EE_TERMOKOMP,1);\r\nlc640_write_int(EE_FORVARDBPSCHHOUR,24);\r\nlc640_write_int(EE_DOP_RELE_FUNC,1);\r\nlc640_write_int(EE_IPS_BLOCK_SRC,0);\r\nlc640_write_int(EE_TVENTMAX,6000);\r\nlc640_write_int(EE_ICA_EN,0);\r\nlc640_write_int(EE_PWM_START,50);\r\nlc640_write_int(EE_KB_ALGORITM,3);\r\nlc640_write_int(EE_REG_SPEED,1);\r\n}\r\n\r\n\r\n" }, { "alpha_fraction": 0.46952053904533386, "alphanum_fraction": 0.5440114736557007, "avg_line_length": 20.063636779785156, "blob_id": "669dc7e8354ae18fda88b2b7b00dd005eb636832", "content_id": "0b527c6d3cc315290b0d725b8f9a76fe9f533584", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 47046, "license_type": "no_license", "max_line_length": 147, "num_lines": 2090, "path": "/SOFT/UKU/2rki/avar_hndl.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#include \"avar_hndl.h\"\r\n#include \"eeprom_map.h\"\t \r\n#include \"full_can.h\"\r\n#include \"25lc640.h\"\r\n#include <LPC17xx.H>\r\n#include \"main.h\"\r\n#include \"control.h\"\r\n#include \"snmp_data_file.h\" \r\n\r\n \r\n//**********************************************\r\n//Аварии\r\nunsigned avar_stat;\t \t//\"Отображение\" всех аварийных в данный момент устройств в одном месте\r\nunsigned avar_ind_stat; \t//\"Отображение\" всех не просмотренных аварийных устройств в одном месте\r\nunsigned avar_stat_old;\r\nunsigned avar_stat_new,avar_stat_offed;\r\n//Структура переменных\r\n//1бит - питающая сеть\r\n//2бита - батареи\r\n//12бит - БПСы\r\n//5бит - инверторы\r\n//4бита - внешние датчики температуры\r\n//4бита - внешние сухие контакты\r\n\r\nchar /av_net//,av_bat[2]//av_bps[12],/av_inv[6];//,/av_dt[4],av_sk[4]/;\r\n\r\n// oleg_start\r\n//Аварии\r\nunsigned rki_avar1_stat;\t \t//\"Отображение\" всех аварийных в данный момент устройств в одном месте\r\nunsigned rki_avar1_ind_stat; \t//\"Отображение\" всех не просмотренных аварийных устройств в одном месте\r\nunsigned rki_avar1_stat_old;\r\nunsigned rki_avar1_stat_new, rki_avar1_stat_offed;\r\n\r\n\r\nunsigned rki_avarI1_stat;\t \t//\"Отображение\" всех аварийных в данный момент устройств в одном месте\r\nunsigned rki_avarI1_ind_stat; \t//\"Отображение\" всех не просмотренных аварийных устройств в одном месте\r\nunsigned rki_avarI1_stat_old;\r\nunsigned rki_avarI1_stat_new, rki_avarI1_stat_offed;\r\n\r\nunsigned rki_avarI2_stat;\t \t//\"Отображение\" всех аварийных в данный момент устройств в одном месте\r\nunsigned rki_avarI2_ind_stat; \t//\"Отображение\" всех не просмотренных аварийных устройств в одном месте\r\nunsigned rki_avarI2_stat_old;\r\nunsigned rki_avarI2_stat_new, rki_avarI2_stat_offed;\r\n\r\n// oleg_end\r\n\r\nextern char bOUT_FREE2;\t\r\n\r\n\r\n\r\n\r\n\r\n\r\n//*******************************************\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//Внешние\r\n\r\n\r\n//********************************************\r\n//Состояние первичной сети\r\n//char u_net_av_stat,u_net_av_stat_;\r\nextern signed short net_U,net_Ustore;\r\nextern char bFF,bFF_;\r\nextern signed short net_F,hz_out,hz_out_cnt;\r\nextern signed char unet_drv_cnt;\r\nextern char net_av;\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid avar_hndl(void)\r\n{\r\n//static unsigned avar_stat_old;\r\nchar i;\r\n//unsigned avar_stat_new,avar_stat_offed;\r\n\r\nif(net_av)\t\tSET_REG(avar_stat,1,0,1);\r\nelse\t \t\t\tSET_REG(avar_stat,0,0,1);\r\n\r\nfor(i=0;i<2;i++)\r\n\t{\r\n\tif(bat[i]._av&1)\tSET_REG(avar_stat,1,1+i,1);\r\n\telse\t \t\tSET_REG(avar_stat,0,1+i,1);\r\n\t}\r\n\r\nfor(i=0;i<12;i++)\r\n\t{\r\n\tif(bps[i]._av&0xef)\tSET_REG(avar_stat,1,3+i,1);\r\n\telse\t \t\tSET_REG(avar_stat,0,3+i,1);\r\n\t}\r\n\r\nfor(i=0;i<6;i++)\r\n\t{\r\n\tif(av_inv[i])\tSET_REG(avar_stat,1,15+i,1);\r\n\telse\t \t\tSET_REG(avar_stat,0,15+i,1);\r\n\t}\r\n\r\n/for(i=0;i<4;i++)\r\n\t{\r\n\tif(av_dt[i])\tSET_REG(avar_stat,1,21+i,1);\r\n\telse\t \t\tSET_REG(avar_stat,0,21+i,1);\r\n\t} /\r\nfor(i=0;i<4;i++)\r\n\t{\r\n\tif(sk_av_stat[i]==sasON)\tSET_REG(avar_stat,1,24+i,1);\r\n\telse\t \t\tSET_REG(avar_stat,0,24+i,1);\r\n\t}\r\n\r\nif(uout_av)\t\t\tSET_REG(avar_stat,1,28,1);\r\nelse\t \t\t\tSET_REG(avar_stat,0,28,1);\r\n\r\n\r\navar_stat_new=(avar_stat^avar_stat_old)&avar_stat;\r\n\r\navar_ind_stat\|=avar_stat_new;\r\n\r\nif((SK_ZVUK_EN[0])) avar_ind_stat&=(~(1UL<<24));\r\nif((SK_ZVUK_EN[1])) avar_ind_stat&=(~(1UL<<25));\r\nif((SK_ZVUK_EN[2])) avar_ind_stat&=(~(1UL<<26));\r\nif((SK_ZVUK_EN[3])) avar_ind_stat&=(~(1UL<<27));\t\r\n\r\n\r\navar_stat_offed=~((avar_stat^avar_stat_old)&avar_stat_old);\r\n\r\nif(!AV_OFF_AVT)avar_stat_offed\|=0xeffffffe;\r\n\r\navar_ind_stat&=avar_stat_offed; \r\n\r\navar_stat_old=avar_stat;\r\n\r\n//oleg_start\r\n\r\n\r\n\r\nrki_avar1_stat=(sk_alarm<<8)\|(status_izm_r&0x3F);\r\nrki_avar1_stat_new=(rki_avar1_stat^rki_avar1_stat_old)&rki_avar1_stat;\r\nrki_avar1_ind_stat\|=rki_avar1_stat_new;\r\nrki_avar1_stat_offed=~((rki_avar1_stat^rki_avar1_stat_old)&rki_avar1_stat_old);\r\nrki_avar1_ind_stat&=rki_avar1_stat_offed;\r\nrki_avar1_stat_old=rki_avar1_stat;\r\n\r\nrki_avarI1_stat=status_di1;\r\nrki_avarI1_stat_new=(rki_avarI1_stat^rki_avarI1_stat_old)&rki_avarI1_stat;\r\nrki_avarI1_ind_stat\|=rki_avarI1_stat_new;\r\nrki_avarI1_stat_offed=~((rki_avarI1_stat^rki_avarI1_stat_old)&rki_avarI1_stat_old);\r\nrki_avarI1_ind_stat&=rki_avarI1_stat_offed;\r\nrki_avarI1_stat_old=rki_avarI1_stat;\r\n\r\nrki_avarI2_stat=status_di2;\r\nrki_avarI2_stat_new=(rki_avarI2_stat^rki_avarI2_stat_old)&rki_avarI2_stat;\r\nrki_avarI2_ind_stat\|=rki_avarI2_stat_new;\r\nrki_avarI2_stat_offed=~((rki_avarI2_stat^rki_avarI2_stat_old)&rki_avarI2_stat_old);\r\nrki_avarI2_ind_stat&=rki_avarI2_stat_offed;\r\nrki_avarI2_stat_old=rki_avarI2_stat;\r\n\r\n//oleg_end\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid reload_hndl(void)\r\n{\r\nchar data[4];\r\nunsigned int event_ptr,lc640_adr/,event_ptr_find/,event_cnt;\r\n\r\nevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\nevent_ptr++;\t\r\nif(event_ptr>63)event_ptr=0;\t\r\nlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\nevent_cnt=lc640_read_int(CNT_EVENT_LOG);\r\nif(event_cnt!=63)event_cnt=event_ptr;\r\nlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\nlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\ndata[0]='U';\r\ndata[1]=0;\r\ndata[2]='R';\r\ndata[3]=0;\r\nlc640_write_long_ptr(lc640_adr,data);\r\n\r\ndata[0]=0;\r\ndata[1]=0;\r\ndata[2]=0;\r\ndata[3]=0;\r\nlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\ndata[0]=LPC_RTC->YEAR;\r\ndata[1]=LPC_RTC->MONTH;\r\ndata[2]=LPC_RTC->DOM;\r\ndata[3]=0;\r\nlc640_write_long_ptr(lc640_adr+8,data);\r\n\r\ndata[0]=LPC_RTC->HOUR;\r\ndata[1]=LPC_RTC->MIN;\r\ndata[2]=LPC_RTC->SEC;\r\ndata[3]=LPC_SC->RSID;\r\n\r\nlc640_write_long_ptr(lc640_adr+12,data);\r\n\t\r\ndata[0]='A';\r\ndata[1]='A';\r\ndata[2]='A';\r\ndata[3]='A';\r\nlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\ndata[0]='A';\r\ndata[1]='A';\r\ndata[2]='A';\r\ndata[3]='A';\r\nlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\ndata[0]='A';\r\ndata[1]='A';\r\ndata[2]='A';\r\ndata[3]='A';\r\nlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\ndata[0]='A';\r\ndata[1]='A';\r\ndata[2]='A';\r\ndata[3]='A';\r\nlc640_write_long_ptr(lc640_adr+28,data);\t\t\t\t\r\n\t\r\n\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid avar_unet_hndl(char in)\r\n{\r\n\r\nchar data[4];\r\nunsigned int event_ptr,lc640_adr,event_ptr_find,event_cnt;\r\n\r\n\r\nif(in==1)\r\n\t{\r\n\tnet_av=1;\r\n\r\n\t//beep_init(0x01L,'O');\r\n\t//a.av.bAN=1;\r\n\r\n\r\n\t//beep_init(0x33333333,'A');\r\n\t \r\n\tevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr++;\t\r\n\tif(event_ptr>63)event_ptr=0;\t\r\n\tlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\n event_cnt=lc640_read_int(CNT_EVENT_LOG);\r\n\tif(event_cnt!=63)event_cnt=event_ptr;\r\n\tlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\n\tlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\n\tdata[0]='P';\r\n\tdata[1]=0;\r\n\tdata[2]='A';\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr,data);\r\n\r\n\tdata[0]=0;//((char)&Unet_store);\r\n\tdata[1]=0;//(((char)&Unet_store)+1);\r\n\tdata[2]=0;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+8,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+12,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\t\t\t\t\r\n\t\r\n/\tmemo_out0[0]=0x55;\r\n memo_out0[1]=0x00+2;\r\n memo_out0[2]=1;\r\n memo_out0[3]=0x0b;\r\n memo_out0[4]=0x55;\r\n memo_out0[5]=0x55; \r\n \t\r\n memo_out0[6]=crc_87(memo_out0,6);\r\n\tmemo_out0[7]=crc_95(memo_out0,6);\r\n usart_out_adr0(memo_out0,8); \r\n\t/\r\n\tsnmp_trap_send(\"Main power alarm\",2,1,0);\r\n\t}\r\n\r\nelse if(in==0)\r\n\t{\r\n\tnet_av=0;\r\n\r\n /\r\n\tSET_REG(C2GSR,3,24,8);\r\n\tC2MOD=0;\r\n\tbOUT_FREE2=1;/\r\n\r\n\r\n\t//C2MOD=0;\r\n\r\n\t//can2_init(7,8,CANBitrate250k_60MHz);\r\n\r\n //beep_init(0x02L,'O');\r\n\t//a_.av.bAN=0;\r\n\tSET_REG(avar_stat,0,0,1);\r\n\r\n\t//if(AV_OFF_AVT)a.av.bAN=0;\r\n\t\r\n\tif(AV_OFF_AVT) SET_REG(avar_ind_stat,0,0,1);\r\n\r\n event_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr_find=event_ptr;\r\navar_unet_hndl_lbl1:\r\n\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n lc640_read_long_ptr(lc640_adr,data);\r\n \r\n if(!((data[0]=='P')&&(data[1]==0)&&(data[2]=='A')))\r\n \t{ \r\n \tif(event_ptr_find)event_ptr_find--;\r\n \telse event_ptr_find=63;\r\n \tif(event_ptr_find==event_ptr)goto avar_unet_hndl_end;\r\n \telse goto avar_unet_hndl_lbl1;\r\n \t}\r\n else \r\n \t{\r\n \tlc640_read_long_ptr(lc640_adr+16,data);\r\n \tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)goto avar_unet_hndl_end;\r\n \t\telse goto avar_unet_hndl_lbl1;\r\n \t\t}\r\n\r\n \t}\t\r\n\t\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+20,data); \r\n\t\r\n\tdata[0]=((char)(&net_Ustore));\r\n\tdata[1]=(((char)(&net_Ustore))+1);\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]='B';\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\t\r\n\t\r\n/\tmemo_out0[0]=0x55;\r\n memo_out0[1]=0x00+2;\r\n memo_out0[2]=1;\r\n memo_out0[3]=0x0b;\r\n memo_out0[4]=0xaa;\r\n memo_out0[5]=0xaa; \r\n \t\r\n memo_out0[6]=crc_87(memo_out0,6);\r\n\tmemo_out0[7]=crc_95(memo_out0,6);\r\n usart_out_adr0(memo_out0,8); /\r\n snmp_trap_send(\"Main power alarm clear\",2,1,1);\t\r\n\t}\r\navar_unet_hndl_end:\r\n\t__nop();\t\t\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid avar_uout_hndl(char in)\r\n{\r\n\r\nchar data[4];\r\nunsigned int event_ptr,lc640_adr,event_ptr_find,event_cnt;\r\n\r\n\r\nif(in==1)\r\n\t{\r\n\t//net_av=1;\r\n\r\n\t//beep_init(0x01L,'O');\r\n\t//a.av.bAN=1;\r\n\r\n\r\n\t//beep_init(0x33333333,'A');\r\n\r\n\tif(load_U>U_OUT_KONTR_MAX)uout_av=1;\r\n\tif(load_U<U_OUT_KONTR_MIN)uout_av=2;\r\n\t\t \r\n\tevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr++;\t\r\n\tif(event_ptr>63)event_ptr=0;\t\r\n\tlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\n event_cnt=lc640_read_int(CNT_EVENT_LOG);\r\n\tif(event_cnt!=63)event_cnt=event_ptr;\r\n\tlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\n\tlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\n\tdata[0]='Q';\r\n\tdata[1]=0;\r\n\tdata[2]='A';\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr,data);\r\n\r\n\tdata[0]=0;//((char)&Unet_store);\r\n\tdata[1]=0;//(((char)&Unet_store)+1);\r\n\tdata[2]=0;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+8,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+12,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\t\t\t\t\r\n\t\r\n/\tmemo_out0[0]=0x55;\r\n memo_out0[1]=0x00+2;\r\n memo_out0[2]=1;\r\n memo_out0[3]=0x0b;\r\n memo_out0[4]=0x55;\r\n memo_out0[5]=0x55; \r\n \t\r\n memo_out0[6]=crc_87(memo_out0,6);\r\n\tmemo_out0[7]=crc_95(memo_out0,6);\r\n usart_out_adr0(memo_out0,8); \r\n\t/\r\n\t//snmp_trap_send(\"Main power is off\",2,1,0);\r\n\t}\r\n\r\nelse if(in==0)\r\n\t{\r\n\tuout_av=0;\r\n\r\n /\r\n\tSET_REG(C2GSR,3,24,8);\r\n\tC2MOD=0;\r\n\tbOUT_FREE2=1;/\r\n\r\n\r\n\t//C2MOD=0;\r\n\r\n\t//can2_init(7,8,CANBitrate250k_60MHz);\r\n\r\n //beep_init(0x02L,'O');\r\n\t//a_.av.bAN=0;\r\n//\tSET_REG(avar_stat,0,0,1);\r\n\r\n\t//if(AV_OFF_AVT)a.av.bAN=0;\r\n\t\r\n\t//if(AV_OFF_AVT) SET_REG(avar_ind_stat,0,0,1);\r\n\r\n event_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr_find=event_ptr;\r\navar_uout_hndl_lbl1:\r\n\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n lc640_read_long_ptr(lc640_adr,data);\r\n \r\n if(!((data[0]=='Q')&&(data[1]==0)&&(data[2]=='A')))\r\n \t{ \r\n \tif(event_ptr_find)event_ptr_find--;\r\n \telse event_ptr_find=63;\r\n \tif(event_ptr_find==event_ptr)goto avar_unet_hndl_end;\r\n \telse goto avar_uout_hndl_lbl1;\r\n \t}\r\n else \r\n \t{\r\n \tlc640_read_long_ptr(lc640_adr+16,data);\r\n \tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)goto avar_unet_hndl_end;\r\n \t\telse goto avar_uout_hndl_lbl1;\r\n \t\t}\r\n\r\n \t}\t\r\n\t\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+20,data); \r\n\t\r\n\tdata[0]=((char)(&net_Ustore));\r\n\tdata[1]=(((char)(&net_Ustore))+1);\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]='B';\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\t\r\n\t\r\n/\tmemo_out0[0]=0x55;\r\n memo_out0[1]=0x00+2;\r\n memo_out0[2]=1;\r\n memo_out0[3]=0x0b;\r\n memo_out0[4]=0xaa;\r\n memo_out0[5]=0xaa; \r\n \t\r\n memo_out0[6]=crc_87(memo_out0,6);\r\n\tmemo_out0[7]=crc_95(memo_out0,6);\r\n usart_out_adr0(memo_out0,8); /\r\n snmp_trap_send(\"Main power is on\",2,1,1);\t\r\n\t}\r\navar_unet_hndl_end:\r\n\t__nop();\t\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid avar_bps_hndl(char dev, char v, char in)\r\n{\r\nchar data[4];\r\nunsigned short event_ptr,lc640_adr,event_ptr_find,event_cnt;\r\nchar avar_simbol;\r\n\r\navar_simbol='T';\r\nif(v==0)avar_simbol='T';\r\nelse if(v==1)avar_simbol='U';\r\nelse if(v==2)avar_simbol='u';\r\nelse if(v==3)avar_simbol='L';\r\n\r\nif(in==1)\r\n\t{\r\n\t//av_src[bps]=1;\r\n\r\n//\tSET_REG(avar_ind_stat,1,3+dev,1);\r\n//\tSET_REG(avar_stat,1,3+dev,1);\r\n\t\r\n\tif(v==0)bps[dev]._av\|=(1<<0);\r\n\telse if(v==1) bps[dev]._av\|=(1<<1);\r\n\telse if(v==2) bps[dev]._av\|=(1<<2);\r\n\telse if(v==3) bps[dev]._av\|=(1<<3);\r\n\r\n\tbps[dev]._last_avar=v;\r\n\r\n\t//beep_init(0x33333333,'A');\r\n\r\n\tevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr++;\t\r\n\tif(event_ptr>63)event_ptr=0;\t\r\n\tlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\n event_cnt=lc640_read_int(CNT_EVENT_LOG);\r\n\tif(event_cnt!=63)event_cnt=event_ptr;\r\n\tlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\n\tlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\n\tdata[0]='S';\r\n\tdata[1]=dev; \r\n\tdata[2]=avar_simbol;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr,data);\r\n\r\n\tdata[0]=0;\r\n\tdata[1]=0;\r\n\tdata[2]=0;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+8,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+12,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\t\t\r\n\r\n\r\n\tif(dev==0)\r\n\t\t{\r\n\t\tif(v==0)\r\n\t\tsnmp_trap_send(\"BPS #1 Alarm, overheat\",4,1,0);\r\n\t\telse if(v==1)\r\n\t\tsnmp_trap_send(\"BPS #1 Alarm, voltage is up\",4,1,1);\r\n\t\telse if(v==2)\r\n\t\tsnmp_trap_send(\"BPS #1 Alarm, voltage is down\",4,1,2);\r\n\t\telse if(v==3)\r\n\t\tsnmp_trap_send(\"BPS #1 Alarm, connect is lost\",4,1,3);\r\n\t\t}\r\n\telse if(dev==1)\r\n\t\t{\r\n\t\tif(v==0)\r\n\t\tsnmp_trap_send(\"BPS #2 Alarm, overheat\",4,2,0);\r\n\t\telse if(v==1)\r\n\t\tsnmp_trap_send(\"BPS #2 Alarm, voltage is up\",4,2,1);\r\n\t\telse if(v==2)\r\n\t\tsnmp_trap_send(\"BPS #2 Alarm, voltage is down\",4,2,2);\r\n\t\telse if(v==3)\r\n\t\tsnmp_trap_send(\"BPS #2 Alarm, connect is lost\",4,2,3);\r\n\t\t} \r\n\telse if(dev==2)\r\n\t\t{\r\n\t\tif(v==0)\r\n\t\tsnmp_trap_send(\"BPS #3 Alarm, overheat\",4,3,0);\r\n\t\telse if(v==1)\r\n\t\tsnmp_trap_send(\"BPS #3 Alarm, voltage is up\",4,3,1);\r\n\t\telse if(v==2)\r\n\t\tsnmp_trap_send(\"BPS #3 Alarm, voltage is down\",4,3,2);\r\n\t\telse if(v==3)\r\n\t\tsnmp_trap_send(\"BPS #3 Alarm, connect is lost\",4,3,3);\r\n\t\t} \t\r\n\t\t\t\r\n\t}\r\n\r\nelse if(in==0)\r\n\t{ \r\n//\tav_bps[bps]=0;\r\n\r\n\t//SET_REG(avar_stat,0,3+bps,1);\r\n\t//if(AV_OFF_AVT) SET_REG(avar_ind_stat,0,3+bps,1);\r\n\r\n if(v==0) bps[dev]._av&=(~(1<<0));\r\n else if(v==1) bps[dev]._av&=(~(1<<1));\r\n\telse if(v==2) bps[dev]._av&=(~(1<<2));\r\n\telse if(v==3) bps[dev]._av&=(~(1<<3));\r\n \r\n//\tif((bps[dev]._av&0x0f==0))\r\n//\t {\r\n\t\t//SET_REG(avar_stat,0,3+bps,1);\r\n\t\t//if(AV_OFF_AVT) SET_REG(avar_ind_stat,0,3+bps,1);\r\n//\t }\r\n \r\n\tevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr_find=event_ptr;\r\n\t\r\navar_src_hndl_lbl1: \r\n\r\n\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n lc640_read_long_ptr(lc640_adr,data);\r\n \r\n if(!((data[0]=='S')&&(data[1]==dev)&&(data[2]==avar_simbol)))\r\n \t{ \r\n \tif(event_ptr_find)event_ptr_find--;\r\n \telse event_ptr_find=63;\r\n \tif(event_ptr_find==event_ptr)goto avar_src_hndl_end;\r\n \telse goto avar_src_hndl_lbl1;\r\n \t}\r\n else \r\n \t{\r\n \tlc640_read_long_ptr(lc640_adr+16,data);\r\n \tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)goto avar_src_hndl_end;\r\n \t\telse goto avar_src_hndl_lbl1;\r\n \t\t}\r\n\r\n \t}\t\r\n\r\n\r\n\t\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]='B';\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]='B';\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\r\n\t}\r\n\t\r\navar_src_hndl_end:\r\n__nop();\t\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid wrk_mem_hndl(char b)\r\n{\r\nchar data[4];\r\nunsigned short event_ptr,lc640_adr/,event_ptr_find/,event_cnt;\r\n\r\nsigned short temp_temp;\r\n\r\nif(bat[b]._Iintegr_<5) goto wrk_mem_hndl_end;\r\n\r\ntemp_temp=bat[b]._u_old[((bat_u_old_cnt+6)&0x07)]; \r\n\r\n\r\nevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\nevent_ptr++;\t\r\nif(event_ptr>63)event_ptr=0;\t\r\nlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\nevent_cnt=lc640_read_int(CNT_EVENT_LOG);\r\nif(event_cnt!=63)event_cnt=event_ptr;\r\nlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\nlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\ndata[0]='B';\r\ndata[1]=b; \r\ndata[2]='W';\r\ndata[3]=0;\r\n\r\nlc640_write_long_ptr(lc640_adr,data);\r\n\r\ndata[0]=((char)&bat[b]._Iintegr_);\r\ndata[1]=(((char)(&bat[b]._Iintegr_))+1);\r\ndata[2]=((char)&temp_temp);\r\ndata[3]=(((char)(&temp_temp))+1);\r\nlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\nlc640_write_long_ptr(lc640_adr+8,(char)&bat[b]._wrk_date[0]);\r\n\t\r\nlc640_write_long_ptr(lc640_adr+12,(char)&bat[b]._wrk_date[1]);\r\n\r\ndata[0]=LPC_RTC->YEAR;\r\ndata[1]=LPC_RTC->MONTH;\r\ndata[2]=LPC_RTC->DOM;\r\ndata[3]=0;\r\nlc640_write_long_ptr(lc640_adr+16,data);\r\n\r\ndata[0]=LPC_RTC->HOUR;\r\ndata[1]=LPC_RTC->MIN;\r\ndata[2]=LPC_RTC->SEC;\r\ndata[3]=0;\r\nlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\r\n\r\n\t\r\nwrk_mem_hndl_end:\t\r\n__nop();\r\n} \r\n\r\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\n//-----------------------------------------------\r\nvoid avar_bat_ips_hndl(char in)\r\n{\r\nchar data[4];\r\nunsigned short event_ptr,lc640_adr,event_ptr_find,event_cnt;\r\n\r\nif(in==1)\r\n\t{\r\n\tbat_ips._av\|=1;\r\n ips_bat_av_stat=1;\r\n\tips_bat_av_vzvod=1;\r\n\r\n\tevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr++;\t\r\n\tif(event_ptr>63)event_ptr=0;\t\r\n\tlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\n event_cnt=lc640_read_int(CNT_EVENT_LOG);\r\n\tif(event_cnt!=63)event_cnt=event_ptr;\r\n\tlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\n\tlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]=0;\r\n\tdata[2]='C';\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr,data);\r\n\r\n\tdata[0]=0;\r\n\tdata[1]=0;\r\n\tdata[2]=0;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+8,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+12,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\t\t\t\t\r\n\tsnmp_trap_send(\"BAT №1 Alarm, lost\",5,1,1);\r\n\t\t\r\n\t}\r\n\r\nelse if(in==0)\r\n\t{\r\n\tbat_ips._av&=~1;\r\n\tips_bat_av_stat=0;\r\n\tips_bat_av_vzvod=0;\r\n \r\n\tevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr_find=event_ptr;\r\n\t\r\navar_bat_ips_hndl_lbl1: \r\n\r\n\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n lc640_read_long_ptr(lc640_adr,data);\r\n \r\n if(!((data[0]=='B')&&(data[1]==0)&&(data[2]=='C')))\r\n \t{ \r\n \tif(event_ptr_find)event_ptr_find--;\r\n \telse event_ptr_find=63;\r\n \tif(event_ptr_find==event_ptr)goto avar_bat_ips_hndl_end;\r\n \telse goto avar_bat_ips_hndl_lbl1;\r\n \t}\r\n else \r\n \t{\r\n \tlc640_read_long_ptr(lc640_adr+16,data);\r\n \tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t \tif(event_ptr_find==event_ptr)goto avar_bat_ips_hndl_end;\r\n \t\telse goto avar_bat_ips_hndl_lbl1;\r\n \t\t}\r\n\r\n \t}\r\n \t\t\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]='B';\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]='B';\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\r\n\r\n\t\r\n\t}\r\n\t\r\navar_bat_ips_hndl_end:\r\n__nop();\t\t\r\n}\r\n\r\n#endif\r\n\r\n//-----------------------------------------------\r\nvoid avar_bat_hndl(char b, char in)\r\n{\r\nchar data[4];\r\nunsigned short event_ptr,lc640_adr,event_ptr_find,event_cnt;\r\n\r\nif(in==1)\r\n\t{\r\n\tbat[b]._av\|=1;\r\n \r\n\tevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr++;\t\r\n\tif(event_ptr>63)event_ptr=0;\t\r\n\tlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\n event_cnt=lc640_read_int(CNT_EVENT_LOG);\r\n\tif(event_cnt!=63)event_cnt=event_ptr;\r\n\tlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\n\tlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]=b;\r\n\tdata[2]='C';\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr,data);\r\n\r\n\tdata[0]=0;\r\n\tdata[1]=0;\r\n\tdata[2]=0;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+8,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+12,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\t\t\t\t\r\n\tif(b==0)\r\n\t\t{\r\n\t\tsnmp_trap_send(\"BAT #1 Alarm, lost\",5,1,1);\r\n\t\t}\r\n\telse if(b==1)\r\n\t\t{\r\n\t\tsnmp_trap_send(\"BAT #2 Alarm, lost\",5,2,1);\r\n\t\t} \r\n\t\t\t\r\n\t}\r\n\r\nelse if(in==0)\r\n\t{\r\n\tbat[b]._av&=~1;\r\n\r\n event_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr_find=event_ptr;\r\n\t\r\navar_bat_hndl_lbl1: \r\n\r\n\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n lc640_read_long_ptr(lc640_adr,data);\r\n \r\n if(!((data[0]=='B')&&(data[1]==b)&&(data[2]=='C')))\r\n \t{ \r\n \tif(event_ptr_find)event_ptr_find--;\r\n \telse event_ptr_find=63;\r\n \tif(event_ptr_find==event_ptr)goto avar_bat_hndl_end;\r\n \telse goto avar_bat_hndl_lbl1;\r\n \t}\r\n else \r\n \t{\r\n \tlc640_read_long_ptr(lc640_adr+16,data);\r\n \tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t \tif(event_ptr_find==event_ptr)goto avar_bat_hndl_end;\r\n \t\telse goto avar_bat_hndl_lbl1;\r\n \t\t}\r\n\r\n \t}\r\n \t\t\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]='B';\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]='B';\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\r\n\r\n\t\r\n\t}\r\n\t\r\navar_bat_hndl_end:\r\n__nop();\t\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid avar_bat_as_hndl(char b, char in)\r\n{\r\nchar data[4];\r\nunsigned short event_ptr,lc640_adr,event_ptr_find,event_cnt;\r\n\r\nif(in==1)\r\n\t{\r\n\tbat[b]._av\|=2;\r\n \r\n\tevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr++;\t\r\n\tif(event_ptr>63)event_ptr=0;\t\r\n\tlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\n event_cnt=lc640_read_int(CNT_EVENT_LOG);\r\n\tif(event_cnt!=63)event_cnt=event_ptr;\r\n\tlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\n\tlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]=b;\r\n\tdata[2]='S';\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr,data);\r\n\r\n\tdata[0]=0;\r\n\tdata[1]=0;\r\n\tdata[2]=0;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+8,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+12,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\t\t\t\t\r\n\r\n\tif(b==0)\r\n\t\t{\r\n\t\tsnmp_trap_send(\"BAT #1 Alarm, assimetry\",5,1,2);\r\n\t\t}\r\n\telse if(b==1)\r\n\t\t{\r\n\t\tsnmp_trap_send(\"BAT #2 Alarm, assimetry\",5,2,2);\r\n\t\t} \r\n\t\r\n\t}\r\n\r\nelse if(in==0)\r\n\t{\r\n\t//bat[b]._av=0;\r\n\r\n event_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr_find=event_ptr;\r\n\t\r\navar_bat_as_hndl_lbl1: \r\n\r\n\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n lc640_read_long_ptr(lc640_adr,data);\r\n \r\n if(!((data[0]=='B')&&(data[1]==b)&&(data[2]=='C')))\r\n \t{ \r\n \tif(event_ptr_find)event_ptr_find--;\r\n \telse event_ptr_find=63;\r\n \tif(event_ptr_find==event_ptr)goto avar_bat_as_hndl_end;\r\n \telse goto avar_bat_as_hndl_lbl1;\r\n \t}\r\n else \r\n \t{\r\n \tlc640_read_long_ptr(lc640_adr+16,data);\r\n \tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t \tif(event_ptr_find==event_ptr)goto avar_bat_as_hndl_end;\r\n \t\telse goto avar_bat_as_hndl_lbl1;\r\n \t\t}\r\n\r\n \t}\r\n \t\t\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]='B';\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]='B';\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\r\n\r\n\t\r\n\t}\r\n\t\r\navar_bat_as_hndl_end:\r\n__nop();\t\t\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid ke_mem_hndl(char b,unsigned short in)\r\n{\r\nchar data[4];\r\nunsigned int event_ptr=0,lc640_adr/,event_ptr_find/,event_cnt;\r\n//unsigned char temp,temp_;\r\n//unsigned int tempUI;\r\n//unsigned long tempUL; \r\nsigned temp_temp;\r\n\r\ntemp_temp=bat[b]._u_old[bat_u_old_cnt+1]; \r\n\r\nevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\nevent_ptr++;\t\r\nif(event_ptr>63)event_ptr=0;\t\r\nlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\nevent_cnt=lc640_read_int(CNT_EVENT_LOG);\r\nif(event_cnt!=63)event_cnt=event_ptr;\r\nlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\nlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\ndata[0]='B';\r\ndata[1]=b; \r\ndata[2]='K';\r\ndata[3]=0;\r\n\r\nlc640_write_long_ptr(lc640_adr,data);\r\n\r\ndata[0]=((char)&in);\r\ndata[1]=(((char)(&in))+1);\r\ndata[2]=((char)&temp_temp);\r\ndata[3]=(((char)(&temp_temp))+1);\r\nlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\nke_date[0]=lc640_read_long(EE_SPC_KE_DATE0);\r\nlc640_write_long_ptr(lc640_adr+8,(char)&ke_date[0]);\r\nke_date[1]=lc640_read_long(EE_SPC_KE_DATE1);\t\r\nlc640_write_long_ptr(lc640_adr+12,(char)&ke_date[1]);\r\n\r\ndata[0]=LPC_RTC->YEAR;\r\ndata[1]=LPC_RTC->MONTH;\r\ndata[2]=LPC_RTC->DOM;\r\ndata[3]=0;\r\nlc640_write_long_ptr(lc640_adr+16,data);\r\n\r\ndata[0]=LPC_RTC->HOUR;\r\ndata[1]=LPC_RTC->MIN;\r\ndata[2]=LPC_RTC->SEC;\r\ndata[3]=0;\r\nlc640_write_long_ptr(lc640_adr+20,data);\r\n \r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid vz_mem_hndl(unsigned short in)\r\n{\r\nchar data[4];\r\nunsigned int event_ptr=0,lc640_adr,event_ptr_find=0,event_cnt;\r\n//char avar_simbol;\r\n\r\nif(in==1)\r\n\t{\r\n\tevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr++;\t\r\n\tif(event_ptr>63)event_ptr=0;\t\r\n\tlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\n event_cnt=lc640_read_int(CNT_EVENT_LOG);\r\n\tif(event_cnt!=63)event_cnt=event_ptr;\r\n\tlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\n\tlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]=0; \r\n\tdata[2]='Z';\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr,data);\r\n\r\n\tdata[0]=0;\r\n\tdata[1]=0;\r\n\tdata[2]=0;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+8,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+12,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\t\t\r\n \t\r\n\t}\r\n\r\nelse if(in==0)\r\n\t{ \r\n \r\nvz_mem_hndl_lbl1: \r\n\r\n\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n lc640_read_long_ptr(lc640_adr,data);\r\n \r\n if(!((data[0]=='B')&&(data[2]=='Z')))\r\n \t{ \r\n \tif(event_ptr_find)event_ptr_find--;\r\n \telse event_ptr_find=63;\r\n \tif(event_ptr_find==event_ptr)goto vz_mem_hndl_end;\r\n \telse goto vz_mem_hndl_lbl1;\r\n \t}\r\n else \r\n \t{\r\n \tlc640_read_long_ptr(lc640_adr+16,data);\r\n \tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)goto vz_mem_hndl_end;\r\n \t\telse goto vz_mem_hndl_lbl1;\r\n \t\t}\r\n\r\n \t}\t\r\n\r\n\r\n\t\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]='B';\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='B';\r\n\tdata[1]='B';\r\n\tdata[2]='B';\r\n\tdata[3]='B';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\r\n\t}\r\n\r\nvz_mem_hndl_end:\r\n__nop(); \r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid speedz_mem_hndl(unsigned short in)\t //отметка об ускоренном заряде (1-старт, 5-автоматический старт, 0-штатное завершение, 10-прерван вручную)\r\n{\r\nchar data[4];\r\nunsigned int event_ptr=0,lc640_adr,event_ptr_find=0,event_cnt;\r\n//char avar_simbol;\r\n\r\nif((in==1)\|\|(in==5)) //старт ускоренного заряда\r\n\t{\r\n\tevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr++;\t\r\n\tif(event_ptr>63)event_ptr=0;\t\r\n\tlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\n event_cnt=lc640_read_int(CNT_EVENT_LOG);\r\n\tif(event_cnt!=63)event_cnt=event_ptr;\r\n\tlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\n\tlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\n\tdata[0]='s';\r\n\tdata[1]=0;\r\n\tif(in==5)data[1]='a'; \r\n\tdata[2]='Z';\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr,data);\r\n\r\n\tdata[0]=0;\r\n\tdata[1]=0;\r\n\tdata[2]=0;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+8,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+12,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\t\t\r\n \t\r\n\t}\r\n\r\nelse if(in==0)\t//штатное завершение\r\n\t{ \r\n\tchar i; \r\n\tevent_ptr_find=0;\r\n\tfor (i=0;i<63;i++)\r\n\t\t{\r\n\t\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n \tlc640_read_long_ptr(lc640_adr,data);\r\n \r\n \tif(!((data[0]=='s')&&(data[2]=='Z')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)\r\n\t\t\t\t{\r\n\t\t\t\tlc640_adr=0;\r\n\t\t\t\tbreak;\r\n\t\t\t\t}\r\n \t\telse continue;\r\n \t\t}\r\n \telse \r\n \t\t{\r\n \t\tlc640_read_long_ptr(lc640_adr+16,data);\r\n \t\tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t\t{ \r\n \t\t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tlc640_adr=0;\r\n\t\t\t\t\tbreak;\r\n\t\t\t\t\t}\r\n \t\t\telse continue;\r\n \t\t\t}\r\n \t\t}\t\r\n\t\t}\r\n\tif(lc640_adr!=0)\r\n\t\t{\r\n\t\tdata[0]=LPC_RTC->YEAR;\r\n\t\tdata[1]=LPC_RTC->MONTH;\r\n\t\tdata[2]=LPC_RTC->DOM;\r\n\t\tdata[3]=0;\r\n\t\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\t\tdata[0]=LPC_RTC->HOUR;\r\n\t\tdata[1]=LPC_RTC->MIN;\r\n\t\tdata[2]=LPC_RTC->SEC;\r\n\t\tdata[3]=0;\r\n\t\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\t\r\n\t\tdata[0]='C';\r\n\t\tdata[1]='C';\r\n\t\tdata[2]='C';\r\n\t\tdata[3]='C';\r\n\t\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\t\r\n\t\tdata[0]='C';\r\n\t\tdata[1]='C';\r\n\t\tdata[2]='C';\r\n\t\tdata[3]='C';\r\n\t\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\t}\r\n\t}\r\nelse if(in==10) \t// прервано оператором\r\n\t{ \r\n\tchar i; \r\n\r\n\tevent_ptr_find=0;\r\n\tfor (i=0;i<63;i++)\r\n\t\t{\r\n\t\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n \tlc640_read_long_ptr(lc640_adr,data);\r\n \r\n \tif(!((data[0]=='s')&&(data[2]=='Z')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)\r\n\t\t\t\t{\r\n\t\t\t\tlc640_adr=0;\r\n\t\t\t\tbreak;\r\n\t\t\t\t}\r\n \t\telse continue;\r\n \t\t}\r\n \telse \r\n \t\t{\r\n \t\tlc640_read_long_ptr(lc640_adr+16,data);\r\n \t\tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t\t{ \r\n \t\t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tlc640_adr=0;\r\n\t\t\t\t\tbreak;\r\n\t\t\t\t\t}\r\n \t\t\telse continue;\r\n \t\t\t}\r\n \t\t}\t\r\n\t\t}\r\n\tif(lc640_adr!=0)\r\n\t\t{\r\n\t\tdata[0]=LPC_RTC->YEAR;\r\n\t\tdata[1]=LPC_RTC->MONTH;\r\n\t\tdata[2]=LPC_RTC->DOM;\r\n\t\tdata[3]=0;\r\n\t\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\t\tdata[0]=LPC_RTC->HOUR;\r\n\t\tdata[1]=LPC_RTC->MIN;\r\n\t\tdata[2]=LPC_RTC->SEC;\r\n\t\tdata[3]=0;\r\n\t\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\t\r\n\t\tdata[0]='B';\r\n\t\tdata[1]='B';\r\n\t\tdata[2]='B';\r\n\t\tdata[3]='B';\r\n\t\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\t\r\n\t\tdata[0]='B';\r\n\t\tdata[1]='B';\r\n\t\tdata[2]='B';\r\n\t\tdata[3]='B';\r\n\t\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\t}\r\n\t}\r\n}\r\n \r\n\r\n//-----------------------------------------------\r\nvoid uz_mem_hndl(unsigned short in)\t //отметка об уравнительном заряде\r\n{\r\nchar data[4];\r\nunsigned int event_ptr=0,lc640_adr,event_ptr_find=0,event_cnt;\r\n//char avar_simbol;\r\n\r\nif(in==1) //старт уравнительного заряда\r\n\t{\r\n\tevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr++;\t\r\n\tif(event_ptr>63)event_ptr=0;\t\r\n\tlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\n event_cnt=lc640_read_int(CNT_EVENT_LOG);\r\n\tif(event_cnt!=63)event_cnt=event_ptr;\r\n\tlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\n\tlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\n\tdata[0]='u';\r\n\tdata[1]=0; \r\n\tdata[2]='Z';\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr,data);\r\n\r\n\tdata[0]=0;\r\n\tdata[1]=0;\r\n\tdata[2]=0;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+8,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+12,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\t\t\r\n \t\r\n\t}\r\n\r\nelse if(in==0)\t//штатное завершение\r\n\t{ \r\n\tchar i; \r\n\tevent_ptr_find=0;\r\n\tfor (i=0;i<63;i++)\r\n\t\t{\r\n\t\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n \tlc640_read_long_ptr(lc640_adr,data);\r\n \r\n \tif(!((data[0]=='u')&&(data[2]=='Z')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)\r\n\t\t\t\t{\r\n\t\t\t\tlc640_adr=0;\r\n\t\t\t\tbreak;\r\n\t\t\t\t}\r\n \t\telse continue;\r\n \t\t}\r\n \telse \r\n \t\t{\r\n \t\tlc640_read_long_ptr(lc640_adr+16,data);\r\n \t\tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t\t{ \r\n \t\t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tlc640_adr=0;\r\n\t\t\t\t\tbreak;\r\n\t\t\t\t\t}\r\n \t\t\telse continue;\r\n \t\t\t}\r\n \t\t}\t\r\n\t\t}\r\n\tif(lc640_adr!=0)\r\n\t\t{\r\n\t\tdata[0]=LPC_RTC->YEAR;\r\n\t\tdata[1]=LPC_RTC->MONTH;\r\n\t\tdata[2]=LPC_RTC->DOM;\r\n\t\tdata[3]=0;\r\n\t\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\t\tdata[0]=LPC_RTC->HOUR;\r\n\t\tdata[1]=LPC_RTC->MIN;\r\n\t\tdata[2]=LPC_RTC->SEC;\r\n\t\tdata[3]=0;\r\n\t\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\t\r\n\t\tdata[0]='C';\r\n\t\tdata[1]='C';\r\n\t\tdata[2]='C';\r\n\t\tdata[3]='C';\r\n\t\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\t\r\n\t\tdata[0]='C';\r\n\t\tdata[1]='C';\r\n\t\tdata[2]='C';\r\n\t\tdata[3]='C';\r\n\t\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\t}\r\n\t}\r\nelse if(in==10) \t// прервано оператором\r\n\t{ \r\n\tchar i; \r\n\r\n\tevent_ptr_find=0;\r\n\tfor (i=0;i<63;i++)\r\n\t\t{\r\n\t\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n \tlc640_read_long_ptr(lc640_adr,data);\r\n \r\n \tif(!((data[0]=='u')&&(data[2]=='Z')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)\r\n\t\t\t\t{\r\n\t\t\t\tlc640_adr=0;\r\n\t\t\t\tbreak;\r\n\t\t\t\t}\r\n \t\telse continue;\r\n \t\t}\r\n \telse \r\n \t\t{\r\n \t\tlc640_read_long_ptr(lc640_adr+16,data);\r\n \t\tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t\t{ \r\n \t\t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tlc640_adr=0;\r\n\t\t\t\t\tbreak;\r\n\t\t\t\t\t}\r\n \t\t\telse continue;\r\n \t\t\t}\r\n \t\t}\t\r\n\t\t}\r\n\tif(lc640_adr!=0)\r\n\t\t{\r\n\t\tdata[0]=LPC_RTC->YEAR;\r\n\t\tdata[1]=LPC_RTC->MONTH;\r\n\t\tdata[2]=LPC_RTC->DOM;\r\n\t\tdata[3]=0;\r\n\t\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\t\tdata[0]=LPC_RTC->HOUR;\r\n\t\tdata[1]=LPC_RTC->MIN;\r\n\t\tdata[2]=LPC_RTC->SEC;\r\n\t\tdata[3]=0;\r\n\t\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\t\r\n\t\tdata[0]='B';\r\n\t\tdata[1]='B';\r\n\t\tdata[2]='B';\r\n\t\tdata[3]='B';\r\n\t\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\t\r\n\t\tdata[0]='B';\r\n\t\tdata[1]='B';\r\n\t\tdata[2]='B';\r\n\t\tdata[3]='B';\r\n\t\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\t}\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid fz_mem_hndl(unsigned short in)\t //отметка об формовочном заряде\r\n{\r\nchar data[4];\r\nunsigned int event_ptr=0,lc640_adr,event_ptr_find=0,event_cnt;\r\n//char avar_simbol;\r\n\r\nif(in==1) //старт формовочного заряда\r\n\t{\r\n\tevent_ptr=lc640_read_int(PTR_EVENT_LOG);\r\n\tevent_ptr++;\t\r\n\tif(event_ptr>63)event_ptr=0;\t\r\n\tlc640_write_int(PTR_EVENT_LOG,event_ptr);\t\r\n\t\r\n event_cnt=lc640_read_int(CNT_EVENT_LOG);\r\n\tif(event_cnt!=63)event_cnt=event_ptr;\r\n\tlc640_write_int(CNT_EVENT_LOG,event_cnt); \r\n\t\r\n\tlc640_adr=EVENT_LOG+(lc640_read_int(PTR_EVENT_LOG)32);\r\n\t\r\n\tdata[0]='f';\r\n\tdata[1]=0; \r\n\tdata[2]='Z';\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr,data);\r\n\r\n\tdata[0]=0;\r\n\tdata[1]=0;\r\n\tdata[2]=0;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+4,data);\r\n\r\n\tdata[0]=LPC_RTC->YEAR;\r\n\tdata[1]=LPC_RTC->MONTH;\r\n\tdata[2]=LPC_RTC->DOM;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+8,data);\r\n\r\n\tdata[0]=LPC_RTC->HOUR;\r\n\tdata[1]=LPC_RTC->MIN;\r\n\tdata[2]=LPC_RTC->SEC;\r\n\tdata[3]=0;\r\n\tlc640_write_long_ptr(lc640_adr+12,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\r\n\tdata[0]='A';\r\n\tdata[1]='A';\r\n\tdata[2]='A';\r\n\tdata[3]='A';\r\n\tlc640_write_long_ptr(lc640_adr+28,data);\t\t\r\n \t\r\n\t}\r\n\r\nelse if(in==0)\t//штатное завершение\r\n\t{ \r\n\tchar i; \r\n\tevent_ptr_find=0;\r\n\tfor (i=0;i<63;i++)\r\n\t\t{\r\n\t\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n \tlc640_read_long_ptr(lc640_adr,data);\r\n \r\n \tif(!((data[0]=='f')&&(data[2]=='Z')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)\r\n\t\t\t\t{\r\n\t\t\t\tlc640_adr=0;\r\n\t\t\t\tbreak;\r\n\t\t\t\t}\r\n \t\telse continue;\r\n \t\t}\r\n \telse \r\n \t\t{\r\n \t\tlc640_read_long_ptr(lc640_adr+16,data);\r\n \t\tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t\t{ \r\n \t\t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tlc640_adr=0;\r\n\t\t\t\t\tbreak;\r\n\t\t\t\t\t}\r\n \t\t\telse continue;\r\n \t\t\t}\r\n \t\t}\t\r\n\t\t}\r\n\tif(lc640_adr!=0)\r\n\t\t{\r\n\t\tdata[0]=LPC_RTC->YEAR;\r\n\t\tdata[1]=LPC_RTC->MONTH;\r\n\t\tdata[2]=LPC_RTC->DOM;\r\n\t\tdata[3]=0;\r\n\t\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\t\tdata[0]=LPC_RTC->HOUR;\r\n\t\tdata[1]=LPC_RTC->MIN;\r\n\t\tdata[2]=LPC_RTC->SEC;\r\n\t\tdata[3]=0;\r\n\t\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\t\r\n\t\tdata[0]='C';\r\n\t\tdata[1]='C';\r\n\t\tdata[2]='C';\r\n\t\tdata[3]='C';\r\n\t\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\t\r\n\t\tdata[0]='C';\r\n\t\tdata[1]='C';\r\n\t\tdata[2]='C';\r\n\t\tdata[3]='C';\r\n\t\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\t}\r\n\t}\r\nelse if(in==10) \t// прервано оператором\r\n\t{ \r\n\tchar i; \r\n\r\n\tevent_ptr_find=0;\r\n\tfor (i=0;i<63;i++)\r\n\t\t{\r\n\t\tlc640_adr=EVENT_LOG+(event_ptr_find32);\r\n\r\n \tlc640_read_long_ptr(lc640_adr,data);\r\n \r\n \tif(!((data[0]=='f')&&(data[2]=='Z')))\r\n \t\t{ \r\n \t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)\r\n\t\t\t\t{\r\n\t\t\t\tlc640_adr=0;\r\n\t\t\t\tbreak;\r\n\t\t\t\t}\r\n \t\telse continue;\r\n \t\t}\r\n \telse \r\n \t\t{\r\n \t\tlc640_read_long_ptr(lc640_adr+16,data);\r\n \t\tif(!((data[0]=='A')&&(data[1]=='A')&&(data[2]=='A')&&(data[3]=='A')))\r\n \t\t\t{ \r\n \t\t\tif(event_ptr_find)event_ptr_find--;\r\n \t\telse event_ptr_find=63;\r\n \t\tif(event_ptr_find==event_ptr)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tlc640_adr=0;\r\n\t\t\t\t\tbreak;\r\n\t\t\t\t\t}\r\n \t\t\telse continue;\r\n \t\t\t}\r\n \t\t}\t\r\n\t\t}\r\n\tif(lc640_adr!=0)\r\n\t\t{\r\n\t\tdata[0]=LPC_RTC->YEAR;\r\n\t\tdata[1]=LPC_RTC->MONTH;\r\n\t\tdata[2]=LPC_RTC->DOM;\r\n\t\tdata[3]=0;\r\n\t\tlc640_write_long_ptr(lc640_adr+16,data);\r\n\t\r\n\t\tdata[0]=LPC_RTC->HOUR;\r\n\t\tdata[1]=LPC_RTC->MIN;\r\n\t\tdata[2]=LPC_RTC->SEC;\r\n\t\tdata[3]=0;\r\n\t\tlc640_write_long_ptr(lc640_adr+20,data);\r\n\t\t\r\n\t\tdata[0]='B';\r\n\t\tdata[1]='B';\r\n\t\tdata[2]='B';\r\n\t\tdata[3]='B';\r\n\t\tlc640_write_long_ptr(lc640_adr+24,data);\r\n\t\t\r\n\t\tdata[0]='B';\r\n\t\tdata[1]='B';\r\n\t\tdata[2]='B';\r\n\t\tdata[3]='B';\r\n\t\tlc640_write_long_ptr(lc640_adr+28,data);\r\n\t\t}\r\n\t}\r\n}\r\n" }, { "alpha_fraction": 0.6368876099586487, "alphanum_fraction": 0.6916426420211792, "avg_line_length": 22.5, "blob_id": "3e3b143ad89a1ee9f8ba243f34033240086c2d9f", "content_id": "075b02fe47dae6ce6e625eda05255b3c184ce65a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 347, "license_type": "no_license", "max_line_length": 52, "num_lines": 14, "path": "/SOFT/UKU/RKI/MODBUS_TCP.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\nextern char plazma_modbus_tcp[20];\r\n\r\nU16 tcp_callback (U8 soc, U8 evt, U8 ptr, U16 par);\r\n\r\nextern char modbus_tcp_func;\r\nextern char modbus_tcp_unit;\r\nextern short modbus_tcp_rx_arg0;\r\nextern short modbus_tcp_rx_arg1;\r\n\r\n#define MODBUS_TCP_PROT\t1\r\n\r\nextern char* modbus_tcp_out_ptr;\r\n\r\nU16 tcp_callback (U8 soc, U8 evt, U8 ptr, U16 par);\r\n\r\n" }, { "alpha_fraction": 0.6614285707473755, "alphanum_fraction": 0.6728571653366089, "avg_line_length": 59.588233947753906, "blob_id": "9010db622291149dc0bb204c135dfb02a54b9798", "content_id": "d7c8f1627484801d1844e1007ef67f9c04995d74", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 2486, "license_type": "no_license", "max_line_length": 137, "num_lines": 34, "path": "/SOFT/UKU/RKI/modbus.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "\r\nextern unsigned char modbus_buf[20];\r\nextern short modbus_crc16;\r\nextern char modbus_timeout_cnt;\r\nextern char bMODBUS_TIMEOUT;\r\nextern unsigned char modbus_rx_buffer[30];\t//Буфер, куда складывает принимаемые даннные обработчик прерывания по приему УАРТа\r\nextern unsigned char modbus_an_buffer[30];\t//Буфер, куда они потом копируются для анализа\r\nextern unsigned char modbus_rx_buffer_ptr;\t//Указатель на текущую позицию принимающего буфера\r\nextern unsigned char modbus_rx_counter;\t\t//Количество принятых байт, используется при анализе целостности посылки и при расшифровке\r\n\r\nextern short modbus_plazma;\t\t\t\t//Отладка\r\nextern short modbus_plazma1;\t\t\t\t//Отладка\r\nextern short modbus_plazma2;\t\t\t\t//Отладка\r\nextern short modbus_plazma3;\t\t\t\t//Отладка\r\n\r\nextern unsigned short modbus_rx_arg0;\t\t//встроенный в посылку первый аргумент\r\nextern unsigned short modbus_rx_arg1;\t\t//встроенный в посылку второй аргумент\r\nextern unsigned short modbus_rx_arg2;\t\t//встроенный в посылку третий аргумент\r\nextern unsigned short modbus_rx_arg3;\t\t//встроенный в посылку четвертый аргумент\r\n\r\nextern char modbus_tx_buff[100];\r\n\r\n//extern char modbus_registers[200];\r\n//-----------------------------------------------\r\nunsigned short CRC16_2(char buf, short len);\r\n//-----------------------------------------------\r\n//void modbus_registers_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr,unsigned short reg_quantity);\r\n//-----------------------------------------------\r\n//void modbus_register_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr);\r\n//-----------------------------------------------\r\nvoid modbus_hold_registers_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr,unsigned short reg_quantity, char prot);\n//-----------------------------------------------\r\nvoid modbus_input_registers_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr,unsigned short reg_quantity, char prot);\n//-----------------------------------------------\r\n//void modbus_hold_register_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr);\r\n\r\n\r\n\r\n" }, { "alpha_fraction": 0.6716106534004211, "alphanum_fraction": 0.708294153213501, "avg_line_length": 32.03135681152344, "blob_id": "2fb9e1c133e3fdb3c67227409d3c178ba82fae03", "content_id": "2e99658987bf12e0d1f6d953d64a760f245fdb56", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 74830, "license_type": "no_license", "max_line_length": 205, "num_lines": 2041, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/main.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#define NUMOFSETTINGS\t4\r\n\r\n#include <rtl.h>\r\n\r\n#ifdef UKU_TELECORE2016\r\n#define UKU_TELECORE2015\r\n#define UKU2071x\r\n#endif\r\n\n#ifdef UKU2071x\r\n#define MCP2515_CAN\r\n#define SC16IS740_UART\r\n//#define can1_out mcp2515_transmit\r\n#endif\r\n\n#define SOFT_NUM\t1051\n#define SOFT_DATE\t21112UL\n\n#define _ACDC_\n\n//#define _IPS_\t100\n\n#define NUM_OF_SET_TABL\t2\n#define DEEP_OF_SET_TABL 19\n\n#define CONTROL_BYTE_FOR_XPORT 0\n\n#define MINIM_INV_ADRESS\t20\n//-минималный адрес инвертора в кановской сети, не может быть меньше 16\n#define MAX_NET_ADRESS\t\t31\n//-максимальный адрес устройства в кановской сети ИБЭПа\n\n#define BIN__N(x) (x) \| x>>3 \| x>>6 \| x>>9\n#define BIN__B(x) (x) & 0xf \| (x)>>12 & 0xf0\n#define BIN8(v) (BIN__B(BIN__N(0x##v)))\n\n#ifndef UKU_KONTUR\n#define OID_ENTERPRISE \tOID0(1,3), 6, 1, 4, 1, 130, 131, 31\n#endif\n#ifdef UKU_KONTUR\n#define OID_ENTERPRISE \tOID0(1,3), 6, 1, 4, 1, 130, 167, 60\n#endif\n\n#ifndef UKU_KONTUR\n\n#define OID_DEVICE \t\t14\n\n#define DISPLAY_DEVICE_INFO\t\t\t1\n#define DISPLAY_DEVICE_INFO_CODE\t\t\t1\n#define DISPLAY_DEVICE_INFO_SERIAL\t\t\t2\n#define DISPLAY_DEVICE_INFO_LOCATION \t\t3\n#define DISPLAY_DEVICE_INFO_NUMOFBAT \t\t4\n#define DISPLAY_DEVICE_INFO_NUMOFBPS \t\t5\n#define DISPLAY_DEVICE_INFO_NUMOFINV \t\t6\n#define DISPLAY_DEVICE_INFO_NUMOFAVT \t\t7\n#define DISPLAY_DEVICE_INFO_NUMOFDT \t\t8\n#define DISPLAY_DEVICE_INFO_NUMOFSK \t\t9\n#define DISPLAY_DEVICE_INFO_NUMOFEVENTS\t\t10\n#define DISPLAY_DEVICE_INFO_MODEL_NAME\t\t11\n\n#define DISPLAY_MAINS_POWER\t\t\t2\n#define DISPLAY_MAINS_POWER_VOLTAGE\t\t1\n#define DISPLAY_MAINS_POWER_FREQUENCY\t\t2\n#define DISPLAY_MAINS_POWER_STATUS\t\t\t3\n#define DISPLAY_MAINS_POWER_ALARM\t\t\t4\n#define DISPLAY_MAINS_POWER_VOLTAGE_PHASEA\t5\n#define DISPLAY_MAINS_POWER_VOLTAGE_PHASEB\t6\n#define DISPLAY_MAINS_POWER_VOLTAGE_PHASEC\t7\n#define DISPLAY_MAINS_ENERGOMETR_VOLT\t\t8\n#define DISPLAY_MAINS_ENERGOMETR_CURR\t\t9\n#define DISPLAY_MAINS_ENERGOMETR_POWER\t\t10\r\n\n\n#define DISPLAY_LOAD\t\t\t\t3\n#define DISPLAY_LOAD_VOLTAGE\t\t\t\t1\n#define DISPLAY_LOAD_CURRENT\t\t\t\t2\n\n#define DISPLAY_PSU\t\t\t\t\t4\n#define DISPLAY_PSU_ENTRY_NUMBER\t\t\t1,1\n#define DISPLAY_PSU_ENTRY_VOLTAGE \t\t\t1,2\n#define DISPLAY_PSU_ENTRY_CURRENT\t\t\t1,3\n#define DISPLAY_PSU_ENTRY_TEMPERATURE\t\t1,4\n#define DISPLAY_PSU_ENTRY_STATUS\t\t\t1,5\r\n#define DISPLAY_PSU_ENTRY_VENTRESURS\t\t1,6\n\n#define DISPLAY_BAT\t\t\t\t\t5\n#define DISPLAY_BAT_NUMBER\t\t\t\t1,1\n#define DISPLAY_BAT_VOLTAGE\t\t\t\t1,2\n#define DISPLAY_BAT_CURRENT\t\t\t\t1,3\n#define DISPLAY_BAT_TEMPERATURE\t\t\t1,4\n#define DISPLAY_BAT_CAPACITY\t\t\t\t1,5\n#define DISPLAY_BAT_CHARGE\t\t\t\t1,6\n#define DISPLAY_BAT_STATUS\t\t\t\t1,7\r\n#define DISPLAY_BAT_FLAG\t\t\t\t1,8\r\n#define DISPLAY_BAT_REMTIME\t\t\t\t1,9\r\n#define DISPLAY_BAT_PART_VOLTAGE\t\t1,10\r\n\n#define DISPLAY_SPEC\t\t\t\t6\n#define DISPLAY_SPEC_STAT\t\t\t\t1\n#define DISPLAY_SPEC_COMMAND\t\t\t\t2\n\n#define DISPLAY_SPEC_TRAP_MESSAGE\t\t\t5\n#define DISPLAY_SPEC_TRAP_VALUE_0\t\t\t6\n#define DISPLAY_SPEC_TRAP_VALUE_1\t\t\t7\n#define DISPLAY_SPEC_TRAP_VALUE_2\t\t\t8\n\n\n#define DISPLAY_INV\t\t\t\t\t14\n#define DISPLAY_INV_ENTRY_NUMBER\t\t\t1,1\n#define DISPLAY_INV_ENTRY_VOLTAGE \t\t\t1,2\n#define DISPLAY_INV_ENTRY_CURRENT\t\t\t1,3\n#define DISPLAY_INV_ENTRY_TEMPERATURE\t\t1,4\n#define DISPLAY_INV_ENTRY_STATUS\t\t\t1,5\n\n#define LCD_SIZE 200\n\n#define SNMP_COMMAND\t\t\t\t8\n#define COMMAND_ANSWER\t\t\t\t\t1\n#define COMMAND_PARAMETR\t\t\t\t\t2\n\n#define SYSPARAMS\t\t\t\t\t10\n#define SYSPARAMSSOUNDALARMEN\t\t\t\t1\n#define SYSPARAMSALARMAUTODISABLE\t\t\t2\n#define SYSPARAMS_BAT_TEST_TIME\t\t\t3\n#define SYSPARAMS_U_MAX\t\t\t\t\t4\n#define SYSPARAMS_U_MIN\t\t\t\t\t5\n#define SYSPARAMS_U_0_GRAD\t\t\t\t6\n#define SYSPARAMS_U_20_GRAD\t\t\t\t7 \n#define SYSPARAMS_U_SIGN\t\t\t\t\t8\n#define SYSPARAMS_U_MIN_POWER\t\t\t\t9\n#define SYSPARAMS_U_WITHOUT_BAT\t\t\t10\n#define SYSPARAMS_IBK\t\t\t\t\t11\n#define SYSPARAMS_IZMAX\t\t\t\t\t12\n#define SYSPARAMS_IMAX\t\t\t\t\t13\n#define SYSPARAMS_IMIN\t\t\t\t\t14\n#define SYSPARAMS_UVZ\t\t\t\t\t15\n#define SYSPARAMS_TZAS\t\t\t\t\t16\n#define SYSPARAMS_TSIGN_BAT\t\t\t\t17\n#define SYSPARAMS_TMAX_BAT\t\t\t\t18\n#define SYSPARAMS_TSIGN_BPS\t\t\t\t19\n#define SYSPARAMS_TMAX_BPS\t\t\t\t20\t\n#define SYSPARAMS_BAT_PART_ALARM\t\t\t21\n#define SYSPARAMS_POWER_CNT_ADRESS\t\t\t22\r\n#define SYSPARAMS_U_IPS_SET\t\t\t\t\t23\r\n#define SYSPARAMS_U_OUT_KONTR_MAX\t\t\t24\r\n#define SYSPARAMS_U_OUT_KONTR_MIN\t\t\t25\r\n#define SYSPARAMS_U_OUT_KONTR_DELAY\t\t\t26\r\n#define SYSPARAMS_VZ_U\t\t\t\t\t\t27\r\n#define SYSPARAMS_VZ_I_MAX\t\t\t\t\t28\r\n#define SYSPARAMS_VZ_TIME\t\t\t\t\t29\n#define SYSPARAMS_VZ_VENTBLOCKING\t\t\t30\r\n#define SYSPARAMS_SPZ_I_MAX\t\t\t\t\t31\r\n#define SYSPARAMS_SPZ_U\t\t\t\t\t\t32\r\n#define SYSPARAMS_SPZ_TIME\t\t\t\t\t33\r\n#define SYSPARAMS_SPZ_AVT_EN\t\t\t\t34\r\n#define SYSPARAMS_SPZ_AVT_DELTA\t\t\t\t35\r\n#define SYSPARAMS_SPZ_BLOCK_EN_SRC\t\t\t36\r\n#define SYSPARAMS_SPZ_BLOCK_SIGN\t\t\t37\r\n#define SYSPARAMS_SPZ_VENTBLOCKING\t\t\t38\r\n#define SYSPARAMS_U_MAX_POWER\t\t\t\t39\t //o_10\r\n\n#define DISPLAY_AVT\t\t\t\t\t11\n#define DISPLAY_AVT_ENTRY_NUMBER\t\t\t1,1\n#define DISPLAY_AVT_ENTRY_STAT \t\t\t1,2\n\n#define DISPLAY_ENERGY\t\t\t\t12\n#define DISPLAY_ENERGY_VVOD_PHASE_A\t\t1\n#define DISPLAY_ENERGY_VVOD_PHASE_B\t\t2\n#define DISPLAY_ENERGY_VVOD_PHASE_C\t\t3\n#define DISPLAY_ENERGY_PES_PHASE_A\t\t\t4\n#define DISPLAY_ENERGY_PES_PHASE_B\t\t\t5\n#define DISPLAY_ENERGY_PES_PHASE_C\t\t\t6\n#define DISPLAY_ENERGY_TOTAL_ENERGY\t\t\t7\n#define DISPLAY_ENERGY_CURRENT_ENERGY\t\t8\r\n#define DISPLAY_ENERGY_INPUT_VOLTAGE\t\t9\n\n\n#define DISPLAY_SK\t\t\t\t\t15\n#define DISPLAY_SK_ENTRY_NUMBER\t\t\t1,1\n#define DISPLAY_SK_AKTIVITY\t \t\t\t1,2\n#define DISPLAY_SK_ALARM_AKTIVITY \t\t\t1,3\n#define DISPLAY_SK_ALARM \t \t\t\t1,4\n\n#define DISPLAY_DT\t\t\t\t\t17\n#define DISPLAY_DT_ENTRY_NUMBER\t\t\t1,1\n#define DISPLAY_DT_TEMPER\t \t\t\t1,2\n#define DISPLAY_DT_ERROR \t\t\t\t1,3\n\n#define DISPLAY_MAKB\t\t\t\t16\n#define DISPLAY_MAKB_ENTRY_NUMBER\t\t\t1,1\n#define DISPLAY_MAKB_CONNECT_STATUS\t\t1,2\n#define DISPLAY_MAKB_VOLTAGE0\t\t\t\t1,3\n#define DISPLAY_MAKB_VOLTAGE1\t\t\t\t1,4\n#define DISPLAY_MAKB_VOLTAGE2\t\t\t\t1,5\n#define DISPLAY_MAKB_VOLTAGE3\t\t\t\t1,6\n#define DISPLAY_MAKB_VOLTAGE4\t\t\t\t1,7\n#define DISPLAY_MAKB_TEMPER0\t\t\t\t1,8\n#define DISPLAY_MAKB_TEMPER1\t\t\t\t1,9\n#define DISPLAY_MAKB_TEMPER2\t\t\t\t1,10\n#define DISPLAY_MAKB_TEMPER3\t\t\t\t1,11\n#define DISPLAY_MAKB_TEMPER4\t\t\t\t1,12\n#define DISPLAY_MAKB_TEMPER0_STAT\t\t\t1,13\n#define DISPLAY_MAKB_TEMPER1_STAT\t\t\t1,14\n#define DISPLAY_MAKB_TEMPER2_STAT\t\t\t1,15\n#define DISPLAY_MAKB_TEMPER3_STAT\t\t\t1,16\n#define DISPLAY_MAKB_TEMPER4_STAT\t\t\t1,17\n\n#define DISPLAY_LAKB\t\t\t\t18\r\n#define DISPLAY_LAKB_ENTRY_NUMBER\t\t\t1,1\r\n#define DISPLAY_LAKB_MAX_CELL_VOLTAGE\t\t1,2\r\n#define DISPLAY_LAKB_MIN_CELL_VOLTAGE\t\t1,3\r\n#define DISPLAY_LAKB_MAX_CELL_TEMPERATURE\t1,4\r\n#define DISPLAY_LAKB_MIN_CELL_TEMPERATURE\t1,5\r\n#define DISPLAY_LAKB_VOLTAGE\t\t\t\t1,6\r\n#define DISPLAY_LAKB_CH_CURR\t\t\t\t1,7\r\n#define DISPLAY_LAKB_DSCH_CURR\t\t\t\t1,8\r\n#define DISPLAY_LAKB_RAT_CAP\t\t\t\t1,9\r\n#define DISPLAY_LAKB_SOH\t\t\t\t\t1,10\r\n#define DISPLAY_LAKB_SOC\t\t\t\t\t1,11\t\r\n#define DISPLAY_LAKB_CCLV\t\t\t\t\t1,12\r\n#define DISPLAY_LAKB_RBT\t\t\t\t\t1,13\r\n#define DISPLAY_LAKB_FLAGS1\t\t\t\t\t1,14\r\n#define DISPLAY_LAKB_FLAGS2\t\t\t\t\t1,15\r\n#define DISPLAY_LAKB_CELL_TEMPERATURE_1\t\t1,16\r\n#define DISPLAY_LAKB_CELL_TEMPERATURE_2\t\t1,17\r\n#define DISPLAY_LAKB_CELL_TEMPERATURE_3\t\t1,18\r\n#define DISPLAY_LAKB_CELL_TEMPERATURE_4\t\t1,19\r\n#define DISPLAY_LAKB_CELL_TEMPERATURE_AMBIENT\t1,20\r\n#define DISPLAY_LAKB_CELL_TEMPERATURE_POWER\t\t1,21\r\n#define DISPLAY_LAKB_CHARGE_AND_DISCHARGE_CURRENT_ALARM_STATUS\t\t1,22\r\n#define DISPLAY_LAKB_BATTERY_TOTAL_VOLTAGE_ALARM_STATUS\t\t\t\t1,23\r\n#define DISPLAY_LAKB_CUSTOM_ALARM_QUANTITY\t\t\t\t\t\t\t1,24\r\n#define DISPLAY_LAKB_BALANCED_EVENT_CODE\t\t\t\t\t\t\t1,25\r\n#define DISPLAY_LAKB_VOLTAGE_EVENT_CODE\t\t\t\t\t\t\t\t1,26\r\n#define DISPLAY_LAKB_TEMPERATURE_EVENT_CODE\t\t\t\t\t\t\t1,27\r\n#define DISPLAY_LAKB_CURRENT_EVENT_CODE\t\t\t\t\t\t\t\t1,28\r\n#define DISPLAY_LAKB_FET_STATUS_CODE\t\t\t\t\t\t\t\t1,29\r\n#define DISPLAY_LAKB_BALANCED_STATUS_CODE\t\t\t\t\t\t\t1,30\r\n#define DISPLAY_LAKB_SYSTEM_STATUS_CODE\t\t\t\t\t\t\t\t1,31\r\n#define DISPLAY_LAKB_DAMP1\t\t\t\t1,32\r\n#define DISPLAY_LAKB_DAMP2\t\t\t\t1,33\r\n#define DISPLAY_LAKB_DAMP3\t\t\t\t1,34\r\n#define DISPLAY_LAKB_DAMP4\t\t\t\t1,35\r\n#define DISPLAY_LAKB_DAMP5\t\t\t\t1,36\r\n\n#define DISPLAY_KLIMAT\t\t\t\t20\n#define DISPLAY_KLIMAT_WARM_SIGNAL\t\t1\r\n#define DISPLAY_KLIMAT_COOL_SIGNAL\t\t2\r\n#define DISPLAY_KLIMAT_WARM_ON_TEMPER\t3\r\n#define DISPLAY_KLIMAT_WARM_OFF_TEMPER\t4\r\n#define DISPLAY_KLIMAT_WARM_Q\t\t\t5\r\n#define DISPLAY_KLIMAT_COOL_100_TEMPER\t6\r\n#define DISPLAY_KLIMAT_COOL_80_TEMPER\t7\r\n#define DISPLAY_KLIMAT_COOL_60_TEMPER\t8\r\n#define DISPLAY_KLIMAT_COOL_40_TEMPER\t9\r\n#define DISPLAY_KLIMAT_COOL_20_TEMPER\t10\n#define DISPLAY_KLIMAT_COOL_100_DTEMPER\t11\r\n#define DISPLAY_KLIMAT_COOL_80_DTEMPER\t12\r\n#define DISPLAY_KLIMAT_COOL_60_DTEMPER\t13\r\n#define DISPLAY_KLIMAT_COOL_40_DTEMPER\t14\r\n#define DISPLAY_KLIMAT_COOL_20_DTEMPER\t15\r\n#define DISPLAY_KLIMAT_WARM_STAT\t\t16\r\n#define DISPLAY_KLIMAT_INT_VENT_PWM_STAT\t17\r\n#define DISPLAY_KLIMAT_EXT_VENT_PWM_STAT\t18\r\n\r\n#define DISPLAY_ENMV\t\t\t\t21 //o_2\r\n#define DISPLAY_ENMV_NUMBER\t\t 1,1 //o_2\r\n#define DISPLAY_ENMV_DATA_1\t\t 1,2 //o_2 //o_12\r\n#define DISPLAY_ENMV_DATA_2\t\t 1,3 //o_12\r\n#define DISPLAY_ENMV_DATA_3\t\t 1,4 //o_12\r\n#define DISPLAY_ENMV_DATA_4\t\t 1,5 //o_12\r\n#define DISPLAY_ENMV_DATA_5\t\t 1,6 //o_12\r\n#define DISPLAY_ENMV_DATA_6\t\t 1,7 //o_12\r\n#define DISPLAY_ENMV_DATA_7\t\t 1,8 //o_12\r\n#define DISPLAY_ENMV_DATA_8\t\t 1,9 //o_12\t\r\n\r\n#define DISPLAY_RKI\t\t\t\t\t22 \r\n\r\n#define DISPLAY_RKI_SK\t\t\t\t23\r\n#define DISPLAY_RKI_SK_NUMBER\t\t1,1\r\n#define DISPLAY_RKI_SK_DATA\t\t\t1,2\r\n#define DISPLAY_RKI_SK_ERROR\t\t1,3\r\n\r\n#define DISPLAY_RKI_DDT\t\t\t\t24\r\n#define DISPLAY_RKI_DDT_NUMBER\t\t1,1\r\n#define DISPLAY_RKI_DDT_NUM_ALARM\t1,2\r\n#define DISPLAY_RKI_DDT_ALARM\t\t1,3\r\n#define DISPLAY_RKI_DDT_Rplus\t\t1,4\r\n#define DISPLAY_RKI_DDT_Rminus\t\t1,5\r\n#define DISPLAY_RKI_DDT_Rparal\t\t1,6\n\n#define COMMAND_OK\t\t0x5555\n#define COMAND_FAIL\t\t0xaaaa\n#define COMMAND_INVALID\t0xeeee\n#define WRONG_PARAMETER\t0xeeef\n\n#define SNMP_BPS_DISABLE\t\t5\n#define SNMP_BPS_UNDISABLE\t8\n#define SNMP_SPEC_VZ\t\t3\n#define SNMP_SPEC_KE\t\t4\n#define SNMP_SPEC_DISABLE\t7\r\n#define SNMP_SPEC_SPZ\t\t13\n\n\n#define DISPLAY_LOG\t\t\t\t\t9\n#define DISPLAY_LOG_ENTRY_EVENTS \t\t\t1,1\n//#define DISPLAY_LOG_ENTRY_EVENTS \t\t\t1,1\r\n\r\n//o_12_s\r\n#define DISPLAY_LVBD\t\t\t\t\t\t25 \r\n#define DISPLAY_LVBD_STATUS\t\t\t\t\t1,0\r\n#define DISPLAY_LVBD_Uips\t\t\t\t\t2,0\r\n#define DISPLAY_LVBD_Uakb\t\t\t\t\t3,0\r\n#define DISPLAY_LVBD_Uips_enable\t\t\t4,0\r\n#define DISPLAY_LVBD_Uakb_enable\t\t\t5,0\r\n#define DISPLAY_LVBD_U_disable\t\t\t\t6,0\r\n#define DISPLAY_LVBD_U_disable_alarm\t\t7,0\r\n#define DISPLAY_LVBD_DELAY\t\t\t\t\t8,0\r\n//o_12_e\n\n#endif\n\n\n\n\n#ifdef UKU_KONTUR\n\n#define OID_DEVICE \t\t1,2\n\n#define DISPLAY_DEVICE_INFO\t\t\t1\n#define DISPLAY_DEVICE_INFO_CODE\t\t\t1\n#define DISPLAY_DEVICE_INFO_SERIAL\t\t\t2\n#define DISPLAY_DEVICE_INFO_LOCATION \t\t3\n#define DISPLAY_DEVICE_INFO_NUMOFBAT \t\t4\n#define DISPLAY_DEVICE_INFO_NUMOFBPS \t\t5\n#define DISPLAY_DEVICE_INFO_NUMOFINV \t\t6\n#define DISPLAY_DEVICE_INFO_NUMOFAVT \t\t7\n#define DISPLAY_DEVICE_INFO_NUMOFDT \t\t8\n#define DISPLAY_DEVICE_INFO_NUMOFSK \t\t9\n#define DISPLAY_DEVICE_INFO_NUMOFEVENTS\t\t10\n\n#define DISPLAY_MAINS_POWER\t\t\t1\n#define DISPLAY_MAINS_POWER_VOLTAGE\t\t1\n#define DISPLAY_MAINS_POWER_FREQUENCY\t\t2\n#define DISPLAY_MAINS_POWER_STATUS\t\t\t3\n#define DISPLAY_MAINS_POWER_ALARM\t\t\t4\n#define DISPLAY_MAINS_POWER_VOLTAGE_PHASEA\t5\n#define DISPLAY_MAINS_POWER_VOLTAGE_PHASEB\t6\n#define DISPLAY_MAINS_POWER_VOLTAGE_PHASEC\t7\n\n\n#define DISPLAY_LOAD\t\t\t\t3\n#define DISPLAY_LOAD_VOLTAGE\t\t\t\t1\n#define DISPLAY_LOAD_CURRENT\t\t\t\t2\n\n#define DISPLAY_PSU\t\t\t\t\t4\n#define DISPLAY_PSU_ENTRY_NUMBER\t\t\t1,1\n#define DISPLAY_PSU_ENTRY_VOLTAGE \t\t\t1,2\n#define DISPLAY_PSU_ENTRY_CURRENT\t\t\t1,3\n#define DISPLAY_PSU_ENTRY_TEMPERATURE\t\t1,4\n#define DISPLAY_PSU_ENTRY_STATUS\t\t\t1,5\n\n#define DISPLAY_BAT\t\t\t\t\t5\n#define DISPLAY_BAT_NUMBER\t\t\t\t1,1\n#define DISPLAY_BAT_VOLTAGE\t\t\t\t1,2\n#define DISPLAY_BAT_PART_VOLTAGE\t\t\t1,3\n#define DISPLAY_BAT_CURRENT\t\t\t\t1,4\n#define DISPLAY_BAT_TEMPERATURE\t\t\t1,5\n#define DISPLAY_BAT_CAPACITY\t\t\t\t1,6\n#define DISPLAY_BAT_CHARGE\t\t\t\t1,7\n#define DISPLAY_BAT_STATUS\t\t\t\t1,8\n\n#define DISPLAY_SPEC\t\t\t\t6\n#define DISPLAY_SPEC_STAT\t\t\t\t1\n#define DISPLAY_SPEC_COMMAND\t\t\t\t2\n\n#define DISPLAY_SPEC_TRAP_MESSAGE\t\t\t5\n#define DISPLAY_SPEC_TRAP_VALUE_0\t\t\t6\n#define DISPLAY_SPEC_TRAP_VALUE_1\t\t\t7\n#define DISPLAY_SPEC_TRAP_VALUE_2\t\t\t8\n\n\n\n\n#define LCD_SIZE 200\n\n#define SNMP_COMMAND\t\t\t\t8\n#define COMMAND_ANSWER\t\t\t\t\t1\n#define COMMAND_PARAMETR\t\t\t\t\t2\n\n#define SYSPARAMS\t\t\t\t\t10\n#define SYSPARAMSSOUNDALARMEN\t\t\t\t1\n#define SYSPARAMSALARMAUTODISABLE\t\t\t2\n#define SYSPARAMS_BAT_TEST_TIME\t\t\t3\n#define SYSPARAMS_U_MAX\t\t\t\t\t4\n#define SYSPARAMS_U_MIN\t\t\t\t\t5\n#define SYSPARAMS_U_0_GRAD\t\t\t\t6\n#define SYSPARAMS_U_20_GRAD\t\t\t\t7 \n#define SYSPARAMS_U_SIGN\t\t\t\t\t8\n#define SYSPARAMS_U_MIN_POWER\t\t\t\t9\n#define SYSPARAMS_U_WITHOUT_BAT\t\t\t10\n#define SYSPARAMS_IBK\t\t\t\t\t11\n#define SYSPARAMS_IZMAX\t\t\t\t\t12\n#define SYSPARAMS_IMAX\t\t\t\t\t13\n#define SYSPARAMS_IMIN\t\t\t\t\t14\n#define SYSPARAMS_UVZ\t\t\t\t\t15\n#define SYSPARAMS_TZAS\t\t\t\t\t16\n#define SYSPARAMS_TSIGN_BAT\t\t\t\t17\n#define SYSPARAMS_TMAX_BAT\t\t\t\t18\n#define SYSPARAMS_TSIGN_BPS\t\t\t\t19\n#define SYSPARAMS_TMAX_BPS\t\t\t\t20\t\n#define SYSPARAMS_BAT_PART_ALARM\t\t\t21\n#define SYSPARAMS_POWER_CNT_ADRESS\t\t\t22\n\n\n#define DISPLAY_AVT\t\t\t\t\t11\n#define DISPLAY_AVT_ENTRY_NUMBER\t\t\t1,1\n#define DISPLAY_AVT_ENTRY_STAT \t\t\t1,2\n\n#define DISPLAY_ENERGY\t\t\t\t12\n#define DISPLAY_ENERGY_VVOD_PHASE_A\t\t1\n#define DISPLAY_ENERGY_VVOD_PHASE_B\t\t2\n#define DISPLAY_ENERGY_VVOD_PHASE_C\t\t3\n#define DISPLAY_ENERGY_PES_PHASE_A\t\t\t4\n#define DISPLAY_ENERGY_PES_PHASE_B\t\t\t5\n#define DISPLAY_ENERGY_PES_PHASE_C\t\t\t6\n#define DISPLAY_ENERGY_TOTAL_ENERGY\t\t7\n#define DISPLAY_ENERGY_CURRENT_ENERGY\t\t8\n\n\n#define DISPLAY_SK\t\t\t\t\t14\n#define DISPLAY_SK_ENTRY_NUMBER\t\t\t1,1\n#define DISPLAY_SK_NAME\t\t\t\t\t1,2\n#define DISPLAY_SK_AKTIVITY\t \t\t\t1,3\n#define DISPLAY_SK_ALARM_AKTIVITY \t\t\t1,4\n#define DISPLAY_SK_ALARM \t \t\t\t1,5\n\n#define DISPLAY_DT\t\t\t\t\t15\n#define DISPLAY_DT_EXT\t\t\t\t\t1\n#define DISPLAY_DT_MSAN\t \t\t\t\t2\n#define DISPLAY_DT_EPU \t\t\t\t\t3\n\n#define DISPLAY_KLIMAT\t\t\t\t16\n#define DISPLAY_KLIMAT_BOX_TEMPER\t\t\t\t1\n#define DISPLAY_KLIMAT_SETTINGS_BOX_ALARM_TEMPER\t2\n#define DISPLAY_KLIMAT_SETTINGS_VENT_ON\t\t\t3\n#define DISPLAY_KLIMAT_SETTINGS_VENT_OFF\t\t4\n#define DISPLAY_KLIMAT_SETTINGS_WARM_ON\t\t\t5\n#define DISPLAY_KLIMAT_SETTINGS_WARM_OFF\t\t6\n#define DISPLAY_KLIMAT_SETTINGS_LOAD_ON\t\t\t7\n#define DISPLAY_KLIMAT_SETTINGS_LOAD_OFF\t\t8\n#define DISPLAY_KLIMAT_SETTINGS_BATT_ON\t\t\t9\n#define DISPLAY_KLIMAT_SETTINGS_BATT_OFF\t\t10\n\n\n\n#define COMMAND_OK\t\t0x5555\n#define COMAND_FAIL\t\t0xaaaa\n#define COMMAND_INVALID\t0xeeee\n#define WRONG_PARAMETER\t0xeeef\n\n#define SNMP_BPS_DISABLE\t\t5\n#define SNMP_BPS_UNDISABLE\t8\n#define SNMP_SPEC_VZ\t\t3\n#define SNMP_SPEC_KE\t\t4\n#define SNMP_SPEC_DISABLE\t7\n\n\n#define DISPLAY_LOG\t\t\t\t\t9\n#define DISPLAY_LOG_ENTRY_EVENTS \t\t\t1,1\n//#define DISPLAY_LOG_ENTRY_EVENTS \t\t\t1,1\n#endif\n\n//#define SEC_IN_HOUR\t36000L\n\n#define LCD_SIZE 200\n\n\n#define MAX_NUM_OF_BAT\t2\n#define MAX_NUM_OF_BPS\t12\n//#define PAROL_ALL_ZERO\n\n#define AH_CONSTANT\t\t36000L\n\n//**********************************************\n//Состояние источников\n\n\n\n\n#define MASK(lengt) \t\t(0xffffffff>>(32-lengt))\n#define MASK_OFFSET(shift,lengt)\t(MASK(lengt)<<shift)\n\n#define GET_REG( reg, shift, lengt) \t\t( (reg & MASK_OFFSET(shift,lengt)) >> shift)\n#define SET_REG( reg, val, shift, lengt) \treg = ( (reg & ~MASK_OFFSET(shift,lengt)) \| (val << shift) )\n//#define CHK_REG( reg, mask ) ( (reg) & (mask) == (mask) )\n\n\n\n#define delay_ms(x) {long xx; xx=(unsigned long)x 12000UL; while(xx)xx--;}\n#define delay_us(x) {long xx; xx=(unsigned long)x * 12UL; while(xx)xx--;}\n\n//***********************************************\n//сообщения\n#define MESS_DEEP\t10\n\n#define \tMESS_ZERO \t\t0\n#define \tMESS_BAT1_OFF \t\t1\n#define \tMESS_BAT2_OFF\t\t2\n#define \tMESS_ALL_SRC_OFF\t3\n#define \tMESS_ALL_SRC_ON\t4\n//#define \tMESS_RELSAM_ON\t\t5\n#define \tMESS_SRC1_OFF\t\t6\n#define \tMESS_SRC2_OFF\t\t7\n#define \tMESS_SRC3_OFF\t\t8\n#define \tMESS_SRC4_OFF\t\t9\n#define \tMESS_SRC5_OFF\t\t10\n#define \tMESS_SRC6_OFF\t\t11\n#define \tMESS_SRC7_OFF\t\t12\n#define \tMESS_SRC8_OFF\t\t13\n#define \tMESS_SRC9_OFF\t\t14\n#define \tMESS_SRC10_OFF\t\t15\n#define \tMESS_SRC11_OFF\t\t16\n#define \tMESS_SRC12_OFF\t\t17\n#define \tMESS_BAT_CONTROL\t18\n#define \tMESS_SRC_CONTROL\t19\n#define \tMESS_LOAD2_WAIT\t9 \n#define \tMESS_PONG\t\t\t100\n#define\tMESS_SPA_UART_PONG\t101 \n#define\tMESS_SPA_BLOK_BPS1\t102\n#define\tMESS_SPA_BLOK_BPS2\t103\n#define\tMESS_SPA_LEAVE_BPS1\t104\n#define\tMESS_SPA_LEAVE_BPS2\t105\n#define \tMESS_SRC_ON_OFF\t150\n#define _MESS_SRC_MASK_BLOK_2SEC\t\t151\n#define _MESS_SRC_MASK_UNBLOK\t\t152\n#define \t_MESS_SRC_MASK_ON\t\t\t153\n#define\t_MESS_SRC_PWM\t\t\t\t154\n#define\t_MESS_U_NECC\t\t\t\t155\n#define _MESS_FAST_REG\t\t\t\t156\n//#define _MESS_U_AVT_GOOD\t\t\t157\n\n#define \tMESS_BAT_ON_OFF\t160\n#define _MESS_BAT_MASK_BLOK_AFTER_2SEC\t\t161\n#define\t_MESS_BAT_MASK_ON\t\t\t\t\t162\n#define\t_MESS_BAT_MASK_OFF\t\t\t\t\t163\n\n\t\t\n//#define\tMESS_SPA_UART_SRAM\t200 \n//#define\tMESS_SPA_UART_CMND\t201 \n\n#define\tMESS2UNECC_HNDL \t\t\t\t\t190\n#define \t\tPARAM_UNECC_SET\t\t\t\t \t191\n#define\tMESS2BAT_HNDL \t\t\t\t\t200\n//#define\tMESS2BAT_HNDL1 \t\t\t\t\t201\n#define\t\tPARAM_BAT_ALL_OFF_AFTER_2SEC\t\t\t201\n#define\t\tPARAM_BAT_MASK_OFF_AFTER_2SEC\t\t\t202\n//#define\t\tPARAM_BAT_ON\t\t\t\t\t\t202\n#define\tMESS2BPS_HNDL \t\t\t\t\t205\n#define\t\tPARAM_BPS_ALL_OFF_AFTER_2SEC\t\t\t206\n#define\t\tPARAM_BPS_MASK_OFF_AFTER_2SEC\t\t\t207\n#define\t\tPARAM_BPS_MASK_ON_OFF_AFTER_2SEC\t\t208\r\n#define \tPARAM_BPS_MASK_ON_OFF_AFTER_2SEC_FOR_NUMBER\t308\n#define\t\tPARAM_BPS_MASK_ON\t\t\t\t\t209\n#define\t\tPARAM_BPS_ALL_ON\t\t\t\t\t210\n#define \tMESS2RELE_HNDL\t\t\t\t\t\t210\r\n#define \tMESS2KLIMAT_CNTRL\t\t\t\t\t211\n#define\t\tPARAM_RELE_SAMOKALIBR\t\t\t\t100\n#define\t\tPARAM_RELE_AV\t\t\t\t\t\t101\n#define\t\tPARAM_RELE_AV_NET\t\t\t\t\t102\n#define\t\tPARAM_RELE_AV_BAT\t\t\t\t\t103\n#define\t\tPARAM_RELE_LOAD_OFF\t\t\t\t\t103\n#define\t\tPARAM_RELE_LIGHT\t\t\t\t\t104\n//#define\t\tPARAM_RELE_WARM\t\t\t\t\t104\n#define\t\tPARAM_RELE_AV_COMM\t\t\t\t\t105\n#define\t\tPARAM_RELE_AV_BPS\t\t\t\t\t106\n#define\t\tPARAM_RELE_VENT\t\t\t\t\t\t107\n#define\t\tPARAM_RELE_VENT_WARM\t\t\t\t107\n#define\t\tPARAM_RELE_AV_BAT1\t\t\t\t\t108\n#define\t\tPARAM_RELE_AV_BAT2\t\t\t\t\t109\n#define\t\tPARAM_RELE_NPN\t\t\t\t\t\t110\r\n#define\t\tPARAM_RELE_WARM\t\t\t\t \t111\r\n#define \t\tPARAM_RELE_VVENT\t\t\t\t112\r\n#define \t\tPARAM_RELE_EXT\t\t\t\t\t113\r\n#define \t\tPARAM_RELE_BAT_IS_DISCHARGED\t114\r\n#define\t\tPARAM_KLIMAT_CNTRL_VENT_INT\t\t\t115\r\n#define\t\tPARAM_KLIMAT_CNTRL_VENT_EXT\t\t\t116\r\n#define\t\tPARAM_RELE_BDR1\t\t\t\t\t\t117\r\n#define\t\tPARAM_RELE_BDR2\t\t\t\t\t\t118\r\n#define\t\tPARAM_RELE_BDR3\t\t\t\t\t\t119\r\n#define\t\tPARAM_RELE_BDR4\t\t\t\t\t\t120\r\n#define\t\tPARAM_RELE_D1\t\t\t\t\t\t121\r\n#define\t\tPARAM_RELE_D2\t\t\t\t\t\t122\n#define\t\tPARAM_RELE_D5\t\t\t\t\t\t123\r\n#define\t\tPARAM_RELE_SYSOK\t\t\t\t\t124\r\n\n#define\tMESS2IND_HNDL\t\t\t\t\t\t215\n#define\t\tPARAM_SAMOKALIBR\t\t\t\t\t216\n#define \t\tPARAM_U_AVT_GOOD\t\t\t\t\t217\n#define\tMESS2MATEMAT\t\t\t\t\t\t220\n#define\t\tPARAM_SAMOKALIBR\t\t\t\t\t216\n#define\tMESS2CNTRL_HNDL \t\t\t\t\t225\n#define\t\tPARAM_CNTRL_STAT_PLUS\t\t\t\t100\n#define\t\tPARAM_CNTRL_STAT_MINUS\t\t\t\t105\n#define\t\tPARAM_CNTRL_STAT_STEP_DOWN\t\t\t110\n#define \t\tPARAM_CNTRL_STAT_SET\t\t \t\t229\n#define \t\tPARAM_CNTRL_STAT_FAST_REG\t\t \t230\t\n#define\tMESS2KB_HNDL \t\t\t\t\t230\n#define\t\tPARAM_CNTRL_IS_DOWN\t\t\t\t\t231\n#define\tMESS2VENT_HNDL \t\t\t\t\t240\n#define\t\tPARAM_VENT_CB\t\t\t\t\t241\n\n#define MESS2NET_DRV\t\t\t\t\t\t\t33\n#define\tPARAM_BPS_NET_OFF\t\t\t\t\t\t34\n\n#define LCD_SIZE 200\n\n\n\n#define BIN__N(x) (x) \| x>>3 \| x>>6 \| x>>9\n#define BIN__B(x) (x) & 0xf \| (x)>>12 & 0xf0\n#define BIN8(v) (BIN__B(BIN__N(0x##v)))\n\n\n\n#define BAUD_RATE0 9600UL\n#define BAUD_RATE1 9600UL\n\n\n\n\n\n#ifndef PAROL_ALL_ZERO\n#define PAROL_KALIBR 873\n#define PAROL_SET 184\n#define PAROL_MODE 0 \n#define PAROL_ALLER 815 \n#define PAROL_BAT_IN 722 \n#define PAROL_BAT_OUT 722\n#define PAROL_KE 125\n#define PAROL_VZ 126\r\n#define PAROL_VZ1 177\r\n#define PAROL_VZ2 177\n#define PAROL_TST 999 \n#define PAROL_DEFAULT 295\n#define PAROL_AUSW 949\r\n#define PAROL_DEF 295\r\n#define PAROL_LOG_RESET\t691\r\n//#define PAROL_SET_FSO_INF 0\r\n#define PAROL_SET_FSO_INF 743\n#endif \n\n#ifdef PAROL_ALL_ZERO\n#define PAROL_KALIBR 0\n#define PAROL_SET 0\n#define PAROL_MODE 0 \n#define PAROL_ALLER 0 \n#define PAROL_BAT_IN 0 \n#define PAROL_BAT_OUT 0\n#define PAROL_KE 0\n#define PAROL_VZ 0\n#define PAROL_TST 0\n#define PAROL_DEFAULT 0\n#define PAROL_AUSW 0\r\n#define PAROL_LOG_RESET\t0\r\n#define PAROL_SET_FSO_INF 0\n#endif\n\n\n#define CNT_SRC_MAX\t60\n\n\n\n//\n\n//#define SHIFT_REL_AV_BPS\t 4\n \n\n\n#ifdef UKU_MGTS\n#define SHIFT_REL_AV_NET\t\t25\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n#define SHIFT_REL_AV_COMM\t9\n#define SHIFT_REL_LOAD_OFF\t5\n#define SHIFT_REL_VENT\t 7\n#define SHIFT_REL_LIGHT \t 4\n#endif\n\n#ifdef UKU_RSTKM\n#define SHIFT_REL_AV_NET\t\t25\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n#define SHIFT_REL_AV_COMM\t9\n#define SHIFT_REL_LOAD_OFF\t5\n#define SHIFT_REL_VENT\t 7\n#define SHIFT_REL_LIGHT \t 4\n#endif\n\n#ifdef UKU_3U\n#define SHIFT_REL_AV_NET\t\t25\n#define SHIFT_REL_AV_BAT1\t4\n#define SHIFT_REL_AV_BAT2\t9\n#define SHIFT_REL_AV_BPS\t 7\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n#endif\n\n#ifdef UKU_GLONASS\n#define SHIFT_REL_AV_NET\t\t25\n#define SHIFT_REL_AV_BAT1\t4\n#define SHIFT_REL_AV_BAT2\t9\n#define SHIFT_REL_AV_BPS\t 7\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n#endif\n\n#ifdef UKU_KONTUR\n#define SHIFT_REL_AV_NET\t\t25\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n#define SHIFT_REL_AV_COMM\t9\n#define SHIFT_REL_LOAD_OFF\t5\n#define SHIFT_REL_VENT\t 7\n#define SHIFT_REL_VENT_WARM 7\n#define SHIFT_REL_WARM \t 4\n#define SHIFT_REL_LIGHT \t 4\n#endif\n\n#ifdef UKU_6U \n#define SHIFT_REL_AV_NET\t\t25\n#define SHIFT_REL_AV_BAT1\t4\n#define SHIFT_REL_AV_BAT2\t9\n#define SHIFT_REL_AV_BPS\t 7\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n#define SHIFT_REL_VENT\t\t5\n#endif\r\n\n#ifdef IPS_SGEP_GAZPROM\n#define SHIFT_REL_AV_NET\t\t25\n#define SHIFT_REL_AV_BAT1\t4\n#define SHIFT_REL_AV_BAT2\t9\n#define SHIFT_REL_AV_BPS\t 7\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n#define SHIFT_REL_VENT\t\t5\n#endif\r\n\n#ifdef UKU_220\n#define SHIFT_REL_AV_NET\t\t25\n#define SHIFT_REL_AV_BAT\t4\n#define SHIFT_REL_AV_BPS\t 7\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n#define SHIFT_REL_VENT\t\t9\n#endif\n\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n#define SHIFT_REL_AV_NET\t\t25\n#define SHIFT_REL_AV_BPS\t 5\n#define SHIFT_REL_AV_BAT\t 4\n#endif\n\n#ifdef UKU_220_V2\n#define SHIFT_REL_AV_NET\t\t25\n#define SHIFT_REL_AV_BAT\t4\n#define SHIFT_REL_AV_BPS\t 7\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n#define SHIFT_REL_VENT\t\t9\n#endif\r\n\n#ifdef UKU_TELECORE2015\n#define SHIFT_REL_AV_NET\t\t5\n#define SHIFT_REL_AV_BAT\t4\n#define SHIFT_REL_AV_BPS\t 7\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n#define SHIFT_REL_LIGHT\t\t9\r\n#define SHIFT_REL_WARM\t\t4\r\n#define SHIFT_REL_VENT\t 7\r\n#define SHIFT_REL_VVENT\t 6\n#endif\r\n\r\n#ifdef UKU_TELECORE2017\n#define SHIFT_REL_AV_NET\t\t5\n#define SHIFT_REL_LOAD_OFF\t4\n#define SHIFT_REL_AV_BPS\t 7\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n#define SHIFT_REL_LIGHT\t\t9\r\n#define SHIFT_REL_WARM\t\t4\r\n#define SHIFT_REL_VENT\t 7\r\n#define SHIFT_REL_VVENT\t 6\n#endif\r\n\r\n#ifdef UKU_FSO\n#define SHIFT_REL_AV_NET\t\t5\n#define SHIFT_REL_LOAD_OFF\t4\n#define SHIFT_REL_AV_BPS\t 7\n#define SHIFT_REL_BAT1\t 8\n#define SHIFT_REL_BAT2\t 6\n//#define SHIFT_REL_AV_BAT1\t4\r\n#define SHIFT_REL_VENT\t 6\r\n#define SHIFT_REL_D1\t\t 7\r\n#define SHIFT_REL_D2\t\t 5\r\n#define SHIFT_REL_D5\t\t 6\r\n#define SHIFT_REL_SYSOK\t\t 4\r\n//7\t\t\t\t 5\r\n//#define SHIFT_REL_VVENT\t 6\n#endif\r\n//********************************************\r\n// oleg_stard\r\nextern unsigned char ver_soft;\r\nextern unsigned short r_iz_plus, r_iz_minus, r_iz_porog_pred, r_iz_porog_error;\r\nextern unsigned char asymmetry;\t\t\t\t\t\t//o_3\r\nextern unsigned short v_plus, v_minus, u_asymmetry, Ubus;\t//o_3\r\n//#define u_in_rki \tv_plus+v_minus\t//o_3\r\nextern unsigned int sk1_24;\r\nextern unsigned short Iddt_porog_pred, Iddt_porog_error; \r\nextern unsigned char n_error_ddt_uku, u_rki; \r\nextern unsigned short Rddt[8][4]; \r\nextern unsigned char count_Iddt; // количество датчиков тока\r\nextern unsigned char count_mess_rki; // номер запроса пакетов\t РКИ\r\nextern unsigned char no_rki; // нет связи с РКИ\r\nextern unsigned char num_rki; // количество РКИ\r\nextern unsigned char command_rki; //команда для РКИ\r\n#define NO_RKI 15 // количество посылок без ответа для отсутствия связи с РКИ\r\nextern unsigned char ddt_error;\r\nextern unsigned short status_izm_r;\t// аварии измерения изоляции\r\nextern unsigned int sk_alarm/, status_di1, status_di2/; // авария СК, ток пред, ток аварии\r\nextern unsigned char type_rki; // 0-маленькое РКИ, 1-большое РКИ\r\nextern unsigned char asymmetry_porog;\r\nextern unsigned short porog_u_in;\r\nextern unsigned char uku_or_rki; //индикация аварий уку или рки\r\nextern unsigned char u_asymmetry_porog_up, u_asymmetry_porog, u_asymmetry_porog_down;\r\nextern unsigned char kalibr_r_most;\r\nextern unsigned char sk1_24_table[24], sk_alarm_table[24], ddt_error_table[8]; //o_3 \r\n\r\n\t\t\t\t\t\t// сетевые вводы\r\n#define NO_NET_IN 10 // количество посылок без ответа для отсутствия связи с сетевым вводом\r\nextern unsigned short net_in_u1_a, net_in_u1_b, net_in_u1_c, net_in_i1_a, net_in_i1_b, net_in_i1_c;\r\nextern unsigned short net_in_p1_a, net_in_p1_b, net_in_p1_c, net_in_s1_a, net_in_s1_b, net_in_s1_c; \r\nextern unsigned short net_in_f1; \r\nextern unsigned short net_in_u2_a, net_in_u2_b, net_in_u2_c, net_in_i2_a, net_in_i2_b, net_in_i2_c;\r\nextern unsigned short net_in_p2_a, net_in_p2_b, net_in_p2_c, net_in_s2_a, net_in_s2_b, net_in_s2_c; \r\nextern unsigned short net_in_f2;\r\nextern unsigned char count_mess_net_in; // номер запроса пакетов\r\nextern unsigned char num_net_in; // количество сетевых вводов\r\nextern unsigned char no_net_in; // нет связи с сетевыми вводами\r\nextern unsigned char command_net_in;\r\nextern unsigned char priority_net_in;// приоритет ввода\r\nextern unsigned short u_min_net_in, u_max_net_in, i_min_net_in;// установки сетевых вводов\r\nextern unsigned char hysteresis_net_in;\r\nextern unsigned short t_inclusion_net_in, t_shutdown_net_in;\r\n\r\n//o_12_s\r\nextern unsigned char enmv_modbus_adress[8], cnt_enmv_modbus_adress;\r\n\n//------- LVBD\nextern unsigned char LVBD_status, lvbd_num_alarm_status;\n#define NO_LVBD 15 // количество посылок без ответа для отсутствия связи с LVBD\nextern unsigned char no_lvbd; // нет связи с LVBD\nextern unsigned short lvbd_Uload, lvbd_Uakb;\nextern unsigned char ver_soft_lvbd;\nextern unsigned short LVBD_porog_U1, LVBD_porog_U2, LVBD_Uload_rele_en, LVBD_Uakb_rele_en;//пороги\nextern unsigned short LVBD_speed_rs485;\nextern unsigned char LVBD_adress_rs485, LVBD_mode_rele_enable, LVBD_num_meas;//адрес модбас, режим реле, число измерений для аварии\nextern unsigned char count_mess_lvbd, command_lvbd;\r\nextern unsigned short data_lvbd;\n//o_12_e\r\n\n//*********************************************\n//Таймер\nextern char b1000Hz,b100Hz,b50Hz,b10Hz,b5Hz,b2Hz,b1Hz;\nextern short t0cnt,t0cnt0,t0cnt1,t0cnt2,t0cnt3,t0cnt4,t0cnt5,t0cnt6,t0_cnt7;\nextern char bFL5,bFL2,bFL,bFL_;\nextern signed short main_10Hz_cnt;\nextern signed short main_1Hz_cnt;\n\n//*******************************************\n//Структура ИБЭПа\nextern char cnt_of_slave;\n//char cnt_of_wrks; //колличество работающих источников , для индикации\n\n\n\n\n//********************************************\n//Индикация\ntypedef enum {\n\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\tiMn_220_IPS_TERMOKOMPENSAT,\r\n\t#endif\n\t#ifdef UKU_220\n\tiMn_220,\n\t#endif\n\t#ifdef UKU_KONTUR\n\tiMn_KONTUR,\n\t#endif\n\t#ifdef UKU_6U\n\tiMn_6U,\n\t#endif\n\t#ifdef UKU_GLONASS\n\tiMn_GLONASS,\n\t#endif\n\t#ifdef UKU_220_V2\n\tiMn_220_V2,\n\t#endif\r\n\t#ifdef UKU_TELECORE2015\r\n\tiMn_TELECORE2015, \n\t#endif\r\n\t#ifdef IPS_SGEP_GAZPROM\n\tiMn_IPS_SGEP_GAZPROM,\n\t#endif\r\n\r\n\t#ifdef UKU_FSO\n\tiMn_FSO,\n\t#endif\r\n\r\n\tiMn,iMn_3U,iMn_RSTKM,\n\t#ifndef UKU_220_IPS_TERMOKOMPENSAT\n\tiMn_220_IPS_TERMOKOMPENSAT,\n\t#endif\n\t#ifndef UKU_220\n\tiMn_220,\n\t#endif\n\t#ifndef UKU_KONTUR\n\tiMn_KONTUR,\n\t#endif\n\t#ifndef UKU_6U\n\tiMn_6U,\n\t#endif\n\t#ifndef UKU_GLONASS\n\tiMn_GLONASS,\n\t#endif\n\t#ifndef UKU_220_V2\n\tiMn_220_V2,\n\t#endif \r\n\t#ifndef UKU_TELECORE2015\n\tiMn_TELECORE2015,\n\t#endif\r\n\t#ifndef UKU_TELECORE2017\n\tiMn_TELECORE2017,\n\t#endif\r\n\t#ifndef IPS_SGEP_GAZPROM\n\tiMn_IPS_SGEP_GAZPROM,\n\t#endif\r\n\t#ifndef UKU_FSO\n\tiMn_FSO,\n\t#endif\r\n\tiRKI, iSetRKI, iK_RKI,iK_MOST,//oleg_start\r\n\tiNET_IN, iSetNetIn, iK_Net_In,//oleg_start \r\n\tiLVBD, iSetLVBD, iK_LVBD, iSetENMV,//o_12 \n\tiSrv_sl,iNet,iNet3,iNetEM,iNet3LIN,iNet_IPS_SGEP_GAZPROM,\n\tiSet,iSet_3U,iSet_RSTKM,iSet_GLONASS,iSet_KONTUR,iSet_6U,iSet_220,iSet_220_IPS_TERMOKOMPENSAT,iSet_220_V2,iInv_set_sel, iSet_FSO,\n\tiBat, iBat_simple, iBat_li, iBat_SacredSun, iBat_universe, iBat_FSO, iInv_set, iSet_TELECORE2015, iSet_TELECORE2017, iSet_IPS_SGEP_GAZPROM, iBat_ZVU,\n\tiMakb,\r\n\tiSet_prl_FSO_inf, iSet_FSO_inf, iFSO_inf,\n\tiBps,iBps_elteh,iS2,iSet_prl,iK_prl,iDnd,iPrlVZ1,iPrlVZ2,\n\tiK,iK_3U,iK_RSTKM,iK_GLONASS,iK_KONTUR,iK_6U,iK_220,iK_220_380,iK_220_IPS_TERMOKOMPENSAT,iK_220_IPS_TERMOKOMPENSAT_IB,iK_TELECORE,iK_IPS_SGEP_GAZPROM,\n\tiSpcprl,iSpc,k,Crash_0,Crash_1,iKednd,iAv_view_avt,iAKE,iSpc_termocompensat,\n\tiLoad,iSpc_prl_vz,iSpc_prl_ke,iKe,iVz,iAvz,iAVAR,\n\tiStr,iStr_3U,iStr_RSTKM,iStr_GLONASS,iStr_KONTUR,iStr_6U,iStr_220_IPS_TERMOKOMPENSAT,iStr_TELECORE2015,iStr_IPS_SGEP_GAZPROM,iStr_FSO,\n\tiVrs,iPrltst,iApv,iVZ_set,iVZ1_set,iVZ2_set,\n\tiK_bps,iK_bps_sel,iK_bat,iK_bat_simple,iK_bat_ips_termokompensat_ib,iK_bat_TELECORE,iK_bat_FSO,iK_bat_sel,iK_bat_sel_TELECORE,iK_bat_sel_FSO,iK_load,iK_net, iK_net3, iK_FSO,\n\tiK_makb_sel,iK_makb,iK_out,\n\tiTst,iTst_3U,iTst_RSTKM,iTst_GLONASS,iTst_KONTUR,iTst_6U,iTst_220,iTst_220_380,iTst_220_IPS_TERMOKOMPENSAT,iTst_FSO,\r\n\tiTst_TELECORE, iTst_IPS_SGEP_GAZPROM,\n\tiTst_klbr,iTst_BPS1,iTst_BPS2,iTst_BPS12,iDebug,\n\tiDef,iDef_3U,iDef_RSTKM,iDef_GLONASS,iDef_KONTUR,iDef_6U,iDef_220,iDef_220_IPS_TERMOKOMPENSAT,iDef_220_V2,\n\tiSet_st_prl,iK_pdp,iSet_T,iSet_T_avt,\n\tiDeb,iBat_link_set,iK_inv,iK_inv_sel,iK_byps,\n\tiPrl_bat_in_out,iPrl_bat_in_sel,iPdp1,iJAv_sel,iJAv_net_sel,iJAv_net,iJAv_src1,\n\tiTst_bps,/iJAv_bat,iJAv_bat_sel,/iAusw,iAusw_prl,iAusw_set,\n\tiK_t_ext,iK_t_3U,iK_t_ext_6U, iPrl_Def_220_IPS_TERMOKOMPENSAT,\n\tiAv_view,\n\tiBatLogKe,iJ_bat_ke,iBatLogVz,iJ_bat_vz,iBatLogWrk,\n\tiExtern,iExtern_3U,iExtern_GLONASS,iExtern_KONTUR,iExtern_6U,iExtern_220,iExtern_220_ZVU,\n\tiK_power_net,\n\tiExt_set,iExt_set_3U,iExt_set_GLONASS,iExt_set_TELECORE2015,\n\tiExt_dt,\n\tiExt_sk,iExt_sk_3U,iExt_sk_GLONASS,\n\tiExt_ddv,iExt_ddi,iExt_dud,iExt_dp,iSM,iLog,iLog_, iLog_reset_prl, iBatLog,iKlimat,iKlimat_kontur,iKlimat_TELECORE,\n\tiEnerg3,iEnerg,\r\n\tiExtern_TELECORE2015, iExtern_FSO, iAvt_FSO,\n\tiVent,\n\tiK_power_net3,\n\tiAvt,iLan_set,\n\tiInv,iInv_v2,\n\tiNpn_set,\n\tiByps,iInv_tabl,iSet_bat_sel,\n\tiBps_list,\r\n\tiSpch_set,\r\n\tiAvt_set_sel,iAvt_set,iAvt_comm_set,iSet_li_bat,\r\n\tiOut_volt_contr,iDop_rele_set,iBlok_ips_set,iIps_Curr_Avg_Set,\r\n\tiRele_set,iRele_set_,\r\n\tiRele_set_6U,//o_9\r\n\tiFWabout, iSpecInf,\tiSpecInfFSO,\r\n\tiHV_STEP2_1,iHV_STEP2_2,iVZ1_STEP2_1,iVZ1_STEP2_2,iVZ2_STEP2_1,iVZ2_STEP2_2,\r\n\tiSet_load_off,\r\n\tiSet_bat_point,\r\n\tiSet_FSO_MINI_SIGN\r\n\t}i_enum;\r\n\ntypedef struct \n{\n\ni_enum i;\nsigned char s_i;\nsigned char s_i1;\nsigned char s_i2;\nsigned char i_s;\n} stuct_ind;\n\n#define ind a_ind.i\n#define sub_ind a_ind.s_i\n#define sub_ind1 a_ind.s_i1\n#define sub_ind2 a_ind.s_i2\n#define index_set a_ind.i_s\n\nextern stuct_ind a_ind,b_ind[10],c_ind;\nextern signed short ptr_ind;\nextern char lcd_buffer[LCD_SIZE+100];\nextern signed char parol[3];\nextern char phase;\nextern char lcd_bitmap[1024];\nextern char dig[5];\nextern signed short ind_pointer;\nextern char zero_on;\nextern char mnemo_cnt;\nextern char simax;\nextern short av_j_si_max;\nextern const char ABCDEF[];\nextern const char sm_mont[13][4]; \r\nextern char show_mess_p1,show_mess_p2,show_mess_p3,show_mess_p4;\r\nextern char show_mess_cnt;\r\nextern short show_mess_number_;\r\nextern char show_mess_komma;\n\n\n//*******************************************\n//Коэффициенты, отображаемые из EEPROM\nextern signed short Ktsrc[2];\nextern signed short Kusrc[2];\nextern signed short Kisrc[2];\nextern signed short Ki0src[2];\nextern signed short Kubat[2];\nextern signed short Kubatm[2];\nextern unsigned short Kibat0[2];\nextern signed short Kibat1[2];\nextern signed short Ktbat[2];\nextern signed short Kunet;\nextern signed short Ktext[3];\nextern signed short Kuload;\nextern signed short Kunet_ext[3];\nextern signed short KunetA;\nextern signed short KunetB;\nextern signed short KunetC;\r\nextern signed short Kubps;\r\nextern signed short Kuout;\n\nextern signed short MAIN_IST;\nextern signed short UMAX;\nextern signed short UB0;\nextern signed short UB20;\nextern signed short TMAX;\nextern signed short TSIGN;\nextern signed short AV_OFF_AVT;\nextern signed short USIGN;\nextern signed short UMN;\r\nextern signed short UMAXN;\nextern signed short ZV_ON;\nextern signed short IKB;\nextern signed short UVZ;\r\nextern signed short IMAX_VZ;\nextern signed short IMAX;\nextern signed short IMIN;\nextern signed short APV_ON;\nextern signed short IZMAX;\nextern signed short U0B;\nextern signed short TZAS;\nextern signed short VZ_HR;\nextern signed short TBAT;\nextern signed short U_AVT;\nextern signed short DU;\nextern signed short PAR;\nextern signed short TBATMAX;\nextern signed short TBATSIGN;\nextern signed short UBM_AV;\nextern signed short RELE_LOG;\nextern signed short TBOXMAX;\nextern signed short TBOXREG;\nextern signed short TBOXVENTMAX;\nextern signed short TLOADDISABLE;\nextern signed short TLOADENABLE;\nextern signed short TBATDISABLE;\nextern signed short TBATENABLE;\nextern signed short TBOXMAX;\nextern signed short TBOXREG;\nextern signed short TBOXVENTMAX;\nextern signed short TLOADDISABLE;\nextern signed short TLOADENABLE;\nextern signed short TBATDISABLE;\nextern signed short TBATENABLE;\nextern signed short TVENTON;\nextern signed short TVENTOFF;\nextern signed short TWARMON;\nextern signed short TWARMOFF;\r\ntypedef enum {rvsAKB=0,rvsEXT=1,rvsBPS=2} enum_releventsign;\t//o_8\nextern enum_releventsign RELEVENTSIGN;\n//typedef enum {rvsAKB=0,rvsEXT,rvsBPS} enum_releventsign;\n//extern enum_releventsign RELEVENTSIGN;\nextern signed short TZNPN;\nextern signed short UONPN;\nextern signed short UVNPN;\r\nextern signed short dUNPN;\ntypedef enum {npnoOFF=0,npnoRELEVENT=1,npnoRELEAVBAT2=2, npnoBDR=3} enum_npn_out; //o_9\nextern enum_npn_out NPN_OUT;\ntypedef enum {npnsULOAD=0,npnsAVNET} enum_npn_sign;\nextern enum_npn_sign NPN_SIGN;\nextern signed short TERMOKOMPENS;\nextern signed short TBOXVENTON; \nextern signed short TBOXVENTOFF;\nextern signed short TBOXWARMON; \nextern signed short TBOXWARMOFF;\nextern signed short BAT_TYPE;\t//Тип батареи. 0 - обычная свинцовая, 1-литиевая COSLIGHT, 2-литиевая SACRED SUN , 3-литиевая ZTT\r\nextern signed short DU_LI_BAT;\t//Параметр, определяющий напряжение содержания литиевой батареи\r\nextern signed short FORVARDBPSCHHOUR;\t//Периодичностьсмены ведущего источника в часах. Если 0 - функция выключена и ведущий первый источник\r\nextern signed short NUMBAT;\r\nextern signed short NUMBAT_TELECORE;\nextern signed short NUMIST;\nextern signed short NUMINV;\nextern signed short NUMDT;\nextern signed short NUMSK;\nextern signed short NUMEXT;\nextern signed short NUMAVT;\nextern signed short NUMMAKB;\nextern signed short NUMBYPASS;\r\nextern signed short NUMBDR;\r\nextern signed short NUMENMV;\r\nextern signed short NUMLVBD; //o_12\r\nextern signed short NUMPHASE; \r\nextern signed short SMART_SPC;\r\nextern signed short U_OUT_KONTR_MAX;\r\nextern signed short U_OUT_KONTR_MIN;\r\nextern signed short U_OUT_KONTR_DELAY;\r\nextern signed short DOP_RELE_FUNC;\r\nextern signed short CNTRL_HNDL_TIME;\t//Постоянная времени регулирования источников для Телекора\r\nextern signed short USODERG_LI_BAT;\t\t//Напряжение содержания литиевой батареи\r\nextern signed short QSODERG_LI_BAT;\t\t//Заряд при котором начинает действовать напряжение содержания литиевой батареи\r\nextern signed short TVENTMAX;\t\t\t//Максимальный ресурс вентилятора\r\nextern signed short ICA_EN;\t\t\t\t//Включенность режима выравнивания токов ИПС\r\nextern signed short ICA_CH;\t\t\t\t//Канал связи для выравнивания токов, 0 - MODBUS, 1 - MODBUS-TCP\r\nextern signed short ICA_MODBUS_ADDRESS;//Адрес ведомого для выравнивания токов по шине MODBUS-RTU\r\nextern signed short ICA_MODBUS_TCP_IP1,ICA_MODBUS_TCP_IP2,ICA_MODBUS_TCP_IP3,ICA_MODBUS_TCP_IP4;\t//IP ведомого для выравнивания токов по шине MODBUS-TCP\r\nextern signed short ICA_MODBUS_TCP_UNIT_ID;\t//UNIT ID ведомого для выравнивания токов по шине MODBUS-TCP\r\nextern signed short PWM_START;\t\t\t//Начальный шим для ЭЛТЕХа\r\nextern signed short KB_ALGORITM;\t\t//2-х или 3-х ступеннчатый алгоритм проверки цепи батареи\r\nextern signed short REG_SPEED;\t\t\t//скорость регулирования, 1- стандартная, 2,3,4,5- замедленная в 2,3,4,5 раз\r\n\ntypedef enum {apvON=0x01,apvOFF=0x00}enum_apv_on;\nextern enum_apv_on APV_ON1,APV_ON2;\n\nextern signed short APV_ON2_TIME;\r\nextern signed short RS485_QWARZ_DIGIT;\r\nextern signed short UVENTOFF;\t\t\t//Напряжение (1в) при котором выключится вентиляция после окончания ВЗ или УСКЗ\r\nextern signed short VZ_KIND;\t\t\t//Тип выравнивающего заряда, 0 - обычный(исторический, повышение напряжения на время), \r\n\t\t\t\t\t\t\t\t\t\t//1- высоковольтный, с контролем вентиляции и запросами к оператору\r\nextern signed short SNTP_ENABLE;\r\nextern signed short SNTP_GMT;\r\n\r\nextern signed short NUMBAT_FSO;\r\n#ifdef UKU_FSO_MINI\r\nextern signed short UKU_FSO_MINI_SIGN_MODE;\r\nextern signed short UKU_FSO_MINI_SIGN_D1_Q;\r\nextern signed short UKU_FSO_MINI_SIGN_D5_Q;\r\nextern signed short UKU_FSO_MINI_SIGN_D1_U;\r\nextern signed short UKU_FSO_MINI_SIGN_D5_U;\r\nextern char uku_fso_D1_stat;\r\nextern char uku_fso_D2_stat;\r\nextern char uku_fso_D5_stat;\r\nextern char uku_fso_SYSOK_stat;\r\nextern short uku_fso_D1_cnt;\r\nextern short uku_fso_D5_cnt;\r\n#endif //UKU_FSO_MINI\r\n\r\nextern signed short UZ_U;\r\nextern signed short UZ_IMAX;\r\nextern signed short UZ_T;\r\n\r\nextern signed short FZ_U1;\r\nextern signed short FZ_IMAX1;\r\nextern signed short FZ_T1;\r\nextern signed short FZ_ISW12;\r\nextern signed short FZ_U2;\r\nextern signed short FZ_IMAX2;\r\nextern signed short FZ_T2;\r\n\r\nextern signed short RELE_SET_MASK[4];\n\ntypedef enum {bisON=0x0055,bisOFF=0x00aa}enum_bat_is_on;\nextern enum_bat_is_on BAT_IS_ON[2];\n\nextern signed short BAT_DAY_OF_ON[2];\nextern signed short BAT_MONTH_OF_ON[2];\nextern signed short BAT_YEAR_OF_ON[2];\nextern signed short BAT_C_NOM[2];\nextern signed short BAT_RESURS[2];\nextern signed short BAT_C_REAL[2];\n//extern signed short BAT_TYPE[2];\n\nextern unsigned short AUSW_MAIN;\nextern unsigned long AUSW_MAIN_NUMBER;\nextern unsigned short AUSW_DAY;\nextern unsigned short AUSW_MONTH;\nextern unsigned short AUSW_YEAR;\nextern unsigned short AUSW_UKU;\nextern unsigned short AUSW_UKU_SUB;\nextern unsigned long AUSW_UKU_NUMBER;\nextern unsigned long\tAUSW_BPS1_NUMBER;\nextern unsigned long AUSW_BPS2_NUMBER;\nextern unsigned short AUSW_RS232;\nextern unsigned short AUSW_PDH;\nextern unsigned short AUSW_SDH;\nextern unsigned short AUSW_ETH;\n\nextern signed short TMAX_EXT_EN[3];\nextern signed short TMAX_EXT[3];\nextern signed short TMIN_EXT_EN[3];\nextern signed short TMIN_EXT[3];\nextern signed short T_EXT_REL_EN[3];\nextern signed short T_EXT_ZVUK_EN[3];\nextern signed short T_EXT_LCD_EN[3];\nextern signed short T_EXT_RS_EN[3];\n\nextern signed short SK_SIGN[4];\nextern signed short SK_REL_EN[4];\nextern signed short SK_ZVUK_EN[4];\nextern signed short SK_LCD_EN[4];\nextern signed short SK_RS_EN[4];\n\ntypedef enum {AVZ_1=1,AVZ_2=2,AVZ_3=3,AVZ_6=6,AVZ_12=12,AVZ_OFF=0}enum_avz;\nextern enum_avz AVZ;\n\nextern unsigned short HOUR_AVZ;\nextern unsigned short MIN_AVZ;\nextern unsigned short SEC_AVZ;\nextern unsigned short DATE_AVZ;\nextern unsigned short MONTH_AVZ;\nextern unsigned short YEAR_AVZ;\nextern unsigned short AVZ_TIME;\ntypedef enum {mnON=0x55,mnOFF=0xAA}enum_mnemo_on;\nextern enum_mnemo_on MNEMO_ON;\nextern unsigned short MNEMO_TIME;\nextern signed short POWER_CNT_ADRESS;\n\nextern signed short ETH_IS_ON;\nextern signed short ETH_DHCP_ON;\nextern signed short ETH_IP_1;\nextern signed short ETH_IP_2;\nextern signed short ETH_IP_3;\nextern signed short ETH_IP_4;\nextern signed short ETH_MASK_1;\nextern signed short ETH_MASK_2;\nextern signed short ETH_MASK_3;\nextern signed short ETH_MASK_4;\nextern signed short ETH_TRAP1_IP_1;\nextern signed short ETH_TRAP1_IP_2;\nextern signed short ETH_TRAP1_IP_3;\nextern signed short ETH_TRAP1_IP_4;\nextern signed short ETH_TRAP2_IP_1;\nextern signed short ETH_TRAP2_IP_2;\nextern signed short ETH_TRAP2_IP_3;\nextern signed short ETH_TRAP2_IP_4;\nextern signed short ETH_TRAP3_IP_1;\nextern signed short ETH_TRAP3_IP_2;\nextern signed short ETH_TRAP3_IP_3;\nextern signed short ETH_TRAP3_IP_4;\nextern signed short ETH_TRAP4_IP_1;\nextern signed short ETH_TRAP4_IP_2;\nextern signed short ETH_TRAP4_IP_3;\nextern signed short ETH_TRAP4_IP_4;\nextern signed short ETH_TRAP5_IP_1;\nextern signed short ETH_TRAP5_IP_2;\nextern signed short ETH_TRAP5_IP_3;\nextern signed short ETH_TRAP5_IP_4;\nextern signed short ETH_SNMP_PORT_READ;\nextern signed short ETH_SNMP_PORT_WRITE;\nextern signed short ETH_GW_1;\nextern signed short ETH_GW_2;\nextern signed short ETH_GW_3;\nextern signed short ETH_GW_4;\n\nextern signed short RELE_VENT_LOGIC;\n\nextern signed short MODBUS_ADRESS;\nextern signed short MODBUS_BAUDRATE;\nextern signed short BAT_LINK;\r\n\r\n#ifdef UKU_ZVU\r\nextern signed short BAT_C_POINT_1_6; \t//Емкость батареи при разряде 1/6 часа\r\nextern signed short BAT_C_POINT_1_2; \t//Емкость батареи при разряде 1/2 часа\r\nextern signed short BAT_C_POINT_1;\t\t//Емкость батареи при разряде 1 час\r\nextern signed short BAT_C_POINT_3;\t\t//Емкость батареи при разряде 3 часа\r\nextern signed short BAT_C_POINT_5;\t\t//Емкость батареи при разряде 5 часов\r\nextern signed short BAT_C_POINT_10;\t\t//Емкость батареи при разряде 10 часов\r\nextern signed short BAT_C_POINT_20;\t\t//Емкость батареи при разряде 20 часов\r\nextern signed short BAT_U_END_1_6; \t//Конечное напряжение батареи при разряде 1/6 часа\r\nextern signed short BAT_U_END_1_2; \t//Конечное напряжение батареи при разряде 1/2 часа\r\nextern signed short BAT_U_END_1; \t\t//Конечное напряжение батареи при разряде 1 час\r\nextern signed short BAT_U_END_3; \t\t//Конечное напряжение батареи при разряде 3 часа\r\nextern signed short BAT_U_END_5; \t\t//Конечное напряжение батареи при разряде 5 часов\r\nextern signed short BAT_U_END_10; \t\t//Конечное напряжение батареи при разряде 10 часов\r\nextern signed short BAT_U_END_20; \t\t//Конечное напряжение батареи при разряде 20 часов\r\nextern signed short BAT_C_POINT_NUM_ELEM;\t//Количество элементов в батарее\r\nextern signed short BAT_K_OLD;\t\t\t//Коэффициент старения батареи\n#endif\r\n\r\n#ifdef UKU_FSO\r\nextern signed int UKUFSO_IBEP_SN; \t\t\t\t\t\t//Серийный номер ИБЭП\r\nextern signed short UKUFSO_IBEP_START_DATE_YEAR; \t\t//Год начала эксплуатации ИБЭП\r\nextern signed short UKUFSO_IBEP_START_DATE_MONTH; \t\t//Месяц начала эксплуатации ИБЭП\r\nextern signed short UKUFSO_IBEP_START_DATE_DAY; \t\t//День начала эксплуатации ИБЭП\r\nextern char UKUFSO_IBEP_PLACE[55];\t\t\t\t\t\t//Строка с месторасположением ИБЭП\r\nextern signed int UKUFSO_BPS1_SN; \t\t\t\t\t\t//Серийный номер БПС1\r\nextern signed short UKUFSO_BPS1_START_DATE_YEAR;\t\t//Год начала эксплуатации БПС1\r\nextern signed short UKUFSO_BPS1_START_DATE_MONTH;\t\t//Месяц начала эксплуатации БПС1\r\nextern signed short UKUFSO_BPS1_START_DATE_DAY;\t\t\t//День начала эксплуатации БПС1\r\nextern signed int UKUFSO_BPS2_SN; \t\t\t\t\t\t//Серийный номер БПС2\r\nextern signed short UKUFSO_BPS2_START_DATE_YEAR;\t\t//Год начала эксплуатации БПС2\r\nextern signed short UKUFSO_BPS2_START_DATE_MONTH;\t\t//Месяц начала эксплуатации БПС2\r\nextern signed short UKUFSO_BPS2_START_DATE_DAY;\t\t\t//День начала эксплуатации БПС2\r\nextern signed int UKUFSO_BPS3_SN; \t\t\t\t\t\t//Серийный номер БПС3\r\nextern signed short UKUFSO_BPS3_START_DATE_YEAR;\t\t//Год начала эксплуатации БПС3\r\nextern signed short UKUFSO_BPS3_START_DATE_MONTH;\t\t//Месяц начала эксплуатации БПС3\r\nextern signed short UKUFSO_BPS3_START_DATE_DAY;\t\t\t//День начала эксплуатации БПС3\r\nextern signed int UKUFSO_BPS4_SN; \t\t\t\t\t\t//Серийный номер БПС4\r\nextern signed short UKUFSO_BPS4_START_DATE_YEAR;\t\t//Год начала эксплуатации БПС4\r\nextern signed short UKUFSO_BPS4_START_DATE_MONTH;\t\t//Месяц начала эксплуатации БПС4\r\nextern signed short UKUFSO_BPS4_START_DATE_DAY;\t\t\t//День начала эксплуатации БПС4\r\nextern signed int UKUFSO_BAT1_SN; \t\t\t\t\t\t//Серийный номер БАТ1\r\nextern signed short UKUFSO_BAT1_START_DATE_YEAR;\t\t//Год начала эксплуатации БАТ1\r\nextern signed short UKUFSO_BAT1_START_DATE_MONTH;\t\t//Месяц начала эксплуатации БАТ1\r\nextern signed short UKUFSO_BAT1_START_DATE_DAY;\t\t\t//День начала эксплуатации БАТ1\r\nextern signed int UKUFSO_BAT2_SN; \t\t\t\t\t\t//Серийный номер БАТ2\r\nextern signed short UKUFSO_BAT2_START_DATE_YEAR;\t\t//Год начала эксплуатации БАТ2\r\nextern signed short UKUFSO_BAT2_START_DATE_MONTH;\t\t//Месяц начала эксплуатации БАТ2\r\nextern signed short UKUFSO_BAT2_START_DATE_DAY;\t\t\t//День начала эксплуатации БАТ2\r\n#endif\r\n\r\nextern signed short SP_CH_VENT_BLOK;\r\nextern signed short VZ_CH_VENT_BLOK;\r\n\n//*******************************************\n//Состояние батарей\ntypedef struct\n {\n\tchar \t\t_cnt_to_block;\n\tsigned short\t_Ub;\n signed short\t_Ubm;\n signed short\t_dUbm;\n\tsigned short\t_Ib;\r\n\tsigned short\t_Ib_;\n\tsigned short\t_Tb;\n\tchar \t\t_nd;\n\tchar \t\t_cnt_wrk;\n\tchar \t\t_wrk;\n\tunsigned short _zar;\n\tchar \t\t_full_ver;\n\tsigned long \t_zar_cnt;\n\tsigned long \t_zar_cnt_ke;\n\tunsigned short _Iintegr,_Iintegr_; \n\tsigned short \t_u_old[8];\n\tsigned short\t_u_old_cnt;\n\tunsigned long \t_wrk_date[2];\n\tchar \t\t_rel_stat;\n\tchar\t\t\t_av;\n\tchar\t\t\t_time_cnt;\n\tchar \t\t_temper_stat;\n\t//0бит - подогрев\n\t//1бит - перегрев\r\n\t//4бит - подогрев(отставание на цикл(_old))\n\t//5бит - перегрев (отставание на цикл(_old))\n\tsigned short \t_sign_temper_cnt;\n\tsigned short \t_max_temper_cnt;\n\tsigned long \t_resurs_cnt;\n\tsigned short \t_cnt_as; \t//счетчик несимметрии, считает до 5 минут при выполнении условий несимметрии, когда досчитывает - пишет в журнал\n //signed short _max_cell_volt;\n\t//signed short _min_cell_volt;\r\n\tunsigned short _time_min_cnt_ke;\n\t} BAT_STAT; \nextern BAT_STAT bat[2],bat_ips;\nextern signed short\t\tbat_u_old_cnt;\nextern signed short \tIb_ips_termokompensat;\r\nextern signed short\t\tIb_ips_termokompensat_temp;\r\n\n//#ifdef UKU_TELECORE2015\r\ntypedef enum {bsOFF=0,bsCOMM_ON,bsOK} enum_batStat;\r\n//*******************************************\n//Состояние литиевой батареи\ntypedef struct\n {\n\t//char \t\t_cnt_to_block;\n\tsigned short\t_Ub;\n //signed short\t_Ubm;\n //signed short\t_dUbm;\n\tsigned short\t_Ib;\n\tsigned short\t_Tb;\n\tchar \t\t_nd;\r\n\tchar \t\t_soh;\n\tchar \t\t_soc;\r\n\tsigned short _ratCap;\r\n\tchar \t\t_comErrStat;\t//Состояние связи с батареей: 1-ошибка, 0-связь в норме\n\tenum_batStat\t_batStat;\r\n\tsigned short \t_cclv;\n\tchar \t\t_rbt;\r\n\tshort \t\t_canErrorCnt;\r\n\tchar\t\t\t_canError;\r\n\tchar \t\t_485Error;\r\n\tshort \t\t_485ErrorCnt;\n\t//char \t\t_full_ver;\n\t//signed long \t_zar_cnt;\n\t//signed long \t_zar_cnt_ke;\n\t//unsigned short _Iintegr,_Iintegr_; \n\t//signed short \t_u_old[8];\n\t//signed short\t_u_old_cnt;\n\t//unsigned long \t_wrk_date[2];\n\t//char \t\t_rel_stat;\n\t//char\t\t\t_av;\n\t//char\t\t\t_time_cnt;\n\t//char \t\t_temper_stat;\n\t//0бит - подогрев\n\t//1бит - перегрев\n\t//signed short \t_sign_temper_cnt;\n\t//signed short \t_max_temper_cnt;\n\t//signed long \t_resurs_cnt;\n\t//signed short \t_cnt_as; \t//счетчик несимметрии, считает до 5 минут при выполнении условий несимметрии, когда досчитывает - пишет в журнал\n //signed short _max_cell_volt;\n\t//signed short _min_cell_volt;\n\t} LI_BAT_STAT; \nextern LI_BAT_STAT li_bat;\r\n//#endif\n//*******************************************\n//Состояние байпаса\ntypedef struct\n {\n\tsigned short \t_Iout;\n\tsigned short \t_Uout;\n\tsigned short \t_Pout;\n\tsigned short \t_Unet; \t\n\tsigned short \t_Uin;\n\tchar\t\t\t_T;\n\tchar \t\t_flags;\n\tchar\t\t\t_cnt;\n\tchar \t\t_adress;\n\t} BYPS_STAT; \nextern BYPS_STAT byps;\n\n//*******************************************\n//Мониторы АКБ\ntypedef struct\n {\n\tsigned short\t_U[5];\n\tsigned short\t_Ub[5];\n\tsigned short\t_T[5];\n\tsigned short\t_T_nd[5];\n\tsigned short \t_cnt; \t\n\t} MAKB_STAT; \nextern MAKB_STAT makb[4];\r\n\n//*******************************************\r\n//Литиевые АКБ\r\ntypedef struct\r\n {\r\n\tsigned short\t_max_cell_volt;\r\n\tsigned short\t_min_cell_volt;\r\n\tsigned short\t_max_cell_temp;\r\n\tsigned short\t_min_cell_temp;\r\n\tsigned short\t_tot_bat_volt;\r\n\tsigned short\t_ch_curr;\r\n\tsigned short\t_dsch_curr;\r\n\tsigned short\t_rat_cap;\r\n\tsigned short\t_s_o_h;\r\n\tsigned short\t_s_o_c;\r\n\tsigned short\t_c_c_l_v;\r\n\tsigned short\t_r_b_t;\r\n\tsigned short\t_b_p_ser_num;\r\n\tsigned short _flags1;\r\n\tsigned short \t_flags2;\r\n\tsigned short \t_communication2lvlErrorStat; \t//флаг аварийности низовой связи с батареей, вычисляется в плате расширения\r\n\tsigned short\t_communication2lvlErrorCnt; \t//счетчик аварийности низовой связи с батареей\r\n\tsigned short \t_cnt;\r\n\tsigned short \t_communicationFullErrorStat;\t//флаг аварийности всего канала связи с батареей, 0 - норма, 1 - отсутствует связь с промежуточной платой, 2 - отсутствует связь промежуточной платы и батареи \t\r\n\tsigned short _battIsOn;\t\t//0 - отсутствует, 1 - присутствует\r\n\tchar \t\t_plazma[8];\t\t//переменные для отладки\r\n\tsigned short \t_isOnCnt;\r\n\tsigned short\t_s_o_c_abs;\t\t//остаточный заряд в абсолютном выражении\r\n\tsigned short \t_s_o_c_percent; //остаточный заряд в процентном выражении\r\n\tsigned short\t_plazma_ss;\r\n\tsigned short\t_zar_percent;\t//заряд батареи в процетах\r\n\tsigned char\t\t_cell_temp_1;\t//температура 1-го датчика батареи(ZTT)\r\n\tsigned char\t\t_cell_temp_2;\t//температура 2-го датчика батареи(ZTT)\r\n\tsigned char\t\t_cell_temp_3;\t//температура 3-го датчика батареи(ZTT)\r\n\tsigned char\t\t_cell_temp_4;\t//температура 4-го датчика батареи(ZTT)\r\n\tsigned char\t\t_cell_temp_ambient;\t//температура датчика окружающей среды батареи(ZTT)\r\n\tsigned char\t\t_cell_temp_power;\t//температура датчика силовой части батареи(ZTT)\r\n\t//signed char \t_pack_volt_state;\t//статус аварии по напряжениям батареи(ZTT)\r\n\t//signed char \t_pack_temper_state;\t//статус аварии по температурам батареи(ZTT)\r\n\t//signed char \t_pack_alarm_state;\t//статус аварий батареи(ZTT)\r\n\tsigned char\t\t_charge_and_discharge_current_alarm_status;\t \t//(ZTT)\r\n\tsigned char \t_battery_total_voltage_alarm_status;\t\t\t//(ZTT)\r\n\tsigned char\t\t_custom_alarm_quantity;\t\t\t\t\t\t\t//(ZTT)\r\n\tsigned char\t\t_balanced_event_code;\t\t\t\t\t\t\t//(ZTT)\r\n\tsigned char \t_voltage_event_code;\t\t\t\t\t\t\t//(ZTT)\r\n\tsigned char \t_temperature_event_code;\t\t\t\t\t\t//(ZTT)\r\n\tsigned char\t\t_current_event_code;\t\t\t\t\t\t\t//(ZTT)\r\n\tsigned char\t\t_fet_status_code;\t\t\t\t\t\t\t\t//(ZTT)\r\n\tsigned short\t_balanced_status_code;\t\t\t\t\t\t\t//(ZTT)\r\n\tsigned char \t_system_status_code;\t\t\t\t\t\t\t//(ZTT)\r\n\tsigned short \t_succes_transmission_cnt;\r\n\tsigned short \t_no_transmission_second_cnt;\r\n\t} LAKB_STAT; \r\nextern LAKB_STAT lakb[3];\r\nextern char lakb_damp[1][42];\r\nextern char bLAKB_KONF_CH;\r\nextern char bLAKB_KONF_CH_old;\r\nextern char lakb_ison_mass[7];\r\nextern short lakb_mn_ind_cnt;\r\nextern char bLAKB_KONF_CH_EN;\r\nextern char bRS485ERR;\r\nextern short LBAT_STRUKT;\r\nextern char lakb_error_cnt;\t//счетчик неправильного показания ннапряжения батареи\r\nextern short numOfPacks, numOfPacks_, post_length_;\r\nextern short numOfCells, numOfTemperCells, baseOfData;\r\nextern short lakb_stat_comm_error;\t//аварийность канала связи с литиевыми батареями. 0 означает исправность платы расширения и наличие связи со всеми литиевыми батареями\r\nextern short lakbNotErrorNum;\t\t//колличество литиевых батарей с исправной связью\r\nextern short libat_comm_cnt;\t\t//Счетчик аварийности канала связи с платой расширения\r\n//extern short lakbKanErrorStat;\t\t//Состояние аварийности канала связи с платой расширения\r\n\n\n\n//*******************************************\n//Телеметрия по внутренней шине\nextern char can_slot[12][16];\nextern char plazma_can_inv[3];\n\n//*******************************************\n//Состояние источников\n\n\ntypedef struct\n {\n enum {dSRC=3,dINV=5,dNET_METR=7,dIBAT_METR=9,dMAKB=11}_device;\n\tchar _av;\n\t//0бит - авария по перегреву\n\t//1бит - авария по завышенному Uвых\n\t//2бит - авария по заниженному Uвых\n\t//3бит - авария по обрыву связи\t\r\n\t//4бит - ресурс вентилятора выработан \n \tenum {bsAPV,bsWRK,bsRDY,bsBL,bsAV,bsOFF_AV_NET}_state;\n char _cnt;\n char _cnt_old;\n char _cnt_more2;\n char _buff[20]; \n //char _av_net;\n //char _av_u_max;\n //char _av_u_min;\n //char _av_temper; \n signed _Uii; \n signed _Uin;\n signed _Ii;\n signed _Ti; \n char _flags_tu;\n //char _flags_tu_old;\n //char _is_ready;\n //char _is_wrk;\n //char _is_link;\n //char _is_av;\n signed _vol_u;\n signed _vol_i;\n char _is_on_cnt;\n //int _ist_blok_host_cnt_; //блокирование источников извне(CAN или RS), если не 0 то источник заблокирован.\n int _ist_blok_host_cnt;\n short _blok_cnt; //блокирование источников \n char _flags_tm;\n\tsigned short _overload_av_cnt; \n signed short _temp_av_cnt;\n signed short _umax_av_cnt;\n signed short _umin_av_cnt;\t\t//счетчик аварии по заниженному напряжению когда сам БПС прислал бит аварии \r\n\t signed short _umin_av_cnt_uku;\t//счетчик аварии по заниженному напряжению когда уку видит снижение напряжения на выходе БПС\n signed _rotor;\n signed short _x_; \n char _adr_ee;\n\tchar _last_avar;\r\n\tchar _vent_resurs_temp[4];\r\n\tunsigned short _vent_resurs;\r\n\tunsigned char _apv_timer_1_lev;\t\t//таймер апв 1-го уровня, считает минуту\r\n\tunsigned char _apv_cnt_1_lev;\t\t//счетчик апв 1-го уровня, считает 3 запуска\r\n\tunsigned short _apv_timer_2_lev;\t//таймер апв 2-го уровня, считает установленный для АПВ2 период\r\n\tunsigned char _apv_reset_av_timer;\t//таймер для сброса аварий БПСа(пока он ненулевой на БПС шлется сигнал сбросить)\r\n\tunsigned char _apv_succes_timer;\t//таймер подсчета времени успешной работы БПС, при достижении порога сбрасывает АПВ \n\t} BPS_STAT; \nextern BPS_STAT bps[35];\n\n//*******************************************\n//Состояние инверторов\ntypedef struct\n {\n\tchar _av;\n\t//0бит - авария по перегреву\n\t//1бит - авария по завышенному Uвых\n\t//2бит - авария по заниженному Uвых\n\t//3бит - авария по обрыву связи\t \n enum {isAPV,isWRK,isRDY,isBL,isAV,isOFF_AV_NET}_state;\n char _cnt;\n char _cnt_old;\n char _cnt_more2;\n char _buff[16]; \n signed _Uio; \n signed _Ii;\n signed _Ti; \n\tsigned _Uil;\n\tsigned _Uin;\n\tsigned _Pio;\n char _flags_tu;\n signed _vol_u;\n signed _vol_i;\n char _is_on_cnt;\n //int _ist_blok_host_cnt_; //блокирование источников извне(CAN или RS), если не 0 то источник заблокирован.\n int _ist_blok_host_cnt;\n short _blok_cnt; //блокирование источников \n char _flags_tm;\n\tchar _flags_tm_old;\n\tsigned short _overload_av_cnt; \n signed short _temp_av_cnt;\n signed short _umax_av_cnt;\n signed short _umin_av_cnt;\n signed _rotor;\n signed short _x_; \n char _adr_ee;\n\tchar _last_avar;\n\tchar _Pnom;\n\tchar _Uoutmin;\n\tchar _Uoutmax;\n\tchar _net_contr_en;\n\tchar _pwm_en;\n\tchar _phase_mode;\r\n\n } INV_STAT; \r\n#ifdef UKU_220_V2\nextern INV_STAT inv[3];\r\n#endif\r\n#ifndef UKU_220_V2\nextern INV_STAT inv[20];\r\n#endif\nextern char first_inv_slot;\n\n//*******************************************\n//Состояние нагрузки\nextern signed short load_U;\nextern signed short load_I;\r\n\r\n//*******************************************\r\n//Состояние выхода\r\nextern signed short bps_U;\r\nextern signed short out_U;\r\nextern signed short bps_I;\r\nextern signed short bps_I_phantom;\r\n\n//*******************************************\n//Состояние первичной сети\nextern signed short net_U,net_Ustore,net_Ua,net_Ub,net_Uc, net_Umax, net_Ustore_max; //o_10\nextern char bFF,bFF_;\nextern signed short net_F,hz_out,hz_out_cnt,net_F3;\nextern signed char unet_drv_cnt;\t //Счетчик на снижение первичного наряжеия\r\nextern signed char unet_max_drv_cnt; //Счетчик на превышение первичного наряжеия\nextern char net_av;\r\nextern short net_av_2min_timer;\n\nextern char plazma_plazma_plazma;\n\nvoid bitmap_hndl(void);\nvoid ind_hndl(void);\n__irq void timer1_interrupt(void);\n__irq void timer0_interrupt(void); \n\n\n//*******************************************\n//Состояние внешних датчиков\n//signed short tout[4];\nextern char tout_max_cnt[4],tout_min_cnt[4];\ntypedef enum {tNORM,tMAX,tMIN}enum_tout_stat;\nextern enum_tout_stat tout_stat[4];\nextern signed short t_ext[3];\nextern char ND_EXT[3];\nextern signed char sk_cnt[4],sk_av_cnt[4];\ntypedef enum {ssOFF,ssON} enum_sk_stat;\nextern enum_sk_stat sk_stat[4],sk_stat_old[4];\ntypedef enum {sasOFF,sasON} enum_sk_av_stat;\nextern enum_sk_av_stat sk_av_stat[4],sk_av_stat_old[4];\nextern signed short t_box,t_box_warm,t_box_vent;\r\nextern char TELECORE2017_EXT_VENT_PWM,TELECORE2017_INT_VENT_PWM;\n\n//*******************************************\n//Звуки\nextern BOOL bSILENT;\n\n//********************************************\n//Тест\ntypedef enum {tstOFF,tst1,tst2} enum_tst_state;\nextern enum_tst_state tst_state[15];\n\n//-----------------------------------------------\n//Контроль заряда\nextern char sign_U[2],sign_I[2];\nextern char superviser_cnt;\n\n//-----------------------------------------------\n//Плата расширения\nextern unsigned short adc_buff_ext_[3];\nextern unsigned short Uvv[3];\nextern unsigned short Uvv0;\nextern short pos_vent;\nextern short t_ext_can;\nextern char t_ext_can_nd;\n\n//-----------------------------------------------\n//Плата расширения 2\nextern char eb2_data[30];\nextern short eb2_data_short[10];\nextern short Uvv_eb2[3],Upes_eb2[3];\nextern short Kvv_eb2[3],Kpes_eb2[3];\n\n//-----------------------------------------------\n//Состояние вводов\nextern signed short vvod_pos;\n\n//-----------------------------------------------\n//Работа со щетчиком\nextern signed long power_summary;\nextern signed short power_current;\r\nextern signed long power_summary_tempo,power_summary_tempo_old;\r\nextern signed short power_current_tempo,power_current_tempo_old;\r\nextern char powerSummaryCnt;\r\nextern char powerCurrentCnt;\r\n\n\nextern char bRESET;\nextern char bRESET_EXT;\nextern char bRESET_INT_WDT;\nextern char bRESET_EXT_WDT;\n\n//-----------------------------------------------\n//Климатконтроль и вентиляторы\nextern signed short main_vent_pos;\nextern signed char t_box_cnt;\ntypedef enum {mvsOFF,mvsON} enum_mixer_vent_stat;\nextern enum_mixer_vent_stat mixer_vent_stat;\ntypedef struct\n {\n\tsigned short _T[4];\n\tchar _nd[4];\n\tsigned short _T_dispers[4];\n\tchar _max_dispers_num;\n\tsigned short _max_dispers;\n \tsigned short _avg1;\n\tsigned short _avg2;\n\tchar _avg_cnt;\n } INT_BOX_TEMPER;\nextern INT_BOX_TEMPER ibt;\ntypedef enum {tbdsON,tbdsOFF,tbdsMNL} enum_tbatdisable_stat;\nextern enum_tbatdisable_stat tbatdisable_stat;\ntypedef enum {tldsON,tldsOFF,tldsMNL} enum_tloaddisable_stat;\nextern enum_tloaddisable_stat tloaddisable_stat;\ntypedef enum {atsOFF,atsON} enum_av_tbox_stat;\nextern enum_av_tbox_stat av_tbox_stat;\nextern signed short av_tbox_cnt;\nextern char tbatdisable_cmnd,tloaddisable_cmnd;\nextern short tbatdisable_cnt,tloaddisable_cnt;\n#ifdef UKU_KONTUR\nextern short t_box_vent_on_cnt;\nextern short t_box_warm_on_cnt;\ntypedef enum {vsOFF,vsON} enum_vent_stat;\nextern enum_vent_stat vent_stat_k;\ntypedef enum {wsOFF,wsON} enum_warm_stat;\nextern enum_warm_stat warm_stat_k;\n#endif\r\n\n#ifdef UKU_TELECORE2015\nextern short t_box_vent_on_cnt;\nextern short t_box_warm_on_cnt;\r\nextern short t_box_vvent_on_cnt;\ntypedef enum {vsOFF,vsON} enum_vent_stat;\nextern enum_vent_stat vent_stat_k,vvent_stat_k;\ntypedef enum {wsOFF,wsON} enum_warm_stat;\nextern enum_warm_stat warm_stat_k;\r\nextern signed short TELECORE2015_KLIMAT_WARM_ON_temp;\n#endif\r\n\r\n#ifdef UKU_TELECORE2017\nextern short t_box_vent_on_cnt;\nextern short t_box_warm_on_cnt;\r\nextern short t_box_vvent_on_cnt;\ntypedef enum {vsOFF,vsON} enum_vent_stat;\nextern enum_vent_stat vent_stat_k,vvent_stat_k;\ntypedef enum {wsOFF,wsON} enum_warm_stat;\nextern enum_warm_stat warm_stat_k;\r\nextern signed short TELECORE2017_KLIMAT_WARM_ON_temp;\r\nextern signed char t_box_warm_minus20_cnt;\r\nextern signed char t_box_warm_plus65_cnt;\r\nextern signed char t_box_cool_plus70_cnt;\r\n#define ULAUNCH UB0\r\n#define ULINECC UB20\n#endif\r\n\nextern char ext_can_cnt;\n\n\nsigned short abs_pal(signed short in);\nvoid ADC_IRQHandler(void);\n\n\n//-----------------------------------------------\n//Состояние контролируемых автоматов нагрузки \ntypedef enum {avtOFF,avtON} enum_avt_stat;\nextern enum_avt_stat avt_stat[12],avt_stat_old[12]; \n\n//-----------------------------------------------\n//Показания АЦП на плате измерения тока батареи\nextern signed long ibat_metr_buff_[2];\nextern short bIBAT_SMKLBR;\r\nextern short bIBAT_SMKLBR_cnt;\r\nextern short ibat_metr_cnt;\n\n//-----------------------------------------------\n//Управление низкоприоритетной нагрузкой\nextern signed short npn_tz_cnt;\ntypedef enum {npnsOFF=0,npnsON} enum_npn_stat;\nextern enum_npn_stat npn_stat,load_off_stat;\r\nextern signed short load_off_cnt;\n\nextern char snmp_plazma;\n\n\nextern char ips_bat_av_vzvod;\nextern char ips_bat_av_stat;\n\nextern char rel_warm_plazma;\nextern char can_byps_plazma0,can_byps_plazma1;\n\nextern short plazma_bat_drv0,plazma_bat_drv1,bat_drv_cnt_cnt;\nextern unsigned short bat_drv_rx_cnt;\nextern char bat_drv_rx_buff[512];\nextern char bat_drv_rx_in;\r\n\r\nextern short can_plazma;\r\nextern short modbus_modbus_adress_eq;\r\nextern short modbus_modbus4f_cnt;\r\n\n//-----------------------------------------------\r\n//Климатконтроль TELECORE2015\t\r\n#ifdef UKU_TELECORE2015\r\nextern signed short TELECORE2015_KLIMAT_WARM_SIGNAL;\r\nextern signed short TELECORE2015_KLIMAT_VENT_SIGNAL;\r\nextern signed short TELECORE2015_KLIMAT_WARM_ON;\r\nextern signed short TELECORE2015_KLIMAT_WARM_OFF;\r\nextern signed short TELECORE2015_KLIMAT_CAP;\r\nextern signed short TELECORE2015_KLIMAT_VENT_ON;\r\nextern signed short TELECORE2015_KLIMAT_VENT_OFF;\r\nextern signed short TELECORE2015_KLIMAT_VVENT_ON;\r\nextern signed short TELECORE2015_KLIMAT_VVENT_OFF;\r\n#endif\r\n\r\n//-----------------------------------------------\r\n//Климатконтроль TELECORE2017\r\n#ifdef UKU_TELECORE2017\r\nextern signed short TELECORE2017_KLIMAT_WARM_SIGNAL;\r\nextern signed short TELECORE2017_KLIMAT_VENT_SIGNAL;\r\nextern signed short TELECORE2017_KLIMAT_WARM_ON;\r\nextern signed short TELECORE2017_KLIMAT_WARM_OFF;\r\nextern signed short TELECORE2017_KLIMAT_WARM_ON;\r\nextern signed short TELECORE2017_KLIMAT_WARM_OFF;\r\nextern signed short TELECORE2017_KLIMAT_CAP;\r\nextern signed short TELECORE2017_KLIMAT_VENT_ON0;\r\nextern signed short TELECORE2017_KLIMAT_VENT_ON20;\r\nextern signed short TELECORE2017_KLIMAT_VENT_ON40;\r\nextern signed short TELECORE2017_KLIMAT_VENT_ON60;\r\nextern signed short TELECORE2017_KLIMAT_VENT_ON80;\r\nextern signed short TELECORE2017_KLIMAT_VENT_ON100;\r\nextern signed short TELECORE2017_KLIMAT_DVENT_ON0;\r\nextern signed short TELECORE2017_KLIMAT_DVENT_ON20;\r\nextern signed short TELECORE2017_KLIMAT_DVENT_ON40;\r\nextern signed short TELECORE2017_KLIMAT_DVENT_ON60;\r\nextern signed short TELECORE2017_KLIMAT_DVENT_ON80;\r\nextern signed short TELECORE2017_KLIMAT_DVENT_ON100;\r\n#endif\r\n\r\n//-----------------------------------------------\r\n//Алгоритм содержания батареи TELECORE2017\t\r\n//#ifdef UKU_TELECORE2017\r\nextern signed short TELECORE2017_USTART;\t\t//Напряжение включения\r\nextern signed short TELECORE2017_ULINECC;\t\t//Напряжение содержания\tиз установок\r\nextern signed short TELECORE2017_ULINECC_;\t\t//Напряжение содержания мгновенное, с учетом аварий батареи\r\nextern signed short TELECORE2017_AVAR_CNT;\t\t\t\t//Счетчик аварийности батареи для снижения напряжения содержания\r\nextern signed short TELECORE2017_Q;\t\t\t\t//Заряд батари (%) при котором переходим с тока IZMAX1 на IZMAX2\r\nextern signed short TELECORE2017_IZMAX1;\t\t//Максимальный ток заряда батареи при разряженной батарее(заряд < TELECORE2017_Q)(\r\nextern signed short TELECORE2017_IZMAX2;\t\t//Максимальный ток заряда батареи при заряженной батарее(заряд >= TELECORE2017_Q)\r\nextern signed short TELECORE2017_K1;\t\t\t//Шаг регулирования(ед/с) при Uвыпр<(Uбат-2В)\r\nextern signed short TELECORE2017_K2;\t\t\t//Шаг регулирования(ед/с) при Uвыпр>(Uбат-2В) и отсутствии токов батарей\r\nextern signed short TELECORE2017_K3;\t\t\t//Шаг регулирования(ед/с) при токе батарей в интервале 0-70% от Izmax\r\nextern signed short TELECORE2017_T4;\t\t\t//Период регулирования(сек) еденичными шагами при токе батарейц в интервале 70-110%от Izmax \r\n\r\n//#endif \r\n\n\n#ifndef FALSE\n#define FALSE (0)\n#endif\n\n#ifndef TRUE\n#define TRUE (1)\n#endif\r\n\n//-----------------------------------------------\r\n//Ускоренный заряд\r\nextern signed short speedChrgCurr;\t\t\t//максимальный ток ускоренного заряда, отображение из ЕЕПРОМ\r\nextern signed short speedChrgVolt;\t\t\t//максимальное напряжение ускоренного заряда, отображение из ЕЕПРОМ\r\nextern signed short speedChrgTimeInHour; \t//максимальное время ускоренного заряда в часах, отображение из ЕЕПРОМ\r\nextern signed short speedChrgAvtEn;\t \t//Автоматическое включение Ускоренного заряда включено/выключено\r\nextern signed short speedChrgDU;\t \t\t//Просадка напряжения необходимая для включения ускоренного заряда\r\nextern signed short speedChIsOn;\t\t\t//Текущее состояние ускоренного заряда вкл/выкл\r\nextern signed long speedChTimeCnt;\t\t//Счетчик времени прямой ускоренного заряда\r\nextern signed short speedChrgBlckSrc;\t\t//Источник сигнала блокировки, 0-выкл., 1-СК1, 2-СК2\r\nextern signed short speedChrgBlckLog;\t\t//Логика сигнала блокировки, 1 - блокировка по замкнутому СК, 0 - по разомкнутому\r\nextern signed short speedChrgBlckStat;\t\t//Сигнал блокировки для выравнивающего и ускоренного заряда.\r\nextern char \t\tspeedChrgShowCnt;\t\t//Счетчик показа информационного сообщения\r\n\r\n//-----------------------------------------------\r\n//Новый ускоренный заряд\r\ntypedef enum {scsOFF,scsSTEP1,scsWRK,scsERR1,scsERR2} enum_sp_ch_stat;\r\nextern enum_sp_ch_stat sp_ch_stat,sp_ch_stat_old;\r\nextern short sp_ch_stat_cnt;\r\nextern long sp_ch_wrk_cnt;\r\nextern char speedChargeStartCnt;\r\n\r\n//-----------------------------------------------\r\n//Блокировка ИПС\r\nextern signed short ipsBlckSrc;\r\nextern signed short ipsBlckLog;\r\nextern signed short ipsBlckStat;\r\n\n//-----------------------------------------------\r\n//Контроль выходного напряжения\r\nextern signed short outVoltContrHndlCnt;\t\t//Счетчик, считает в плюс в случае выполнения условия аварии\r\nextern signed short outVoltContrHndlCnt_;\t\t//Счетчик, считает в плюс в случае отсутствия выполнения условия аварии\r\nextern char uout_av;\r\n\r\n//-----------------------------------------------\r\n//Направление тока батареи для АПСЭнергия\r\nextern short apsEnergiaCnt;\r\nextern char apsEnergiaStat; \r\n\r\nextern short plazma_numOfCells;\r\nextern short plazma_numOfTemperCells;\r\nextern short plazma_numOfPacks;\r\n\r\nextern char plazma_ztt[2];\r\nextern char plazma_stark[32];\r\nextern char spch_plazma[2];\r\n\r\nextern U8 socket_tcp;\r\n\r\n//-----------------------------------------------\r\n//Выравнивание токов ИПС\r\nextern char ica_plazma[10];\r\nextern char ica_timer_cnt;\r\nextern signed short ica_my_current;\r\nextern signed short ica_your_current;\r\nextern signed short ica_u_necc;\r\nextern signed short ica_cntrl_hndl;\r\nextern signed short ica_cntrl_hndl_cnt;\r\nextern U8 tcp_soc_avg;\r\nextern U8 tcp_connect_stat;\r\n\r\n//-----------------------------------------------\r\n//Высоковольтный выравнивающий заряд\r\ntypedef enum {hvsOFF,hvsSTEP1,hvsSTEP2,hvsSTEP3,hvsSTEP4,hvsWRK,hvsERR1,hvsERR2,hvsERR3,hvsERR4} enum_hv_vz_stat;\r\nextern enum_hv_vz_stat hv_vz_stat,hv_vz_stat_old;\r\nextern short hv_vz_stat_cnt;\r\nextern long hv_vz_wrk_cnt;\r\nextern long hv_vz_up_cnt;\r\n\r\n//-----------------------------------------------\r\n//Блок выносной реле\r\nextern char bdr_transmit_stat;\r\nextern char bdr_avar_stat;\r\n\r\n//-----------------------------------------------\r\n//Установка напряжения автономной работы\r\ntypedef enum {uassOFF,uassSTEP1,uassSTEP2,uassSTEP3,uassSTEP4} enum_uavt_set_stat;\r\nextern enum_uavt_set_stat uavt_set_stat, uavt_set_stat_old;\r\ntypedef enum {uasrsGOOD,uasrsWRK,uasrsERR,uasrsSUCCESS} enum_uavt_set_result_stat;\r\nextern enum_uavt_set_result_stat uavt_set_result_stat;\r\nextern short u_max_temp,u_min_temp;\r\nextern char uavt_bps_pntr;\r\nextern char uavt_error_bps;\r\nextern char avt_plazma;\r\nextern char avt_error_bps;\r\nextern char uavt_set_error_cnt;\r\n\r\nextern short pvlk;\r\nextern char web_plazma[5];\r\nextern short web_cnt_main;\r\nextern short web_cnt_2hz;\r\nextern const char web_str;\r\nextern char uku_set_autorized;\r\nextern long web_param_input;\r\nextern short cntrl_stat_pwm;\r\n\r\nextern char place_holder[70];\r\n\r\nextern unsigned char count_reg_enmv, count_bit_enmv, enmv_puts_en, delay_enmv_puts; //o_7\r\n//-----------------------------------------------\r\n//Ресурс вентиляторов\r\n//extern char vent_resurs_temp[4];\r\n\r\n//-----------------------------------------------\r\n//Отладочная информация\r\n#ifdef UKU_FSO\r\nextern char plazma_fso;\r\nextern signed short plazmaSS_fso[10];\r\n#endif //UKU_FSO\r\n\r\n\r\n/----------------------------------------------------------------------------\n end of file\n ---------------------------------------------------------------------------/\n" }, { "alpha_fraction": 0.30563798546791077, "alphanum_fraction": 0.4732937812805176, "avg_line_length": 14.095237731933594, "blob_id": "06dad8ceafba23a19efb91ed82a1ed621b029d68", "content_id": "abc0841b6f295050fc770afd886388eee3a8b4eb", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 674, "license_type": "no_license", "max_line_length": 49, "num_lines": 42, "path": "/SOFT/UKU/2rki/bat_driver.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"bat_driver.h\"\r\n#include \"eeprom_map.h\"\r\n\r\n//-----------------------------------------------\r\nvoid rs485_bat_driver(void)\r\n{\r\nif(lc640_read_int(EE_BAT_LINK)==0)\r\n\t{\r\n\tchar bb[30];\r\n\tbb[0]=0x7e;\r\n\tbb[1]=0x31;\r\n\tbb[2]=0x31;\r\n\tbb[3]=0x30;\r\n\tbb[4]=0x31;\r\n\tbb[5]=0x44;\r\n\tbb[6]=0x30;\r\n\tbb[7]=0x38;\r\n\tbb[8]=0x32;\r\n\tbb[9]=0x45;\r\n\tbb[10]=0x30;\r\n\tbb[11]=0x30;\r\n\tbb[12]=0x32;\r\n\tbb[13]=0x30;\r\n\tbb[14]=0x31;\r\n\tbb[15]=0x46;\r\n\tbb[16]=0x44;\r\n\tbb[17]=0x32;\r\n\tbb[18]=0x37;\r\n\tbb[19]=0x0d;\r\n\r\n\tuart_out_buff0 (bb, 20);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid rs485_bat_driver_init(void)\r\n{\r\nif(lc640_read_int(EE_BAT_LINK)==0)\r\n\t{\r\n\tUARTInit(0, 19200L);\r\n\t}\r\n}" }, { "alpha_fraction": 0.5686274766921997, "alphanum_fraction": 0.6282249689102173, "avg_line_length": 30.28333282470703, "blob_id": "8adbb6cdd45143e6182c4b496904f0122589e43b", "content_id": "001d5d70ca067abdf9845a74b881f01bf4108e57", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 3876, "license_type": "no_license", "max_line_length": 103, "num_lines": 120, "path": "/SOFT/UKU/RKI/full_can.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "/************************************************************************\r\nDO NOT CHANGE ANYTHING BELOW\r\n***********************************************************************/ \r\n\r\n// Define CAN SFR address bases \r\n#define CAN_REG_BASE (0xE0000000)\r\n#define ACCEPTANCE_FILTER_RAM_BASE (CAN_REG_BASE + 0x00038000)\r\n#define ACCEPTANCE_FILTER_REGISTER_BASE (CAN_REG_BASE + 0x0003C000)\r\n#define CENTRAL_CAN_REGISTER_BASE (CAN_REG_BASE + 0x00040000) \r\n\r\n// Common CAN bit rates\r\n#define CANBitrate125k_12MHz 0x001C001D\r\n#define CANBitrate125k_60MHz 0x001C001D\r\n#define CANBitrate250k_12MHz 0x001C000E\r\n#define CANBitrate250k_60MHz 0x009C000E\r\n#define CANBitrate62k_60MHz \t0x009C003b\r\n#define \tBITRATE62_5K25MHZ\t\t\t0x009c0018\r\n#define \tBITRATE125K25MHZ\t\t\t0x00940018\r\n\r\n/**********************************************************************\r\nUSER DEFINABLE PARAMETERS\r\n************************************************************************/ \r\n\r\n// Maximum number of CAN interfaces supported by this driver (1 to 4)\r\n// So far values 3 and 4 were not tested\r\n// The example code in \"main\" uses CAN ports 1 and 2 (MAX_CANPORTS 2)\r\n#define MAX_CANPORTS 2\r\n\r\n// Maximum number of total FullCAN Filters for ALL CAN interfaces\r\n#define MAX_FILTERS 2\r\n\r\n// Type definition to hold a FullCAN message\r\n// Compatible to FullCAN Mode Stored Messages in LPC User Manual\r\n\r\n\r\n// Counts number of filters (CAN message objects) used so far\r\n//extern short volatile gCANFilter = 0;\r\n\r\nextern char ptr_can1_tx_wr,ptr_can1_tx_rd;\r\nextern long can1_info[8];\r\nextern long can1_id[8];\r\nextern long can1_data[8];\r\nextern long can1_datb[8];\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\nextern char ptr_can2_tx_wr,ptr_can2_tx_rd;\r\n\r\nextern long can2_info[8];\r\nextern long can2_id[8];\r\nextern long can2_data[8];\r\nextern long can2_datb[8];\r\n\r\nextern unsigned short rotor_can[6];\r\n// FullCAN Message List\r\n//extern FULLCAN_MSG volatile gFullCANList[MAX_FILTERS];\r\n\r\nextern char bR;\r\nextern char RXBUFF[40],TXBUFF[40];\r\nextern char bIN,bIN2;\r\nextern char bd_dumm[25];\r\nextern char bd[25];\r\nextern char TX_len;\r\n//char bOUT;\r\nextern char RXBUFF2[40],TXBUFF2[40];\r\nextern char can_tx_cnt;\r\nextern char can_tx_cnt2;\r\n//extern char bOUT_FREE=1;\r\n//extern char bOUT_FREE2=1;\r\nextern char rotor_rotor_rotor[2];\r\nextern char can_tx_cnt;\r\n\r\nextern const char Table87[];\r\nextern const char Table95[];\r\n\r\nextern char can_debug_plazma[2][10];\r\nextern char bOUT_FREE;\r\nextern char can_rotor[10];\r\nextern char plazma_can;\r\nextern char plazma_can1,plazma_can2,plazma_can3,plazma_can4;\r\n\r\n\r\n\r\ntypedef struct\r\n{\r\n unsigned int Dat1; // Bits 0..10: CAN Message ID\r\n // Bits 13..15: CAN interface number (1..4)\r\n // Bits 16..19: DLC - Data Length Counter\r\n // Bits 24..25: Semaphore bits\r\n unsigned int DatA; // CAN Message Data Bytes 0-3\r\n unsigned int DatB; // CAN Message Data Bytes 4-7\r\n} FULLCAN_MSG; \r\nextern short volatile gCANFilter;\r\nextern FULLCAN_MSG volatile gFullCANList[MAX_FILTERS];\r\nextern char can_reset_cnt;\r\n\r\n\r\n\r\nchar CRC1_in(void);\r\nchar CRC2_in(void);\r\nchar CRC1_out(void);\r\nchar CRC2_out(void);\r\nvoid can1_out_adr(char ptr,char num);\r\n__irq void can_isr_err (void);\r\nvoid can1_out(char data0,char data1,char data2,char data3,char data4,char data5,char data6,char data7);\r\nvoid can_adr_hndl(void);\r\nvoid can_in_an(void);\r\nvoid can_in_an2(void);\r\n__irq void can_isr_rx (void); \r\n__irq void can_isr_tx (void); \r\nshort can1_init ( unsigned int can_btr);\r\nshort can2_init ( unsigned int can_btr);\r\nshort FullCAN_SetFilter (\r\n unsigned short can_port, // CAN interface number\r\n unsigned int CANID // 11-bit CAN ID\r\n );\r\n\r\nvoid CAN_IRQHandler(void);\r\nvoid CAN_ISR_Rx1( void );\r\n\r\nextern char can_debug_plazma[2][10];\r\nextern char ccc_plazma[20];\r\n\r\n" }, { "alpha_fraction": 0.3163265287876129, "alphanum_fraction": 0.3163265287876129, "avg_line_length": 46, "blob_id": "858175cf9316b96be169457a356393865031f0b6", "content_id": "c92006bda9b863bc8d03c475d843569c673df767", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 98, "license_type": "no_license", "max_line_length": 51, "num_lines": 2, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/sgep.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\n\r\n//-----------------------------------------------\t \r\nvoid def_sgep_ips_set(short num_of_cell);" }, { "alpha_fraction": 0.4324769973754883, "alphanum_fraction": 0.4700284004211426, "avg_line_length": 33.619956970214844, "blob_id": "a78dbd1a9197373f09c155c95f612e6b723aa74a", "content_id": "f331ffffc1f713142508d40e2ac589e6f192dbd2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 50856, "license_type": "no_license", "max_line_length": 199, "num_lines": 1413, "path": "/SOFT/UKU/2/HTTP_CGI.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "/----------------------------------------------------------------------------\r\n RL-ARM - TCPnet\r\n ----------------------------------------------------------------------------\r\n Name: HTTP_CGI.C\r\n * Purpose: HTTP Server CGI Module\r\n * Rev.: V4.05\r\n ----------------------------------------------------------------------------\r\n This code is part of the RealView Run-Time Library.\r\n * Copyright (c) 2004-2009 KEIL - An ARM Company. All rights reserved.\r\n ---------------------------------------------------------------------------/\r\n\r\n#include <Net_Config.h>\r\n#include <stdio.h>\r\n#include <string.h>\r\n#include \"main.h\"\r\n#include \"control.h\"\r\n#include \"sntp.h\"\r\n#include \"http_data.h\"\r\n#include \"eeprom_map.h\"\r\n#include \"snmp_data_file.h\"\r\n#include <LPC17xx.H>\r\n\r\n/* ---------------------------------------------------------------------------\r\n * The HTTP server provides a small scripting language.\r\n \r\n The script language is simple and works as follows. Each script line starts\r\n * with a command character, either \"i\", \"t\", \"c\", \"#\" or \".\".\r\n * \"i\" - command tells the script interpreter to \"include\" a file from the\r\n * virtual file system and output it to the web browser.\r\n * \"t\" - command should be followed by a line of text that is to be output\r\n * to the browser.\r\n * \"c\" - command is used to call one of the C functions from the this file.\r\n * It may be followed by the line of text. This text is passed to\r\n * 'cgi_func()' as a pointer to environment variable.\r\n * \"#' - command is a comment line and is ignored (the \"#\" denotes a comment)\r\n * \".\" - denotes the last script line.\r\n \r\n --------------------------------------------------------------------------/\r\n\r\n/ http_demo.c /\r\nextern U16 AD_in (U32 ch);\r\nextern U8 get_button (void);\r\nchar psw_err;\r\n\r\n/ at_System.c /\r\nextern LOCALM localm[];\r\n#define LocM localm[NETIF_ETH]\r\n\r\n/ Net_Config.c /\r\nextern struct tcp_info tcp_socket[];\r\nextern U8 const tcp_NumSocks;\r\nextern U8 const http_EnAuth;\r\nextern U8 http_auth_passw[20];\r\n\r\nextern BOOL LEDrun;\r\nextern void LED_out (U32 val);\r\nextern BOOL LCDupdate;\r\nextern U8 lcd_text[2][16+1];\r\n\r\n/ Local variables. /\r\nstatic U8 P2;\r\nstatic char const state[][11] = {\r\n \"FREE\",\r\n \"CLOSED\",\r\n \"LISTEN\",\r\n \"SYN_REC\",\r\n \"SYN_SENT\",\r\n \"FINW1\",\r\n \"FINW2\",\r\n \"CLOSING\",\r\n \"LAST_ACK\",\r\n \"TWAIT\",\r\n \"CONNECT\"};\r\n\r\n/ My structure of CGI status U32 variable. This variable is private for /\r\n/ each HTTP Session and is not altered by HTTP Server. It is only set to /\r\n/ zero when the cgi_func() is called for the first time. /\r\ntypedef struct {\r\n U16 xcnt;\r\n U16 unused;\r\n} MY_BUF;\r\n#define MYBUF(p) ((MY_BUF )p)\r\n\r\n\r\n\r\n/\r\n//-----------------------------------------------\r\nchar http_tm_src_output(char numOfSrc)\r\n{\r\nchar buffer[100];\r\n\r\n//char* buffer;\r\nsprintf(buffer,\"%d %d %d %d 0x%02x\", bps[numOfSrc]._Uii, bps[numOfSrc]._Ii, bps[numOfSrc]._Ti, bps_status2number(numOfSrc), bps[numOfSrc]._flags_tm );\r\n\r\nreturn buffer;\r\n}/\r\n\r\n\r\n\r\n\r\n/----------------------------------------------------------------------------\r\n * HTTP Server Common Gateway Interface Functions\r\n ---------------------------------------------------------------------------/\r\n\r\n/--------------------------- cgi_process_var -------------------------------/\r\n\r\nvoid cgi_process_var (U8 qs) {\r\n / This function is called by HTTP server to process the Querry_String /\r\n / for the CGI Form GET method. It is called on SUBMIT from the browser. /\r\n /.The Querry_String.is SPACE terminated. /\r\n U8 var;\r\n int s[4];\r\n\r\n\tweb_plazma[1]++;\r\n\r\n var = (U8 )alloc_mem (40);\r\n do {\r\n / Loop through all the parameters. /\r\n qs = http_get_var (qs, var, 40);\r\n / Check the returned string, 'qs' now points to the next. /\r\n if (var[0] != 0) {\r\n / Returned string is non 0-length. /\r\n if (str_scomp (var, \"ip=\") == __TRUE) {\r\n / My IP address parameter. /\r\n sscanf ((const char )&var[3], \"%d.%d.%d.%d\",&s[0],&s[1],&s[2],&s[3]);\r\n LocM.IpAdr[0] = s[0];\r\n LocM.IpAdr[1] = s[1];\r\n LocM.IpAdr[2] = s[2];\r\n LocM.IpAdr[3] = s[3];\r\n }\r\n else if (str_scomp (var, \"msk=\") == __TRUE) {\r\n /* Net mask parameter. /\r\n sscanf ((const char )&var[4], \"%d.%d.%d.%d\",&s[0],&s[1],&s[2],&s[3]);\r\n LocM.NetMask[0] = s[0];\r\n LocM.NetMask[1] = s[1];\r\n LocM.NetMask[2] = s[2];\r\n LocM.NetMask[3] = s[3];\r\n }\r\n else if (str_scomp (var, \"gw=\") == __TRUE) {\r\n /* Default gateway parameter. /\r\n sscanf ((const char )&var[3], \"%d.%d.%d.%d\",&s[0],&s[1],&s[2],&s[3]);\r\n LocM.DefGW[0] = s[0];\r\n LocM.DefGW[1] = s[1];\r\n LocM.DefGW[2] = s[2];\r\n LocM.DefGW[3] = s[3];\r\n }\r\n else if (str_scomp (var, \"pdns=\") == __TRUE) {\r\n /* Default gateway parameter. /\r\n sscanf ((const char )&var[5], \"%d.%d.%d.%d\",&s[0],&s[1],&s[2],&s[3]);\r\n LocM.PriDNS[0] = s[0];\r\n LocM.PriDNS[1] = s[1];\r\n LocM.PriDNS[2] = s[2];\r\n LocM.PriDNS[3] = s[3];\r\n }\r\n else if (str_scomp (var, \"sdns=\") == __TRUE) {\r\n /* Default gateway parameter. /\r\n sscanf ((const char )&var[5], \"%d.%d.%d.%d\",&s[0],&s[1],&s[2],&s[3]);\r\n LocM.SecDNS[0] = s[0];\r\n LocM.SecDNS[1] = s[1];\r\n LocM.SecDNS[2] = s[2];\r\n LocM.SecDNS[3] = s[3];\r\n }\r\n }\r\n }while (qs);\r\n free_mem ((OS_FRAME )var);\r\n}\r\n\r\n//action=\"/parole.cgx\"\r\n//document.location.href = \"http://www.site.ru\"\r\n\r\n/--------------------------- cgi_process_data ------------------------------/\r\n\r\nvoid cgi_process_data (U8 code, U8 dat, U16 len) {\r\n /* This function is called by HTTP server to process the returned Data /\r\n / for the CGI Form POST method. It is called on SUBMIT from the browser. /\r\n / Parameters: /\r\n / code - callback context code /\r\n / 0 = www-url-encoded form data /\r\n / 1 = filename for file upload (0-terminated string) /\r\n / 2 = file upload raw data /\r\n / 3 = end of file upload (file close requested) /\r\n / 4 = any xml encoded POST data (single or last stream) /\r\n / 5 = the same as 4, but with more xml data to follow /\r\n / Use http_get_content_type() to check the content type / \r\n / dat - pointer to POST received data /\r\n / len - received data length /\r\n U8 passw[12],retyped[12];\r\n U8 var,stpassw; \r\nU8 varr[3];\r\nU8 i;\r\n\r\nweb_plazma[2]++;\r\nweb_plazma[3]+=len;\r\n\r\n\r\n\r\n switch (code) {\r\n case 0:\r\n / Url encoded form data received. /\r\n break;\r\n\r\n default:\r\n / Ignore all other codes. /\r\n return;\r\n }\r\n\r\n P2 = 0;\r\n /////LEDrun = __TRUE;\r\n if (len == 0) {\r\n / No data or all items (radio, checkbox) are off. /\r\n /////LED_out (P2);\r\n return;\r\n }\r\n \r\n \r\nstpassw = 0;\r\nvar = (U8 )alloc_mem (40);\r\nvarr[0] = (U8 )alloc_mem (40);\r\nvarr[1] = (U8 )alloc_mem (150);\r\nvarr[2] = (U8 )alloc_mem (40);\r\n\r\ni=0;\r\n\r\ndo \r\n\t{\r\n / Parse all returned parameters. /\r\n\tif(i==1)dat = http_get_var (dat, varr[i++], 150);\r\n else dat = http_get_var (dat, varr[i++], 40);\r\n\tweb_plazma[0]++;\r\n\t}\r\nwhile (dat);\r\n\r\n//return;\r\n if (varr[0,0] != 0) \r\n\t\t{\r\n\t\t/ Parameter found, returned string is non 0-length. /\r\n\t\tif (str_scomp (varr[0], \"parol\") == __TRUE)\r\n\t\t\t{\r\n\t\t\tchar str_buff[4];\r\n \tweb_plazma[1]++;\r\n\t\t\t\r\n\t\t\tif ((str_scomp (varr[0]+6, snmp_web_passw/\"123\"/) == __TRUE)&&(len == 9)) \r\n\t\t\t\t{\r\n\t\t\t\tuku_set_autorized=1;\r\n\t\t\t\tpsw_err=0;\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\tpsw_err=1;\r\n\t\t\t\tuku_set_autorized=0;\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if (str_scomp (varr[0], \"param=\") == __TRUE) \r\n\t\t\t{\r\n\t\t\tif(strstr (varr[1], \"value=\"))\r\n\t\t\t\t{\r\n\t\t\t\t\r\n\t\t\t\tweb_plazma[4]=22;\r\n\t\t\t\tif(strstr (varr[0], \"serno\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((web_param_input&0xffff0000UL)>>16UL));\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"place\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tchar i = 0;\r\n\t\t\t\t\tstr_copy(place_holder,\" \");\r\n\t\t\t\t\tstr_copy(place_holder,pal_cyr_decoder(varr[1]+6));\r\n\t\t\t\t\t//str_copy(place_holder,varr[1]+6);\r\n\t\t\t\t\t/while(place_holder[i]) \r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tlc640_write(EE_HTTP_LOCATION+i,place_holder[i]);\r\n\t\t\t\t\t\ti++;\r\n\t\t\t\t\t\t}/\r\n\t\t\t\t\tfor (i=0;i<70;i++)lc640_write(EE_HTTP_LOCATION+i,place_holder[i]);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"par_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_PAR,(short)(web_param_input&0x00000001UL));\r\n\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"zv_on_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_ZV_ON,(short)(web_param_input&0x00000001UL));\r\n\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"av_avt_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_AV_OFF_AVT,(short)(web_param_input&0x00000001UL));\r\n\r\n\t\t\t\t\t}\t\t\t\t\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"un_max_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_UMAXN,(short)(web_param_input&0x0000ffffUL));\r\n\r\n\t\t\t\t\t}\t\t\r\n\t\t\t\t\t\r\n\t\t\t\telse if(strstr (varr[0], \"un_min_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_UMN,(short)(web_param_input&0x0000ffffUL));\r\n\r\n\t\t\t\t\t}\t\r\n\t\t\t\telse if(strstr (varr[0], \"rot_t_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_FORVARDBPSCHHOUR,(short)(web_param_input&0x0000ffffUL));\r\n\r\n\t\t\t\t\t}\t\r\n\t\t\t\telse if(strstr (varr[0], \"i_max_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_IMAX,(short)(web_param_input&0x0000ffffUL));\r\n\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"i_min_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_IMIN,(short)(web_param_input&0x0000ffffUL));\r\n\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"u_max_i_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_UMAX,(short)(web_param_input&0x0000ffffUL));\r\n\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"u_min_i_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tDU=UB20-((short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\tgran(&DU,50,UB20-100);\r\n\t\t\t\t\tlc640_write_int(EE_DU,DU);\r\n\t\t\t\t\t//lc640_write_int(EE_IMIN,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"ub20_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_UB20,(short)(web_param_input&0x0000ffffUL));\r\n \t\t\t\t\t}\r\n\t\t\t\t\t\t\r\n\t\t\t\telse if(strstr (varr[0], \"ub0_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_UB0,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"usign_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_USIGN,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t\telse if(strstr (varr[0], \"izmax_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_IZMAX,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"tbatsign_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_TBATSIGN,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t\t\telse if(strstr (varr[0], \"tbatmax_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_TBATMAX,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t\t\telse if(strstr (varr[0], \"uvz_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_UVZ,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t\t\telse if(strstr (varr[0], \"tvz_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_VZ_HR,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\t\r\n\t\t\t\telse if(strstr (varr[0], \"tsign_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_TSIGN,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t\t\telse if(strstr (varr[0], \"tmax_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_TMAX,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"tzas_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_TZAS,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"apv1_on_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((web_param_input&0x0000ffffUL)==1)lc640_write_int(EE_APV_ON1,apvON);\r\n\t\t\t\t\telse lc640_write_int(EE_APV_ON1,apvOFF);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"apv2_on_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((web_param_input&0x0000ffffUL)==1)lc640_write_int(EE_APV_ON2,apvON);\r\n\t\t\t\t\telse lc640_write_int(EE_APV_ON2,apvOFF);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"apv2_time_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_APV_ON2_TIME,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"u0b_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_U0B,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t\t\telse if(strstr (varr[0], \"tbat_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_TBAT,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t\t\telse if(strstr (varr[0], \"ikb_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_IKB,(short)(web_param_input&0x0000ffffUL));\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"year_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tLPC_RTC->YEAR=(short)(web_param_input&0x0000ffffUL);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"month_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tLPC_RTC->MONTH=(short)(web_param_input&0x0000ffffUL);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"day_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tLPC_RTC->DOM=(short)(web_param_input&0x0000ffffUL);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"hour_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tLPC_RTC->HOUR=(short)(web_param_input&0x0000ffffUL);\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t\t\telse if(strstr (varr[0], \"minut_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tLPC_RTC->MIN=(short)(web_param_input&0x0000ffffUL);\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t\t\telse if(strstr (varr[0], \"secund_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tLPC_RTC->SEC=(short)(web_param_input&0x0000ffffUL);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(strstr (varr[0], \"sk1avsign_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SK_SIGN0,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SK_SIGN0,0);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sk2avsign_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SK_SIGN1,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SK_SIGN1,0);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sk3avsign_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SK_SIGN2,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SK_SIGN2,0);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sk4avsign_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SK_SIGN3,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SK_SIGN3,0);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sk1lcden_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SK_LCD_EN0,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SK_LCD_EN0,1);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sk2lcden_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SK_LCD_EN1,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SK_LCD_EN1,1);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sk3lcden_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SK_LCD_EN2,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SK_LCD_EN2,1);\r\n\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sk4lcden_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SK_LCD_EN3,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SK_LCD_EN3,1);\r\n\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sk1zven_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SK_ZVUK_EN0,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SK_ZVUK_EN0,1);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sk2zven_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SK_ZVUK_EN1,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SK_ZVUK_EN1,1);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sk3zven_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SK_ZVUK_EN2,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SK_ZVUK_EN2,1);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sk4zven_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SK_ZVUK_EN3,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SK_ZVUK_EN3,1);\r\n\t\t\t\t\t}\t\r\n\t\t\t\telse if(strstr (varr[0], \"sntp_gmt_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_SNTP_GMT,(short)web_param_input);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sntp_exe_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttime_sinc_hndl_req_cnt=5;\r\n\t\t\t\t\tRem_IP[0]=SNTP_IP1;\r\n\t\t\t\t\tRem_IP[1]=SNTP_IP2;\r\n\t\t\t\t\tRem_IP[2]=SNTP_IP3;\r\n\t\t\t\t\tRem_IP[3]=SNTP_IP4;\r\n\t\t\t\t\tsntp_requ();\r\n\t\t\t\t\t//sntp_plazma++;\t\t\t\t\t\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sntp_src_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_SNTP_WEB_ENABLE,0);\r\n\t\t\t\t\telse lc640_write_int(EE_SNTP_WEB_ENABLE,1);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"sntp_ip_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_SNTP_IP4,(char)(web_param_input&0x000000ffUL));\r\n\t\t\t\t\tlc640_write_int(EE_SNTP_IP3,(char)((web_param_input&0x0000ff00UL)>>8));\r\n\t\t\t\t\tlc640_write_int(EE_SNTP_IP2,(char)((web_param_input&0x00ff0000UL)>>16));\r\n\t\t\t\t\tlc640_write_int(EE_SNTP_IP1,(char)((web_param_input&0xff000000UL)>>24));\r\n\t\t\t\t\t}\t\r\n\t\t\t\telse if(strstr (varr[0], \"numist_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_NUMIST,(short)(web_param_input&0x000000ffUL));\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"numphase_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tif((short)(web_param_input&0x000000ffUL))lc640_write_int(EE_NUMPHASE,3);\r\n\t\t\t\t\telse lc640_write_int(EE_NUMPHASE,1);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"numsk_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_NUMSK,(short)web_param_input);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"numdt_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_NUMDT,(short)web_param_input);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"nummakb_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_NUMMAKB,(short)web_param_input);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(strstr (varr[0], \"numenmv_\"))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsscanf ((const char )varr[1]+6, \"%d\",&web_param_input);\r\n\t\t\t\t\tlc640_write_int(EE_NUMENMV,(short)web_param_input);\r\n\t\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t\t}\r\n\r\n\t\t\t//if(strstr(var, \"pl\"))web_plazma[1]++;\r\n\t\t\t//else if(strstr(var, \"mi\"))web_plazma[1]--;\r\n\t\t\t}\r\n else if (str_scomp (var, \"but=but2\") == __TRUE) {\r\n //web_plazma[4]=2;\r\n }\r\n else if (str_scomp (var, \"but=but3\") == __TRUE) {\r\n //web_plazma[4]=3;\r\n }\r\n else if (str_scomp (var, \"pw=\") == __TRUE) {\r\n /* Change password. /\r\n str_copy (passw, var+3);\r\n stpassw \|= 1;\r\n }\r\n else if (str_scomp (var, \"pw2=\") == __TRUE) {\r\n / Retyped password. /\r\n str_copy (retyped, var+4);\r\n stpassw \|= 2;\r\n }\r\n else if (str_scomp (var, \"lcd1=\") == __TRUE) {\r\n / LCD Module Line 1 text. /\r\n /////str_copy (lcd_text[0], var+5);\r\n /////LCDupdate = __TRUE;\r\n }\r\n else if (str_scomp (var, \"lcd2=\") == __TRUE) {\r\n / LCD Module Line 2 text. /\r\n /////str_copy (lcd_text[1], var+5);\r\n /////LCDupdate = __TRUE;\r\n\t\t\t}\r\n\t\t}\r\n\r\nfree_mem ((OS_FRAME )var);\r\nfree_mem ((OS_FRAME )varr[0]);\r\nfree_mem ((OS_FRAME )varr[1]);\r\nfree_mem ((OS_FRAME )varr[2]);\r\n /////LED_out (P2);\r\n\r\n if (stpassw == 0x03) {\r\n len = strlen ((const char )passw);\r\n if (mem_comp (passw, retyped, len) == __TRUE) {\r\n /* OK, both entered passwords the same, change it. /\r\n str_copy (http_auth_passw, passw);\r\n }\r\n }\r\n}\r\n\r\n\r\n\r\n/--------------------------- cgi_func --------------------------------------/\r\n\r\nU16 cgi_func (U8 env, U8 buf, U16 buflen, U32 pcgi) {\r\n /* This function is called by HTTP server script interpreter to make a /\r\n / formated output for 'stdout'. It returns the number of bytes written /\r\n / to the output buffer. Hi-bit of return value (len is or-ed with 0x8000)/\r\n / is a repeat flag for the system script interpreter. If this bit is set /\r\n / to 1, the system will call the 'cgi_func()' again for the same script /\r\n / line with parameter 'pcgi' pointing to a 4-byte buffer. This buffer /\r\n / can be used for storing different status variables for this function. /\r\n / It is set to 0 by HTTP Server on first call and is not altered by /\r\n / HTTP server for repeated calls. This function should NEVER write more /\r\n / than 'buflen' bytes to the buffer. /\r\n / Parameters: /\r\n / env - environment variable string /\r\n / buf - HTTP transmit buffer /\r\n / buflen - length of this buffer (500-1400 bytes - depends on MSS) /\r\n / pcgi - pointer to session local buffer used for repeated loops /\r\n / This is a U32 variable - size is 4 bytes. Value is: /\r\n / - on 1st call = 0 /\r\n / - 2nd call = as set by this function on first call /\r\n TCP_INFO tsoc;\r\n U32 len = 0;\r\n U8 id, lang;\r\n static U32 adv;\r\n char temp;\r\n switch (env[0]) {\r\n / Analyze the environment string. It is the script 'c' line starting /\r\n / at position 2. What you write to the script file is returned here. /\r\n\r\n\tcase 'a':\r\n\t\t// Аварии\r\n\t\tswitch (env[1]) {\r\n\t\t\tcase '0':\r\n\t\t\t\tswitch (env[2]) {\r\n\t\t\t\t\tcase '1':\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],\"normal\");\r\n\t\t\t\t\t\tbreak;\r\n\t\t\t case '2':\r\n\t\t\t \tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"Авария БПС №1\"));\r\n\t\t\t\t\t\tbreak;\r\n\t\t\t\t}\r\n\t\t \t\tbreak;\r\n\t\t}\r\n\t\tbreak;\r\n\r\n case 'b':\r\n\t\t//Батареи\r\n\t\tswitch (env[1]) {\r\n\t\t\tcase '1':\r\n\t\t\t\tlen = sprintf((char )buf,(const char )&env[3],http_tm_bat_output(0));\r\n\t\t \t\tbreak;\r\n\t\t\tcase '2':\r\n\t\t\t\tlen = sprintf((char )buf,(const char )&env[3],http_tm_bat_output(1));\r\n\t\t \t\tbreak;\r\n\t\t}\r\n\t\tbreak;\r\n\r\n case 'c':\r\n / TCP status - file 'tcp.cgi' /\r\n while ((len + 150) < buflen) {\r\n tsoc = &tcp_socket[MYBUF(pcgi)->xcnt];\r\n MYBUF(pcgi)->xcnt++;\r\n / 'sprintf' format string is defined here. /\r\n len += sprintf((char )(buf+len),\"<tr align=\\\"center\\\">\");\r\n if (tsoc->State <= TCP_STATE_CLOSED) {\r\n len += sprintf ((char )(buf+len),\r\n \"<td>%d</td><td>%s</td><td>-</td><td>-</td>\"\r\n \"<td>-</td><td>-</td></tr>\\r\\n\",\r\n MYBUF(pcgi)->xcnt,state[tsoc->State]);\r\n }\r\n else if (tsoc->State == TCP_STATE_LISTEN) {\r\n len += sprintf ((char )(buf+len),\r\n \"<td>%d</td><td>%s</td><td>-</td><td>-</td>\"\r\n \"<td>%d</td><td>-</td></tr>\\r\\n\",\r\n MYBUF(pcgi)->xcnt,state[tsoc->State],tsoc->LocPort);\r\n }\r\n else {\r\n len += sprintf ((char )(buf+len),\r\n \"<td>%d</td><td>%s</td><td>%d.%d.%d.%d</td>\"\r\n \"<td>%d</td><td>%d</td><td>%d</td></tr>\\r\\n\",\r\n MYBUF(pcgi)->xcnt,state[tsoc->State],\r\n tsoc->RemIpAdr[0],tsoc->RemIpAdr[1],\r\n tsoc->RemIpAdr[2],tsoc->RemIpAdr[3],\r\n tsoc->RemPort,tsoc->LocPort,tsoc->AliveTimer);\r\n }\r\n / Repeat for all TCP Sockets. /\r\n if (MYBUF(pcgi)->xcnt == tcp_NumSocks) {\r\n break;\r\n }\r\n }\r\n if (MYBUF(pcgi)->xcnt < tcp_NumSocks) {\r\n / Hi bit is a repeat flag. /\r\n len \|= 0x8000;\r\n }\r\n break;\r\n\r\n\tcase 'd':\r\n\t\t// Описание системы\r\n\t\t\r\n\t\tswitch (env[1]) {\r\n\t\t\tcase '0':\r\n\t\t\t\t\r\n\t\t\t\tswitch (env[2]) {\r\n\t\t\t\t\tcase '1':\r\n\t\t\t\t\t\t//len = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"АБВГДЕЁЖЗИЙКЛМНОПРСТУФХЦЧШЩЬЫЪЭЮЯ1?°абвгдеёжзийклмнопрстуфхцчшщьыъэюя\"));\r\n\t\t\t\t\t\tif(AUSW_MAIN==24120)\r\n\t\t\t\t\t\t\t{\r\n\t\t\t\t\t\t\tif(NUMIST==2)\t\t\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП220/24-120А-2/4\"));\r\n\t\t\t\t\t\t\telse if(NUMIST==3)\t\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП220/24-120А-3/4\"));\r\n\t\t\t\t\t\t\telse\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП220/24-120А-4/4\"));\r\n\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\telse if(AUSW_MAIN==24210)\r\n\t\t\t\t\t\t\t{\r\n\t\t\t\t\t\t\tif(NUMIST==3)\t\t\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП220/24-210А-3/7\"));\r\n\t\t\t\t\t\t\telse if(NUMIST==4)\t\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП220/24-210А-4/7\"));\r\n\t\t\t\t\t\t\telse if(NUMIST==5)\t\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП220/24-210А-5/7\"));\r\n\t\t\t\t\t\t\telse if(NUMIST==6)\t\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП220/24-210А-6/7\"));\r\n\t\t\t\t\t\t\telse\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП220/24-210А-7/7\"));\r\n\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\telse if(AUSW_MAIN==4880)\r\n\t\t\t\t\t\t\t{\r\n\t\t\t\t\t\t\tif(NUMIST==3)\t\t\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП220/48-80А-3/4 \"));\r\n\t\t\t\t\t\t\telse\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП220/48-80А-4/4 \"));\r\n\t\t\t\t\t\t\t}\r\n\r\n\t\t\t\t\t\telse if(AUSW_MAIN==4883)\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП380/48-80А-4/4 \"));\r\n\t\t\t\t\t\telse if(AUSW_MAIN==48123)\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП380/48-120А-4/4\"));\r\n\t\t\t\t\t\telse if(AUSW_MAIN==48123)\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП380/48-120А-4/4\"));\r\n\t\t\t\t\t\telse \t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(\"ИБЭП220/48-120А-4/4\"));\r\n\t\t\t\t\tbreak;\r\n\t\t\t case '2':\r\n\t\t\t \tlen = sprintf((char )buf,(const char )&env[4],AUSW_MAIN_NUMBER);\r\n\t\t\t\t\tbreak;\r\n\t\t\t case '3':\r\n\t\t\t \tlen = sprintf((char )buf,(const char )&env[4],pal_cyr_coder(place_holder));\r\n\t\t\t\t\tbreak;\r\n\t\t\t case '4': \t//количество батарей\r\n\t\t\t \tlen = sprintf((char )buf,(const char )&env[4],NUMBAT);\r\n\t\t\t\t\tbreak;\r\n\t\t\t case '5':\t//количество источников\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],NUMIST);\r\n\t\t\t\t\tbreak;\r\n\t\t\t case '6':\t//количество инверторов\r\n\t\t\t \tlen = sprintf((char )buf,(const char )&env[4],NUMINV);\r\n\t\t\t\t\tbreak;\r\n\t\t\t case '7': \t//количество байпасов\r\n\t\t\t \tlen = sprintf((char )buf,(const char )&env[4],NUMBYPASS);\r\n\t\t\t\t\tbreak;\r\n\t\t\t case '8': \t//количество сухих контактов\r\n\t\t\t \tlen = sprintf((char )buf,(const char )&env[4],NUMSK);\r\n\t\t\t\t\tbreak;\r\n\t\t\t case '9': \t//количество внешних датчиков температуры\r\n\t\t\t \tlen = sprintf((char )buf,(const char )&env[4],NUMDT);\r\n\t\t\t\t\tbreak;\r\n\t\t\t\t}\r\n\t\t \tbreak;\r\n\t\t}\r\n\tbreak;\r\n\r\n case 'e':\r\n / Browser Language - file 'language.cgi' /\r\n lang = http_get_lang();\r\n if (strcmp ((const char )lang, \"en\") == 0) {\r\n lang = \"English\";\r\n }\r\n else if (strcmp ((const char )lang, \"en-us\") == 0) {\r\n lang = \"English USA\";\r\n }\r\n else if (strcmp ((const char )lang, \"en-gb\") == 0) {\r\n lang = \"English GB\";\r\n }\r\n else if (strcmp ((const char )lang, \"de\") == 0) {\r\n lang = \"German\";\r\n }\r\n else if (strcmp ((const char )lang, \"de-ch\") == 0) {\r\n lang = \"German CH\";\r\n }\r\n else if (strcmp ((const char )lang, \"de-at\") == 0) {\r\n lang = \"German AT\";\r\n }\r\n else if (strcmp ((const char )lang, \"fr\") == 0) {\r\n lang = \"French\";\r\n }\r\n else if (strcmp ((const char )lang, \"sl\") == 0) {\r\n lang = \"Slovene\";\r\n }\r\n else {\r\n lang = \"Unknown\";\r\n }\r\n len = sprintf((char )buf,(const char )&env[2],lang,http_get_lang());\r\n break;\r\n\r\n case 'f':\r\n / LCD Module control - file 'lcd.cgi' /\r\n switch (env[2]) {\r\n case '1':\r\n /////len = sprintf((char )buf,(const char )&env[4],lcd_text[0]);\r\n break;\r\n case '2':\r\n /////len = sprintf((char )buf,(const char )&env[4],lcd_text[1]);\r\n break;\r\n }\r\n break;\r\n\r\n\tcase 'g':\r\n / AD Input - file 'ad.cgi' /\r\n\t\tswitch (env[2]) {\r\n case '1':\r\n //adv = web_cnt_main;\r\n len = sprintf((char )buf,(const char )&env[4],adv);\r\n break;\r\n case '2':\r\n len = sprintf((char )buf,(const char )&env[4],(float)adv3.3/1024);\r\n break;\r\n case '3':\r\n adv = (adv * 100) / 1024;\r\n len = sprintf((char )buf,(const char )&env[4],adv);\r\n break;\r\n }\r\n break;\r\n\r\n case 'k':\r\n\t\t//сухие контакты\r\n \tswitch (env[1]) {\r\n \tcase '1':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_tm_sk_output(0));\r\n \t\tbreak;\r\n \t\tcase '2':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_tm_sk_output(1));\r\n \t\tbreak;\r\n \tcase '3':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_tm_sk_output(2));\r\n \t\tbreak;\r\n \t\tcase '4':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_tm_sk_output(3));\r\n \t\tbreak;\r\n\t\t}\r\n\t\tbreak;\r\n\r\n case 'm':\r\n \tswitch (env[1]) {\r\n \tcase '1':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],web_cnt_2hz);\r\n \t\tbreak;\r\n \t\tcase '2':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],web_cnt_main);\r\n \t\tbreak;\r\n \t\tcase '3':\r\n\t\t\t\tif(psw_err)\tlen = sprintf((char )buf,(const char )&env[3],\"error\");\r\n\t\t\t\telse \t \tlen = sprintf((char )buf,(const char )&env[3],\"good\");\r\n \t\tbreak;\r\n\t\t}\r\n\t\tbreak;\r\n\r\n case 'p':\r\n\t\t//Первичное питание, сеть\r\n \tswitch (env[1]) {\r\n \tcase 'n':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_power_num_of_phases);\r\n \t\tbreak;\r\n \t\tcase 'A':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_power_voltage_of_phase[0]);\r\n \t\tbreak;\r\n \t\tcase 'B':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_power_voltage_of_phase[1]);\r\n \t\tbreak; \t\t\r\n \t\tcase 'C':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_power_voltage_of_phase[2]);\r\n \t\tbreak;\r\n\t\t\tcase 'F':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_power_frequncy);\r\n \t\tbreak;\r\n \t\tcase 'S':\r\n\t\t\t\tlen = sprintf((char )buf,(const char )&env[3],http_power_status);\r\n \t\tbreak;\t\t}\r\n\t\tbreak;\r\n\r\n case 't':\r\n\t\t//Датчики температуры\r\n\t\tswitch (env[1]) {\r\n \tcase '1':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_tm_dt_output(0));\r\n \t\tbreak;\r\n \t\tcase '2':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_tm_dt_output(1));\r\n \t\tbreak;\r\n \tcase '3':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_tm_dt_output(2));\r\n \t\tbreak;\r\n \t\t}\r\n\t\tbreak;\r\n\r\n\tcase 'l':\r\n\t\t// журнал\r\n\t\tswitch (env[1]) {\r\n\t\t\tcase 'd':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],http_get_log_deep());\r\n \t\tbreak;\r\n\t\t\tcase 'n':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],log_item_cnt);\r\n\t\t\t\tuku_set_autorized=0;\r\n\t\t\t\tbreak;\r\n\t\t\tcase '0':\r\n\t\t\t\tif(NUMMAKB==0)\tlen = sprintf((char )buf,(const char )&env[3],http_get_log_rec(log_item_cnt));\r\n\t\t\t\telse\r\n\t\t\t\t\t{\r\n\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[3],http_get_log_rec(NUMINV));\r\n\t\t\t\t\t}\r\n\t\t\t\t//len = sprintf((char )buf,(const char )&env[3],pal_cyr_coder(\"10:15:24><26-сен-2019><11:17:29 03-окт-2019><Авария источника №1:завышено выходное напряжение\"));\r\n\t\t\t\tbreak;\r\n\t\t\tcase 'e':\r\n\t\t\t\tlen = sprintf((char )buf,(const char )&env[3],pal_cyr_coder(\"end\"));\r\n\t\t\t\tif(++log_item_cnt>=http_get_log_deep())log_item_cnt=0;\r\n\t\t\t\tbreak;\r\n\t\t}\r\n\t\t\r\n\t\tbreak;\r\n\r\n case 'o':\r\n\t\t//нагрузка\r\n\t\tswitch (env[1]) {\r\n\t\t\tcase 'u':\r\n\t\t\t\tlen = sprintf((char )buf,(const char )&env[3],load_U);\r\n\t\t \t\tbreak;\r\n\t\t\tcase 'i':\r\n\t\t\t\tlen = sprintf((char )buf,(const char )&env[3],load_I);\r\n\t\t \t\tbreak;\r\n\t\t}\r\n\t\tbreak;\r\n\r\n case 's':\r\n\t\t/* телеметрия источников /\r\n \tswitch (env[1]) {\r\n \tcase '0':\r\n \t\tswitch (env[2]) {\r\n\t\t \tcase '0':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(0));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '1':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(1));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '2':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(2));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '3':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(3));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '4':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(4));\r\n\t\t \t\tbreak;\r\n\t\t \tcase '5':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(5));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '6':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(6));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '7':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(7));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '8':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(8));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '9':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(9));\r\n\t\t \t\tbreak;\r\n\t\t\t\t}\r\n\t\t\t\tbreak;\r\n \tcase '1':\r\n \t\tswitch (env[2]) {\r\n\t\t \tcase '0':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(10));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '1':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(11));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '2':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(12));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '3':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(13));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '4':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(14));\r\n\t\t \t\tbreak;\r\n\t\t \tcase '5':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(15));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '6':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(16));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '7':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(17));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '8':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(18));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '9':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_tm_src_output(19));\r\n\t\t \t\tbreak;\r\n\t\t\t\t}\r\n\t\t\t\tbreak;\r\n\t\t}\r\n\t\tbreak;\r\n\r\n case 'w':\r\n\t\t/ телеметрия блока дополнительных входов /\r\n//o_13_s \r\n\t\tif(env[1]=='n') len = sprintf((char )buf,(const char )&env[3],64);\r\n\t\telse if(env[1]=='o') len = sprintf((char )buf,(const char )&env[3],NUMENMV);\r\n\t\telse if(env[1]>=0x30 && env[1]<=0x37 && env[2]>=0x30 && env[2]<=0x6F) len = sprintf((char )buf,(const char )&env[4],snmp_enmv_data[env[2]-0x30][env[1]-0x30]);\r\n\r\n\t\tbreak;\r\n//o_13_e\r\n\r\n case 'y':\r\n\t\t/ меню установок /\r\n \tswitch (env[1]) {\r\n \tcase 'n':\r\n \t\tlen = sprintf((char )buf,(const char )&env[3],66);\r\n \t\tbreak;\r\n \tcase '0':\r\n \t\tswitch (env[2]) {\r\n\t\t \tcase '1':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],AUSW_MAIN_NUMBER,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '2':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],0,pal_cyr_coder(place_holder));\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '3':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],(ZV_ON==1)?1:0,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '4':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],(PAR==1)?1:0,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '5':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],(AV_OFF_AVT==1)?1:0,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '6':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],UMN,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '7':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],UMAXN,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '8':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],FORVARDBPSCHHOUR,\" \");\r\n\t\t \t\tbreak;\t\t \t\t\r\n\t\t\t\t\tcase '9':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],0,pal_cyr_coder(\"Новосибирск Новолуговое 123456789012345678901234\"));\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t}\r\n\t\t\t\tbreak;\r\n \tcase '1':\r\n \t\tswitch (env[2]) {\r\n\t\t\t\t\tcase '0':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],IMAX,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t\tcase '1':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],IMIN,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '2':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],UMAX,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '3':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],UB20-DU,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '4':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],UB20,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '5':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],UB0,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '6':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],USIGN,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '7':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],IZMAX,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '8':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],TBATSIGN,\" \");\r\n\t\t \t\tbreak;\t\t \t\t\r\n\t\t\t\t\tcase '9':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],TBATMAX,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t}\r\n\t\t\t\tbreak;\r\n \tcase '2':\r\n \t\tswitch (env[2]) {\r\n\t\t\t\t\tcase '0':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],UVZ,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t\tcase '1':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],VZ_HR,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '2':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],TSIGN,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '3':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],TMAX,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '4':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],TZAS,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '5':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],(APV_ON1==apvON)?1:0,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '6':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],(APV_ON2==apvON)?1:0,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '7':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],APV_ON2_TIME,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '8':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],U0B,\" \");\r\n\t\t \t\tbreak;\t\t \t\t\r\n\t\t\t\t\tcase '9':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],TBAT,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t}\r\n\t\t\t\tbreak;\r\n \t\tcase '3':\r\n \t\tswitch (env[2]) {\r\n\t\t\t\t\tcase '0':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],IKB,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t\tcase '1':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],LPC_RTC->YEAR,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '2':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],LPC_RTC->MONTH,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '3':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],LPC_RTC->DOM,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '4':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],LPC_RTC->HOUR,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '5':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],LPC_RTC->MIN,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '6':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],LPC_RTC->SEC,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '7':\r\n\t\t\t\t\t\tif(AVZ==AVZ_1)temp=1;\r\n\t\t\t\t\t\telse if(AVZ==AVZ_2)temp=2;\r\n\t\t\t\t\t\telse if(AVZ==AVZ_3)temp=3; \r\n\t\t\t\t\t\telse if(AVZ==AVZ_6)temp=4;\r\n\t\t\t\t\t\telse if(AVZ==AVZ_12)temp=5;\t\t\t\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '8':\r\n\t\t \t\tif(sk_stat[0]==ssON)temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t \t\t\r\n\t\t\t\t\tcase '9':\r\n\t\t \t\tif(SK_SIGN[0]==1)temp=0;\r\n\t\t\t\t\t\telse temp=1;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t}\r\n\t\t\t\tbreak;\r\n \t\tcase '4':\r\n \t\tswitch (env[2]) {\r\n\t\t\t\t\tcase '0':\r\n\t\t \t\tif(sk_av_stat[0]==sasON)temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t \t\tcase '1':\r\n\t\t \t\tif(sk_stat[1]==ssON)temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t \t\t\r\n\t\t\t\t\tcase '2':\r\n\t\t \t\tif(SK_SIGN[1]==1)temp=0;\r\n\t\t\t\t\t\telse temp=1;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t\tcase '3':\r\n\t\t \t\tif(sk_av_stat[1]==sasON)temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t \t\tcase '4':\r\n\t\t \t\tif(sk_stat[2]==ssON)temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t \t\t\r\n\t\t\t\t\tcase '5':\r\n\t\t \t\tif(SK_SIGN[2]==1)temp=0;\r\n\t\t\t\t\t\telse temp=1;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t\tcase '6':\r\n\t\t \t\tif(sk_av_stat[2]==sasON)temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t \t\tcase '7':\r\n\t\t \t\tif(sk_stat[3]==ssON)temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t \t\t\r\n\t\t\t\t\tcase '8':\r\n\t\t \t\tif(SK_SIGN[3]==1)temp=0;\r\n\t\t\t\t\t\telse temp=1;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t\tcase '9':\r\n\t\t \t\tif(sk_av_stat[3]==sasON)temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t}\r\n\t\t\t\tbreak;\r\n \t\tcase '5':\r\n \t\tswitch (env[2]) {\r\n\t\t\t\t\tcase '0':\r\n\t\t \t\tif(!SK_LCD_EN[0])temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t\t\t\t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t\tcase '1':\r\n\t\t \t\tif(!SK_LCD_EN[1])temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '2':\r\n\t\t \t\tif(!SK_LCD_EN[2])temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '3':\r\n\t\t \t\tif(!SK_LCD_EN[3])temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\r\n\t\t\t\t\tcase '4':\r\n\t\t \t\tif(!SK_ZVUK_EN[0])temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t\t\t\t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t\tcase '5':\r\n\t\t \t\tif(!SK_ZVUK_EN[1])temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '6':\r\n\t\t \t\tif(!SK_ZVUK_EN[2])temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '7':\r\n\t\t \t\tif(!SK_ZVUK_EN[3])temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '8':\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],(signed)SNTP_GMT,\" \");\r\n\t\t \t\tbreak;\t\t \t\t\r\n\t\t\t\t\tcase '9':\r\n\t\t \t\tif(lc640_read_int(EE_SNTP_WEB_ENABLE)==1)temp=0;\r\n\t\t\t\t\t\telse temp=1;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t}\r\n\t\t\t\tbreak;\r\n\r\n \t\tcase '6':\r\n \t\tswitch (env[2]) {\r\n\t\t\t\t\tcase '0':\r\n\t\t \t\tlen = sprintf((char )buf,(const char )&env[4],http_ip_output(\t(char)lc640_read_int(EE_SNTP_IP1),\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(char)lc640_read_int(EE_SNTP_IP2),\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(char)lc640_read_int(EE_SNTP_IP3),\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t(char)lc640_read_int(EE_SNTP_IP4)));\r\n\t\t\t\t\t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t\tcase '1':\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],NUMIST,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '2':\r\n\t\t\t\t\t\tif(NUMPHASE==1)temp=0;\r\n\t\t\t\t\t\telse temp=1;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '3':\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],NUMSK,\" \");\r\n\t\t \t\tbreak;\r\n\t\t\t\t\tcase '4':\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],NUMDT,\" \");\r\n\t\t\t\t\t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t\tcase '5':\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],NUMMAKB,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '6':\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],NUMENMV,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '7':\r\n\t\t \t\tif(!SK_ZVUK_EN[3])temp=1;\r\n\t\t\t\t\t\telse temp=0;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\r\n\t\t \t\tcase '8':\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],(signed)SNTP_GMT,\" \");\r\n\t\t \t\tbreak;\t\t \t\t\r\n\t\t\t\t\tcase '9':\r\n\t\t \t\tif(lc640_read_int(EE_SNTP_WEB_ENABLE)==1)temp=0;\r\n\t\t\t\t\t\telse temp=1;\r\n\t\t\t\t\t\tlen = sprintf((char )buf,(const char )&env[4],temp,\" \");\r\n\t\t \t\tbreak;\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n\t\t\t\t}\r\n\t\t\t\tbreak;\r\n\t\t}\r\n\t\tbreak;\r\n\r\n case 'x':\r\n if(uku_set_autorized)\tlen = sprintf((char )buf,(const char )&env[1],\"ON\");\r\n\t else if(psw_err)\t\tlen = sprintf((char )buf,(const char )&env[1],\"DENIED\");\r\n\t else \t\t\t\t\tlen = sprintf((char )buf,(const char )&env[1],\"OFF\");\r\n break;\r\n\r\n case '2':\r\n / Button state - xml file 'button.cgx' /\r\n\t web_plazma[0]++;\r\n len = sprintf((char )buf,\"<checkbox><id>button%c</id><on>%s</on></checkbox>\",\r\n env[1],(/web_cnt_main/3 & (1 << (env[1]-'0'))) ? \"true\" : \"false\");\r\n break;\r\n case '3':\r\n /* Button state - xml file 'button.cgx' /\r\n\t web_plazma[0]++;\r\n len = sprintf((char )buf,\"<checkbox><id>button%c</id><on>%s</on></checkbox>\",\r\n env[1],(/web_cnt_main/ 6 & (1 << (env[1]-'0'))) ? \"true\" : \"false\");\r\n break;\r\n case 'z':\r\n\t\t/* конец файла /\r\n \tlen = sprintf((char )buf,(const char )&env[2],\"end\");\r\n\t\tuku_set_autorized=0;\r\n \t\tbreak;\r\n }\r\n return ((U16)len);\r\n}\r\n\r\n\r\n/----------------------------------------------------------------------------\r\n * end of file\r\n ---------------------------------------------------------------------------/\r\n" }, { "alpha_fraction": 0.4327923655509949, "alphanum_fraction": 0.49604493379592896, "avg_line_length": 22.793190002441406, "blob_id": "63716fde8ec10baeed9041b5ead41fee5e5bb01b", "content_id": "52528a91413c43c91779179c8ac1d5b86cd284b3", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1017236, "license_type": "no_license", "max_line_length": 245, "num_lines": 39563, "path": "/SOFT/UKU/Олег авг/08_16/main.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "//Базовая ветка\r\n//#define SC16IS740_UART\r\n\r\n#ifdef UKU2071x\r\n#define can1_out mcp2515_transmit\r\n#endif\r\n\r\n\r\n#include \"lcd_AGM1232_uku207_3.h\"\r\n#include \"rtl.h\"\r\n#include \"type.h\"\r\n#include \"main.h\"\r\n#include \"simbol.h\"\r\n#include \"25lc640.h\"\r\n#include \"Timer.h\"\r\n#include \"gran.h\"\r\n#include \"uart0.h\"\r\n#include \"uart1.h\"\r\n#include \"uart2.h\"\r\n#include \"cmd.h\"\r\n#include \"ret.h\"\r\n#include \"eeprom_map.h\"\r\n#include \"common_func.h\"\r\n#include \"control.h\"\r\n#include \"mess.h\"\r\n#include \"full_can.h\"\r\n#include \"watchdog.h\"\r\n#include \"ad7705.h\"\r\n#include \"beep.h\"\r\n#include \"avar_hndl.h\"\r\n#include \"memo.h\"\r\n#include \"simbols.h\"\r\n#include \"graphic.h\"\r\n#include \"snmp_data_file.h\" \r\n#include \"net_config.h\"\r\n#include \"uart0.h\"\r\n#include <rtl.h>\r\n#include \"modbus.h\"\r\n#include \"sacred_sun.h\"\r\n#include \"ztt.h\"\r\n#include \"mcp2515.h\"\r\n//#include \"sc16is7xx.h\"\r\n#include \"modbus_tcp.h\"\r\n#include \"curr_version.h\"\r\n#include \"sc16is7xx.h\"\r\n#include \"sntp.h\"\r\n#include \"http_data.h\"\r\n#ifdef IPS_SGEP_GAZPROM\r\n#include \"ips_sgep_gazprom.h\"\r\n#endif\r\n#include \"sgep.h\"\r\n\r\nextern U8 own_hw_adr[];\r\nextern U8 snmp_Community[];\r\nBOOL tick;\r\nextern LOCALM localm[];\r\n#define MY_IP localm[NETIF_ETH].IpAdr\r\n#define DHCP_TOUT 50\r\n\r\n//**********************************************\r\n// oleg_start\r\nunsigned char ver_soft;\r\nunsigned short r_iz_plus, r_iz_minus, r_iz_porog_pred, r_iz_porog_error;\r\nunsigned char asymmetry;\t\t\t\t\t\t//o_3\r\nunsigned short v_plus, v_minus, u_asymmetry, Ubus;\t//o_3\r\nunsigned int sk1_24;\r\nunsigned short Iddt_porog_pred, Iddt_porog_error, Iddt[24]/, Rddt[24]/;\r\nunsigned char n_error_ddt_uku, u_rki;\r\nunsigned short Rddt[8][4];\r\nunsigned char count_Iddt; // количество датчиков тока\r\nunsigned char count_mess_rki; // номер запроса пакетов\t РКИ\r\nunsigned char no_rki; // нет связи с РКИ\r\nunsigned char num_rki; // количество РКИ\r\nunsigned char command_rki; //команда для РКИ\r\nunsigned char ddt_error; // нет связи с дат тока \r\nunsigned short status_izm_r;\t// аварии измерения изоляции\r\nunsigned int sk_alarm/, status_di1, status_di2/; // авария СК, ток пред, ток аварии //o_3\t //можно удалить\r\nunsigned char type_rki; // 0-маленькое РКИ, 1-большое РКИ\r\nunsigned char asymmetry_porog;\r\nunsigned short porog_u_in;\r\nunsigned char uku_or_rki; //индикация аварий уку или рки\r\nunsigned char u_asymmetry_porog_up, u_asymmetry_porog, u_asymmetry_porog_down;\r\nunsigned char kalibr_r_most;\r\nunsigned char sk1_24_table[24], sk_alarm_table[24], ddt_error_table[8]; //o_3 \r\n\r\n\t\t\t\t\t\t// сетевые вводы\r\nunsigned short net_in_u1_a, net_in_u1_b, net_in_u1_c, net_in_i1_a, net_in_i1_b, net_in_i1_c;\r\nunsigned short net_in_p1_a, net_in_p1_b, net_in_p1_c, net_in_s1_a, net_in_s1_b, net_in_s1_c; \r\nunsigned short net_in_f1; \r\nunsigned short net_in_u2_a, net_in_u2_b, net_in_u2_c, net_in_i2_a, net_in_i2_b, net_in_i2_c;\r\nunsigned short net_in_p2_a, net_in_p2_b, net_in_p2_c, net_in_s2_a, net_in_s2_b, net_in_s2_c; \r\nunsigned short net_in_f2;\r\nunsigned char count_mess_net_in; // номер запроса пакетов\r\nunsigned char num_net_in; // количество сетевых вводов\r\nunsigned char no_net_in; // нет связи с сетевыми вводами\r\nunsigned char command_net_in;\r\nunsigned char priority_net_in;// приоритет ввода\r\nunsigned short u_min_net_in, u_max_net_in, i_min_net_in;// установки сетевых вводов\r\nunsigned char hysteresis_net_in;\r\nunsigned short t_inclusion_net_in, t_shutdown_net_in;\r\n\r\n//********************************************\r\n//Таймер\r\nchar b10000Hz,b1000Hz,b2000Hz,b100Hz,b50Hz,b10Hz,b5Hz,b2Hz,b1Hz,b1min;\r\nshort t0cnt,t0cnt0,t0cnt1,t0cnt2,t0cnt3,t0cnt4,t0cnt5,t0cnt6,t0_cnt7,t0_cnt_min,t0cntMin;\r\nchar bFL5,bFL2,bFL,bFL_,bTPS;\r\nsigned short main_10Hz_cnt=0;\r\nsigned short main_1Hz_cnt=0;\r\n\r\n \r\n//*******************************************\r\n//Структура ИБЭПа\r\nchar cnt_of_slave=3;\r\n//char cnt_of_wrks; //колличество работающих источников , для индикации\r\n\r\n\r\n\r\n//******************************************\r\n//Коэффициенты, отображаемые из EEPROM\r\nsigned short Ktsrc[2];\r\nsigned short Kusrc[2];\r\nsigned short Kisrc[2];\r\nsigned short Ki0src[2];\r\nsigned short Kubat[2];\r\nsigned short Kubatm[2];\r\nunsigned short Kibat0[2];\r\nsigned short Kibat1[2];\r\nsigned short Ktbat[2];\r\nsigned short Kunet;\r\nsigned short Kunet_ext[3];\r\nsigned short Ktext[3];\r\nsigned short Kuload;\r\nsigned short KunetA;\r\nsigned short KunetB;\r\nsigned short KunetC;\r\nsigned short Kubps;\r\nsigned short Kuout=2;\r\n\r\nsigned short MAIN_IST;\r\nsigned short UMAX;\r\nsigned short UB0;\r\nsigned short UB20;\r\nsigned short TMAX;\r\nsigned short TSIGN;\r\nsigned short AV_OFF_AVT;\r\nsigned short USIGN;\r\nsigned short UMN;\r\nsigned short ZV_ON;\r\nsigned short IKB;\r\n//signed short KVZ;\r\nsigned short UVZ;\r\nsigned short IMAX_VZ;\r\nsigned short IMAX;\r\nsigned short IMIN;\r\nsigned short APV_ON;\r\nsigned short IZMAX;\r\nsigned short U0B;\r\nsigned short TZAS;\r\nsigned short VZ_HR;\r\nsigned short TBAT;\r\nsigned short U_AVT;\r\nsigned short DU;\r\nsigned short PAR;\r\nsigned short TBATMAX;\r\nsigned short TBATSIGN;\r\nsigned short UBM_AV;\r\nsigned short RELE_LOG;\r\nsigned short TBOXMAX;\r\nsigned short TBOXREG;\r\nsigned short TBOXVENTMAX;\r\nsigned short TLOADDISABLE;\r\nsigned short TLOADENABLE;\r\nsigned short TBATDISABLE;\r\nsigned short TBATENABLE;\r\nsigned short TVENTON;\r\nsigned short TVENTOFF;\r\nsigned short TWARMON;\r\nsigned short TWARMOFF;\r\nenum_releventsign RELEVENTSIGN;\r\nsigned short TZNPN;\r\nsigned short UONPN;\r\nsigned short UVNPN;\r\nsigned short dUNPN;\r\nenum_npn_out NPN_OUT;\r\nenum_npn_sign NPN_SIGN;\r\nsigned short TERMOKOMPENS;\r\nsigned short TBOXVENTON; \r\nsigned short TBOXVENTOFF;\r\nsigned short TBOXWARMON; \r\nsigned short TBOXWARMOFF;\r\nsigned short BAT_TYPE;\t//Тип батареи. 0 - обычная свинцовая, 1-литиевая COSLIGHT, 2-литиевая SACRED SUN , 3-литиевая ZTT\r\nsigned short DU_LI_BAT;\t//Параметр, определяющий напряжение содержания литиевой батареи\r\nsigned short FORVARDBPSCHHOUR;\t//Периодичностьсмены ведущего источника в часах. Если 0 - функция выключена и ведущий первый источник\r\nsigned short NUMBAT;\r\nsigned short NUMBAT_TELECORE;\r\nsigned short NUMIST;\r\nsigned short NUMINV;\r\nsigned short NUMDT;\r\nsigned short NUMSK;\r\nsigned short NUMEXT;\r\nsigned short NUMAVT;\r\nsigned short NUMMAKB;\r\nsigned short NUMBYPASS;\r\nsigned short NUMBDR;\r\nsigned short NUMENMV;\r\nsigned short NUMPHASE;\r\nsigned short SMART_SPC = 1;\r\nsigned short U_OUT_KONTR_MAX;\r\nsigned short U_OUT_KONTR_MIN;\r\nsigned short U_OUT_KONTR_DELAY;\r\nsigned short DOP_RELE_FUNC;\r\nsigned short CNTRL_HNDL_TIME;\t//Постоянная времени регулирования источников для Телекора\r\nsigned short USODERG_LI_BAT;\t//Напряжение содержания литиевой батареи\r\nsigned short QSODERG_LI_BAT;\t//Заряд при котором начинает действовать напряжение содержания литиевой батареи\r\nsigned short TVENTMAX;\t\t\t//Максимальный ресурс вентилятора\r\nsigned short ICA_EN;\t\t\t//Включенность режима выравнивания токов ИПС\r\nsigned short ICA_CH;\t\t\t//Канал связи для выравнивания токов, 0 - MODBUS, 1 - MODBUS-TCP\r\nsigned short ICA_MODBUS_ADDRESS;//Адрес ведомого для выравнивания токов по шине MODBUS-RTU\r\nsigned short ICA_MODBUS_TCP_IP1,ICA_MODBUS_TCP_IP2,ICA_MODBUS_TCP_IP3,ICA_MODBUS_TCP_IP4;\t//IP ведомого для выравнивания токов по шине MODBUS-TCP\r\nsigned short ICA_MODBUS_TCP_UNIT_ID;\t//UNIT ID ведомого для выравнивания токов по шине MODBUS-TCP\r\nsigned short PWM_START;\t\t\t//Начальный шим для ЭЛТЕХа\r\nsigned short KB_ALGORITM;\t\t//2-х или 3-х ступеннчатый алгоритм проверки цепи батареи\r\nsigned short REG_SPEED;\t\t\t//скорость регулирования, 1- стандартная, 2,3,4,5- замедленная в 2,3,4,5 раз\r\nenum_apv_on APV_ON1,APV_ON2;\r\nsigned short APV_ON2_TIME;\r\nsigned short RS485_QWARZ_DIGIT;\r\nsigned short UVENTOFF;\t\t\t//Напряжение (1в) при котором выключится вентиляция после окончания ВЗ или УСКЗ\r\nsigned short VZ_KIND;\t\t\t//Тип выравнивающего заряда, 0 - обычный(исторический, повышение напряжения на время), \r\n\t\t\t\t\t\t\t\t//1- высоковольтный, с контролем вентиляции и запросами к оператору\r\nsigned short SNTP_ENABLE;\r\nsigned short SNTP_GMT;\r\n\r\nsigned short UZ_U;\r\nsigned short UZ_IMAX;\r\nsigned short UZ_T;\r\n\r\nsigned short FZ_U1;\r\nsigned short FZ_IMAX1;\r\nsigned short FZ_T1;\r\nsigned short FZ_ISW12;\r\nsigned short FZ_U2;\r\nsigned short FZ_IMAX2;\r\nsigned short FZ_T2;\r\n\r\nsigned short RELE_SET_MASK[4]={1,2,3,4};\r\n\r\nenum_bat_is_on BAT_IS_ON[2];\r\nsigned short BAT_DAY_OF_ON[2];\r\nsigned short BAT_MONTH_OF_ON[2];\r\nsigned short BAT_YEAR_OF_ON[2];\r\nsigned short BAT_C_NOM[2];\r\nsigned short BAT_RESURS[2];\r\nsigned short BAT_C_REAL[2];\r\n//signed short BAT_TYPE[2];\r\n\r\nunsigned short AUSW_MAIN;\r\nunsigned long AUSW_MAIN_NUMBER;\r\nunsigned short AUSW_DAY;\r\nunsigned short AUSW_MONTH;\r\nunsigned short AUSW_YEAR;\r\nunsigned short AUSW_UKU;\r\nunsigned short AUSW_UKU_SUB;\r\nunsigned long AUSW_UKU_NUMBER;\r\nunsigned long\tAUSW_BPS1_NUMBER;\r\nunsigned long AUSW_BPS2_NUMBER;\r\nunsigned short AUSW_RS232;\r\nunsigned short AUSW_PDH;\r\nunsigned short AUSW_SDH;\r\nunsigned short AUSW_ETH;\r\n\r\nsigned short TMAX_EXT_EN[3];\r\nsigned short TMAX_EXT[3];\r\nsigned short TMIN_EXT_EN[3];\r\nsigned short TMIN_EXT[3];\r\nsigned short T_EXT_REL_EN[3];\r\nsigned short T_EXT_ZVUK_EN[3];\r\nsigned short T_EXT_LCD_EN[3];\r\nsigned short T_EXT_RS_EN[3];\r\n\r\nsigned short SK_SIGN[4];\r\nsigned short SK_REL_EN[4];\r\nsigned short SK_ZVUK_EN[4];\r\nsigned short SK_LCD_EN[4];\r\nsigned short SK_RS_EN[4];\r\n\r\nenum_avz AVZ;\r\n\r\nunsigned short HOUR_AVZ;\r\nunsigned short MIN_AVZ;\r\nunsigned short SEC_AVZ;\r\nunsigned short DATE_AVZ;\r\nunsigned short MONTH_AVZ;\r\nunsigned short YEAR_AVZ;\r\nunsigned short AVZ_TIME;\r\n\r\nenum_mnemo_on MNEMO_ON;\r\nunsigned short MNEMO_TIME;\r\n\r\nsigned short POWER_CNT_ADRESS;\r\n\r\nsigned short ETH_IS_ON;\r\nsigned short ETH_DHCP_ON;\r\nsigned short ETH_IP_1;\r\nsigned short ETH_IP_2;\r\nsigned short ETH_IP_3;\r\nsigned short ETH_IP_4;\r\nsigned short ETH_MASK_1;\r\nsigned short ETH_MASK_2;\r\nsigned short ETH_MASK_3;\r\nsigned short ETH_MASK_4;\r\nsigned short ETH_TRAP1_IP_1;\r\nsigned short ETH_TRAP1_IP_2;\r\nsigned short ETH_TRAP1_IP_3;\r\nsigned short ETH_TRAP1_IP_4;\r\nsigned short ETH_TRAP2_IP_1;\r\nsigned short ETH_TRAP2_IP_2;\r\nsigned short ETH_TRAP2_IP_3;\r\nsigned short ETH_TRAP2_IP_4;\r\nsigned short ETH_TRAP3_IP_1;\r\nsigned short ETH_TRAP3_IP_2;\r\nsigned short ETH_TRAP3_IP_3;\r\nsigned short ETH_TRAP3_IP_4;\r\nsigned short ETH_TRAP4_IP_1;\r\nsigned short ETH_TRAP4_IP_2;\r\nsigned short ETH_TRAP4_IP_3;\r\nsigned short ETH_TRAP4_IP_4;\r\nsigned short ETH_TRAP5_IP_1;\r\nsigned short ETH_TRAP5_IP_2;\r\nsigned short ETH_TRAP5_IP_3;\r\nsigned short ETH_TRAP5_IP_4;\r\n\r\nsigned short ETH_SNMP_PORT_READ;\r\nsigned short ETH_SNMP_PORT_WRITE;\r\n\r\nsigned short ETH_GW_1;\r\nsigned short ETH_GW_2;\r\nsigned short ETH_GW_3;\r\nsigned short ETH_GW_4;\r\n\r\nsigned short RELE_VENT_LOGIC;\r\n\r\nsigned short MODBUS_ADRESS;\r\nsigned short MODBUS_BAUDRATE;\r\nsigned short BAT_LINK;\r\n\r\n#ifdef UKU_ZVU\r\nsigned short BAT_C_POINT_1_6; \t//Емкость батареи при разряде 1/6 часа\r\nsigned short BAT_C_POINT_1_2; \t//Емкость батареи при разряде 1/2 часа\r\nsigned short BAT_C_POINT_1;\t\t//Емкость батареи при разряде 1 час\r\nsigned short BAT_C_POINT_3;\t\t//Емкость батареи при разряде 3 часа\r\nsigned short BAT_C_POINT_5;\t\t//Емкость батареи при разряде 5 часов\r\nsigned short BAT_C_POINT_10;\t//Емкость батареи при разряде 10 часов\r\nsigned short BAT_C_POINT_20;\t//Емкость батареи при разряде 20 часов\r\nsigned short BAT_U_END_1_6; \t//Конечное напряжение батареи при разряде 1/6 часа\r\nsigned short BAT_U_END_1_2; \t//Конечное напряжение батареи при разряде 1/2 часа\r\nsigned short BAT_U_END_1; \t\t//Конечное напряжение батареи при разряде 1 час\r\nsigned short BAT_U_END_3; \t\t//Конечное напряжение батареи при разряде 3 часа\r\nsigned short BAT_U_END_5; \t\t//Конечное напряжение батареи при разряде 5 часов\r\nsigned short BAT_U_END_10; \t//Конечное напряжение батареи при разряде 10 часов\r\nsigned short BAT_U_END_20; \t//Конечное напряжение батареи при разряде 20 часов\r\nsigned short BAT_C_POINT_NUM_ELEM;\t//Количество элементов в батарее\r\nsigned short BAT_K_OLD;\t\t\t//Коэффициент старения батареи\r\n\r\n#endif\r\n\r\nsigned short SP_CH_VENT_BLOK;\r\nsigned short VZ_CH_VENT_BLOK;\r\n\r\n//*******************************************\r\n//Состояние батарей\r\nBAT_STAT bat[2],bat_ips;\r\nsigned short\t\tbat_u_old_cnt;\r\nsigned short \t\tIb_ips_termokompensat;\r\nsigned short\t\tIb_ips_termokompensat_temp;\r\n\r\n//*******************************************\r\n//Мониторы АКБ\r\nMAKB_STAT makb[4];\r\n\r\n//*******************************************\r\n//Литиевые АКБ\r\nLAKB_STAT lakb[3];\r\nchar lakb_damp[1][42];\r\nchar bLAKB_KONF_CH=0;\r\nchar bLAKB_KONF_CH_old=0;\r\nchar lakb_ison_mass[7];\r\nshort lakb_mn_ind_cnt;\r\nchar bLAKB_KONF_CH_EN;\r\n//char bRS485ERR;\r\nshort LBAT_STRUKT;\r\nchar lakb_error_cnt;\t\t//счетчик неправильного показания ннапряжения батареи\r\nshort numOfPacks,numOfPacks_;\r\nshort numOfCells, numOfTemperCells, baseOfData;\r\nshort lakb_stat_comm_error;\t//аварийность канала связи с литиевыми батареями. 0 означает исправность платы расширения и наличие связи со всеми литиевыми батареями\r\nshort lakbNotErrorNum;\t\t//колличество литиевых батарей с исправной связью\r\nshort libat_comm_cnt;\t\t//Счетчик аварийности канала связи с платой расширения\r\n//short lakbKanErrorStat;\t\t//Состояние аварийности канала связи с платой расширения\r\n\r\n//#ifdef UKU_TELECORE2015\r\n//*******************************************\r\n//Состояние литиевой батареи \r\nLI_BAT_STAT li_bat;\r\n//#endif\r\n\r\n//*******************************************\r\n//Телеметрия по внутренней шине\r\nchar can_slot[12][16];\r\n\r\n\r\n//*******************************************\r\n//Состояние источников\r\nBPS_STAT bps[29];\r\n\r\n//*******************************************\r\n//Состояние инверторов\r\n#ifdef UKU_220_V2\r\nINV_STAT inv[3];\r\n#endif\r\n#ifndef UKU_220_V2\r\nINV_STAT inv[20];\r\n#endif\r\nchar first_inv_slot=MINIM_INV_ADRESS;\r\n\r\n//*******************************************\r\n//Состояние байпаса\r\nBYPS_STAT byps;\r\n\r\n//*******************************************\r\n//Состояние нагрузки\r\nsigned short load_U;\r\nsigned short load_I;\r\n\r\n//*******************************************\r\n//Состояние выхода\r\nsigned short bps_U;\r\nsigned short out_U;\r\nsigned short bps_I;\r\nsigned short bps_I_phantom;\r\n\r\n\r\n//********************************************\r\n//Индикация\r\n\r\nchar lcd_buffer[LCD_SIZE+100]={\"Hello World\"};\r\nsigned char parol[3];\r\nchar phase;\r\nchar lcd_bitmap[1024];\r\nchar dig[5];\r\nchar dumm_ind[20];\r\nstuct_ind a_ind,b_ind[10],c_ind;\r\nchar dumm_ind_[20];\r\nchar zero_on;\r\nchar mnemo_cnt=50;\r\nchar simax;\r\nshort av_j_si_max;\r\nconst char ABCDEF[]={\"0123456789ABCDEF\"};\r\nconst char sm_mont[13][4]={\" \",\"янв\",\"фев\",\"мар\",\"апр\",\"май\",\"июн\",\"июл\",\"авг\",\"сен\",\"окт\",\"ноя\",\"дек\"}; //\r\nsigned short ptr_ind=0;\r\nsigned short ind_pointer=0;\r\nchar show_mess_p1,show_mess_p2,show_mess_p3,show_mess_p4;\r\nchar show_mess_cnt;\r\nshort show_mess_number_;\r\nchar show_mess_komma;\r\n\r\n\r\n//********************************************\r\n//Состояние первичной сети\r\nsigned short net_U,net_Ustore,net_Ua,net_Ub,net_Uc;\r\nchar bFF,bFF_;\r\nsigned short net_F,hz_out,hz_out_cnt,net_F3;\r\nsigned char unet_drv_cnt;\r\nchar net_av;\r\n\r\n//*******************************************\r\n//Состояние внешних датчиков\r\n//signed short tout[4];\r\nchar tout_max_cnt[4],tout_min_cnt[4];\r\nenum_tout_stat tout_stat[4];\r\nsigned short t_ext[3];\r\n\r\nsigned char sk_cnt_dumm[4],sk_cnt[4],sk_av_cnt[4];\r\nenum_sk_stat sk_stat[4]={ssOFF,ssOFF,ssOFF,ssOFF},sk_stat_old[4]={ssOFF,ssOFF,ssOFF,ssOFF};\r\nenum_sk_av_stat sk_av_stat[4]={sasOFF,sasOFF,sasOFF,sasOFF},sk_av_stat_old[4];\r\nsigned short t_box,t_box_warm,t_box_vent;\r\nchar TELECORE2017_EXT_VENT_PWM,TELECORE2017_INT_VENT_PWM;\r\nchar ND_EXT[3];\r\n//*******************************************\r\n//Звуки\r\nextern char beep_cnt;\r\nBOOL bSILENT;\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\nsigned short u_necc,u_necc_,u_necc_up,u_necc_dn;\r\nsigned short main_cnt_5Hz;\r\nsigned short num_necc;\r\nsigned short num_necc_Imax;\r\nsigned short num_necc_Imin;\r\nsigned short cnt_num_necc;\r\n//char bSAME_IST_ON;\r\nsigned mat_temper;\r\n\r\n//*******************************************\r\n//АПВ\r\nunsigned main_apv_cnt,hour_apv_cnt[2],reset_apv_cnt[2];\r\nunsigned short apv_cnt_sec[2],apv_cnt[2];\r\n\r\n//*******************************************\r\n//Текстовые константы\r\nconst char sm_[]\t={\" \"};\r\nconst char sm_exit[]={\" Выход \"};\r\nconst char sm_time[]={\" 0%:0^:0& 0</> /0{ \"};\r\n\r\n\r\n\r\n\r\n\r\n//******************************************\r\n//Работа с кнопками \r\nchar but; \r\nunsigned long but_n,but_s;\r\nchar but0_cnt;\r\nchar but1_cnt;\r\nchar but_onL_temp;\r\n\r\n//*******************************************\r\n//Межблоковая связь\r\nsigned short cnt_net_drv;\r\n\r\n//*******************************************\r\n//КАН \r\nextern char ptr_can1_tx_wr,ptr_can1_tx_rd;\r\nextern char ptr_can2_tx_wr,ptr_can2_tx_rd;\r\nextern unsigned short rotor_can[6];\r\nextern char RXBUFF[40],TXBUFF[40];\r\n\r\n\r\n\r\n\r\n\r\n//*******************************************\r\n//Работа с кнопками\r\nchar speed,l_but,n_but;\r\n\r\n//*******************************************\r\n//Неразобранное\r\nenum {wrkON=0x55,wrkOFF=0xAA}wrk;\r\nchar cnt_wrk;\r\nsigned short ibat_integr;\r\nunsigned short av_beep,av_rele,av_stat;\r\nchar default_temp;\r\nchar ND_out[3];\r\n\r\n//*******************************************\r\n//Тест\r\nenum_tst_state tst_state[15];\r\n\r\n//*******************************************\r\n//АЦП\r\n//extern short adc_buff[16][16],adc_buff_[16];\r\nextern char adc_cnt,adc_cnt1,adc_ch;\r\n\r\n//********************************************\r\n\r\nchar flag=0;\r\n\r\n\r\nextern signed short bat_ver_cnt;\r\nsigned short Isumm;\r\nsigned short Isumm_;\r\n\r\n#include <LPC17xx.H> / LPC21xx definitions /\r\n\r\n\r\n\r\n/\r\nextern void lcd_init(void);\r\nextern void lcd_on(void);\r\nextern void lcd_clear(void);\r\n/\r\n\r\nextern short plazma_adc_cnt;\r\nextern char net_buff_cnt;\r\nextern unsigned short net_buff[32],net_buff_;\r\nextern char rele_stat/,rele_stat_/;\r\nextern char bRXIN0;\r\n\r\n\r\nchar cntrl_plazma;\r\nextern char bOUT_FREE2;\r\nextern char /av_net,//av_bat[2],/av_bps[12],av_inv[6],av_dt[4],av_sk[4];\r\n\r\nchar content[63];\r\n\r\n//const short ptr_bat_zar_cnt[2]={EE_ZAR1_CNT,EE_ZAR2_CNT};\r\n\r\n\r\n//unsigned short YEAR_AVZ,MONTH_AVZ,DATE_AVZ,HOUR_AVZ,MIN_AVZ,SEC_AVZ;\r\n\r\nchar place_holder[70]=\"Новосибирск.Новолуговое\";\r\n\r\n//*******************************************\r\n//Самокалиброввка\r\nextern signed short samokalibr_cnt;\r\n\r\n//******************************************\r\n//Сообщения\r\nextern char mess[MESS_DEEP],mess_old[MESS_DEEP],mess_cnt[MESS_DEEP];\r\nextern short mess_par0[MESS_DEEP],mess_par1[MESS_DEEP],mess_data[2];\r\n\r\n\r\n//******************************************\r\n//Контроль наличия батарей\r\nextern signed short \tmain_kb_cnt;\r\nextern signed short \tkb_cnt_1lev;\r\nextern signed short \tkb_cnt_2lev;\r\nextern char \t\t\tkb_full_ver;\r\nextern char \t\t\tkb_start[2],kb_start_ips;\r\n\r\n//********************************************\r\n//Управление ШИМом\r\nextern signed short cntrl_stat;\r\nextern signed short cntrl_stat_old;\r\nextern signed short cntrl_stat_new;\r\nextern signed short Ibmax;\r\n\r\n\r\n//-----------------------------------------------\r\n//Контроль заряда\r\nchar sign_U[2],sign_I[2];\r\nchar superviser_cnt;\r\n\r\n\r\nchar plazma_plazma_plazma;\r\n\r\nchar bRESET=0;\r\nchar bRESET_EXT=0;\r\nchar ext_can_cnt;\r\nchar bRESET_INT_WDT=0;\r\nchar bRESET_EXT_WDT=0;\r\n//-----------------------------------------------\r\n//Состояние вводов\r\nsigned short vvod_pos;\r\n\r\n//-----------------------------------------------\r\n//Плата расширения\r\nunsigned short adc_buff_ext_[3];\r\nunsigned short Uvv[3];\r\nunsigned short Uvv0;\r\nshort pos_vent;\r\nshort t_ext_can;\r\nchar t_ext_can_nd;\r\n\r\n\r\n//-----------------------------------------------\r\n//Плата расширения 2\r\nchar eb2_data[30];\r\nshort eb2_data_short[10];\r\nshort Uvv_eb2[3],Upes_eb2[3];\r\nshort Kvv_eb2[3],Kpes_eb2[3];\r\n//-----------------------------------------------\r\n//Работа со щетчиком\r\nsigned long power_summary;\r\nsigned short power_current;\r\nsigned long power_summary_tempo,power_summary_tempo_old;\r\nsigned short power_current_tempo,power_current_tempo_old;\r\nchar powerSummaryCnt;\r\nchar powerCurrentCnt;\r\n\r\n//-----------------------------------------------\r\n//Климатконтроль и вентиляторы\r\nsigned short main_vent_pos;\r\nsigned char t_box_cnt=0;\r\nenum_mixer_vent_stat mixer_vent_stat=mvsOFF;\r\nINT_BOX_TEMPER ibt;\r\nenum_tbatdisable_stat tbatdisable_stat=tbdsON;\r\nenum_tloaddisable_stat tloaddisable_stat=tldsON;\r\nenum_av_tbox_stat av_tbox_stat=atsOFF;\r\nsigned short av_tbox_cnt;\r\nchar tbatdisable_cmnd=20,tloaddisable_cmnd=22;\r\nshort tbatdisable_cnt,tloaddisable_cnt;\r\n#ifdef UKU_KONTUR\r\nshort t_box_vent_on_cnt;\r\nshort t_box_warm_on_cnt;\r\nenum_vent_stat vent_stat_k=vsON;\r\nenum_warm_stat warm_stat_k=wsON;\r\n#endif\r\n\r\n#ifdef UKU_TELECORE2015 \r\nshort t_box_vent_on_cnt;\r\nshort t_box_warm_on_cnt;\r\nshort t_box_vvent_on_cnt;\r\nenum_vent_stat vent_stat_k=vsON,vvent_stat_k=vsON;\r\nenum_warm_stat warm_stat_k=wsON;\r\nsigned short TELECORE2015_KLIMAT_WARM_ON_temp;\r\n#endif\r\n\r\n#ifdef UKU_TELECORE2017 \r\nshort t_box_vent_on_cnt;\r\nshort t_box_warm_on_cnt;\r\nshort t_box_vvent_on_cnt;\r\nenum_vent_stat vent_stat_k=vsON,vvent_stat_k=vsON;\r\nenum_warm_stat warm_stat_k=wsON;\r\nsigned short TELECORE2017_KLIMAT_WARM_ON_temp;\r\n\r\nsigned char t_box_warm_minus20_cnt;\r\nsigned char t_box_warm_plus65_cnt;\r\nsigned char t_box_cool_plus70_cnt;\r\n#endif\r\n\r\n//-----------------------------------------------\r\n//Состояние контролируемых автоматов нагрузки \r\nenum_avt_stat avt_stat[12],avt_stat_old[12];\r\n\r\n//short sys_plazma,sys_plazma1;\r\n\r\nchar snmp_plazma;\r\n\r\n\r\nshort plazma_but_an;\r\n\r\nchar bCAN_OFF;\r\n\r\n\r\nchar max_net_slot;\r\n\r\n//-----------------------------------------------\r\n//Показания АЦП на плате измерения тока батареи\r\nsigned long ibat_metr_buff_[2];\r\nshort bIBAT_SMKLBR;\r\nshort bIBAT_SMKLBR_cnt;\r\nshort ibat_metr_cnt;\r\n\r\n\r\n//-----------------------------------------------\r\n//Климатконтроль TELECORE2015\t\r\n#ifdef UKU_TELECORE2015\r\nsigned short TELECORE2015_KLIMAT_WARM_SIGNAL;\r\nsigned short TELECORE2015_KLIMAT_VENT_SIGNAL;\r\nsigned short TELECORE2015_KLIMAT_WARM_ON;\r\nsigned short TELECORE2015_KLIMAT_WARM_OFF;\r\nsigned short TELECORE2015_KLIMAT_CAP;\r\nsigned short TELECORE2015_KLIMAT_VENT_ON;\r\nsigned short TELECORE2015_KLIMAT_VENT_OFF;\r\nsigned short TELECORE2015_KLIMAT_VVENT_ON;\r\nsigned short TELECORE2015_KLIMAT_VVENT_OFF;\r\n#endif \r\n\r\n//-----------------------------------------------\r\n//Климатконтроль TELECORE2017\r\n#ifdef UKU_TELECORE2017\r\nsigned short TELECORE2017_KLIMAT_WARM_SIGNAL;\r\nsigned short TELECORE2017_KLIMAT_VENT_SIGNAL;\r\nsigned short TELECORE2017_KLIMAT_WARM_ON;\r\nsigned short TELECORE2017_KLIMAT_WARM_OFF;\r\nsigned short TELECORE2017_KLIMAT_WARM_ON;\r\nsigned short TELECORE2017_KLIMAT_WARM_OFF;\r\nsigned short TELECORE2017_KLIMAT_CAP;\r\nsigned short TELECORE2017_KLIMAT_VENT_ON0;\r\nsigned short TELECORE2017_KLIMAT_VENT_ON20;\r\nsigned short TELECORE2017_KLIMAT_VENT_ON40;\r\nsigned short TELECORE2017_KLIMAT_VENT_ON60;\r\nsigned short TELECORE2017_KLIMAT_VENT_ON80;\r\nsigned short TELECORE2017_KLIMAT_VENT_ON100;\r\nsigned short TELECORE2017_KLIMAT_DVENT_ON0;\r\nsigned short TELECORE2017_KLIMAT_DVENT_ON20;\r\nsigned short TELECORE2017_KLIMAT_DVENT_ON40;\r\nsigned short TELECORE2017_KLIMAT_DVENT_ON60;\r\nsigned short TELECORE2017_KLIMAT_DVENT_ON80;\r\nsigned short TELECORE2017_KLIMAT_DVENT_ON100;\r\n#endif \r\n\r\n//-----------------------------------------------\r\n//Алгоритм содержания батареи TELECORE2017\t\r\n//#ifdef UKU_TELECORE2017\r\nsigned short TELECORE2017_USTART;\t\t//Напряжение включения\r\nsigned short TELECORE2017_ULINECC;\t\t//Напряжение содержания из установок\r\nsigned short TELECORE2017_ULINECC_;\t\t//Напряжение содержания мгновенное, с учетом аварий батареи\r\nsigned short TELECORE2017_AVAR_CNT;\t\t//Счетчик аварийности батареи для снижения напряжения содержания\r\nsigned short TELECORE2017_Q;\t\t\t//Заряд батари (%) при котором переходим с тока IZMAX1 на IZMAX2\r\nsigned short TELECORE2017_IZMAX1;\t\t//Максимальный ток заряда батареи при разряженной батарее(заряд < TELECORE2017_Q)\r\nsigned short TELECORE2017_IZMAX2;\t \t//Максимальный ток заряда батареи при заряженной батарее(заряд >= TELECORE2017_Q)\r\nsigned short TELECORE2017_K1;\t\t\t//Шаг регулирования(ед/с) при Uвыпр<(Uбат-2В)\r\nsigned short TELECORE2017_K2;\t\t\t//Шаг регулирования(ед/с) при Uвыпр>(Uбат-2В) и отсутствии токов батарей\r\nsigned short TELECORE2017_K3;\t\t\t//Шаг регулирования(ед/с) при токе батарей в интервале 0-70% от Izmax\r\nsigned short TELECORE2017_T4;\t\t\t//Период регулирования(сек) еденичными шагами при токе батарейц в интервале 70-110%от Izmax \r\n//#endif \r\n//-----------------------------------------------\r\n//Управление низкоприоритетной нагрузкой\r\nsigned short npn_tz_cnt;\r\nenum_npn_stat npn_stat=npnsON,load_off_stat=npnsON;\r\nsigned short load_off_cnt;\r\n\r\nchar ips_bat_av_vzvod=0;\r\nchar ips_bat_av_stat=0;\r\n\r\nchar rel_warm_plazma;\r\nchar can_byps_plazma0,can_byps_plazma1;\r\n\r\nchar bCAN_INV;\r\nchar plazma_can_inv[3];\r\n\r\nunsigned short bat_drv_rx_cnt;\r\nchar bat_drv_rx_buff[512];\r\nchar bat_drv_rx_in;\r\n\r\nshort plazma_bat_drv0,plazma_bat_drv1,bat_drv_cnt_cnt;\r\nshort can_plazma;\r\nshort modbus_modbus_adress_eq;\r\nshort modbus_modbus4f_cnt;\r\n\r\n//-----------------------------------------------\r\n//Ускоренный заряд\r\nsigned short speedChrgCurr;\t\t\t//максимальный ток ускоренного заряда, отображение из ЕЕПРОМ\r\nsigned short speedChrgVolt;\t\t\t//максимальное напряжение ускоренного заряда, отображение из ЕЕПРОМ\r\nsigned short speedChrgTimeInHour; \t\t//максимальное время ускоренного заряда в часах, отображение из ЕЕПРОМ\r\nsigned short speedChrgAvtEn;\t \t\t//Автоматическое включение Ускоренного заряда включено/выключено\r\nsigned short speedChrgDU;\t \t\t//Просадка напряжения необходимая для включения ускоренного заряда\r\nsigned short speedChIsOn;\t\t\t//Текущее состояние ускоренного заряда вкл/выкл\r\nsigned long speedChTimeCnt;\t\t\t//Счетчик времени прямой ускоренного заряда\r\nsigned short speedChrgBlckSrc;\t\t//Источник сигнала блокировки, 0-выкл., 1-СК1, 2-СК2\r\nsigned short speedChrgBlckLog;\t\t//Логика сигнала блокировки, 1 - блокировка по замкнутому СК, 0 - по разомкнутому\r\nsigned short speedChrgBlckStat;\t\t//Сигнал блокировки для выравнивающего и ускоренного заряда.\r\nchar \t speedChrgShowCnt;\t\t//Счетчик показа информационного сообщения\r\n//-----------------------------------------------\r\n//Новый ускоренный заряд\r\nenum_sp_ch_stat sp_ch_stat=scsOFF,sp_ch_stat_old;\r\nshort sp_ch_stat_cnt;\r\nlong sp_ch_wrk_cnt;\r\nchar speedChargeStartCnt=0;\r\n\r\n//-----------------------------------------------\r\n//Блокировка ИПС\r\nsigned short ipsBlckSrc;\r\nsigned short ipsBlckLog;\r\nsigned short ipsBlckStat;\r\n\r\n\r\n//-----------------------------------------------\r\n//Контроль выходного напряжения\r\nsigned short outVoltContrHndlCnt;\t\t//Счетчик, считает в плюс в случае выполнения условия аварии\r\nsigned short outVoltContrHndlCnt_;\t\t//Счетчик, считает в плюс в случае отсутствия выполнения условия аварии\r\nchar uout_av;\r\n\r\n//-----------------------------------------------\r\n//Направление тока батареи для АПСЭнергия\r\nshort apsEnergiaCnt;\r\nchar apsEnergiaStat; \t\t\r\n\r\n\r\nshort plazma_numOfCells;\r\nshort plazma_numOfTemperCells;\r\nshort plazma_numOfPacks;\r\n\r\n#ifdef MCP2515_CAN\r\n#define can1_out\tmcp2515_transmit\r\n#endif\r\n\r\n\r\nchar plazma_ztt[2];\r\nshort plazma1000[10];\r\nchar plazma_stark[32];\r\nchar spch_plazma[2];\r\n\r\nU8 socket_tcp;\r\n\r\n//-----------------------------------------------\r\n//Ресурс вентиляторов\r\n//char vent_resurs_temp[4];\r\n\r\n//-----------------------------------------------\r\n//Выравнивание токов ИПС\r\nchar ica_plazma[10];\r\nchar ica_timer_cnt;\r\nsigned short ica_my_current;\r\nsigned short ica_your_current;\r\nsigned short ica_u_necc;\r\nsigned short ica_cntrl_hndl;\r\nsigned short ica_cntrl_hndl_cnt;\r\nU8 tcp_soc_avg;\r\nU8 tcp_connect_stat;\r\n\r\n\r\n//-----------------------------------------------\r\n//Высоковольтный выравнивающий заряд\r\nenum_hv_vz_stat hv_vz_stat=hvsOFF,hv_vz_stat_old;\r\nshort hv_vz_stat_cnt;\r\nlong hv_vz_wrk_cnt;\r\nlong hv_vz_up_cnt;\r\n\r\n//-----------------------------------------------\r\n//Блок выносной реле\r\nchar bdr_transmit_stat;\r\nchar bdr_avar_stat;\r\n\r\n//-----------------------------------------------\r\n//Установка напряжения автономной работы\r\nenum_uavt_set_stat uavt_set_stat=uassOFF, uavt_set_stat_old=uassOFF;\r\nenum_uavt_set_result_stat uavt_set_result_stat=uasrsGOOD;\r\nshort u_max_temp,u_min_temp;\r\nchar uavt_bps_pntr;\r\nchar uavt_error_bps=100;\r\nchar avt_plazma;\r\nchar avt_error_bps;\r\nchar uavt_set_error_cnt;\r\n\r\nshort pvlk;\r\nchar klbr_en;\r\nchar plazma_pavlik;\r\nchar web_plazma[5];\r\nshort web_cnt_main;\r\nshort web_cnt_2hz;\r\nconst char web_str= \"plazma\";\r\nchar uku_set_autorized=0;\r\nlong web_param_input;\r\n\r\n\r\n//-----------------------------------------------\r\nvoid rtc_init (void) \r\n{\r\nLPC_RTC->CCR=0x11;\r\n}\r\n\r\n//-----------------------------------------------\r\nstatic void timer_poll () \r\n{\r\nif (SysTick->CTRL & 0x10000) \r\n {\r\n timer_tick ();\r\n tick = __TRUE;\r\n }\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid inv_search(void)\r\n{\r\nchar i;\r\n\r\nfirst_inv_slot=8;\r\nfor(i=0;i<12;i++)\r\n\t{\r\n\tif(bps[i]._device==dINV)\r\n\t\t{\r\n\t\tfirst_inv_slot=i;\r\n\t\tbreak;\r\n\r\n\t\t}\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nsigned short abs_pal(signed short in)\r\n{\r\nif(in<0)return -in;\r\nelse return in;\r\n}\r\n\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid init_ETH(void)\r\n{\r\nlocalm[NETIF_ETH].IpAdr[0]=lc640_read_int(EE_ETH_IP_1);\r\nlocalm[NETIF_ETH].IpAdr[1]=lc640_read_int(EE_ETH_IP_2);\r\nlocalm[NETIF_ETH].IpAdr[2]=lc640_read_int(EE_ETH_IP_3);\r\nlocalm[NETIF_ETH].IpAdr[3]=lc640_read_int(EE_ETH_IP_4);\r\n\r\nlocalm[NETIF_ETH].NetMask[0]=lc640_read_int(EE_ETH_MASK_1);\r\nlocalm[NETIF_ETH].NetMask[1]=lc640_read_int(EE_ETH_MASK_2);\r\nlocalm[NETIF_ETH].NetMask[2]=lc640_read_int(EE_ETH_MASK_3);\r\nlocalm[NETIF_ETH].NetMask[3]=lc640_read_int(EE_ETH_MASK_4);\r\n\r\nlocalm[NETIF_ETH].DefGW[0]=lc640_read_int(EE_ETH_GW_1);\r\nlocalm[NETIF_ETH].DefGW[1]=lc640_read_int(EE_ETH_GW_2);\r\nlocalm[NETIF_ETH].DefGW[2]=lc640_read_int(EE_ETH_GW_3);\r\nlocalm[NETIF_ETH].DefGW[3]=lc640_read_int(EE_ETH_GW_4);\r\n\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid ADC_IRQHandler(void) {\r\nLPC_ADC->ADCR &= ~(7<<24);\r\n\r\n\r\n\r\nadc_self_ch_buff[adc_self_ch_cnt]=(LPC_ADC->ADGDR>>4) & 0xFFF;/* Read Conversion Result /\r\nadc_self_ch_cnt++;\r\nif(adc_self_ch_cnt<3)\r\n\t{\r\n\tLPC_ADC->ADCR \|= (1<<24);\r\n\t}\r\nelse\r\n\t{\r\n\r\n \r\n\t//SET_REG(LPC_ADC->ADCR,1,24,3);\r\n\t}\r\n\r\n/\t\t\tadc_buff_[0]=AD_last;\r\n\t\t\tif(AD_last<adc_buff_min[adc_ch])adc_buff_min[adc_ch]=AD_last;\r\n\t\t\tif(AD_last>adc_buff_max[adc_ch])adc_buff_max[adc_ch]=AD_last;/\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid def_set(int umax__,int ub0__,int ub20__,int usign__,int imax__,int uob__,int numi,int _uvz)\r\n{\r\n;\r\nlc640_write_int(EE_NUMIST,numi);\r\nlc640_write_int(EE_NUMINV,0);\r\n//lc640_write_int(EE_NUMDT,0);\r\n//lc640_write_int(EE_NUMSK,0);\r\nlc640_write_int(EE_MAIN_IST,0);\r\nlc640_write_int(EE_PAR,1);\r\nlc640_write_int(EE_TBAT,60);\r\nlc640_write_int(EE_UMAX,umax__);\r\nlc640_write_int(EE_DU,ub20__/2);\r\nlc640_write_int(EE_UB0,ub0__);\r\nlc640_write_int(EE_UB20,ub20__);\r\nlc640_write_int(EE_TSIGN,70);\r\nlc640_write_int(EE_TMAX,80);\r\n//lc640_write_int(EE_C_BAT,180);\r\nlc640_write_int(EE_USIGN,usign__);\r\nlc640_write_int(EE_UMN,187);\r\nlc640_write_int(EE_ZV_ON,0);\r\nlc640_write_int(EE_IKB,10);\r\n//lc640_write_int(EE_KVZ,1030);\r\nlc640_write_int(EE_UVZ,_uvz);\r\nlc640_write_int(EE_IMAX,imax__);\r\nlc640_write_int(EE_IMIN,(imax__8)/10);\r\n//lc640_write_int(EE_APV_ON,apvON);\r\nlc640_write_int(EE_APV_ON1,apvON);\r\nlc640_write_int(EE_APV_ON2,apvON);\r\nlc640_write_int(EE_APV_ON2_TIME,1);\r\nlc640_write_int(EE_IZMAX,160);\r\nlc640_write_int(EE_U0B,uob__);\r\nlc640_write_int(EE_TZAS,3);\r\nlc640_write_int(EE_TBATMAX,50); \r\nlc640_write_int(EE_TBATSIGN,40);\r\nlc640_write_int(EE_MNEMO_ON,mnON);\r\nlc640_write_int(EE_MNEMO_TIME,30);\t\r\nlc640_write_int(EE_AV_OFF_AVT,1);\r\n//lc640_write_int(EE_APV_ON1,apvOFF);\r\n\r\n\r\n\r\nlc640_write_int(EE_TBOXMAX,70);\r\nlc640_write_int(EE_TBOXVENTMAX,60);\r\nlc640_write_int(EE_TBOXREG,25);\r\nlc640_write_int(EE_TLOADDISABLE,80);\r\nlc640_write_int(EE_TLOADENABLE,70);\r\nlc640_write_int(EE_TBATDISABLE,91);\r\nlc640_write_int(EE_TBATENABLE,80);\r\n\r\nlc640_write_int(ADR_SK_SIGN[0],0);\r\nlc640_write_int(ADR_SK_REL_EN[0],0);\r\nlc640_write_int(ADR_SK_LCD_EN[0],0xffff);\r\n\r\nlc640_write_int(ADR_SK_SIGN[1],0);\r\nlc640_write_int(ADR_SK_REL_EN[1],0);\r\nlc640_write_int(ADR_SK_LCD_EN[1],0xffff);\r\n\r\nlc640_write_int(ADR_SK_SIGN[2],0);\r\nlc640_write_int(ADR_SK_REL_EN[2],0);\r\nlc640_write_int(ADR_SK_LCD_EN[2],0xffff);\r\n\r\nlc640_write_int(ADR_SK_SIGN[3],0);\r\nlc640_write_int(ADR_SK_REL_EN[3],0);\r\nlc640_write_int(ADR_SK_LCD_EN[3],0xffff);\r\n\r\nlc640_write_int(EE_UBM_AV,10);\r\n\r\nlc640_write_int(EE_POS_VENT,11);\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid def_ips_set(short voltage)\r\n{\r\nif(voltage==24)\r\n\t{\r\n\tdef_set(300,voltage,voltage,22,150,240,7,0);\r\n\t}\r\nif(voltage==48)\r\n\t{\r\n\tdef_set(600,voltage,voltage,44,100,480,7,0);\r\n\t}\r\nif(voltage==60)\r\n\t{\r\n\tdef_set(750,voltage,voltage,55,100,600,7,0);\r\n\t}\r\n\r\nif(voltage==220)\r\n\t{\r\n\tdef_set(2450,2366,2315,187,100,2200,2,2346);\r\n\r\n\tlc640_write_int(EE_NUMIST,2);\r\n\tlc640_write_int(EE_NUMINV,0);\r\n//lc640_write_int(EE_NUMDT,0);\r\n//lc640_write_int(EE_NUMSK,0);\r\n\tlc640_write_int(EE_MAIN_IST,0);\r\n\tlc640_write_int(EE_PAR,1);\r\n\tlc640_write_int(EE_TBAT,60);\r\n\tlc640_write_int(EE_UMAX,2450);\r\n\tlc640_write_int(EE_DU,2315/2);\r\n\tlc640_write_int(EE_UB0,2366);\r\n\tlc640_write_int(EE_UB20,2315);\r\n\tlc640_write_int(EE_TSIGN,70);\r\n\tlc640_write_int(EE_TMAX,80);\r\n//lc640_write_int(EE_C_BAT,180);\r\n\tlc640_write_int(EE_USIGN,187);\r\n\tlc640_write_int(EE_UMN,187);\r\n\tlc640_write_int(EE_ZV_ON,0);\r\n\tlc640_write_int(EE_IKB,20);\r\n//lc640_write_int(EE_KVZ,1030);\r\n\tlc640_write_int(EE_UVZ,2346);\r\n\tlc640_write_int(EE_IMAX,80);\r\n\tlc640_write_int(EE_IMIN,50);\r\n//lc640_write_int(EE_APV_ON,apvON);\r\n\tlc640_write_int(EE_APV_ON1,apvON);\r\n\tlc640_write_int(EE_APV_ON2,apvON);\r\n\tlc640_write_int(EE_APV_ON2_TIME,1);\r\n\tlc640_write_int(EE_IZMAX,160);\r\n\tlc640_write_int(EE_U0B,2200);\r\n\tlc640_write_int(EE_TZAS,3);\r\n\tlc640_write_int(EE_TBATMAX,50); \r\n\tlc640_write_int(EE_TBATSIGN,40);\r\n\tlc640_write_int(EE_MNEMO_ON,mnON);\r\n\tlc640_write_int(EE_MNEMO_TIME,30);\t\r\n\tlc640_write_int(EE_AV_OFF_AVT,1);\r\n//lc640_write_int(EE_APV_ON1,apvOFF);\r\n\r\n\r\n\r\n\tlc640_write_int(EE_TBOXMAX,70);\r\n\tlc640_write_int(EE_TBOXVENTMAX,60);\r\n\tlc640_write_int(EE_TBOXREG,25);\r\n\tlc640_write_int(EE_TLOADDISABLE,80);\r\n\tlc640_write_int(EE_TLOADENABLE,70);\r\n\tlc640_write_int(EE_TBATDISABLE,91);\r\n\tlc640_write_int(EE_TBATENABLE,80);\r\n\r\n\tlc640_write_int(ADR_SK_SIGN[0],0);\r\n\tlc640_write_int(ADR_SK_REL_EN[0],0);\r\n\tlc640_write_int(ADR_SK_LCD_EN[0],0xffff);\r\n\r\n\tlc640_write_int(ADR_SK_SIGN[1],0);\r\n\tlc640_write_int(ADR_SK_REL_EN[1],0);\r\n\tlc640_write_int(ADR_SK_LCD_EN[1],0xffff);\r\n\r\n\tlc640_write_int(ADR_SK_SIGN[2],0);\r\n\tlc640_write_int(ADR_SK_REL_EN[2],0);\r\n\tlc640_write_int(ADR_SK_LCD_EN[2],0xffff);\r\n\r\n\tlc640_write_int(ADR_SK_SIGN[3],0);\r\n\tlc640_write_int(ADR_SK_REL_EN[3],0);\r\n\tlc640_write_int(ADR_SK_LCD_EN[3],0xffff);\r\n\r\n\tlc640_write_int(EE_UBM_AV,10);\r\n\r\n\tlc640_write_int(EE_POS_VENT,11);\r\n\r\n\r\n\tlc640_write_int(EE_DU,2315-1870);\r\n\tlc640_write_int(EE_U_AVT,2200);\r\n\tlc640_write_int(EE_IZMAX,20);\r\n\tlc640_write_int(EE_AUSW_MAIN,22033);\r\n\tlc640_write_int(EE_PAR,1);\r\n\tlc640_write_int(EE_MNEMO_ON,mnOFF);\r\n\t}\r\n\r\nif(voltage==110)\r\n\t{\r\n\tdef_set(1350,1270,1225,99,20,1220,2,1290);\r\n\r\n\tlc640_write_int(EE_NUMIST,2);\r\n\tlc640_write_int(EE_NUMINV,0);\r\n//lc640_write_int(EE_NUMDT,0);\r\n//lc640_write_int(EE_NUMSK,0);\r\n\tlc640_write_int(EE_MAIN_IST,0);\r\n\tlc640_write_int(EE_PAR,1);\r\n\tlc640_write_int(EE_TBAT,60);\r\n\tlc640_write_int(EE_UMAX,1350);\r\n\tlc640_write_int(EE_DU,1350/2);\r\n\tlc640_write_int(EE_UB0,1270);\r\n\tlc640_write_int(EE_UB20,1225);\r\n\tlc640_write_int(EE_TSIGN,70);\r\n\tlc640_write_int(EE_TMAX,80);\r\n//lc640_write_int(EE_C_BAT,180);\r\n\tlc640_write_int(EE_USIGN,99);\r\n\tlc640_write_int(EE_UMN,187);\r\n\tlc640_write_int(EE_ZV_ON,0);\r\n\tlc640_write_int(EE_IKB,20);\r\n//lc640_write_int(EE_KVZ,1030);\r\n\tlc640_write_int(EE_UVZ,1290);\r\n\tlc640_write_int(EE_IMAX,80);\r\n\tlc640_write_int(EE_IMIN,50);\r\n//lc640_write_int(EE_APV_ON,apvON);\r\n\tlc640_write_int(EE_APV_ON1,apvON);\r\n\tlc640_write_int(EE_APV_ON2,apvON);\r\n\tlc640_write_int(EE_APV_ON2_TIME,1);\r\n\tlc640_write_int(EE_IZMAX,160);\r\n\tlc640_write_int(EE_U0B,1220);\r\n\tlc640_write_int(EE_TZAS,3);\r\n\tlc640_write_int(EE_TBATMAX,50); \r\n\tlc640_write_int(EE_TBATSIGN,40);\r\n\tlc640_write_int(EE_MNEMO_ON,mnON);\r\n\tlc640_write_int(EE_MNEMO_TIME,30);\t\r\n\tlc640_write_int(EE_AV_OFF_AVT,1);\r\n//lc640_write_int(EE_APV_ON1,apvOFF);\r\n\r\n\r\n\r\n\tlc640_write_int(EE_TBOXMAX,70);\r\n\tlc640_write_int(EE_TBOXVENTMAX,60);\r\n\tlc640_write_int(EE_TBOXREG,25);\r\n\tlc640_write_int(EE_TLOADDISABLE,80);\r\n\tlc640_write_int(EE_TLOADENABLE,70);\r\n\tlc640_write_int(EE_TBATDISABLE,91);\r\n\tlc640_write_int(EE_TBATENABLE,80);\r\n\r\n\tlc640_write_int(ADR_SK_SIGN[0],0);\r\n\tlc640_write_int(ADR_SK_REL_EN[0],0);\r\n\tlc640_write_int(ADR_SK_LCD_EN[0],0xffff);\r\n\r\n\tlc640_write_int(ADR_SK_SIGN[1],0);\r\n\tlc640_write_int(ADR_SK_REL_EN[1],0);\r\n\tlc640_write_int(ADR_SK_LCD_EN[1],0xffff);\r\n\r\n\tlc640_write_int(ADR_SK_SIGN[2],0);\r\n\tlc640_write_int(ADR_SK_REL_EN[2],0);\r\n\tlc640_write_int(ADR_SK_LCD_EN[2],0xffff);\r\n\r\n\tlc640_write_int(ADR_SK_SIGN[3],0);\r\n\tlc640_write_int(ADR_SK_REL_EN[3],0);\r\n\tlc640_write_int(ADR_SK_LCD_EN[3],0xffff);\r\n\r\n\tlc640_write_int(EE_UBM_AV,10);\r\n\r\n\tlc640_write_int(EE_POS_VENT,11);\r\n\r\n\r\n\tlc640_write_int(EE_DU,1220-600);\r\n\tlc640_write_int(EE_U_AVT,1220);\r\n\tlc640_write_int(EE_IZMAX,20);\r\n\tlc640_write_int(EE_AUSW_MAIN,22033);\r\n\tlc640_write_int(EE_PAR,1);\r\n\tlc640_write_int(EE_MNEMO_ON,mnOFF);\r\n\t}\r\n\r\nlc640_write_int(ADR_EE_BAT_IS_ON[0],bisOFF);\r\nlc640_write_int(ADR_EE_BAT_DAY_OF_ON[0],LPC_RTC->DOM);\r\nlc640_write_int(ADR_EE_BAT_MONTH_OF_ON[0],LPC_RTC->MONTH);\r\nlc640_write_int(ADR_EE_BAT_YEAR_OF_ON[0],LPC_RTC->YEAR);\r\nlc640_write_int(ADR_EE_BAT_C_NOM[0],0);\r\nlc640_write_int(ADR_EE_BAT_RESURS[0],0);\r\n\r\nlc640_write_int(ADR_EE_BAT_IS_ON[1],bisOFF);\r\nlc640_write_int(ADR_EE_BAT_DAY_OF_ON[1],LPC_RTC->DOM);\r\nlc640_write_int(ADR_EE_BAT_MONTH_OF_ON[1],LPC_RTC->MONTH);\r\nlc640_write_int(ADR_EE_BAT_YEAR_OF_ON[1],LPC_RTC->YEAR);\r\nlc640_write_int(ADR_EE_BAT_C_NOM[1],0);\r\nlc640_write_int(ADR_EE_BAT_RESURS[1],0);\r\n\r\n\r\nlc640_write_int(EE_SPEED_CHRG_VOLT,2400);\r\nlc640_write_int(EE_SPEED_CHRG_CURR,20);\r\nlc640_write_int(EE_SPEED_CHRG_TIME,1);\r\nlc640_write_int(EE_SPEED_CHRG_AVT_EN,0);\r\nlc640_write_int(EE_SPEED_CHRG_BLOCK_SRC,0);\r\nlc640_write_int(EE_SPEED_CHRG_BLOCK_LOG,0);\r\nlc640_write_int(EE_SPEED_CHRG_D_U,40);\r\nlc640_write_int(EE_U_OUT_KONTR_MAX,1310);\r\nlc640_write_int(EE_U_OUT_KONTR_MIN,1100);\r\n\r\nlc640_write_int(EE_SNTP_ENABLE,1);\r\nlc640_write_int(EE_SNTP_GMT,7);\r\n\r\nlc640_write_int(EE_ETH_IS_ON,1);\r\nlc640_write_int(EE_ETH_DHCP_ON,0);\r\nlc640_write_int(EE_ETH_IP_1,192);\r\nlc640_write_int(EE_ETH_IP_2,168);\r\nlc640_write_int(EE_ETH_IP_3,1);\r\nlc640_write_int(EE_ETH_IP_4,251);\r\n#ifdef UKU_KONTUR\r\nlc640_write_int(EE_ETH_IP_4,230);\r\n#endif\r\nlc640_write_int(EE_ETH_MASK_1,255);\r\nlc640_write_int(EE_ETH_MASK_2,255);\r\nlc640_write_int(EE_ETH_MASK_3,255);\r\nlc640_write_int(EE_ETH_MASK_4,0);\r\nlc640_write_int(EE_ETH_GW_1,192);\r\nlc640_write_int(EE_ETH_GW_2,168);\r\nlc640_write_int(EE_ETH_GW_3,1);\r\nlc640_write_int(EE_ETH_GW_4,254);\r\nlc640_write_int(EE_ETH_SNMP_PORT_READ,161);\r\nlc640_write_int(EE_ETH_SNMP_PORT_WRITE,162);\r\nlc640_write_int(EE_COMMUNITY,'1');\r\nlc640_write_int(EE_COMMUNITY+2,'2');\r\nlc640_write_int(EE_COMMUNITY+4,'3');\r\nlc640_write_int(EE_COMMUNITY+6,0);\r\nlc640_write_int(EE_COMMUNITY+8,0);\r\nlc640_write_int(EE_ETH_TRAP1_IP_1,255);\r\nlc640_write_int(EE_ETH_TRAP1_IP_2,255);\r\nlc640_write_int(EE_ETH_TRAP1_IP_3,255);\r\nlc640_write_int(EE_ETH_TRAP1_IP_4,255);\r\nlc640_write_int(EE_ETH_TRAP2_IP_1,255);\r\nlc640_write_int(EE_ETH_TRAP2_IP_2,255);\r\nlc640_write_int(EE_ETH_TRAP2_IP_3,255);\r\nlc640_write_int(EE_ETH_TRAP2_IP_4,255);\r\nlc640_write_int(EE_ETH_TRAP3_IP_1,255);\r\nlc640_write_int(EE_ETH_TRAP3_IP_2,255);\r\nlc640_write_int(EE_ETH_TRAP3_IP_3,255);\r\nlc640_write_int(EE_ETH_TRAP3_IP_4,255);\r\nlc640_write_int(EE_ETH_TRAP4_IP_1,255);\r\nlc640_write_int(EE_ETH_TRAP4_IP_2,255);\r\nlc640_write_int(EE_ETH_TRAP4_IP_3,255);\r\nlc640_write_int(EE_ETH_TRAP4_IP_4,255);\r\nlc640_write_int(EE_ETH_TRAP5_IP_1,255);\r\nlc640_write_int(EE_ETH_TRAP5_IP_2,255);\r\nlc640_write_int(EE_ETH_TRAP5_IP_3,255);\r\nlc640_write_int(EE_ETH_TRAP5_IP_4,255);\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid can_reset_hndl(void)\r\n{\r\nif((lc640_read_int(EE_CAN_RESET_CNT)<0)\|\|(lc640_read_int(EE_CAN_RESET_CNT)>2))\tlc640_write_int(EE_CAN_RESET_CNT,0);\r\n\r\ncan_reset_cnt++;\r\n\r\nif((can_reset_cnt>=10)&&(!(avar_stat&0x0001))&&(!bRESET))\r\n\t{\r\n\tif(lc640_read_int(EE_CAN_RESET_CNT)<2)\r\n\t\t{\r\n\t\tlc640_write_int(EE_CAN_RESET_CNT,lc640_read_int(EE_CAN_RESET_CNT)+1);\r\n\t\tbRESET=1;\r\n\t\t}\r\n\t}\r\n\r\nif((main_1Hz_cnt>=3600UL)&&(lc640_read_int(EE_CAN_RESET_CNT)!=0))\r\n\t{\r\n\tlc640_write_int(EE_CAN_RESET_CNT,0);\r\n\t}\r\n\r\nif(((LPC_CAN1->GSR)>>24)==127)bRESET=1;\r\nif((((LPC_CAN1->GSR)>>16)&0x00ff)==127)bRESET=1;\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid net_drv(void)\r\n{ \r\n//char temp_; \r\n\r\n\r\n\r\nmax_net_slot=MINIM_INV_ADRESS+NUMINV+8;\r\n//if(NUMINV) max_net_slot=MINIM_INV_ADRESS+NUMINV;\r\n//gran_char(&max_net_slot,0,MAX_NET_ADRESS);\r\n\r\nif(++cnt_net_drv>max_net_slot) \r\n\t{\r\n\tcnt_net_drv=-4;\r\n\t//LPC_GPIO2->FIODIR\|=(1UL<<7);\r\n\t//LPC_GPIO2->FIOPIN^=(1UL<<7);\r\n\tif(bCAN_INV)bCAN_INV=0;\r\n\telse bCAN_INV=1;\r\n\r\n\t} \r\n\r\n\r\n#ifndef UKU_KONTUR\r\nif((cnt_net_drv>=0)&&(cnt_net_drv<=11)) // с 1 по 12 посылки адресные\r\n#endif\r\n#ifdef UKU_KONTUR\r\nif((cnt_net_drv>=0)&&(cnt_net_drv<=7)) // с 1 по 12 посылки адресные\r\n\r\n#endif\r\n\t{\r\n\t//cnt_net_drv=2; \r\n\tif(mess_find_unvol(MESS2NET_DRV))\r\n\t\t{\r\n\t\tif(mess_data[0]==PARAM_BPS_NET_OFF)\r\n\t\t\t{\r\n\t\t\t//mess_data[1]=1;\r\n\t\t\tif(sub_ind1==cnt_net_drv)\r\n\t\t\t\t{\r\n\t\t\t\treturn;\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t}\r\n\t\t\t \r\n\tif(!bCAN_OFF)can1_out(cnt_net_drv,cnt_net_drv,GETTM,bps[cnt_net_drv]._flags_tu,((char)(&bps[cnt_net_drv]._vol_u)),((char)((&bps[cnt_net_drv]._vol_u))+1),((char)(&bps[cnt_net_drv]._vol_i)),((char)((&bps[cnt_net_drv]._vol_i))+1));\r\n \r\n\tif(cnt_net_drv<=11)\r\n\t {\r\n\t if(bps[cnt_net_drv]._cnt<CNT_SRC_MAX)\r\n \t \t\t{ \r\n \t \t\tbps[cnt_net_drv]._cnt++;\r\n \t \t\tif( (bps[cnt_net_drv]._cnt>=CNT_SRC_MAX) && (!net_av) && (!(bps[cnt_net_drv]._av&0x08)) && (cnt_net_drv<NUMIST) ) \r\n \t \t\t\t{\r\n \t \t\t\tavar_bps_hndl(cnt_net_drv,3,1);\r\n \t \t\t\t}\r\n \t \t\t}\r\n\t\telse bps[cnt_net_drv]._cnt=CNT_SRC_MAX;\r\n\t\t\t\t\t\t\r\n\t\tif((bps[cnt_net_drv]._cnt>=3)&&(bps[cnt_net_drv]._cnt_old<3))bps[cnt_net_drv]._cnt_more2++;\r\n\t\tbps[cnt_net_drv]._cnt_old=bps[cnt_net_drv]._cnt;\r\n\t }\r\n\t}\r\n\r\n#ifdef UKU_KONTUR\r\nelse if(cnt_net_drv==8)\r\n\t{\r\n if(!bCAN_OFF)can1_out(cnt_net_drv,cnt_net_drv,((char)(&Uvv[0])),((char)((&Uvv[0]))+1),((char)(&Uvv[1])),((char)((&Uvv[1]))+1),0,bRESET_EXT);\r\n }\r\n\r\nelse if(cnt_net_drv==9)\r\n\t{\r\n if(!bCAN_OFF)can1_out(cnt_net_drv,cnt_net_drv,(char)main_vent_pos,((char)(&POWER_CNT_ADRESS)),((char)((&POWER_CNT_ADRESS))+1),0,0,0);\r\n }\r\n\r\nelse if(cnt_net_drv==10)\r\n\t{\r\n if(!bCAN_OFF)can1_out(cnt_net_drv,cnt_net_drv,0,0,0,0,0,0);\r\n }\r\n#endif\r\nelse if(cnt_net_drv==-4)\r\n\t{\r\n if(!bCAN_OFF)can1_out(GETTM_IBATMETER,GETTM_IBATMETER,0,0,0,0,0,0);\r\n ibat_metr_cnt++;\r\n\t}\r\n\r\nelse if(cnt_net_drv==-1)\r\n\t{\r\n if(!bCAN_OFF)can1_out(PUT_BDR,PUT_BDR,bdr_transmit_stat,bdr_transmit_stat,((char)((&UMAX))+1),((char)(&DU)),((char)((&DU))+1),0);\r\n plazma_pavlik++;\r\n\t}\r\n\r\n\r\n//oleg_start\r\nelse if( num_net_in && cnt_net_drv==-3) // запрос для сетевого ввода\r\n\t{\r\n if(!bCAN_OFF)\r\n\t\t{\r\n\t\tcan1_out(0xE6,0xE6,count_mess_net_in,command_net_in,0,0,0,0);\r\n\t\tcommand_net_in=0;\r\n\t\t++count_mess_net_in;\r\n\t\tif(count_mess_net_in>5) count_mess_net_in=0;\r\n\t\tif(no_net_in<NO_NET_IN) ++no_net_in;\r\n\t\telse {\r\n\t\t\tnet_in_u1_a=0;\r\n\t\t\tnet_in_u1_b=0;\r\n\t\t\tnet_in_u1_c=0;\r\n\t\t\tnet_in_i1_a=0;\r\n\t\t\tnet_in_i1_b=0;\r\n\t\t\tnet_in_i1_c=0;\r\n\t\t\tnet_in_p1_a=0;\r\n\t\t\tnet_in_p1_b=0;\r\n\t\t\tnet_in_p1_c=0;\r\n\t\t\tnet_in_s1_a=0;\r\n\t\t\tnet_in_s1_b=0;\r\n\t\t\tnet_in_s1_c=0;\r\n\t\t\tnet_in_f1=0; \r\n\t\t\tnet_in_u2_a=0;\r\n\t\t\tnet_in_u2_b=0;\r\n\t\t\tnet_in_u2_c=0;\r\n\t\t\tnet_in_i2_a=0;\r\n\t\t\tnet_in_i2_b=0;\r\n\t\t\tnet_in_i2_c=0;\r\n\t\t\tnet_in_p2_a=0;\r\n\t\t\tnet_in_p2_b=0;\r\n\t\t\tnet_in_p2_c=0;\r\n\t\t\tnet_in_s2_a=0;\r\n\t\t\tnet_in_s2_b=0;\r\n\t\t\tnet_in_s2_c=0;\r\n\t\t\tnet_in_f2=0;\r\n\t\t\tpriority_net_in=0;\r\n\t\t\tu_min_net_in=0; \r\n\t\t\tu_max_net_in=0; \r\n\t\t\ti_min_net_in=0;\r\n\t\t\thysteresis_net_in=0;\r\n\t\t\tt_inclusion_net_in=0;\r\n\t\t\tt_shutdown_net_in=0;\r\n\t\t}\r\n\t\t}\r\n }\r\nelse if( num_rki && cnt_net_drv==-2) // запрос для РКИ\t//rki_1_s\r\n\t{\r\n if(!bCAN_OFF)\r\n\t\t{\t\t\r\n\t\tcan1_out(0xE7,0xE7,count_mess_rki,command_rki,0,0,0,0);\r\n\t\tcommand_rki=0;\r\n\t\t++count_mess_rki;\r\n\t\tif( (type_rki==1 && count_mess_rki>6) \|\| (type_rki==0 && count_mess_rki>1) ) count_mess_rki=0;\t\r\n\t\tif(no_rki<NO_RKI) ++no_rki;\r\n\t\telse{\r\n\t\t\tchar v,z;\r\n\t\t\tr_iz_plus=0;\r\n\t\t\tr_iz_minus=0;\r\n\t\t\tr_iz_porog_pred=0;\r\n\t\t\tr_iz_porog_error=0;\r\n\t\t\tv_plus=0;\r\n\t\t\tv_minus=0;\r\n\t\t\tu_asymmetry=0; \t//o_3\r\n\t\t\tUbus=0;\t\t\t\t//o_3\r\n\t\t\tfor(v=0;v<24;v++){\tsk_alarm_table[v]=0; sk1_24_table[v]=0;\t} //o_3\r\n\t\t\tasymmetry=0;\r\n\t\t\tIddt_porog_pred=0;\r\n\t\t\tIddt_porog_error=0;\r\n\t\t\tasymmetry_porog=0;\r\n\t\t\tu_asymmetry_porog_up=0;\r\n\t\t\tu_asymmetry_porog=0;\r\n\t\t\tu_asymmetry_porog_down=0;\r\n\t\t\tporog_u_in=0;\r\n\t\t\tfor(v=0;v<8;v++) { \r\n\t\t\t\tfor(z=0;z<6;z++) Rddt[v][z]=0;\r\n\t\t\t}\r\n\t\t\tstatus_izm_r=0;\r\n\t\t\tsk_alarm=0;\r\n\t\t\tn_error_ddt_uku=0;\r\n\t\t\tcount_Iddt=0;\r\n\t\t\tddt_error=0;\r\n\t\t\t}\r\n\t\t}\r\n }\r\n//rki_1_e\r\n\t\t\r\n\r\n\r\n\r\n\r\n\r\nelse if(cnt_net_drv==12)\r\n\t{\r\n if(!bCAN_OFF)can1_out(0xff,0xff,MEM_KF,((char)(&UMAX)),((char)((&UMAX))+1),((char)(&DU)),((char)((&DU))+1),0);\r\n } \r\n \r\nelse if(cnt_net_drv==13)\r\n\t{\r\n if(!bCAN_OFF)can1_out(0xff,0xff,MEM_KF1,((char)(&TMAX)),((char)((&TMAX))+1),((char)(&TSIGN)),((char)((&TSIGN))+1),(char)TZAS);\r\n byps._cnt++;\r\n\t} \r\nelse if(cnt_net_drv==14)\r\n\t{ \r\n\tstatic char makb_cnt;\r\n\tmakb_cnt++;\r\n\tif(makb_cnt>=4)makb_cnt=0;\r\n if(!bCAN_OFF)can1_out(14,14,GET_MAKB,makb_cnt,makb_cnt,0,0,0);\r\n\tmakb[makb_cnt]._cnt++;\r\n\tif(makb[makb_cnt]._cnt>20)makb[makb_cnt]._cnt=20;\r\n\t}\r\n\t\r\n\t\r\nelse if(cnt_net_drv==15)\r\n\t{\r\n if(!bCAN_OFF)can1_out(0xff,0xff,MEM_KF1,((char)(&TMAX)),((char)((&TMAX))+1),((char)(&TSIGN)),((char)((&TSIGN))+1),(char)TZAS);\r\n }\r\n\r\n/\r\nelse if((cnt_net_drv>=MINIM_INV_ADRESS)&&(cnt_net_drv<(MINIM_INV_ADRESS+NUMINV))&&(NUMINV))\r\n\t{\r\n if(!bCAN_OFF) can1_out(cnt_net_drv,cnt_net_drv,GETTM,bps[cnt_net_drv]._flags_tu,((char)(&bps[cnt_net_drv]._vol_u)),((char)((&bps[cnt_net_drv]._vol_u))+1),((char)(&bps[cnt_net_drv]._vol_i)),((char)((&bps[cnt_net_drv]._vol_i))+1));\r\n\r\n\tif(bps[cnt_net_drv]._cnt<CNT_SRC_MAX)\r\n \t \t\t{ \r\n \t \t\tbps[cnt_net_drv]._cnt++;\r\n \t \t\tif( (bps[cnt_net_drv]._cnt>=CNT_SRC_MAX) && (!net_av) && (!(bps[cnt_net_drv]._av&0x08)) && (cnt_net_drv<NUMIST) ) \r\n \t \t\t\t{\r\n \t \t\t\tavar_bps_hndl(cnt_net_drv,3,1);\r\n \t \t\t\t}\r\n \t \t\t}\r\n\t\telse bps[cnt_net_drv]._cnt=CNT_SRC_MAX;\r\n\t\t\t\t\t\t\r\n\t\tif((bps[cnt_net_drv]._cnt>=3)&&(bps[cnt_net_drv]._cnt_old<3))bps[cnt_net_drv]._cnt_more2++;\r\n\t\tbps[cnt_net_drv]._cnt_old=bps[cnt_net_drv]._cnt;\r\n\t} \r\n/\t\r\n\t\r\n\r\nelse if(cnt_net_drv==19)\r\n\t{\r\n if(!bCAN_OFF)\r\n\t\t{\r\n\t\tcan1_out(cnt_net_drv,cnt_net_drv,GETTM,zTTBatteryHndlCmnd,zTTBatteryHndlCmnd,TELECORE2017_EXT_VENT_PWM,TELECORE2017_INT_VENT_PWM,0);\r\n\t\tzTTBatteryHndlCmnd=0;\r\n\t\tlakb[0]._cnt++;\r\n\t\tif(lakb[0]._cnt>20)lakb[0]._cnt=20;\r\n\t\t//lakb[1]._cnt++;\r\n\t\t//if(lakb[1]._cnt>20)lakb[1]._cnt=20;\r\n\t\tif(li_bat._canErrorCnt<20)li_bat._canErrorCnt++;\r\n\t\telse li_bat._canError=1;\r\n\t\t}\r\n }\r\n\t\r\n\t\r\nelse if((cnt_net_drv>=MINIM_INV_ADRESS)&&(cnt_net_drv<MINIM_INV_ADRESS+15))\r\n\t{\r\n\tif(!bCAN_OFF)\r\n\t\t{\r\n\t\tif(bCAN_INV)\r\n\t\t\t{\r\n\t\t\t\r\n\t\t\tcan1_out(cnt_net_drv,cnt_net_drv,GETTM,bps[cnt_net_drv]._flags_tu,((char)(&bps[cnt_net_drv]._vol_u)),((char)((&bps[cnt_net_drv]._vol_u))+1),((char)(&bps[cnt_net_drv]._vol_i)),((char)((&bps[cnt_net_drv]._vol_i))+1));\r\n \t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\t\r\n\t\t\tcan1_out(cnt_net_drv,cnt_net_drv,GETTM_INV,bps[cnt_net_drv]._flags_tu,((char)(&bps[cnt_net_drv]._vol_u)),((char)((&bps[cnt_net_drv]._vol_u))+1),((char)(&bps[cnt_net_drv]._vol_i)),((char)((&bps[cnt_net_drv]._vol_i))+1));\r\n \t\t} \r\n\t\t}\r\n\t//if(cnt_net_drv<=11)\r\n\t {\r\n\t if(bps[cnt_net_drv]._cnt<CNT_SRC_MAX)\r\n \t \t\t{ \r\n \t \t\tbps[cnt_net_drv]._cnt++;\r\n \t \t/\tif( (bps[cnt_net_drv]._cnt>=CNT_SRC_MAX) && (!net_av) && (!(bps[cnt_net_drv]._av&0x08)) && (cnt_net_drv<NUMIST) ) \r\n \t \t\t\t{\r\n \t \t\t\tavar_bps_hndl(cnt_net_drv,3,1);\r\n \t \t\t\t}/\r\n \t \t\t}\r\n\t\telse bps[cnt_net_drv]._cnt=CNT_SRC_MAX;\r\n\t\t\t\t\t\t\r\n\t\tif((bps[cnt_net_drv]._cnt>=3)&&(bps[cnt_net_drv]._cnt_old<3))bps[cnt_net_drv]._cnt_more2++;\r\n\t\tbps[cnt_net_drv]._cnt_old=bps[cnt_net_drv]._cnt;\r\n\t }\r\n\t}\r\n\r\n\r\n/\r\n\r\nelse if((cnt_net_drv==MINIM_INV_ADRESS+2)&&(NUMINV))\r\n\t{\r\n if(!bCAN_OFF) can1_out(cnt_net_drv,cnt_net_drv,0,0,0,0,0,0);\r\n\t}/\r\n\r\n\r\n}\r\n\r\n#ifdef MCP2515_CAN\r\n\r\n//-----------------------------------------------\r\nvoid net_drv_mcp2515(void)\r\n{ \r\n//char temp_; \r\n\r\n\r\n\r\nmax_net_slot=MINIM_INV_ADRESS+20;\r\n//if(NUMINV) max_net_slot=MINIM_INV_ADRESS+NUMINV;\r\n//gran_char(&max_net_slot,0,MAX_NET_ADRESS);\r\n\r\nif(++cnt_net_drv>max_net_slot) \r\n\t{\r\n\tcnt_net_drv=0;\r\n\t//LPC_GPIO2->FIODIR\|=(1UL<<7);\r\n\t//LPC_GPIO2->FIOPIN^=(1UL<<7);\r\n\tif(bCAN_INV)bCAN_INV=0;\r\n\telse bCAN_INV=1;\r\n\r\n\t} \r\n\r\n\r\n#ifndef UKU_KONTUR\r\nif(cnt_net_drv<=17) // с 1 по 17 посылки адресные\r\n#endif\r\n#ifdef UKU_KONTUR\r\nif(cnt_net_drv<=7) // с 1 по 12 посылки адресные\r\n#endif\r\n\t{ \r\n\tif(mess_find_unvol(MESS2NET_DRV))\r\n\t\t{\r\n\t\tif(mess_data[0]==PARAM_BPS_NET_OFF)\r\n\t\t\t{\r\n\t\t\t//mess_data[1]=1;\r\n\t\t\tif(sub_ind1==cnt_net_drv)\r\n\t\t\t\t{\r\n\t\t\t\treturn;\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t}\r\n\t\t\t \r\n\tif(!bCAN_OFF)mcp2515_transmit(cnt_net_drv,cnt_net_drv,GETTM,bps[cnt_net_drv]._flags_tu,((char)(&bps[cnt_net_drv]._vol_u)),((char)((&bps[cnt_net_drv]._vol_u))+1),((char)(&bps[cnt_net_drv]._vol_i)),((char)((&bps[cnt_net_drv]._vol_i))+1));\r\n \r\n\tif(cnt_net_drv<=17)\r\n\t {\r\n\t if(bps[cnt_net_drv]._cnt<CNT_SRC_MAX)\r\n \t \t\t{ \r\n \t \t\tbps[cnt_net_drv]._cnt++;\r\n \t \t\tif( (bps[cnt_net_drv]._cnt>=CNT_SRC_MAX) && (!net_av) && (!(bps[cnt_net_drv]._av&0x08)) && (cnt_net_drv<NUMIST) ) \r\n \t \t\t\t{\r\n \t \t\t\tavar_bps_hndl(cnt_net_drv,3,1);\r\n \t \t\t\t}\r\n \t \t\t}\r\n\t\telse bps[cnt_net_drv]._cnt=CNT_SRC_MAX;\r\n\t\t\t\t\t\t\r\n\t\tif((bps[cnt_net_drv]._cnt>=3)&&(bps[cnt_net_drv]._cnt_old<3))bps[cnt_net_drv]._cnt_more2++;\r\n\t\tbps[cnt_net_drv]._cnt_old=bps[cnt_net_drv]._cnt;\r\n\t }\r\n\t}\r\n\r\n\r\n\r\n/\r\nelse if((cnt_net_drv>=MINIM_INV_ADRESS)&&(cnt_net_drv<(MINIM_INV_ADRESS+NUMINV))&&(NUMINV))\r\n\t{\r\n if(!bCAN_OFF) can1_out(cnt_net_drv,cnt_net_drv,GETTM,bps[cnt_net_drv]._flags_tu,((char)(&bps[cnt_net_drv]._vol_u)),((char)((&bps[cnt_net_drv]._vol_u))+1),((char)(&bps[cnt_net_drv]._vol_i)),((char)((&bps[cnt_net_drv]._vol_i))+1));\r\n\r\n\tif(bps[cnt_net_drv]._cnt<CNT_SRC_MAX)\r\n \t \t\t{ \r\n \t \t\tbps[cnt_net_drv]._cnt++;\r\n \t \t\tif( (bps[cnt_net_drv]._cnt>=CNT_SRC_MAX) && (!net_av) && (!(bps[cnt_net_drv]._av&0x08)) && (cnt_net_drv<NUMIST) ) \r\n \t \t\t\t{\r\n \t \t\t\tavar_bps_hndl(cnt_net_drv,3,1);\r\n \t \t\t\t}\r\n \t \t\t}\r\n\t\telse bps[cnt_net_drv]._cnt=CNT_SRC_MAX;\r\n\t\t\t\t\t\t\r\n\t\tif((bps[cnt_net_drv]._cnt>=3)&&(bps[cnt_net_drv]._cnt_old<3))bps[cnt_net_drv]._cnt_more2++;\r\n\t\tbps[cnt_net_drv]._cnt_old=bps[cnt_net_drv]._cnt;\r\n\t} \r\n/\t\r\n\t\r\n\r\nelse if(cnt_net_drv==19)\r\n\t{\r\n if(!bCAN_OFF)\r\n\t\t{\r\n\t\tmcp2515_transmit(cnt_net_drv,cnt_net_drv,GETTM,BAT_TYPE,NUMBAT,0,0,0);\r\n\t\tlakb[0]._cnt++;\r\n\t\tif(lakb[0]._cnt>20)lakb[0]._cnt=20;\r\n\t\tlakb[1]._cnt++;\r\n\t\tif(lakb[1]._cnt>20)lakb[1]._cnt=20;\r\n\t\t}\r\n }\r\n\t\r\n\t\r\nelse if((cnt_net_drv>=MINIM_INV_ADRESS)&&(cnt_net_drv<MINIM_INV_ADRESS+15))\r\n\t{\r\n\tif(!bCAN_OFF)\r\n\t\t{\r\n\t\tif(bCAN_INV)\r\n\t\t\t{\r\n\t\t\t\r\n\t\t\tmcp2515_transmit(cnt_net_drv,cnt_net_drv,GETTM,bps[cnt_net_drv]._flags_tu,((char)(&bps[cnt_net_drv]._vol_u)),((char)((&bps[cnt_net_drv]._vol_u))+1),((char)(&bps[cnt_net_drv]._vol_i)),((char)((&bps[cnt_net_drv]._vol_i))+1));\r\n \t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\t\r\n\t\t\tmcp2515_transmit(cnt_net_drv,cnt_net_drv,GETTM_INV,bps[cnt_net_drv]._flags_tu,((char)(&bps[cnt_net_drv]._vol_u)),((char)((&bps[cnt_net_drv]._vol_u))+1),((char)(&bps[cnt_net_drv]._vol_i)),((char)((&bps[cnt_net_drv]._vol_i))+1));\r\n \t\t} \r\n\t\t}\r\n\t//if(cnt_net_drv<=11)\r\n\t {\r\n\t if(bps[cnt_net_drv]._cnt<CNT_SRC_MAX)\r\n \t \t\t{ \r\n \t \t\tbps[cnt_net_drv]._cnt++;\r\n \t \t/\tif( (bps[cnt_net_drv]._cnt>=CNT_SRC_MAX) && (!net_av) && (!(bps[cnt_net_drv]._av&0x08)) && (cnt_net_drv<NUMIST) ) \r\n \t \t\t\t{\r\n \t \t\t\tavar_bps_hndl(cnt_net_drv,3,1);\r\n \t \t\t\t}/\r\n \t \t\t}\r\n\t\telse bps[cnt_net_drv]._cnt=CNT_SRC_MAX;\r\n\t\t\t\t\t\t\r\n\t\tif((bps[cnt_net_drv]._cnt>=3)&&(bps[cnt_net_drv]._cnt_old<3))bps[cnt_net_drv]._cnt_more2++;\r\n\t\tbps[cnt_net_drv]._cnt_old=bps[cnt_net_drv]._cnt;\r\n\t }\r\n\t}\r\n\r\n\r\n#ifdef UKU_KONTUR\r\nelse if(cnt_net_drv==MINIM_INV_ADRESS+16)\r\n\t{\r\n if(!bCAN_OFF)can1_out(cnt_net_drv,cnt_net_drv,((char)(&Uvv[0])),((char)((&Uvv[0]))+1),((char)(&Uvv[1])),((char)((&Uvv[1]))+1),0,bRESET_EXT);\r\n }\r\n\r\nelse if(cnt_net_drv==MINIM_INV_ADRESS+17)\r\n\t{\r\n if(!bCAN_OFF)can1_out(cnt_net_drv,cnt_net_drv,(char)main_vent_pos,((char)(&POWER_CNT_ADRESS)),((char)((&POWER_CNT_ADRESS))+1),0,0,0);\r\n }\r\n\r\nelse if(cnt_net_drv==MINIM_INV_ADRESS+18)\r\n\t{\r\n if(!bCAN_OFF)can1_out(cnt_net_drv,cnt_net_drv,0,0,0,0,0,0);\r\n }\r\n#endif\r\nelse if(cnt_net_drv==MINIM_INV_ADRESS+16)\r\n\t{\r\n if(!bCAN_OFF)mcp2515_transmit(0xff,0xff,MEM_KF,((char)(&UMAX)),((char)((&UMAX))+1),((char)(&DU)),((char)((&DU))+1),0);\r\n } \r\n \r\nelse if(cnt_net_drv==MINIM_INV_ADRESS+17)\r\n\t{\r\n if(!bCAN_OFF)mcp2515_transmit(0xff,0xff,MEM_KF1,((char)(&TMAX)),((char)((&TMAX))+1),((char)(&TSIGN)),((char)((&TSIGN))+1),(char)TZAS);\r\n byps._cnt++;\r\n\t} \r\nelse if(cnt_net_drv==MINIM_INV_ADRESS+18)\r\n\t{ \r\n\tstatic char makb_cnt;\r\n\tmakb_cnt++;\r\n\tif(makb_cnt>=4)makb_cnt=0;\r\n if(!bCAN_OFF)mcp2515_transmit(MINIM_INV_ADRESS+18,MINIM_INV_ADRESS+18,GET_MAKB,makb_cnt,makb_cnt,0,0,0);\r\n\tmakb[makb_cnt]._cnt++;\r\n\tif(makb[makb_cnt]._cnt>20)makb[makb_cnt]._cnt=20;\r\n\t}\r\n\t\r\n\t\r\nelse if(cnt_net_drv==MINIM_INV_ADRESS+19)\r\n\t{\r\n if(!bCAN_OFF)mcp2515_transmit(0xff,0xff,MEM_KF1,((char)(&TMAX)),((char)((&TMAX))+1),((char)(&TSIGN)),((char)((&TSIGN))+1),(char)TZAS);\r\n }\r\n\r\n\r\n/\r\n\r\nelse if((cnt_net_drv==MINIM_INV_ADRESS+2)&&(NUMINV))\r\n\t{\r\n if(!bCAN_OFF) can1_out(cnt_net_drv,cnt_net_drv,0,0,0,0,0,0);\r\n\t}/\r\n\r\n\r\n}\r\n#endif\r\n//-----------------------------------------------\r\nvoid parol_init(void)\r\n{\r\nparol[0]=0;\r\nparol[1]=0;\r\nparol[2]=0;\r\nsub_ind=0;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid bitmap_hndl(void)\r\n{\r\nshort x,ii,i;\r\nunsigned int ptr_bitmap;\r\nstatic char ptr_cnt,ptr_cnt1,ptr_cnt2,ptr_cnt3,ptr_cnt4;\r\n\r\nfor(ii=0;ii<488;ii++)\r\n\t{\r\n\tlcd_bitmap[ii]=0x00;\r\n\t}\r\n\r\nif((!mnemo_cnt)&&((NUMBAT==0)\|\|((NUMBAT==1)&&(BAT_IS_ON[0]==bisON))))\r\n\t{\r\n\tif(avar_stat&0x0001)\r\n\t\t{\r\n\t\tif(bFL2)\r\n\t\t\t{\r\n\t\t\tgraphic_print(3,3,50,24,50,3,sAVNET,0);\r\n\t\t\tgraphic_print(3,3,50,24,50,3,sAVNET1,0);\r\n\t\t\t}\r\n\t\t}\r\n\telse\r\n\t\t{\r\n\r\n\t\tif(NUMIST>=1)\r\n\t\t\t{\r\n/\r\n\r\n\tif(bps[sub_ind1]._state==bsWRK)\r\n\t\t{\r\n\t\tptr[0]=\t\t\" в работе \";\r\n\t\tif((bps[sub_ind1]._flags_tm&0x08)&&(bFL2))\r\n\t\tptr[0]=\t\t\" СИЛЬНЫЙ НАГРЕВ!!! \";\t \r\n\t\t}\r\n \t else if(bps[sub_ind1]._state==bsRDY)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" в резерве \";\t\r\n\t\t}\r\n\r\n \t else if(bps[sub_ind1]._state==bsBL)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" заблокирован извне \";\t\r\n\t\t}\r\n\r\n\t else if(bps[sub_ind1]._state==bsAPV)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" Работает АПВ \";\r\n\t\t}\r\n\t \r\n\t else if(bps[sub_ind1]._state==bsAV)\r\n\t \t{\r\n\t\tif(bps[sub_ind1]._av&(1<<0))\r\n\t\tptr[0]=\t\t\" Авария - перегрев! \";\r\n\t\telse if(bps[sub_ind1]._av&(1<<1))\r\n\t\tptr[0]=\t\t\"Авария - завыш.Uвых!\";\r\n\t\telse if(bps[sub_ind1]._av&(1<<2))\t \r\n\t\tptr[0]=\t\t\"Авария - заниж.Uвых!\";\r\n\t\telse if(bps[sub_ind1]._av&(1<<3))\r\n\t\t\t{\r\n\t\t\tptr[0]=\t\" Авария - потеряна \";\r\n\t\t\tptr[1]=\t\" связь!!! \";\r\n\t\t\tptr[2]=\t\" \";\r\n\t\t\tsimax=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\t else if(bps[sub_ind1]._state==bsOFF_AV_NET)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" ВЫКЛЮЧЕН \";\r\n\t\tptr[1]=\t\t\" Отсутствует \";\r\n\t\tptr[2]=\t\t\" первичное питание! \";\r\n\t\tsimax=0;\r\n\t\t}\r\n\r\n\tbgnd_par(\t\t\t\" БПС N& \",\r\n\t\t\t\t\tptr[index_set],\r\n\t\t\t\t\tptr[index_set+1],\r\n\t\t\t\t\tptr[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\r\n\tif(sub_ind>=4)\tpointer_set(1);/\r\n\r\n\r\n\t\t\tdraw_rectangle(0,0,20,20,0,0);\r\n\t\t\tdraw_rectangle(1,1,18,18,0,0);\r\n\t\t\tif(bps[0]._state!=bsAV)\r\n\t\t\t\t{\r\n\t\t\t\tgraphic_print(3,2,15,15,15,2,sBPS1,0);\r\n\t\t\t\t}\r\n\t\t\telse if(bps[0]._av&(1<<0))\r\n\t\t\t\t{\r\n\t\t\t\tif(bFL2)graphic_print(3,2,15,15,15,2,sAVT,0);\r\n\t\t\t\t}\r\n\t\t\telse if( (bps[0]._av&(1<<1)) \|\| (bps[0]._av&(1<<2)))\r\n\t\t\t\t{\r\n\t\t\t\tif(bFL2)graphic_print(2,2,15,15,15,2,sAVU,0);\r\n\t\t\t\t}\t\r\n\t\t\t\r\n\t\t\tif(bps[0]._state==bsWRK)\r\n\t\t\t\t{\r\n\t\t\t\tdraw(9,20,0,11,0);\r\n\t\t\t\tdraw(9,31,91,0,0);\r\n\t\t\t\tdraw_ptr(9,19+ptr_cnt1,0,4);\r\n\t\t\t\t}\t\t\t\t\r\n\t\t\t}\r\n\t\tif(NUMIST>=2)\r\n\t\t\t{\r\n\t\t\tdraw_rectangle(23,0,20,20,0,0);\r\n\t\t\tdraw_rectangle(24,1,18,18,0,0);\r\n\t\t\tif(bps[1]._state!=bsAV)\r\n\t\t\t\t{\r\n\t\t\t\tgraphic_print(25,2,15,15,15,2,sBPS2,0);\r\n\t\t\t\t}\r\n\t\t\telse if(bps[1]._av&(1<<0))\r\n\t\t\t\t{\r\n\t\t\t\tif(bFL2)graphic_print(25,2,15,15,15,2,sAVT,0);\r\n\t\t\t\t}\r\n\t\t\telse if( (bps[1]._av&(1<<1)) \|\| (bps[1]._av&(1<<2)))\r\n\t\t\t\t{\r\n\t\t\t\tif(bFL2)graphic_print(25,2,15,15,15,2,sAVU,0);\r\n\t\t\t\t}\t\r\n\t\t\t\r\n\t\t\tif(bps[1]._state==bsWRK)\r\n\t\t\t\t{\r\n\t\t\t\tdraw(32,20,0,11,0);\r\n\t\t\t\tdraw(32,31,68,0,0);\r\n\t\t\t\tdraw_ptr(32,19+ptr_cnt1,0,4);\r\n\t\t\t\t}\t\t\t\t\r\n\t\t\t}\t\t\t\r\n\t\t}\r\n\tif(NUMBAT)\r\n\t\t{\r\n\t\tdraw_rectangle(50,0,35,20,0,0);\r\n\t\tdraw_rectangle(53,20,3,2,0,0);\r\n\t\tdraw_rectangle(79,20,3,2,0,0);\r\n\t\tif(bat[0]._av&0x01)\r\n\t\t\t{\r\n\t\t\tif(bFL2)graphic_print(43,0,50,24,50,3,sAVNET1,0);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tdraw(66,20,0,11,0);\r\n\t\t\tdraw(66,31,34,0,0);\r\n\t\t\tif(bat[0]._Ib<0)draw_ptr(66,19+ptr_cnt1,0,4);\r\n\t\t\telse if(bat[0]._Ib>=0)draw_ptr(66,34-ptr_cnt1,2,4);\r\n\t\t\t\r\n\t\t\tif(ptr_cnt4<15)\r\n\t\t\t\t{\r\n\t\t\t\tif(BAT_C_REAL[0]!=0x5555)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsigned short u;\r\n\t\t\t\t\tu=(((signed short)bat[0]._zar/5));\r\n\t\t\t\t\tgran(&u,0,20);\r\n\t\t\t\t\tdraw_rectangle(51,0,32,u,1,0);\r\n\t\t\t\t\t//zar_percent=100;\r\n\t\t\t\t\tif(bat[0]._zar<10)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tdraw_rectangle(61,5,12,9,1,2);\r\n\t\t\t\t\t\tgraphic_print_text(61,5,\" %\",2,bat[0]._zar,0,1,1);\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\telse if(bat[0]._zar<100)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tdraw_rectangle(58,5,18,9,1,2);\r\n\t\t\t\t\t\tgraphic_print_text(58,5,\" %\",3,bat[0]._zar,0,2,1);\r\n\t\t\t\t\t\t}\t\t\r\n\t\t\t\t\telse \r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tdraw_rectangle(55,5,24,9,1,2);\r\n\t\t\t\t\t\tgraphic_print_text(55,5,\" %\",4,bat[0]._zar,0,3,1);\r\n\t\t\t\t\t\t}\t\t\t\t\t\t\t\t\t\r\n\t\t\t\t\t//draw_rectangle(59,3,18,9,1,2);\r\n\t\t\t\t\t//graphic_print_text(53,3,\" %\",4,zar_percent,0,3,1);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\t}\t\t\t\t\r\n\t\t\telse if(ptr_cnt4<30)\r\n\t\t\t\t{\r\n\t\t\t\tgraphic_print_text(58,5,\" A\",4,bat[0]._Ib/10,1,3,1);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\tgraphic_print_text_text(53,5,\"ACCИМ\",5,bat[0]._Ib/10,1,3,1);\r\n\t\t\t\t}\r\n\t\t\t//graphic_print_text_text(53,5,\"ACCИМ\",5,bat[0]._Ib/10,1,3,1);\r\n\t\t\t\t\t\r\n\t\t\t}\r\n\r\n\t\t}\t\r\n\t\t\r\n\r\n\tdraw_rectangle(92,4,27,14,0,0);\r\n\tdraw(92,10,-4,0,0);\r\n\tdraw(118,10,4,0,0);\r\n\tdraw(67,31,39,0,0);\r\n\tdraw(105,31,0,-14,0);\t\r\n\tdraw_ptr(105,34-ptr_cnt3,2,4);\r\n\t\r\n\tgraphic_print_text(70,22,\" B\",5,/ind_reset_cnt/load_U/10,0,4,1);\r\n\tif(load_I<100)graphic_print_text(93,7,\" A\",4,load_I,1,3,1);\r\n\telse graphic_print_text(90,7,\" A\",4,load_I/10,0,3,1);\r\n\t\t\t\r\n\tptr_cnt++;\r\n\tif(ptr_cnt>=3)\r\n\t\t{\r\n\t\tptr_cnt=0;\r\n\t\tptr_cnt1++;\r\n\t\tif(ptr_cnt1>=13)\r\n\t\t\t{\r\n\t\t\tptr_cnt1=0;\r\n\t\t\t}\r\n\t\r\n\t\tptr_cnt2++;\r\n\t\tif(ptr_cnt2>=32)\r\n\t\t\t{\r\n\t\t\tptr_cnt2=0;\r\n\t\t\t}\r\n\t\t\t\t\r\n\t\tptr_cnt3++;\r\n\t\tif(ptr_cnt3>=15)\r\n\t\t\t{\r\n\t\t\tptr_cnt3=0;\r\n\t\t\t}\r\n\r\n\t\tptr_cnt4++;\r\n\t\tif(bat[0]._av&0x02)\r\n\t\t\t{\r\n\t\t\tif(ptr_cnt4>=45)\r\n\t\t\t\t{\r\n\t\t\t\tptr_cnt4=0;\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tif(ptr_cnt4>=30)\r\n\t\t\t\t{\r\n\t\t\t\tptr_cnt4=0;\r\n\t\t\t\t}\t\t\t\t\t\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse\r\n\t{\r\n\tfor(i=0;i<4;i++)\r\n\t\t{\r\n\t\tptr_bitmap=122(unsigned)i;\r\n\t\tfor(x=(20i);x<((20i)+20);x++)\r\n\t \t\t{\r\n\t\t\tlcd_bitmap[ptr_bitmap++]=caracter[(unsigned)lcd_buffer[x]6];\r\n\t\t\tlcd_bitmap[ptr_bitmap++]=caracter[((unsigned)lcd_buffer[x]6)+1];\r\n\t\t\tlcd_bitmap[ptr_bitmap++]=caracter[((unsigned)lcd_buffer[x]6)+2];\r\n\t\t\tlcd_bitmap[ptr_bitmap++]=caracter[((unsigned)lcd_buffer[x]6)+3];\r\n\t\t\tlcd_bitmap[ptr_bitmap++]=caracter[((unsigned)lcd_buffer[x]6)+4];\r\n\t\t\tlcd_bitmap[ptr_bitmap++]=caracter[((unsigned)lcd_buffer[x]6)+5];\r\n\t\t\t} \r\n\t\t}\r\n\t}\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid ind_hndl(void)\r\n{\r\n//const char ptr;\r\nconst char* ptrs[90];\t\t//oleg_start было 60\r\nconst char* sub_ptrs[250];\t//oleg_start было 50\r\nstatic char sub_cnt,sub_cnt1;\r\nchar i,sub_cnt_max;\r\nchar ii_;\t\t\t\t \r\nstatic char ii_cnt,cnt_ind_bat;\r\n\r\n\r\n\t \r\nsub_cnt_max=5;\r\ni=0;\r\n\t \r\nif(spc_stat==spcVZ)\r\n\t{\r\n\tsub_ptrs[i++]=\t\t\" Выравн.заряд X:0x \";\r\n\tsub_cnt_max++;\r\n\t}\r\nif(hv_vz_stat!=hvsOFF)\r\n\t{\r\n\tsub_ptrs[i++]=\t\t\" Спец.выр.зар. X:0x \";\r\n\tsub_cnt_max++;\r\n\t}\r\nif(sp_ch_stat==scsWRK)\r\n\t{\r\n\tsub_ptrs[i++]=\t\t\" Ускор. заряд. X:0x \";\r\n\tsub_cnt_max++;\r\n\t}\r\nif(vz1_stat==vz1sWRK)\r\n\t{\r\n\tsub_ptrs[i++]=\t\t\" Уравн. заряд. X:0x \";\r\n\tsub_cnt_max++;\r\n\t}\r\nif((vz2_stat==vz2sWRK1))\r\n\t{\r\n\tsub_ptrs[i++]=\t\t\"Формов.зар. ф1 X:0x \";\r\n\tsub_cnt_max++;\r\n\t}\r\n\r\nif((vz2_stat==vz2sWRK2))\r\n\t{\r\n\tsub_ptrs[i++]=\t\t\"Формов.зар. ф2 X:0x \";\r\n\tsub_cnt_max++;\r\n\t}\r\n\r\nif(spc_stat==spcKE)\r\n\t{\r\n\tif(spc_bat==0)\t\tsub_ptrs[i++]=\t\t\"Контроль емк. бат №1\";\r\n\telse if(spc_bat==1)\tsub_ptrs[i++]=\t\t\"Контроль емк. бат №2\";\r\n\tsub_cnt_max++;\r\n\t}\t\r\nif(avar_stat&0x0001)\r\n\t{\r\n\tsub_ptrs[i++]=\t\t\" Авария сети!!! \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\n\r\nif(avar_stat&0x0002)\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария батареи №1 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\nif(avar_stat&0x0004)\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария батареи №2 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\nif(ips_bat_av_stat)\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария батареи \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+0)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №1 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+1)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №2 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+2)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №3 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+3)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №4 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+4)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №5 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+5)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №6 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+6)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №7 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+7)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №8 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\n#ifdef UKU_KONTUR\r\nif((avar_stat&(1<<(25)))&&(SK_LCD_EN[0]))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Открыта дверь!! \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\nif((avar_stat&(1<<(26)))&&(SK_LCD_EN[1]))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Сработал датч. дыма \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\nif((avar_stat&(1<<(27)))&&(SK_LCD_EN[2]))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Сработал датч. удара\";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n#endif\r\n\r\n#ifdef UKU_TELECORE2015\r\nif((avar_stat&(1<<(25)))&&(SK_LCD_EN[0]))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Открыта дверь!! \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\nif((avar_stat&(1<<(26)))&&(SK_LCD_EN[1]))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Сработал датч. дыма \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\nif((avar_stat&(1<<(27)))&&(SK_LCD_EN[2]))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Сработал датч. удара\";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n#endif\r\n\r\n//#ifdef UKU_GLONASS\r\nif((sk_av_stat[0]==sasON)&&(NUMSK)&&(!SK_LCD_EN[0]))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Сработал СК№1 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif((sk_av_stat[1]==sasON)&&(NUMSK>1)&&(!SK_LCD_EN[1]))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Сработал СК№2 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif((sk_av_stat[2]==sasON)&&(NUMSK>2)&&(!SK_LCD_EN[2]))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Сработал СК№3 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif((sk_av_stat[3]==sasON)&&(NUMSK>3)&&(!SK_LCD_EN[3]))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Сработал СК№4 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n//#endif\r\n/if((avar_stat&(1<<(28)))&&(SK_LCD_EN[3]))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария СК №4 \";\r\n\tsub_cnt_max++;\t\r\n\t} /\r\n\r\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\nif(speedChIsOn)\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Ускоренный заряд!! \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\nif(ipsBlckStat)\r\n\t{\r\n\tsub_ptrs[i++]=\t\" ИПС заблокирован! \";\r\n\tsub_cnt_max++;\t\r\n\r\n\t}\r\n\r\n#endif\r\n\r\nif((kb_full_ver)\|\|(kb_cnt_2lev)\|\|(kb_cnt_1lev))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Проверка цепи АКБ \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\nif(uout_av)\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария Uвых!!! \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\nif(bps[0]._av&(1<<4))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Ресурс вент. БПС1 \";\r\n\tsub_cnt_max++;\r\n\tsub_ptrs[i++]=\t\" исчерпан \";\r\n\tsub_cnt_max++;\t\t\r\n\t}\r\nif(bps[1]._av&(1<<4))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Ресурс вент. БПС2 \";\r\n\tsub_cnt_max++;\r\n\tsub_ptrs[i++]=\t\" исчерпан \";\r\n\tsub_cnt_max++;\t\t\r\n\t}\r\nif(bps[2]._av&(1<<4))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Ресурс вент. БПС3 \";\r\n\tsub_cnt_max++;\r\n\tsub_ptrs[i++]=\t\" исчерпан \";\r\n\tsub_cnt_max++;\t\t\r\n\t}\r\nif(bps[3]._av&(1<<4))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Ресурс вент. БПС4 \";\r\n\tsub_cnt_max++;\r\n\tsub_ptrs[i++]=\t\" исчерпан \";\r\n\tsub_cnt_max++;\t\t\r\n\t}\r\nif(bps[4]._av&(1<<4))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Ресурс вент. БПС5 \";\r\n\tsub_cnt_max++;\r\n\tsub_ptrs[i++]=\t\" исчерпан \";\r\n\tsub_cnt_max++;\t\t\r\n\t}\r\nif(bps[5]._av&(1<<4))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Ресурс вент. БПС6 \";\r\n\tsub_cnt_max++;\r\n\tsub_ptrs[i++]=\t\" исчерпан \";\r\n\tsub_cnt_max++;\t\t\r\n\t}\r\nif(bps[6]._av&(1<<4))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Ресурс вент. БПС7 \";\r\n\tsub_cnt_max++;\r\n\tsub_ptrs[i++]=\t\" исчерпан \";\r\n\tsub_cnt_max++;\t\t\r\n\t}\r\nif(bps[7]._av&(1<<4))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Ресурс вент. БПС8 \";\r\n\tsub_cnt_max++;\r\n\tsub_ptrs[i++]=\t\" исчерпан \";\r\n\tsub_cnt_max++;\t\t\r\n\t}\r\nif(bps[8]._av&(1<<4))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Ресурс вент. БПС9 \";\r\n\tsub_cnt_max++;\r\n\tsub_ptrs[i++]=\t\" исчерпан \";\r\n\tsub_cnt_max++;\t\t\r\n\t}\r\nif(bps[9]._av&(1<<4))\r\n\t{\r\n\tsub_ptrs[i++]=\t\"Ресурс вент. БПС10 \";\r\n\tsub_cnt_max++;\r\n\tsub_ptrs[i++]=\t\" исчерпан \";\r\n\tsub_cnt_max++;\t\t\r\n\t}\r\n#endif\r\n\r\n// oleg_start\r\n//status_izm_r=0xff;\r\n//sk_alarm=0xFFffff;\r\n//status_di1=0xFFffff;\r\n//status_di2=0xFFffff;\r\n\r\nif(status_izm_r&0x02){\r\n\tsub_ptrs[i++]=\t\"РКИ Rиз+ <Rаварии \";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_izm_r&0x01){\r\n\tsub_ptrs[i++]=\t\"РКИ Rиз+ <Rпредупр.\";\r\n\tsub_cnt_max++;\r\n}\r\n\r\nif(status_izm_r&0x08){\r\n\tsub_ptrs[i++]=\t\"РКИ Rиз- <Rаварии \";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_izm_r&0x04){\r\n\tsub_ptrs[i++]=\t\"РКИ Rиз- <Rпредупр.\";\r\n\tsub_cnt_max++;\r\n}\r\n\r\nif(status_izm_r&0x0710){\r\n\tsub_ptrs[i++]=\t\"РКИ асимметрия \";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_izm_r&0x20){\r\n\tsub_ptrs[i++]=\t\"РКИ Uшины<Uмин \";\r\n\tsub_cnt_max++;\r\n}\r\n//*****************\r\nif(sk_alarm&0x01){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК1 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x02){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК2 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x04){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК3 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x08){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК4 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x10){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК5 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x20){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК6 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x40){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК7 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x80){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК8 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x100){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК9 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x200){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК10 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x400){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК11 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x800){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК12 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x1000){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК13 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x2000){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК14 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x4000){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК15 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x8000){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК16 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x10000){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК17 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x20000){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК18 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x40000){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК19 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x80000){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК20 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x100000){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК21 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x200000){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК22 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x400000){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК23 \";\r\n\tsub_cnt_max++;\r\n}\r\nif(sk_alarm&0x800000){\r\n\tsub_ptrs[i++]=\t\"РКИ авария СК24 \";\r\n\tsub_cnt_max++;\r\n}\r\n//*******\r\n/ //o_3\t //можно удалить\r\nif(status_di2&0x01){\r\n\tsub_ptrs[i++]=\t\"РКИ I1ддт > Iаварии \";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x01){\r\n\tsub_ptrs[i++]=\t\"РКИ I1ддт > Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x02){\r\n\tsub_ptrs[i++]=\t\"РКИ I2ддт > Iаварии \";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x02){\r\n\tsub_ptrs[i++]=\t\"РКИ I2ддт > Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x04){\r\n\tsub_ptrs[i++]=\t\"РКИ I3ддт > Iаварии \";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x04){\r\n\tsub_ptrs[i++]=\t\"РКИ I3ддт > Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x08){\r\n\tsub_ptrs[i++]=\t\"РКИ I4ддт > Iаварии \";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x08){\r\n\tsub_ptrs[i++]=\t\"РКИ I4ддт > Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x10){\r\n\tsub_ptrs[i++]=\t\"РКИ I5ддт > Iаварии \";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x10){\r\n\tsub_ptrs[i++]=\t\"РКИ I5ддт > Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x20){\r\n\tsub_ptrs[i++]=\t\"РКИ I6ддт > Iаварии \";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x20){\r\n\tsub_ptrs[i++]=\t\"РКИ I6ддт > Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x40){\r\n\tsub_ptrs[i++]=\t\"РКИ I7ддт > Iаварии \";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x40){\r\n\tsub_ptrs[i++]=\t\"РКИ I7ддт > Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x80){\r\n\tsub_ptrs[i++]=\t\"РКИ I8ддт > Iаварии \";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x80){\r\n\tsub_ptrs[i++]=\t\"РКИ I8ддт > Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x100){\r\n\tsub_ptrs[i++]=\t\"РКИ I9ддт > Iаварии \";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x100){\r\n\tsub_ptrs[i++]=\t\"РКИ I9ддт > Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x200){\r\n\tsub_ptrs[i++]=\t\"РКИ I10ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x200){\r\n\tsub_ptrs[i++]=\t\"РКИ I10ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x400){\r\n\tsub_ptrs[i++]=\t\"РКИ I11ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x400){\r\n\tsub_ptrs[i++]=\t\"РКИ I11ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x800){\r\n\tsub_ptrs[i++]=\t\"РКИ I12ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x800){\r\n\tsub_ptrs[i++]=\t\"РКИ I12ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x1000){\r\n\tsub_ptrs[i++]=\t\"РКИ I13ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x1000){\r\n\tsub_ptrs[i++]=\t\"РКИ I13ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x2000){\r\n\tsub_ptrs[i++]=\t\"РКИ I14ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x2000){\r\n\tsub_ptrs[i++]=\t\"РКИ I14ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x4000){\r\n\tsub_ptrs[i++]=\t\"РКИ I15ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x4000){\r\n\tsub_ptrs[i++]=\t\"РКИ I15ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x8000){\r\n\tsub_ptrs[i++]=\t\"РКИ I16ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x8000){\r\n\tsub_ptrs[i++]=\t\"РКИ I16ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x10000){\r\n\tsub_ptrs[i++]=\t\"РКИ I17ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x10000){\r\n\tsub_ptrs[i++]=\t\"РКИ I17ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x20000){\r\n\tsub_ptrs[i++]=\t\"РКИ I18ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x20000){\r\n\tsub_ptrs[i++]=\t\"РКИ I18ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x40000){\r\n\tsub_ptrs[i++]=\t\"РКИ I19ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x40000){\r\n\tsub_ptrs[i++]=\t\"РКИ I19ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x80000){\r\n\tsub_ptrs[i++]=\t\"РКИ I20ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x80000){\r\n\tsub_ptrs[i++]=\t\"РКИ I20ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x100000){\r\n\tsub_ptrs[i++]=\t\"РКИ I21ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x100000){\r\n\tsub_ptrs[i++]=\t\"РКИ I21ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x200000){\r\n\tsub_ptrs[i++]=\t\"РКИ I22ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x200000){\r\n\tsub_ptrs[i++]=\t\"РКИ I22ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x400000){\r\n\tsub_ptrs[i++]=\t\"РКИ I23ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x400000){\r\n\tsub_ptrs[i++]=\t\"РКИ I23ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\nif(status_di2&0x800000){\r\n\tsub_ptrs[i++]=\t\"РКИ I24ддт > Iаварии\";\r\n\tsub_cnt_max++;\r\n}\r\nelse if(status_di1&0x800000){\r\n\tsub_ptrs[i++]=\t\"РКИ I24ддт >Iпредупр\";\r\n\tsub_cnt_max++;\r\n}\r\n/ //o_3_e\r\nif(uavt_set_stat!=uassOFF)\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Установка Uавт. \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\nif(uavt_set_result_stat==uasrsSUCCESS)\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Установка Uавт. \";\r\n\tsub_ptrs[i++]=\t\" успешно завершена \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\nif(uavt_set_result_stat==uasrsERR)\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Установка Uавт. \";\r\n\tsub_ptrs[i++]=\t\" завершена неудачей \";\r\n\tsub_ptrs[i++]=\t\" завершена неудачей \";\r\n\tsub_cnt_max++;\t\r\n\t} \r\n\r\n// oleg_end\r\ncnt_of_slave=NUMIST+NUMINV;\r\n\r\n\r\n//cnt_of_wrks=0;\r\n//for(i=0;i<NUMIST;i++)\r\n // {\r\n// if(bps[i]._state==bsWRK)cnt_of_wrks++;\r\n // }\r\n\r\n\r\nsub_cnt1++;\t\r\nif(sub_cnt1>=20)\r\n\t{\r\n\tsub_cnt1=0;\r\n\tsub_cnt++;\r\n\tif(sub_cnt>=sub_cnt_max)\r\n\t\t{\r\n\t\tsub_cnt=0;\r\n\t\t}\r\n\t}\r\n\r\n\r\nif(ind==iMn)\r\n\t{\r\n\r\n\tif(num_of_wrks_bps)\t\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" В работе rист. \";\r\n\t\t}\r\n\telse if((NUMBAT>1)&&(!bat[0]._av&1)&&(!bat[1]._av&1))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" Работа от батарей \";\r\n\t\t}\r\n\telse if((BAT_IS_ON[0]==bisON)&&(!bat[0]._av&1)/&&(!(()&&()))/)\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №1\";\r\n\t\t}\r\n\telse if((BAT_IS_ON[1]==bisON)&&(!bat[1]._av&1))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №2\";\r\n\t\t}\r\n\r\n\t \r\n i=0;\r\n /\tif(!num_of_wrks_bps)\r\n \t\t{\r\n \t\tptrs[0]\t=\" Работа от батареи \"; \r\n \t\tii_=139;\r\n \t\t}\r\n \telse ii_=0;/\t\r\n \t\r\n \tptrs[1]=\"Uбz= ]В Iбz= @А\";\r\n ptrs[2]=\"Uн= #В Iн= $А\";\r\n ptrs[3]=\" 0%:0^:0& 0</> /0{ \";\r\n \r\n \tptrs[4]=\t\t\t\t\t\t\t\t\t\t\" Батарея N1 \";\r\n ptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея N2 \";\r\n if((NUMBAT==1)&&(BAT_IS_ON[0]!=bisON))ptrs[4]=\t\t\" Батарея N2 \";\r\n\t\t\t\t\t\t\t\t\r\n\tptrs[4+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[5+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[6+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N3 \";\r\n ptrs[7+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[8+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[9+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N6 \";\r\n ptrs[10+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[11+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[12+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N9 \";\r\n ptrs[13+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[14+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[15+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N12 \";\r\n\r\n \r\n ptrs[4+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N1 \";\r\n ptrs[5+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N2 \";\r\n ptrs[6+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N3 \";\r\n ptrs[7+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N4 \";\r\n\r\n ptrs[4+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Сеть \"; \r\n ptrs[5+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Нагрузка \"; \r\n ptrs[6+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Датчики \";\r\n\tptrs[6+NUMINV+NUMIST+NUMBAT+1]= \t\t\t\t\t\" Вентилятор \";\r\n\tptrs[6+NUMINV+NUMIST+NUMBAT+2]= \t\t\t\t\t\" Автоматы \";\r\n ptrs[6+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]= \t\t \" Электроснабжение \"; \r\n \tptrs[7+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]= \t\t\t\" Спецфункции \t \";\r\n ptrs[8+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]=\t \" Установки \"; \r\n ptrs[9+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]=\t \" Журнал событий \"; \r\n ptrs[10+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]=\t \" Выход \"; \r\n ptrs[11+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]=\t \" Журнал батареи N1 \"; \r\n ptrs[12+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]=\t \" Журнал батареи N2 \";\r\n\tptrs[13+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]=\t\t\t\" Тест \"; \r\n\r\n if(sub_ind==0)index_set=0;\r\n\telse if((index_set-sub_ind)>2)index_set=sub_ind+2;\r\n\telse if(sub_ind>index_set)index_set=sub_ind;\r\n\t\r\n/\tif(ii_cnt>80)\r\n\t\t{\r\n\t\tif((spc_stat==spc_VZ)&&(!(av_.bAN))) ptrs[0]=\" ВЫР. ЗАРЯД {ч.\";\r\n\t\tif(spc_stat==spc_KE1p1) ptrs[0]=\"КОНТР.ЕМК.БАТ.N1\";\r\n\t\tif(spc_stat==spc_KE2p1) ptrs[0]=\"КОНТР.ЕМК.БАТ.N2\";\r\n\t\t}/\r\n \r\n\r\n\r\n\r\n\t\t\r\n\tif(sub_cnt<5)bgnd_par(ptrs[0],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\telse bgnd_par(sub_ptrs[sub_cnt-5],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\t\r\n\tif((ii_cnt<=80)\|\|((spc_stat!=spcVZ)&&(spc_stat!=spcKE)/&&(spc_stat!=spcKE2p1)/)) \r\n\t\t{\r\n\tif((ii_!=139)&&(/(src_state[0]==ssWRK)\|\|(src_state[1]==ssWRK)\|\|(src_state[2]==ssWRK))/num_of_wrks_bps!=0))\r\n\t\t{\r\n\t\t/lcd_buffer[9]='N';\r\n\t\tlcd_buffer[10]=' ';\r\n\t\tlcd_buffer[11]=' ';\r\n\t\tlcd_buffer[12]=' ';\r\n\t\tlcd_buffer[13]=' ';\r\n\t\tlcd_buffer[14]=' ';\r\n\t\tlcd_buffer[15]=' ';/\r\n\t\t\r\n\t\tif(sub_cnt<5)int2lcdyx(num_of_wrks_bps,0,14,0);\r\n\t\t/lcd_buffer[11]='и';\r\n\t\tlcd_buffer[12]='с';\r\n\t\tlcd_buffer[13]='т';\r\n\t\tlcd_buffer[14]='.';/\r\n\r\n }\r\n }\r\n\r\n\tint2lcd(load_U,'#',1);\r\n\t \r\n \t//int2lcd(load_U,'#',1);\r\n \tint2lcd(load_I,'$',1);\r\n \t\r\n\tint2lcd(LPC_RTC->HOUR,'%',0);\r\n\tint2lcd(LPC_RTC->MIN,'^',0);\r\n\tint2lcd(LPC_RTC->SEC,'&',0);\r\n\tint2lcd(LPC_RTC->DOM,'<',0);\r\n\tint2lcd(LPC_RTC->YEAR,'{',0); \r\n\tif(!((LPC_RTC->MONTH>=1)&&(LPC_RTC->MONTH<=12)))LPC_RTC->MONTH=1;\r\n\tsub_bgnd(sm_mont[LPC_RTC->MONTH],'>',0);\r\n\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t }\r\n\r\n\tif((index_set)&&(sub_ind))\r\n\t {\r\n\t if(index_set==sub_ind)lcd_buffer[60]=1;\r\n\t else if((index_set-sub_ind)==1)lcd_buffer[40]=1;\r\n\t else if((index_set-sub_ind)==2)lcd_buffer[20]=1;\r\n\t }\t\r\n\t\t\r\n\tcnt_ind_bat++;\r\n\tif(cnt_ind_bat>=(NUMBAT20)) cnt_ind_bat=0;\r\n\t\r\n\tif(NUMBAT==0)sub_bgnd(\" Работа без батарей \",'z',-2);\r\n\telse\r\n\t\t{\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tif((NUMBAT==1)&&(!(BAT_IS_ON[0]==bisON)))\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[1]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[1]._Ib,'@',2);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[cnt_ind_bat/20]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[cnt_ind_bat/20]._Ib,'@',2);\r\n\t\t\t}\r\n\t\tint2lcd(bat[cnt_ind_bat/20]._Ub,']',1);\r\n\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\telse int2lcd_mmm(bat[cnt_ind_bat/20]._Ib,'@',2);\r\n\t\t}\r\n\r\n\tint2lcd(vz_cnt_s_/60,'x',0);\r\n\tint2lcd(vz_cnt_h_,'X',0);\r\n\t\r\n\t//int2lcdyx(suzz[1],0,16,0);\t\r\n\t//int2lcdyx(plazma_uart0,0,19,0);\r\n\t//int2lcdyx(AUSW_MAIN,0,8,0);\r\n\r\n\t//long2lcdhyx(avar_stat,0,7);\r\n \t//long2lcdhyx(avar_ind_stat,1,7);\r\n\t//int2lcdyx(cntrl_stat_blok_cnt,0,19,0);\r\n\t//int2lcdyx(cntrl_stat_blok_cnt_,0,16,0);\r\n\r\n/\tint2lcdyx(a_ind.i,0,2,0);\r\n\tint2lcdyx(a_ind.s_i,0,6,0);\r\n\tint2lcdyx(a_ind.s_i1,0,10,0);\r\n\t/\t/int2lcdyx(adc_zero_cnt,1,5,0);\r\n\r\n\tint2lcdyx(adc_window_flag,0,1,0);\r\n\tint2lcdyx(adc_window_cnt,0,6,0);\r\n\tint2lcdyx(net_buff_,0,19,0);\r\n\tint2lcdyx(adc_gorb_cnt,0,10,0);/\r\n\t\r\n\tint2lcdyx(plazma_but_an,0,10,0);\r\n\tint2lcdyx(can_rotor[1],0,15,0);\t \r\n\t}\r\n#ifndef UKU_6U_WEB\r\nelse if(ind==iMn_RSTKM)\r\n\t{\r\n\t\tptrs[0]\t=\t\" \";\r\n\tif(num_of_wrks_bps)\t\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" В работе rист. \";\r\n\t\t}\r\n\telse if((NUMBAT>1)&&(!bat[0]._av&1)&&(!bat[1]._av&1))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" Работа от батарей \";\r\n\t\t}\r\n\telse if((BAT_IS_ON[0]==bisON)&&(!bat[0]._av&1)/&&(!(()&&()))/)\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №1\";\r\n\t\t}\r\n\telse if((BAT_IS_ON[1]==bisON)&&(!bat[1]._av&1))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №2\";\r\n\t\t}\r\n\r\n\t \r\n i=0;\r\n /\tif(!num_of_wrks_bps)\r\n \t\t{\r\n \t\tptrs[0]\t=\" Работа от батареи \"; \r\n \t\tii_=139;\r\n \t\t}\r\n \telse ii_=0;/\t\r\n \t\r\n \tptrs[1]=\"Uбz= ]В Iбz= @А\";\r\n ptrs[2]=\"Uн= #В Iн= $А\";\r\n ptrs[3]=\" 0%:0^:0& 0</> /0{ \";\r\n \r\n \tptrs[4]=\t\t\t\t\t\t\t\t\t\t\" Батарея N1 \";\r\n ptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея N2 \";\r\n if((NUMBAT==1)&&(BAT_IS_ON[0]!=bisON))ptrs[4]=\t\t\" Батарея N2 \";\r\n\t\t\t\t\t\t\t\t\r\n\tptrs[4+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[5+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[6+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N3 \";\r\n ptrs[7+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[8+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[9+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N6 \";\r\n ptrs[10+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[11+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[12+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N9 \";\r\n ptrs[13+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[14+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[15+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N12 \";\r\n\r\n \r\n ptrs[4+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N1 \";\r\n ptrs[5+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N2 \";\r\n ptrs[6+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N3 \";\r\n ptrs[7+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N4 \";\r\n\r\n ptrs[4+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Сеть \"; \r\n ptrs[5+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Нагрузка \"; \r\n ptrs[6+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Датчики \";\r\n\tptrs[6+NUMINV+NUMIST+NUMBAT+1]= \t\t\t\t\t\" Вентилятор \";\r\n\tptrs[6+NUMINV+NUMIST+NUMBAT+2]= \t\t\t\t\t\" Автоматы \";\r\n ptrs[6+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]= \t\t \" Электроснабжение \"; \r\n \tptrs[7+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]= \t\t\t\" Спецфункции \t \";\r\n ptrs[8+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]=\t \" Установки \"; \r\n ptrs[9+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]=\t \" Журнал событий \"; \r\n ptrs[10+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]=\t \" Выход \"; \r\n ptrs[11+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]=\t \" Журнал батареи N1 \"; \r\n ptrs[12+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]=\t \" Журнал батареи N2 \";\r\n\tptrs[13+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]=\t\t\t\" Тест \"; \r\n\r\n if(sub_ind==0)index_set=0;\r\n\telse if((index_set-sub_ind)>2)index_set=sub_ind+2;\r\n\telse if(sub_ind>index_set)index_set=sub_ind;\r\n\t\r\n/\tif(ii_cnt>80)\r\n\t\t{\r\n\t\tif((spc_stat==spc_VZ)&&(!(av_.bAN))) ptrs[0]=\" ВЫР. ЗАРЯД {ч.\";\r\n\t\tif(spc_stat==spc_KE1p1) ptrs[0]=\"КОНТР.ЕМК.БАТ.N1\";\r\n\t\tif(spc_stat==spc_KE2p1) ptrs[0]=\"КОНТР.ЕМК.БАТ.N2\";\r\n\t\t}/\r\n \r\n\r\n\r\n\r\n\t\t\r\n\tif(sub_cnt<5)bgnd_par(ptrs[0],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\telse bgnd_par(sub_ptrs[sub_cnt-5],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\t\r\n\tif((ii_cnt<=80)\|\|((spc_stat!=spcVZ)&&(spc_stat!=spcKE)/&&(spc_stat!=spcKE2p1)/)) \r\n\t\t{\r\n\tif((ii_!=139)&&(/(src_state[0]==ssWRK)\|\|(src_state[1]==ssWRK)\|\|(src_state[2]==ssWRK))/num_of_wrks_bps!=0))\r\n\t\t{\r\n\t\t/lcd_buffer[9]='N';\r\n\t\tlcd_buffer[10]=' ';\r\n\t\tlcd_buffer[11]=' ';\r\n\t\tlcd_buffer[12]=' ';\r\n\t\tlcd_buffer[13]=' ';\r\n\t\tlcd_buffer[14]=' ';\r\n\t\tlcd_buffer[15]=' ';/\r\n\t\t\r\n\t\tif(sub_cnt<5)int2lcdyx(num_of_wrks_bps,0,14,0);\r\n\t\t/lcd_buffer[11]='и';\r\n\t\tlcd_buffer[12]='с';\r\n\t\tlcd_buffer[13]='т';\r\n\t\tlcd_buffer[14]='.';/\r\n\r\n }\r\n }\r\n\r\n\tint2lcd(load_U,'#',1);\r\n\t \r\n \t//int2lcd(load_U,'#',1);\r\n \tint2lcd(load_I,'$',1);\r\n \t\r\n\tint2lcd(LPC_RTC->HOUR,'%',0);\r\n\tint2lcd(LPC_RTC->MIN,'^',0);\r\n\tint2lcd(LPC_RTC->SEC,'&',0);\r\n\tint2lcd(LPC_RTC->DOM,'<',0);\r\n\tint2lcd(LPC_RTC->YEAR,'{',0); \r\n\tif(!((LPC_RTC->MONTH>=1)&&(LPC_RTC->MONTH<=12)))LPC_RTC->MONTH=1;\r\n\tsub_bgnd(sm_mont[LPC_RTC->MONTH],'>',0);\r\n\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t }\r\n\r\n\tif((index_set)&&(sub_ind))\r\n\t {\r\n\t if(index_set==sub_ind)lcd_buffer[60]=1;\r\n\t else if((index_set-sub_ind)==1)lcd_buffer[40]=1;\r\n\t else if((index_set-sub_ind)==2)lcd_buffer[20]=1;\r\n\t }\t\r\n\t\t\r\n\tcnt_ind_bat++;\r\n\tif(cnt_ind_bat>=(NUMBAT20)) cnt_ind_bat=0;\r\n\t\r\n\tif(NUMBAT==0)sub_bgnd(\" Работа без батарей \",'z',-2);\r\n\telse\r\n\t\t{\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tif((NUMBAT==1)&&(!(BAT_IS_ON[0]==bisON)))\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[1]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[1]._Ib,'@',2);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[cnt_ind_bat/20]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[cnt_ind_bat/20]._Ib,'@',2);\r\n\t\t\t}\r\n\t\t}\r\n\r\n\tint2lcd(vz_cnt_s/60,'x',0);\r\n\tint2lcd(vz_cnt_h_,'X',0);\r\n\r\n\t//int2lcdyx(snmp_plazma,0,2,0);\r\n/\tint2lcdyx(index_set,0,5,0);\r\n\tint2lcdyx(NUMBAT,0,8,0);\r\n\tint2lcdyx(NUMIST,0,13,0);\r\n\tint2lcdyx(NUMINV,0,18,0);/\r\n\t}\r\n\r\nif(ind==iMn_3U)\r\n\t{\r\n\r\n\tif(num_of_wrks_bps)\t\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" В работе rист. \";\r\n\t\t}\r\n\telse if((NUMBAT>1)&&(!bat[0]._av&1)&&(!bat[1]._av&1))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" Работа от батарей \";\r\n\t\t}\r\n\telse if((BAT_IS_ON[0]==bisON)&&(!bat[0]._av&1)/&&(!(()&&()))/)\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №1\";\r\n\t\t}\r\n\telse if((BAT_IS_ON[1]==bisON)&&(!bat[1]._av&1))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №2\";\r\n\t\t}\r\n\r\n\t \r\n i=0;\r\n /\tif(!num_of_wrks_bps)\r\n \t\t{\r\n \t\tptrs[0]\t=\" Работа от батареи \"; \r\n \t\tii_=139;\r\n \t\t}\r\n \telse ii_=0;/\t\r\n \t\r\n \tptrs[1]=\"Uбz= ]В Iбz= @А\";\r\n ptrs[2]=\"Uн= #В Iн= $А\";\r\n ptrs[3]=\" 0%:0^:0& 0</> /0{ \";\r\n \r\n \tptrs[4]=\t\t\t\t\t\t\t\t\t\t\" Батарея N1 \";\r\n ptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея N2 \";\r\n if((NUMBAT==1)&&(BAT_IS_ON[0]!=bisON))ptrs[4]=\t\t\" Батарея N2 \";\r\n\t\t\t\t\t\t\t\t\r\n\tptrs[4+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[5+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[6+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N3 \";\r\n ptrs[7+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[8+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[9+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N6 \";\r\n ptrs[10+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[11+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[12+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N9 \";\r\n ptrs[13+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[14+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[15+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N12 \";\r\n\r\n \r\n ptrs[4+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N1 \";\r\n ptrs[5+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N2 \";\r\n ptrs[6+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N3 \";\r\n ptrs[7+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N4 \";\r\n\r\n ptrs[4+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Сеть \"; \r\n ptrs[5+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Нагрузка \"; \r\n ptrs[6+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Датчики \";\r\n\t//ptrs[6+NUMINV+NUMIST+NUMBAT+1]= \t\t\t\t\t\" Вентилятор \";\r\n\t//ptrs[6+NUMINV+NUMIST+NUMBAT+2]= \t\t\t\t\t\" Автоматы \";\r\n //ptrs[6+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]= \t\t \" Электроснабжение \"; \r\n \tptrs[7+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Спецфункции \t \";\r\n ptrs[8+NUMINV+NUMIST+NUMBAT]=\t \t\t\t\" Установки \"; \r\n ptrs[9+NUMINV+NUMIST+NUMBAT]=\t \t\t\t\" Журнал событий \"; \r\n ptrs[10+NUMINV+NUMIST+NUMBAT]=\t \t\t\" Выход \"; \r\n ptrs[11+NUMINV+NUMIST+NUMBAT]=\t \t\t\" Журнал батареи N1 \"; \r\n ptrs[12+NUMINV+NUMIST+NUMBAT]=\t \t\t\" Журнал батареи N2 \";\r\n\tptrs[13+NUMINV+NUMIST+NUMBAT]=\t\t\t\t\t\" Тест \"; \r\n\r\n if(sub_ind==0)index_set=0;\r\n\telse if((index_set-sub_ind)>2)index_set=sub_ind+2;\r\n\telse if(sub_ind>index_set)index_set=sub_ind;\r\n\t\r\n/\tif(ii_cnt>80)\r\n\t\t{\r\n\t\tif((spc_stat==spc_VZ)&&(!(av_.bAN))) ptrs[0]=\" ВЫР. ЗАРЯД {ч.\";\r\n\t\tif(spc_stat==spc_KE1p1) ptrs[0]=\"КОНТР.ЕМК.БАТ.N1\";\r\n\t\tif(spc_stat==spc_KE2p1) ptrs[0]=\"КОНТР.ЕМК.БАТ.N2\";\r\n\t\t}/\r\n \r\n\r\n\r\n\r\n\t\t\r\n\tif(sub_cnt<5)bgnd_par(ptrs[0],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\telse bgnd_par(sub_ptrs[sub_cnt-5],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\t\r\n\tif((ii_cnt<=80)\|\|((spc_stat!=spcVZ)&&(spc_stat!=spcKE)/&&(spc_stat!=spcKE2p1)/)) \r\n\t\t{\r\n\tif((ii_!=139)&&(/(src_state[0]==ssWRK)\|\|(src_state[1]==ssWRK)\|\|(src_state[2]==ssWRK))/num_of_wrks_bps!=0))\r\n\t\t{\r\n\t\t/lcd_buffer[9]='N';\r\n\t\tlcd_buffer[10]=' ';\r\n\t\tlcd_buffer[11]=' ';\r\n\t\tlcd_buffer[12]=' ';\r\n\t\tlcd_buffer[13]=' ';\r\n\t\tlcd_buffer[14]=' ';\r\n\t\tlcd_buffer[15]=' ';/\r\n\t\t\r\n\t\tif(sub_cnt<5)int2lcdyx(num_of_wrks_bps,0,14,0);\r\n\t\t/lcd_buffer[11]='и';\r\n\t\tlcd_buffer[12]='с';\r\n\t\tlcd_buffer[13]='т';\r\n\t\tlcd_buffer[14]='.';/\r\n\r\n }\r\n }\r\n\r\n\tint2lcd(load_U,'#',1);\r\n\t \r\n \t//int2lcd(load_U,'#',1);\r\n \tint2lcd(load_I,'$',1);\r\n \t\r\n\tint2lcd(LPC_RTC->HOUR,'%',0);\r\n\tint2lcd(LPC_RTC->MIN,'^',0);\r\n\tint2lcd(LPC_RTC->SEC,'&',0);\r\n\tint2lcd(LPC_RTC->DOM,'<',0);\r\n\tint2lcd(LPC_RTC->YEAR,'{',0); \r\n\tif(!((LPC_RTC->MONTH>=1)&&(LPC_RTC->MONTH<=12)))LPC_RTC->MONTH=1;\r\n\tsub_bgnd(sm_mont[LPC_RTC->MONTH],'>',0);\r\n\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t }\r\n\r\n\tif((index_set)&&(sub_ind))\r\n\t {\r\n\t if(index_set==sub_ind)lcd_buffer[60]=1;\r\n\t else if((index_set-sub_ind)==1)lcd_buffer[40]=1;\r\n\t else if((index_set-sub_ind)==2)lcd_buffer[20]=1;\r\n\t }\t\r\n\t\t\r\n\tcnt_ind_bat++;\r\n\tif(cnt_ind_bat>=(NUMBAT20)) cnt_ind_bat=0;\r\n\t\r\n\tif(NUMBAT==0)sub_bgnd(\" Работа без батарей \",'z',-2);\r\n\telse\r\n\t\t{\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tif((NUMBAT==1)&&(!(BAT_IS_ON[0]==bisON)))\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[1]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[1]._Ib,'@',2);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[cnt_ind_bat/20]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[cnt_ind_bat/20]._Ib,'@',2);\r\n\t\t\t}\r\n\r\n\t\t}\r\n\r\n\tint2lcd(vz_cnt_s/60,'x',0);\r\n\tint2lcd(vz_cnt_h_,'X',0);\r\n\t\r\n\t//int2lcdyx(suzz[1],0,16,0);\t\r\n\t//int2lcdyx(plazma_uart0,0,19,0);\r\n\t//int2lcdyx(AUSW_MAIN,0,8,0);\r\n\r\n\t//long2lcdhyx(avar_stat,0,7);\r\n \t//long2lcdhyx(avar_ind_stat,1,7);\r\n\t//int2lcdyx(cntrl_stat_blok_cnt,0,19,0);\r\n\t//int2lcdyx(cntrl_stat_blok_cnt_,0,16,0);\r\n\r\n/\tint2lcdyx(a_ind.i,0,2,0);\r\n\tint2lcdyx(a_ind.s_i,0,6,0);\r\n\tint2lcdyx(a_ind.s_i1,0,10,0);\r\n\t/\t/int2lcdyx(adc_zero_cnt,1,5,0);\r\n\r\n\tint2lcdyx(adc_window_flag,0,1,0);\r\n\tint2lcdyx(adc_window_cnt,0,6,0);\r\n\tint2lcdyx(net_buff_,0,19,0);\r\n\tint2lcdyx(adc_gorb_cnt,0,10,0);/\r\n\t\r\n\tint2lcdyx(first_inv_slot,0,10,0);\r\n\tint2lcdyx(can_rotor[1],0,15,0);\t \r\n\t}\r\nelse if(ind==iMn_GLONASS)\r\n\t{\r\n\r\n\tif(num_of_wrks_bps)\t\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" В работе rист. \";\r\n\t\t}\r\n\telse if((NUMBAT>1)&&(!bat[0]._av&1)&&(!bat[1]._av&1))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" Работа от батарей \";\r\n\t\t}\r\n\telse if((BAT_IS_ON[0]==bisON)&&(!bat[0]._av&1)/&&(!(()&&()))/)\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №1\";\r\n\t\t}\r\n\telse if((BAT_IS_ON[1]==bisON)&&(!bat[1]._av&1))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №2\";\r\n\t\t}\r\n\r\n\t \r\n i=0;\r\n /\tif(!num_of_wrks_bps)\r\n \t\t{\r\n \t\tptrs[0]\t=\" Работа от батареи \"; \r\n \t\tii_=139;\r\n \t\t}\r\n \telse ii_=0;/\t\r\n \t\r\n \tptrs[1]=\"Uбz= ]В Iбz= @А\";\r\n ptrs[2]=\"Uн= #В Iн= $А\";\r\n ptrs[3]=\" 0%:0^:0& 0</> /0{ \";\r\n \r\n \tptrs[4]=\t\t\t\t\t\t\t\t\t\t\" Батарея N1 \";\r\n ptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея N2 \";\r\n if((NUMBAT==1)&&(BAT_IS_ON[0]!=bisON))ptrs[4]=\t\t\" Батарея N2 \";\r\n\t\t\t\t\t\t\t\t\r\n\tptrs[4+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[5+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[6+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N3 \";\r\n ptrs[7+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[8+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[9+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N6 \";\r\n ptrs[10+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[11+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[12+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N9 \";\r\n ptrs[13+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[14+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[15+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N12 \";\r\n\r\n \r\n ptrs[4+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N1 \";\r\n ptrs[5+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N2 \";\r\n ptrs[6+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N3 \";\r\n ptrs[7+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N4 \";\r\n\r\n ptrs[4+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Сеть \"; \r\n ptrs[5+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Нагрузка \"; \r\n ptrs[6+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Датчики \";\r\n\t//ptrs[6+NUMINV+NUMIST+NUMBAT+1]= \t\t\t\t\t\" Вентилятор \";\r\n\t//ptrs[6+NUMINV+NUMIST+NUMBAT+2]= \t\t\t\t\t\" Автоматы \";\r\n //ptrs[6+NUMINV+NUMIST+NUMBAT+2+(NUMAVT!=0)]= \t\t \" Электроснабжение \"; \r\n \tptrs[7+NUMINV+NUMIST+NUMBAT]= \t\t\t\t\t\" Спецфункции \t \";\r\n ptrs[8+NUMINV+NUMIST+NUMBAT]=\t \t\t\t\" Установки \"; \r\n ptrs[9+NUMINV+NUMIST+NUMBAT]=\t \t\t\t\" Журнал событий \"; \r\n ptrs[10+NUMINV+NUMIST+NUMBAT]=\t \t\t\" Выход \"; \r\n ptrs[11+NUMINV+NUMIST+NUMBAT]=\t \t\t\" Журнал батареи N1 \"; \r\n ptrs[12+NUMINV+NUMIST+NUMBAT]=\t \t\t\" Журнал батареи N2 \";\r\n\tptrs[13+NUMINV+NUMIST+NUMBAT]=\t\t\t\t\t\" Тест \"; \r\n\r\n if(sub_ind==0)index_set=0;\r\n\telse if((index_set-sub_ind)>2)index_set=sub_ind+2;\r\n\telse if(sub_ind>index_set)index_set=sub_ind;\r\n\t\r\n/\tif(ii_cnt>80)\r\n\t\t{\r\n\t\tif((spc_stat==spc_VZ)&&(!(av_.bAN))) ptrs[0]=\" ВЫР. ЗАРЯД {ч.\";\r\n\t\tif(spc_stat==spc_KE1p1) ptrs[0]=\"КОНТР.ЕМК.БАТ.N1\";\r\n\t\tif(spc_stat==spc_KE2p1) ptrs[0]=\"КОНТР.ЕМК.БАТ.N2\";\r\n\t\t}/\r\n \r\n\r\n\r\n\r\n\t\t\r\n\tif(sub_cnt<5)bgnd_par(ptrs[0],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\telse bgnd_par(sub_ptrs[sub_cnt-5],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\t\r\n\tif((ii_cnt<=80)\|\|((spc_stat!=spcVZ)&&(spc_stat!=spcKE)/&&(spc_stat!=spcKE2p1)/)) \r\n\t\t{\r\n\tif((ii_!=139)&&(/(src_state[0]==ssWRK)\|\|(src_state[1]==ssWRK)\|\|(src_state[2]==ssWRK))/num_of_wrks_bps!=0))\r\n\t\t{\r\n\t\t/lcd_buffer[9]='N';\r\n\t\tlcd_buffer[10]=' ';\r\n\t\tlcd_buffer[11]=' ';\r\n\t\tlcd_buffer[12]=' ';\r\n\t\tlcd_buffer[13]=' ';\r\n\t\tlcd_buffer[14]=' ';\r\n\t\tlcd_buffer[15]=' ';/\r\n\t\t\r\n\t\tif(sub_cnt<5)int2lcdyx(num_of_wrks_bps,0,14,0);\r\n\t\t/lcd_buffer[11]='и';\r\n\t\tlcd_buffer[12]='с';\r\n\t\tlcd_buffer[13]='т';\r\n\t\tlcd_buffer[14]='.';/\r\n\r\n }\r\n }\r\n\r\n\tint2lcd(load_U,'#',1);\r\n\t \r\n \t//int2lcd(load_U,'#',1);\r\n \tint2lcd(load_I,'$',1);\r\n \t\r\n\tint2lcd(LPC_RTC->HOUR,'%',0);\r\n\tint2lcd(LPC_RTC->MIN,'^',0);\r\n\tint2lcd(LPC_RTC->SEC,'&',0);\r\n\tint2lcd(LPC_RTC->DOM,'<',0);\r\n\tint2lcd(LPC_RTC->YEAR,'{',0); \r\n\tif(!((LPC_RTC->MONTH>=1)&&(LPC_RTC->MONTH<=12)))LPC_RTC->MONTH=1;\r\n\tsub_bgnd(sm_mont[LPC_RTC->MONTH],'>',0);\r\n\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t }\r\n\r\n\tif((index_set)&&(sub_ind))\r\n\t {\r\n\t if(index_set==sub_ind)lcd_buffer[60]=1;\r\n\t else if((index_set-sub_ind)==1)lcd_buffer[40]=1;\r\n\t else if((index_set-sub_ind)==2)lcd_buffer[20]=1;\r\n\t }\t\r\n\t\t\r\n\tcnt_ind_bat++;\r\n\tif(cnt_ind_bat>=(NUMBAT20)) cnt_ind_bat=0;\r\n\t\r\n\tif(NUMBAT==0)sub_bgnd(\" Работа без батарей \",'z',-2);\r\n\telse\r\n\t\t{\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tif((NUMBAT==1)&&(!(BAT_IS_ON[0]==bisON)))\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[1]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[1]._Ib,'@',2);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[cnt_ind_bat/20]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[cnt_ind_bat/20]._Ib,'@',2);\r\n\t\t\t}\t\t}\r\n\r\n\tint2lcd(vz_cnt_s/60,'x',0);\r\n\tint2lcd(vz_cnt_h_,'X',0);\r\n\t\r\n\t//int2lcdyx(suzz[1],0,16,0);\t\r\n\t//int2lcdyx(plazma_uart0,0,19,0);\r\n\t//int2lcdyx(AUSW_MAIN,0,8,0);\r\n\r\n\t//long2lcdhyx(avar_stat,0,7);\r\n \t//long2lcdhyx(avar_ind_stat,1,7);\r\n\t//int2lcdyx(cntrl_stat_blok_cnt,0,19,0);\r\n\t//int2lcdyx(cntrl_stat_blok_cnt_,0,16,0);\r\n\r\n/\tint2lcdyx(a_ind.i,0,2,0);\r\n\tint2lcdyx(a_ind.s_i,0,6,0);\r\n\tint2lcdyx(a_ind.s_i1,0,10,0);\r\n\t/\t/int2lcdyx(adc_zero_cnt,1,5,0);\r\n\t/\r\n//\tint2lcdyx(sys_plazma1,0,5,0);\r\n//\tint2lcdyx(main_kb_cnt,0,10,0);\r\n//\tint2lcdyx(kb_start[0],0,15,0);\r\n//\tint2lcdyx(kb_start[1],0,19,0);\r\n\r\n\t \r\n\t}\t \r\n\r\nelse if(ind==iMn_KONTUR)\r\n\t{\r\n\r\n\tif(num_of_wrks_bps)\t\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" В работе rист. \";\r\n\t\t}\r\n\telse if((NUMBAT>1)&&(!bat[0]._av&1)&&(!bat[1]._av&1))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" Работа от батарей \";\r\n\t\t}\r\n\telse if((BAT_IS_ON[0]==bisON)&&(!bat[0]._av&1)/&&(!(()&&()))/)\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №1\";\r\n\t\t}\r\n\telse if((BAT_IS_ON[1]==bisON)&&(!bat[1]._av&1))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №2\";\r\n\t\t}\r\n\r\n\t \r\n i=0;\r\n /\tif(!num_of_wrks_bps)\r\n \t\t{\r\n \t\tptrs[0]\t=\" Работа от батареи \"; \r\n \t\tii_=139;\r\n \t\t}\r\n \telse ii_=0;/\t\r\n \t\r\n \tptrs[1]=\"Uбz= ]В Iбz= @А\";\r\n ptrs[2]=\"Uн= #В Iн= $А\";\r\n ptrs[3]=\" 0%:0^:0& 0</> /0{ \";\r\n \r\n \tptrs[4]=\t\t\t\t\t\t\t\t\t\t\" Батарея N1 \";\r\n ptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея N2 \";\r\n if((NUMBAT==1)&&(BAT_IS_ON[0]!=bisON))ptrs[4]=\t\t\" Батарея N2 \";\r\n\t\t\t\t\t\t\t\t\r\n\tptrs[4+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[5+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[6+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N3 \";\r\n ptrs[7+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[8+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[9+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N6 \";\r\n ptrs[10+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[11+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[12+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N9 \";\r\n ptrs[13+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[14+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[15+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N12 \";\r\n\r\n \r\n ptrs[4+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N1 \";\r\n ptrs[5+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N2 \";\r\n ptrs[6+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N3 \";\r\n ptrs[7+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N4 \";\r\n\r\n ptrs[4+NUMIST+NUMBAT]= \t\t\t\t\t \" Сеть \"; \r\n ptrs[5+NUMIST+NUMBAT]= \t\t\t\t\t \" Нагрузка \"; \r\n ptrs[6+NUMIST+NUMBAT]= \t\t\t\t\t \" Датчики \";\r\n\tptrs[6+NUMIST+NUMBAT+1]= \t\t\t\t\t \" Вентилятор \";\r\n ptrs[6+NUMIST+NUMBAT+2]= \t\t\t \" Электроснабжение \"; \r\n \tptrs[7+NUMIST+NUMBAT+2]= \t\t\t \" Спецфункции \t \";\r\n ptrs[8+NUMIST+NUMBAT+2]= \t\t\t \" Установки \"; \r\n ptrs[9+NUMIST+NUMBAT+2]= \t\t\t \" Журнал событий \"; \r\n ptrs[10+NUMIST+NUMBAT+2]= \t\t\t \" Выход \"; \r\n ptrs[11+NUMIST+NUMBAT+2]= \t\t\t \" Журнал батареи N1 \"; \r\n ptrs[12+NUMIST+NUMBAT+2]= \t\t\t \" Журнал батареи N2 \";\r\n\tptrs[13+NUMIST+NUMBAT+2]=\t\t\t\t\t\t\" Тест \"; \r\n\r\n if(sub_ind==0)index_set=0;\r\n\telse if((index_set-sub_ind)>2)index_set=sub_ind+2;\r\n\telse if(sub_ind>index_set)index_set=sub_ind;\r\n\t\r\n/\tif(ii_cnt>80)\r\n\t\t{\r\n\t\tif((spc_stat==spc_VZ)&&(!(av_.bAN))) ptrs[0]=\" ВЫР. ЗАРЯД {ч.\";\r\n\t\tif(spc_stat==spc_KE1p1) ptrs[0]=\"КОНТР.ЕМК.БАТ.N1\";\r\n\t\tif(spc_stat==spc_KE2p1) ptrs[0]=\"КОНТР.ЕМК.БАТ.N2\";\r\n\t\t}/\r\n \r\n\r\n\r\n\r\n\t\t\r\n\tif(sub_cnt<5)bgnd_par(ptrs[0],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\telse bgnd_par(sub_ptrs[sub_cnt-5],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\t\r\n\tif((ii_cnt<=80)\|\|((spc_stat!=spcVZ)&&(spc_stat!=spcKE)/&&(spc_stat!=spcKE2p1)/)) \r\n\t\t{\r\n\tif((ii_!=139)&&(/(src_state[0]==ssWRK)\|\|(src_state[1]==ssWRK)\|\|(src_state[2]==ssWRK))/num_of_wrks_bps!=0))\r\n\t\t{\r\n\t\t/lcd_buffer[9]='N';\r\n\t\tlcd_buffer[10]=' ';\r\n\t\tlcd_buffer[11]=' ';\r\n\t\tlcd_buffer[12]=' ';\r\n\t\tlcd_buffer[13]=' ';\r\n\t\tlcd_buffer[14]=' ';\r\n\t\tlcd_buffer[15]=' ';/\r\n\t\t\r\n\t\tif(sub_cnt<5)int2lcdyx(num_of_wrks_bps,0,14,0);\r\n\t\t/lcd_buffer[11]='и';\r\n\t\tlcd_buffer[12]='с';\r\n\t\tlcd_buffer[13]='т';\r\n\t\tlcd_buffer[14]='.';/\r\n\r\n }\r\n }\r\n\r\n\tint2lcd(load_U,'#',1);\r\n\t \r\n \t//int2lcd(load_U,'#',1);\r\n \tint2lcd(load_I,'$',1);\r\n \t\r\n\tint2lcd(LPC_RTC->HOUR,'%',0);\r\n\tint2lcd(LPC_RTC->MIN,'^',0);\r\n\tint2lcd(LPC_RTC->SEC,'&',0);\r\n\tint2lcd(LPC_RTC->DOM,'<',0);\r\n\tint2lcd(LPC_RTC->YEAR,'{',0); \r\n\t//if(!((month__>=1)&&(month__<=12)))month__=1;\r\n\tsub_bgnd(sm_mont[LPC_RTC->MONTH],'>',0);\r\n\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t }\r\n\r\n\tif((index_set)&&(sub_ind))\r\n\t {\r\n\t if(index_set==sub_ind)lcd_buffer[60]=1;\r\n\t else if((index_set-sub_ind)==1)lcd_buffer[40]=1;\r\n\t else if((index_set-sub_ind)==2)lcd_buffer[20]=1;\r\n\t }\t\r\n\t\t\r\n\tcnt_ind_bat++;\r\n\tif(cnt_ind_bat>=(NUMBAT20)) cnt_ind_bat=0;\r\n\t\r\n\tif(NUMBAT==0)sub_bgnd(\" Работа без батарей \",'z',-2);\r\n\telse\r\n\t\t{\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tif((NUMBAT==1)&&(!(BAT_IS_ON[0]==bisON)))\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[1]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[1]._Ib,'@',2);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[cnt_ind_bat/20]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[cnt_ind_bat/20]._Ib,'@',2);\r\n\t\t\t}\t\t}\r\n\r\n\tint2lcd(vz_cnt_s/60,'x',0);\r\n\tint2lcd(vz_cnt_h_,'X',0);\r\n\t\r\n\t//int2lcdyx(suzz[1],0,16,0);\t\r\n\t//int2lcdyx(plazma_uart0,0,19,0);\r\n\t//int2lcdyx(AUSW_MAIN,0,8,0);\r\n\r\n\t//long2lcdhyx(avar_stat,0,7);\r\n \t//long2lcdhyx(avar_ind_stat,1,7);\r\n\t//int2lcdyx(cntrl_stat_blok_cnt,0,19,0);\r\n\t//int2lcdyx(cntrl_stat_blok_cnt_,0,16,0);\r\n\r\n/\tint2lcdyx(a_ind.i,0,2,0);\r\n\tint2lcdyx(a_ind.s_i,0,6,0);\r\n\tint2lcdyx(a_ind.s_i1,0,10,0);\r\n\tint2lcdyx(a_ind.s_i1,0,14,0);\r\n\tint2lcdyx(a_ind.s_i1,0,16,0);/\r\n\r\n\t//int2lcdyx(can_debug_plazma[0][0],1,3,0);\t\r\n\t//int2lcdyx(can_debug_plazma[1][0],2,3,0);\r\n\r\n\r\n\r\n\t//int2lcdyx(t_box_vent_on_cnt,0,3,0);\r\n\t//int2lcdyx(t_box_warm_on_cnt,0,7,0);\r\n//\tint2lcdyx(vent_stat_k,0,10,0);\r\n//\tint2lcdyx(warm_stat_k,0,13,0);\r\n\t\r\n\t//int2lcdyx(t_box,0,19,0);\t \r\n\t}\r\n#endif\t//UKU_6U_WEB\r\nelse if(ind==iMn_6U)\r\n\t{\r\n\tptrs[0]\t=\t\" \";\r\n\tif(num_of_wrks_bps)\t\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" В работе rист. \";\r\n\t\t}\r\n\telse if((NUMBAT>1)&&(!bat[0]._av)&&(!bat[1]._av))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" Работа от батарей \";\r\n\t\t}\r\n\telse if((BAT_IS_ON[0]==bisON)&&(!bat[0]._av)/&&(!(()&&()))/)\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №1\";\r\n\t\t}\r\n\telse if((BAT_IS_ON[1]==bisON)&&(!bat[1]._av))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №2\";\r\n\t\t}\r\n\r\n\t \r\n i=0;\r\n \t\r\n \tptrs[1]=\"Uбz= ]В Iбz= @А\";\r\n ptrs[2]=\"Uн= #В Iн= $А\";\r\n ptrs[3]=\" 0%:0^:0& 0</> /0{ \";\r\n \r\n \tptrs[4]=\t\t\t\t\t\t\t\t\t\t\" Батарея N1 \";\r\n ptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея N2 \";\r\n if((NUMBAT==1)&&(BAT_IS_ON[0]!=bisON))ptrs[4]=\t\t\" Батарея N2 \";\r\n\t\t\t\t\t\t\t\t\r\n\tptrs[4+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N1 \";\r\n\tptrs[5+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N2 \";\r\n\tptrs[6+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[7+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N4 \";\r\n\tptrs[8+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N5 \";\r\n\tptrs[9+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[10+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N7 \";\r\n\tptrs[11+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N8 \";\r\n\tptrs[12+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N9 \";\r\n\tptrs[13+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N10 \";\r\n\tptrs[14+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N11 \";\r\n\tptrs[15+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N12 \";\r\n\r\n\tptrs[4+NUMIST+NUMBAT]=\t\t\t\t\t\t\t\" Монитор АКБ N1 \";\r\n\tptrs[5+NUMIST+NUMBAT]=\t\t\t\t\t\t\t\" Монитор АКБ N2 \";\r\n\tptrs[6+NUMIST+NUMBAT]=\t\t\t\t\t\t\t\" Монитор АКБ N3 \";\r\n\tptrs[7+NUMIST+NUMBAT]=\t\t\t\t\t\t\t\" Монитор АКБ N4 \";\r\n\r\n\r\n\tptrs[4+NUMIST+NUMBAT+NUMMAKB]= \t\t\t\t\t\" Сеть \"; \r\n\tptrs[5+NUMIST+NUMBAT+NUMMAKB]= \t\t\t\t\t\" Нагрузка \"; \r\n\tptrs[6+NUMIST+NUMBAT+NUMMAKB]= \t\t\t\t\t\" Внешние датчики \"; \r\n \tptrs[6+NUMIST+NUMBAT+NUMMAKB+(NUMEXT!=0)]= \t\t\" Спецфункции \t \";\r\n\tptrs[7+NUMIST+NUMBAT+NUMMAKB+(NUMEXT!=0)]= \t\t\" Установки \"; \r\n\tptrs[8+NUMIST+NUMBAT+NUMMAKB+(NUMEXT!=0)]= \t\t\" Журнал событий \"; \r\n\tptrs[9+NUMIST+NUMBAT+NUMMAKB+(NUMEXT!=0)]= \t\t\" Выход \"; \r\n\tptrs[10+NUMIST+NUMBAT+NUMMAKB+(NUMEXT!=0)]= \t\" Журнал батареи N1 \"; \r\n\tptrs[11+NUMIST+NUMBAT+NUMMAKB+(NUMEXT!=0)]= \t\" Журнал батареи N2 \"; \r\n\tptrs[12+NUMIST+NUMBAT+NUMMAKB+(NUMEXT!=0)]=\t\t\" Тест \";\r\n\tptrs[13+NUMIST+NUMBAT+NUMMAKB+(NUMEXT!=0)]=\t\t\" Специнформация \";\r\n\r\n\tif(sub_ind==0)index_set=0;\r\n\telse if((index_set-sub_ind)>2)index_set=sub_ind+2;\r\n\telse if(sub_ind>index_set)index_set=sub_ind;\r\n\t\r\n\tif(sub_cnt<5)bgnd_par(ptrs[0],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\telse bgnd_par(sub_ptrs[sub_cnt-5],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\t\r\n\tif((ii_cnt<=80)\|\|((spc_stat!=spcVZ)&&(spc_stat!=spcKE)/&&(spc_stat!=spcKE2p1)/)) \r\n\t\t{\r\n\t\tif((ii_!=139)&&(/(src_state[0]==ssWRK)\|\|(src_state[1]==ssWRK)\|\|(src_state[2]==ssWRK))/num_of_wrks_bps!=0))\r\n\t\t\t{\r\n\t\t\tif(sub_cnt<5)int2lcdyx(num_of_wrks_bps,0,14,0);\r\n\t\t\t}\r\n \t}\r\n\r\n/\tif((!NUMBAT)&&(!NUMINV)) {\r\n\t\tint2lcd(byps._Uout,'#',1);\r\n \tint2lcd(byps._Iout,'$',1); \r\n\t} else {/\r\n\tint2lcd(load_U,'#',1);\r\n\tint2lcd(load_I,'$',1);\r\n/\t}/\r\n \t\r\n\tint2lcd(LPC_RTC->HOUR,'%',0);\r\n\tint2lcd(LPC_RTC->MIN,'^',0);\r\n\tint2lcd(LPC_RTC->SEC,'&',0);\r\n\tint2lcd(LPC_RTC->DOM,'<',0);\r\n\tint2lcd(LPC_RTC->YEAR,'{',0); \r\n\tsub_bgnd(sm_mont[LPC_RTC->MONTH],'>',0);\r\n\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t }\r\n\r\n\tif((index_set)&&(sub_ind))\r\n\t {\r\n\t if(index_set==sub_ind)lcd_buffer[60]=1;\r\n\t else if((index_set-sub_ind)==1)lcd_buffer[40]=1;\r\n\t else if((index_set-sub_ind)==2)lcd_buffer[20]=1;\r\n\t }\t\r\n\t\t\r\n\tcnt_ind_bat++;\r\n\tif(cnt_ind_bat>=(NUMBAT20)) cnt_ind_bat=0;\r\n\t\r\n\tif((AUSW_MAIN==2400)\|\|(AUSW_MAIN==4800)\|\|(AUSW_MAIN==6000)\|\|\r\n\t\t(AUSW_MAIN==2403)\|\|(AUSW_MAIN==4803)\|\|(AUSW_MAIN==6003))sub_bgnd(\" \",'z',-2);\r\n\telse if(NUMBAT==0)sub_bgnd(\" Работа без батарей \",'z',-2);\r\n\telse\r\n\t\t{\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tif((NUMBAT==1)&&(!(BAT_IS_ON[0]==bisON)))\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[1]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t\t\tif((AUSW_MAIN==24120)\|\|(AUSW_MAIN==24210)\|\|(AUSW_MAIN==24123)\|\|(AUSW_MAIN==48140)) int2lcd_mmm(bat[1]._Ib/10,'@',1);\r\n\t\t\t\telse int2lcd_mmm(bat[1]._Ib,'@',2);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[cnt_ind_bat/20]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t\t\tif((AUSW_MAIN==24120)\|\|(AUSW_MAIN==24210)\|\|(AUSW_MAIN==24123)\|\|(AUSW_MAIN==48140)) int2lcd_mmm(bat[cnt_ind_bat/20]._Ib/10,'@',1);\r\n\t\t\t\telse \r\n\t\t\t\t\t{\r\n\t\t\t\t\tif((bat[cnt_ind_bat/20]._Ib<=9999)&&(bat[cnt_ind_bat/20]._Ib>=-9999))int2lcd_mmm(bat[cnt_ind_bat/20]._Ib,'@',2);\r\n\t\t\t\t\telse int2lcd_mmm(bat[cnt_ind_bat/20]._Ib/10,'@',1);\r\n\t\t\t\t\t}\r\n\t\t\t \t}\r\n\t\t\t}\t\t\r\n\t\t}\r\n\r\n\tint2lcd(vz_cnt_s_/60,'x',0);\r\n\tint2lcd(vz_cnt_h_,'X',0); \r\n\r\n\t//int2lcdyx(plazma_bat_drv0,0,4,0);\r\n\t//int2lcdyx(plazma_bat_drv1,0,10,0);\r\n\t//int2lcdyx(bat[0]._min_cell_volt,0,15,0); \r\n\t//int2lcdyx(bat_drv_rx_cnt,0,19,0);\r\n//\tint2lcdyx(bps[i+20]._buff[14],0,19,0);\r\n/\tint2lcdyx(makb[2]._cnt,0,10,0);/\r\n\t//int2lcdyx(first_inv_slot,0,19,0);\t\r\n \t//int2lcdyx(npn_tz_cnt,0,7,0);\r\n\t//char2lcdbyx(GET_REG(LPC_GPIO0->FIOPIN,4,8),0,19);\r\n\t//int2lcdyx(lc640_read_int(ADR_EE_BAT_IS_ON[0]),0,4,0);\r\n\t//int2lcdyx(lc640_read_int(ADR_EE_BAT_IS_ON[1]),0,9,0);\r\n\t//int2lcdyx(load_U,0,14,0);\r\n\t//int2lcdyx(rx_read_power_cnt_phase,0,2,0);\r\n\t//int2lcdyx(rx_read_power_cnt_plazma,0,5,0);\r\n\t//int2lcdyx(rx_wr_index1/rx_read_power_cnt_flag/,0,8,0);\r\n\t//int2lcdyx(bENERGOMETR_UIP,0,11,0);\r\n\t//int2lcdyx(read_power_cnt_main_cnt/rx_buffer1[rx_wr_index1-1]/,0,15,0);\r\n\t//int2lcdyx(volta_short,0,19,0);\r\n\t//int2lcdyx(main_kb_cnt,0,5,0);\r\n\t/int2lcdyx(web_plazma[0],0,3,0);\r\n\tint2lcdyx(web_plazma[1],0,7,0);\r\n\tint2lcdyx(web_plazma[2],0,10,0);\r\n\tint2lcdyx(web_plazma[3],0,13,0);\r\n\tint2lcdyx(web_plazma[4],0,16,0);\r\n\tint2lcdyx(web_param_input,0,19,0);/\r\n\t//long2lcdyx_mmm(1234567,0,8,0);\r\n\t//long2lcdyx_mmm(web_param_input,0,19,0);\t\r\n\t}\r\n#ifndef UKU_6U_WEB\r\nelse if(ind==iMn_220)\r\n\t{\r\n\tptrs[0]\t=\t\" \";\r\n\r\n\tif(num_of_wrks_bps)\t\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" В работе rист. \";\r\n\t\t}\r\n\telse if((NUMBAT>1)&&(!((bat[0]._av)&0x01))&&(!((bat[1]._av)&0x01)))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" Работа от батарей \";\r\n\t\t}\r\n\telse if((BAT_IS_ON[0]==bisON)&&(!((bat[0]._av)&0x01)))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №1\";\r\n\t\t}\r\n\telse if((BAT_IS_ON[1]==bisON)&&(!((bat[1]._av)&0x01)))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №2\";\r\n\t\t}\r\n\r\n\t \r\n i=0;\r\n \t\r\n \tptrs[1]=\"Uбz= ]В Iбz= @А\";\r\n\t\r\n\tif((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043)\|\|(AUSW_MAIN==22044))\r\n\t\t{\r\n\t\tptrs[2]=\"Uвых #В Iвых $А\";\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tptrs[2]=\"Uн= #В Iн= $А\";\r\n\t\t}\r\n ptrs[3]=\" 0%:0^:0& 0</> /0{ \";\r\n \r\n \tptrs[4]=\t\t\t\t\t\t\t\t\t\t\" Батарея N1 \";\r\n ptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея N2 \";\r\n if((NUMBAT==1)&&(BAT_IS_ON[0]!=bisON))ptrs[4]=\t\t\" Батарея N2 \";\r\n\t\t\t\t\t\t\t\t\r\n\tptrs[4+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[5+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[6+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N3 \";\r\n ptrs[7+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[8+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[9+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N6 \";\r\n ptrs[10+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[11+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[12+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N9 \";\r\n ptrs[13+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[14+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[15+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N12 \";\r\n\r\n \r\n ptrs[4+NUMIST+NUMBAT]= \t\t\t\t\t\t\" Инвертор N1 \";\r\n ptrs[5+NUMIST+NUMBAT]= \t\t\t\t\t\t\" Инвертор N2 \";\r\n ptrs[6+NUMIST+NUMBAT]= \t\t\t\t\t\t\" Инвертор N3 \";\r\n ptrs[7+NUMIST+NUMBAT]= \t\t\t\t\t\t\" Инвертор N4 \";\r\n\r\n ptrs[4+NUMIST+NUMBAT+NUMINV]= \t\t\t\t\t\" Сеть \"; \r\n ptrs[5+NUMIST+NUMBAT+NUMINV]= \t\t\t\t\t\" Нагрузка \"; \r\n ptrs[6+NUMIST+NUMBAT+NUMINV]= \t\t\t\t\t\" Внешние датчики \";\r\n\tptrs[6+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" Ускоренный заряд \";\r\n\t\tif((sp_ch_stat!=scsOFF)&&(bFL))\r\n\tptrs[6+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" \"; \r\n \r\n \tptrs[7+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" Спецфункции \t \";\r\n ptrs[8+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" Установки \"; \r\n ptrs[9+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" Журнал событий \"; \r\n ptrs[10+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\" Выход \"; \r\n ptrs[11+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\" Журнал батареи N1 \"; \r\n ptrs[12+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\" Журнал батареи N2 \"; \r\n\tptrs[13+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]=\t\t\" Тест \";\r\n\tptrs[14+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]=\t\t\" Таблица источников \";\r\n\r\n if(sub_ind==0)index_set=0;\r\n\telse if((index_set-sub_ind)>2)index_set=sub_ind+2;\r\n\telse if(sub_ind>index_set)index_set=sub_ind;\r\n\t\r\n\tif(sub_cnt<5)bgnd_par(ptrs[0],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\telse bgnd_par(sub_ptrs[sub_cnt-5],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\t\r\n\tif((ii_cnt<=80)\|\|((spc_stat!=spcVZ)&&(spc_stat!=spcKE))) \r\n\t\t{\r\n\t//if((ii_!=139)&&(/(src_state[0]==ssWRK)\|\|(src_state[1]==ssWRK)\|\|(src_state[2]==ssWRK))/num_of_wrks_bps!=0))\r\n//\t\t{\r\n\t\t\r\n\t\tif((sub_cnt<5)&&(num_of_wrks_bps!=0))int2lcdyx(num_of_wrks_bps,0,14,0);\r\n\r\n //}\r\n \t}\r\n\r\n\tif((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043)\|\|(AUSW_MAIN==22044))\r\n\t\t{\r\n\t\tint2lcd(load_U/10,'#',0);\r\n \t\tint2lcd(load_I/10,'$',0);\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tint2lcd(load_U/10,'#',0);\r\n \t\tint2lcd(load_I,'$',1);\r\n\t\t}\r\n \t\r\n\tint2lcd(LPC_RTC->HOUR,'%',0);\r\n\tint2lcd(LPC_RTC->MIN,'^',0);\r\n\tint2lcd(LPC_RTC->SEC,'&',0);\r\n\tint2lcd(LPC_RTC->DOM,'<',0);\r\n\tint2lcd(LPC_RTC->YEAR,'{',0); \r\n\tsub_bgnd(sm_mont[LPC_RTC->MONTH],'>',0);\r\n\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t }\r\n\r\n\tif((index_set)&&(sub_ind))\r\n\t {\r\n\t if(index_set==sub_ind)lcd_buffer[60]=1;\r\n\t else if((index_set-sub_ind)==1)lcd_buffer[40]=1;\r\n\t else if((index_set-sub_ind)==2)lcd_buffer[20]=1;\r\n\t }\t\r\n\t\t\r\n\tcnt_ind_bat++;\r\n\tif(cnt_ind_bat>=(NUMBAT20)) cnt_ind_bat=0;\r\n\t \r\n\tif((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043)\|\|(AUSW_MAIN==22044)\|\|(AUSW_MAIN==22011))\r\n\t\t{\r\n\t\tsub_bgnd(\"Iб @А Tб ?°C\",'z',-2);\r\n\t\tif(bIBAT_SMKLBR)sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\telse int2lcd_mmm(Ib_ips_termokompensat,'@',2);\r\n\t\tint2lcd_mmm(t_ext[0],'?',0);\r\n\t\t}\r\n\tif(NUMBAT==0)sub_bgnd(\" Работа без батарей \",'z',-2);\r\n\telse\r\n\t\t{\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tif((NUMBAT==1)&&(!(BAT_IS_ON[0]==bisON)))\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[1]._Ub/10,']',0);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[1]._Ib,'@',2);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[cnt_ind_bat/20]._Ub/10,']',0);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[cnt_ind_bat/20]._Ib,'@',2);\r\n\t\t\t}\t\t}\r\n\r\n\tint2lcd(vz_cnt_s_/60,'x',0);\r\n\tint2lcd(vz_cnt_h_,'X',0); \t\r\n\t//int2lcdyx(u_necc,0,4,0); \r\n\t//int2lcdyx(BAT_TYPE,0,19,0);\r\n\t//int2lcdyx(AUSW_MAIN,0,14,0);\r\n//\tint2lcdyx(Ib_ips_termokompensat,0,19,0); \r\n\t//int2lcdyx(modbus_plazma,0,3,0); \r\n/\tint2lcdyx(modbus_rx_arg1,0,7,0);\r\n\tint2lcdyx(modbus_rx_arg2,0,14,0);\r\n\tint2lcdyx(modbus_rx_counter,0,19,0);/\r\n\t//int2lcdyx((((LPC_CAN1->GSR)&(0xff000000))>>24),0,19,0);\r\n\t/*/\r\n\t/int2lcdyx(speedChrgBlckLog,0,13,0);/\t\r\n/\tint2lcdyx(speedChrgBlckSrc,0,1,0);\r\n\tint2lcdyx(speedChrgBlckLog,0,4,0);\t\r\n\tint2lcdyx(adc_buff_[11],0,7,0);\r\n\tint2lcdyx(adc_buff_[13],0,10,0);\r\n\t\t\t\t\t\t\t\t /\r\n\t\r\n\t/int2lcdyx(tx_wr_index_sc16is700,0,2,0);\r\n\tint2lcdyx(tx_rd_index_sc16is700,0,5,0);\r\n\r\n\tint2lcdyx(sc16is700TxFifoLevel,0,8,0);\r\n\tint2lcdyx(modbus_plazma,0,19,0);\r\n\tint2lcdyx(sc16is700ByteAvailable,0,12,0); /\r\n\t\r\n\t//int2lcdyx(bps[0]._Uii,0,5,0);\r\n\t//int2lcdyx(IZMAX_,0,10,0);\r\n\t\t \r\n\t}\r\n\r\nelse if(ind==iMn_220_V2)\r\n\t{\r\n\tptrs[0]\t=\t\" \";\r\n\r\n\tif(num_of_wrks_bps)\t\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" В работе rист. \";\r\n\t\t}\r\n\telse if((NUMBAT>1)&&(!((bat[0]._av)&0x01))&&(!((bat[1]._av)&0x01)))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" Работа от батарей \";\r\n\t\t}\r\n\telse if((BAT_IS_ON[0]==bisON)&&(!((bat[0]._av)&0x01)))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №1\";\r\n\t\t}\r\n\telse if((BAT_IS_ON[1]==bisON)&&(!((bat[1]._av)&0x01)))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №2\";\r\n\t\t}\r\n\r\n\t \r\n i=0;\r\n \t\r\n \tptrs[1]=\"Uбz= ]В Iбz= @А\";\r\n\t\r\n\tif((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043)\|\|(AUSW_MAIN==22044))\r\n\t\t{\r\n\t\tptrs[2]=\"Uвых #В Iвых $А\";\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tptrs[2]=\"Uн= #В Iн= $А\";\r\n\t\t}\r\n ptrs[3]=\" 0%:0^:0& 0</> /0{ \";\r\n \r\n \tptrs[4]=\t\t\t\t\t\t\t\t\t\t\" Батарея N1 \";\r\n ptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея N2 \";\r\n if((NUMBAT==1)&&(BAT_IS_ON[0]!=bisON))ptrs[4]=\t\" Батарея N2 \";\r\n\t\t\t\t\t\t\t\t\r\n\tptrs[4+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[5+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[6+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N3 \";\r\n ptrs[7+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[8+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[9+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N6 \";\r\n ptrs[10+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[11+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[12+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N9 \";\r\n ptrs[13+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[14+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[15+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N12 \";\r\n\r\n \r\n ptrs[4+NUMIST+NUMBAT]= \t\t\t\t\t\t\" Инвертор N1 \";\r\n ptrs[5+NUMIST+NUMBAT]= \t\t\t\t\t\t\" Инвертор N2 \";\r\n ptrs[6+NUMIST+NUMBAT]= \t\t\t\t\t\t\" Инвертор N3 \";\r\n ptrs[7+NUMIST+NUMBAT]= \t\t\t\t\t\t\" Инвертор N4 \";\r\n\r\n ptrs[4+NUMIST+NUMBAT+NUMINV]= \t\t\t\t\t\" Сеть \"; \r\n ptrs[5+NUMIST+NUMBAT+NUMINV]= \t\t\t\t\t\" Нагрузка \"; \r\n ptrs[6+NUMIST+NUMBAT+NUMINV]= \t\t\t\t\t\" Внешние датчики \"; \r\n\tptrs[6+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" Спецфункции \t \";\r\n\tptrs[7+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" Ускоренный заряд \";\r\n\t\t\tif((sp_ch_stat!=scsOFF)&&(bFL))\r\n\tptrs[7+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" \"; \r\n\r\n ptrs[8+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" Установки \"; \r\n ptrs[9+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" Журнал событий \"; \r\n ptrs[10+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" Выход \"; \r\n ptrs[11+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" Журнал батареи N1 \"; \r\n ptrs[12+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\" Журнал батареи N2 \"; \r\n\tptrs[13+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]=\t\t\" Тест \";\r\n\r\n if(sub_ind==0)index_set=0;\r\n\telse if((index_set-sub_ind)>2)index_set=sub_ind+2;\r\n\telse if(sub_ind>index_set)index_set=sub_ind;\r\n\t\r\n\tif(sub_cnt<5)bgnd_par(ptrs[0],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\telse bgnd_par(sub_ptrs[sub_cnt-5],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\t\r\n\tif((ii_cnt<=80)\|\|((spc_stat!=spcVZ)&&(spc_stat!=spcKE))) \r\n\t\t{\r\n\t//if((ii_!=139)&&(/(src_state[0]==ssWRK)\|\|(src_state[1]==ssWRK)\|\|(src_state[2]==ssWRK))/num_of_wrks_bps!=0))\r\n//\t\t{\r\n\t\t\r\n\t\tif((sub_cnt<5)&&(num_of_wrks_bps!=0))int2lcdyx(num_of_wrks_bps,0,14,0);\r\n\r\n //}\r\n \t}\r\n\r\n\tif((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043)\|\|(AUSW_MAIN==22044))\r\n\t\t{\r\n\t\tint2lcd(load_U/10,'#',0);\r\n \t\tint2lcd(load_I/10,'$',0);\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tint2lcd(load_U/10,'#',0);\r\n \t\tint2lcd(load_I,'$',1);\r\n\t\t}\r\n \t\r\n\tint2lcd(LPC_RTC->HOUR,'%',0);\r\n\tint2lcd(LPC_RTC->MIN,'^',0);\r\n\tint2lcd(LPC_RTC->SEC,'&',0);\r\n\tint2lcd(LPC_RTC->DOM,'<',0);\r\n\tint2lcd(LPC_RTC->YEAR,'{',0); \r\n\tsub_bgnd(sm_mont[LPC_RTC->MONTH],'>',0);\r\n\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t }\r\n\r\n\tif((index_set)&&(sub_ind))\r\n\t {\r\n\t if(index_set==sub_ind)lcd_buffer[60]=1;\r\n\t else if((index_set-sub_ind)==1)lcd_buffer[40]=1;\r\n\t else if((index_set-sub_ind)==2)lcd_buffer[20]=1;\r\n\t }\t\r\n\t\t\r\n\tcnt_ind_bat++;\r\n\tif(cnt_ind_bat>=(NUMBAT20)) cnt_ind_bat=0;\r\n\t \r\n\tif((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043)\|\|(AUSW_MAIN==22044))\r\n\t\t{\r\n\t\tsub_bgnd(\"Iб @А Tб ?°C\",'z',-2);\r\n\t\tif(bIBAT_SMKLBR)sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\telse int2lcd_mmm(Ib_ips_termokompensat,'@',2);\r\n\t\tint2lcd_mmm(t_ext[0],'?',0);\r\n\t\t}\r\n\tif(NUMBAT==0)sub_bgnd(\" Работа без батарей \",'z',-2);\r\n\telse\r\n\t\t{\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tif((NUMBAT==1)&&(!(BAT_IS_ON[0]==bisON)))\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[1]._Ub/10,']',0);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[1]._Ib,'@',2);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[cnt_ind_bat/20]._Ub/10,']',0);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse int2lcd_mmm(bat[cnt_ind_bat/20]._Ib,'@',2);\r\n\t\t\t}\t\t}\r\n\r\n\tif(spc_stat==spcVZ)\r\n\t\t{\r\n\t\tint2lcd(vz_cnt_s_/60,'x',0);\r\n\t\tint2lcd(vz_cnt_h_,'X',0); \t\r\n\t\t}\r\n\r\n\telse if(sp_ch_stat==scsWRK)\r\n\t\t{\r\n\t\tint2lcd((short)((hv_vz_up_cnt/60L)%60L),'x',0);\r\n\t\tint2lcd((short)((hv_vz_up_cnt/60L)/60L),'X',0); \r\n\t\t} \t\r\n\t//int2lcdyx(ibat_metr_buff_[0],0,5,0);\r\n\t//int2lcdyx(ibat_metr_buff_[1],0,15,0);\r\n\t//int2lcdyx(bIBAT_SMKLBR,0,19,0);\r\n\t\t\t \r\n\t}\r\nelse if(ind==iMn_220_IPS_TERMOKOMPENSAT)\r\n\t{\r\n\tptrs[0]\t=\t\" \";\r\n\r\n\tif((NUMBAT>5)\|\|(NUMBAT<0))NUMBAT=0;\r\n\tif((NUMIST>50)\|\|(NUMIST<0))NUMIST=0;\r\n\tif((SMART_SPC!=0)&&(SMART_SPC!=1))SMART_SPC=0;\r\n\tif((num_rki>1)\|\|(num_rki<0)) num_rki=0;\r\n\tif((num_net_in>3)\|\|(num_rki<0)) num_net_in=0;\r\n\tif(num_of_wrks_bps)\t\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" В работе rист. \";\r\n\t\t}\r\n\telse if(!((bat[0]._av)&0x01))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" Работа от батарей \";\r\n\t\t}\r\n\r\n\t \r\n i=0;\r\n \tif(NUMBAT>3)NUMBAT=0;\r\n \t//ptrs[1]=\"Uбz= ]В Iбz= @А\";\r\n\tptrs[1]=\t\t\t\t\t\t\t\t\t\t\t\t\t\"Uвыпр ]В Iвыпр @А\";\t\r\n\tptrs[2]=\t\t\t\t\t\t\t\t\t\t\t\t\t\"Uшины #В Iбат $А\";\r\n ptrs[3]=\t\t\t\t\t\t\t\t\t\t\t\t\t\" 0%:0^:0& 0z/w /0{ \";\t \r\n\tptrs[4]=\t\t\t\t\t\t\t\t\t\t\t\t\t\" Tб ?°C \";\r\n \r\n\tif(NUMBAT)\tptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея \";\r\n/* ptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея N2 \";\r\n if((NUMBAT==1)&&(BAT_IS_ON[0]!=bisON))ptrs[4]=\t\" Батарея N2 \";/\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\tptrs[5+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[6+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[7+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N3 \";\r\n ptrs[8+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[9+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[10+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N6 \";\r\n ptrs[11+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[12+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[13+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N9 \";\r\n ptrs[14+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[15+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[16+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N12 \";\r\n ptrs[17+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[18+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[19+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" БПС N12 \";\r\n \r\n\r\n ptrs[5+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\" Сеть \";\r\n \r\n\tptrs[6+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\t\t\t\t\" Сетевые вводы \"; \r\n\tptrs[6+NUMIST+(num_net_in!=0)+NUMBAT]=\t\t\t\t\t\t\t\" Контроль изоляции \"; \r\n ptrs[6+NUMIST+(num_net_in!=0)+(num_rki!=0)+NUMBAT]= \t\t\t\" Внешние датчики \";\r\n\tptrs[6+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+NUMBAT]= \" Ускоренный заряд \";\r\n\tif((sp_ch_stat!=scsOFF)&&(bFL))\r\n\tptrs[6+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+NUMBAT]= \" \"; \r\n \t//ptrs[7+NUMIST/+NUMBAT+NUMINV/+(NUMEXT!=0)]= \t\" Спецфункции \t \";\r\n\tptrs[7+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+NUMBAT]= \" Выравнивающий заряд\";\r\n if(((hv_vz_stat!=hvsOFF)\|\|(spc_stat==spcVZ))&&(bFL))\t\r\n\tptrs[7+NUMIST+(NUMEXT!=0)+(num_net_in!=0)+(num_rki!=0)+NUMBAT]= \" \";\r\n\tif(SMART_SPC)\r\n\t\t{\r\n\tptrs[8+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+NUMBAT]= \" Уравнительный заряд\";\r\n\tptrs[9+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+NUMBAT]= \"с ручным отключением\";\r\n\tptrs[10+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+NUMBAT]=\" нагрузки включить\";\r\n if((vz1_stat!=vz1sOFF))\r\n\t\t{\r\n\t\t//ptrs[8+NUMIST+(NUMEXT!=0)+(num_net_in!=0)+(num_rki!=0)]=\" \";\r\n\t\t//ptrs[9+NUMIST+(NUMEXT!=0)+(num_net_in!=0)+(num_rki!=0)]=\" \";\r\n\t\tif(bFL)\tptrs[10+NUMIST+(NUMEXT!=0)+(num_net_in!=0)+(num_rki!=0)+NUMBAT]=\" нагрузки выключить\";\r\n\t\telse \tptrs[10+NUMIST+(NUMEXT!=0)+(num_net_in!=0)+(num_rki!=0)+NUMBAT]=\" нагрузки \";\r\n\t\t}\r\n\tptrs[11+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+NUMBAT]= \t\" Формовочный заряд \";\r\n\tptrs[12+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+NUMBAT]= \t\"с ручным отключением\";\r\n\tptrs[13+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+NUMBAT]= \t\" нагрузки включить\";\r\n if((vz2_stat!=vz2sOFF)/&&(bFL)/)\r\n\t\t{\r\n\t\t//ptrs[11+NUMIST+(NUMEXT!=0)+(num_net_in!=0)+(num_rki!=0)]=\" \";\r\n\t\t//ptrs[12+NUMIST+(NUMEXT!=0)+(num_net_in!=0)+(num_rki!=0)]=\" \";\r\n\t\tif(bFL)\tptrs[13+NUMIST+(NUMEXT!=0)+(num_net_in!=0)+(num_rki!=0)+1]=\" нагрузки выключить\";\r\n\t\telse \tptrs[13+NUMIST+(NUMEXT!=0)+(num_net_in!=0)+(num_rki!=0)+1]=\" нагрузки \";\r\n\t\t}\r\n\t\t}\r\n\tptrs[8+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+((SMART_SPC)6)+NUMBAT]= \t\" Установки \"; \r\n ptrs[9+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+((SMART_SPC)6)+NUMBAT]= \t\" Журнал событий \"; \r\n ptrs[10+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+((SMART_SPC)6)+NUMBAT]= \t\" Выход \"; \r\n //ptrs[11+NUMIST/+NUMBAT+NUMINV/+(NUMEXT!=0)]= \t\" Журнал батареи \"; \r\n //ptrs[12+NUMIST+NUMBAT+/NUMINV+/(NUMEXT!=0)]= \t\" Журнал батареи N2 \"; \r\n\tptrs[11+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+((SMART_SPC)6)+NUMBAT]=\t\" Тест \";\r\n\tptrs[12+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+((SMART_SPC)6)+NUMBAT]=\t\" Таблица источников \";\r\n\tptrs[13+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+((SMART_SPC)6)+NUMBAT]=\t\" Версия ПО \";\r\n\tptrs[14+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+((SMART_SPC)6)+NUMBAT]=\t\" Специнформация \";\r\n\tptrs[15+NUMIST+(num_net_in!=0)+(num_rki!=0)+(NUMEXT!=0)+((SMART_SPC)6)+NUMBAT]=\t\" Контроль емкости \";\r\n if(sub_ind==0)index_set=0;\r\n\telse if((index_set-sub_ind)>2)index_set=sub_ind+2;\r\n\telse if(sub_ind>index_set)index_set=sub_ind;\r\n\t\r\n\tif(sub_cnt<5)bgnd_par(ptrs[0],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\telse bgnd_par(sub_ptrs[sub_cnt-5],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n//\tbgnd_par(\" \",\" \",\" \",\" \");\r\n\r\n\tif((ii_cnt<=80)\|\|((spc_stat!=spcVZ)&&(spc_stat!=spcKE))) \r\n\t\t{\r\n\t//if((ii_!=139)&&(/(src_state[0]==ssWRK)\|\|(src_state[1]==ssWRK)\|\|(src_state[2]==ssWRK))/num_of_wrks_bps!=0))\r\n//\t\t{\r\n\t\t\r\n\t\tif((sub_cnt<5)&&(num_of_wrks_bps!=0))int2lcdyx(num_of_wrks_bps,0,14,0);\r\n\r\n //}\r\n \t}\r\n\r\n//\tif((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043))\r\n\t\t//{\r\n\t\t//int2lcd(load_U/10,'#',0);\r\n \t\t//int2lcd(load_I/10,'$',0);\r\n\t//\t}\r\n\t//else \r\n\t\t//{\r\n\t\t//int2lcd(load_U/10,'#',0);\r\n \t\t//int2lcd(load_I,'$',1);\r\n\t\t//}\r\n\r\n\tif(bps_U<1000)\tint2lcd(bps_U,']',1);\r\n\telse \t\t\tint2lcd(bps_U/10,']',0);\r\n\tif(bps_I<100)\tint2lcd(bps_I,'@',1);\r\n\telse \t\t\tint2lcd(bps_I/10,'@',0);\r\n\tif(out_U<1000)\tint2lcd(out_U,'#',1);\r\n\telse \t\t\tint2lcd(out_U/10,'#',0);\r\n \t\r\n\tint2lcd(LPC_RTC->HOUR,'%',0);\r\n\tint2lcd(LPC_RTC->MIN,'^',0);\r\n\tint2lcd(LPC_RTC->SEC,'&',0);\r\n\tint2lcd(LPC_RTC->DOM,'z',0); //oleg_start заменил < на z\r\n\tint2lcd(LPC_RTC->YEAR,'{',0); \r\n\tsub_bgnd(sm_mont[LPC_RTC->MONTH],'w',0); //oleg_start заменил > на w\r\n\r\n\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t }\r\n\r\n\tif((index_set)&&(sub_ind>1))\r\n\t {\r\n\t if(index_set==sub_ind)lcd_buffer[60]=1;\r\n\t else if((index_set-sub_ind)==1)lcd_buffer[40]=1;\r\n\t else if((index_set-sub_ind)==2)lcd_buffer[20]=1;\r\n\t }\t\r\n\t\t\r\n\t//cnt_ind_bat++;\r\n\t//if(cnt_ind_bat>=(NUMBAT20)) cnt_ind_bat=0;\r\n\t \r\n\t//if((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043)\|\|(AUSW_MAIN==22011))\r\n\t\t//{\r\n\t\t//sub_bgnd(\"Iб @А Tб ?°C\",'z',-2);\r\n\t\tif(bIBAT_SMKLBR)sub_bgnd(\"КЛБР. \",'$',-3);\r\n\t\telse if(Ib_ips_termokompensat<100)int2lcd_mmm(Ib_ips_termokompensat,'$',2);\r\n\t\telse int2lcd_mmm(Ib_ips_termokompensat/10,'$',1);\r\n\t\tif(ND_EXT[0]==1) sub_bgnd(\"неиспр.\",'?',-2);\r\n\t\tint2lcd_mmm(t_ext[0],'?',0);\r\n\t\t//}\r\n\t//if(NUMBAT==0)sub_bgnd(\" Работа без батарей \",'z',-2);\r\n\t//else\r\n\t\t//{\r\n\t\t//int2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\t//int2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\t//if((NUMBAT==1)&&(!(BAT_IS_ON[0]==bisON)))\r\n\t\t\t//{\r\n\t\t\t//int2lcd(bat[1]._Ub/10,']',0);\r\n\t\t\t//if((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\t//else int2lcd_mmm(bat[1]._Ib,'@',2);\r\n\t\t\t//}\r\n\t\t//else\r\n\t\t\t//{\r\n\t\t\t//int2lcd(bat[cnt_ind_bat/20]._Ub/10,']',0);\r\n\t\t\t//if((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t///\telse int2lcd_mmm(bat[cnt_ind_bat/20]._Ib,'@',2);\r\n\t\t//\t}\t\t}\r\n\r\n\tif(spc_stat==spcVZ)\r\n\t\t{\r\n\t\tint2lcd(vz_cnt_s_/60,'x',0);\r\n\t\tint2lcd(vz_cnt_h_,'X',0); \t\r\n\t\t}\r\n\telse if(hv_vz_stat!=hvsOFF)\r\n\t\t{\r\n\t\tint2lcd((short)((hv_vz_up_cnt/60L)%60L),'x',0);\r\n\t\tint2lcd((short)((hv_vz_up_cnt/60L)/60L),'X',0); \r\n\t\t}\r\n\telse if(sp_ch_stat==scsWRK)\r\n\t\t{\r\n\t\tint2lcd((short)((hv_vz_up_cnt/60L)%60L),'x',0);\r\n\t\tint2lcd((short)((hv_vz_up_cnt/60L)/60L),'X',0); \r\n\t\t}\r\n\telse if(vz1_stat==vz1sWRK)\r\n\t\t{\r\n\t\tint2lcd((short)((vz1_up_cnt/60L)%60L),'x',0);\r\n\t\tint2lcd((short)((vz1_up_cnt/60L)/60L),'X',0); \r\n\t\t}\r\n\telse if((vz2_stat==vz2sWRK1)\|\|(vz2_stat==vz2sWRK2))\r\n\t\t{\r\n\t\tint2lcd((short)((vz2_up_cnt/60L)%60L),'x',0);\r\n\t\tint2lcd((short)((vz2_up_cnt/60L)/60L),'X',0); \r\n\t\t}\r\n\t//int2lcdyx(uavt_set_stat,0,19,0);\r\n\r\n/\tint2lcdyx(cntrl_stat_old,1,3,0);\r\n\tint2lcdyx(ica_cntrl_hndl_cnt,0,8,0);\r\n\tint2lcdyx(ica_cntrl_hndl,0,13,0);\r\n\tint2lcdyx(ica_u_necc+20,0,19,0);\r\n\t\r\n\t//int2lcdyx(main_kb_cnt,2,3,0);\r\n/\tint2lcdyx(plazma1000[0],3,3,0);\r\n\tint2lcdyx(plazma1000[1],3,8,0);/\r\n\t//int2lcdyx(plazma1000[2],3,13,0);\r\n\t//int2lcdyx(plazma1000[3],3,18,0);\r\n/\tint2lcdyx(plazma1000[4],2,8,0);\r\n\tint2lcdyx(plazma1000[5],2,13,0);\r\n\tint2lcdyx(plazma1000[6],2,18,0);\r\n\tint2lcdyx(plazma1000[7],1,18,0);/\r\n /\r\n\tint2lcdyx(sk_stat[0],0,0,0);\r\n\tint2lcdyx(sk_stat[1],0,1,0);\r\n\t\r\n\tint2lcdyx(sp_ch_stat_old,0,5,0);\r\n\tint2lcdyx(sp_ch_stat_cnt,0,8,0);\r\n\tint2lcdyx((short)sp_ch_wrk_cnt,0,14,0);\r\n\t\r\n\t\r\n\tint2lcdyx(cntrl_stat_new,2,3,0); /\t\r\n/\tint2lcdyx(plazma_uart1,0,19,0);\r\n\tint2lcdyx(rx_wr_index1,0,15,0);\r\n\tint2lcdyx(ica_your_current,0,12,0);\r\n\tint2lcdyx(plazma_ica1,0,3,0);\r\n\tint2lcdyx(plazma_ica2,0,8,0);/\t\r\n/\t\t\t\r\n\tint2lcdyx(cnt_net_drv,0,15,0); /\r\n\r\n\t//int2lcdyx(NUMBAT,0,1,0);\r\n\t//int2lcdyx(kb_cnt_2lev,0,8,0);\r\n\t//int2lcdyx(sub_ind,0,4,0); \r\n\t//int2lcdyx(index_set,0,10,0); \r\n\t/int2lcdyx(lc640_read_int(EE_ETH_IS_ON),0,5,0);\r\n\tint2lcdyx(LPC_SC->RSID,0,10,0); \r\n\tint2lcdyx(cntrl_stat,0,15,0);\t /\r\n\t//int2lcdyx(count_Iddt,0,19,0);\r\n\t}\r\n\r\nelse if(ind==iMn_TELECORE2015)\r\n\t{\r\n\tptrs[0]\t=\t\" \";\r\n\tif(num_of_wrks_bps)\t\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" В работе rист. \";\r\n\t\t}\r\n\telse if((NUMBAT>1)&&(!bat[0]._av)&&(!bat[1]._av))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" Работа от батарей \";\r\n\t\t}\r\n\telse if((BAT_IS_ON[0]==bisON)&&(!bat[0]._av)/&&(!(()&&()))/)\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №1\";\r\n\t\t}\r\n\telse if((BAT_IS_ON[1]==bisON)&&(!bat[1]._av))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №2\";\r\n\t\t}\r\n\r\n\t \r\n i=0;\r\n \t\r\n \tptrs[1]=\"Uбz= ]В Iбz= @А\";\r\n ptrs[2]=\"Uн= #В Iн= $А\";\r\n ptrs[3]=\" 0%:0^:0& 0</> /0{ \";\r\n \r\n \tptrs[4]=\t\t\t\t\t\t\t\t\t\t\" Батарея N1 \";\r\n ptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея N2 \";\r\n \r\n\t\t\t\t\t\t\t\t\r\n\tptrs[4+NUMBAT_TELECORE]= \t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[5+NUMBAT_TELECORE]= \t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[6+NUMBAT_TELECORE]= \t\t\t\t\t\t\" БПС N3 \";\r\n ptrs[7+NUMBAT_TELECORE]= \t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[8+NUMBAT_TELECORE]= \t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[9+NUMBAT_TELECORE]= \t\t\t\t\t\t\" БПС N6 \";\r\n ptrs[10+NUMBAT_TELECORE]= \t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[11+NUMBAT_TELECORE]= \t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[12+NUMBAT_TELECORE]= \t\t\t\t\t\t\" БПС N9 \";\r\n ptrs[13+NUMBAT_TELECORE]= \t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[14+NUMBAT_TELECORE]= \t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[15+NUMBAT_TELECORE]= \t\t\t\t\t\t\" БПС N12 \";\r\n\r\n ptrs[4+NUMIST+NUMBAT_TELECORE]= \t\t\t\t\" Сеть \"; \r\n ptrs[5+NUMIST+NUMBAT_TELECORE]= \t\t\t\t\" Нагрузка \"; \r\n ptrs[6+NUMIST+NUMBAT_TELECORE]= \t\t\t\t\" Внешние датчики \"; \r\n//\tptrs[6+NUMIST+NUMBAT_TELECORE]= \t\t\t\t\" Спецфункции \t \";\r\n ptrs[7+NUMIST+NUMBAT_TELECORE]= \t\t\t\t\" Установки \"; \r\n ptrs[8+NUMIST+NUMBAT_TELECORE]= \t\t\t\t\" Журнал событий \"; \r\n ptrs[9+NUMIST+NUMBAT_TELECORE]= \t\t\t\t\" Выход \"; \r\n\tptrs[10+NUMIST+NUMBAT_TELECORE]=\t\t\t\t\" Тест \";\r\n\r\n if(sub_ind==0)index_set=0;\r\n\telse if((index_set-sub_ind)>2)index_set=sub_ind+2;\r\n\telse if(sub_ind>index_set)index_set=sub_ind;\r\n\t\r\n\tif(sub_cnt<5)bgnd_par(ptrs[0],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\telse bgnd_par(sub_ptrs[sub_cnt-5],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\t\r\n\tif((ii_cnt<=80)\|\|((spc_stat!=spcVZ)&&(spc_stat!=spcKE)/&&(spc_stat!=spcKE2p1)/)) \r\n\t\t{\r\n\tif((ii_!=139)&&(/(src_state[0]==ssWRK)\|\|(src_state[1]==ssWRK)\|\|(src_state[2]==ssWRK))/num_of_wrks_bps!=0))\r\n\t\t{\r\n\t\tif(sub_cnt<5)int2lcdyx(num_of_wrks_bps,0,14,0);\r\n\t\t}\r\n }\r\n\r\n\t/if((!NUMBAT)&&(!NUMINV)) {\r\n\t\tint2lcd(byps._Uout,'#',1);\r\n \tint2lcd(byps._Iout,'$',1); \r\n\t} else /{\r\n\t\tint2lcd(load_U,'#',1);\r\n \t\tint2lcd(load_I,'$',1);\r\n\t}\r\n \t\r\n\tint2lcd(LPC_RTC->HOUR,'%',0);\r\n\tint2lcd(LPC_RTC->MIN,'^',0);\r\n\tint2lcd(LPC_RTC->SEC,'&',0);\r\n\tint2lcd(LPC_RTC->DOM,'<',0);\r\n\tint2lcd(LPC_RTC->YEAR,'{',0); \r\n\tsub_bgnd(sm_mont[LPC_RTC->MONTH],'>',0);\r\n\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t }\r\n\r\n\tif((index_set)&&(sub_ind))\r\n\t {\r\n\t if(index_set==sub_ind)lcd_buffer[60]=1;\r\n\t else if((index_set-sub_ind)==1)lcd_buffer[40]=1;\r\n\t else if((index_set-sub_ind)==2)lcd_buffer[20]=1;\r\n\t }\t\r\n\t\t\r\n\tcnt_ind_bat++;\r\n\tif(cnt_ind_bat>=(NUMBAT_TELECORE40)) cnt_ind_bat=0;\r\n\t\r\n/\tif((AUSW_MAIN==2400)\|\|(AUSW_MAIN==4800)\|\|(AUSW_MAIN==6000)\|\|\r\n\t\t(AUSW_MAIN==2403)\|\|(AUSW_MAIN==4803)\|\|(AUSW_MAIN==6003))sub_bgnd(\" \",'z',-2);\r\n\telse/\r\n\t \r\n\tif(NUMBAT_TELECORE==0)sub_bgnd(\" Работа без батарей \",'z',-2);\r\n\telse\r\n\t\t{\r\n\t\tint2lcd((cnt_ind_bat/40)+1/+(!(BAT_IS_ON[0]==bisON))/,'z',0);\r\n\t\tint2lcd((cnt_ind_bat/40)+1/+(!(BAT_IS_ON[0]==bisON))/,'z',0);\r\n\t\tif((NUMBAT_TELECORE==1)/&&(!(BAT_IS_ON[0]==bisON))/)\r\n\t\t\t{\r\n\t\t\tif(lakb[0]._communicationFullErrorStat)\r\n\t\t\t\t{\r\n\t\t\t\tsub_bgnd(\"Err\",']',-1);\r\n\t\t\t\tsub_bgnd(\"Err\",'@',-1);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\tint2lcd(lakb[0]._tot_bat_volt,']',1);\r\n\t\t\t\tint2lcd_mmm(lakb[0]._ch_curr,'@',2);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tif(lakb[cnt_ind_bat/40]._communicationFullErrorStat)\r\n\t\t\t\t{\r\n\t\t\t\tsub_bgnd(\"Err\",']',-1);\r\n\t\t\t\tsub_bgnd(\"Err\",'@',-1);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\tint2lcd(lakb[cnt_ind_bat/40]._tot_bat_volt,']',1);\r\n\t\t\t\tint2lcd_mmm(lakb[cnt_ind_bat/40]._ch_curr,'@',2);\r\n\t\t\t \t}\r\n\t\t\t}\t\t\r\n\t\t}\r\n\r\n\tint2lcd(vz_cnt_s_/60,'x',0);\r\n\tint2lcd(vz_cnt_h_,'X',0); \r\n\r\n \r\n//\tint2lcdyx(plazma_bat_drv1,0,6,0);\r\n//\tint2lcdyx(lakb[0]._s_o_c_abs,0,19,0);\r\n//\tint2lcdyx(lakb[0]._ch_curr,0,12,0); \r\n\t//int2lcdyx(bat_drv_rx_cnt,0,19,0);\r\n//\tint2lcdyx(bps[i+20]._buff[14],0,19,0);\r\n/\tint2lcdyx(makb[2]._cnt,0,10,0);/\r\n\t//int2lcdyx(first_inv_slot,0,19,0);\t\r\n \t//int2lcdyx(npn_tz_cnt,0,7,0);\r\n\t//char2lcdbyx(GET_REG(LPC_GPIO0->FIOPIN,4,8),0,19);\r\n\t//int2lcdyx(lc640_read_int(ADR_EE_BAT_IS_ON[0]),0,4,0);\r\n\t//int2lcdyx(lc640_read_int(ADR_EE_BAT_IS_ON[1]),0,9,0);\r\n\t//int2lcdyx(BAT_IS_ON[0],0,14,0);\r\n\t//int2lcdyx(cntrl_stat,0,19,0);\r\n\t\r\n\t//\tlong2lcdyx_mmm(power_summary_tempo,0,9,0);\r\n\t//long2lcdyx_mmm(power_current_tempo,0,19,0);\r\n\t\r\n\t \r\n\t \r\n\t//int2lcdyx(plazma_stark[0],0,3,0);\r\n//\tint2lcdyx(plazma_stark[1],0,6,0);\r\n//\tint2lcdyx(lakb[0]._tot_bat_volt,0,19,0);\r\n/\tint2lcdyx(plazma_numOfTemperCells,0,12,0);\r\n\tint2lcdyx(plazma_numOfCells,0,19,0); /\r\n\t}\r\n\r\nelse if(ind==iMn_IPS_SGEP_GAZPROM)\r\n\t{\r\n\tptrs[0]\t=\t\" \";\r\n\tif(num_of_wrks_bps)\t\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" В работе rист. \";\r\n\t\t}\r\n\telse if((NUMBAT>1)&&(!bat[0]._av)&&(!bat[1]._av))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" Работа от батарей \";\r\n\t\t}\r\n\telse if((BAT_IS_ON[0]==bisON)&&(!bat[0]._av)/&&(!(()&&()))/)\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №1\";\r\n\t\t}\r\n\telse if((BAT_IS_ON[1]==bisON)&&(!bat[1]._av))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №2\";\r\n\t\t}\r\n\r\n\t \r\n i=0;\r\n \t\r\n\tptrs[1]=\"Uc= ]В Ic= @А\";\r\n\tptrs[2]=\"Uн= #В Iн= $А\";\r\n\tptrs[3]=\" 0%:0^:0& 0</> /0{ \";\r\n \r\n \t//ptrs[4]=\t\t\t\t\t\t\t\t\t\t\" Батарея N1 \";\r\n // ptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея N2 \";\r\n // if((NUMBAT==1)&&(BAT_IS_ON[0]!=bisON))ptrs[4]=\t\t\" Батарея N2 \";\r\n\t\t\t\t\t\t\t\t\r\n\tptrs[4/+NUMBAT/]= \t\t\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[5/+NUMBAT/]= \t\t\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[6/+NUMBAT/]= \t\t\t\t\t\t\t\t\" БПС N3 \";\r\n ptrs[7/+NUMBAT/]= \t\t\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[8/+NUMBAT/]= \t\t\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[9/+NUMBAT/]= \t\t\t\t\t\t\t\t\" БПС N6 \";\r\n ptrs[10/+NUMBAT/]= \t\t\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[11/+NUMBAT/]= \t\t\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[12/+NUMBAT/]= \t\t\t\t\t\t\t\t\" БПС N9 \";\r\n ptrs[13/+NUMBAT/]= \t\t\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[14/+NUMBAT/]= \t\t\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[15/+NUMBAT/]= \t\t\t\t\t\t\t\t\" БПС N12 \";\r\n\r\n\t//ptrs[4+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Байпас \"; \r\n\r\n /* ptrs[4+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\t\" Инвертор N1 \";\r\n ptrs[5+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\t\" Инвертор N2 \";\r\n ptrs[6+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\t\" Инвертор N3 \";\r\n ptrs[7+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\t\" Инвертор N4 \";\r\n ptrs[8+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\t\" Инвертор N5 \";\r\n ptrs[9+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\t\" Инвертор N6 \";\r\n ptrs[10+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\" Инвертор N7 \";\r\n ptrs[11+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\" Инвертор N8 \";\r\n ptrs[12+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\" Инвертор N9 \";\r\n ptrs[13+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\" Инвертор N10 \";\r\n ptrs[14+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\" Инвертор N11 \";\r\n ptrs[15+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\" Инвертор N12 \";\r\n ptrs[16+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\" Инвертор N13 \";\r\n ptrs[17+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\" Инвертор N14 \";\r\n ptrs[18+NUMIST+NUMBAT+NUMBYPASS]= \t\t\t\t\" Инвертор N15 \";\r\n\r\n\tptrs[4+NUMIST+NUMBAT+NUMBYPASS+NUMINV]= \t\t\t\" Таблица инверторов \";\t/\r\n\r\n // ptrs[4+NUMIST/+NUMBAT+NUMINV+NUMBYPASS+(NUMINV!=0)/]=\t\t\t\t\" Монитор АКБ N1 \";\r\n // ptrs[5+NUMIST/+NUMBAT+NUMINV+NUMBYPASS+(NUMINV!=0)/]=\t\t\t\t\" Монитор АКБ N2 \";\r\n // ptrs[6+NUMIST/+NUMBAT+NUMINV+NUMBYPASS+(NUMINV!=0)/]=\t\t\t\t\" Монитор АКБ N3 \";\r\n // ptrs[7+NUMIST/+NUMBAT+NUMINV+NUMBYPASS+(NUMINV!=0)/]=\t\t\t\t\" Монитор АКБ N4 \";\r\n\r\n\r\n ptrs[4+NUMIST/+NUMBAT+NUMINV+NUMMAKB+NUMBYPASS+(NUMINV!=0)/]= \t\t\t\t\" Сеть \"; \r\n ptrs[5+NUMIST/+NUMBAT+NUMINV+NUMMAKB+NUMBYPASS+(NUMINV!=0)/]= \t\t\t\t\" Нагрузка \"; \r\n //ptrs[6+NUMIST+NUMBAT+NUMINV+NUMMAKB+NUMBYPASS+(NUMINV!=0)]= \t\t\t\t\" Внешние датчики \"; \r\n \t//ptrs[6+NUMIST+NUMBAT+NUMINV+NUMMAKB+NUMBYPASS+(NUMEXT!=0)+(NUMINV!=0)]= \t\" Спецфункции \t \";\r\n\tptrs[6+NUMIST/+NUMBAT+NUMINV+NUMMAKB+NUMBYPASS+(NUMEXT!=0)+(NUMINV!=0)/]= \t\" Установки \"; \r\n\tptrs[7+NUMIST/+NUMBAT+NUMINV+NUMMAKB+NUMBYPASS+(NUMEXT!=0)+(NUMINV!=0)/]= \t\" Журнал событий \"; \r\n\tptrs[8+NUMIST/+NUMBAT+NUMINV+NUMMAKB+NUMBYPASS+(NUMEXT!=0)+(NUMINV!=0)/]= \t\" Выход \"; \r\n // ptrs[10+NUMIST+NUMBAT+NUMINV+NUMMAKB+NUMBYPASS+(NUMEXT!=0)+(NUMINV!=0)]= \t\" Журнал батареи N1 \"; \r\n // ptrs[11+NUMIST+NUMBAT+NUMINV+NUMMAKB+NUMBYPASS+(NUMEXT!=0)+(NUMINV!=0)]= \t\" Журнал батареи N2 \"; \r\n\tptrs[9+NUMIST/+NUMBAT+NUMINV+NUMMAKB+NUMBYPASS+(NUMEXT!=0)+(NUMINV!=0)/]=\t\" Тест \";\r\n\r\n if(sub_ind==0)index_set=0;\r\n\telse if((index_set-sub_ind)>2)index_set=sub_ind+2;\r\n\telse if(sub_ind>index_set)index_set=sub_ind;\r\n\t\r\n\tif(sub_cnt<5)bgnd_par(ptrs[0],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\telse bgnd_par(sub_ptrs[sub_cnt-5],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\t\r\n\tif((ii_cnt<=80)\|\|((spc_stat!=spcVZ)&&(spc_stat!=spcKE)/&&(spc_stat!=spcKE2p1)/)) \r\n\t\t{\r\n\tif((ii_!=139)&&(/(src_state[0]==ssWRK)\|\|(src_state[1]==ssWRK)\|\|(src_state[2]==ssWRK))/num_of_wrks_bps!=0))\r\n\t\t{\r\n\t\t\r\n\t\tif(sub_cnt<5)int2lcdyx(num_of_wrks_bps,0,14,0);\r\n\r\n }\r\n }\r\n\r\n\tint2lcd(load_U,'#',1);\r\n \tint2lcd(load_I,'$',1);\r\n \t\r\n\tint2lcd(LPC_RTC->HOUR,'%',0);\r\n\tint2lcd(LPC_RTC->MIN,'^',0);\r\n\tint2lcd(LPC_RTC->SEC,'&',0);\r\n\tint2lcd(LPC_RTC->DOM,'<',0);\r\n\tint2lcd(LPC_RTC->YEAR,'{',0); \r\n\tsub_bgnd(sm_mont[LPC_RTC->MONTH],'>',0);\r\n\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t }\r\n\r\n\tif((index_set)&&(sub_ind))\r\n\t {\r\n\t if(index_set==sub_ind)lcd_buffer[60]=1;\r\n\t else if((index_set-sub_ind)==1)lcd_buffer[40]=1;\r\n\t else if((index_set-sub_ind)==2)lcd_buffer[20]=1;\r\n\t }\t\r\n\t\t\r\n\tcnt_ind_bat++;\r\n\tif(cnt_ind_bat>=(NUMBAT20)) cnt_ind_bat=0;\r\n\t\r\n/\tif((AUSW_MAIN==2400)\|\|(AUSW_MAIN==4800)\|\|(AUSW_MAIN==6000)\|\|\r\n\t\t(AUSW_MAIN==2403)\|\|(AUSW_MAIN==4803)\|\|(AUSW_MAIN==6003))sub_bgnd(\" \",'z',-2);\r\n\telse if(NUMBAT==0)sub_bgnd(\" Работа без батарей \",'z',-2);\r\n\telse\r\n\t\t{\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tif((NUMBAT==1)&&(!(BAT_IS_ON[0]==bisON)))\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[1]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t\t\tif((AUSW_MAIN==24120)\|\|(AUSW_MAIN==24210)\|\|(AUSW_MAIN==24123)\|\|(AUSW_MAIN==48140)) int2lcd_mmm(bat[1]._Ib/10,'@',1);\r\n\t\t\t\telse int2lcd_mmm(bat[1]._Ib,'@',2);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tint2lcd(bat[cnt_ind_bat/20]._Ub,']',1);\r\n\t\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t\t\tif((AUSW_MAIN==24120)\|\|(AUSW_MAIN==24210)\|\|(AUSW_MAIN==24123)\|\|(AUSW_MAIN==48140)) int2lcd_mmm(bat[cnt_ind_bat/20]._Ib/10,'@',1);\r\n\t\t\t\telse \r\n\t\t\t\t\t{\r\n\t\t\t\t\tif((bat[cnt_ind_bat/20]._Ib<=9999)&&(bat[cnt_ind_bat/20]._Ib>=-9999))int2lcd_mmm(bat[cnt_ind_bat/20]._Ib,'@',2);\r\n\t\t\t\t\telse int2lcd_mmm(bat[cnt_ind_bat/20]._Ib/10,'@',1);\r\n\t\t\t\t\t}\r\n\t\t\t \t}\r\n\t\t\t}\t\t\r\n\t\t}/\r\n\r\n\tint2lcd(volta_short,']',1);\r\n\tint2lcd_mmm(curr_short,'@',2);\r\n\r\n\tint2lcd(vz_cnt_s_/60,'x',0);\r\n\tint2lcd(vz_cnt_h_,'X',0); \r\n\r\n\t//int2lcdyx(plazma_bat_drv0,0,4,0);\r\n\t//int2lcdyx(plazma_bat_drv1,0,10,0);\r\n\t//int2lcdyx(bat[0]._min_cell_volt,0,15,0); \r\n\t//int2lcdyx(bat_drv_rx_cnt,0,19,0);\r\n//\tint2lcdyx(bps[i+20]._buff[14],0,19,0);\r\n/\tint2lcdyx(makb[2]._cnt,0,10,0);/\r\n\t//int2lcdyx(first_inv_slot,0,19,0);\t\r\n \t//int2lcdyx(npn_tz_cnt,0,7,0);\r\n\t//char2lcdbyx(GET_REG(LPC_GPIO0->FIOPIN,4,8),0,19);\r\n\t//int2lcdyx(lc640_read_int(ADR_EE_BAT_IS_ON[0]),0,4,0);\r\n\t//int2lcdyx(lc640_read_int(ADR_EE_BAT_IS_ON[1]),0,9,0);\r\n\t//int2lcdyx(load_U,0,14,0);\r\n\t//int2lcdyx(rx_read_power_cnt_phase,0,2,0);\r\n\t//int2lcdyx(rx_read_power_cnt_plazma,0,5,0);\r\n\t//int2lcdyx(rx_wr_index1/rx_read_power_cnt_flag/,0,8,0);\r\n\t//int2lcdyx(bENERGOMETR_UIP,0,11,0);\r\n\t//int2lcdyx(read_power_cnt_main_cnt/rx_buffer1[rx_wr_index1-1]/,0,15,0);\r\n\t//int2lcdyx(bps[1]._flags_tu,0,19,0);\r\n\t//int2lcdyx(bps[0]._flags_tu,0,15,0);\r\n\t//int2lcdyx(cntrl_stat,0,5,0);\r\n\t\r\n\t}\r\n\r\n//#ifndef _DEBUG_\r\nelse if (ind==iBat)\r\n\t{\r\n\tif(bat[sub_ind1]._av&1/&0x01/)\r\n\t\t{\r\n\t\tif(bFL2)bgnd_par(\" АВАРИЯ! \",\r\n\t\t \" Батарея №# \",\r\n\t\t \" не подключена \",sm_);\r\n\t\telse bgnd_par(sm_,sm_,sm_,sm_);\r\n\t\tint2lcd(sub_ind1+1,'#',0);\r\n\t\t} \r\n\telse\r\n\t\t{\r\n\t\tif(bat[sub_ind1]._Ib>0)\r\n\t\t {\r\n\t\t ptrs[1]=\" заряжается \";\r\n\t\t ptrs[4]=\" Iзар= #А \";\r\n\t\t }\r\n\t\telse\r\n\t\t {\r\n\t\t ptrs[1]= \" разряжается \";\r\n\t\t ptrs[4]= \" Iразр= #А \";\r\n\t\t }\t\r\n\t\tptrs[2]= \" Uбат= $В\";\r\n\t\tptrs[3]= \" Uбат.с.т.= zВ\";\r\n\t\tif(UBM_AV)\r\n\t\tptrs[3]= \" Uбат.с.т.=(^%) zВ\";\r\n\t\tif((bat[sub_ind1]._av&0x02)&&(bFL))ptrs[3]=sm_;\r\n\t\tif(bat[sub_ind1]._nd)ptrs[5]=\" ДТ. неисправен \";\r\n\t\telse ptrs[5]=\" tбат = ?°C \";\r\n\t\tptrs[6]=\" Заряд= w% \";\r\n\t\tptrs[7]=\" Cбат= QАч \";\r\n\t\tptrs[8]=sm_exit;\r\n \r\n\t\tbgnd_par(\" БАТАРЕЯ N@ \",\r\n\t\t ptrs[sub_ind+1],ptrs[sub_ind+2],ptrs[sub_ind+3]);\r\n\t \r\n\t int2lcd(sub_ind1+1,'@',0);\r\n\t //int2lcd(bat[sub_ind1]._Ub,'$',1);\r\n\t\t #ifdef UKU_220\r\n\t\t int2lcd(bat[sub_ind1]._Ub/10,'$',0);\r\n\t\t int2lcd(bat[sub_ind1]._Ubm/10,'z',0);\r\n\t\t #else \r\n\t\t int2lcd(bat[sub_ind1]._Ub,'$',1);\r\n int2lcd(bat[sub_ind1]._Ubm,'z',1);\r\n\t\t #endif\r\n\t int2lcd_mmm(abs(bat[sub_ind1]._Ib),'#',2);\r\n\t int2lcd_mmm(bat[sub_ind1]._Tb,'?',0);\r\n\t int2lcd(bat[sub_ind1]._zar,'w',0);\r\n\t\tint2lcd(bat[sub_ind1]._dUbm,'^',0);\r\n\t if(BAT_C_REAL[sub_ind1]==0x5555)sub_bgnd(\"------\",'Q',-1);\r\n\t else int2lcd(BAT_C_REAL[sub_ind1],'Q',1);\r\n\t if(sub_ind==5)lcd_buffer[60]=1;\r\n\t\t //int2lcdyx(bat[sub_ind1]._cnt_as,0,4,0);\r\n\t\t \r\n\t\t}\r\n\t} \r\n\r\nelse if (ind==iBat_simple)\r\n\t{\r\n\tif(bat[sub_ind1]._av&1)\r\n\t\t{\r\n\t\tif(bFL2)bgnd_par(\" АВАРИЯ! \",\r\n\t\t \" Батарея №# \",\r\n\t\t \" не подключена \",sm_);\r\n\t\telse bgnd_par(sm_,sm_,sm_,sm_);\r\n\t\tint2lcd(sub_ind1+1,'#',0);\r\n\t\t} \r\n\telse\r\n\t\t{\r\n\t\tif(bat[sub_ind1]._Ib>0)\r\n\t\t {\r\n\t\t ptrs[1]=\" заряжается \";\r\n\t\t ptrs[3]=\" Iзар= #А \";\r\n\t\t }\r\n\t\telse\r\n\t\t {\r\n\t\t ptrs[1]= \" разряжается \";\r\n\t\t ptrs[3]= \" Iразр= #А \";\r\n\t\t }\t\r\n\t\tptrs[2]= \" Uбат= $В\";\r\n // ptrs[3]= \" Uбат.с.т.= zВ\";\r\n\t//\tif(UBM_AV)\r\n\t//\tptrs[3]= \" Uбат.с.т.=(^%) zВ\";\r\n\t\t\r\n\t\tif(bat[sub_ind1]._nd)ptrs[4]=\" ДТ. неисправен \";\r\n\t\telse ptrs[4]=\" tбат = ?°C \";\r\n\t\tptrs[5]=\" Заряд= w% \";\r\n\t\tptrs[6]=\" Cбат= QАч \";\r\n\t\tptrs[7]=sm_exit;\r\n \r\n\t\tbgnd_par(\" БАТАРЕЯ N@ \",\r\n\t\t ptrs[sub_ind+1],ptrs[sub_ind+2],ptrs[sub_ind+3]);\r\n\t \r\n\t int2lcd(sub_ind1+1,'@',0);\r\n\t int2lcd(bat[sub_ind1]._Ub,'$',1);\r\n //int2lcd(bat[sub_ind1]._Ubm,'z',1);\r\n\t int2lcd_mmm(abs(bat[sub_ind1]._Ib),'#',2);\r\n\t int2lcd_mmm(bat[sub_ind1]._Tb,'?',0);\r\n\t int2lcd(bat[sub_ind1]._zar,'w',0);\r\n\t\t//int2lcd(bat[sub_ind1]._dUbm,'^',0);\r\n\t if(BAT_C_REAL[sub_ind1]==0x5555)sub_bgnd(\"------\",'Q',-1);\r\n\t else int2lcd(BAT_C_REAL[sub_ind1],'Q',1);\r\n\t if(sub_ind==4)lcd_buffer[60]=1;\r\n\t\t}\r\n\t} \r\n#ifdef UKU_ZVU\r\nelse if (ind==iBat_ZVU)\r\n\t{\r\n\tif(bat_ips._av&1)\r\n\t\t{\r\n\t\tif(bFL2)bgnd_par(\" АВАРИЯ! \",\r\n\t\t \" Батарея \",\r\n\t\t \" не подключена \",sm_);\r\n\t\telse bgnd_par(sm_,sm_,sm_,sm_);\r\n\t\t//int2lcd(sub_ind1+1,'#',0);\r\n\t\t} \r\n\telse\r\n\t\t{\r\n\t\tif(/bat[sub_ind1]._Ib/Ib_ips_termokompensat>0)\r\n\t\t {\r\n\t\t ptrs[1]=\" заряжается \";\r\n\t\t ptrs[3]=\" Iзар= #А \";\r\n\t\t }\r\n\t\telse\r\n\t\t {\r\n\t\t ptrs[1]= \" разряжается \";\r\n\t\t ptrs[3]= \" Iразр= #А \";\r\n\t\t }\t\r\n\t\tptrs[2]= \" Uбат= $В\";\r\n // ptrs[3]= \" Uбат.с.т.= zВ\";\r\n\t//\tif(UBM_AV)\r\n\t//\tptrs[3]= \" Uбат.с.т.=(^%) zВ\";\r\n\t\t\r\n\t\tif(bat[sub_ind1]._nd)ptrs[4]=\" ДТ. неисправен \";\r\n\t\telse ptrs[4]=\" tбат = ?°C \";\r\n\t\tptrs[5]=\" Заряд= w% \";\r\n\t\tptrs[6]=\" tост.= <ч0>м \";\r\n\t\tptrs[7]=\" Cбат= QАч \";\r\n\t\tptrs[8]=sm_exit;\r\n \r\n\t\tbgnd_par(\" БАТАРЕЯ \",\r\n\t\t ptrs[sub_ind+1],ptrs[sub_ind+2],ptrs[sub_ind+3]);\r\n\t \r\n\t //int2lcd(sub_ind1+1,'@',0);\r\n\t //int2lcd(bat[sub_ind1]._Ub,'$',1);\r\n //int2lcd(bat[sub_ind1]._Ubm,'z',1);\r\n\t //int2lcd_mmm(abs(bat[sub_ind1]._Ib),'#',2);\r\n\t //int2lcd_mmm(bat[sub_ind1]._Tb,'?',0);\r\n\t //int2lcd(bat[sub_ind1]._zar,'w',0);\r\n\t\t//int2lcd(bat[sub_ind1]._dUbm,'^',0);\r\n\t //if(BAT_C_REAL[sub_ind1]==0x5555)sub_bgnd(\"------\",'Q',-1);\r\n\t //else int2lcd(BAT_C_REAL[sub_ind1],'Q',1);\r\n\t if(sub_ind==5)lcd_buffer[60]=1;\r\n\r\n\r\n\t\tif(bIBAT_SMKLBR)sub_bgnd(\"КЛБР. \",'#',-3);\r\n\t\telse if(Ib_ips_termokompensat<100)int2lcd_mmm(Ib_ips_termokompensat,'#',2);\r\n\t\telse int2lcd_mmm(Ib_ips_termokompensat/10,'#',1);\r\n\t\tif(ND_EXT[0]==1) sub_bgnd(\"неиспр.\",'?',-2);\r\n\t\tint2lcd_mmm(t_ext[0],'?',0);\r\n\t\tif(out_U<1000)\tint2lcd(out_U,'$',1);\r\n\t\telse \t\t\tint2lcd(out_U/10,'$',0);\r\n\r\n\t\tint2lcd((short)(bat_hndl_zvu_Q/1000L),'w',1);\r\n\t\tif(Ib_ips_termokompensat>0) sub_bgnd(\"-------\",'>',-5);\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tint2lcd((short)(bat_hndl_t_razr_hour),'<',0);\r\n\t\t\tint2lcd((short)(bat_hndl_t_razr_mininhour),'>',0);\r\n\t\t\t}\r\n\t\tint2lcd(BAT_C_POINT_20,'Q',1);\r\n\t\t}\r\n\t} \r\n#endif\r\nelse if (ind==iBat_li)\r\n\t{\r\n\r\n/\tif(bat[sub_ind1]._av&1)\r\n\t\t{\r\n\t\tif(bFL2)bgnd_par(\" АВАРИЯ! \",\r\n\t\t \" Батарея №# \",\r\n\t\t \" не подключена \",sm_);\r\n\t\telse bgnd_par(sm_,sm_,sm_,sm_);\r\n\t\tint2lcd(sub_ind1+1,'#',0);\r\n\t\t} \r\n\telse\tif(lakb[sub_ind1]._battCommState)\r\n\t\t{\r\n\t\tif(bFL2)bgnd_par(\" Сигналы телеметрии \",\r\n\t\t \" не передаются \",\r\n\t\t \" \",sm_);\r\n\t\telse bgnd_par(sm_,sm_,sm_,sm_);\r\n\t\tint2lcd(sub_ind1+1,'#',0);\r\n\t\t} \r\n\telse/\r\n\t\t{\r\n\t\tif(bat[sub_ind1]._Ib/lakb[sub_ind1]._ch_curr/>0)\r\n\t\t {\r\n\t\t ptrs[1]=\" заряжается \";\r\n\t\t ptrs[3]=\" Iзар= #А \";\r\n\t\t }\r\n\t\telse\r\n\t\t {\r\n\t\t ptrs[1]= \" разряжается \";\r\n\t\t ptrs[3]= \" Iразр= #А \";\r\n\t\t }\t\r\n\t\tptrs[2]= \" Uбат = $В \";\r\n\t\tptrs[4]=\t\t\" tбат = ?°C \";\r\n\t\tptrs[5]=\t\t\" SOC = w% \";\r\n\t\tptrs[6]=\t\t\" Cбат = QАч \";\r\n\t\tptrs[7]=\t\t\" SOH = >% \";\r\n\t\tptrs[8]=\t\t\" Imax = <A \";\r\n\t\tptrs[9]=\t\t\" RBT = [ч \";\r\n\t\tptrs[10]=sm_exit;\r\n\r\n\r\n \r\n\t\tbgnd_par(\t\t\" БАТАРЕЯ N@ \",\r\n\t\t\t\t\t\" 1 x GYFP4875 \",\r\n\t\t\t\t\tptrs[sub_ind+1],ptrs[sub_ind+2]);\r\n\t \r\n\t int2lcd(sub_ind1+1,'@',0);\r\n\t int2lcd(bat[sub_ind1]._Ub,'$',1);//int2lcd(lakb[sub_ind1]._tot_bat_volt/10,'$',1);\r\n\t\t/if(lakb[sub_ind1]._ch_curr>0)\r\n\t\t\t{\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._ch_curr,'#',2);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._dsch_curr,'#',2);\r\n\t\t\t}/\r\n\t\tint2lcd_mmm(abs(bat[sub_ind1]._Ib),'#',2);\r\n\t int2lcd_mmm(bat[sub_ind1]._Tb,'?',0);\r\n\t //int2lcd_mmm(lakb[sub_ind1]._max_cell_temp,'?',0);\r\n\t int2lcd(lakb[sub_ind1]._s_o_c,'w',0);\r\n\t\tint2lcd((short)(((long)lakb[sub_ind1]._rat_cap(long)lakb[sub_ind1]._s_o_h)/1000L),'Q',1);\r\n\t if(sub_ind==8)lcd_buffer[60]=1;\r\n\r\n\t\tint2lcd(lakb[sub_ind1]._rat_cap,'Q',1);\r\n\t\t//int2lcd(lakb[sub_ind1]._s_o_c,'w',0);\r\n\t\tint2lcd(lakb[sub_ind1]._c_c_l_v/10,'<',1);\r\n\t\tint2lcd(lakb[sub_ind1]._s_o_h,'>',0);\r\n\t\tint2lcd(lakb[sub_ind1]._r_b_t,'[',1);\r\n\r\n\t\t//int2lcdyx(lakb[sub_ind1]._battCommState,0,19,0);\r\n\t\t}\r\n\t}\r\n\r\nelse if (ind==iBat_SacredSun)\r\n\t{\r\n\t\t{\r\n\t\tif(bat[sub_ind1]._Ib/lakb[sub_ind1]._ch_curr/>0)\r\n\t\t {\r\n\t\t ptrs[1]=\" заряжается \";\r\n\t\t ptrs[3]=\" Iзар= #А \";\r\n\t\t }\r\n\t\telse\r\n\t\t {\r\n\t\t ptrs[1]= \" разряжается \";\r\n\t\t ptrs[3]= \" Iразр= #А \";\r\n\t\t }\t\r\n\t\tptrs[2]= \" Uбат = $В \";\r\n\t\tptrs[3]=\t\t\" tбат = ?°C \";\r\n\t\tptrs[4]=\t\t\" SOC = w% \";\r\n\t\tptrs[5]=\t\t\" SOH = >% \";\r\n\t\tptrs[6]=sm_exit;\r\n\r\n\r\n \r\n\t\tbgnd_par(\t\t\" БАТАРЕЯ N@ \",\r\n\t\t\t\t\t\" 1 x FP16S4810A \",\r\n\t\t\t\t\tptrs[sub_ind+1],ptrs[sub_ind+2]);\r\n\t \r\n\t int2lcd(sub_ind1+1,'@',0);\r\n\t int2lcd(bat[sub_ind1]._Ub,'$',1);//int2lcd(lakb[sub_ind1]._tot_bat_volt/10,'$',1);\r\n\t\t/if(lakb[sub_ind1]._ch_curr>0)\r\n\t\t\t{\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._ch_curr,'#',2);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._dsch_curr,'#',2);\r\n\t\t\t}/\r\n\t\tint2lcd_mmm(abs(bat[sub_ind1]._Ib),'#',2);\r\n\t int2lcd_mmm(bat[sub_ind1]._Tb,'?',0);\r\n\t //int2lcd_mmm(lakb[sub_ind1]._max_cell_temp,'?',0);\r\n\t int2lcd(lakb[sub_ind1]._s_o_c,'w',0);\r\n\t\tint2lcd((short)(((long)lakb[sub_ind1]._rat_cap(long)lakb[sub_ind1]._s_o_h)/1000L),'Q',1);\r\n\t if(sub_ind==8)lcd_buffer[60]=1;\r\n\r\n\t\tint2lcd(lakb[sub_ind1]._rat_cap,'Q',1);\r\n\t\t//int2lcd(lakb[sub_ind1]._s_o_c,'w',0);\r\n\t\tint2lcd(lakb[sub_ind1]._c_c_l_v/10,'<',1);\r\n\t\tint2lcd(lakb[sub_ind1]._s_o_h,'>',0);\r\n\t\tint2lcd(lakb[sub_ind1]._r_b_t,'[',1);\r\n\r\n\t\t//int2lcdyx(lakb[sub_ind1]._battCommState,0,19,0);\r\n\t\t}\r\n\t}\r\n\r\nelse if (ind==iBat_universe)\r\n\t{\r\n\tif(BAT_TYPE==0)\t//Обычная свинцово-кислотная батарея\r\n\t\t{\t\t\t//TODO следующий блок написан только для батареи без средней точки. Дописать автоизменение если в системе есть контроль СТ\r\n\t\tif(bat[0]._av&1)\r\n\t\t\t{\r\n\t\t\tif(bFL2)bgnd_par(\t\" АВАРИЯ! \",\r\n\t\t\t \t\" Батарея №# \",\r\n\t\t\t \t\" не подключена \",\r\n\t\t\t\t\t\t\tsm_);\r\n\t\t\telse bgnd_par(sm_,sm_,sm_,sm_);\r\n\t\t\tint2lcd(1,'#',0);\r\n\t\t\t} \r\n\t\telse\r\n\t\t\t{\r\n\t\t\tif(bat[0]._Ib>0)\r\n\t\t\t {\r\n\t\t\t ptrs[1]=\t\t\" заряжается \";\r\n\t\t\t ptrs[3]=\t\t\" Iзар= #А \";\r\n\t\t\t }\r\n\t\t\telse\r\n\t\t\t {\r\n\t\t\t ptrs[1]= \" разряжается \";\r\n\t\t\t ptrs[3]= \" Iразр= #А \";\r\n\t\t\t }\t\r\n\t\t\tptrs[2]= \" Uбат= $В\";\r\n\t\t\t\r\n\t\t\tif(bat[0]._nd)ptrs[4]=\" ДТ. неисправен \";\r\n\t\t\telse ptrs[4]=\" tбат = ?°C \";\r\n\t\t\tptrs[5]=\" Заряд= w% \";\r\n\t\t\tptrs[6]=\" Cбат= QАч \";\r\n\t\t\tptrs[7]=sm_exit;\r\n\t \r\n\t\t\tbgnd_par(\" БАТАРЕЯ N@ \",\r\n\t\t\t ptrs[sub_ind+1],\r\n\t\t\t\t\tptrs[sub_ind+2],\r\n\t\t\t\t\tptrs[sub_ind+3]);\r\n\t\t \r\n\t\t int2lcd(1,'@',0);\r\n\t\t int2lcd(bat[0]._Ub,'$',1);\r\n\t\t int2lcd_mmm(abs(bat[0]._Ib),'#',2);\r\n\t\t int2lcd_mmm(bat[0]._Tb,'?',0);\r\n\t\t int2lcd(bat[0]._zar,'w',0);\r\n\t\t if(BAT_C_REAL[0]==0x5555)sub_bgnd(\"------\",'Q',-1);\r\n\t\t else int2lcd(BAT_C_REAL[0],'Q',1);\r\n\t\t if(sub_ind==4)lcd_buffer[60]=1;\r\n\t\t\t}\r\n\t\t} \r\n\telse if(BAT_TYPE==1)//Батарея\tCOSLIGHT\r\n\t\t{\r\n\t\tchar ptr;\r\n\r\n\t\t/if(bat[sub_ind1]._av&1)\r\n\t\t\t{\r\n\t\t\tif(bFL2)bgnd_par(\" АВАРИЯ! \",\r\n\t\t\t \" Батарея №# \",\r\n\t\t\t \" не подключена \",sm_);\r\n\t\t\telse bgnd_par(sm_,sm_,sm_,sm_);\r\n\t\t\tint2lcd(sub_ind1+1,'#',0);\r\n\t\t\t} \r\n\t\telse/\t\r\n\t\tif(li_bat._batStat==bsOFF)\r\n\t\t\t{\r\n\t\t\tif(bFL)\r\n\t\t\t\t{\r\n\t\t\t\tbgnd_par(\t\t\" Сигналы телеметрии \",\r\n\t\t\t \t\" не передаются \",\r\n\t\t\t \t\" \",\r\n\t\t\t\t\t\t\tsm_);\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t\t\tif(li_bat._Ib>0)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tptrs[0]=\t\" заряжается \";\r\n\t\t\t\t\tptrs[2]=\t\" Iзар= #А \";\r\n\t\t\t\t\t}\r\n\t\t\t\telse\r\n\t\t\t\t {\r\n\t\t\t\t ptrs[0]= \" разряжается \";\r\n\t\t\t\t ptrs[2]= \" Iразр= #А \";\r\n\t\t\t\t }\t\r\n\t\t\t\tptrs[1]= \" Uбат= $В\";\r\n\t\t\t if(li_bat._nd)\r\n\t\t\t\t\tptrs[3]=\t\" ДТ. неисправен \";\r\n\t\t\t\telse ptrs[3]=\t\" tбат = ?°C \";\r\n\t\t\t\t\tptrs[4]=sm_exit;\r\n\t\t\t \r\n\t\t\t\tbgnd_par(\t\t\" БАТАРЕЯ \",\r\n\t\t\t\t\t ptrs[sub_ind],\r\n\t\t\t\t\t\t\tptrs[sub_ind+1],\r\n\t\t\t\t\t\t\tptrs[sub_ind+2]);\r\n\t\t\t\t \r\n\t\t\t\tint2lcd(li_bat._Ub,'$',1);\r\n\t\t\t \r\n\t\t\t\tint2lcd_mmm(abs(li_bat._Ib),'#',1);\r\n\t\t\t\tint2lcd_mmm(li_bat._Tb,'?',0);\r\n\t\t\t\t} \r\n\r\n\t\t\t} \r\n\t\telse\r\n\t\t\t{\r\n\t\t\tif(li_bat._Ib>0)\r\n\t\t\t {\r\n\t\t\t ptrs[1]=\" заряжается \";\r\n\t\t\t ptrs[3]=\" Iзар= #А \";\r\n\t\t\t }\r\n\t\t\telse\r\n\t\t\t {\r\n\t\t\t ptrs[1]= \" разряжается \";\r\n\t\t\t ptrs[3]= \" Iразр= #А \";\r\n\t\t\t }\t\r\n\t\t\tptrs[2]= \" Uбат = $В \";\r\n\t\t\tptrs[4]=\t\t\" tбат = ?°C \";\r\n\t\t\tptrs[5]=\t\t\" SOC = w% \";\r\n\t\t\tptrs[6]=\t\t\" Cбат = QАч \";\r\n\t\t\tptrs[7]=\t\t\" SOH = >% \";\r\n\t\t\tptrs[8]=\t\t\" Imax = <A \";\r\n\t\t\tptrs[9]=\t\t\" RBT = [ч \";\r\n\t\t\tptrs[10]=sm_exit;\r\n\t\r\n\t\t\tptr=\t\t\t\" GYFP4875 \";\r\n\t\t\tif(li_bat._ratCap==50) \r\n\t\t\tptr=\t\t\t\" GYFP4850 \";\t\t \t\r\n\r\n\t \r\n\t\t\tbgnd_par(\t\t\" БАТАРЕЯ \",\r\n\t\t\t\t\t\tptr,\r\n\t\t\t\t\t\tptrs[sub_ind+1],\r\n\t\t\t\t\t\tptrs[sub_ind+2]);\r\n\t\t \r\n\t\t int2lcd(sub_ind1+1,'@',0);\r\n\t\t int2lcd(li_bat._Ub,'$',1);\r\n\t\t\tint2lcd_mmm(abs(li_bat._Ib),'#',1);\r\n\t\t\tint2lcd_mmm(li_bat._Tb,'?',0);\r\n\t\t int2lcd(li_bat._soc,'w',0);\r\n\t\t\tif(sub_ind==8)lcd_buffer[60]=1;\r\n\t\t\tint2lcd(li_bat._ratCap,'Q',0);\r\n\t\t\tint2lcd(li_bat._cclv,'<',1);\r\n\t\t\tint2lcd(li_bat._soh,'>',0);\r\n\t\t\tint2lcd(li_bat._rbt,'[',1);\r\n\t\r\n\t\t\t//int2lcdyx(lakb[i]._flags1,0,19,0);\r\n\t\t\t}\r\n\t\t//int2lcdyx(lakb[0]._flags1,0,10,0);\r\n\t\t//int2lcdyx(lakb[0]._flags2,0,15,0);\r\n\t\t//int2lcdyx(lakb[0]._b_p_ser_num,0,19,0);\r\n\t\t}\r\n\telse if(BAT_TYPE==2)//Батарея\tSACRED SUN\r\n\t\t{\r\n\t\tif(bat[sub_ind1]._Ib/lakb[sub_ind1]._ch_curr/>0)\r\n\t\t {\r\n\t\t ptrs[1]=\" заряжается \";\r\n\t\t ptrs[3]=\" Iзар= #А \";\r\n\t\t }\r\n\t\telse\r\n\t\t {\r\n\t\t ptrs[1]= \" разряжается \";\r\n\t\t ptrs[3]= \" Iразр= #А \";\r\n\t\t }\t\r\n\t\tptrs[2]= \" Uбат = $В \";\r\n\t\tptrs[4]=\t\t\" tбат = ?°C \";\r\n\t\tptrs[5]=\t\t\" SOC = w% \";\r\n\t\tptrs[6]=\t\t\" SOH = >% \";\r\n\t\tptrs[7]=sm_exit;\r\n\r\n\r\n \r\n\t\tbgnd_par(\t\t\" Батарея N@ \",\r\n\t\t\t\t\t\" 1 x FP16S4810A \",\r\n\t\t\t\t\tptrs[sub_ind+1],ptrs[sub_ind+2]);\r\n\t \r\n\t int2lcd(sub_ind1+1,'@',0);\r\n\t int2lcd(bat[sub_ind1]._Ub,'$',1);//int2lcd(lakb[sub_ind1]._tot_bat_volt/10,'$',1);\r\n\t\t/if(lakb[sub_ind1]._ch_curr>0)\r\n\t\t\t{\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._ch_curr,'#',2);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._dsch_curr,'#',2);\r\n\t\t\t}/\r\n\t\tint2lcd_mmm(abs(bat[sub_ind1]._Ib),'#',2);\r\n\t int2lcd_mmm(bat[sub_ind1]._Tb,'?',0);\r\n\t //int2lcd_mmm(lakb[sub_ind1]._max_cell_temp,'?',0);\r\n\t int2lcd(lakb[sub_ind1]._s_o_c,'w',0);\r\n\t\tint2lcd((short)(((long)lakb[sub_ind1]._rat_cap(long)lakb[sub_ind1]._s_o_h)/1000L),'Q',1);\r\n\t if(sub_ind==8)lcd_buffer[60]=1;\r\n\r\n\t\tint2lcd(lakb[sub_ind1]._rat_cap,'Q',1);\r\n\t\t//int2lcd(lakb[sub_ind1]._s_o_c,'w',0);\r\n\t\tint2lcd(lakb[sub_ind1]._c_c_l_v/10,'<',1);\r\n\t\tint2lcd(lakb[sub_ind1]._s_o_h,'>',0);\r\n\t\tint2lcd(lakb[sub_ind1]._r_b_t,'[',1);\r\n\r\n\t\t//int2lcdyx(lakb[sub_ind1]._battCommState,0,19,0);\r\n\t\t}\r\n\telse if(BAT_TYPE==3)//Батарея\tZTT\r\n\t\t{\r\n\t\tptrs[0]=\t\t\t\t\t\t\t\t\" Тип неизвестен \";\r\n\t\tif(lakb[sub_ind1]._s_o_h>=500)ptrs[0]= \" 48V50Ah \";\r\n\t\telse if(lakb[sub_ind1]._s_o_h>=400)ptrs[0]= \" 48V40Ah \";\r\n\t\tif(lakb[sub_ind1]._ch_curr>0)\r\n\t\t {\r\n\t\t ptrs[1]=\" заряжается \";\r\n\t\t ptrs[3]=\" Iзар= #А \";\r\n\t\t }\r\n\t\telse\r\n\t\t {\r\n\t\t ptrs[1]= \" разряжается \";\r\n\t\t ptrs[3]= \" Iразр= #А \";\r\n\t\t }\t\r\n\t\tptrs[2]= \" Uбат = $В \";\r\n\t\tptrs[4]=\t\t\" t1 = ?°C \";\r\n\t\tptrs[5]=\t\t\" t2 = (°C \";\r\n\t\tptrs[6]=\t\t\" t3 = )°C \";\r\n\t\tptrs[7]=\t\t\" t4 = +°C \";\r\n\t\tptrs[8]=\t\t\" tокр.= [°C \";\r\n\t\tptrs[9]=\t\t\" tсил.= ]°C \";\r\n\t\tptrs[10]=\t\t\" SOC = wAч \";\r\n\t\tptrs[11]=\t\t\" SOH = >Aч \";\r\n\t\tptrs[12]=\t\t\" Iшунт.= <A \";\r\n\t\tptrs[13]=sm_exit;\r\n\r\n\t\tif(lakb[sub_ind1]._communicationFullErrorStat==1)\r\n\t\t\t{\r\n\t\t\tptrs[0]=\t\" ОТСУТСТВУЕТ СВЯЗЬ \";\r\n\t\t\tptrs[1]=\t\" С ПЛАТОЙ \";\r\n\t\t\tptrs[2]=\t\" РАСШИРЕНИЯ!!! \";\r\n\r\n\t\t\tbgnd_par(\t\" Батарея N@ \",\r\n\t\t\t\t\t\tptrs[0],\r\n\t\t\t\t\t\tptrs[1],\r\n\t\t\t\t\t\tptrs[2]);\r\n\t\t\t}\r\n\r\n\t\telse if(lakb[sub_ind1]._communicationFullErrorStat==2)\r\n\t\t\t{\r\n\t\t\tptrs[0]=\t\" ОТСУТСТВУЕТ СВЯЗЬ \";\r\n\t\t\tptrs[1]=\t\" С BMS!!! \";\r\n\t\t\tptrs[2]=\t\" \";\r\n\r\n\t\t\tbgnd_par(\t\" Батарея N@ \",\r\n\t\t\t\t\t\tptrs[0],\r\n\t\t\t\t\t\tptrs[1],\r\n\t\t\t\t\t\tptrs[2]);\r\n\t\t\t}\r\n\r\n \t\telse \r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" Батарея N@ \",\r\n\t\t\t\t\t\tptrs[sub_ind+0],\r\n\t\t\t\t\t\tptrs[sub_ind+1],\r\n\t\t\t\t\t\tptrs[sub_ind+2]);\r\n\t\t \r\n\r\n\t\t int2lcd(lakb[sub_ind1]._tot_bat_volt,'$',1);\r\n\t\t\tint2lcd_mmm(abs(lakb[sub_ind1]._ch_curr),'#',2);\r\n\t\t int2lcd_mmm(lakb[sub_ind1]._cell_temp_1,'?',0);\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._cell_temp_2,'(',0);\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._cell_temp_3,')',0);\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._cell_temp_4,'+',0);\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._cell_temp_ambient,'[',0);\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._cell_temp_power,']',0);\r\n\t\t int2lcd(lakb[sub_ind1]._s_o_c,'w',1);\r\n\t\t\tif(sub_ind==10)lcd_buffer[60]=1;\r\n\t\t\tint2lcd(lakb[sub_ind1]._s_o_h,'>',1);\r\n\t\t\tint2lcd_mmm(bat[sub_ind1]._Ib/10,'<',1);\r\n\t\t\t}\r\n\t\tint2lcd(sub_ind1+1,'@',0);\r\n\r\n\t\t//if(bat[sub_ind1]._Ib>=0)int2lcdyx(bat[sub_ind1]._Ib,0,19,2);\r\n\t\t//else if(bat[sub_ind1]._Ib<0)int2lcdyx(-(bat[sub_ind1]._Ib),0,19,2);\r\n\r\n\t\t//int2lcdyx(lakb[0]._pack_volt_state,0,3,0);\r\n\t\t//int2lcdyx(lakb[0]._pack_temper_state,0,8,0);\r\n\t\t} \r\n\r\n\telse if(BAT_TYPE==4)//Батарея\tSTARK\r\n\t\t{\r\n\t\tptrs[0]=\t\t\t\t\t\t\t\t\" Тип неизвестен \";\r\n\t\tif(lakb[sub_ind1]._s_o_h>=500)ptrs[0]= \" 48V50Ah \";\r\n\t\telse if(lakb[sub_ind1]._s_o_h>=400)ptrs[0]= \" 48V40Ah \";\r\n\t\telse if(lakb[sub_ind1]._s_o_h>=200)ptrs[0]= \" 48V20Ah \";\r\n\t\tif(lakb[sub_ind1]._ch_curr>0)\r\n\t\t {\r\n\t\t ptrs[1]=\" заряжается \";\r\n\t\t ptrs[3]=\" Iзар= #А \";\r\n\t\t }\r\n\t\telse\r\n\t\t {\r\n\t\t ptrs[1]= \" разряжается \";\r\n\t\t ptrs[3]= \" Iразр= #А \";\r\n\t\t }\t\r\n\t\tptrs[2]= \" Uбат = $В \";\r\n\t\tptrs[4]=\t\t\" t1 = ?°C \";\r\n\t\tptrs[5]=\t\t\" t2 = (°C \";\r\n\t\tptrs[6]=\t\t\" t3 = )°C \";\r\n\t\tptrs[7]=\t\t\" t4 = +°C \";\r\n\t\tptrs[8]=\t\t\" tокр.= [°C \";\r\n\t\tptrs[9]=\t\t\" tсил.= ]°C \";\r\n\t\tptrs[10]=\t\t\" SOC = wAч \";\r\n\t\tptrs[11]=\t\t\" SOH = >Aч \";\r\n\t\tptrs[12]=\t\t\" Iшунт.= <A \";\r\n\t\tptrs[13]=sm_exit;\r\n\r\n\t\tif(lakb[sub_ind1]._communicationFullErrorStat==1)\r\n\t\t\t{\r\n\t\t\tptrs[0]=\t\" ОТСУТСТВУЕТ СВЯЗЬ \";\r\n\t\t\tptrs[1]=\t\" С ПЛАТОЙ \";\r\n\t\t\tptrs[2]=\t\" РАСШИРЕНИЯ!!! \";\r\n\r\n\t\t\tbgnd_par(\t\" Батарея N@ \",\r\n\t\t\t\t\t\tptrs[0],\r\n\t\t\t\t\t\tptrs[1],\r\n\t\t\t\t\t\tptrs[2]);\r\n\t\t\t}\r\n\r\n\t\telse if(lakb[sub_ind1]._communicationFullErrorStat==2)\r\n\t\t\t{\r\n\t\t\tptrs[0]=\t\" ОТСУТСТВУЕТ СВЯЗЬ \";\r\n\t\t\tptrs[1]=\t\" С BMS!!! \";\r\n\t\t\tptrs[2]=\t\" \";\r\n\r\n\t\t\tbgnd_par(\t\" Батарея N@ \",\r\n\t\t\t\t\t\tptrs[0],\r\n\t\t\t\t\t\tptrs[1],\r\n\t\t\t\t\t\tptrs[2]);\r\n\t\t\t}\r\n\r\n \t\telse \r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" Батарея N@ \",\r\n\t\t\t\t\t\tptrs[sub_ind+0],\r\n\t\t\t\t\t\tptrs[sub_ind+1],\r\n\t\t\t\t\t\tptrs[sub_ind+2]);\r\n\t\t \r\n\r\n\t\t int2lcd(lakb[sub_ind1]._tot_bat_volt,'$',1);\r\n\t\t\tint2lcd_mmm(abs(lakb[sub_ind1]._ch_curr),'#',2);\r\n\t\t int2lcd_mmm(lakb[sub_ind1]._cell_temp_1,'?',0);\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._cell_temp_2,'(',0);\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._cell_temp_3,')',0);\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._cell_temp_4,'+',0);\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._cell_temp_ambient,'[',0);\r\n\t\t\tint2lcd_mmm(lakb[sub_ind1]._cell_temp_power,']',0);\r\n\t\t int2lcd(lakb[sub_ind1]._s_o_c,'w',1);\r\n\t\t\tif(sub_ind==10)lcd_buffer[60]=1;\r\n\t\t\tint2lcd(lakb[sub_ind1]._s_o_h,'>',1);\r\n\t\t\tint2lcd_mmm(bat[sub_ind1]._Ib/10,'<',1);\r\n\t\t\t}\r\n\t\tint2lcd(sub_ind1+1,'@',0);\r\n\r\n\t\t//if(bat[sub_ind1]._Ib>=0)int2lcdyx(bat[sub_ind1]._Ib,0,19,2);\r\n\t\t//else if(bat[sub_ind1]._Ib<0)int2lcdyx(-(bat[sub_ind1]._Ib),0,19,2);\r\n\r\n\t\t//int2lcdyx(lakb[0]._pack_volt_state,0,3,0);\r\n\t\t//int2lcdyx(lakb[0]._pack_temper_state,0,8,0);\r\n\t\t} \r\n\r\n\t//int2lcdyx(lakb[sub_ind1]._communicationFullErrorStat,0,2,0);\r\n\t//int2lcdyx(libat_comm_cnt,0,5,0);\r\n\t//int2lcdyx(lakb[sub_ind1]._communication2lvlErrorStat,0,9,0);\r\n\t//int2lcdyx(lakb[sub_ind1]._communication2lvlErrorCnt,0,19,0);\r\n\t}\r\n\r\nelse if(ind==iInv_tabl)\r\n {\r\n if(sub_ind==0)\r\n \t{\r\n \tbgnd_par(\"N U I P \",\r\n \t \"! ^ @ #\",\r\n \t \"! ^ @ #\",\r\n \t \"! ^ @ #\");\r\n \r\n\r\n \t} \r\n\r\n \telse if(sub_ind==1) \r\n \t{\r\n \tbgnd_par(\"N I P t \",\r\n \t \"! @ # $ \",\r\n \t \"! @ # $ \",\r\n \t \"! @ # $ \");\r\n\r\n\t\t}\r\n\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tint2lcd(sub_ind1+2,'!',0);\r\n\tint2lcd(sub_ind1+3,'!',0);\r\n\t\t\r\n\t\t\r\n\tint2lcd(inv[sub_ind1]._Uio,'^',1);\r\n\tint2lcd(inv[sub_ind1+1]._Uio,'^',1);\r\n\tint2lcd(inv[sub_ind1+2]._Uio,'^',1);\r\n\r\n int2lcd(inv[sub_ind1]._Ii,'@',1); \r\n\tint2lcd(inv[sub_ind1+1]._Ii,'@',1); \r\n\tint2lcd(inv[sub_ind1+2]._Ii,'@',1); \r\n\r\n\tint2lcd_mmm(inv[sub_ind1]._Pio,'#',0);\r\n\tint2lcd_mmm(inv[sub_ind1+1]._Pio,'#',0);\r\n\tint2lcd_mmm(inv[sub_ind1+2]._Pio,'#',0);\r\n\r\n\tint2lcd_mmm(inv[sub_ind1]._Ti,'$',0);\r\n\tint2lcd_mmm(inv[sub_ind1+1]._Ti,'$',0); \r\n \tint2lcd_mmm(inv[sub_ind1+2]._Ti,'$',0);\r\n\r\n\t}\r\nelse if(ind==iMakb)\r\n\t{\r\n\tconst char* ptr[12];\r\n \r\n\tsimax=10;\r\n\r\n\tptr[0]=\t\t\t\" Uб1 = @В \";\r\n\tptr[1]=\t\t\t\" Uб2 = #В \";\r\n\tptr[2]=\t\t\t\" Uб3 = $В \";\r\n\tptr[3]=\t\t\t\" Uб4 = %В \";\r\n\tptr[4]=\t\t\t\" Uб5 = ^В \";\r\n\tptr[5]=\t\t\t\" tб1 = &°С \";\r\n\tptr[6]=\t\t\t\" tб2 = °С \";\r\n\tptr[7]=\t\t\t\" tб3 = (°С \";\r\n\tptr[8]=\t\t\t\" tб4 = )°С \";\r\n\tptr[9]=\t\t\t\" tб5 = +°С \";\r\n\tptr[10]=\t\t\tsm_exit;\r\n\r\n \tif(makb[sub_ind1]._cnt>=5)\r\n\t \t{\r\n\t\tbgnd_par(\t\t\" МОНИТОР АКБ N< \",\r\n\t\t\t\t\t\" НЕ ПОДКЛЮЧЕН!!! \",\r\n\t\t\t\t\t\" \",\r\n\t\t\t\t\t\" \");\r\n\t\t}\r\n\r\n\r\n\telse \r\n\t\t{\r\n\t\tbgnd_par(\t\t\" МОНИТОР АКБ N< \",\r\n\t\t\t\t\tptr[index_set],\r\n\t\t\t\t\tptr[index_set+1],\r\n\t\t\t\t\tptr[index_set+2]);\r\n\r\n\t\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\t\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\r\n\t\tif(sub_ind>=simax)\tpointer_set(1);\r\n\t\t\r\n\t\tint2lcd(makb[sub_ind1]._Ub[0],'@',1);\r\n\t\tint2lcd(makb[sub_ind1]._Ub[1],'#',1);\r\n\t\tint2lcd(makb[sub_ind1]._Ub[2],'$',1);\r\n\t\tint2lcd(makb[sub_ind1]._Ub[3],'%',1);\r\n\t\tint2lcd(makb[sub_ind1]._Ub[4],'^',1);\r\n\t\tif(makb[sub_ind1]._T_nd[0])sub_bgnd(\"НЕПОДКЛЮЧЕН\",'&',-5);\r\n\t\telse int2lcd_mmm(makb[sub_ind1]._T[0],'&',0); \r\n \t\tif(makb[sub_ind1]._T_nd[1])sub_bgnd(\"НЕПОДКЛЮЧЕН\",'',-5);\r\n\t\telse int2lcd_mmm(makb[sub_ind1]._T[1],'',0); \r\n\t\tif(makb[sub_ind1]._T_nd[2])sub_bgnd(\"НЕПОДКЛЮЧЕН\",'(',-5);\r\n\t\telse int2lcd_mmm(makb[sub_ind1]._T[2],'(',0); \r\n\t\tif(makb[sub_ind1]._T_nd[3])sub_bgnd(\"НЕПОДКЛЮЧЕН\",')',-5);\r\n\t\telse int2lcd_mmm(makb[sub_ind1]._T[3],')',0); \r\n\t\tif(makb[sub_ind1]._T_nd[4])sub_bgnd(\"НЕПОДКЛЮЧЕН\",'+',-5);\r\n\t\telse int2lcd_mmm(makb[sub_ind1]._T[4],'+',0); \r\n\t\t}\r\n\tint2lcd(sub_ind1+1,'<',0);\r\n }\r\n\r\n else if(ind==iBps)\r\n\t{\r\n\tconst char ptr[8];\r\n \r\n\tsimax=5;\r\n\r\n\tptr[1]=\t\t\t\" Uист = (В \";\r\n\tptr[2]=\t\t\t\" Iист = [A \";\r\n\tptr[3]=\t\t\t\" tист = ]°С \";\r\n\tptr[4]=\t\t\t\" Сброс аварий \";\r\n\tptr[5]=\t\t\tsm_exit;\r\n\r\n\tif(bps[sub_ind1]._state==bsWRK)\r\n\t\t{\r\n\t\tptr[0]=\t\t\" в работе \";\r\n\t\tif((bps[sub_ind1]._flags_tm&0x08)&&(bFL2))\r\n\t\tptr[0]=\t\t\" СИЛЬНЫЙ НАГРЕВ!!! \";\t \r\n\t\t}\r\n \t else if(bps[sub_ind1]._state==bsRDY)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" в резерве \";\t\r\n\t\t}\r\n\r\n \t else if(bps[sub_ind1]._state==bsBL)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" заблокирован извне \";\t\r\n\t\t}\r\n\r\n\t else if(bps[sub_ind1]._state==bsAPV)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" Работает АПВ \";\r\n\t\t}\r\n\t \r\n\t else if(bps[sub_ind1]._state==bsAV)\r\n\t \t{\r\n\t\tif(bps[sub_ind1]._av&(1<<0))\r\n\t\tptr[0]=\t\t\" Авария - перегрев! \";\r\n\t\telse if(bps[sub_ind1]._av&(1<<1))\r\n\t\tptr[0]=\t\t\"Авария - завыш.Uвых!\";\r\n\t\telse if(bps[sub_ind1]._av&(1<<2))\t \r\n\t\tptr[0]=\t\t\"Авария - заниж.Uвых!\";\r\n\t\telse if(bps[sub_ind1]._av&(1<<3))\r\n\t\t\t{\r\n\t\t\tptr[0]=\t\" Авария - потеряна \";\r\n\t\t\tptr[1]=\t\" связь!!! \";\r\n\t\t\tptr[2]=\t\" \";\r\n\t\t\tsimax=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\t else if(bps[sub_ind1]._state==bsOFF_AV_NET)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" ВЫКЛЮЧЕН \";\r\n\t\tptr[1]=\t\t\" Отсутствует \";\r\n\t\tptr[2]=\t\t\" первичное питание! \";\r\n\t\tsimax=0;\r\n\t\t}\r\n\r\n\tbgnd_par(\t\t\t\" БПС N& \",\r\n\t\t\t\t\tptr[index_set],\r\n\t\t\t\t\tptr[index_set+1],\r\n\t\t\t\t\tptr[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\r\n\tif(sub_ind>=4)\tpointer_set(1);\r\n\r\n\r\n\t\t\r\n\r\n\tint2lcd(sub_ind1+1,'&',0);\r\n\tint2lcd(bps[sub_ind1]._Uii,'(',1);\r\n int2lcd(bps[sub_ind1]._Ii,'[',1); \r\n \tint2lcd_mmm(bps[sub_ind1]._Ti,']',0); \r\n \t\t\t \r\n // char2lcdhxy(bps[sub_ind1]._state,0x32);\r\n \r\n //\tint2lcdyx(sub_ind,0,2,0);\r\n//\tint2lcdyx(index_set,0,4,0);\r\n\t//int2lcdyx(u_necc,0,4,0);\r\n\t//int2lcdyx(cntrl_stat,0,8,0);\t\r\n }\r\n else if(ind==iBps_elteh)\r\n\t{\r\n\tconst char* ptr[9];\r\n \r\n\tsimax=8;\r\n\r\n\tptr[1]=\t\t\t\" Uист = (В \";\r\n\tptr[2]=\t\t\t\" Iист = [A \";\r\n\tptr[3]=\t\t\t\" tист = ]°С \";\r\n\tptr[4]=\t\t\t\" Наработка \";\r\n\tptr[5]=\t\t\t\" вентилятора >ч\";\r\n\tptr[6]=\t\t\t\" Сброс наработки \";\r\n\tptr[7]=\t\t\t\" Сброс аварий \";\r\n\tptr[8]=\t\t\tsm_exit;\r\n\r\n\tif(bps[sub_ind1]._state==bsWRK)\r\n\t\t{\r\n\t\tptr[0]=\t\t\" в работе \";\r\n\t\tif((bps[sub_ind1]._flags_tm&0x08)&&(bFL2))\r\n\t\tptr[0]=\t\t\" СИЛЬНЫЙ НАГРЕВ!!! \";\t \r\n\t\t}\r\n \t else if(bps[sub_ind1]._state==bsRDY)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" в резерве \";\t\r\n\t\t}\r\n\r\n \t else if(bps[sub_ind1]._state==bsBL)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" заблокирован извне \";\t\r\n\t\t}\r\n\r\n\t else if(bps[sub_ind1]._state==bsAPV)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" Работает АПВ \";\r\n\t\t}\r\n\t \r\n\t else if(bps[sub_ind1]._state==bsAV)\r\n\t \t{\r\n\t\tif(bps[sub_ind1]._av&(1<<0))\r\n\t\tptr[0]=\t\t\" Авария - перегрев! \";\r\n\t\telse if(bps[sub_ind1]._av&(1<<1))\r\n\t\tptr[0]=\t\t\"Авария - завыш.Uвых!\";\r\n\t\telse if(bps[sub_ind1]._av&(1<<2))\t \r\n\t\tptr[0]=\t\t\"Авария - заниж.Uвых!\";\r\n\t\telse if(bps[sub_ind1]._av&(1<<3))\r\n\t\t\t{\r\n\t\t\tptr[0]=\t\" Авария - потеряна \";\r\n\t\t\tptr[1]=\t\" связь!!! \";\r\n\t\t\tptr[2]=\t\" \";\r\n\t\t\tsimax=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\t else if(bps[sub_ind1]._state==bsOFF_AV_NET)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" ВЫКЛЮЧЕН \";\r\n\t\tptr[1]=\t\t\" Отсутствует \";\r\n\t\tptr[2]=\t\t\" первичное питание! \";\r\n\t\tsimax=0;\r\n\t\t}\r\n\r\n\tbgnd_par(\t\t\t\" \\ БПС N& \",\r\n\t\t\t\t\tptr[index_set],\r\n\t\t\t\t\tptr[index_set+1],\r\n\t\t\t\t\tptr[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\r\n\tif(sub_ind>=6)\tpointer_set(1);\r\n\r\n\r\n\t\t\r\n\r\n\tint2lcd(sub_ind1+1,'&',0);\r\n\tint2lcd(bps[sub_ind1]._Uii,'(',1);\r\n int2lcd(bps[sub_ind1]._Ii,'[',1); \r\n \tint2lcd_mmm(bps[sub_ind1]._Ti,']',0); \r\n\tint2lcd(bps[sub_ind1]._vent_resurs,'>',0);\r\n \t\t\t \r\n //char2lcdhxy(bps[sub_ind1]._state,0x32);\r\n \r\n //\tint2lcdyx(sub_ind,0,2,0);\r\n\t//int2lcdyx(index_set,0,4,0);\r\n\t//int2lcdyx(u_necc,0,4,0);\r\n\t//int2lcdyx(cnt_net_drv,0,19,0);\t\r\n } \t \r\nelse if(ind==iInv)\r\n\t{\r\n\tconst char* ptr[8];\r\n \r\n\tsimax=5;\r\n\r\n\tptr[1]=\t\t\t\" Uинв = (В \";\r\n\tptr[2]=\t\t\t\" Iинв = [A \";\r\n\tptr[3]=\t\t\t\" tинв = ]°С \";\r\n\tptr[4]=\t\t\t\" Сброс аварий \";\r\n\tptr[5]=\t\t\tsm_exit;\r\n\r\n\tif((inv[sub_ind1]._flags_tm==0)&&(inv[sub_ind1]._cnt==0))\r\n\t\t{\r\n\t\tptr[0]=\t\t\" в работе \";\r\n\t\t}\r\n\telse if((inv[sub_ind1]._flags_tm==0x04)&&(inv[sub_ind1]._cnt==0))\r\n\t\t{\r\n\t\tptr[0]=\t\t\" СИЛЬНЫЙ НАГРЕВ!!! \";\t \r\n\t\t}\r\n\telse if((inv[sub_ind1]._flags_tm==0x24)&&(inv[sub_ind1]._cnt==0))\r\n\t\t{\r\n\t\tptr[0]=\t\t\"отключился,перегрев \";\t \r\n\t\t}\r\n\telse if((inv[sub_ind1]._flags_tm&0x20)&&(inv[sub_ind1]._cnt==0))\r\n\t\t{\r\n\t\tptr[0]=\t\t\" отсутствует Uвых \";\r\n\t\t}\r\n\telse if(inv[sub_ind1]._cnt!=0)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" не подключен \";\t\r\n\t\t}\r\n\r\n\r\n\tbgnd_par(\t\t\t\" ИНВЕРТОР N& \",\r\n\t\t\t\t\tptr[index_set],\r\n\t\t\t\t\tptr[index_set+1],\r\n\t\t\t\t\tptr[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\r\n\tif(sub_ind>=4)\tpointer_set(1);\r\n\r\n\r\n\t\t\r\n\r\n\tint2lcd(sub_ind1+1,'&',0);\r\n\tint2lcd(inv[sub_ind1]._Uio,'(',1);\r\n int2lcd(inv[sub_ind1]._Ii,'[',1); \r\n \tint2lcd_mmm(inv[sub_ind1]._Ti,']',0); \r\n \tint2lcdyx(inv[sub_ind1]._flags_tm,0,19,0);\t\t \r\n // char2lcdhxy(bps[sub_ind1]._state,0x32);\r\n \r\n//int2lcdyx(bps[sub_ind1]._flags_tm&0xFF,0,18,0);\r\n\r\n//int2lcdyx(ava,0,4,0);\t\r\n//int2lcdyx(plazma_inv[0],0,2,0);\r\n//int2lcdyx(plazma_inv[1],0,5,0);\r\n//int2lcdyx(plazma_inv[2],0,8,0);\r\n//int2lcdyx(plazma_inv[3],0,11,0);\r\n\t//int2lcdyx(inv[sub_ind1]._flags_tm,0,14,0);\r\n } \r\n\t \r\nelse if(ind==iInv_v2)\r\n\t{\r\n\tconst char* ptr[8];\r\n \r\n\tsimax=7;\r\n\r\n\tptr[1]=\t\t\t\" Uвых = (В \";\r\n\tptr[2]=\t\t\t\" Iвых = )A \";\r\n\tptr[3]=\t\t\t\" tинв = [°С \";\r\n\tptr[4]=\t\t\t\" Pвых = ]Вт \";\r\n\tptr[5]=\t\t\t\" Uсети = <В \";\r\n\tptr[6]=\t\t\t\" Uшины = >В \";\r\n\tptr[7]=\t\t\tsm_exit;\r\n\r\n\t//if((inv[sub_ind1]._flags_tm==0)&&(inv[sub_ind1]._cnt==0))\r\n\t//\t{\r\n\t\tptr[0]=\t\t\" в работе \";\r\n\t//\t}\r\n\t/else /if((inv[sub_ind1]._flags_tm==0x04)&&(inv[sub_ind1]._cnt==0))\r\n\t\t{\r\n\t\tptr[0]=\t\t\" СИЛЬНЫЙ НАГРЕВ!!! \";\t \r\n\t\t}\r\n\telse if((inv[sub_ind1]._flags_tm==0x24)&&(inv[sub_ind1]._cnt==0))\r\n\t\t{\r\n\t\tptr[0]=\t\t\"отключился,перегрев \";\t \r\n\t\t}\r\n\telse if((!(inv[sub_ind1]._flags_tm&0x20))&&(inv[sub_ind1]._cnt==0))\r\n\t\t{\r\n\t\tptr[0]=\t\t\" отсутствует Uвых \";\r\n\t\t}\r\n\telse if(inv[sub_ind1]._cnt!=0)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" не подключен \";\t\r\n\t\t}\r\n\r\n\r\n\tbgnd_par(\t\t\t\" ИНВЕРТОР N& \",\r\n\t\t\t\t\tptr[index_set],\r\n\t\t\t\t\tptr[index_set+1],\r\n\t\t\t\t\tptr[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\r\n\tif(sub_ind>=simax)\tpointer_set(1);\r\n\r\n\r\n\t\t\r\n\r\n\tint2lcd(sub_ind1+1,'&',0);\r\n\tint2lcd(inv[sub_ind1]._Uio,'(',1);\r\n int2lcd(inv[sub_ind1]._Ii,')',1); \r\n \tint2lcd_mmm(inv[sub_ind1]._Ti,'[',0); \r\n\tint2lcd_mmm(inv[sub_ind1]._Pio,']',0);\r\n\tint2lcd(inv[sub_ind1]._Uin,'<',1);\r\n\tint2lcd(inv[sub_ind1]._Uil,'>',1);\r\n\t//int2lcdyx(inv[sub_ind1]._flags_tm,0,19,0);\r\n\t//int2lcdyx(inv[sub_ind1]._cnt,0,15,0);\r\n \t//int2lcd(inv[sub_ind1]._flags_tm,'[',1);\t\t \r\n // char2lcdhxy(bps[sub_ind1]._state,0x32);\r\n \r\n//int2lcdyx(bps[sub_ind1]._flags_tm&0xFF,0,18,0);\r\n\r\n//int2lcdyx(ava,0,4,0);\t\r\n//int2lcdyx(plazma_inv[0],0,2,0);\r\n//int2lcdyx(plazma_inv[1],0,5,0);\r\n//int2lcdyx(plazma_inv[2],0,8,0);\r\n//int2lcdyx(plazma_inv[3],0,11,0);\r\n\t//int2lcdyx(inv[sub_ind1]._Ii,0,2,0);\r\n\t//int2lcdyx(bps[sub_ind1+20]._cnt,0,19,0);\r\n \t}\r\n\r\nelse if(ind==iByps)\r\n\t{\r\n\tconst char* ptr[8];\r\n\r\n\tstatic char iByps_ind_cnt;\r\n\t\r\n\tif(++iByps_ind_cnt>=40)iByps_ind_cnt=0;\r\n\r\n\r\n\r\n\tsimax=7;\r\n\r\n\tptr[1]=\t\t\t\" Uвых = (В \";\r\n\tptr[2]=\t\t\t\" Iвых = )A \";\r\n\tptr[3]=\t\t\t\" Pвых = ]Вт \";\r\n\tptr[4]=\t\t\t\" tбп = [°С \";\r\n\tptr[5]=\t\t\t\" Uсети = <В \";\r\n\tptr[6]=\t\t\t\" Uшины = >В \";\r\n\tptr[7]=\t\t\tsm_exit;\r\n\r\n\tptr[0]=\t\t\" в работе \";\r\n\t\r\n\tif(iByps_ind_cnt<=20)\r\n\t\t{\r\n\t\tif(byps._flags&0x40)ptr[0]=\t\t\"Приоритет инверторы \";\r\n\t\telse ptr[0]=\t\t\t\t\t\"Приоритет сеть \";\r\n\t\t}\r\n\r\n\tif(iByps_ind_cnt>20)\r\n\t\t{\r\n\t\tif(byps._flags&0x80)ptr[0]=\t\t\"Работа от инверторов\";\r\n\t\telse ptr[0]=\t\t\t\t\t\"Работа от сети \";\r\n\t\t}\r\n\r\n\tif((byps._flags&0x04)&&(byps._cnt<5))\r\n\t\t{\r\n\t\tptr[0]=\t\t\" СИЛЬНЫЙ НАГРЕВ!!! \";\t \r\n\t\t}\r\n\telse if((byps._flags&0x02)&&(byps._cnt<5))\r\n\t\t{\r\n\t\tptr[0]=\t\t\"отключился,перегрев \";\t \r\n\t\t}\r\n\telse if(byps._cnt>10)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" не подключен \";\t\r\n\t\t}\r\n\r\n\r\n\tbgnd_par(\t\t\t\" БАЙПАС \",\r\n\t\t\t\t\tptr[index_set],\r\n\t\t\t\t\tptr[index_set+1],\r\n\t\t\t\t\tptr[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\r\n\tif(sub_ind>=simax)\tpointer_set(1);\r\n\r\n\r\n\tint2lcd(byps._Uout,'(',1);\r\n int2lcd(byps._Iout,')',1); \r\n \tint2lcd_mmm(byps._T,'[',0); \r\n\tint2lcd_mmm(byps._Pout,']',0);\r\n\tint2lcd(byps._Unet,'<',1);\r\n\tint2lcd(byps._Uin,'>',1);\r\n\t//int2lcdyx(iByps_ind_cnt,0,2,0);\r\n\t//int2lcdyx(byps._flags,0,6,0);\r\n \t}\r\n\t \t \r\nelse if(ind==iNet)\r\n\t{\r\n\tbgnd_par(\t\t\" СЕТЬ \",\r\n\t\t\t\t\" U = [В \",\r\n\t\t\t\t\" f = ]Гц \",\r\n\t\t\t\tsm_exit);\r\n\tlcd_buffer[60]=1;\r\n\t \t\r\n int2lcd(net_U,'[',0);\r\n int2lcd(net_F,']',1);\r\n\r\n //temp_SL=(signed long)net_buff_;\r\n//temp_SL=Kunet; \r\n//int2lcdyx(net_buff_,0,4,0);\r\n//int2lcdyx(Kunet,0,9,0);\r\n \t \t \t \t\t\r\n }\r\n\r\nelse if(ind==iNet3)\r\n\t{\r\n\r\n\r\n\tptrs[0]= \t\t\" UфA !В \";\r\n ptrs[1]= \t\t\" UфB @В \";\r\n ptrs[2]= \t \" UфC #В \";\r\n\tptrs[3]= \t \" f = ]Гц \"; \r\n\tptrs[4]= \t\t\" Выход \";\r\n\r\n\r\n\tbgnd_par(\t\t\" СЕТЬ \",\r\n\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n int2lcd(net_Ua,'!',0);\r\n\tint2lcd(net_Ub,'@',0);\r\n\tint2lcd(net_Uc,'#',0);\r\n\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\n\tint2lcd(net_F3,']',1);\r\n\t#else\r\n int2lcd(net_F,']',1);\r\n #endif\r\n\r\n //temp_SL=(signed long)net_buff_;\r\n//temp_SL=Kunet; \r\n//int2lcdyx(net_buff_,0,4,0);\r\n//int2lcdyx(Kunet,0,9,0);\r\n \t \t \t \t\t\r\n }\r\n\r\nelse if(ind==iNet3LIN)\r\n\t{\r\n\r\n\r\n\tptrs[0]= \t\t\" UAB !В \";\r\n ptrs[1]= \t\t\" UBC @В \";\r\n ptrs[2]= \t \" UCB #В \";\r\n\tptrs[3]= \t \" f = ]Гц \"; \r\n\tptrs[4]= \t\t\" Выход \";\r\n\r\n\r\n\tbgnd_par(\t\t\" СЕТЬ \",\r\n\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n int2lcd(net_Ua,'!',0);\r\n\tint2lcd(net_Ub,'@',0);\r\n\tint2lcd(net_Uc,'#',0);\r\n\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\n\tint2lcd(net_F3,']',1);\r\n\t#else\r\n int2lcd(net_F,']',1);\r\n #endif\r\n\r\n //temp_SL=(signed long)net_buff_;\r\n//temp_SL=Kunet; \r\n//int2lcdyx(net_buff_,0,4,0);\r\n//int2lcdyx(Kunet,0,9,0);\r\n \t \t \t \t\t\r\n }\r\n\r\nelse if(ind==iNetEM)\r\n\t{\r\n\r\n\r\n\tptrs[0]= \t\t\" U [В \";\r\n \tptrs[1]= \t\t\" f ]Гц \";\r\n \tptrs[2]= \t \t\" Pтекущ. #Вт \";\r\n\tptrs[3]= \t \t\" Pсумм. $кВтч\"; \r\n\tptrs[4]= \t\t\" Выход \";\r\n\r\n\r\n\tbgnd_par(\t\t\" СЕТЬ \",\r\n\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n int2lcd(net_U,'[',0);\r\n int2lcd(net_F,']',1);\r\n long2lcd_mmm(power_summary/10,'$',1);\r\n int2lcd(power_current,'#',0);\r\n\r\n //temp_SL=(signed long)net_buff_;\r\n//temp_SL=Kunet; \r\n//int2lcdyx(net_buff_,0,4,0);\r\n\r\n\r\n \t \t \t \t\t\r\n }\r\n\r\nelse if(ind==iNetEM)\r\n\t{\r\n\r\n\r\n\tptrs[0]= \t\t\" U [В \";\r\n \tptrs[1]= \t\t\" f ]Гц \";\r\n \tptrs[2]= \t \t\" Pтекущ. #Вт \";\r\n\tptrs[3]= \t \t\" Pсумм. $кВтч\"; \r\n\tptrs[4]= \t\t\" Выход \";\r\n\r\n\r\n\tbgnd_par(\t\t\" СЕТЬ \",\r\n\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n int2lcd(net_U,'[',0);\r\n int2lcd(net_F,']',1);\r\n long2lcd_mmm(power_summary/10,'$',1);\r\n int2lcd(power_current,'#',0);\r\n\r\n //temp_SL=(signed long)net_buff_;\r\n//temp_SL=Kunet; \r\n//int2lcdyx(net_buff_,0,4,0);\r\n\r\n\r\n \t \t \t \t\t\r\n }\r\n\r\nelse if(ind==iNet_IPS_SGEP_GAZPROM)\r\n\t{\r\n\r\n\r\n\tptrs[0]= \t\t\" U !В \";\r\n ptrs[1]= \t\t\" f @Гц \";\r\n ptrs[2]= \t \" Pс #Вт \";\r\n ptrs[3]= \t \" Iс $А \";\r\n\tptrs[4]= \t \" Uс %В \"; \r\n\tptrs[5]= \t\t\" Выход \";\r\n\r\n\r\n\tbgnd_par(\t\t\" СЕТЬ \",\r\n\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n int2lcd(net_U,'!',0);\r\n int2lcd(net_F,'@',1);\r\n\t int2lcd(power_int,'#',0);\r\n int2lcd(curr_short,'$',2);\r\n\t int2lcd(volta_short,'%',1);\r\n \r\n\r\n //temp_SL=(signed long)net_buff_;\r\n//temp_SL=Kunet; \r\n//int2lcdyx(net_buff_,0,4,0);\r\n\r\n\r\n \t \t \t \t\t\r\n }\r\n\r\nelse if(ind==iLoad)\r\n\t{\r\n\tbgnd_par(\t\t\" НАГРУЗКА \",\r\n\t\t\t\t\" Uнагр = [В \",\r\n\t\t\t\t\" Iнагр = ]А \",\r\n\t\t\t\tsm_exit);\r\n\tlcd_buffer[60]=1;\r\n\t \t\r\n int2lcd(load_U,'[',1);\r\n int2lcd(load_I,']',1);\r\n\r\n \r\n \t \t \t \t\t\r\n }\r\n\r\nelse if(ind==iExtern_GLONASS)\r\n\t{\r\n\r\n\tptrs[0]= \t\t\" tвнеш.возд. !°С \";\r\n ptrs[1]= \t\t\" tотсек ЭПУ @°С \";\r\n ptrs[2]= \t \" Сух.конт.№1 $ \"; \r\n ptrs[3]= \t \" Сух.конт.№2 % \";\r\n\tptrs[4]= \t \" Сух.конт.№3 ^ \";\r\n\tptrs[5]= \t \" Сух.конт.№4 & \";\r\n\tptrs[2+NUMSK]= \t\" Выход \";\r\n\tptrs[3+NUMSK]= \t\" \";\r\n\tptrs[4+NUMSK]= \t\" \";\r\n\r\n\tbgnd_par(\t\t\" ВНЕШНИЕ ДАТЧИКИ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n\r\n if(ND_EXT[0])sub_bgnd(\"неиспр.\",'!',-3);\r\n else int2lcd_mmm(t_ext[0],'!',0);\r\n\r\n\tif(ND_EXT[1])sub_bgnd(\"неиспр.\",'@',-3);\r\n else int2lcd_mmm(t_ext[1],'@',0);\r\n\r\n\r\n\tif(sk_av_stat[0]==sasON)\tsub_bgnd(\"АВАРИЯ\",'$',0);\r\n\telse sub_bgnd(\"НОРМА\",'$',0);\r\n\t\r\n\r\n\tif(sk_av_stat[1]==sasON) sub_bgnd(\"АВАРИЯ\",'%',0);\r\n\telse sub_bgnd(\"НОРМА\",'%',0);\r\n\r\n\tif(sk_av_stat[2]==sasON) sub_bgnd(\"АВАРИЯ\",'^',0);\r\n\telse sub_bgnd(\"НОРМА\",'^',0);\r\n\r\n\tif(sk_av_stat[3]==sasON) sub_bgnd(\"АВАРИЯ\",'&',0);\r\n\telse sub_bgnd(\"НОРМА\",'&',0);\r\n\r\n }\r\n\r\nelse if(ind==iExtern_3U)\r\n\t{\r\n\r\n\tptrs[0]= \t\t\" tвнеш.возд. !°С \";\r\n ptrs[1]= \t\t\" tотсек ЭПУ @°С \";\r\n ptrs[5]= \t \" Сух.конт.№1 $ \"; \r\n ptrs[6]= \t \" Сух.конт.№2 % \";\r\n\tptrs[7]= \t \" Сух.конт.№3 ^ \";\r\n\tptrs[8]= \t \" Сух.конт.№4 & \";\r\n\tptrs[5+NUMSK]= \t\" Выход \";\r\n\tptrs[6+NUMSK]= \t\" \";\r\n\tptrs[7+NUMSK]= \t\" \";\r\n\r\n\tbgnd_par(\t\t\" ВНЕШНИЕ ДАТЧИКИ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n\r\n if(ND_EXT[0])sub_bgnd(\"неиспр.\",'!',-3);\r\n else int2lcd_mmm(t_ext[0],'!',0);\r\n\r\n\tif(ND_EXT[1])sub_bgnd(\"неиспр.\",'@',-3);\r\n else int2lcd_mmm(t_ext[1],'@',0);\r\n\r\n\r\n\tif(sk_av_stat[0]==sasON)\tsub_bgnd(\"АВАРИЯ\",'$',0);\r\n\telse sub_bgnd(\"НОРМА\",'$',0);\r\n\t\r\n\r\n\tif(sk_av_stat[1]==sasON) sub_bgnd(\"АВАРИЯ\",'%',0);\r\n\telse sub_bgnd(\"НОРМА\",'%',0);\r\n\r\n\tif(sk_av_stat[2]==sasON) sub_bgnd(\"АВАРИЯ\",'^',0);\r\n\telse sub_bgnd(\"НОРМА\",'^',0);\r\n\r\n\tif(sk_av_stat[3]==sasON) sub_bgnd(\"АВАРИЯ\",'&',0);\r\n\telse sub_bgnd(\"НОРМА\",'&',0);\r\n\r\n }\r\n\r\nelse if(ind==iExtern_KONTUR)\r\n\t{\r\n\r\n\tptrs[0]= \t\t\" tвнеш.возд. !°С \";\r\n ptrs[1]= \t\t\" tотсек ЭПУ @°С \";\r\n ptrs[2]= \t\t\" tотсек MSAN #°С \";\r\n ptrs[3]= \t\t\" tбат1 <°C \";\r\n ptrs[4]= \t\t\" tбат2 >°C \";\r\n ptrs[5]= \t \" Датч.двери $ \"; \r\n ptrs[6]= \t \" Датч.дыма % \";\r\n\tptrs[7]= \t \" Датч.удара ^ \";\r\n\t//ptrs[6]= \t \" Датч.перев. & \";\r\n //ptrs[6]= \t \" Fвент. ? \";\r\n\tptrs[8]= \t \" Выход \";\r\n\tptrs[9]= \t \" \";\r\n\tptrs[10]= \t \" \";\r\n\r\n\tbgnd_par(\t\t\" ВНЕШНИЕ ДАТЧИКИ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n\t//int2lcdyx(t_box,0,19,0);\r\n/* int2lcd_mmm(t_ext[1],'@',0);\r\n int2lcd_mmm(t_ext[2],'#',0);/\r\n\r\n if(ND_EXT[0])sub_bgnd(\"неиспр.\",'!',-3);\r\n else int2lcd_mmm(t_ext[0],'!',0);\r\n\r\n\tif(ND_EXT[1])sub_bgnd(\"неиспр.\",'@',-3);\r\n else int2lcd_mmm(t_ext[1],'@',0);\r\n\r\n\tif(ND_EXT[2])sub_bgnd(\"неиспр.\",'#',-3);\r\n else int2lcd_mmm(t_ext[2],'#',0);\r\n\r\n\r\n\tif(bat[0]._nd)sub_bgnd(\"неиспр.\",'<',-3);\r\n else int2lcd_mmm(bat[0]._Tb,'<',0);\r\n\r\n\tif(bat[1]._nd)sub_bgnd(\"неиспр.\",'>',-3);\r\n else int2lcd_mmm(bat[1]._Tb,'>',0);\r\n\r\n\tif(bat[sub_ind1]._nd)ptrs[5]=\" ДТ. неисправен \";\r\n\t\telse ptrs[5]=\" tбат = ?°C \";\r\n\r\n\tif(sk_av_stat[0]==sasON)\tsub_bgnd(\"ОТКР.\",'$',0);\r\n\telse sub_bgnd(\"ЗАКР.\",'$',0);\r\n\t\r\n\r\n\tif(sk_av_stat[1]==sasON) sub_bgnd(\"АВАРИЯ\",'%',0);\r\n\telse sub_bgnd(\"НОРМА\",'%',0);\r\n\r\n\tif(sk_av_stat[2]==sasON) sub_bgnd(\"АВАРИЯ\",'^',0);\r\n\telse sub_bgnd(\"НОРМА\",'^',0);\r\n\r\n\t//if(sk_av_stat[3]==sasON) sub_bgnd(\"АВАРИЯ\",'&',0);\r\n\t//else sub_bgnd(\"НОРМА\",'&',0);\r\n\r\n //int2lcd(pos_vent,'?',0);\r\n\t//ptrs[7]= \t \" Pсумм. <кВтч\";\r\n\t//ptrs[8]= \t \" Pтекущ. >Вт \";\r\n\tint2lcdyx(sk_av_stat[0],0,4,0);\r\n\tint2lcdyx(sk_av_stat[1],0,8,0);\r\n\tint2lcdyx(sk_av_stat[2],0,12,0);\r\n\tint2lcdyx(sk_av_stat[3],0,16,0);\r\n }\r\n\r\nelse if(ind==iExtern_TELECORE2015)\r\n\t{\r\n\r\n\tptrs[0]=\t\t\" Дt1 #°С \";\r\n\tptrs[1]=\t\t\" Дt2 %°С \";\r\n ptrs[2]= \t \" Датч.двери $ \"; \r\n\tptrs[3]= \t \" Выход \";\r\n\tptrs[4]= \t \" \";\r\n\tptrs[5]= \t \" \";\r\n\r\n\tbgnd_par(\t\t\" ВНЕШНИЕ ДАТЧИКИ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n\t//int2lcdyx(t_box,0,19,0);\r\n/* int2lcd_mmm(t_ext[1],'@',0);\r\n int2lcd_mmm(t_ext[2],'#',0);/\r\n\r\n\tif(ND_EXT[0])sub_bgnd(\"неиспр.\",'#',-3);\r\n else int2lcd_mmm(t_ext[0],'#',0);\r\n\tif(ND_EXT[1])sub_bgnd(\"неиспр.\",'%',-3);\r\n else int2lcd_mmm(t_ext[1],'%',0);\r\n\r\n\tif(sk_av_stat[0]==sasON)\tsub_bgnd(\"ОТКР.\",'$',0);\r\n\telse sub_bgnd(\"ЗАКР.\",'$',0);\r\n\t\r\n\r\n/\tif(sk_av_stat[1]==sasON) sub_bgnd(\"АВАРИЯ\",'%',0);\r\n\telse sub_bgnd(\"НОРМА\",'%',0);\r\n\r\n\tif(sk_av_stat[2]==sasON) sub_bgnd(\"АВАРИЯ\",'^',0);\r\n\telse sub_bgnd(\"НОРМА\",'^',0);/\r\n\r\n\t//if(sk_av_stat[3]==sasON) sub_bgnd(\"АВАРИЯ\",'&',0);\r\n\t//else sub_bgnd(\"НОРМА\",'&',0);\r\n\r\n //int2lcd(pos_vent,'?',0); sk_cnt\r\n\t//ptrs[7]= \t \" Pсумм. <кВтч\";\r\n\t//ptrs[8]= \t \" Pтекущ. >Вт \";\r\n\t//int2lcdyx(sk_av_stat[0],0,4,0);\r\n\t//int2lcdyx(sk_av_stat[1],0,8,0);\r\n\t//int2lcdyx(sk_av_stat[2],0,12,0);\r\n\t//int2lcdyx(sk_cnt[0],1,4,0);\r\n\t//int2lcdyx(sk_cnt[1],1,8,0);\r\n\t//int2lcdyx(sk_cnt[2],1,12,0);\r\n\t//int2lcdyx(adc_buff_[sk_buff_TELECORE2015[0]],2,4,0);\r\n\t//int2lcdyx(adc_buff_[sk_buff_TELECORE2015[1]],2,8,0);\r\n\t//int2lcdyx(adc_buff_[sk_buff_TELECORE2015[2]],2,12,0);\r\n }\r\n\r\nelse if(ind==iExtern_6U)\r\n\t{\r\n\r\n\tptrs[0]= \t\t\t\" t1 !°С \";\r\n\tptrs[1]= \t\t\t\" t2 @°С \";\r\n\tptrs[2]= \t\t\t\" t3 #°С \";\r\n\tptrs[NUMDT]= \t\t\" СК1 $ \";\r\n\tptrs[NUMDT+1]= \t\t\" СК2 % \";\r\n\tptrs[NUMDT+2]= \t\t\" СК3 ^ \";\r\n\tptrs[NUMDT+3]= \t\t\" СК4 & \";\t\t\r\n\tptrs[NUMDT+NUMSK]=\t\" Выход \";\r\n\tptrs[NUMDT+NUMSK+1]=\" \";\r\n\tptrs[NUMDT+NUMSK+2]=\" \";\r\n\r\n\tbgnd_par(\t\t\" ВНЕШНИЕ ДАТЧИКИ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n if(ND_EXT[0])sub_bgnd(\"неиспр.\",'!',-3);\r\n else if(index_set==0)int2lcd_mmm(t_ext[0],'!',0);\r\n\r\n if(ND_EXT[1])sub_bgnd(\"неиспр.\",'@',-3);\r\n else int2lcd_mmm(t_ext[1],'@',0);\r\n\r\n if(ND_EXT[2])sub_bgnd(\"неиспр.\",'#',-3);\r\n else int2lcd_mmm(t_ext[2],'#',0);\r\n\r\n\tif(sk_av_stat[0]==sasON) sub_bgnd(\"АВАРИЯ\",'$',0);\r\n\telse sub_bgnd(\"НОРМА\",'$',0);\r\n\r\n\tif(sk_av_stat[1]==sasON) sub_bgnd(\"АВАРИЯ\",'%',0);\r\n\telse sub_bgnd(\"НОРМА\",'%',0);\r\n\r\n\tif(sk_av_stat[2]==sasON) sub_bgnd(\"АВАРИЯ\",'^',0);\r\n\telse sub_bgnd(\"НОРМА\",'^',0);\r\n\r\n\tif(sk_av_stat[3]==sasON) sub_bgnd(\"АВАРИЯ\",'&',0);\r\n\telse sub_bgnd(\"НОРМА\",'&',0);\r\n\r\n }\r\n\r\nelse if(ind==iExtern_220)\r\n\t{\r\n\tsigned char temp;\r\n\r\n\tptrs[0]= \t\t\t\" t1 !°С \";\r\n\tptrs[1]= \t\t\t\" t2 @°С \";\r\n\tptrs[2]= \t\t\t\" t3 #°С \";\r\n\tptrs[NUMDT]= \t\t\" СК1 $ \";\r\n\tptrs[NUMDT+1]= \t\t\" СК2 % \";\r\n\tptrs[NUMDT+2]= \t\t\" СК3 ^ \";\r\n\tptrs[NUMDT+3]= \t\t\" СК4 & \";\t\t\r\n\tptrs[NUMDT+NUMSK]=\t\" Выход \";\r\n\tptrs[NUMDT+NUMSK+1]=\" \";\r\n\tptrs[NUMDT+NUMSK+2]=\" \";\r\n\r\n\tbgnd_par(\t\t\" ВНЕШНИЕ ДАТЧИКИ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n if(ND_EXT[0])sub_bgnd(\"неиспр.\",'!',-3);\r\n else int2lcd_mmm(t_ext[0],'!',0);\r\n\r\n if(ND_EXT[1])sub_bgnd(\"неиспр.\",'@',-3);\r\n else int2lcd_mmm(t_ext[1],'@',0);\r\n\r\n if(ND_EXT[2])sub_bgnd(\"неиспр.\",'#',-3);\r\n else int2lcd_mmm(t_ext[2],'#',0);\r\n\r\n\ttemp=-11;\r\n\tif(sk_stat[0]==ssON)\t\ttemp=-9;\r\n\tif(sk_av_stat[0]==sasON) \tsub_bgnd(\"АВАРИЯ\",'$',temp-2);\r\n\telse \tsub_bgnd(\"НОРМА\",'$',temp-1);\r\n\tif(sk_stat[0]==ssON)\t\tsub_bgnd(\"ЗАМКН.\",'$',-4);\r\n\tif(sk_stat[0]==ssOFF)\t\tsub_bgnd(\"РАЗОМКН.\",'$',-6);\r\n\r\n\ttemp=-11;\r\n\tif(sk_stat[1]==ssON)\t\ttemp=-9;\r\n\tif(sk_av_stat[1]==sasON) \tsub_bgnd(\"АВАРИЯ\",'%',temp-2);\r\n\telse \tsub_bgnd(\"НОРМА\",'%',temp-1);\r\n\tif(sk_stat[1]==ssON)\t\tsub_bgnd(\"ЗАМКН.\",'%',-4);\r\n\tif(sk_stat[1]==ssOFF)\t\tsub_bgnd(\"РАЗОМКН.\",'%',-6);\r\n\r\n\ttemp=-11;\r\n\tif(sk_stat[2]==ssON)\t\ttemp=-9;\r\n\tif(sk_av_stat[2]==sasON) \tsub_bgnd(\"АВАРИЯ\",'^',temp-2);\r\n\telse \tsub_bgnd(\"НОРМА\",'^',temp-1);\r\n\tif(sk_stat[2]==ssON)\t\tsub_bgnd(\"ЗАМКН.\",'^',-4);\r\n\tif(sk_stat[2]==ssOFF)\t\tsub_bgnd(\"РАЗОМКН.\",'^',-6);\r\n\r\n\ttemp=-11;\r\n\tif(sk_stat[3]==ssON)\t\ttemp=-9;\r\n\tif(sk_av_stat[3]==sasON) \tsub_bgnd(\"АВАРИЯ\",'&',temp-2);\r\n\telse \tsub_bgnd(\"НОРМА\",'&',temp-1);\r\n \tif(sk_stat[3]==ssON)\t\tsub_bgnd(\"ЗАМКН.\",'&',-4);\r\n\tif(sk_stat[3]==ssOFF)\t\tsub_bgnd(\"РАЗОМКН.\",'&',-6);\r\n\r\n }\r\n\r\nelse if(ind==iExtern_220_ZVU)\r\n\t{\r\n\tsigned char temp;\r\n\r\n\tptrs[0]= \t\t\t\" t1 !°С \";\r\n\tptrs[1]= \t\t\t\" t2 @°С \";\r\n\tptrs[2]= \t\t\t\" t3 #°С \";\r\n\tptrs[NUMDT]= \t\t\" СК1 $ \";\r\n\tptrs[NUMDT+1]= \t\t\" СК2 % \";\r\n\tptrs[NUMDT+2]= \t\t\" СК3 ^ \";\r\n\tptrs[NUMDT+3]= \t\t\" СК4 & \";\t\t\r\n\tptrs[NUMDT+NUMSK]=\t\" Выход \";\r\n\tptrs[NUMDT+NUMSK+1]=\" \";\r\n\tptrs[NUMDT+NUMSK+2]=\" \";\r\n\r\n\tbgnd_par(\t\t\" ВНЕШНИЕ ДАТЧИКИ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n if(ND_EXT[0])sub_bgnd(\"неиспр.\",'!',-3);\r\n else int2lcd_mmm(t_ext[0],'!',0);\r\n\r\n if(ND_EXT[1])sub_bgnd(\"неиспр.\",'@',-3);\r\n else int2lcd_mmm(t_ext[1],'@',0);\r\n\r\n if(ND_EXT[2])sub_bgnd(\"неиспр.\",'#',-3);\r\n else int2lcd_mmm(t_ext[2],'#',0);\r\n\r\n\ttemp=-11;\r\n\tif(sk_stat[0]==ssON)\t\ttemp=-9;\r\n\tif(sk_av_stat[0]==sasON) \tsub_bgnd(\"АВАРИЯ\",'$',temp-2);\r\n\telse \tsub_bgnd(\"НОРМА\",'$',temp-1);\r\n\tif(sk_stat[0]==ssON)\t\tsub_bgnd(\"ЗАМКН.\",'$',-4);\r\n\tif(sk_stat[0]==ssOFF)\t\tsub_bgnd(\"РАЗОМКН.\",'$',-6);\r\n\r\n\ttemp=-11;\r\n\tif(sk_stat[1]==ssON)\t\ttemp=-9;\r\n\tif(sk_av_stat[1]==sasON) \tsub_bgnd(\"АВАРИЯ\",'%',temp-2);\r\n\telse \tsub_bgnd(\"НОРМА\",'%',temp-1);\r\n\tif(sk_stat[1]==ssON)\t\tsub_bgnd(\"ЗАМКН.\",'%',-4);\r\n\tif(sk_stat[1]==ssOFF)\t\tsub_bgnd(\"РАЗОМКН.\",'%',-6);\r\n\r\n\ttemp=-11;\r\n\tif(sk_stat[2]==ssON)\t\ttemp=-9;\r\n\tif(sk_av_stat[2]==sasON) \tsub_bgnd(\"АВАРИЯ\",'^',temp-2);\r\n\telse \tsub_bgnd(\"НОРМА\",'^',temp-1);\r\n\tif(sk_stat[2]==ssON)\t\tsub_bgnd(\"ЗАМКН.\",'^',-4);\r\n\tif(sk_stat[2]==ssOFF)\t\tsub_bgnd(\"РАЗОМКН.\",'^',-6);\r\n\r\n\ttemp=-11;\r\n\tif(sk_stat[3]==ssON)\t\ttemp=-9;\r\n\tif(sk_av_stat[3]==sasON) \tsub_bgnd(\"АВАРИЯ\",'&',temp-2);\r\n\telse \tsub_bgnd(\"НОРМА\",'&',temp-1);\r\n \tif(sk_stat[3]==ssON)\t\tsub_bgnd(\"ЗАМКН.\",'&',-4);\r\n\tif(sk_stat[3]==ssOFF)\t\tsub_bgnd(\"РАЗОМКН.\",'&',-6);\r\n\r\n }\r\n\r\n\r\nelse if(ind==iVent)\r\n\t{\r\n\r\n\tptrs[0]= \t\t\" Fвент.текущ. !%\";\r\n ptrs[1]= \t\t\" Fвент.max. ( @%) #\";\r\n\tptrs[2]= \t \" Выход \";\r\n\r\n\tbgnd_par(\t\t\t\" ВЕНТИЛЯТОР \",\r\n\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\r\n\r\n int2lcd(main_vent_pos5,'!',0);\r\n\tint2lcd(pos_vent,'#',0);\r\n\tint2lcd(pos_vent5+45,'@',0); \r\n\t}\r\n\r\nelse if(ind==iAvt)\r\n\t{\r\n ptrs[0]= \t\t\" АВТОМАТЫ НАГРУЗОК \";\r\n\tptrs[1]= \t\t\" Автомат №1 ! \";\r\n\tptrs[2]= \t\t\" Автомат №2 @ \";\r\n\tptrs[3]= \t\t\" Автомат №3 # \";\r\n\tptrs[4]= \t\t\" Автомат №4 $ \";\r\n\tptrs[5]= \t\t\" Автомат №5 % \";\r\n\tptrs[6]= \t\t\" Автомат №6 ^ \";\r\n\tptrs[7]= \t\t\" Автомат №7 & \";\r\n\tptrs[8]= \t\t\" Автомат №8 * \";\r\n\tptrs[9]= \t\t\" Автомат №9 ( \";\r\n\tptrs[10]= \t\t\" Автомат №10 ) \";\r\n\tptrs[11]= \t\t\" Автомат №11 + \";\r\n\tptrs[12]= \t\t\" Автомат №12 = \";\r\n\r\n\tptrs[1+NUMAVT]= \t\" Выход \";\r\n\tptrs[2+NUMAVT]= \t\" \";\r\n\tptrs[3+NUMAVT]= \t\" \";\r\n\r\n\tbgnd_par(\t\tptrs[0],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2],\r\n\t\t\t\tptrs[index_set+3]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n\t//int2lcdyx(eb2_data_short[6],0,6,0);\r\n\r\n\tif(avt_stat[0]==avtON)\tsub_bgnd(\"ВКЛ.\",'!',-3);\r\n\telse \t\t\t\tsub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\tif(avt_stat[1]==avtON)\tsub_bgnd(\"ВКЛ.\",'@',-3);\r\n\telse \t\t\t\tsub_bgnd(\"ВЫКЛ.\",'@',-4);\r\n\tif(avt_stat[2]==avtON)\tsub_bgnd(\"ВКЛ.\",'#',-3);\r\n\telse \t\t\t\tsub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\tif(avt_stat[3]==avtON)\tsub_bgnd(\"ВКЛ.\",'$',-3);\r\n\telse \t\t\t\tsub_bgnd(\"ВЫКЛ.\",'$',-4);\r\n\tif(avt_stat[4]==avtON)\tsub_bgnd(\"ВКЛ.\",'%',-3);\r\n\telse \t\t\t\tsub_bgnd(\"ВЫКЛ.\",'%',-4);\r\n\tif(avt_stat[5]==avtON)\tsub_bgnd(\"ВКЛ.\",'^',-3);\r\n\telse \t\t\t\tsub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\tif(avt_stat[6]==avtON)\tsub_bgnd(\"ВКЛ.\",'&',-3);\r\n\telse \t\t\t\tsub_bgnd(\"ВЫКЛ.\",'&',-4);\r\n\tif(avt_stat[7]==avtON)\tsub_bgnd(\"ВКЛ.\",'',-3);\r\n\telse \t\t\t\tsub_bgnd(\"ВЫКЛ.\",'',-4);\r\n\tif(avt_stat[8]==avtON)\tsub_bgnd(\"ВКЛ.\",'(',-3);\r\n\telse \t\t\t\tsub_bgnd(\"ВЫКЛ.\",'(',-4);\r\n\tif(avt_stat[9]==avtON)\tsub_bgnd(\"ВКЛ.\",')',-3);\r\n\telse \t\t\t\tsub_bgnd(\"ВЫКЛ.\",')',-4);\r\n\tif(avt_stat[10]==avtON)\tsub_bgnd(\"ВКЛ.\",'+',-3);\r\n\telse \t\t\t\tsub_bgnd(\"ВЫКЛ.\",'+',-4); \r\n\tif(avt_stat[11]==avtON)\tsub_bgnd(\"ВКЛ.\",'=',-3);\r\n\telse \t\t\t\tsub_bgnd(\"ВЫКЛ.\",'=',-4);\r\n //int2lcd(Uvv[1],'$',0);\r\n //int2lcd(Uvv[2],'$',0);\r\n\r\n //long2lcd_mmm(power_summary,'%',2);\r\n //int2lcd(power_current,'^',0);\r\n\r\n //int2lcdyx(adc_buff_ext_[0],0,4,0);\r\n //int2lcdyx(adc_buff_ext_[1],0,10,0);\r\n //int2lcdyx(adc_buff_ext_[2],0,16,0);\r\n }\r\n\r\nelse if(ind==iEnerg)\r\n\t{\r\n ptrs[0]= \t\t\" ЭЛЕКТРОСНАБЖЕНИЕ \";\r\n\r\n ptrs[1]= \t\t\" Ввод #В \";\r\n ptrs[2]= \t \" ПЭС $В \"; \r\n ptrs[3]= \t \" Pсумм. %кВтч\";\r\n\tptrs[4]= \t \" Pтекущ. ^Вт \";\r\n\tptrs[5]= \t \" Выход \";\r\n\tptrs[6]= \t \" \";\r\n\tptrs[7]= \t \" \";\r\n\r\n\tbgnd_par(\t\tptrs[0],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2],\r\n\t\t\t\tptrs[index_set+3]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(Uvv0,'#',0);\r\n int2lcd(Uvv[1],'$',0);\r\n //int2lcd(Uvv[2],'$',0);\r\n\r\n long2lcd_mmm(power_summary,'%',2);\r\n int2lcd(power_current,'^',0);\r\n\r\n //int2lcdyx(adc_buff_ext_[0],0,4,0);\r\n //int2lcdyx(adc_buff_ext_[1],0,10,0);\r\n //int2lcdyx(adc_buff_ext_[2],0,16,0);\r\n }\r\n\r\nelse if(ind==iEnerg3)\r\n\t{\r\n ptrs[0]= \t\t\" ЭЛЕКТРОСНАБЖЕНИЕ \";\r\n\r\n ptrs[1]= \t\t\" Ввод ф.A !В \";\r\n\tptrs[2]= \t\t\" Ввод ф.B @В \";\r\n\tptrs[3]= \t\t\" Ввод ф.C #В \";\r\n ptrs[4]= \t \" ПЭС ф.A &В \";\r\n ptrs[5]= \t \" ПЭС ф.B )В \";\r\n ptrs[6]= \t \" ПЭС ф.C (В \";\t\t \r\n ptrs[7]= \t \" Pсумм. %кВтч\";\r\n\tptrs[8]= \t \" Pтекущ. ^Вт \";\r\n\tptrs[9]= \t \" Выход \";\r\n\tptrs[10]= \t \" \";\r\n\tptrs[11]= \t \" \";\r\n\r\n\tbgnd_par(\t\tptrs[0],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2],\r\n\t\t\t\tptrs[index_set+3]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(Uvv_eb2[0],'!',0);\r\n\tint2lcd(Uvv_eb2[1],'@',0);\r\n\tint2lcd(Uvv_eb2[2],'#',0);\r\n\tint2lcd(Upes_eb2[0],'&',0);\r\n\tint2lcd(Upes_eb2[1],')',0);\r\n\tint2lcd(Upes_eb2[2],'(',0);\r\n long2lcd_mmm(power_summary,'%',3);\r\n int2lcd(power_current,'^',0);\r\n\r\n }\r\n\r\nelse if(ind==iSpc)\r\n\t{\r\n\r\n \tptrs[0]=\t\" Выр.заряд \";\r\n \tptrs[1]=\t\" Авт.выр.заряд \";\r\n \tptrs[2]=\t\" К.Е. батареи N1 \";\r\n \tptrs[3]=\t\" К.Е. батареи N2 \";\r\n //\tptrs[4]=\t\" А.К.Е. бат. N1 \";\r\n //\tptrs[5]=\t\" А.К.Е. бат. N2 \";\r\n \tptrs[4]=\t\" Выход \";\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n \tbgnd_par( \" СПЕЦФУНКЦИИ \",\r\n \t ptrs[index_set],\r\n \t ptrs[index_set+1],\r\n \t ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t} \t\t\r\n\r\nelse if(ind==iSpc_termocompensat)\r\n\t{\r\n\r\n \tptrs[0]=\t\" Выр.заряд \";\r\n \tptrs[1]=\t\" Авт.выр.заряд \";\r\n \tptrs[2]=\t\" К.Е. батареи \";\r\n \tptrs[3]=\t\" Выход \";\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n \tbgnd_par( \" СПЕЦФУНКЦИИ \",\r\n \t ptrs[index_set],\r\n \t ptrs[index_set+1],\r\n \t ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t} \t\t\r\n\r\n\r\n else if(ind==iVz)\r\n\t{ \r\n\tif(sub_ind==22) bgnd_par(\t\"ВЫРАВНИВАЮЩИЙ ЗАРЯД \",\r\n\t\t\t\t\t\t\t\" невозможен, \",\r\n\t\t\t\t\t\t\t\" включен контроль \",\r\n\t\t\t\t\t\t\t\" емкости бат.N1 \"); \r\n\telse if(sub_ind==33) bgnd_par(\"ВЫРАВНИВАЮЩИЙ ЗАРЯД \",\r\n\t\t\t\t\t\t\t\" невозможен, \",\r\n\t\t\t\t\t\t\t\" включен контроль \",\r\n\t\t\t\t\t\t\t\" емкости бат.N2 \");\r\n\telse if(spc_stat==spcVZ)\r\n\t\t{\r\n\t\tbgnd_par(\t\t\t\t\"ВЫРАВНИВАЮЩИЙ ЗАРЯД \",\r\n\t\t\t\t\t\t\t\" Длит.-сть (ч. \",\r\n\t\t\t\t\t\t\t\" Включен \",\r\n\t\t\t\t\t\t\tsm_exit);\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tbgnd_par(\t\t\t\t\"ВЫРАВНИВАЮЩИЙ ЗАРЯД \",\r\n\t\t\t\t\t\t\t\" Длит.-сть (ч. \",\r\n\t\t\t\t\t\t\t\" Выключен \",\r\n\t\t\t\t\t\t\tsm_exit);\r\n\t\t}\t\r\n\r\n\tpointer_set(1);\t\r\n\r\n\tint2lcd(VZ_HR,'(',0);\r\n\t} \r\n\t\r\n\r\n\t\r\nelse if(ind==iKe)\r\n\t{ \r\n\tif((spc_stat==spcKE)&&(spc_bat==sub_ind1))\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" Включен \",\r\n\t\t\t\tsm_exit);\r\n\t\t}\r\n\telse\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" Выключен \",\r\n\t\t\t\tsm_exit);\r\n\t\t}\r\n\t\r\n\t\t\t\t\r\n\t//if(sub_ind==0) lcd_buffer[41]=1; \r\n\t//else if(sub_ind==1) lcd_buffer[51]=1;\r\n\tpointer_set(2);\r\n\tint2lcd(sub_ind1+1,'{',0);\r\n\r\n\t//int2lcdyx(sub_ind1,0,4,0);\r\n\t}\t \r\n\r\n#endif\t//UKU_6U_WEB\t\r\n\r\nelse if(ind==iLog)\r\n\t{\r\n\t//char dt[4],dt_[4],dt__[4];\r\n//\tchar iii;\r\n\r\n\tav_j_si_max=lc640_read_int(CNT_EVENT_LOG);\r\n\tif(av_j_si_max>64)av_j_si_max=0;\r\n\r\n\tif(av_j_si_max==0)\r\n\t\t{\r\n\t\tbgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" Журнал пуст \",sm_exit,sm_);\r\n\t\t//lcd_buffer[33]=1;\r\n\t\tsub_ind=1;\r\n\t\tindex_set=0;\r\n\t\t} \r\n\t\t\r\n\telse if(av_j_si_max==1)\r\n\t\t{\r\n\t\tbgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" ( \",sm_exit,\" Очистить журнал \");\r\n\t\t//if(sub_ind==0)lcd_buffer[16]=1;\r\n\t\t//else if(sub_ind==1)lcd_buffer[33]=1;\r\n\t\t//else if(sub_ind==2)lcd_buffer[50]=1;\t\t\r\n\t\tindex_set=0;\r\n\t\t}\r\n\r\n\telse if(av_j_si_max==2)\r\n\t\t{\r\n\t\tif(sub_ind<index_set) index_set=sub_ind;\r\n\t\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\t\t\r\n\t\tif(index_set==0) bgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" ( \",\" [ \",sm_exit);\r\n\t\telse if(index_set==1) bgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" ( \",sm_exit,\" Очистить журнал \");\r\n\t\t\r\n\t\t//if((sub_ind-index_set)==0) lcd_buffer[16]=1; \r\n\t\t//else if((sub_ind-index_set)==1) lcd_buffer[33]=1;\r\n\t\t//else if((sub_ind-index_set)==2) lcd_buffer[50]=1;\r\n\t\t}\r\n\t\t\r\n\telse if(av_j_si_max>2)\r\n\t\t{\r\n\t\tif(sub_ind<index_set) index_set=sub_ind;\r\n\t\telse if((sub_ind-index_set)>2) index_set=sub_ind-2; \r\n\t\tif(index_set==(av_j_si_max-1)) bgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" ( \",sm_exit,\" Очистить журнал \");\r\n\t\telse if(index_set==(av_j_si_max-2)) bgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" ( \",\" [ \",sm_exit);\r\n\t\telse bgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" ( \",\" [ \",\" { \");\r\n\t\t\r\n\t\t//if((sub_ind-index_set)==0) lcd_buffer[16]=1; \r\n\t\t//else if((sub_ind-index_set)==1) lcd_buffer[33]=1;\r\n\t\t//else if((sub_ind-index_set)==2) lcd_buffer[50]=1;\r\n\r\n\t\t}\r\n\tpointer_set(1);\r\n event2ind(index_set,'(');\r\n event2ind(index_set+1,'[');\t\r\n event2ind(index_set+2,'{');\t \r\n \r\n\t}\r\n\r\n\r\n\r\nelse if(ind==iLog_)\r\n\t{\t\r\n\tunsigned short tempUI/,tempUI_/;\r\n//\tunsigned long tempUL;\r\n\tchar av_head[4],av_data_on[8],av_data_off[8],av_data[4];\r\n\tshort av_head_int[2];\r\n\t\r\n\tbgnd_par(sm_,sm_,sm_,sm_);\r\n\ttempUI=lc640_read_int(PTR_EVENT_LOG);\r\n\ttempUI=ptr_carry(tempUI,64,-1((signed)sub_ind1));\r\n\ttempUI=32;\r\n\ttempUI+=EVENT_LOG;\r\n \r\n lc640_read_long_ptr(tempUI,av_head);\r\n lc640_read_long_ptr(tempUI+4,(char)av_head_int);\r\n lc640_read_long_ptr(tempUI+8,av_data_on);\r\n lc640_read_long_ptr(tempUI+12,&(av_data_on[4])); \r\n lc640_read_long_ptr(tempUI+16,av_data_off);\r\n lc640_read_long_ptr(tempUI+20,&(av_data_off[4])); \r\n\tlc640_read_long_ptr(tempUI+24,av_data);\r\n\t\r\n\t//av_head_int[0]=123; \r\n//av_head_int[1]=456;\t\r\n\r\n\tif((av_head[0]=='U')&&(av_head[2]=='R'))\r\n\t\t{\r\n\t\tif(index_set==0) {\r\n\t\t\r\n\t\tbgnd_par(\t\" Перезагрузка \",\r\n\t\t\t\t\" или включение \",\r\n\t\t\t\t\" ИБЭП \",\r\n\t\t\t\t\" 0%( 0^ 0@:0#:0$ \");\r\n\t\t} else if(index_set==1) {\r\n\r\n\t\tbgnd_par(\t\" Перезагрузка \",\r\n\t\t\t\t\" или включение \",\r\n\t\t\t\t\" ИБЭП \",\r\n\t\t\t\t\" код источника [ \");\t\t\r\n\t\t\r\n\t\t} else if(index_set==2) {\r\n\r\n\t\tbgnd_par(\t\" Перезагрузка \",\r\n\t\t\t\t\" или включение \",\r\n\t\t\t\t\" ИБЭП \",\r\n\t\t\t\t\" ] \");\t\t\r\n\t\t\r\n\t\t}\t\t\t\t\t\r\n\t\t\t\t \t\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tint2lcd(av_data_on[7],'[',0);\r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t//int2lcd(av_data_on[1],'(',0);\r\n\t\t//int2lcdyx(av_data_on[1],2,1,0);\r\n\t\tif(av_data_on[7]&0x08)sub_bgnd(\"superwiser \",']',-12);\r\n\t\telse if(av_data_on[7]&0x04)sub_bgnd(\"watchdog \",']',-12);\r\n\t\telse if(av_data_on[7]&0x02)sub_bgnd(\"ext.reset \",']',-12);\r\n\t\telse if(av_data_on[7]&0x01)sub_bgnd(\"power on \",']',-12);\r\n\t\tav_j_si_max=2;\r\n\r\n\t\t\r\n\t\t}\r\n\r\n\telse if((av_head[0]=='P')&&(av_head[2]=='A'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Авария сети!!! \";\r\n\t\tptrs[1]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tif((av_data_off[0]=='A')&&(av_data_off[1]=='A'))\r\n\t\t\t{\r\n\t\t\tptrs[2]=\" не устранена \";\r\n\t\t\tptrs[3]=\" Uсети= +В \";\r\n\t\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\t\tint2lcd(net_U,'+',0);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tgran_char(&index_set,0,1);\r\n\t\t\tptrs[2]=\" устранена \";\r\n\t\t\tptrs[3]=\" 0[] 0< 0>:0=:0) \";\r\n\t\t\tptrs[4]=\" Uмин= +В \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'>',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'<',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0);\r\n\t\t\t\r\n\t\t\tint2lcd(av_data[0]+(av_data[1]256),'+',0);\t\t\t\r\n\t\t\t}\t\r\n\t\t\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\tav_j_si_max=1;\r\n\t\t}\r\n\r\n\telse if((av_head[0]=='B')&&(av_head[2]=='C'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Авария \";\r\n\t\tptrs[1]=\" батареи N+ \";\r\n\t\tptrs[2]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tif((av_data_off[0]=='A')&&(av_data_off[1]=='A'))\r\n\t\t\t{\r\n\t\t\tptrs[3]=\" не устранена \";\r\n\t\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tgran_char(&index_set,0,1);\r\n\t\t\tptrs[3]=\" устранена \";\r\n\t\t\tptrs[4]=\" 0[] 0< 0>:0=:0) \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'>',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'<',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0);\r\n\t\t\t\r\n\t\t\t\t\t\t\r\n\t\t\t}\t\r\n\t\tint2lcd(av_head[1]+1,'+',0);\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\tav_j_si_max=1;\r\n\t\t}\r\n\r\n\telse if((av_head[0]=='B')&&(av_head[2]=='S'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Авария \";\r\n\t\tptrs[1]=\" несимметрии \";\r\n\t\tptrs[2]=\" батареи N+ \";\r\n\t\tptrs[3]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\tint2lcd(av_head[1]+1,'+',0);\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\tav_j_si_max=0;\r\n\t\t}\r\n\r\n\telse if((av_head[0]=='B')&&(av_head[2]=='Z'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Выравнивающий \";\r\n\t\tptrs[1]=\" заряд \";\r\n\t\tptrs[2]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tif((av_data_off[0]=='A')&&(av_data_off[1]=='A'))\r\n\t\t\t{\r\n\t\t\tptrs[3]=\" не завершен \";\r\n\t\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tgran_char(&index_set,0,1);\r\n\t\t\tptrs[3]=\" завершен \";\r\n\t\t\tptrs[4]=\" 0[] 0< 0>:0=:0) \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'>',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'<',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0);\r\n\t\t\t\r\n\t\t\t\t\t\t\r\n\t\t\t}\t\r\n\t\tint2lcd(av_head[1]+1,'+',0);\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\tav_j_si_max=1;\r\n\t\t}\r\n\r\n \telse if((av_head[0]=='s')&&(av_head[2]=='Z'))\r\n\t\t{\r\n\t\tptrs[0]=\t\" Ускоренный \";\r\n\t\tptrs[1]=\t\" заряд \";\r\n\t\tif(av_head[1]=='a') \r\n\t\t\t{\r\n\t\t\tptrs[0]=\" Автоматический \";\r\n\t\t\tptrs[1]=\" ускоренный заряд \";\r\n\t\t\t} \r\n\r\n\t\tptrs[2]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tif((av_data_off[0]=='A')&&(av_data_off[1]=='A'))\r\n\t\t\t{\r\n\t\t\tptrs[3]=\" не завершен \";\r\n\t\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tgran_char(&index_set,0,1); \r\n\t\t\tptrs[3]=\t\" нераспознано \";\r\n\t\t\tif((av_data[0]=='C')&&(av_data[1]=='C'))\r\n\t\t\t\t{\r\n\t\t\t\tptrs[3]=\" завершен успешно \";\r\n\t\t\t\t}\r\n\t\t\telse if((av_data[0]=='B')&&(av_data[1]=='B'))\r\n\t\t\t\t{\r\n\t\t\t\tptrs[3]=\" прерван \";\r\n\t\t\t\t}\r\n\t\t\tptrs[4]=\" 0[] 0< 0>:0=:0) \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'>',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'<',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0);\r\n\t\t\t}\t\r\n\t\tint2lcd(av_head[1]+1,'+',0);\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\tav_j_si_max=1;\r\n\t\t}\r\n\r\n \telse if((av_head[0]=='u')&&(av_head[2]=='Z'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Уравнительный \";\r\n\t\tptrs[1]=\" заряд \";\r\n\t\tptrs[2]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tif((av_data_off[0]=='A')&&(av_data_off[1]=='A'))\r\n\t\t\t{\r\n\t\t\tptrs[3]=\" не завершен \";\r\n\t\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tgran_char(&index_set,0,1); \r\n\t\t\tptrs[3]=\t\" нераспознано \";\r\n\t\t\tif((av_data[0]=='C')&&(av_data[1]=='C'))\r\n\t\t\t\t{\r\n\t\t\t\tptrs[3]=\" завершен успешно \";\r\n\t\t\t\t}\r\n\t\t\telse if((av_data[0]=='B')&&(av_data[1]=='B'))\r\n\t\t\t\t{\r\n\t\t\t\tptrs[3]=\" прерван \";\r\n\t\t\t\t}\r\n\t\t\tptrs[4]=\" 0[] 0< 0>:0=:0) \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'>',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'<',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0);\r\n\t\t\t}\t\r\n\t\tint2lcd(av_head[1]+1,'+',0);\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\tav_j_si_max=1;\r\n\t\t}\r\n\r\n \telse if((av_head[0]=='f')&&(av_head[2]=='Z'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Формовочный \";\r\n\t\tptrs[1]=\" заряд \";\r\n\t\tptrs[2]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tif((av_data_off[0]=='A')&&(av_data_off[1]=='A'))\r\n\t\t\t{\r\n\t\t\tptrs[3]=\" не завершен \";\r\n\t\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tgran_char(&index_set,0,1); \r\n\t\t\tptrs[3]=\t\" нераспознано \";\r\n\t\t\tif((av_data[0]=='C')&&(av_data[1]=='C'))\r\n\t\t\t\t{\r\n\t\t\t\tptrs[3]=\" завершен успешно \";\r\n\t\t\t\t}\r\n\t\t\telse if((av_data[0]=='B')&&(av_data[1]=='B'))\r\n\t\t\t\t{\r\n\t\t\t\tptrs[3]=\" прерван \";\r\n\t\t\t\t}\r\n\t\t\tptrs[4]=\" 0[] 0< 0>:0=:0) \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'>',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'<',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0);\r\n\t\t\t}\t\r\n\t\tint2lcd(av_head[1]+1,'+',0);\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\tav_j_si_max=1;\r\n\t\t}\r\n\r\n\telse if((av_head[0]=='B')&&(av_head[2]=='W'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Разряд \";\r\n\t\tptrs[1]=\" батареи N! \";\r\n\t\tptrs[2]=\" Начало \";\r\n\t\tptrs[3]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tptrs[4]=\" Uбат= <В\";\r\n\t\tptrs[5]=\" Конец \";\r\n\t\tptrs[6]=\" 0qw 0r 0i:0l:0s \";\r\n\t\tptrs[7]=\" Uбат= >В \";\r\n\t\tptrs[8]=\" Отдано /ач. \";\r\n\t\t\r\n\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\r\n\t\tint2lcd(av_head[1]+1,'!',0);\r\n\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\t\t\r\n\t\tint2lcd(av_data_off[4],'i',0);\r\n\t\tint2lcd(av_data_off[5],'l',0);\r\n\t\tint2lcd(av_data_off[6],'s',0);\r\n\t\tint2lcd(av_data_off[2],'q',0);\r\n\t\tint2lcd(av_data_off[0],'r',0); \r\n\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_off[1]],'w',0);\r\n\t\t\r\n\t\t\r\n\t\tint2lcd(av_head_int[0]/10,'/',1);\r\n\t\tint2lcd(av_data_on[3]+(av_data_on[7]256),'<',1);\r\n\t\tint2lcd(av_head_int[1],'>',1);\t\r\n\t\tav_j_si_max=5;\t\t\t\t\r\n\r\n\t\t\r\n\t\t}\r\n\r\n\telse if((av_head[0]=='B')&&(av_head[2]=='K'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Контроль емкости \";\r\n\t\tptrs[1]=\" батареи \";\r\n\t\tptrs[2]=\" Начало \";\r\n\t\tptrs[3]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tptrs[4]=\" Uбат= <В \";\r\n\t\tptrs[5]=\" Конец \";\r\n\t\tptrs[6]=\" 0qw 0r 0i:0l:0s \";\r\n\t\tptrs[7]=\" Uбат= >В \";\r\n\t\tptrs[8]=\" Ёмкость /ач. \";\r\n\t\t\r\n\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\r\n\t\tint2lcd(av_head[1]+1,'!',0);\r\n\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\t\t\r\n\t\tint2lcd(av_data_off[4],'i',0);\r\n\t\tint2lcd(av_data_off[5],'l',0);\r\n\t\tint2lcd(av_data_off[6],'s',0);\r\n\t\tint2lcd(av_data_off[2],'q',0);\r\n\t\tint2lcd(av_data_off[0],'r',0); \r\n\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_off[1]],'w',0);\r\n\t\t\r\n\t\t\r\n\t\tint2lcd(av_head_int[0],'/',1);\r\n\t\tint2lcd(av_data_on[3]+(av_data_on[7]256),'<',1);\r\n\t\tint2lcd(av_head_int[1],'>',1);\t\r\n\t\tav_j_si_max=5;\t\t\t\t\r\n\r\n\t\t\r\n\t\t}\r\n\r\n\r\n\r\n\telse if((av_head[0]=='S')\|\|(av_head[0]=='I'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Авария БПС N+ \";\r\n\t\t\r\n\t\tif(av_head[2]=='L')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" отключился \";\r\n\t\t\t}\r\n\t\telse if(av_head[2]=='T')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" перегрев \";\r\n\t\t\t}\t\t\r\n\t\telse if(av_head[2]=='U')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" завышено Uвых. \";\r\n\t\t\t}\t\t\r\n\t\telse if(av_head[2]=='u')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" занижено Uвых. \";\r\n\t\t\t}\t\t\t\t\t\t\t\t\r\n\t\telse if(av_head[2]=='O')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" завышено Iвых \";\r\n\t\t\t}\t\t\r\n\t\t\r\n\t\tptrs[2]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tif((av_data_off[0]=='A')&&(av_data_off[1]=='A'))\r\n\t\t\t{\r\n\t\t\tptrs[3]=\" не устранена \";\r\n\t\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tgran_char(&index_set,0,1);\r\n\t\t\tptrs[3]=\" устранена \";\r\n\t\t\tptrs[4]=\" 0[] 0< 0>:0=:0) \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'>',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'<',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0);\r\n\t\t\t\r\n\t\t\t\t\t\t\r\n\t\t\t}\t\r\n\t\tint2lcd(av_head[1]+1,'+',0);\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\t}\r\n\r\n\telse if((av_head[0]=='Q')&&(av_head[2]=='A'))\r\n\t\t{\r\n\t\tif(av_head[3]==1) \r\n\t\tptrs[0]=\"Авария! Uвых>Uвыхmax\";\r\n\t\telse\r\n\t\tptrs[0]=\"Авария! Uвых<Uвыхmin\";\r\n\t\tptrs[1]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tif((av_data_off[0]=='A')&&(av_data_off[1]=='A'))\r\n\t\t\t{\r\n\t\t\tptrs[2]=\" не устранена \";\r\n\t\t\tptrs[3]=\" Uвых = +В \";\r\n\t\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\t\t//int2lcd(net_U,'+',0);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tgran_char(&index_set,0,1);\r\n\t\t\tptrs[2]=\" устранена \";\r\n\t\t\tptrs[3]=\" 0[] 0z 0Z:0=:0) \";\r\n\t\t\tptrs[4]=\" Uвых = +В \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'Z',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'z',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0);\r\n\t\t\t\r\n\t\t\tint2lcd(av_head_int[0]+(av_head_int[1]256),'+',1);\t\t\t\r\n\t\t\t}\t\r\n\t\t\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\tint2lcd(av_head_int[0]+(av_head_int[1]256),'+',1);\r\n\r\n\t\tav_j_si_max=1;\r\n\t\t}\r\n\r\n\t\r\n\t}\r\n\t\t\t\t \r\nelse if(ind==iBatLog)\r\n\t{\r\n\tif(BAT_IS_ON[sub_ind1]==bisON)ptrs[0]=\" Введена 0!/@ /0# \";\r\n\telse ptrs[0]=\" Выведена 0!/@ /0# \";\r\n ptrs[1]=\" Номин.емк. $Aч\";\r\n ptrs[2]=\" Наработка %ч. \";\r\n ptrs[3]=\" Контроль емкости \";\r\n ptrs[4]=\" Выравнивающий заряд\";\r\n ptrs[5]=\" Разряды \";\r\n ptrs[6]=sm_exit;\t\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\" БАТАРЕЙНЫЙ ЖУРНАЛ \",\r\n\t\t\t\" БАТАРЕЯ N^ \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1]);\r\n\tpointer_set(2);\t\r\n\r\n\tint2lcd(sub_ind1+1,'^',0); \r\n\tint2lcd(BAT_DAY_OF_ON[sub_ind1],'!',0);\r\n\tsub_bgnd(sm_mont[BAT_MONTH_OF_ON[sub_ind1]],'@',0);\r\n\tint2lcd(BAT_YEAR_OF_ON[sub_ind1],'#',0); \r\n\tint2lcd(BAT_C_NOM[sub_ind1],'$',0);\r\n\tint2lcd(BAT_RESURS[sub_ind1],'%',0);\r\n\r\n\t/int2lcdyx(BAT_IS_ON[0],0,2,0);\r\n\tint2lcdyx(BAT_IS_ON[1],0,6,0); \r\n\tint2lcdyx(lc640_read_int(EE_BAT1_IS_ON),0,10,0);\r\n\tint2lcdyx(lc640_read_int(EE_BAT2_IS_ON),0,14,0);/\r\n\t}\r\n#ifndef UKU_6U_WEB\r\nelse if(ind==iBatLogKe)\r\n\t{ \r\n\tif(av_j_si_max==0)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛИ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\" Журнал пуст \",\r\n\t\t\t\tsm_exit);\r\n\t\tpointer_set(3);\r\n\t\tsub_ind=0;\r\n\t\tindex_set=0;\r\n\t\t} \r\n\telse if(av_j_si_max==1)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛИ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\" ( \",\r\n\t\t\t\tsm_exit);\r\n\t\tindex_set=0;\r\n\t\tpointer_set(2);\r\n\t\t}\t\r\n\telse\r\n\t\t{\r\n\t\tif(sub_ind<index_set) index_set=sub_ind;\r\n\t\telse if((sub_ind-index_set)>1) index_set=sub_ind-1;\r\n\t\tif(index_set==(av_j_si_max-1)) \r\n\t\t\t{\r\n\t\t\tbgnd_par( \" КОНТРОЛИ ЕМКОСТИ \",\r\n\t\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\t\" ( \",\r\n\t\t\t\t\tsm_exit);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" КОНТРОЛИ ЕМКОСТИ \",\r\n\t\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\t\" ( \",\r\n\t\t\t\t\t\" [ \");\r\n\t\t\t}\r\n\t\tpointer_set(2);\t\t\t \r\n\t\t}\r\n\t\t\r\n \tint2lcd(sub_ind1+1,'!',0);\r\n \tevent_data2ind(content[index_set],'(');\r\n \tevent_data2ind(content[index_set+1],'[');\r\n\t}\r\n\r\nelse if(ind==iBatLogVz)\r\n\t{\r\n\tif(av_j_si_max==0)\r\n\t\t{\r\n\t\tbgnd_par(\t\"ВЫРАВНИВАЮЩИЕ ЗАРЯДЫ\",\r\n\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\" Журнал пуст \",\r\n\t\t\t\tsm_exit);\r\n\t\tsub_ind=0;\r\n\t\tindex_set=0;\r\n\t\tpointer_set(3);\r\n\t\t} \r\n\telse if(av_j_si_max==1)\r\n\t\t{\r\n\t\tbgnd_par(\t\"ВЫРАВНИВАЮЩИЕ ЗАРЯДЫ\",\r\n\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\" ( \",\r\n\t\t\t\tsm_exit);\r\n\t\tindex_set=0;\r\n\t\tpointer_set(2);\r\n\t\t}\t\r\n\telse\r\n\t\t{\r\n\t\tif(sub_ind<index_set) index_set=sub_ind;\r\n\t\telse if((sub_ind-index_set)>1) index_set=sub_ind-1;\r\n\t\tif(index_set==(av_j_si_max-1)) \r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\"ВЫРАВНИВАЮЩИЕ ЗАРЯДЫ\",\r\n\t\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\t\" ( \",\r\n\t\t\t\t\tsm_exit);\r\n\t\t\t}\r\n\r\n\t\telse bgnd_par(\t\"ВЫРАВНИВАЮЩИЕ ЗАРЯДЫ\",\r\n\t\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\t\" ( \",\r\n\t\t\t\t\t\" [ \"); \r\n\t\tpointer_set(2);\t\t\t \r\n\t\t}\r\n \tint2lcd(sub_ind1+1,'!',0);\r\n \tevent_data2ind(content[index_set],'(');\r\n \tevent_data2ind(content[index_set+1],'[');\r\n\t\r\n\t}\r\n \r\nelse if(ind==iBatLogWrk)\r\n\t{\r\n\tif(av_j_si_max==0)\r\n\t\t{\r\n\t\tbgnd_par(\t\" РАЗРЯДЫ \",\r\n\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\" Журнал пуст \",\r\n\t\t\t\tsm_exit);\r\n\t\tsub_ind=0;\r\n\t\tindex_set=0;\r\n\t\tpointer_set(3);\r\n\t\t} \r\n\telse if(av_j_si_max==1)\r\n\t\t{\r\n\t\tbgnd_par(\t\" РАЗРЯДЫ \",\r\n\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\" ( \",\r\n\t\t\t\tsm_exit);\r\n\t\tindex_set=0;\r\n\t\tpointer_set(2);\r\n\t\t}\t\r\n\r\n\telse\r\n\t\t{\r\n\t\tif(sub_ind<index_set) index_set=sub_ind;\r\n\t\telse if((sub_ind-index_set)>1) index_set=sub_ind-1;\r\n\t\tif(index_set==(av_j_si_max-1))\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" РАЗРЯДЫ \",\r\n\t\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\t\" ( \",\r\n\t\t\t\t\tsm_exit);\r\n\t\t\t}\r\n\t\telse bgnd_par(\t\" РАЗРЯДЫ \",\r\n\t\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\t\" ( \",\r\n\t\t\t\t\t\" [ \");\r\n\r\n\t\tpointer_set(2);\r\n\t\t}\r\n\r\n \tint2lcd(sub_ind1+1,'!',0);\r\n \tevent_data2ind(content[index_set],'(');\r\n \tevent_data2ind(content[index_set+1],'[');\r\n\r\n\t\r\n\r\n\t} \r\n#endif\t//UKU_6U_WEB\t\r\nelse if((ind==iSet_prl)\|\|(ind==iK_prl)\|\|(ind==iSpc_prl_vz)\r\n\t\|\|(ind==iSpc_prl_ke)\|\|(ind==iAusw_prl)\|\|(ind==iPrltst)\|\|(ind==iPrlVZ1)\|\|(ind==iPrlVZ2))\r\n\t{\r\n\tbgnd_par(\" Введите пароль \",sm_,sm_,sm_);\r\n\tint2lcdyx(parol[0],1,8,0);\r\n int2lcdyx(parol[1],1,9,0);\r\n int2lcdyx(parol[2],1,10,0);\r\n lcd_buffer[48+sub_ind]='¤';\r\n\t}\t\r\n\t\t\r\nelse if(ind==iPrl_bat_in_out)\r\n\t{\r\n\tif(BAT_IS_ON[sub_ind1]==bisON)ptrs[0]=\"Для выведения бат.-и\";\r\n\telse ptrs[0]=\"Для введения батареи\";\r\n\tbgnd_par(ptrs[0],\" наберите пароль \",sm_,sm_);\r\n\t\r\n int2lcdyx(parol[0],2,8,0);\r\n int2lcdyx(parol[1],2,9,0);\r\n int2lcdyx(parol[2],2,10,0);\r\n lcd_buffer[68+sub_ind]='¤';\t\r\n\t}\r\n#ifndef UKU_6U_WEB\r\nelse if(ind==iPrl_bat_in_sel)\r\n\t{\r\n\t\r\n\tbgnd_par(\t\"Для введения батареи\",\r\n\t\t\t\" выбеите ее тип \",\r\n\t\t\t\" Свинцово-кислотная \",\r\n\t\t\t\" GYFP4875T \");\r\n\t\r\n\tpointer_set(2);\r\n\t}\r\n\r\nelse if(ind==iSet_bat_sel)\r\n\t{\r\n\tptrs[0]=\t\" Свинцово-кислотная \";\r\n ptrs[1]=\t\" COSLIGHT POWER CO. \";\r\n ptrs[2]=\t\" SACRED SUN \";\r\n\tptrs[3]=\t\" ZTT \";\r\n\tptrs[4]=\t\" STARK \";\r\n\tptrs[5]=\t\" Выход \";\r\n\r\n\t//gran(&BAT_TYPE,0,3);\r\n\tif(BAT_TYPE<0)BAT_TYPE=0;\r\n\tif(BAT_TYPE>4)BAT_TYPE=4;\r\n\tif(bFL2)ptrs[BAT_TYPE]=\t\t\" \";\t\r\n\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind; //\r\n\t\t\r\n\tbgnd_par(\t\" ТИП ИСПОЛЬЗУЕМОЙ \",\r\n\t\t\t\" БАТАРЕИ \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1]);\r\n\t\r\n\tpointer_set(2);\r\n\t//int2lcdyx(lc640_read_int(EE_BAT_TYPE),0,2,0);\r\n\t}\r\n\r\n#ifdef UKU_TELECORE2016\r\nelse if(ind==iSet_li_bat)\r\n\t{\r\n\tptrs[0]=\t\t\"ПАРАМЕТРЫ СОДЕРЖАНИЯ\";\r\n ptrs[1]= \t\t\" ЛИТИЕВОЙ БАТАРЕИ \";\r\n ptrs[2]= \t \" Uсодерж.макс. !В\"; \r\n\tptrs[3]=\t\t\" dUлит.бат.= @В\";\r\n\tptrs[4]= \t \" Uсодерж. #В\";\r\n\tptrs[5]= \t \" Qсодерж. $%\";\r\n\tptrs[6]= \t \" Выход \";\r\n\r\n\tbgnd_par(\tptrs[0],\r\n\t\t\t\tptrs[1],\r\n\t\t\t\tptrs[index_set+2],\r\n\t\t\t\tptrs[index_set+3]);\r\n\r\n\tif(sub_ind-index_set>1)index_set=sub_ind-1;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(2);\r\n\r\n\tint2lcd(UB0,'!',1);\r\n int2lcd(DU_LI_BAT,'@',1);\r\n int2lcd(USODERG_LI_BAT,'#',1);\r\n int2lcd(QSODERG_LI_BAT,'$',0);\r\n\t}\r\n#endif\r\n#ifdef UKU_TELECORE2017\r\nelse if(ind==iSet_li_bat)\r\n\t{\r\n\tchar ptr_ptrs=0;\r\n\tptrs[ptr_ptrs++]=\t\t\"ПАРАМЕТРЫ СОДЕРЖАНИЯ\";\r\n ptrs[ptr_ptrs++]= \t\t\" ЛИТИЕВОЙ БАТАРЕИ \";\r\n ptrs[ptr_ptrs++]= \t \" Uсодерж. !В\"; \r\n\tptrs[ptr_ptrs++]= \t \" Qсодерж. $%\";\r\n\tptrs[ptr_ptrs++]=\t\t\" Iзар.max1. @A\";\t \r\n\tptrs[ptr_ptrs++]=\t\t\" Iзар.max2. #A\";\r\n\tptrs[ptr_ptrs++]= \t \" K1 ^ед/с\";\r\n\tptrs[ptr_ptrs++]= \t \" K2 &ед/с\";\r\n\tptrs[ptr_ptrs++]= \t \" K3 ед/с\";\r\n\tptrs[ptr_ptrs++]= \t \" T4 (сек\";\r\n\tptrs[ptr_ptrs++]= \t \" Uстарт )В\";\r\n\tptrs[ptr_ptrs++]= \t \" Выход \";\r\n\r\n\tbgnd_par(\tptrs[0],\r\n\t\t\t\tptrs[1],\r\n\t\t\t\tptrs[index_set+2],\r\n\t\t\t\tptrs[index_set+3]);\r\n\r\n\tif(sub_ind-index_set>1)index_set=sub_ind-1;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(2);\r\n\r\n\tint2lcd(TELECORE2017_ULINECC,'!',1);\r\n int2lcd(TELECORE2017_Q,'$',0);\r\n int2lcd(TELECORE2017_IZMAX1,'@',1);\r\n int2lcd(TELECORE2017_IZMAX2,'#',1);\r\n\tint2lcd(TELECORE2017_K1,'^',0);\r\n int2lcd(TELECORE2017_K2,'&',0);\r\n int2lcd(TELECORE2017_K3,'',0);\r\n int2lcd(TELECORE2017_T4,'(',0);\r\n\tint2lcd(TELECORE2017_USTART,')',1);\r\n\t}\r\n#endif\r\nelse if(ind==iSet)\r\n\t{\r\n ptrs[0]=\t\t\" Стандартные \";\r\n\tptrs[1]=\t\t\" Время и дата \";\r\n ptrs[2]=\t\t\" Структура \";\r\n\tptrs[3]=\t\t\" Климатконтроль \";\r\n\tptrs[4]=\t\t\" Выход \";\r\n ptrs[5]=\t\t\" Мнемоника y\";\r\n\tptrs[6]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[7]=\t\t\" Отключение сигнала \";\r\n\tptrs[8]=\t\t\" аварии ) \";\r\n\tptrs[9]=\t\t\" АПВ источников \";\r\n\tptrs[10]=\t\t\" Паралл.работа z \";\r\n\tptrs[11]=\t\t\" T проверки цепи \";\r\n ptrs[12]=\t\t\" батареи qмин. \";\r\n ptrs[13]=\t\t\" Umax= !В \";\r\n ptrs[14]=\t\t\" Umin= ZВ \";\r\n ptrs[15]=\t\t\" Uб0°= @В \";\r\n ptrs[16]=\t\t\" Uб20°= #В \";\r\n ptrs[17]=\t\t\" Uсигн= ^В \";\r\n ptrs[18]=\t\t\" Umin.сети= &В \";\r\n\tptrs[19]=\t\t\" U0б= >В \";\r\n\tptrs[20]=\t\t\" Iбк.= jА \";\r\n ptrs[21]=\t\t\" Iз.мах.= JА \";\r\n ptrs[22]=\t\t\" Imax = ]A \";\r\n ptrs[23]=\t\t\" Imin = {A \";\r\n ptrs[24]=\t\t\" Uвыр.зар.= [В \";\r\n ptrs[25]=\t\t\" Tз.вкл.а.с. !с \";\r\n\tptrs[26]=\t\t\" tи.max= $°C \";\r\n\tptrs[27]=\t\t\" tи.сигн= z°C \";\r\n\tptrs[28]=\t\t\" tбат.max= b°C \";\r\n\tptrs[29]=\t\t\" tбат.сигн= X°C \";\r\n ptrs[30]=\t\t\" Внешние датчики \";\r\n\tptrs[31]=\t\t\" Ethernet \";\r\n ptrs[32]= \" Адрес счетчика +\";\r\n ptrs[33]= \" Контроль ср.точки \";\r\n ptrs[34]= \" батареи Q% \";\r\n\tptrs[35]= \" Серийный N w\";\r\n ptrs[36]=\t\t\" Выход \";\r\n ptrs[37]=\t\t\" Калибровки \"; \r\n ptrs[38]=\t\t\" \"; \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\t\t\tptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<19)\r\n\t {\r\n\t if(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t else sub_bgnd(\"ВЫК.\",'(',0);\r\n\t if(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t else sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'z',0);\r\n\t else sub_bgnd(\"ВЫК.\",'z',0);\r\n\t if(MNEMO_ON==mnON)\r\n\t \t{\r\n\t \tsub_bgnd(\"через yс.\",'y',-8);\r\n\t \tint2lcd(MNEMO_TIME,'y',0);\r\n\t \t}\r\n\t else sub_bgnd(\"выкл.\",'y',-4);\r\n\t int2lcd(UMAX,'!',1);\r\n\t int2lcd((UB20-DU),'Z',1);\r\n\t int2lcd(UB0,'@',1);\r\n\t int2lcd(UB20,'#',1);\r\n\t int2lcd(USIGN,'^',0);\r\n\t int2lcd(UMN,'&',0);\r\n\t int2lcd(U0B,'>',1);\r\n\t } \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IKB,'j',2);\r\n\tint2lcd(UVZ,'[',1);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(IMIN,'{',1);\r\n\tint2lcd(IZMAX,'J',1); \r\n\tint2lcd(TZAS,'!',0);\r\n\tint2lcd(TBAT,'q',0);\r\n\tint2lcd(TSIGN,'z',0); \r\n\tint2lcd(TBATMAX,'b',0); \r\n\tint2lcd(TBATSIGN,'X',0);\r\n int2lcd(POWER_CNT_ADRESS,'+',0);\r\n if(UBM_AV)\r\n {\r\n int2lcd(UBM_AV,'Q',0);\r\n } \r\n else sub_bgnd(\"ВЫКЛ.\",'Q',-2);\r\n\r\n\r\n\tlong2lcd_mmm(AUSW_MAIN_NUMBER,'w',0);\r\n\t}\r\n\r\nelse if(ind==iSet_RSTKM)\r\n\t{\r\n ptrs[0]=\t\t\" Стандартные \";\r\n\tptrs[1]=\t\t\" Время и дата \";\r\n ptrs[2]=\t\t\" Структура \";\r\n\tptrs[3]=\t\t\" Климатконтроль \";\r\n\tptrs[4]=\t\t\" Выход \";\r\n ptrs[5]=\t\t\" Мнемоника y\";\r\n\tptrs[6]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[7]=\t\t\" Отключение сигнала \";\r\n\tptrs[8]=\t\t\" аварии ) \";\r\n\tptrs[9]=\t\t\" АПВ источников \";\r\n\tptrs[10]=\t\t\" Паралл.работа z \";\r\n\tptrs[11]=\t\t\" T проверки цепи \";\r\n ptrs[12]=\t\t\" батареи qмин. \";\r\n ptrs[13]=\t\t\" Umax= !В \";\r\n ptrs[14]=\t\t\" Umin= ZВ \";\r\n ptrs[15]=\t\t\" Uб0°= @В \";\r\n ptrs[16]=\t\t\" Uб20°= #В \";\r\n ptrs[17]=\t\t\" Uсигн= ^В \";\r\n ptrs[18]=\t\t\" Umin.сети= &В \";\r\n\tptrs[19]=\t\t\" U0б= >В \";\r\n\tptrs[20]=\t\t\" Iбк.= jА \";\r\n ptrs[21]=\t\t\" Iз.мах.= JА \";\r\n ptrs[22]=\t\t\" Imax = ]A \";\r\n ptrs[23]=\t\t\" Imin = {A \";\r\n ptrs[24]=\t\t\" Uвыр.зар.= [В \";\r\n ptrs[25]=\t\t\" Tз.вкл.а.с. !с \";\r\n\tptrs[26]=\t\t\" tи.max= $°C \";\r\n\tptrs[27]=\t\t\" tи.сигн= z°C \";\r\n\tptrs[28]=\t\t\" tбат.max= b°C \";\r\n\tptrs[29]=\t\t\" tбат.сигн= X°C \";\r\n ptrs[30]=\t\t\" Внешние датчики \";\r\n\tptrs[31]=\t\t\" Ethernet \";\r\n ptrs[32]= \" Адрес счетчика +\";\r\n ptrs[33]= \" Контроль ср.точки \";\r\n ptrs[34]= \" батареи Q% \";\r\n\tptrs[35]= \" Серийный N w\";\r\n ptrs[36]=\t\t\" Выход \";\r\n ptrs[37]=\t\t\" Калибровки \"; \r\n ptrs[38]=\t\t\" \"; \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\t\t\tptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<19)\r\n\t {\r\n\t if(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t else sub_bgnd(\"ВЫК.\",'(',0);\r\n\t if(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t else sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'z',0);\r\n\t else sub_bgnd(\"ВЫК.\",'z',0);\r\n\t if(MNEMO_ON==mnON)\r\n\t \t{\r\n\t \tsub_bgnd(\"через yс.\",'y',-8);\r\n\t \tint2lcd(MNEMO_TIME,'y',0);\r\n\t \t}\r\n\t else sub_bgnd(\"выкл.\",'y',-4);\r\n\t int2lcd(UMAX,'!',1);\r\n\t int2lcd((UB20-DU),'Z',1);\r\n\t int2lcd(UB0,'@',1);\r\n\t int2lcd(UB20,'#',1);\r\n\t int2lcd(USIGN,'^',0);\r\n\t int2lcd(UMN,'&',0);\r\n\t int2lcd(U0B,'>',1);\r\n\t } \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IKB,'j',2);\r\n\tint2lcd(UVZ,'[',1);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(IMIN,'{',1);\r\n\tint2lcd(IZMAX,'J',1); \r\n\tint2lcd(TZAS,'!',0);\r\n\tint2lcd(TBAT,'q',0);\r\n\tint2lcd(TSIGN,'z',0); \r\n\tint2lcd(TBATMAX,'b',0); \r\n\tint2lcd(TBATSIGN,'X',0);\r\n int2lcd(POWER_CNT_ADRESS,'+',0);\r\n if(UBM_AV)\r\n {\r\n int2lcd(UBM_AV,'Q',0);\r\n } \r\n else sub_bgnd(\"ВЫКЛ.\",'Q',-2);\r\n\r\n\r\n\tlong2lcd_mmm(AUSW_MAIN_NUMBER,'w',0);\r\n\t}\r\n\r\nelse if(ind==iSet_3U)\r\n\t{\r\n ptrs[0]=\t\t\" Стандартные \";\r\n\tptrs[1]=\t\t\" Время и дата \";\r\n ptrs[2]=\t\t\" Структура \";\r\n\tptrs[3]=\t\t\" Выход \";\r\n ptrs[4]=\t\t\" Мнемоника y\";\r\n\tptrs[5]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[6]=\t\t\" Отключение сигнала \";\r\n\tptrs[7]=\t\t\" аварии ) \";\r\n\tptrs[8]=\t\t\" АПВ источников \";\r\n\tptrs[9]=\t\t\" Паралл.работа z \";\r\n\tptrs[10]=\t\t\" T проверки цепи \";\r\n ptrs[11]=\t\t\" батареи qмин. \";\r\n ptrs[12]=\t\t\" Umax= !В \";\r\n ptrs[13]=\t\t\" Umin= ZВ \";\r\n ptrs[14]=\t\t\" Uб0°= @В \";\r\n ptrs[15]=\t\t\" Uб20°= #В \";\r\n ptrs[16]=\t\t\" Uсигн= ^В \";\r\n ptrs[17]=\t\t\" Umin.сети= &В \";\r\n\tptrs[18]=\t\t\" U0б= >В \";\r\n\tptrs[19]=\t\t\" Iбк.= jА \";\r\n ptrs[20]=\t\t\" Iз.мах.= JА \";\r\n ptrs[21]=\t\t\" Imax = ]A \";\r\n ptrs[22]=\t\t\" Imin = {A \";\r\n ptrs[23]=\t\t\" Uвыр.зар.= [В \";\r\n ptrs[24]=\t\t\" Tз.вкл.а.с. !с \";\r\n\tptrs[25]=\t\t\" tи.max= $°C \";\r\n\tptrs[26]=\t\t\" tи.сигн= z°C \";\r\n\tptrs[27]=\t\t\" tбат.max= b°C \";\r\n\tptrs[28]=\t\t\" tбат.сигн= X°C \";\r\n ptrs[29]=\t\t\" Внешние датчики \";\r\n\tptrs[30]=\t\t\" Ethernet \";\r\n\tptrs[31]= \" Серийный N w\";\r\n ptrs[32]=\t\t\" Выход \";\r\n ptrs[33]=\t\t\" Калибровки \"; \r\n ptrs[34]=\t\t\" \"; \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\t\t\tptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<19)\r\n\t {\r\n\t if(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t else sub_bgnd(\"ВЫК.\",'(',0);\r\n\t if(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t else sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'z',0);\r\n\t else sub_bgnd(\"ВЫК.\",'z',0);\r\n\t if(MNEMO_ON==mnON)\r\n\t \t{\r\n\t \tsub_bgnd(\"через yс.\",'y',-8);\r\n\t \tint2lcd(MNEMO_TIME,'y',0);\r\n\t \t}\r\n\t else sub_bgnd(\"выкл.\",'y',-4);\r\n\t int2lcd(UMAX,'!',1);\r\n\t int2lcd((UB20-DU),'Z',1);\r\n\t int2lcd(UB0,'@',1);\r\n\t int2lcd(UB20,'#',1);\r\n\t int2lcd(USIGN,'^',0);\r\n\t int2lcd(UMN,'&',0);\r\n\t int2lcd(U0B,'>',1);\r\n\t } \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IKB,'j',2);\r\n\tint2lcd(UVZ,'[',1);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(IMIN,'{',1);\r\n\tint2lcd(IZMAX,'J',1); \r\n\tint2lcd(TZAS,'!',0);\r\n\tint2lcd(TBAT,'q',0);\r\n\tint2lcd(TSIGN,'z',0); \r\n\tint2lcd(TBATMAX,'b',0); \r\n\tint2lcd(TBATSIGN,'X',0);\r\n int2lcd(POWER_CNT_ADRESS,'+',0);\r\n if(UBM_AV)\r\n {\r\n int2lcd(UBM_AV,'Q',0);\r\n } \r\n else sub_bgnd(\"ВЫКЛ.\",'Q',-2);\r\n\r\n\r\n\tlong2lcd_mmm(AUSW_MAIN_NUMBER,'w',0);\r\n\t}\r\n\r\nelse if(ind==iSet_GLONASS)\r\n\t{\r\n ptrs[0]=\t\t\" Стандартные \";\r\n\tptrs[1]=\t\t\" Время и дата \";\r\n ptrs[2]=\t\t\" Структура \";\r\n\tptrs[3]=\t\t\" Выход \";\r\n ptrs[4]=\t\t\" Мнемоника y\";\r\n\tptrs[5]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[6]=\t\t\" Отключение сигнала \";\r\n\tptrs[7]=\t\t\" аварии ) \";\r\n\tptrs[8]=\t\t\" АПВ источников \";\r\n\tptrs[9]=\t\t\" Паралл.работа z \";\r\n\tptrs[10]=\t\t\" T проверки цепи \";\r\n ptrs[11]=\t\t\" батареи qмин. \";\r\n ptrs[12]=\t\t\" Umax= !В \";\r\n ptrs[13]=\t\t\" Umin= ZВ \";\r\n ptrs[14]=\t\t\" Uб0°= @В \";\r\n ptrs[15]=\t\t\" Uб20°= #В \";\r\n ptrs[16]=\t\t\" Uсигн= ^В \";\r\n ptrs[17]=\t\t\" Umin.сети= &В \";\r\n\tptrs[18]=\t\t\" U0б= >В \";\r\n\tptrs[19]=\t\t\" Iбк.= jА \";\r\n ptrs[20]=\t\t\" Iз.мах.= JА \";\r\n ptrs[21]=\t\t\" Imax = ]A \";\r\n ptrs[22]=\t\t\" Imin = {A \";\r\n ptrs[23]=\t\t\" Uвыр.зар.= [В \";\r\n ptrs[24]=\t\t\" Tз.вкл.а.с. !с \";\r\n\tptrs[25]=\t\t\" tи.max= $°C \";\r\n\tptrs[26]=\t\t\" tи.сигн= z°C \";\r\n\tptrs[27]=\t\t\" tбат.max= b°C \";\r\n\tptrs[28]=\t\t\" tбат.сигн= X°C \";\r\n ptrs[29]=\t\t\" Внешние датчики \";\r\n\tptrs[30]=\t\t\" Ethernet \";\r\n\tptrs[31]= \" Серийный N w\";\r\n ptrs[32]=\t\t\" Выход \";\r\n ptrs[33]=\t\t\" Калибровки \"; \r\n ptrs[34]=\t\t\" \"; \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\t\t\tptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<19)\r\n\t {\r\n\t if(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t else sub_bgnd(\"ВЫК.\",'(',0);\r\n\t if(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t else sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'z',0);\r\n\t else sub_bgnd(\"ВЫК.\",'z',0);\r\n\t if(MNEMO_ON==mnON)\r\n\t \t{\r\n\t \tsub_bgnd(\"через yс.\",'y',-8);\r\n\t \tint2lcd(MNEMO_TIME,'y',0);\r\n\t \t}\r\n\t else sub_bgnd(\"выкл.\",'y',-4);\r\n\t int2lcd(UMAX,'!',1);\r\n\t int2lcd((UB20-DU),'Z',1);\r\n\t int2lcd(UB0,'@',1);\r\n\t int2lcd(UB20,'#',1);\r\n\t int2lcd(USIGN,'^',0);\r\n\t int2lcd(UMN,'&',0);\r\n\t int2lcd(U0B,'>',1);\r\n\t } \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IKB,'j',2);\r\n\tint2lcd(UVZ,'[',1);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(IMIN,'{',1);\r\n\tint2lcd(IZMAX,'J',1); \r\n\tint2lcd(TZAS,'!',0);\r\n\tint2lcd(TBAT,'q',0);\r\n\tint2lcd(TSIGN,'z',0); \r\n\tint2lcd(TBATMAX,'b',0); \r\n\tint2lcd(TBATSIGN,'X',0);\r\n int2lcd(POWER_CNT_ADRESS,'+',0);\r\n if(UBM_AV)\r\n {\r\n int2lcd(UBM_AV,'Q',0);\r\n } \r\n else sub_bgnd(\"ВЫКЛ.\",'Q',-2);\r\n\r\n\r\n\tlong2lcd_mmm(AUSW_MAIN_NUMBER,'w',0);\r\n\t}\r\n\r\nelse if(ind==iSet_KONTUR)\r\n\t{\r\n ptrs[0]=\t\t\" Стандартные \";\r\n\tptrs[1]=\t\t\" Время и дата \";\r\n ptrs[2]=\t\t\" Структура \";\r\n\tptrs[3]=\t\t\" Климатконтроль \";\r\n\tptrs[4]=\t\t\" Выход \";\r\n ptrs[5]=\t\t\" Мнемоника y\";\r\n\tptrs[6]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[7]=\t\t\" Отключение сигнала \";\r\n\tptrs[8]=\t\t\" аварии ) \";\r\n\tptrs[9]=\t\t\" АПВ источников \";\r\n\tptrs[10]=\t\t\" Паралл.работа z \";\r\n\tptrs[11]=\t\t\" T проверки цепи \";\r\n ptrs[12]=\t\t\" батареи qмин. \";\r\n ptrs[13]=\t\t\" Umax= !В \";\r\n ptrs[14]=\t\t\" Umin= ZВ \";\r\n ptrs[15]=\t\t\" Uб0°= @В \";\r\n ptrs[16]=\t\t\" Uб20°= #В \";\r\n ptrs[17]=\t\t\" Uсигн= ^В \";\r\n ptrs[18]=\t\t\" Umin.сети= &В \";\r\n\tptrs[19]=\t\t\" U0б= >В \";\r\n\tptrs[20]=\t\t\" Iбк.= jА \";\r\n ptrs[21]=\t\t\" Iз.мах.= JА \";\r\n ptrs[22]=\t\t\" Imax = ]A \";\r\n ptrs[23]=\t\t\" Imin = {A \";\r\n ptrs[24]=\t\t\" Uвыр.зар.= [В \";\r\n ptrs[25]=\t\t\" Tз.вкл.а.с. !с \";\r\n\tptrs[26]=\t\t\" tи.max= $°C \";\r\n\tptrs[27]=\t\t\" tи.сигн= z°C \";\r\n\tptrs[28]=\t\t\" tбат.max= b°C \";\r\n\tptrs[29]=\t\t\" tбат.сигн= X°C \";\r\n ptrs[30]=\t\t\" Внешние датчики \";\r\n\tptrs[31]=\t\t\" Ethernet \";\r\n ptrs[32]= \" Адрес счетчика +\";\r\n ptrs[33]= \" Контроль ср.точки \";\r\n ptrs[34]= \" батареи Q% \";\r\n\tptrs[35]= \" Серийный N w\";\r\n ptrs[36]= \" Управление реле \";\r\n ptrs[37]= \" ( \";\r\n ptrs[38]=\t\t\" Выход \";\r\n ptrs[39]=\t\t\" Калибровки \"; \r\n ptrs[40]=\t\t\" \"; \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\t\t\tptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<19)\r\n\t {\r\n\t if(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t else sub_bgnd(\"ВЫК.\",'(',0);\r\n\t if(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t else sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'z',0);\r\n\t else sub_bgnd(\"ВЫК.\",'z',0);\r\n\t if(MNEMO_ON==mnON)\r\n\t \t{\r\n\t \tsub_bgnd(\"через yс.\",'y',-8);\r\n\t \tint2lcd(MNEMO_TIME,'y',0);\r\n\t \t}\r\n\t else sub_bgnd(\"выкл.\",'y',-4);\r\n\t int2lcd(UMAX,'!',1);\r\n\t int2lcd((UB20-DU),'Z',1);\r\n\t int2lcd(UB0,'@',1);\r\n\t int2lcd(UB20,'#',1);\r\n\t int2lcd(USIGN,'^',0);\r\n\t int2lcd(UMN,'&',0);\r\n\t int2lcd(U0B,'>',1);\r\n\t } \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IKB,'j',2);\r\n\tint2lcd(UVZ,'[',1);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(IMIN,'{',1);\r\n\tint2lcd(IZMAX,'J',1); \r\n\tint2lcd(TZAS,'!',0);\r\n\tint2lcd(TBAT,'q',0);\r\n\tint2lcd(TSIGN,'z',0); \r\n\tint2lcd(TBATMAX,'b',0); \r\n\tint2lcd(TBATSIGN,'X',0);\r\n int2lcd(POWER_CNT_ADRESS,'+',0);\r\n if(UBM_AV)\r\n {\r\n int2lcd(UBM_AV,'Q',0);\r\n } \r\n else sub_bgnd(\"ВЫКЛ.\",'Q',-2);\r\n\r\n\tif(index_set>19)\r\n\t {\r\n\t\tif(RELE_LOG)sub_bgnd(\"отопитель\",'(',-8);\r\n\t\telse sub_bgnd(\"вентилятор\",'(',-9);\r\n\t\t}\r\n\r\n\tlong2lcd_mmm(AUSW_MAIN_NUMBER,'w',0);\r\n\t}\r\n#endif\t//UKU_6U_WEB\r\nelse if(ind==iSet_6U)\r\n\t{\r\n\tptrs[0]=\t\t\" Стандартные \";\r\n\tptrs[1]=\t\t\" Время и дата \";\r\n\tptrs[2]=\t\t\" Синхронизация \";\r\n\tptrs[3]=\t\t\" времени и даты \";\r\n\tptrs[4]=\t\t\" Структура \";\r\n\tptrs[5]=\t\t\" Выход \";\r\n\tptrs[6]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[7]=\t\t\" Отключение сигнала \";\r\n\tptrs[8]=\t\t\" аварии ) \";\r\n\tptrs[9]=\t\t\" АПВ источников \";\r\n\tptrs[10]=\t\t\" Паралл.работа z \";\r\n\tptrs[11]=\t\t\" T проверки цепи \";\r\n\tptrs[12]=\t\t\" батареи qмин. \";\r\n\tptrs[13]=\t\t\" Umax= !В \";\r\n\tptrs[14]=\t\t\" Umin= ZВ \";\r\n\tptrs[15]=\t\t\" Uб0°= @В \";\r\n\tptrs[16]=\t\t\" Uб20°= #В \";\r\n\tptrs[17]=\t\t\" Uсигн= ^В \";\r\n\tptrs[18]=\t\t\" Umin.сети= &В \";\r\n\tptrs[19]=\t\t\" U0б= >В \";\r\n\tptrs[20]=\t\t\" Iбк.= jА \";\r\n\tptrs[21]=\t\t\" Iз.мах.= JА \";\r\n\tptrs[22]=\t\t\" Imax = ]A \";\r\n\tptrs[23]=\t\t\" Imin = {A \";\r\n\tptrs[24]=\t\t\" Uвыр.зар.= [В \";\r\n\tptrs[25]=\t\t\" Tз.вкл.а.с. !с \";\r\n\tptrs[26]=\t\t\" tи.max= $°C \";\r\n\tptrs[27]=\t\t\" tи.сигн= z°C \";\r\n\tptrs[28]=\t\t\" tбат.max= b°C \";\r\n\tptrs[29]=\t\t\" tбат.сигн= X°C \";\r\n\tptrs[30]=\t\t\" tвент.вкл. = (°C \";\r\n\tptrs[31]=\t\t\" tвент.выкл. = )°C \";\r\n\tptrs[32]=\t\t\" Сигнал для вентиля-\";\r\n\tptrs[33]=\t\t\" тора > \";\r\n\tptrs[34]=\t\t\" Отключение низко- \";\r\n\tptrs[35]=\t\t\" приоритетной нагр. \";\r\n\tptrs[36]=\t\t\" Внешние датчики \";\r\n\tptrs[37]=\t\t\" Ethernet \";\r\n\tptrs[38]= \t\" Серийный N w\";\r\n\tptrs[39]= \t\" Тип батареи \";\r\n\tptrs[40]= \t\" Время ротации \";\r\n\tptrs[41]= \t\" источников lчас.\";\r\n\tptrs[42]= \t\" Контроль ср.точки \";\r\n\tptrs[43]= \t\" батареи Q% \";\r\n\tptrs[44]=\t\t\" MODBUS ADRESS d\"; \r\n\tptrs[45]=\t\t\" MODBUS BAUDRATE \";\r\n\tptrs[46]=\t\t\" f0\";\r\n\tptrs[47]=\t\t\" Выход \";\r\n\tptrs[48]=\t\t\" Калибровки \"; \r\n\tptrs[49]=\t\t\" \"; \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\tptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<19)\r\n\t\t{\r\n\t\tif(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t\telse sub_bgnd(\"ВЫК.\",'(',0);\r\n\t\tif(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t\telse sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'z',0);\r\n\t\telse sub_bgnd(\"ВЫК.\",'z',0);\r\n\t\tif(MNEMO_ON==mnON)\r\n\t\t\t{\r\n\t \tsub_bgnd(\"через yс.\",'y',-8);\r\n\t \tint2lcd(MNEMO_TIME,'y',0);\r\n\t \t}\r\n\t\telse sub_bgnd(\"выкл.\",'y',-4);\r\n\t\tint2lcd(UMAX,'!',1);\r\n\t\tint2lcd((UB20-DU),'Z',1);\r\n\t\tint2lcd(UB0,'@',1);\r\n\t\tint2lcd(UB20,'#',1);\r\n\t\tint2lcd(USIGN,'^',0);\r\n\t\tint2lcd(UMN,'&',0);\r\n\t\tint2lcd(U0B,'>',1);\r\n\t\t} \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IKB,'j',2);\r\n\tint2lcd(UVZ,'[',1);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(IMIN,'{',1);\r\n\tint2lcd(IZMAX,'J',1); \r\n\tint2lcd(TZAS,'!',0);\r\n\tint2lcd(TBAT,'q',0);\r\n\tint2lcd(TSIGN,'z',0); \r\n\tint2lcd(TBATMAX,'b',0); \r\n\tint2lcd(TBATSIGN,'X',0);\r\n\tint2lcd(TVENTON,'(',0); \r\n\tint2lcd(TVENTOFF,')',0);\r\n\tint2lcd(POWER_CNT_ADRESS,'+',0);\r\n\tif(UBM_AV)\r\n\t\t{\r\n\t\tint2lcd(UBM_AV,'Q',0);\r\n\t\t} \r\n\telse sub_bgnd(\"ВЫКЛ.\",'Q',-2);\r\n\r\n\tif(RELEVENTSIGN==rvsAKB)sub_bgnd(\"Tакб.макс.\",'>',-5);\r\n\telse if(RELEVENTSIGN==rvsBPS)sub_bgnd(\"Tбпс.макс.\",'>',-5);\r\n\telse sub_bgnd(\"Tвн.датч.\",'>',-5);\r\n\r\n\tlong2lcd_mmm(AUSW_MAIN_NUMBER,'w',0);\r\n\r\n\tif((FORVARDBPSCHHOUR<=0)\|\|(FORVARDBPSCHHOUR>500)) \r\n\t\t{\r\n\t\tsub_bgnd(\"ВЫКЛ.\",'l',0);\r\n\t\t} \r\n\telse \r\n\t\t{\r\n\t\tint2lcd(FORVARDBPSCHHOUR,'l',0);\t\r\n\t\t}\r\n \tint2lcd(MODBUS_ADRESS,'d',0);\r\n\tint2lcd(MODBUS_BAUDRATE,'f',0);\r\n\t//int2lcdyx(sub_ind,0,3,0);\r\n\t//int2lcdyx(index_set,0,1,0);\r\n\t}\r\n#ifndef UKU_6U_WEB\r\nelse if(ind==iSet_TELECORE2015)\r\n\t{\r\n ptrs[0]=\t\t\" Стандартные \";\r\n\tptrs[1]=\t\t\" Время и дата \";\r\n ptrs[2]=\t\t\" Структура \";\r\n\tptrs[3]=\t\t\" Выход \";\r\n ptrs[4]=\t\t\" Мнемоника y\";\r\n\tptrs[5]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[6]=\t\t\" Отключение сигнала \";\r\n\tptrs[7]=\t\t\" аварии ) \";\r\n\tptrs[8]=\t\t\" АПВ источников \";\r\n\tptrs[9]=\t\t\" Паралл.работа z \";\r\n\tptrs[10]=\t\t\" T проверки цепи \";\r\n ptrs[11]=\t\t\" батареи qмин. \";\r\n \tptrs[12]=\t\t\" Umax= !В \";\r\n ptrs[13]=\t\t\" Umin= ZВ \";\r\n ptrs[14]=\t\t\" Uб0°= @В \";\r\n ptrs[15]=\t\t\" Uб20°= #В \";\r\n ptrs[16]=\t\t\" Uсигн= ^В \";\r\n ptrs[17]=\t\t\" Umin.сети= &В \";\r\n\tptrs[18]=\t\t\" U0б= >В \";\r\n\tptrs[19]=\t\t\" Iбк.= jА \";\r\n ptrs[20]=\t\t\" Iз.мах.= JА \";\r\n ptrs[21]=\t\t\" Imax = ]A \";\r\n ptrs[22]=\t\t\" Imin = {A \";\r\n ptrs[23]=\t\t\" Uвыр.зар.= [В \";\r\n ptrs[24]=\t\t\" Tз.вкл.а.с. !с \";\r\n\tptrs[25]=\t\t\" tи.max= $°C \";\r\n\tptrs[26]=\t\t\" tи.сигн= z°C \";\r\n\tptrs[27]=\t\t\" tбат.max= b°C \";\r\n\tptrs[28]=\t\t\" tбат.сигн= X°C \";\r\n\tptrs[29]=\t\t\" Климатконтроль \";\r\n ptrs[30]=\t\t\" Внешние датчики \";\r\n\tptrs[31]=\t\t\" Ethernet \";\r\n\tptrs[32]= \t\" Серийный N w\";\r\n\tptrs[33]= \t\" Тип батареи \";\r\n\tptrs[34]=\t\t\" Параметры литиевой \";\r\n\tptrs[35]=\t\t\" батареи \";\r\n\tptrs[36]= \t\" Инверторы \";\r\n\tptrs[37]= \t\" Время ротации \";\r\n\tptrs[38]= \t\" источников lчас.\";\r\n\tptrs[39]= \t\" Время регулир. L \";\r\n ptrs[40]=\t\t\" Выход \";\r\n ptrs[41]=\t\t\" Калибровки \"; \r\n ptrs[42]=\t\t\" \"; \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\tptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<19)\r\n\t\t{\r\n\t if(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t else sub_bgnd(\"ВЫК.\",'(',0);\r\n\t if(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t else sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'z',0);\r\n\t else sub_bgnd(\"ВЫК.\",'z',0);\r\n\t if(MNEMO_ON==mnON)\r\n\t \t{\r\n\t \tsub_bgnd(\"через yс.\",'y',-8);\r\n\t \tint2lcd(MNEMO_TIME,'y',0);\r\n\t \t}\r\n\t else sub_bgnd(\"выкл.\",'y',-4);\r\n\t int2lcd(UMAX,'!',1);\r\n\t int2lcd((UB20-DU),'Z',1);\r\n\t int2lcd(UB0,'@',1);\r\n\t int2lcd(UB20,'#',1);\r\n\t int2lcd(USIGN,'^',0);\r\n\t int2lcd(UMN,'&',0);\r\n\t int2lcd(U0B,'>',1);\r\n\t } \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IKB,'j',2);\r\n\tint2lcd(UVZ,'[',1);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(IMIN,'{',1);\r\n\tint2lcd(IZMAX,'J',1); \r\n\tint2lcd(TZAS,'!',0);\r\n\tint2lcd(TBAT,'q',0);\r\n\tint2lcd(TSIGN,'z',0); \r\n\tint2lcd(TBATMAX,'b',0); \r\n\tint2lcd(TBATSIGN,'X',0);\r\n\tint2lcd(TVENTON,'(',0); \r\n\tint2lcd(TVENTOFF,')',0);\r\n int2lcd(POWER_CNT_ADRESS,'+',0);\r\n\r\n if(UBM_AV)\r\n \t{\r\n int2lcd(UBM_AV,'Q',0);\r\n } \r\n else sub_bgnd(\"ВЫКЛ.\",'Q',-2);\r\n\r\n\tif(RELEVENTSIGN==rvsAKB)sub_bgnd(\"Tакб.макс.\",'>',-5);\r\n\telse if(RELEVENTSIGN==rvsBPS)sub_bgnd(\"Tбпс.макс.\",'>',-5);\r\n\telse sub_bgnd(\"Tвн.датч.\",'>',-5);\r\n\r\n\tlong2lcd_mmm(AUSW_MAIN_NUMBER,'w',0);\r\n\r\n\r\n\tif((FORVARDBPSCHHOUR<=0)\|\|(FORVARDBPSCHHOUR>500)) \r\n\t\t{\r\n\t\tsub_bgnd(\"ВЫКЛ.\",'l',0);\r\n\t\t} \r\n\telse\r\n\t\t{\r\n\t\tint2lcd(FORVARDBPSCHHOUR,'l',0);\t\r\n\t\t}\r\n\r\n\tint2lcd(CNTRL_HNDL_TIME,'L',0);\r\n\t//int2lcdyx(sub_ind,0,3,0);\r\n\t//int2lcdyx(index_set,0,1,0);\r\n\t}\r\n#ifdef UKU_TELECORE2017\r\nelse if(ind==iSet_TELECORE2017)\r\n\t{\r\n\tchar ptrs_ptr;\r\n\tptrs_ptr=0;\r\n ptrs[ptrs_ptr++]=\t\t\" Стандартные \";\r\n\tptrs[ptrs_ptr++]=\t\t\" Время и дата \";\r\n ptrs[ptrs_ptr++]=\t\t\" Структура \";\r\n\tptrs[ptrs_ptr++]=\t\t\" Выход \";\r\n\tptrs[ptrs_ptr++]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[ptrs_ptr++]=\t\t\" Отключение сигнала \";\r\n\tptrs[ptrs_ptr++]=\t\t\" аварии ) \";\r\n\tptrs[ptrs_ptr++]=\t\t\" АПВ источников \";\r\n\tptrs[ptrs_ptr++]=\t\t\" Паралл.работа > \";\r\n\tptrs[ptrs_ptr++]=\t\t\" T проверки цепи \";\r\n ptrs[ptrs_ptr++]=\t\t\" батареи qмин. \";\r\n \tptrs[ptrs_ptr++]=\t\t\" Uвыпр.max.авар. !В\";\r\n ptrs[ptrs_ptr++]=\t\t\" Uвыпр.min.авар. ZВ\";\r\n ptrs[ptrs_ptr++]=\t\t\" Uсигн ^В\";\r\n ptrs[ptrs_ptr++]=\t\t\" Umin.сети= &В \";\r\n\tptrs[ptrs_ptr++]=\t\t\" Iбк.= jА \";\r\n ptrs[ptrs_ptr++]=\t\t\" Iвкл.доп.выпр. ]A\";\r\n ptrs[ptrs_ptr++]=\t\t\" Iвыкл.доп.выпр. {A\";\r\n ptrs[ptrs_ptr++]=\t\t\" Tз.вкл.а.с. }с\";\r\n\tptrs[ptrs_ptr++]=\t\t\" tвыпр.max.авар $°C\";\r\n\tptrs[ptrs_ptr++]=\t\t\" tвыпр.сигн z°C\";\r\n//\tptrs[ptrs_ptr++]=\t\t\" tбат.max.авар b°C\";\r\n//\tptrs[ptrs_ptr++]=\t\t\" tбат.сигн X°C\";\r\n\tptrs[ptrs_ptr++]=\t\t\" Климатконтроль \";\r\n ptrs[ptrs_ptr++]=\t\t\" Внешние датчики \";\r\n\tptrs[ptrs_ptr++]=\t\t\" Ethernet \";\r\n\tptrs[ptrs_ptr++]= \t\" Серийный N w\";\r\n\tptrs[ptrs_ptr++]= \t\" Тип батареи \";\r\n\tptrs[ptrs_ptr++]=\t\t\" Параметры литиевой \";\r\n\tptrs[ptrs_ptr++]=\t\t\" батареи \";\r\n\tptrs[ptrs_ptr++]= \t\" Время ротации \";\r\n\tptrs[ptrs_ptr++]= \t\" источников lчас.\";\r\n\tptrs[ptrs_ptr++]= \t\" Реле отключения \";\r\n\tptrs[ptrs_ptr++]= \t\" нагрузки \";\r\n ptrs[ptrs_ptr++]=\t\t\" Выход \";\r\n ptrs[ptrs_ptr++]=\t\t\" Калибровки \"; \r\n ptrs[ptrs_ptr++]=\t\t\" \"; \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<19)\r\n\t\t{\r\n\t if(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t else sub_bgnd(\"ВЫК.\",'(',0);\r\n\t if(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t else sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'>',0);\r\n\t else sub_bgnd(\"ВЫК.\",'>',0);\r\n\t if(MNEMO_ON==mnON)\r\n\t \t{\r\n\t \tsub_bgnd(\"через yс.\",'y',-8);\r\n\t \tint2lcd(MNEMO_TIME,'y',0);\r\n\t \t}\r\n\t else sub_bgnd(\"выкл.\",'y',-4);\r\n\t int2lcd(UMAX,'!',1);\r\n\t int2lcd((UMAX-DU),'Z',1);\r\n\t int2lcd(ULAUNCH,'@',1);\r\n\t int2lcd(ULINECC,'#',1);\r\n\t int2lcd(USIGN,'^',0);\r\n\t int2lcd(UMN,'&',0);\r\n\t //int2lcd(U0B,'>',1);\r\n\t } \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IKB,'j',2);\r\n\tint2lcd(UVZ,'[',1);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(IMIN,'{',1);\r\n\tint2lcd(IZMAX,'J',1); \r\n\tint2lcd(TZAS,'}',0);\r\n\t//int2lcd(TBAT,'q',0);\r\n\tif(TBAT==0)sub_bgnd(\"выкл.\",'q',0);\t\r\n\telse int2lcd(TBAT,'q',0);\r\n\tint2lcd(TSIGN,'z',0); \r\n//\tint2lcd(TBATMAX,'b',0); \r\n//\tint2lcd(TBATSIGN,'X',0);\r\n\tint2lcd(TVENTON,'(',0); \r\n\tint2lcd(TVENTOFF,')',0);\r\n int2lcd(POWER_CNT_ADRESS,'+',0);\r\n\r\n if(UBM_AV)\r\n \t{\r\n int2lcd(UBM_AV,'Q',0);\r\n } \r\n else sub_bgnd(\"ВЫКЛ.\",'Q',-2);\r\n\r\n\tif(RELEVENTSIGN==rvsAKB)sub_bgnd(\"Tакб.макс.\",'>',-5);\r\n\telse if(RELEVENTSIGN==rvsBPS)sub_bgnd(\"Tбпс.макс.\",'>',-5);\r\n\telse sub_bgnd(\"Tвн.датч.\",'>',-5);\r\n\r\n\tlong2lcd_mmm(AUSW_MAIN_NUMBER,'w',0);\r\n\r\n\r\n\tif((FORVARDBPSCHHOUR<=0)\|\|(FORVARDBPSCHHOUR>500)) \r\n\t\t{\r\n\t\tsub_bgnd(\"ВЫКЛ.\",'l',0);\r\n\t\t} \r\n\telse \r\n\t\t{\r\n\t\tint2lcd(FORVARDBPSCHHOUR,'l',0);\t\r\n\t\t}\r\n\r\n\t//int2lcd(CNTRL_HNDL_TIME,'L',0);\r\n\t//int2lcdyx(sub_ind,0,3,0);\r\n\t//int2lcdyx(index_set,0,1,0);\r\n\t}\r\n#endif\r\n\r\nelse if((ind==iSet_220))\r\n\t{\r\n ptrs[0]=\t\t\" Стандартные \";\r\n\tptrs[1]=\t\t\" Время и дата \";\r\n ptrs[2]=\t\t\" Структура \";\r\n\tptrs[3]=\t\t\" Выход \";\r\n ptrs[4]=\t\t\" Мнемоника y\";\r\n\tptrs[5]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[6]=\t\t\" Отключение сигнала \";\r\n\tptrs[7]=\t\t\" аварии ) \";\r\n\tptrs[8]=\t\t\" АПВ источников \";\r\n\tptrs[9]=\t\t\" Паралл.работа z \";\r\n\tptrs[10]=\t\t\" T проверки цепи \";\r\n ptrs[11]=\t\t\" батареи qмин. \";\r\n ptrs[12]=\t\t\" Umax= !В \";\r\n ptrs[13]=\t\t\" Umin= ZВ \";\r\n ptrs[14]=\t\t\" Uб0°= @В \";\r\n ptrs[15]=\t\t\" Uб20°= #В \";\r\n ptrs[16]=\t\t\" Uсигн= ^В \";\r\n ptrs[17]=\t\t\" Umin.сети= &В \";\r\n\tptrs[18]=\t\t\" U0б= >В \";\r\n\tptrs[19]=\t\t\" Iбк.= jА \";\r\n ptrs[20]=\t\t\" Iз.мах.= JА \";\r\n ptrs[21]=\t\t\" Imax = ]A \";\r\n ptrs[22]=\t\t\" Imin = {A \";\r\n ptrs[23]=\t\t\" Uвыр.зар.= [В \";\r\n ptrs[24]=\t\t\" Tз.вкл.а.с. !с \";\r\n\tptrs[25]=\t\t\" tи.max= $°C \";\r\n\tptrs[26]=\t\t\" tи.сигн= z°C \";\r\n\tptrs[27]=\t\t\" tбат.max= b°C \";\r\n\tptrs[28]=\t\t\" tбат.сигн= X°C \";\r\n\tptrs[29]=\t\t\" Внешние датчики \";\r\n\tptrs[30]=\t\t\" Ethernet \";\r\n\tptrs[31]= \t\" Серийный N w\";\r\n ptrs[32]= \t\" Контроль ср.точки \";\r\n ptrs[33]= \t\" батареи Q% \";\r\n\tptrs[34]=\t\t\" MODBUS ADRESS <\";\r\n\tptrs[35]=\t\t\" MODBUS BAUDRATE \";\r\n\tptrs[36]=\t\t\" >0\";\r\n\tptrs[37]=\t\t\" Выход \";\r\n ptrs[38]=\t\t\" Калибровки \"; \r\n ptrs[39]=\t\t\" \"; \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\t\t\tptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<19)\r\n\t {\r\n\t if(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t else sub_bgnd(\"ВЫК.\",'(',0);\r\n\t if(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t else sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'z',0);\r\n\t else sub_bgnd(\"ВЫК.\",'z',0);\r\n\t if(MNEMO_ON==mnON)\r\n\t \t{\r\n\t \tsub_bgnd(\"через yс.\",'y',-8);\r\n\t \tint2lcd(MNEMO_TIME,'y',0);\r\n\t \t}\r\n\t else sub_bgnd(\"выкл.\",'y',-4);\r\n\t int2lcd(UMAX,'!',1);\r\n\t int2lcd((UB20-DU),'Z',1);\r\n\t int2lcd(UB0,'@',1);\r\n\t int2lcd(UB20,'#',1);\r\n\t int2lcd(USIGN,'^',0);\r\n\t int2lcd(UMN,'&',0);\r\n\t int2lcd(U0B,'>',1);\r\n\t } \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IKB,'j',2);\r\n\tint2lcd(UVZ,'[',1);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(IMIN,'{',1);\r\n\tint2lcd(IZMAX,'J',1); \r\n\tint2lcd(TZAS,'!',0);\r\n\tint2lcd(TBAT,'q',0);\r\n\tint2lcd(TSIGN,'z',0); \r\n\tint2lcd(TBATMAX,'b',0); \r\n\tint2lcd(TBATSIGN,'X',0);\r\n int2lcd(POWER_CNT_ADRESS,'+',0);\r\n if(UBM_AV)\r\n {\r\n int2lcd(UBM_AV,'Q',0);\r\n } \r\n else sub_bgnd(\"ВЫКЛ.\",'Q',-2);\r\n\r\n\r\n\tlong2lcd_mmm(AUSW_MAIN_NUMBER,'w',0);\r\n\r\n\tint2lcd(MODBUS_ADRESS,'<',0);\r\n\tint2lcd(MODBUS_BAUDRATE,'>',0);\r\n\t}\r\n\r\n\telse if((ind==iSet_220_V2))\r\n\t{\r\n\tptrs[0]=\t\t\" Стандартные \";\r\n\tptrs[1]=\t\t\" Время и дата \";\r\n ptrs[2]=\t\t\" Структура \";\r\n\tptrs[3]=\t\t\" Выход \";\r\n ptrs[4]=\t\t\" Мнемоника y\";\r\n\tptrs[5]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[6]=\t\t\" Отключение сигнала \";\r\n\tptrs[7]=\t\t\" аварии ) \";\r\n\tptrs[8]=\t\t\" АПВ источников \";\r\n\tptrs[9]=\t\t\" Паралл.работа z \";\r\n\tptrs[10]=\t\t\" T проверки цепи \";\r\n ptrs[11]=\t\t\" батареи qмин. \";\r\n ptrs[12]=\t\t\" Umax= !В \";\r\n ptrs[13]=\t\t\" Umin= ZВ \";\r\n ptrs[14]=\t\t\" Uб0°= @В \";\r\n ptrs[15]=\t\t\" Uб20°= #В \";\r\n ptrs[16]=\t\t\" Uсигн= ^В \";\r\n ptrs[17]=\t\t\" Umin.сети= &В \";\r\n\tptrs[18]=\t\t\" U0б= >В \";\r\n\tptrs[19]=\t\t\" Iбк.= jА \";\r\n ptrs[20]=\t\t\" Iз.мах.= JА \";\r\n ptrs[21]=\t\t\" Imax = ]A \";\r\n ptrs[22]=\t\t\" Imin = {A \";\r\n ptrs[23]=\t\t\" Uвыр.зар.= [В \";\r\n ptrs[24]=\t\t\" Tз.вкл.а.с. !с \";\r\n\tptrs[25]=\t\t\" tи.max= $°C \";\r\n\tptrs[26]=\t\t\" tи.сигн= z°C \";\r\n\tptrs[27]=\t\t\" tбат.max= b°C \";\r\n\tptrs[28]=\t\t\" tбат.сигн= X°C \";\r\n ptrs[29]=\t\t\" Внешние датчики \";\r\n\tptrs[30]=\t\t\" Ethernet \";\r\n\tptrs[31]=\t\t\" Ускоренный заряд \";\r\n\tptrs[32]= \" Серийный N w\";\r\n / ptrs[32]= \" Контроль ср.точки \";\r\n ptrs[33]= \" батареи Q% \";/\r\n\tptrs[33]=\t\t\" MODBUS ADRESS <\";\r\n\tptrs[34]=\t\t\" MODBUS BAUDRATE \";\r\n\tptrs[35]=\t\t\" >0\";\r\n ptrs[36]=\t\t\" Выход \";\r\n ptrs[37]=\t\t\" Калибровки \"; \r\n ptrs[38]=\t\t\" \"; \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\t\t\tptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<19)\r\n\t {\r\n\t if(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t else sub_bgnd(\"ВЫК.\",'(',0);\r\n\t if(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t else sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'z',0);\r\n\t else sub_bgnd(\"ВЫК.\",'z',0);\r\n\t if(MNEMO_ON==mnON)\r\n\t \t{\r\n\t \tsub_bgnd(\"через yс.\",'y',-8);\r\n\t \tint2lcd(MNEMO_TIME,'y',0);\r\n\t \t}\r\n\t else sub_bgnd(\"выкл.\",'y',-4);\r\n\t int2lcd(UMAX,'!',1);\r\n\t int2lcd((UB20-DU),'Z',1);\r\n\t int2lcd(UB0,'@',1);\r\n\t int2lcd(UB20,'#',1);\r\n\t int2lcd(USIGN,'^',0);\r\n\t int2lcd(UMN,'&',0);\r\n\t int2lcd(U0B,'>',1);\r\n\t } \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IKB,'j',2);\r\n\tint2lcd(UVZ,'[',1);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(IMIN,'{',1);\r\n\tint2lcd(IZMAX,'J',1); \r\n\tint2lcd(TZAS,'!',0);\r\n\tint2lcd(TBAT,'q',0);\r\n\tint2lcd(TSIGN,'z',0); \r\n\tint2lcd(TBATMAX,'b',0); \r\n\tint2lcd(TBATSIGN,'X',0);\r\n int2lcd(POWER_CNT_ADRESS,'+',0);\r\n if(UBM_AV)\r\n {\r\n int2lcd(UBM_AV,'Q',0);\r\n } \r\n else sub_bgnd(\"ВЫКЛ.\",'Q',-2);\r\n\t\t\r\n\tint2lcd(MODBUS_ADRESS,'<',0);\r\n\tint2lcd(MODBUS_BAUDRATE,'>',0);\r\n\r\n\tlong2lcd_mmm(AUSW_MAIN_NUMBER,'w',0);\r\n\t}\r\n\r\nelse if((ind==iSet_220_IPS_TERMOKOMPENSAT))\r\n\t{\r\n ptrs[0]=\t\t\" Стандартные \";\r\n\tptrs[1]=\t\t\" Время и дата \";\r\n\tptrs[2]=\t\t\" Синхронизация \";\r\n\tptrs[3]=\t\t\" времени и даты \";\r\n ptrs[4]=\t\t\" Структура \";\r\n\tptrs[5]=\t\t\" Батарея \";\r\n\tptrs[6]=\t\t\" Выход \";\r\n\tptrs[7]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[8]=\t\t\" Отключение сигнала \";\r\n\tptrs[9]=\t\t\" аварии ) \";\r\n\tptrs[10]=\t\t\" АПВ источников \";\r\n\tptrs[11]=\t\t\" Паралл.работа z \";\r\n\tptrs[12]=\t\t\" Umaх= !В \";\r\n ptrs[13]=\t\t\" Umin= ZВ \";\r\n\tptrs[14]=\t\t\" Umin.сети= &В \";\r\n\tptrs[15]=\t\t\" Imaх = ]A \";\r\n ptrs[16]=\t\t\" Imin = {A \";\r\n ptrs[17]=\t\t\" Tз.вкл.а.с. yс \";\r\n\tptrs[18]=\t\t\" tи.maх= $°C \";\r\n\tptrs[19]=\t\t\" tи.сигн= Y°C \";\r\n\tptrs[20]=\t\t\" Внешние датчики \";\r\n ptrs[21]= \t\" Контроль выходного \";\r\n ptrs[22]= \t\" напряжения \";\r\n\tptrs[23]= \t\" Термокомпенс. q\";\r\n\tptrs[24]= \t\" Время ротации \";\r\n\tptrs[25]= \t\" источников lчас.\";\r\n\tptrs[26]= \t\" Автономная работа \";\r\n\tptrs[27]= \t\" источников \";\r\n\tptrs[28]= \t\" Дополнительное реле\";\r\n\tptrs[29]= \t\" Блокировка ИПС \";\r\n\tptrs[30]= \t\" Серийный N w\";\r\n\tptrs[31]=\t\t\" MODBUS ADRESS <\";\r\n\tptrs[32]=\t\t\" MODBUS BAUDRATE \";\r\n\tptrs[33]=\t\t\" >0\";\r\n\tptrs[34]=\t\t\" Ethernet \";\r\n ptrs[35]=\t\t\" Порог ресурса \";\r\n ptrs[36]=\t\t\" вентилятора ^ч\";\r\n ptrs[37]=\t\t\" Выравнивание токов \";\r\n\tptrs[38]=\t\t\" Стартовый шим (%\";\r\n\tptrs[39]=\t\t\" Проверка цепи \";\r\n\tptrs[40]=\t\t\" батареи - ) \";\r\n\tptrs[41]=\t\t\" Скорость регулир. \";\r\n\tptrs[42]=\t\t\" & \";\r\n\tptrs[43]=\t\t\" Блок допреле \";\r\n \tptrs[44]=\t\t\" РКИ \"; \r\n\tptrs[45]=\t\t\" Сетевые вводы \";\r\n\tptrs[46]=\t\t\" Спецзаряды с откл.-\";\r\n\tptrs[47]=\t\t\" нием нагрузки W \";\t \r\n\tptrs[48]=\t\t\" Выход \";\r\n ptrs[49]=\t\t\" Калибровки \"; \r\n ptrs[50]=\t\t\" \"; \r\n \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\t\t\tptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<21)\r\n\t\t{\t\r\n\t\tif(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t\telse sub_bgnd(\"ВЫК.\",'(',0);\r\n\t\tif(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t\telse sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'z',0);\r\n\t\telse sub_bgnd(\"ВЫК.\",'z',0);\r\n\t\tint2lcd(UMAX,'!',1);\r\n\t\tint2lcd((UB20-DU),'Z',1);\r\n\t\tint2lcd(UB0,'@',1);\r\n\t\tint2lcd(UB20,'#',1);\r\n\t\tint2lcd(UMN,'&',0);\r\n\t\t} \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(IMIN,'{',1);\r\n\tint2lcd(TZAS,'y',0);\r\n\tint2lcd(TSIGN,'Y',0); \r\n int2lcd(POWER_CNT_ADRESS,'+',0);\r\n \tif(UBM_AV)\r\n\t\t{\r\n\t\tint2lcd(UBM_AV,'Q',0);\r\n\t\t} \r\n\telse sub_bgnd(\"ВЫКЛ.\",'Q',-2);\r\n\r\n\r\n\tlong2lcd_mmm(AUSW_MAIN_NUMBER,'w',0);\r\n\tif(index_set>19)\r\n\t\t{\r\n\t\tif(TERMOKOMPENS)sub_bgnd(\"ВКЛ.\",'q',-3);\r\n\t\telse sub_bgnd(\"ВЫКЛ.\",'q',-4);\r\n\t\t}\r\n\tint2lcd(MODBUS_ADRESS,'<',0);\r\n\tint2lcd(MODBUS_BAUDRATE,'>',0);\r\n\r\n\tif((FORVARDBPSCHHOUR<=0)\|\|(FORVARDBPSCHHOUR>500)) {\r\n\t\tsub_bgnd(\"ВЫКЛ.\",'l',0);\r\n\t} else {\r\n\t\tint2lcd(FORVARDBPSCHHOUR,'l',0);\t\r\n\t}\r\n\r\n\t//int2lcdyx(sub_ind,0,3,0);\r\n\t//int2lcdyx(index_set,0,1,0);\r\n\tint2lcd(PWM_START,'(',0);\r\n\tif(TVENTMAX==0)sub_bgnd(\"выкл.\",'^',-3);\r\n\telse int2lcd(TVENTMAX10,'^',0);\r\n\tif(KB_ALGORITM==1)\tsub_bgnd(\"1-о ступ.\",')',0);\r\n\telse if(KB_ALGORITM==2)\tsub_bgnd(\"2-х ступ.\",')',0);\r\n\telse \t\t\t\tsub_bgnd(\"3-х ступ.\",')',0);\r\n\tif(REG_SPEED==2)\tsub_bgnd(\"стандарт/2\",'&',0);\r\n\telse if(REG_SPEED==3)\tsub_bgnd(\"стандарт/3\",'&',0);\r\n\telse if(REG_SPEED==4)\tsub_bgnd(\"стандарт/4\",'&',0);\r\n\telse if(REG_SPEED==5)\tsub_bgnd(\"стандарт/5\",'&',0);\r\n\telse \t\t\t\tsub_bgnd(\"стандарт\",'&',0);\r\n\tif(SMART_SPC)\t \tsub_bgnd(\"вкл.\",'W',0);\r\n\telse \t\t\t\tsub_bgnd(\"выкл.\",'W',0);\r\n\r\n\t\r\n\r\n\t}\r\n\r\nelse if(ind==iSet_IPS_SGEP_GAZPROM)\r\n\t{\r\n //ptrs[0]=\t\t\" Стандартные \";\r\n\tptrs[0]=\t\t\" Время и дата \";\r\n\tptrs[1]=\t\t\" Синхронизация \";\r\n\tptrs[2]=\t\t\" времени и даты \";\r\n ptrs[3]=\t\t\" Структура \";\r\n\tptrs[4]=\t\t\" Выход \";\r\n\tptrs[5]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[6]=\t\t\" Отключение сигнала \";\r\n\tptrs[7]=\t\t\" аварии ) \";\r\n\tptrs[8]=\t\t\" АПВ источников \";\r\n\tptrs[9]=\t\t\" Паралл.работа z \";\r\n//\tptrs[10]=\t\t\" T проверки цепи \";\r\n // ptrs[11]=\t\t\" батареи qмин. \";\r\n ptrs[10]=\t\t\" Umaх= !В \";\r\n ptrs[11]=\t\t\" Umin= ZВ \";\r\n ptrs[12]=\t\t\" Uвых.уст.= @В \";\r\n //ptrs[16]=\t\t\" Uб20°= #В \";\r\n // ptrs[17]=\t\t\" Uб.сигн= ^В \";\r\n ptrs[13]=\t\t\" Umin.сети= &В \";\r\n//\tptrs[19]=\t\t\" Iбк.= jА \";\r\n // ptrs[20]=\t\t\" Iз.мах.= JА \";\r\n ptrs[14]=\t\t\" Imaх = ]A \";\r\n ptrs[15]=\t\t\" Imin = {A \";\r\n// ptrs[18]=\t\t\" Tз.вкл.а.с. !с \";\r\n\tptrs[16]=\t\t\" tи.сигн= z°C \";\r\n\tptrs[17]=\t\t\" tи.maх= $°C \";\r\n//\tptrs[26]=\t\t\" tбат.maх= b°C \";\r\n//\tptrs[27]=\t\t\" tбат.сигн= X°C \";\r\n// ptrs[28]=\t\t\" Uоткл.вент.= [В \";\r\n//\tptrs[29]=\t\t\" Выравнивающий заряд\";\r\n// ptrs[30]=\t\t\" Внешние датчики \";\r\n// ptrs[18]= \t\" Контроль выходного \";\r\n// ptrs[19]= \t\" напряжения \";\r\n//\tptrs[33]= \t\" Термокомпенс. q\";\r\n//\tptrs[34]=\t\t\" Ускоренный заряд \";\r\n//\tptrs[23]= \t\" Время ротации \";\r\n//\tptrs[24]= \t\" источников lчас.\";\r\n\tptrs[18]= \t\" Автономная работа \";\r\n\tptrs[19]= \t\" источников \";\r\n//\tptrs[39]= \t\" Дополнительное реле\";\r\n//\tptrs[40]= \t\" Блокировка ИПС \";\r\n\tptrs[20]= \t\" Серийный N w\";\r\n\tptrs[21]=\t\t\" MODBUS ADRESS <\";\r\n\tptrs[22]=\t\t\" MODBUS BAUDRATE \";\r\n\tptrs[23]=\t\t\" >0\";\r\n\tptrs[24]=\t\t\" Ethernet \";\r\n// ptrs[46]=\t\t\" Порог ресурса \";\r\n// ptrs[47]=\t\t\" вентилятора ^ч\";\r\n// ptrs[48]=\t\t\" Выравнивание токов \";\r\n\tptrs[25]=\t\t\" Стартовый шим (%\";\r\n//\tptrs[50]=\t\t\" Проверка цепи \";\r\n//\tptrs[51]=\t\t\" батареи - ) \";\r\n//\tptrs[52]=\t\t\" Скорость регулир. \";\r\n//\tptrs[53]=\t\t\" & \";\r\n//\tptrs[54]=\t\t\" Блок допреле \";\r\n// \tptrs[55]=\t\t\" РКИ \"; \r\n//\tptrs[56]=\t\t\" Сетевые вводы \"; \r\n\tptrs[26]=\t\t\" Выход \";\t\r\n ptrs[27]=\t\t\" Калибровки \"; \r\n ptrs[28]=\t\t\" \"; \r\n \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\t\t\tptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<14)\r\n\t {\r\n\t if(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t else sub_bgnd(\"ВЫК.\",'(',0);\r\n\t if(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t else sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'z',0);\r\n\t else sub_bgnd(\"ВЫК.\",'z',0);\r\n\t if(MNEMO_ON==mnON)\r\n\t \t{\r\n\t \tsub_bgnd(\"через yс.\",'y',-8);\r\n\t \tint2lcd(MNEMO_TIME,'y',0);\r\n\t \t}\r\n\t else sub_bgnd(\"выкл.\",'y',-4);\r\n\t int2lcd(UMAX,'!',1);\r\n\t int2lcd((UB20-DU),'Z',1);\r\n\t int2lcd(UB0,'@',1);\r\n\t int2lcd(UB20,'#',1);\r\n\t int2lcd(USIGN,'^',0);\r\n\t int2lcd(UMN,'&',0);\r\n\t/\tif(TBAT==0)sub_bgnd(\"выкл.\",'q',0);\t\r\n\t\telse int2lcd(TBAT,'q',0); /\r\n\t } \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IKB,'j',2);\r\n\tint2lcd(UVENTOFF,'[',0);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(IMIN,'{',1);\r\n\tint2lcd(IZMAX,'J',1); \r\n\t//int2lcd(TZAS,'!',0);\r\n\t\r\n\tint2lcd(TSIGN,'z',0); \r\n\t//int2lcd(TBATMAX,'b',0); \r\n\t//int2lcd(TBATSIGN,'X',0);\r\n int2lcd(POWER_CNT_ADRESS,'+',0);\r\n /* if(UBM_AV)\r\n {\r\n int2lcd(UBM_AV,'Q',0);\r\n } \r\n else sub_bgnd(\"ВЫКЛ.\",'Q',-2);\t/\r\n\r\n\r\n\tlong2lcd_mmm(AUSW_MAIN_NUMBER,'w',0);\r\n/\tif(index_set>19)\r\n\t\t{\r\n\t\tif(TERMOKOMPENS)sub_bgnd(\"ВКЛ.\",'q',-3);\r\n\t\telse sub_bgnd(\"ВЫКЛ.\",'q',-4);\r\n\t\t}/\r\n\tint2lcd(MODBUS_ADRESS,'<',0);\r\n\tint2lcd(MODBUS_BAUDRATE,'>',0);\r\n\tint2lcd(PWM_START,'(',0);\r\n/\tif((FORVARDBPSCHHOUR<=0)\|\|(FORVARDBPSCHHOUR>500)) {\r\n\t\tsub_bgnd(\"ВЫКЛ.\",'l',0);\r\n\t} else {\r\n\t\tint2lcd(FORVARDBPSCHHOUR,'l',0);\t\r\n\t} /\r\n\r\n\t//int2lcdyx(sub_ind,0,3,0);\r\n\t//int2lcdyx(index_set,0,1,0);PWM_START\r\n\r\n/\tif(TVENTMAX==0)sub_bgnd(\"выкл.\",'^',-3);\r\n\telse int2lcd(TVENTMAX10,'^',0);/\r\n/\tif(KB_ALGORITM==1)\tsub_bgnd(\"1-о ступ.\",')',0);\r\n\telse if(KB_ALGORITM==2)\tsub_bgnd(\"2-х ступ.\",')',0);\r\n\telse \t\t\t\tsub_bgnd(\"3-х ступ.\",')',0); /\r\n/\tif(REG_SPEED==2)\tsub_bgnd(\"стандарт/2\",'&',0);\r\n\telse if(REG_SPEED==3)\tsub_bgnd(\"стандарт/3\",'&',0);\r\n\telse if(REG_SPEED==4)\tsub_bgnd(\"стандарт/4\",'&',0);\r\n\telse if(REG_SPEED==5)\tsub_bgnd(\"стандарт/5\",'&',0);\r\n\telse \t\t\t\tsub_bgnd(\"стандарт\",'&',0);\t/\r\n\r\n\t\r\n\r\n\t//int2lcdyx(sub_ind,0,3,0);\r\n\t//int2lcdyx(index_set,0,1,0);\r\n\r\n\t}\r\n\r\n\r\nelse if (ind==iDef)\r\n\r\n\t{ \r\n\tptrs[0]=\" ИБЭП220/48-40А \";\r\n\tptrs[1]=\" ИБЭП220/48-60А \";\r\n\tptrs[2]=sm_exit;\r\n\tif(bFL5)ptrs[default_temp]=sm_;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n bgnd_par(\"СТАНДАРТНЫЕ УСТ.-КИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t} \r\n\r\nelse if (ind==iDef_RSTKM)\r\n\r\n\t{ \r\n\tptrs[0]=\" ИБЭП220/48-40А \";\r\n\tptrs[1]=\" ИБЭП220/48-60А \";\r\n\tptrs[2]=sm_exit;\r\n\tif(bFL5)ptrs[default_temp]=sm_;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n bgnd_par(\"СТАНДАРТНЫЕ УСТ.-КИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t} \r\n\r\nelse if (ind==iDef_3U)\r\n\r\n\t{ \r\n\tptrs[0]=\" ИБЭП220/48-40А \";\r\n\tptrs[1]=\" ИБЭП220/48-60А \";\r\n\tptrs[2]=\" ИБЭП220/60-40А \";\r\n\tptrs[3]=\" ИБЭП220/60-60А \";\r\n\r\n\tptrs[4]=sm_exit;\r\n\tif(bFL5)ptrs[default_temp]=sm_;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n bgnd_par(\"СТАНДАРТНЫЕ УСТ.-КИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t} \r\n\r\nelse if (ind==iDef_GLONASS)\r\n\r\n\t{ \r\n\tptrs[0]=\" ИБЭП220/48-40А \";\r\n\tptrs[1]=\" ИБЭП220/48-60А \";\r\n\tptrs[2]=\" ИБЭП220/60-40А \";\r\n\tptrs[3]=\" ИБЭП220/60-60А \";\r\n\r\n\tptrs[4]=sm_exit;\r\n\tif(bFL5)ptrs[default_temp]=sm_;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n bgnd_par(\"СТАНДАРТНЫЕ УСТ.-КИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t}\r\n\t \r\nelse if (ind==iDef_KONTUR)\r\n\r\n\t{ \r\n\tptrs[0]=\" ИБЭП220/48-40А \";\r\n\tptrs[1]=\" ИБЭП220/48-60А \";\r\n\tptrs[2]=sm_exit;\r\n\tif(bFL5)ptrs[default_temp]=sm_;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n bgnd_par(\"СТАНДАРТНЫЕ УСТ.-КИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t} \r\nelse if (ind==iDef_6U)\r\n\t{ \r\n\tptrs[0]=\t\" ИБЭП220/24-120А-2/4\";\r\n\tptrs[1]=\t\" ИБЭП220/24-120А-3/4\";\r\n\tptrs[2]=\t\" ИБЭП220/24-120А-4/4\";\r\n\tptrs[3]=\t\" ИБЭП220/24-210А-3/7\";\r\n\tptrs[4]=\t\" ИБЭП220/24-210А-4/7\";\r\n\tptrs[5]=\t\" ИБЭП220/24-210А-5/7\";\r\n\tptrs[6]=\t\" ИБЭП220/24-210А-6/7\";\r\n\tptrs[7]=\t\" ИБЭП220/24-210А-7/7\";\r\n\tptrs[8]=\t\" ИБЭП220/48-80А-2/4 \";\r\n\tptrs[9]=\t\" ИБЭП220/48-80А-3/4 \";\r\n\tptrs[10]=\t\" ИБЭП220/48-80А-4/4 \";\r\n\tptrs[11]=\t\" ИБЭП220/48-140А-3/7\";\r\n\tptrs[12]=\t\" ИБЭП220/48-140А-4/7\";\r\n\tptrs[13]=\t\" ИБЭП220/48-140А-5/7\";\r\n\tptrs[14]=\t\" ИБЭП220/48-140А-6/7\";\r\n\tptrs[15]=\t\" ИБЭП220/48-140А-7/7\";\r\n\tptrs[16]=\t\" ИБЭП220/60-80А-2/4 \";\r\n\tptrs[17]=\t\" ИБЭП220/60-80А-3/4 \";\r\n\tptrs[18]=\t\" ИБЭП220/60-80А-4/4 \";\r\n\tptrs[19]=\t\" ИБЭП220/60-140А-3/7\";\r\n\tptrs[20]=\t\" ИБЭП220/60-140А-4/7\";\r\n\tptrs[21]=\t\" ИБЭП220/60-140А-5/7\";\r\n\tptrs[22]=\t\" ИБЭП220/60-140А-6/7\";\r\n\tptrs[23]=\t\" ИБЭП220/60-140А-7/7\";\r\n\tptrs[24]=\t\" ИБЭП380/24-120А-4/4\";\r\n\tptrs[25]=\t\" ИБЭП380/24-210А-7/7\";\r\n\tptrs[26]=\t\" ИБЭП380/48-80А-4/4 \";\r\n\tptrs[27]=\t\" ИБЭП380/48-140А-7/7\";\r\n\tptrs[28]=\t\" ИБЭП380/60-80А-4/4 \";\r\n\tptrs[29]=\t\" ИБЭП380/60-140А-7/7\";\r\n\tptrs[30]=\t\" ИПС7000-24В-7/7 \";\r\n\tptrs[31]=\t\" ИПС7000-48В-7/7 \";\r\n\tptrs[32]=\t\" ИПС7000-60В-7/7 \";\r\n\tptrs[33]=\t\" ИПС7000-380-24В-7/7\";\r\n\tptrs[34]=\t\" ИПС7000-380-48В-7/7\";\r\n\tptrs[35]=\t\" ИПС7000-380-60В-7/7\";\r\n\tptrs[36]=\tsm_exit;\r\n\r\n\tif(bFL5)ptrs[default_temp]=sm_;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n bgnd_par(\"СТАНДАРТНЫЕ УСТ.-КИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t} \r\n\r\nelse if (ind==iDef_220)\r\n\t{ \r\n\tptrs[0]=\" ИБЭП220/220В-10А \";\r\n\tptrs[1]=\" ИБЭП220/220В-10А-17\";\r\n\tptrs[2]=\" ИБЭП220/220В-20А \";\r\n\tptrs[3]=\" ИБЭП220/220В-20А-17\";\r\n\tptrs[4]=\" ИБЭП380/220В-20А \";\r\n\tptrs[5]=\" ИБЭП380/220В-20А-17\";\r\n\tptrs[6]=\" ИБЭП3x220/220В-35А \";\r\n\tptrs[7]=\" ИПC3x220/220В-35А \";\r\n\t\r\n\tptrs[8]=sm_exit;\r\n\tptrs[9]=\" \";\r\n\tif(bFL5)ptrs[default_temp]=sm_;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n bgnd_par(\"СТАНДАРТНЫЕ УСТ.-КИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t} \t\r\n\r\nelse if (ind==iDef_220_V2)\r\n\t{ \r\n\tptrs[0]=\" AC220/220-20A-18 \";\r\n\tptrs[1]=\" AC220/220-20A-17 \";\r\n\tptrs[2]=\" AC380/220-45A-18 \";\r\n\t\r\n\tptrs[3]=sm_exit;\r\n\tptrs[4]=\" \";\r\n\tif(bFL5)ptrs[default_temp]=sm_;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n bgnd_par(\"СТАНДАРТНЫЕ УСТ.-КИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t} \r\n\r\nelse if (ind==iDef_220_IPS_TERMOKOMPENSAT)\r\n\t{ \r\n\tptrs[0]\t\t=\" ИПС380/220-45АТКИ17\";\r\n\tptrs[1]\t\t=\" ИПС380/220-45-17-NN\";\r\n\tptrs[2]\t\t=\" ИПС220/220-10АТКИ17\";\r\n\tptrs[3]\t\t=\" ИПС380/110-90АТКИ9 \";\r\n\tptrs[4]\t\t=\" ИПС380/220-ТКИ18 \";\r\n\tptrs[5]\t\t=\" ИПС220/220-25АТКИ17\";\r\n\tptrs[6]\t\t=\" ИПС220/220-25АТКИ18\";\r\n\tptrs[7]\t\t=\" ИПС220/220-25АТКИ20\";\r\n//\tptrs[5]=\" УКУ 207.131 \";\r\n\r\n\tptrs[8]\t\t=sm_exit;\r\n\tptrs[9]\t\t=\" \";\r\n\tptrs[10]\t=\" \";\r\n\tif(bFL5)ptrs[default_temp]=sm_;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n \tbgnd_par(\"СТАНДАРТНЫЕ УСТ.-КИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t} \t\r\n\r\nelse if(ind==iSet_T)\r\n\t{\r\n\tstatic char phase_cnt;\r\n\tif(++phase_cnt>=15)\r\n\t {\r\n\t phase_cnt=0;\r\n\t if(++phase>=3)phase=0;\r\n\t }\r\n\tptrs[0]=sm_time;\r\n\tptrs[1]=sm_;\r\n\tif(phase==0)ptrs[2]=\" <> - выбор \";\r\n if(phase==1)ptrs[2]=\" ^v - установка \";\r\n if(phase==2)ptrs[2]=\" ¤ - выход \";\r\n\t\r\n\tbgnd_par(\" УСТАНОВКА ВРЕМЕНИ \",ptrs[0],ptrs[1],ptrs[2]);\r\n if(sub_ind==0)lcd_buffer[42]='^';\r\n else if(sub_ind==1)lcd_buffer[45]='^';\r\n else if(sub_ind==2)lcd_buffer[48]='^';\r\n else if(sub_ind==3)lcd_buffer[51]='^';\r\n else if(sub_ind==4)lcd_buffer[54]='^';\r\n else if(sub_ind==5)lcd_buffer[58]='^';\r\n \r\n \tint2lcd(LPC_RTC->SEC,'&',0);\r\n \tint2lcd(LPC_RTC->MIN,'^',0);\r\n \tint2lcd(LPC_RTC->HOUR,'%',0);\r\n \t\r\n \tint2lcd(LPC_RTC->DOM,'<',0);\r\n \tsub_bgnd(sm_mont[LPC_RTC->MONTH],'>',0);\r\n \tint2lcd(LPC_RTC->YEAR,'{',0);\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t } \r\n\t} \r\nelse if(ind==iSet_T_avt)\r\n\t{\r\n\tif(SNTP_ENABLE==0)\t\tptrs[0]=\t\" Выключено \";\r\n\telse if(SNTP_ENABLE==1)\tptrs[0]=\t\" Период 1 час\";\r\n\telse if(SNTP_ENABLE==2)\tptrs[0]=\t\" Период 1 сутки\";\r\n\telse if(SNTP_ENABLE==3)\tptrs[0]=\t\" Период 1 неделя\";\r\n\r\n\tif(SNTP_ENABLE==0)\r\n\t\t{\r\n\t\t\t\t\t\t\tptrs[1]=\tsm_exit;\r\n\t\t\t\t\t\t\tptrs[2]=\tsm_;\r\n\t\t\t\t\t\t\tptrs[3]=\tsm_;\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tif((SNTP_GMT>=0)&&(SNTP_GMT<=9))\t\t\tptrs[1]=\t\" Часовой пояс GMT+! \";\r\n\t\telse if((SNTP_GMT>=10)&&(SNTP_GMT<=13))\t\tptrs[1]=\t\" Часовой пояс GMT+ !\";\r\n\t\telse if((SNTP_GMT<0)&&(SNTP_GMT>-10))\t\tptrs[1]=\t\" Часовой пояс GMT-! \";\r\n\t\telse if((SNTP_GMT<=-10)&&(SNTP_GMT>=-12))\tptrs[1]=\t\" Часовой пояс GMT- !\";\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tptrs[2]=\tsm_exit;\r\n\t\t\t\t\t\t\t\t\t\t\t\t\tptrs[3]=\tsm_;\r\n\t\t}\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>1) index_set=sub_ind-1;\r\n\t\r\n\tbgnd_par(\t\" СИНХРОНИЗАЦИЯ \",\r\n\t\t\t\t\" ВРЕМЕНИ (SNTP) \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1]);\r\n \r\n \tint2lcd(abs(SNTP_GMT),'!',0);\r\n\r\n\tpointer_set(2);\r\n\t} \r\n\r\nelse if(ind==iStr)\r\n\t{\r\n\tptrs[0]=\" Батарей @\";\r\n\tptrs[1]=\" Источников !\";\r\n\tptrs[2]=\" Инверторов ^\";\t\r\n\tptrs[3]=\" Контролируемых \";\r\n\tptrs[4]=\" автоматов $\";\r\n\tptrs[5]=\" Выход \";\r\n\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\tbgnd_par(\" СТРУКТУРА \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(NUMBAT,'@',0);\t\t\r\n\tint2lcd(NUMIST,'!',0);\r\n\tint2lcd(NUMAVT,'$',0);\t \r\n\tint2lcd(NUMINV,'^',0);\r\n\tint2lcd(NUMDT,'#',0);\r\n\tint2lcd(NUMSK,'$',0);\r\n\t} \r\n\r\nelse if(ind==iStr_RSTKM)\r\n\t{\r\n\tptrs[0]=\" Батарей @\";\r\n\tptrs[1]=\" Источников !\";\r\n\tptrs[2]=\" Инверторов ^\";\t\r\n\tptrs[3]=\" Контролируемых \";\r\n\tptrs[4]=\" автоматов $\";\r\n\tptrs[5]=\" Выход \";\r\n\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\tbgnd_par(\" СТРУКТУРА \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(NUMBAT,'@',0);\t\t\r\n\tint2lcd(NUMIST,'!',0);\r\n\tint2lcd(NUMAVT,'$',0);\t \r\n\tint2lcd(NUMINV,'^',0);\r\n\tint2lcd(NUMDT,'#',0);\r\n\tint2lcd(NUMSK,'$',0);\r\n\t}\r\n\r\nelse if(ind==iStr_3U)\r\n\t{\r\n\tptrs[0]=\" Батарей @\";\r\n\tptrs[1]=\" Источников !\";\r\n\tptrs[2]=\" Инверторов ^\";\t\r\n\tptrs[3]=\" Сухих контактов $\";\r\n\tptrs[4]=\" Выход \";\r\n\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\tbgnd_par(\" СТРУКТУРА \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(NUMBAT,'@',0);\t\t\r\n\tint2lcd(NUMIST,'!',0);\r\n\t//int2lcd(NUMAVT,'$',0);\t \r\n\tint2lcd(NUMINV,'^',0);\r\n\tint2lcd(NUMDT,'#',0);\r\n\tint2lcd(NUMSK,'$',0);\r\n\t} \r\n#endif\t//UKU_6U_WEB\r\nelse if(ind==iStr_6U)\r\n\t{\r\n\tptrs[0]=\" Батарей @\";\r\n\tptrs[1]=\" Источников !\";\r\n\tptrs[2]=\" Датчиков темпер. #\";\r\n\tptrs[3]=\" Сухих контактов $\";\r\n\tptrs[4]=\" Фазность питающей \";\r\n\tptrs[5]=\" сети [\";\r\n\tptrs[6]=\" Мониторов АКБ %\";\r\n\tptrs[7]=\" Модуль ЭНМВ-1-24 ]\";\r\n\tptrs[8]=\" Выход \";\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\tbgnd_par(\" СТРУКТУРА \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(NUMBAT,'@',0);\t\t\r\n\tint2lcd(NUMIST,'!',0); \r\n\tint2lcd(NUMDT,'#',0);\r\n\tint2lcd(NUMSK,'$',0);\r\n\tint2lcd(NUMMAKB,'%',0);\r\n\tint2lcd(NUMENMV,']',0);\r\n\tint2lcd(NUMPHASE,'[',0);\r\n\t} \r\n#ifndef UKU_6U_WEB\t\t\r\nelse if(ind==iStr_220_IPS_TERMOKOMPENSAT)\r\n\t{\r\n\tptrs[0]=\" Батарей @\";\r\n\tptrs[1]=\" Источников !\";\r\n\tptrs[2]=\" Датчиков темпер. #\";\r\n\tptrs[3]=\" Мониторов АКБ %\";\r\n\tptrs[4]=\" Сухих контактов $\";\r\n\tptrs[5]=\" РКИ &\";\r\n\tptrs[6]=\" Сетевых вводов \";\r\n\tptrs[7]=\" Блоков доп.реле ^\";\r\n\tptrs[8]=\" Модуль ЭНМВ-1-24 ]\"; //o_5\r\n\tptrs[9]=\" Выход \";\t//o_5\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\tbgnd_par(\t\" СТРУКТУРА \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(NUMBAT,'@',0);\r\n\tint2lcd(NUMIST,'!',0); \r\n\tint2lcd(NUMDT,'#',0);\r\n\tint2lcd(NUMMAKB,'%',0);\r\n\tint2lcd(NUMSK,'$',0);\r\n\tint2lcd(num_rki,'&',0);\r\n\tint2lcd(num_net_in,'',0);\r\n\tint2lcd(NUMBDR,'^',0); \r\n\tint2lcd(NUMENMV,']',0);\t//o_5\r\n\t} \r\n/\r\nelse if(ind==iStr_220_IPS_TERMOKOMPENSAT)\r\n\t{\r\n\tptrs[0]=\" Источников !\";\r\n\tptrs[1]=\" Датчиков темпер. #\";\r\n\tptrs[2]=\" Мониторов АКБ %\";\r\n\tptrs[3]=\" Сухих контактов $\";\r\n\tptrs[4]=\" Блоков доп.реле ^\";\r\n\tptrs[5]=\" Выход \";\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\tbgnd_par(\" СТРУКТУРА \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(NUMIST,'!',0); \r\n\tint2lcd(NUMDT,'#',0);\r\n\tint2lcd(NUMMAKB,'%',0);\r\n\tint2lcd(NUMSK,'$',0);\r\n\tint2lcd(NUMBDR,'^',0);\r\n\t} \r\n/\r\nelse if(ind==iStr_GLONASS)\r\n\t{\r\n\tptrs[0]=\" Батарей @\";\r\n\tptrs[1]=\" Источников !\";\r\n\tptrs[2]=\" Инверторов ^\";\t\r\n\tptrs[3]=\" Сухих контактов $\";\r\n\tptrs[4]=\" Выход \";\r\n\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\tbgnd_par(\" СТРУКТУРА \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(NUMBAT,'@',0);\t\t\r\n\tint2lcd(NUMIST,'!',0);\r\n\t//int2lcd(NUMAVT,'$',0);\t \r\n\tint2lcd(NUMINV,'^',0);\r\n\tint2lcd(NUMDT,'#',0);\r\n\tint2lcd(NUMSK,'$',0);\r\n\t}\r\n\r\nelse if(ind==iStr_KONTUR)\r\n\t{\r\n\tptrs[0]=\" Батарей @\";\r\n\tptrs[1]=\" Источников !\";\r\n\tptrs[2]=\" Инверторов ^\";\t\r\n//\tptrs[3]=\" Датчиков темпер. #\";\r\n//\tptrs[4]=\" Сухих контактов $\";\r\n\tptrs[2]=\" Выход \";\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\tbgnd_par(\" СТРУКТУРА \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(NUMBAT,'@',0);\t\t\r\n\tint2lcd(NUMIST,'!',0); \r\n\tint2lcd(NUMINV,'^',0);\r\n\tint2lcd(NUMDT,'#',0);\r\n\tint2lcd(NUMSK,'$',0);\r\n\t} \r\n\r\nelse if(ind==iStr_TELECORE2015)\r\n\t{\r\n\tptrs[0]=\" Батарей @\";\r\n\tptrs[1]=\" Источников !\";\r\n\tptrs[2]=\" Датчиков темпер. #\";\r\n\tptrs[3]=\" Сухих контактов $\";\r\n\tptrs[4]=\" Выход \";\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\tbgnd_par(\" СТРУКТУРА \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(NUMBAT_TELECORE,'@',0);\t\t\r\n\tint2lcd(NUMIST,'!',0); \r\n\tint2lcd(NUMDT,'#',0);\r\n\tint2lcd(NUMSK,'$',0);\r\n\t} \r\n\t \r\nelse if(ind==iStr_IPS_SGEP_GAZPROM)\r\n\t{\r\n\tptrs[0]=\" Источников !\";\r\n\tptrs[1]=\" Выход \";\r\n\tptrs[2]=\" \";\r\n\tptrs[3]=\" \";\r\n\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\tbgnd_par(\" СТРУКТУРА \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(NUMIST,'!',0);\r\n\t}\r\n#endif\t//UKU_6U_WEB\t \r\nelse if (ind==iLan_set)\r\n\t{\r\n\tchar sss[10]=\"abcdef\";\r\n\tchar i/,i_flag/;\r\n\t \r\n\tptrs[0]=\t\" Ethernet ! \";\r\n\tptrs[1]=\t\" DHCPклиент @ \";\r\n\tptrs[2]=\t\" IPадрес \";\r\n\tptrs[3]=\t\" 000.000.000.00# \";\r\n\tptrs[4]=\t\" Маска подсети \";\r\n\tptrs[5]=\t\" 000.000.000.00$ \";\r\n\tptrs[6]=\t\" Шлюз \";\r\n\tptrs[7]=\t\" 000.000.000.00) \";\r\n\tptrs[8]=\t\" Порт.чтения [\";\r\n\tptrs[9]=\t\" Порт.записи ]\";\r\n\tptrs[10]=\t\" Community < \";\r\n\tptrs[11]=\t\" Адресат для TRAP N1\";\r\n\tptrs[12]=\t\" 000.000.000.00% \";\r\n\tptrs[13]=\t\" Адресат для TRAP N2\";\r\n\tptrs[14]=\t\" 000.000.000.00^ \";\r\n\tptrs[15]=\t\" Адресат для TRAP N3\";\r\n\tptrs[16]=\t\" 000.000.000.00& \";\r\n\tptrs[17]=\t\" Адресат для TRAP N4\";\r\n\tptrs[18]=\t\" 000.000.000.00 \";\r\n\tptrs[19]=\t\" Адресат для TRAP N5\";\r\n\tptrs[20]=\t\" 000.000.000.00( \";\r\n\tptrs[21]=\t\" Выход \";\r\n\r\n\t\r\n\tif(!ETH_IS_ON)\r\n\t\t{\r\n\t\tptrs[1]=\" Выход \";\r\n\t\tptrs[2]=\" \";\r\n\t\tptrs[3]=\" \";\r\n\t\t}\r\n\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n bgnd_par(\t\" УСТАНОВКИ Ethernet \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n if(ETH_IS_ON)\r\n \t{\r\n \tsub_bgnd(\"ВКЛ.\",'!',-3); \r\n \t}\r\n else \r\n \t{\r\n \tsub_bgnd(\"ВЫКЛ.\",'!',-4); \r\n \t}\r\n\r\n if(ETH_DHCP_ON)\r\n \t{\r\n \tsub_bgnd(\"ВКЛ.\",'@',-3); \r\n \t}\r\n else \r\n \t{\r\n \tsub_bgnd(\"ВЫКЛ.\",'@',-4); \r\n \t}\r\n\t\t \r\n\tif(sub_ind==2)\tip2lcd(ETH_IP_1,ETH_IP_2,ETH_IP_3,ETH_IP_4,'#',(sub_ind1+1));\r\n\telse ip2lcd(ETH_IP_1,ETH_IP_2,ETH_IP_3,ETH_IP_4,'#',0);\r\n\tif(sub_ind==4)\tip2lcd(ETH_MASK_1,ETH_MASK_2,ETH_MASK_3,ETH_MASK_4,'$',(sub_ind1+1));\r\n\telse ip2lcd(ETH_MASK_1,ETH_MASK_2,ETH_MASK_3,ETH_MASK_4,'$',0);\r\n\tif(sub_ind==6)\tip2lcd(ETH_GW_1,ETH_GW_2,ETH_GW_3,ETH_GW_4,')',(sub_ind1+1));\r\n\telse ip2lcd(ETH_GW_1,ETH_GW_2,ETH_GW_3,ETH_GW_4,')',0);\r\n\r\n\tint2lcd(ETH_SNMP_PORT_READ,'[',0);\r\n\tint2lcd(ETH_SNMP_PORT_WRITE,']',0);\r\n\r\n\tif( (ETH_TRAP1_IP_1==255) && (ETH_TRAP1_IP_2==255) && (ETH_TRAP1_IP_3==255) && (ETH_TRAP1_IP_4==255) ) sub_bgnd(\" неактивен \",'%',-14);\r\n\telse\r\n\t\t{\r\n\t\tif(sub_ind==11)\tip2lcd(ETH_TRAP1_IP_1,ETH_TRAP1_IP_2,ETH_TRAP1_IP_3,ETH_TRAP1_IP_4,'%',(sub_ind1+1));\r\n\t\telse ip2lcd(ETH_TRAP1_IP_1,ETH_TRAP1_IP_2,ETH_TRAP1_IP_3,ETH_TRAP1_IP_4,'%',0);\r\n\t\t}\r\n\r\n\tif( (ETH_TRAP2_IP_1==255) && (ETH_TRAP2_IP_2==255) && (ETH_TRAP2_IP_3==255) && (ETH_TRAP2_IP_4==255) ) sub_bgnd(\" неактивен \",'^',-14);\r\n\telse\r\n\t\t{\r\n\t\tif(sub_ind==13)\tip2lcd(ETH_TRAP2_IP_1,ETH_TRAP2_IP_2,ETH_TRAP2_IP_3,ETH_TRAP2_IP_4,'^',(sub_ind1+1));\r\n\t\telse ip2lcd(ETH_TRAP2_IP_1,ETH_TRAP2_IP_2,ETH_TRAP2_IP_3,ETH_TRAP2_IP_4,'^',0);\r\n\t\t}\r\n\r\n\tif( (ETH_TRAP3_IP_1==255) && (ETH_TRAP3_IP_2==255) && (ETH_TRAP3_IP_3==255) && (ETH_TRAP3_IP_4==255) ) sub_bgnd(\" неактивен \",'&',-14);\r\n\telse\r\n\t\t{\r\n\t\tif(sub_ind==15)\tip2lcd(ETH_TRAP3_IP_1,ETH_TRAP3_IP_2,ETH_TRAP3_IP_3,ETH_TRAP3_IP_4,'&',(sub_ind1+1));\r\n\t\telse ip2lcd(ETH_TRAP3_IP_1,ETH_TRAP3_IP_2,ETH_TRAP3_IP_3,ETH_TRAP3_IP_4,'&',0);\r\n\t\t}\r\n\r\n\tif( (ETH_TRAP4_IP_1==255) && (ETH_TRAP4_IP_2==255) && (ETH_TRAP4_IP_3==255) && (ETH_TRAP4_IP_4==255) ) sub_bgnd(\" неактивен \",'',-14);\r\n\telse\r\n\t\t{\r\n\t\tif(sub_ind==17)\tip2lcd(ETH_TRAP4_IP_1,ETH_TRAP4_IP_2,ETH_TRAP4_IP_3,ETH_TRAP4_IP_4,'',(sub_ind1+1));\r\n\t\telse ip2lcd(ETH_TRAP4_IP_1,ETH_TRAP4_IP_2,ETH_TRAP4_IP_3,ETH_TRAP4_IP_4,'',0);\r\n\t\t}\r\n\r\n\tif( (ETH_TRAP5_IP_1==255) && (ETH_TRAP5_IP_2==255) && (ETH_TRAP5_IP_3==255) && (ETH_TRAP5_IP_4==255) ) sub_bgnd(\" неактивен \",'(',-14);\r\n\telse\r\n\t\t{\r\n\t\tif(sub_ind==19)\tip2lcd(ETH_TRAP5_IP_1,ETH_TRAP5_IP_2,ETH_TRAP5_IP_3,ETH_TRAP5_IP_4,'(',(sub_ind1+1));\r\n\t\telse ip2lcd(ETH_TRAP5_IP_1,ETH_TRAP5_IP_2,ETH_TRAP5_IP_3,ETH_TRAP5_IP_4,'(',0);\r\n\t\t}\r\n\r\n/\tif((sub_ind==2)&&(sub_ind1==0)&&(bFL2))\r\n\t\t{\r\n\t\tsub_bgnd(\" \",'#',-2);\r\n\t\t}\r\n\telse int2lcd(ETH_IP_1,'#',0);\r\n\r\n\tif((sub_ind==2)&&(sub_ind1==1)&&(bFL2))\r\n\t\t{\r\n\t\tsub_bgnd(\" \",'$',-2);\r\n\t\t}\r\n\telse int2lcd(ETH_IP_2,'$',0);\r\n\r\n\tif((sub_ind==2)&&(sub_ind1==2)&&(bFL2))\r\n\t\t{\r\n\t\tsub_bgnd(\" \",'%',-2);\r\n\t\t}\r\n\telse int2lcd(ETH_IP_3,'%',0);\r\n\r\n\tif((sub_ind==2)&&(sub_ind1==3)&&(bFL2))\r\n\t\t{\r\n\t\tsub_bgnd(\" \",'^',-2);\r\n\t\t}\r\n\telse int2lcd(ETH_IP_4,'^',0);/\r\n\r\n\r\n\t//int2lcdyx(sub_ind,0,1,0);\t\r\n\t//int2lcdyx(index_set,0,3,0);\r\n\t//int2lcdyx(sub_ind1,0,5,0);\r\n\t//for(i=0;(i<9)&&(snmp_community[i]))\r\n\r\n\tfor(i=0;i<9;i++)\r\n\t\t{\r\n\t\tsss[i]=snmp_community[i];\r\n\t\t}\r\n\tsss[9]=0;\t\t\r\n\r\n\tif(sub_ind==10)community2lcd(sss,'<',sub_ind1,1);\r\n\telse community2lcd(sss,'<',sub_ind1,0);\r\n\t\r\n\t//int2lcdyx(snmp_community[0],0,4,0);\r\n\t//int2lcdyx(snmp_community[11],0,9,0);\r\n\t//int2lcdyx(snmp_community[2],0,14,0);\r\n\t//int2lcdyx(snmp_community[sub_ind1],0,19,0);\t\r\n\t}\r\n#ifndef UKU_6U_WEB\r\nelse if (ind==iSpch_set)\r\n\t{\r\n\t//char sss[10]=\"abcdef\";\r\n\t//char i/,i_flag/;\r\n\t \r\n\tptrs[0]=\t\" Iуск.зар. !А\";\r\n\tptrs[1]=\t\" Uуск.зар. @В\";\r\n\tptrs[2]=\t\" Tуск.зар. #ч\";\r\n\tptrs[3]=\t\" Автоматический \";\r\n\tptrs[4]=\t\" ускор.заряд. $\";\r\n\tptrs[5]=\t\" dUуск.зар. %В\";\r\n\tptrs[6]=\t\" Блокирование ^\";\r\n\tptrs[7]=\t\" Сигнал блокирования\";\r\n\tptrs[8]=\t\" &\";\r\n\tptrs[9]=\t\" Блокирование \";\r\n\tptrs[10]=\t\" вентиляцией (\";\r\n\tptrs[11]=\t\" Выход \";\r\n\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n bgnd_par(\t\" УСКОРЕННЫЙ ЗАРЯД \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(speedChrgCurr,'!',1);\r\n\tint2lcd(speedChrgVolt,'@',1);\r\n\tint2lcd(speedChrgTimeInHour,'#',0);\r\n\tif(speedChrgAvtEn==1)sub_bgnd(\"ВКЛ.\",'$',-3); \r\n else sub_bgnd(\"ВЫКЛ.\",'$',-4); \r\n\tint2lcd(speedChrgDU,'%',0);\r\n\tif(speedChrgBlckSrc==1)sub_bgnd(\"СК1\",'^',-2);\r\n\telse if(speedChrgBlckSrc==2)sub_bgnd(\"СК2\",'^',-2); \r\n else if(speedChrgBlckSrc==0)sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\telse sub_bgnd(\"НЕКОРР..\",'^',-6); \r\n\tif(speedChrgBlckLog==0)sub_bgnd(\"РАЗОМКН.\",'&',-7);\r\n\telse if(speedChrgBlckLog==1) sub_bgnd(\"ЗАМКН.\",'&',-5); \r\n else sub_bgnd(\"НЕКОРР.\",'&',-6); \t \r\n\tif(SP_CH_VENT_BLOK==1)sub_bgnd(\"ВКЛ\",'(',-2);\r\n else if(SP_CH_VENT_BLOK==0)sub_bgnd(\"ВЫКЛ.\",'(',-4);\r\n\telse sub_bgnd(\"НЕКОРР..\",'(',-6);\r\n\t\r\n\t}\r\n\r\nelse if (ind==iBlok_ips_set)\r\n\t{\r\n\tchar sss[10]=\"abcdef\";\r\n///\tchar i/,i_flag/;\r\n\t \r\n\tptrs[0]=\t\" Блокирование ^\";\r\n\tptrs[1]=\t\" Сигнал блокирования\";\r\n\tptrs[2]=\t\" &\";\r\n\tptrs[3]=\t\" Выход \";\r\n\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n bgnd_par(\t\" БЛОКИРОВКА ИПС \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tif(ipsBlckSrc==1)sub_bgnd(\"СК1\",'^',-2);\r\n\telse if(ipsBlckSrc==2)sub_bgnd(\"СК2\",'^',-2); \r\n else if(ipsBlckSrc==0)sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\telse sub_bgnd(\"НЕКОРР..\",'^',-6); \r\n\tif(ipsBlckLog==0)sub_bgnd(\"РАЗОМКН.\",'&',-7);\r\n\telse if(ipsBlckLog==1) sub_bgnd(\"ЗАМКН.\",'&',-5); \r\n else sub_bgnd(\"НЕКОРР.\",'&',-6); \t \r\n\r\n\t\r\n\t}\r\n\r\n\r\nelse if (ind==iApv)\r\n\t{ \r\n\tptrs[0]=\t\t\t\" АПВ 1й уровень ! \";\r\n\tif(APV_ON1!=apvON)\r\n\t {\r\n\t ptrs[1]=\t\t\" Выход \";\r\n\t ptrs[2]=sm_;\r\n\t ptrs[3]=sm_;\r\n\t ptrs[4]=sm_;\r\n\t simax=1;\r\n\t }\r\n\telse\r\n\t {\r\n\t if(APV_ON2!=apvON)\r\n\t {\r\n\t ptrs[1]=\" АПВ 2й уровень @ \";\r\n\t ptrs[2]=\" Выход \";\r\n\t ptrs[3]=sm_;\r\n\t ptrs[4]=sm_;\r\n\t simax=2;\r\n\t }\r\n\t else \r\n\t {\r\n ptrs[1]=\" АПВ 2й уровень @ \";\r\n\t ptrs[2]=\" Период АПВ2 #ч.\";\r\n\t ptrs[3]=\" Выход \";\r\n\t ptrs[4]=sm_;\r\n\t simax=3;\t \r\n\t } \r\n\t } \r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\t\r\n bgnd_par(\" АПВ ИСТОЧНИКОВ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\tif(APV_ON1==apvON)sub_bgnd(\"ВКЛ.\",'!',0);\r\n\telse sub_bgnd(\"ВЫКЛ.\",'!',-1);\r\n\t\r\n\tif(APV_ON2==apvON)\r\n\t {\r\n\t sub_bgnd(\"ВКЛ.\",'@',0);\r\n\t int2lcd(APV_ON2_TIME,'#',0);\r\n\t }\r\n\telse sub_bgnd(\"ВЫКЛ.\",'@',-1);\t\r\n \r\n \t} \r\n/\r\n ptrs[0+NUMDT]= \t\" СК1 $ \"; \r\n ptrs[1+NUMDT]= \t\" СК2 % \";\r\n\tptrs[2+NUMDT]= \t\" СК3 ^ \";\r\n\tptrs[3+NUMDT]= \t\" СК4 & \";\r\n\tptrs[0+NUMEXT]= \t\" Выход \";\r\n\tptrs[1+NUMEXT]= \t\" \";\r\n\tptrs[2+NUMEXT]= \t\" \";\r\n\r\n\tbgnd_par(\t\t\" ВНЕШНИЕ ДАТЧИКИ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n/\r\n\r\nelse if (ind==iExt_set)\r\n\t{ \r\n//\tptrs[0]=\t\t\t\" Датчик темпер. N1 \";\r\n//\tptrs[1]=\t\t\t\" Датчик темпер. N2 \";\r\n//\tptrs[2]=\t\t\t\" Датчик темпер. N3 \";\r\n\tptrs[0]=\t\t\" Датчик двери \";\r\n\tptrs[1]=\t\t\" Датчик дыма \";\r\n\tptrs[2]=\t\t\" Датчик удара \";\r\n//\tptrs[3]=\t\t\" Датчик переворачив.\";\r\n\tptrs[3]= \t\" Выход \";\r\n\tptrs[4]= \t\" \";\r\n\tptrs[5]= \t\" \";\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n bgnd_par(\" УСТАНОВКИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t}\r\n\r\nelse if (ind==iExt_set_3U)\r\n\t{ \r\n\tptrs[0]=\t\t\" Сухой контакт №1 \";\r\n\tptrs[1]=\t\t\" Сухой контакт №2 \";\r\n\tptrs[2]=\t\t\" Сухой контакт №3 \";\r\n\tptrs[3]=\t\t\" Сухой контакт №4 \";\r\n\tptrs[NUMSK]= \t\" Выход \";\r\n\tptrs[NUMSK+1]= \" \";\r\n\tptrs[NUMSK+2]=\t\" \";\r\n\tptrs[NUMSK+3]=\t\" \";\r\n\t\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n bgnd_par(\" УСТАНОВКИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t}\r\n\r\nelse if (ind==iExt_set_GLONASS)\r\n\t{ \r\n\tptrs[0]=\t\t\" Сухой контакт №1 \";\r\n\tptrs[1]=\t\t\" Сухой контакт №2 \";\r\n\tptrs[2]=\t\t\" Сухой контакт №3 \";\r\n\tptrs[3]=\t\t\" Сухой контакт №4 \";\r\n\tptrs[NUMSK]= \t\" Выход \";\r\n\tptrs[NUMSK+1]= \" \";\r\n\tptrs[NUMSK+2]=\t\" \";\r\n\tptrs[NUMSK+3]=\t\" \";\r\n\t\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n bgnd_par(\" УСТАНОВКИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t}\r\nelse if (ind==iExt_set_TELECORE2015)\r\n\t{ \r\n\tptrs[0]=\t\" Датчик двери \";\r\n\tptrs[1]= \t\" Выход \";\r\n\tptrs[2]= \t\" \";\r\n\tptrs[3]= \t\" \";\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n bgnd_par(\" УСТАНОВКИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t}\r\n\t\r\nelse if (ind==iExt_dt)\r\n\t{ \r\n\tptrs[0]=\" температура @°C\";\r\n\tptrs[1]=\" tmax #°C\";\r\n\tptrs[2]=\" tmin $°C\";\r\n\tptrs[3]=\" Реле [ \";\r\n\tptrs[4]=\" Звук ] \";\r\n\tptrs[5]=\" Дисплей ( \";\r\n\tptrs[6]=\" RS232 ) \";\r\n\tptrs[7]=sm_exit;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>1) index_set=sub_ind-1;\r\n bgnd_par(\" ВНЕШНИЙ ДАТЧИК \",\" ТЕМПЕРАТУРЫ N! \",ptrs[index_set],ptrs[index_set+1]);\r\n\t\r\n\tpointer_set(2);\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tint2lcd_mmm(t_ext[sub_ind1],'@',0);\r\n\tif(!TMAX_EXT_EN[sub_ind1])int2lcd_mmm(TMAX_EXT[sub_ind1],'#',0);\r\n\telse sub_bgnd(\"выкл.\",'#',-2);\r\n\tif(!TMIN_EXT_EN[sub_ind1])int2lcd_mmm(TMIN_EXT[sub_ind1],'$',0);\r\n\telse sub_bgnd(\"выкл.\",'$',-2);\r\n\tif(!T_EXT_REL_EN[sub_ind1])sub_bgnd(\"вкл.\",'[',-2);\r\n\telse sub_bgnd(\"выкл.\",'[',-2);\r\n\tif(!T_EXT_ZVUK_EN[sub_ind1])sub_bgnd(\"вкл.\",']',-2);\r\n\telse sub_bgnd(\"выкл.\",']',-2);\r\n\tif(!T_EXT_LCD_EN[sub_ind1])sub_bgnd(\"вкл.\",'(',-2);\r\n\telse sub_bgnd(\"выкл.\",'(',-2);\r\n\tif(!T_EXT_RS_EN[sub_ind1])sub_bgnd(\"вкл.\",')',-2);\r\n\telse sub_bgnd(\"выкл.\",')',-2);\t\r\n\t\r\n\t//int2lcdyx(sub_ind,0,1,0);\t\r\n\t//int2lcdyx(index_set,0,3,0);\r\n\t}\t\r\nelse if (ind==iExt_sk)\r\n\t{ \r\n\tptrs[0]=\" состояние - @ \";\r\n\tptrs[1]=\" аварийное \";\r\n\tptrs[2]=\" состояние - # \";\r\n\tptrs[3]=\" Реле [ \";\r\n\tptrs[4]=\" Звук ] \";\r\n\tptrs[5]=\" Дисплей ( \";\r\n\tptrs[6]=\" RS232 ) \";\r\n\tptrs[7]=sm_exit;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n bgnd_par(\" СУХОЙ КОНТАКТ N! \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tif(sk_stat[sub_ind1]==ssON)sub_bgnd(\"замкнут\",'@',0);\r\n\telse sub_bgnd(\"разомк.\",'@',0);\r\n\tif(!SK_SIGN[sub_ind1])sub_bgnd(\"замкнут\",'#',0);\r\n\telse sub_bgnd(\"незамк.\",'#',0);\r\n\tif(!TMIN_EXT_EN[sub_ind1])int2lcd_mmm(TMIN_EXT[sub_ind1],'$',0);\r\n\telse sub_bgnd(\"выкл.\",'$',-6);\r\n\tif(!SK_REL_EN[sub_ind1])sub_bgnd(\"вкл.\",'[',-2);\r\n\telse sub_bgnd(\"выкл.\",'[',-2);\r\n\tif(!SK_ZVUK_EN[sub_ind1])sub_bgnd(\"вкл.\",']',-2);\r\n\telse sub_bgnd(\"выкл.\",']',-2);\r\n\tif(!SK_LCD_EN[sub_ind1])sub_bgnd(\"вкл.\",'(',-2);\r\n\telse sub_bgnd(\"выкл.\",'(',-2);\r\n\tif(!SK_RS_EN[sub_ind1])sub_bgnd(\"вкл.\",')',-2);\r\n\telse sub_bgnd(\"выкл.\",')',-2);\t\r\n\t\r\n\t//int2lcdyx(sub_ind,0,1,0);\t\r\n\t//int2lcdyx(index_set,0,3,0);\r\n\t}\t\t\r\n\r\nelse if (ind==iExt_sk_3U)\r\n\t{ \r\n\tptrs[0]=\" состояние - @ \";\r\n\tptrs[1]=\" аварийное \";\r\n\tptrs[2]=\" состояние - # \";\r\n\tptrs[3]=\" Звук ] \";\r\n\tptrs[4]=\" Дисплей ( \";\r\n\tptrs[5]=sm_exit;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n bgnd_par(\" СУХОЙ КОНТАКТ N! \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tif(sk_stat[sub_ind1]==ssON)sub_bgnd(\"замкнут\",'@',0);\r\n\telse sub_bgnd(\"разомк.\",'@',0);\r\n\tif(!SK_SIGN[sub_ind1])sub_bgnd(\"замкнут\",'#',0);\r\n\telse sub_bgnd(\"незамк.\",'#',0);\r\n\tif(!SK_ZVUK_EN[sub_ind1])sub_bgnd(\"вкл.\",']',-2);\r\n\telse sub_bgnd(\"выкл.\",']',-2);\r\n\tif(!SK_LCD_EN[sub_ind1])sub_bgnd(\"вкл.\",'(',-2);\r\n\telse sub_bgnd(\"выкл.\",'(',-2);\r\n\t}\t\t\r\n\r\nelse if (ind==iExt_sk_GLONASS)\r\n\t{ \r\n\tptrs[0]=\" состояние - @ \";\r\n\tptrs[1]=\" аварийное \";\r\n\tptrs[2]=\" состояние - # \";\r\n\tptrs[3]=\" Звук ] \";\r\n\tptrs[4]=\" Дисплей ( \";\r\n\tptrs[5]=sm_exit;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n bgnd_par(\" СУХОЙ КОНТАКТ N! \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tif(sk_stat[sub_ind1]==ssON)sub_bgnd(\"замкнут\",'@',0);\r\n\telse sub_bgnd(\"разомк.\",'@',0);\r\n\tif(!SK_SIGN[sub_ind1])sub_bgnd(\"замкнут\",'#',0);\r\n\telse sub_bgnd(\"незамк.\",'#',0);\r\n\tif(!SK_ZVUK_EN[sub_ind1])sub_bgnd(\"вкл.\",']',-2);\r\n\telse sub_bgnd(\"выкл.\",']',-2);\r\n\tif(!SK_LCD_EN[sub_ind1])sub_bgnd(\"вкл.\",'(',-2);\r\n\telse sub_bgnd(\"выкл.\",'(',-2);\r\n\t}\t\t\r\n\r\nelse if (ind==iExt_ddv)\r\n\t{ \r\n\tptrs[0]=\" состояние - @ \";\r\n\tptrs[1]=\" открытое состояние \";\r\n\tptrs[2]=\" двери - # \";\r\n\tptrs[3]=\" Реле [ \";\r\n\tptrs[4]=\" Дисплей ( \";\r\n\tptrs[5]=sm_exit;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n bgnd_par(\" ДАТЧИК ДВЕРИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t\r\n\tif(sk_stat[0]==ssON)sub_bgnd(\"замкнут\",'@',0);\r\n\telse sub_bgnd(\"разомк.\",'@',0);\r\n\tif(!SK_SIGN[0])sub_bgnd(\"замкнут\",'#',0);\r\n\telse sub_bgnd(\"незамк.\",'#',0);\r\n\tif(SK_REL_EN[0])sub_bgnd(\"вкл.\",'[',-2);\r\n\telse sub_bgnd(\"выкл.\",'[',-2);\r\n if(SK_LCD_EN[0])sub_bgnd(\"вкл.\",'(',-2);\r\n\telse sub_bgnd(\"выкл.\",'(',-2);\r\n\t\r\n\t}\t\r\n\r\nelse if (ind==iExt_ddi)\r\n\t{ \r\n\tptrs[0]=\" состояние - @ \";\r\n\tptrs[1]=\" аварийное \";\r\n\tptrs[2]=\" состояние - # \";\r\n\tptrs[3]=\" Реле [ \";\r\n\tptrs[4]=\" Дисплей ( \";\r\n\tptrs[5]=sm_exit;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n bgnd_par(\" ДАТЧИК ДЫМА \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t\r\n\tif(sk_stat[1]==ssON)sub_bgnd(\"замкнут\",'@',0);\r\n\telse sub_bgnd(\"разомк.\",'@',0);\r\n\tif(!SK_SIGN[1])sub_bgnd(\"замкнут\",'#',0);\r\n\telse sub_bgnd(\"незамк.\",'#',0);\r\n\tif(SK_REL_EN[1])sub_bgnd(\"вкл.\",'[',-2);\r\n\telse sub_bgnd(\"выкл.\",'[',-2);\r\n\tif(SK_LCD_EN[1])sub_bgnd(\"вкл.\",'(',-2);\r\n\telse sub_bgnd(\"выкл.\",'(',-2);\r\n\t}\t\r\n\r\nelse if (ind==iExt_dud)\r\n\t{ \r\n\tptrs[0]=\" состояние - @ \";\r\n\tptrs[1]=\" аварийное \";\r\n\tptrs[2]=\" состояние - # \";\r\n\tptrs[3]=\" Реле [ \";\r\n\tptrs[4]=\" Дисплей ( \";\r\n\tptrs[5]=sm_exit;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n bgnd_par(\" ДАТЧИК УДАРА \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t\r\n\tif(sk_stat[2]==ssON)sub_bgnd(\"замкнут\",'@',0);\r\n\telse sub_bgnd(\"разомк.\",'@',0);\r\n\tif(!SK_SIGN[2])sub_bgnd(\"замкнут\",'#',0);\r\n\telse sub_bgnd(\"незамк.\",'#',0);\r\n\tif(SK_REL_EN[2])sub_bgnd(\"вкл.\",'[',-2);\r\n\telse sub_bgnd(\"выкл.\",'[',-2);\r\n\tif(SK_LCD_EN[2])sub_bgnd(\"вкл.\",'(',-2);\r\n\telse sub_bgnd(\"выкл.\",'(',-2);\r\n\t}\r\n\r\n\r\nelse if (ind==iExt_dp)\r\n\t{ \r\n\tptrs[0]=\" состояние - @ \";\r\n\tptrs[1]=\" аварийное \";\r\n\tptrs[2]=\" состояние - # \";\r\n\tptrs[3]=\" Реле [ \";\r\n ptrs[4]=\" Дисплей ( \";\r\n\tptrs[5]=sm_exit;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n bgnd_par(\"ДАТЧИК ПЕРЕВОРАЧИВ. \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tif(sk_stat[3]==ssON)sub_bgnd(\"замкнут\",'@',0);\r\n\telse sub_bgnd(\"разомк.\",'@',0);\r\n\tif(!SK_SIGN[3])sub_bgnd(\"замкнут\",'#',0);\r\n\telse sub_bgnd(\"незамк.\",'#',0);\r\n\tif(!SK_REL_EN[3])sub_bgnd(\"вкл.\",'[',-2);\r\n\telse sub_bgnd(\"выкл.\",'[',-2);\r\n\tif(!SK_LCD_EN[3])sub_bgnd(\"вкл.\",'(',-2);\r\n\telse sub_bgnd(\"выкл.\",'(',-2);\r\n\r\n\r\n / int2lcdyx(sk_stat[0],0,2,0);\r\n int2lcdyx(sk_stat[1],0,5,0);\r\n int2lcdyx(sk_stat[2],0,8,0);\r\n int2lcdyx(sk_stat[3],0,11,0);/\r\n\t}\r\n\r\nelse if(ind==iK)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\t\r\n\tptrs[i++]=\" Сеть \";\r\n\tif(NUMBAT)\r\n ptrs[i++]=\" Батареи \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\" БПС \";\r\n\tif(NUMINV)\r\n ptrs[i++]=\" Инверторы \";\r\n\tptrs[i++]=\" Нагрузка \";\r\n ptrs[i++]=\" Внешние датчики \";\r\n ptrs[i++]=\" Силовые вводы \";\r\n ptrs[i++]=\" Выход \";\r\n ptrs[i++]=\" \";\r\n ptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t \r\n\t} \t\r\n\r\nelse if(ind==iK_RSTKM)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\t\r\n\tptrs[i++]=\" Сеть \";\r\n\tif(NUMBAT)\r\n ptrs[i++]=\" Батареи \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\" БПС \";\r\n\tif(NUMINV)\r\n ptrs[i++]=\" Инверторы \";\r\n\tptrs[i++]=\" Нагрузка \";\r\n ptrs[i++]=\" Внешние датчики \";\r\n ptrs[i++]=\" Силовые вводы \";\r\n ptrs[i++]=\" Выход \";\r\n ptrs[i++]=\" \";\r\n ptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t \r\n\t} \r\n\r\nelse if(ind==iK_3U)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\tptrs[i++]=\" Сеть \";\r\n\tif(NUMBAT)\r\n ptrs[i++]=\" Батареи \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\" БПС \";\r\n\tif(NUMINV)\r\n ptrs[i++]=\" Инверторы \";\r\n\tptrs[i++]=\" Нагрузка \";\r\n ptrs[i++]=\" Внешн.датч.темпер. \";\r\n ptrs[i++]=\" Выход \";\r\n ptrs[i++]=\" \";\r\n ptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t \r\n\t} \t\r\n\r\nelse if(ind==iK_GLONASS)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\tptrs[i++]=\" Сеть \";\r\n\tif(NUMBAT)\r\n ptrs[i++]=\" Батареи \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\" БПС \";\r\n\tif(NUMINV)\r\n ptrs[i++]=\" Инверторы \";\r\n\tptrs[i++]=\" Нагрузка \";\r\n ptrs[i++]=\" Внешн.датч.темпер. \";\r\n ptrs[i++]=\" Выход \";\r\n ptrs[i++]=\" \";\r\n ptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t \r\n\t} \r\n\r\nelse if(ind==iK_KONTUR)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\t\r\n\tptrs[i++]=\" Сеть \";\r\n\tif(NUMBAT)\r\n ptrs[i++]=\" Батареи \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\" БПС \";\r\n\tif(NUMINV)\r\n ptrs[i++]=\" Инверторы \";\r\n\tptrs[i++]=\" Нагрузка \";\r\n ptrs[i++]=\" Внешние датчики \";\r\n ptrs[i++]=\" Силовые вводы \";\r\n ptrs[i++]=\" Выход \";\r\n ptrs[i++]=\" \";\r\n ptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t \r\n\t} \t\r\n\r\nelse if(ind==iK_6U)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\t\r\n\tptrs[i++]=\" Сеть \";\r\n\tif(NUMBAT)\r\n\tptrs[i++]=\" Батареи \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\" БПС \";\r\n\tptrs[i++]=\" Нагрузка \";\r\n\tif(NUMDT)\r\n\tptrs[i++]=\" Внешние датчики \";\r\n\tif(NUMMAKB)\r\n\tptrs[i++]=\" Мониторы АКБ \";\r\n\tptrs[i++]=\" Выход \";\r\n\tptrs[i++]=\" Кварц RS485 !МГЦ \";\r\n\tptrs[i++]=\" \";\r\n\tptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t \r\n\tint2lcd(RS485_QWARZ_DIGIT,'!',0);\r\n\t} \t\r\n\r\n\t else if(ind==iK_220)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\t\r\n\tptrs[i++]=\" Сеть \";\r\n\tif(NUMBAT)\r\n\tptrs[i++]=\" Батареи \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\" БПС \";\r\n\tif(NUMINV)\r\n\tptrs[i++]=\" Инверторы \";\r\n\tptrs[i++]=\" Нагрузка \";\r\n\tif(NUMDT)\r\n\tptrs[i++]=\" Внешние датчики \";\r\n\tptrs[i++]=\" Выход \";\r\n\tptrs[i++]=\" Кварц RS485 !МГЦ \";\r\n\tptrs[i++]=\" \";\r\n\tptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(RS485_QWARZ_DIGIT,'!',0); \r\n\t} \t\r\n\r\nelse if(ind==iK_220_IPS_TERMOKOMPENSAT)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\t\r\n\tptrs[i++]=\" Сеть \";\r\n\tif(NUMBAT)\r\n\tptrs[i++]=\" Батарея \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\" БПС \";\r\n\tptrs[i++]=\" Выходные параметры \";\r\n\tif(NUMDT)\r\n\tptrs[i++]=\" Внешние датчики \";\r\n\tptrs[i++]=\" Выход \";\r\n\tptrs[i++]=\" Кварц RS485 !МГЦ \";\r\n\tptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t \r\n\t} \r\n\r\n\r\nelse if(ind==iK_220_IPS_TERMOKOMPENSAT_IB)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\t\r\n\tptrs[i++]=\" Сеть \";\r\n ptrs[i++]=\" Батарея \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\" БПС \";\r\n\tptrs[i++]=\" Выходные параметры \";\r\n if(NUMDT)\r\n ptrs[i++]=\" Внешние датчики \";\r\n\tif(num_rki)\t\t\t\t\t\t //oleg_start\r\n\tptrs[i++]=\" РКИ \";\r\n\tif(num_net_in)\r\n\tptrs[i++]=\" Сетевые вводы \"; //oleg_end\r\n ptrs[i++]=\" Выход \";\r\n ptrs[i++]=\" Кварц RS485 !МГЦ \";\r\n ptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\r\n\tint2lcd(RS485_QWARZ_DIGIT,'!',0);\t \r\n\t} \r\n\r\n\r\nelse if(ind==iK_220_380)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\t\r\n\tptrs[i++]=\" Сеть \";\r\n\tif(NUMBAT)\r\n ptrs[i++]=\" Батареи \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\" БПС \";\r\n\tif(NUMINV)\r\n ptrs[i++]=\" Инверторы \";\r\n\tptrs[i++]=\" Нагрузка \";\r\n if(NUMDT)\r\n ptrs[i++]=\" Внешние датчики \";\r\n\tptrs[i++]=\" Логика реле !\";\r\n ptrs[i++]=\" Выход \";\r\n ptrs[i++]=\" \";\r\n ptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\r\n\t\r\n\tif(RELE_VENT_LOGIC==0)sub_bgnd(\"Обычн.\",'!',-5);\r\n\telse if(RELE_VENT_LOGIC==1)sub_bgnd(\"Вент.\",'!',-4);\r\n\telse sub_bgnd(\"Ав.Б2\",'!',-4);\t \r\n\t} \t\r\n\r\nelse if(ind==iK_TELECORE)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\t\r\n\tptrs[i++]=\t\" Сеть \";\r\n\tif(NUMBAT_TELECORE)\r\n ptrs[i++]=\t\" Батареи \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\t\" БПС \";\r\n\tptrs[i++]=\t\" Нагрузка \";\r\n if(NUMDT)\r\n ptrs[i++]=\t\" Внешние датчики \";\r\n ptrs[i++]=\" Выход \";\r\n ptrs[i++]=\" \";\r\n ptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t \r\n\t} \t\r\n\r\nelse if(ind==iK_net)\r\n\t{\r\n\tptrs[0]=\" U = @В \";\r\n ptrs[1]=\" Выход \";\r\n\tptrs[2]=\" \";\r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА СЕТИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(net_U,'@',0);\r\n\t//int2lcdyx(net_buff_,3,10,0);\r\n\t\r\n\t//int2lcdyx(Kunet,3,16,0);\r\n }\r\n\r\n\r\nelse if(ind==iK_net3)\r\n\t{\r\n\r\n\tptrs[0]= \t\t\" UфA !В \";\r\n ptrs[1]= \t\t\" UфB @В \";\r\n ptrs[2]= \t \" UфC #В \";\r\n\tptrs[3]= \t \" Выход \";\r\n\r\n\r\n\tbgnd_par(\t\t\" КАЛИБРОВКА СЕТИ \",\r\n\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n int2lcd(net_Ua,'!',0);\r\n\tint2lcd(net_Ub,'@',0);\r\n\tint2lcd(net_Uc,'#',0);\r\n\r\n\t/int2lcdyx(KunetC,0,19,0);\r\n\tint2lcdyx(adc_buff_[10],0,13,0);\r\n\tint2lcdyx(KunetB,0,8,0);\r\n\tint2lcdyx(adc_buff_[3],0,4,0);/\r\n\r\n }\r\n\r\nelse if(ind==iK_IPS_SGEP_GAZPROM)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\t\r\n\tptrs[i++]=\" Сеть \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\" БПС \";\r\n\tptrs[i++]=\" Нагрузка \";\r\n ptrs[i++]=\" Выход \";\r\n \tptrs[i++]=\" Кварц RS485 !МГЦ \";\r\n ptrs[i++]=\" \";\r\n \tptrs[i++]=\" \";\r\n\tptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(RS485_QWARZ_DIGIT,'!',0); \t\r\n\r\n\t} \r\n\r\nelse if(ind==iK_load)\r\n\t{\r\n\tptrs[0]=\" U = @В \";\r\n ptrs[1]=\" Выход \";\r\n\tptrs[2]=\" \";\r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\" КАЛИБРОВКА НАГРУЗКИ\",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\r\n\tif((load_U)>1000)int2lcd(load_U/10,'@',0);\t\r\n\telse int2lcd(load_U,'@',1);\r\n }\r\n\r\nelse if(ind==iK_out)\r\n\t{\r\n\tptrs[0]=\" Uвыпр. = @В \";\r\n ptrs[1]=\" Uшины = #В \";\r\n\tptrs[2]=\" Выход \";\r\n\tptrs[3]=\" \";\r\n\t\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\"КАЛИБРОВКА ВЫХОДНЫХ \",\r\n\t\t\t\t\" ПАРАМЕТРОВ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1]);\r\n\r\n\tpointer_set(2);\r\n\t\r\n\tif((bps_U)>1000)int2lcd(bps_U/10,'@',0);\t\r\n\telse int2lcd(bps_U,'@',1);\r\n\r\n\tif((out_U)>1000)int2lcd(out_U/10,'#',0);\t\r\n\telse int2lcd(out_U,'#',1);\r\n }\r\n\r\nelse if(ind==iBat_link_set)\r\n\t{\r\n\tptrs[0]=\" RS232 \";\r\n ptrs[1]=\" RS485 \";\r\n\tptrs[2]=\" Выход \";\r\n\tif(bFL5)ptrs[BAT_LINK]=sm_;\t\r\n\t\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\" КАНАЛ СВЯЗИ \",\r\n\t\t\t\t\" С БАТАРЕЕЙ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1]);\r\n\r\n\tpointer_set(2);\r\n\r\n }\r\n\r\n\t\r\nelse if(ind==iK_t_ext)\r\n\t{\r\n\tptrs[0]= \t\" tвнеш.возд. !°С \";\r\n ptrs[1]= \t\" tотсек ЭПУ @°С \";\r\n ptrs[2]= \t\" tотсек MSAN #°С \";\r\n ptrs[3]=\t \" Выход \";\r\n\tptrs[4]=\t \" \";\r\n\tptrs[5]=\t \" \";\r\n\t\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\" КАЛИБРОВКА ВНЕШНИХ \",\r\n\t\t\t\t\" ДАТЧИКОВ ТЕМПЕРАТУР\",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1]);\r\n\r\n\tpointer_set(2);\t\r\n\tif(ND_EXT[0])sub_bgnd(\"неиспр.\",'!',-3);\r\n else int2lcd_mmm(t_ext[0],'!',0);\r\n\r\n\tif(ND_EXT[1])sub_bgnd(\"неиспр.\",'@',-3);\r\n else int2lcd_mmm(t_ext[1],'@',0);\r\n\r\n\tif(ND_EXT[2])sub_bgnd(\"неиспр.\",'#',-3);\r\n else int2lcd_mmm(t_ext[2],'#',0);\r\n }\r\n\r\nelse if(ind==iK_t_ext_6U)\r\n\t{\r\n\tptrs[0]= \t\t\" t1 !°С \";\r\n ptrs[1]= \t\t\" t2 @°С \";\r\n ptrs[2]= \t\t\" t3 #°С \";\r\n ptrs[NUMDT]=\t\" Выход \";\r\n\tptrs[NUMDT+1]= \" \";\r\n\tptrs[NUMDT+2]= \" \";\r\n\t\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\" КАЛИБРОВКА ВНЕШНИХ \",\r\n\t\t\t\t\" ДАТЧИКОВ ТЕМПЕРАТУР\",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1]);\r\n\r\n\tpointer_set(2);\t\r\n\tif(ND_EXT[0])sub_bgnd(\"неиспр.\",'!',-3);\r\n\telse int2lcd_mmm(t_ext[0],'!',0);\r\n\r\n\tif(ND_EXT[1])sub_bgnd(\"неиспр.\",'@',-3);\r\n\telse int2lcd_mmm(t_ext[1],'@',0);\r\n\r\n\tif(ND_EXT[2])sub_bgnd(\"неиспр.\",'#',-3);\r\n\telse int2lcd_mmm(t_ext[2],'#',0);\r\n\r\n\t}\r\n \r\nelse if(ind==iK_bat_sel)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Батарея N1 \";\r\n\tptrs[1]=\t\t\t\t\t\t\" Батарея N2 \";\r\n\tif(BAT_IS_ON[0]!=bisON)ptrs[0]=\t\" Батарея N2 \";\r\n\tptrs[0+NUMBAT]=\t\t\t\t\" Выход \";\r\n\tptrs[1+NUMBAT]=\t\t\t\t\" \";\r\n\tptrs[2+NUMBAT]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА БАТАРЕЙ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t} \r\n\r\n/else if(ind==iK_bat_sel_ZVU)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Батарея N1 \";\r\n\tptrs[1]=\t\t\t\t\t\t\" Батарея N2 \";\r\n\tif(BAT_IS_ON[0]!=bisON)ptrs[0]=\t\" Батарея N2 \";\r\n\tptrs[0+NUMBAT]=\t\t\t\t\" Выход \";\r\n\tptrs[1+NUMBAT]=\t\t\t\t\" \";\r\n\tptrs[2+NUMBAT]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА БАТАРЕЙ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t}/ \r\n\r\nelse if(ind==iK_bat_sel_TELECORE)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Батарея N1 \";\r\n ptrs[1]=\t\t\t\t\t\t\" Батарея N2 \";\r\n ptrs[0+NUMBAT_TELECORE]=\t\t\" Выход \";\r\n\tptrs[1+NUMBAT_TELECORE]=\t\t\" \";\r\n\tptrs[2+NUMBAT_TELECORE]=\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА БАТАРЕЙ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t\r\n } \r\n\r\nelse if(ind==iK_bat)\r\n\t{\r\n\tptrs[0]=\t\t\" Uбат = @В \";\r\n\tptrs[1]=\t\t\" откалибруйте Uбат \";\r\n\tptrs[2]=\t\t\" нажатием љ или њ \";\r\n ptrs[3]=\t\t\" Iбат = #А \";\r\n if(phase==0)\r\n {\r\n ptrs[4]=\t\" нажмите ¤ для \";\r\n ptrs[5]=\t\"калибровки нуля Iбат\";\r\n }\r\n else \r\n {\r\n ptrs[4]=\t\" откалибруйте Iбат \";\r\n ptrs[5]=\t\" нажатием љ или њ \";\r\n }\r\n if(bat[sub_ind1]._nd)\r\n \t{\r\n \tptrs[6]=\t\t\" Датчик температуры \";\r\n \tptrs[7]=\t\t\" неисправен \";\r\n \tptrs[8]=\t\t\" или неподключен. \";\r\n \t}\r\n else\r\n \t{\t \r\n \tptrs[6]=\t\t\" tбат = $°C \";\r\n \tptrs[7]=\t\t\" откалибруйте tбат \";\r\n \tptrs[8]=\t\t\" нажатием љ или њ \";\r\n \t}\r\n\r\n\tptrs[9]=\t\t\" Uбат.с.т. = ^В \";\r\n\tptrs[10]=\t\t\"калибруйте Uбат.с.т.\";\r\n\tptrs[11]=\t\t\" нажатием љ или њ \";\r\n\r\n ptrs[12]=\t\t\" Выход \";\r\n ptrs[13]=\t\t\" \";\r\n ptrs[14]=\t\t\" \";\r\n\r\n\tbgnd_par(\t\t\" КАЛИБРОВКА БАТ. N! \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n \r\n if(sub_ind==0)\r\n \t{\r\n \tmess_send(MESS2BPS_HNDL,PARAM_BPS_ALL_OFF_AFTER_2SEC,0xffff,10);\r\n \tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<(1-sub_ind1)),10);\r\n \t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<sub_ind1),10);\r\n \t}\r\n \r\n if(sub_ind==3)\r\n \t{\r\n \tif(phase==0)\r\n \t\t{\r\n\t\t\tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,0xffff,10);\r\n \t\tmess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,10);\r\n\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n \t\t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<(1-sub_ind1)),10);\r\n \t\t}\r\n \telse if(phase==1)\r\n \t\t{\r\n\t\t\tmess_send(MESS2BPS_HNDL,PARAM_BPS_ALL_OFF_AFTER_2SEC,0xffff,10);\r\n\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<(1-sub_ind1)),10);\r\n \t\t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<sub_ind1),10);\r\n \t\t\t}\r\n \t\t\r\n \t}\r\n\r\n if(sub_ind==6)\r\n \t{\r\n \t\t//mess_send(_MESS_BAT_MASK_ON,_MESS_BAT_MASK_ON,(0xffff),10);\r\n \t\t//mess_send(MESS_SRC_ON_OFF,_MESS_SRC_MASK_UNBLOK,0xffff,10);\r\n \t\t\r\n \t}\r\n\r\n if(sub_ind==9)\r\n \t{\r\n \tmess_send(MESS2BPS_HNDL,PARAM_BPS_ALL_OFF_AFTER_2SEC,0xffff,10);\r\n \tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<(1-sub_ind1)),10);\r\n \t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<sub_ind1),10);\r\n \t}\r\n\t\r\n\tif((sub_ind==0)\|\|(sub_ind==1)\|\|(sub_ind==2))index_set=0;\r\n\telse if((sub_ind==3)\|\|(sub_ind==4)\|\|(sub_ind==5))index_set=3;\r\n\telse if((sub_ind==6)\|\|(sub_ind==7)\|\|(sub_ind==8))index_set=6;\r\n else if((sub_ind==9)\|\|(sub_ind==10)\|\|(sub_ind==11))index_set=9;\r\n\telse index_set=12;\r\n\t\r\n\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tif((bat[sub_ind1]._Ub)>1000)int2lcd(bat[sub_ind1]._Ub/10,'@',0);\r\n\telse int2lcd(bat[sub_ind1]._Ub,'@',1);\r\n\tint2lcd_mmm(bat[sub_ind1]._Ib,'#',2);\r\n\tint2lcd_mmm(bat[sub_ind1]._Tb,'$',0);\r\n int2lcd(bat[sub_ind1]._Ubm,'^',1);\r\n\t//int2lcd(Ibat,'a',1);\r\n\t\r\n\t / int2lcdyx(ad7705_res1,0,10,0);\r\n int2lcdyx(ad7705_res2,0,16,0); /\r\n\t\t //int2lcdyx(ad7705_buff_[sub_ind1],0,10,0);\r\n //int2lcdyx(Kibat1[sub_ind1],0,16,0); \r\n\t//int2lcdyx(Kubat[0],0,4,0);\r\n\t//int2lcdyx(adc_buff_[4],0,8,0);\r\n\r\n\t//int2lcdyx(rele_stat,2,15,0);\r\n\t\r\n\t\r\n\t/\tint2lcdyx(bat_cnt_to_block[0],3,3,0);\r\n\tint2lcdyx(bat_rel_stat[0],3,7,0); /\r\n\r\n\t//int2lcdyx(Ktbat[sub_ind1],0,16,0);\r\n\t//char2lcdhyx(rele_stat,0,19);\r\n\t} \t\r\n\r\nelse if(ind==iK_bat_TELECORE)\r\n\t{\r\n ptrs[0]=\t\t\" Iбат = #А \";\r\n if(phase==0)\r\n \t{\r\n ptrs[1]=\t\" нажмите ¤ для \";\r\n ptrs[2]=\t\"калибровки нуля Iбат\";\r\n }\r\n else \r\n \t{\r\n ptrs[1]=\t\" откалибруйте Iбат \";\r\n ptrs[2]=\t\" нажатием љ или њ \";\r\n }\r\n\tptrs[3]=\t\t\" Выход \";\r\n ptrs[4]=\t\t\" \";\r\n ptrs[5]=\t\t\" \";\r\n\r\n\tbgnd_par(\t\t\" КАЛИБРОВКА БАТ. N! \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n \r\n \tif(sub_ind==0)\r\n \t{\r\n \tif(phase==0)\r\n \t\t{\r\n\t\t\tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,0xffff,10);\r\n \t\tmess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,10);\r\n\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n \t\t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<(1-sub_ind1)),10);\r\n \t\t}\r\n \telse if(phase==1)\r\n \t\t{\r\n\t\t\tmess_send(MESS2BPS_HNDL,PARAM_BPS_ALL_OFF_AFTER_2SEC,0xffff,10);\r\n\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<(1-sub_ind1)),10);\r\n \t\t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<sub_ind1),10);\r\n \t\t\t}\r\n \t\t\r\n \t}\r\n\r\n\t\r\n\tif((sub_ind==0)\|\|(sub_ind==1)\|\|(sub_ind==2))index_set=0;\r\n\telse index_set=3;\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tint2lcd_mmm(bat[sub_ind1]._Ib,'#',2);\r\n\r\n\t} \t\r\n\r\nelse if(ind==iK_bat_ips_termokompensat_ib)\r\n\t{\r\n ptrs[0]=\t\t\" Iбат = #А \";\r\n ptrs[1]=\t\t\" откалибруйте Iбат \";\r\n ptrs[2]=\t\t\" нажатием љ или њ \";\r\n ptrs[3]=\t\t\" Выход \";\r\n ptrs[4]=\t\t\" \";\r\n ptrs[5]=\t\t\" \";\r\n\r\n\tbgnd_par(\t\t\" КАЛИБРОВКА БАТ. N1 \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n \r\n\r\n\tif((sub_ind==0)\|\|(sub_ind==1)\|\|(sub_ind==2))index_set=0;\r\n\telse if((sub_ind==3)\|\|(sub_ind==4)\|\|(sub_ind==5))index_set=3;\r\n\t\r\n\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(bIBAT_SMKLBR)sub_bgnd(\"КЛБР. \",'#',-4);\r\n\telse int2lcd_mmm(Ib_ips_termokompensat,'#',2);\r\n\r\n\t\r\n\t} \t\r\n\r\nelse if(ind==iK_bat_simple)\r\n\t{\r\n\tptrs[0]=\t\t\" Uбат = @В \";\r\n\tptrs[1]=\t\t\" откалибруйте Uбат \";\r\n\tptrs[2]=\t\t\" нажатием љ или њ \";\r\n ptrs[3]=\t\t\" Iбат = #А \";\r\n if(phase==0)\r\n {\r\n ptrs[4]=\t\" нажмите ¤ для \";\r\n ptrs[5]=\t\"калибровки нуля Iбат\";\r\n }\r\n else \r\n {\r\n ptrs[4]=\t\" откалибруйте Iбат \";\r\n ptrs[5]=\t\" нажатием љ или њ \";\r\n }\r\n if(bat[sub_ind1]._nd)\r\n \t{\r\n \tptrs[6]=\t\t\" Датчик температуры \";\r\n \tptrs[7]=\t\t\" неисправен \";\r\n \tptrs[8]=\t\t\" или неподключен. \";\r\n \t}\r\n else\r\n \t{\t \r\n \tptrs[6]=\t\t\" tбат = $°C \";\r\n \tptrs[7]=\t\t\" откалибруйте tбат \";\r\n \tptrs[8]=\t\t\" нажатием љ или њ \";\r\n \t}\r\n\r\n ptrs[9]=\t\t\" Выход \";\r\n ptrs[10]=\t\t\" \";\r\n ptrs[11]=\t\t\" \";\r\n\r\n\tbgnd_par(\t\t\" КАЛИБРОВКА БАТ. N! \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n \r\n if(sub_ind==0)\r\n \t{\r\n \tmess_send(MESS2BPS_HNDL,PARAM_BPS_ALL_OFF_AFTER_2SEC,0xffff,10);\r\n \tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<(1-sub_ind1)),10);\r\n \t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<sub_ind1),10);\r\n \t}\r\n \r\n if(sub_ind==3)\r\n \t{\r\n \tif(phase==0)\r\n \t\t{\r\n\t\t\tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,0xffff,10);\r\n \t\tmess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,10);\r\n\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n \t\t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<(1-sub_ind1)),10);\r\n \t\t}\r\n \telse if(phase==1)\r\n \t\t{\r\n\t\t\tmess_send(MESS2BPS_HNDL,PARAM_BPS_ALL_OFF_AFTER_2SEC,0xffff,10);\r\n\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<(1-sub_ind1)),10);\r\n \t\t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<sub_ind1),10);\r\n \t\t\t}\r\n \t\t\r\n \t}\r\n\r\n if(sub_ind==6)\r\n \t{\r\n \t\t//mess_send(_MESS_BAT_MASK_ON,_MESS_BAT_MASK_ON,(0xffff),10);\r\n \t\t//mess_send(MESS_SRC_ON_OFF,_MESS_SRC_MASK_UNBLOK,0xffff,10);\r\n \t\t\r\n \t}\r\n\r\n if(sub_ind==9)\r\n \t{\r\n \tmess_send(MESS2BPS_HNDL,PARAM_BPS_ALL_OFF_AFTER_2SEC,0xffff,10);\r\n \tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<(1-sub_ind1)),10);\r\n \t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<sub_ind1),10);\r\n \t}\r\n\t\r\n\tif((sub_ind==0)\|\|(sub_ind==1)\|\|(sub_ind==2))index_set=0;\r\n\telse if((sub_ind==3)\|\|(sub_ind==4)\|\|(sub_ind==5))index_set=3;\r\n\telse if((sub_ind==6)\|\|(sub_ind==7)\|\|(sub_ind==8))index_set=6;\r\n\telse index_set=9;\r\n\t\r\n\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tif((bat[sub_ind1]._Ub)>1000)int2lcd(bat[sub_ind1]._Ub/10,'@',0);\r\n\telse int2lcd(bat[sub_ind1]._Ub,'@',1);\r\n\tint2lcd_mmm(bat[sub_ind1]._Ib,'#',2);\r\n\tint2lcd_mmm(bat[sub_ind1]._Tb,'$',0);\r\n\r\n\t//int2lcdyx(ad7705_buff_[0],0,6,0);\r\n\t//int2lcdyx(adc_buff_[12],0,15,0);\r\n\t\r\n\t} \t\r\n\r\nelse if(ind==iK_inv_sel)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" ИНВЕРТОР N1 \";\r\n ptrs[1]=\t\t\t\t\t\t\" ИНВЕРТОР N2 \";\r\n ptrs[2]=\t\t\t\t\t\t\" ИНВЕРТОР N3 \";\r\n\tptrs[3]=\t\t\t\t\t\t\" ИНВЕРТОР N4 \";\r\n ptrs[4]=\t\t\t\t\t\t\" ИНВЕРТОР N5 \";\r\n ptrs[5]=\t\t\t\t\t\t\" ИНВЕРТОР N6 \";\r\n\tptrs[6]=\t\t\t\t\t\t\" ИНВЕРТОР N7 \";\r\n ptrs[7]=\t\t\t\t\t\t\" ИНВЕРТОР N8 \";\r\n ptrs[8]=\t\t\t\t\t\t\" ИНВЕРТОР N9 \";\r\n\tptrs[9]=\t\t\t\t\t\t\" ИНВЕРТОР N10 \";\r\n ptrs[10]=\t\t\t\t\t\t\" ИНВЕРТОР N11 \";\r\n ptrs[11]=\t\t\t\t\t\t\" ИНВЕРТОР N12 \"; \r\n\tptrs[12]=\t\t\t\t\t\t\" ИНВЕРТОР N13 \";\r\n ptrs[13]=\t\t\t\t\t\t\" ИНВЕРТОР N14 \";\r\n ptrs[14]=\t\t\t\t\t\t\" ИНВЕРТОР N15 \";\t \r\n\tptrs[NUMINV]=\t\t\t\t\t\" Выход \";\r\n\tptrs[1+NUMINV]=\t\t\t\t\" \";\r\n\tptrs[2+NUMINV]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\"КАЛИБРОВАТЬ ИНВЕРТОР\",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t\r\n } \r\n\r\nelse if(ind==iInv_set_sel)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" ИНВЕРТОР N1 \";\r\n ptrs[1]=\t\t\t\t\t\t\" ИНВЕРТОР N2 \";\r\n ptrs[2]=\t\t\t\t\t\t\" ИНВЕРТОР N3 \";\r\n\tptrs[3]=\t\t\t\t\t\t\" ИНВЕРТОР N4 \";\r\n ptrs[4]=\t\t\t\t\t\t\" ИНВЕРТОР N5 \";\r\n ptrs[5]=\t\t\t\t\t\t\" ИНВЕРТОР N6 \";\r\n\tptrs[6]=\t\t\t\t\t\t\" ИНВЕРТОР N7 \";\r\n ptrs[7]=\t\t\t\t\t\t\" ИНВЕРТОР N8 \";\r\n ptrs[8]=\t\t\t\t\t\t\" ИНВЕРТОР N9 \";\r\n\tptrs[9]=\t\t\t\t\t\t\" ИНВЕРТОР N10 \";\r\n ptrs[10]=\t\t\t\t\t\t\" ИНВЕРТОР N11 \";\r\n ptrs[11]=\t\t\t\t\t\t\" ИНВЕРТОР N12 \"; \r\n\tptrs[12]=\t\t\t\t\t\t\" ИНВЕРТОР N13 \";\r\n ptrs[13]=\t\t\t\t\t\t\" ИНВЕРТОР N14 \";\r\n ptrs[14]=\t\t\t\t\t\t\" ИНВЕРТОР N15 \"; \r\n\tptrs[NUMINV]=\t\t\t\t\t\" Выход \";\r\n\tptrs[1+NUMINV]=\t\t\t\t\" \";\r\n\tptrs[2+NUMINV]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\"УСТАНОВКИ ИНВЕРТОРОВ\",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t\r\n } \r\n\r\nelse if(ind==iInv_set)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Минимальное напр. \";\r\n ptrs[1]=\t\t\t\t\t\t\" выхода <В \";\r\n ptrs[2]=\t\t\t\t\t\t\" Максимальное напр. \";\r\n\tptrs[3]=\t\t\t\t\t\t\" выхода >В \";\r\n\tptrs[4]=\t\t\t\t\t \t\" Выход \";\r\n\tptrs[5]=\t\t\t\t\t\t\" \";\r\n\tptrs[6]=\t\t\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ИНВЕРТОР N! \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tint2lcd(inv[sub_ind1]._Uoutmin,'<',0);\r\n\tint2lcd(inv[sub_ind1]._Uoutmax,'>',0);\r\n\t} \r\n\r\nelse if(ind==iK_makb_sel)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Монитор АКБ N1 \";\r\n ptrs[1]=\t\t\t\t\t\t\" Монитор АКБ N2 \";\r\n ptrs[2]=\t\t\t\t\t\t\" Монитор АКБ N3 \";\r\n\tptrs[3]=\t\t\t\t\t\t\" Монитор АКБ N4 \";\r\n\tptrs[NUMMAKB]=\t\t\t\t\t\" Выход \";\r\n\tptrs[1+NUMMAKB]=\t\t\t\t\" \";\r\n\tptrs[2+NUMMAKB]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\"КАЛИБРОВАТЬ МОНИТОРЫ\",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t\r\n } \r\n\r\nelse if(ind==iK_makb)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" U1 = !В \";\r\n\tptrs[1]=\t\t\t\t\t\t\" U2 = @В \";\r\n\tptrs[2]=\t\t\t\t\t\t\" U3 = #В \";\r\n\tptrs[3]=\t\t\t\t\t\t\" U4 = $В \";\r\n\tptrs[4]=\t\t\t\t\t\t\" U5 = %В \";\r\n\tptrs[5]=\t\t\t\t\t\t\" t1 = ^°C \";\r\n\tptrs[6]=\t\t\t\t\t\t\" t2 = &°C \";\r\n\tptrs[7]=\t\t\t\t\t\t\" t3 = °C \";\r\n\tptrs[8]=\t\t\t\t\t\t\" t4 = (°C \";\r\n\tptrs[9]=\t\t\t\t\t\t\" t5 = )°C \";\r\n\tptrs[10]=\t\t\t\t\t\t\" Выход \";\r\n\tptrs[11]=\t\t\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\" МОНИТОР АКБ N< \",ptrs[index_set],ptrs[index_set+1]);\r\n\tpointer_set(2);\r\n\tsimax=10;\r\n\r\n\tint2lcd(sub_ind1+1,'<',0);\r\n\tint2lcd(makb[sub_ind1]._U[0],'!',1);\r\n\tint2lcd(makb[sub_ind1]._U[1],'@',1);\r\n\tint2lcd(makb[sub_ind1]._U[2],'#',1);\r\n\tint2lcd(makb[sub_ind1]._U[3],'$',1);\r\n\tint2lcd(makb[sub_ind1]._U[4],'%',1);\r\n\r\n\tif(makb[sub_ind1]._T_nd[0])sub_bgnd(\"НЕПОДКЛЮЧЕН\",'^',-5);\r\n\telse int2lcd_mmm(makb[sub_ind1]._T[0],'^',0); \r\n\tif(makb[sub_ind1]._T_nd[1])sub_bgnd(\"НЕПОДКЛЮЧЕН\",'&',-5);\r\n\telse int2lcd_mmm(makb[sub_ind1]._T[1],'&',0); \r\n\tif(makb[sub_ind1]._T_nd[2])sub_bgnd(\"НЕПОДКЛЮЧЕН\",'',-5);\r\n\telse int2lcd_mmm(makb[sub_ind1]._T[2],'',0); \r\n\tif(makb[sub_ind1]._T_nd[3])sub_bgnd(\"НЕПОДКЛЮЧЕН\",'(',-5);\r\n\telse int2lcd_mmm(makb[sub_ind1]._T[3],'(',0); \r\n\tif(makb[sub_ind1]._T_nd[4])sub_bgnd(\"НЕПОДКЛЮЧЕН\",')',-5);\r\n\telse int2lcd_mmm(makb[sub_ind1]._T[4],')',0); \r\n\r\n\r\n/\tint2lcd(makb[sub_ind1]._T[0],'^',0);\r\n\tint2lcd(makb[sub_ind1]._T[1],'&',0);\r\n\tint2lcd(makb[sub_ind1]._T[2],'',0);\r\n\tint2lcd(makb[sub_ind1]._T[3],'(',0);\r\n\tint2lcd(makb[sub_ind1]._T[4],')',0);/\r\n\t\r\n } \r\n\r\nelse if(ind==iK_inv)\r\n\t{\r\n\r\n\tptrs[0]=\t\" Pвых = <Вт \";\r\n\tptrs[1]=\t\" выберите мощность \";\r\n\tptrs[2]=\t\" нажатием љ или њ \";\r\n\tptrs[3]=\t\" Uвых = @В \";\r\n\tptrs[4]=\t\"откалибруйте Uвыхинв\";\r\n\tptrs[5]=\t\" нажатием љ или њ \"; \r\n\tptrs[6]=\t\" Iвых = %А \";\r\n\tif(phase==0)\r\n {\r\n ptrs[7]=\t\" нажмите ¤ для \";\r\n ptrs[8]=\t\"калибровки нуля Iвых\";\r\n }\r\n else\r\n \t{\r\n ptrs[7]=\" откалибруйте Iвых \";\r\n ptrs[8]=\" нажатием љ или њ \"; \t\r\n \t} \r\n \t\r\n\tptrs[9]=\t\" tинв = ^°C \"; \r\n\tptrs[10]=\t\" откалибруйте tинв \";\r\n\tptrs[11]=\t\" нажатием љ или њ \";\r\n\tptrs[12]=\t\" Uшины = &В \";\r\n\tptrs[13]=\t\"откалибруйте Uшины \";\r\n\tptrs[14]=\t\" нажатием љ или њ \"; \r\n\tptrs[15]=\t\" Uсети = В \";\r\n\tptrs[16]=\t\"откалибруйте Uсети \";\r\n\tptrs[17]=\t\" нажатием љ или њ \"; \r\n\tptrs[18]=\t\" Pвых = (Вт \";\r\n\tptrs[19]=\t\"откалибруйте Pвых \";\r\n\tptrs[20]=\t\" нажатием љ или њ \"; \r\n\tptrs[21]=\t\" Контроль сети [\";\r\n\tptrs[22]=\t\" ШИМ ]\";\r\n\tptrs[23]=\t\" Режим /\";\r\n\tptrs[24]=\tsm_exit;\r\n\tptrs[25]=\tsm_;\r\n\tptrs[26]=\tsm_; \t \t \r\n\t\r\n\r\n \tif((sub_ind==0)\|\|(sub_ind==1)\|\|(sub_ind==2))index_set=0;\r\n\telse if((sub_ind==3)\|\|(sub_ind==4)\|\|(sub_ind==5))index_set=3;\r\n\telse if((sub_ind==6)\|\|(sub_ind==7)\|\|(sub_ind==8))index_set=6;\r\n\telse if((sub_ind==9)\|\|(sub_ind==10)\|\|(sub_ind==11))index_set=9;\r\n\telse if((sub_ind==12)\|\|(sub_ind==13)\|\|(sub_ind==14))index_set=12;\r\n\telse if((sub_ind==15)\|\|(sub_ind==16)\|\|(sub_ind==17))index_set=15;\r\n\telse if((sub_ind==18)\|\|(sub_ind==19)\|\|(sub_ind==20))index_set=18;\r\n\telse if((sub_ind==21)\|\|(sub_ind==22)\|\|(sub_ind==23))index_set=21;\r\n\telse index_set=22;\r\n\t\r\n\tbgnd_par(\"КАЛИБРОВКА ИНВЕРТ N!\",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tif(inv[sub_ind1]._Pnom==0)int2lcd(700,'<',0);\r\n\telse if(inv[sub_ind1]._Pnom==1)int2lcd(1000,'<',0);\r\n\telse int2lcd(2000,'<',0);\r\n\tint2lcd(inv[sub_ind1]._Uio,'@',1);\r\n\tint2lcd(inv[sub_ind1]._Ii,'%',1);\r\n\tint2lcd(inv[sub_ind1]._Ti,'^',0); \r\n\tint2lcd(inv[sub_ind1]._Uil,'&',1);\r\n\tint2lcd(inv[sub_ind1]._Uin,'',1);\r\n\tint2lcd_mmm(inv[sub_ind1]._Pio,'(',0); \r\n\r\n\tif(inv[sub_ind1]._net_contr_en==0)sub_bgnd(\"ВЫКЛ\",'[',-3);\r\n\telse if(inv[sub_ind1]._net_contr_en==1)sub_bgnd(\"АМПЛ.\",'[',-4);\r\n\telse if(inv[sub_ind1]._net_contr_en==3)sub_bgnd(\"ВКЛ\",'[',-2);\r\n\r\n\tif(inv[sub_ind1]._pwm_en==0)sub_bgnd(\"ВЫКЛ\",']',-3);\r\n\telse sub_bgnd(\"ВКЛ\",']',-2);\r\n\r\n\tif(inv[sub_ind1]._phase_mode==0)sub_bgnd(\"1 ФАЗА\",'/',-5);\r\n\telse if(inv[sub_ind1]._phase_mode==1)sub_bgnd(\"3 ФАЗЫ\",'/',-5);\r\n\r\n if((sub_ind==3))\r\n\t\t{\r\n//\t\tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n//\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,10);\r\n\t mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,1000,10);\r\n }\r\n if(sub_ind==6)\r\n\t\t{\r\n\t\tif(phase==0)\r\n\t\t\t{\r\n// \tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,~(1<<sub_ind1),10);\r\n \t}\r\n \telse if(phase==1)\r\n\t\t\t{\r\n// \tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n//\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,10);\r\n \t}\r\n mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,1000,10);\r\n }\r\n\t\r\n\r\n\t\r\n \r\n\t \r\n\t//MSG_IND2PWM_SRC1=900;\r\n\t//MSG_IND2PWM_SRC2=900; \r\n//int2lcdyx(inv[sub_ind1]._Pnom,0,5,0);\r\n\r\n/int2lcdyx(sub_ind,0,1,0);\r\nint2lcdyx(phase,0,2,0);\r\nint2lcdyx(MSG_IND2OUT_DIS_SRC1,0,3,0);\r\nint2lcdyx(MSG_IND2OUT_DIS_SRC2,0,4,0); \r\nint2lcdyx(MSG_IND2OUT_EN_SRC1,0,5,0);\r\nint2lcdyx(MSG_IND2OUT_EN_SRC2,0,6,0); /\r\n\r\n//int2lcdyx(cntrl_stat1,0,19,0); \r\n//int2lcdyx(load_U,0,5,0); \r\n//int2lcdyx(cntrl_stat,0,10,0); \r\n//int2lcdyx(bps[sub_ind1]._rotor,0,19,0); \r\n//int2lcdyx(u_necc,0,19,0); \r\n\t }\r\n\r\nelse if(ind==iK_byps)\r\n\t{\r\n\t\r\n\tptrs[0]=\t\" Uвых = @В \";\r\n\tptrs[1]=\t\"откалибруйте Uвых \";\r\n\tptrs[2]=\t\" нажатием љ или њ \"; \r\n\tptrs[3]=\t\" Iвых = %А \";\r\n\tif(phase==0)\r\n {\r\n ptrs[4]=\t\" нажмите ¤ для \";\r\n ptrs[5]=\t\"калибровки нуля Iвых\";\r\n }\r\n else\r\n \t{\r\n ptrs[4]=\" откалибруйте Iвых \";\r\n ptrs[5]=\" нажатием љ или њ \"; \t\r\n \t} \r\n \t\r\n\tptrs[6]=\t\" t = ^°C \"; \r\n\tptrs[7]=\t\" откалибруйте t \";\r\n\tptrs[8]=\t\" нажатием љ или њ \";\r\n\tptrs[9]=\t\" Uшины = &В \";\r\n\tptrs[10]=\t\"откалибруйте Uшины \";\r\n\tptrs[11]=\t\" нажатием љ или њ \"; \r\n\tptrs[12]=\t\" Uсети = В \";\r\n\tptrs[13]=\t\"откалибруйте Uсети \";\r\n\tptrs[14]=\t\" нажатием љ или њ \"; \r\n\tptrs[15]=\t\" Pвых = (Вт \";\r\n\tptrs[16]=\t\"откалибруйте Pвых \";\r\n\tptrs[17]=\t\" нажатием љ или њ \"; \r\n\r\n\tptrs[18]=\tsm_exit;\r\n\tptrs[19]=\tsm_;\r\n\tptrs[20]=\tsm_; \t \t \r\n\t\r\n\r\n \t if((sub_ind==0)\|\|(sub_ind==1)\|\|(sub_ind==2))index_set=0;\r\n\telse if((sub_ind==3)\|\|(sub_ind==4)\|\|(sub_ind==5))index_set=3;\r\n\telse if((sub_ind==6)\|\|(sub_ind==7)\|\|(sub_ind==8))index_set=6;\r\n\telse if((sub_ind==9)\|\|(sub_ind==10)\|\|(sub_ind==11))index_set=9;\r\n\telse if((sub_ind==12)\|\|(sub_ind==13)\|\|(sub_ind==14))index_set=12;\r\n\telse if((sub_ind==15)\|\|(sub_ind==16)\|\|(sub_ind==17))index_set=15;\r\n\r\n\telse index_set=18;\r\n\t\r\n\tbgnd_par(\"КАЛИБРОВКА БАЙПАС \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(byps._Uout,'@',1);\r\n\tint2lcd(byps._Iout,'%',1);\r\n\tint2lcd(byps._T,'^',0); \r\n\tint2lcd(byps._Uin,'&',1);\r\n\tint2lcd(byps._Unet,'',1);\r\n\tint2lcd_mmm(byps._Pout,'(',0); \r\n\r\n if((sub_ind==0))\r\n\t\t{\r\n//\t\tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n//\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,10);\r\n\t mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,1000,10);\r\n }\r\n if(sub_ind==3)\r\n\t\t{\r\n\t\tif(phase==0)\r\n\t\t\t{\r\n// \tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,~(1<<sub_ind1),10);\r\n \t}\r\n \telse if(phase==1)\r\n\t\t\t{\r\n// \tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n//\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,10);\r\n \t}\r\n mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,1000,10);\r\n }\r\n\t\r\n\r\n\t\r\n \r\n\t \r\n\t//MSG_IND2PWM_SRC1=900;\r\n\t//MSG_IND2PWM_SRC2=900; \r\n/int2lcdyx(sub_ind1,0,0,0);\r\nint2lcdyx(sub_ind,0,1,0);\r\nint2lcdyx(phase,0,2,0);\r\nint2lcdyx(MSG_IND2OUT_DIS_SRC1,0,3,0);\r\nint2lcdyx(MSG_IND2OUT_DIS_SRC2,0,4,0); \r\nint2lcdyx(MSG_IND2OUT_EN_SRC1,0,5,0);\r\nint2lcdyx(MSG_IND2OUT_EN_SRC2,0,6,0); /\r\n\r\n//int2lcdyx(cntrl_stat1,0,19,0); \r\n//int2lcdyx(load_U,0,5,0); \r\n//int2lcdyx(cntrl_stat,0,10,0); \r\n//int2lcdyx(bps[sub_ind1]._rotor,0,19,0); \r\n//int2lcdyx(u_necc,0,19,0); \r\n\t }\r\n\r\nelse if(ind==iK_bps_sel)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[1]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[2]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[3]=\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[4]=\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[5]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[6]=\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[7]=\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[8]=\t\t\t\t\t\t\" БПС N9 \";\r\n\tptrs[9]=\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[10]=\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[11]=\t\t\t\t\t\t\" БПС N12 \"; \r\n\tptrs[NUMIST]=\t\t\t\t\t\" Выход \";\r\n\tptrs[1+NUMIST]=\t\t\t\t\" \";\r\n\tptrs[2+NUMIST]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА БПСов \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t\r\n } \r\n\r\nelse if(ind==iK_bps)\r\n\t{\r\n\t\r\n\tptrs[0]=\" Uист = @В \";\r\n ptrs[1]=\" откалибруйте Uист \";\r\n ptrs[2]=\" нажатием љ или њ \"; \r\n\tptrs[3]=\" Uнагр = #В \";\r\n ptrs[4]=\" откалибруйте Uнагр \";\r\n ptrs[5]=\" нажатием љ или њ \";\r\n\tptrs[6]=\" Uавтон = $В \";\r\n\tif(bFL_)\r\n\t\t{\r\n\t\tptrs[7]=\" установите Uавтон \";\r\n \tptrs[8]=\" нажатием љ или њ \";\r\n \t}\r\n else \r\n \t{\r\n\t\tptrs[7]=\" удерживайте ¤ для \";\r\n \tptrs[8]=\" запоминания \"; \t\r\n \t}\t\r\n\tptrs[9]=\" Iист = %А \";\r\n\tif(phase==0)\r\n {\r\n ptrs[10]=\t\" нажмите ¤ для \";\r\n ptrs[11]=\t\"калибровки нуля Iист\";\r\n }\r\n else\r\n \t{\r\n ptrs[10]=\" откалибруйте Iист \";\r\n ptrs[11]=\" нажатием љ или њ \"; \t\r\n \t} \r\n \t\r\n ptrs[12]=\" tист = ^°C \"; \r\n\tptrs[13]=\" откалибруйте tист \";\r\n ptrs[14]=\" нажатием љ или њ \";\r\n ptrs[15]=sm_exit;\r\n ptrs[16]=sm_;\r\n ptrs[17]=sm_; \t \t \r\n\t\r\n\r\n if((sub_ind==0)\|\|(sub_ind==1)\|\|(sub_ind==2))index_set=0;\r\n\telse if((sub_ind==3)\|\|(sub_ind==4)\|\|(sub_ind==5))index_set=3;\r\n\telse if((sub_ind==6)\|\|(sub_ind==7)\|\|(sub_ind==8))index_set=6;\r\n\telse if((sub_ind==9)\|\|(sub_ind==10)\|\|(sub_ind==11))index_set=9;\r\n\telse if((sub_ind==12)\|\|(sub_ind==13)\|\|(sub_ind==14))index_set=12;\t\r\n\telse index_set=15;\r\n\t\r\n\tbgnd_par(\" КАЛИБРОВКА БПС N! \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tint2lcd(bps[sub_ind1]._Uii,'@',1);\r\n\tint2lcd(bps[sub_ind1]._Uin,'#',1);\r\n\tint2lcd(U_AVT,'$',1);\r\n\tint2lcd(bps[sub_ind1]._Ii,'%',1);\r\n\tint2lcd(bps[sub_ind1]._Ti,'^',0); \r\n\t \r\n\t\r\n if((sub_ind==0)\|\|(sub_ind==3))\r\n\t\t{\r\n\t\tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,10);\r\n\t \tmess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,1000,10);\r\n }\r\n if(sub_ind==6)\r\n\t\t{\r\n mess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n mess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,40);\r\n mess_send(MESS2UNECC_HNDL,PARAM_UNECC_SET,U_AVT,10);\r\n\t mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_FAST_REG,0,10);\r\n\r\n }\r\n\r\n if(sub_ind==9)\r\n\t\t{\r\n\t\tif(phase==0)\r\n\t\t\t{\r\n \tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,~(1<<sub_ind1),10);\r\n \t}\r\n \telse if(phase==1)\r\n\t\t\t{\r\n \tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,10);\r\n \t}\r\n mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,1000,10);\r\n }\r\n\t\r\n \tif(sub_ind==12)\r\n\t\t{\r\n }\t\r\n \r\n \r\n\tif(mess_find( (MESS2IND_HNDL)) && (mess_data[0]==PARAM_U_AVT_GOOD) )\r\n\t\t{\r\n\t\tshow_mess(\" Установка \",\r\n\t \t\" напряжения \",\r\n\t \t\" автономной работы \",\r\n\t \t\" произведена \",3000);\r\n\t\t}\t \r\n\t \r\n\t//MSG_IND2PWM_SRC1=900;\r\n\t//MSG_IND2PWM_SRC2=900; \r\n/int2lcdyx(sub_ind1,0,0,0);\r\nint2lcdyx(sub_ind,0,1,0);\r\nint2lcdyx(phase,0,2,0);\r\nint2lcdyx(MSG_IND2OUT_DIS_SRC1,0,3,0);\r\nint2lcdyx(MSG_IND2OUT_DIS_SRC2,0,4,0); \r\nint2lcdyx(MSG_IND2OUT_EN_SRC1,0,5,0);\r\nint2lcdyx(MSG_IND2OUT_EN_SRC2,0,6,0); /\r\n\r\n//int2lcdyx(cntrl_stat1,0,19,0); \r\n//int2lcdyx(load_U,0,5,0); \r\n//int2lcdyx(cntrl_stat,0,10,0); \r\n//int2lcdyx(bps[sub_ind1]._rotor,0,19,0); \r\n//int2lcdyx(u_necc,0,19,0); \r\n\t }\r\n\r\nelse if(ind==iK_power_net)\r\n\t{\r\n\tptrs[0]=\" Uввод= @В \";\r\n\tptrs[1]=\" Uпэс = #В \";\r\n ptrs[2]=\" Выход \";\r\n\tptrs[3]=\" \";\r\n\t\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par( \" КАЛИБРОВКА \",\r\n \" СИЛОВЫХ ВВОДОВ \",\r\n ptrs[index_set],\r\n ptrs[index_set+1]);\r\n\r\n\tpointer_set(2);\t\r\n\tint2lcd(Uvv[0],'@',0);\r\n int2lcd(Uvv[1],'#',0);\r\n\t//int2lcdyx(net_buff_,3,10,0);\r\n\t\r\n\t//int2lcdyx(Kunet,3,16,0);\r\n }\r\n\r\n\r\nelse if(ind==iK_power_net3)\r\n\t{\r\n ptrs[0]= \t\t\" Ввод ф.A !В \";\r\n\tptrs[1]= \t\t\" Ввод ф.B @В \";\r\n\tptrs[2]= \t\t\" Ввод ф.C #В \";\r\n ptrs[3]= \t \" ПЭС ф.A &В \";\r\n ptrs[4]= \t \" ПЭС ф.B В \";\r\n ptrs[5]= \t \" ПЭС ф.C (В \";\t\t \r\n ptrs[6]=\" Выход \";\r\n\tptrs[7]=\" \";\r\n\t\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par( \" КАЛИБРОВКА \",\r\n \" СИЛОВЫХ ВВОДОВ \",\r\n ptrs[index_set],\r\n ptrs[index_set+1]);\r\n\r\n\tpointer_set(2);\t\r\n\tint2lcd(Uvv_eb2[0],'!',0);\r\n\tint2lcd(Uvv_eb2[1],'@',0);\r\n\tint2lcd(Uvv_eb2[2],'#',0);\r\n\tint2lcd(Upes_eb2[0],'&',0);\r\n\tint2lcd(Upes_eb2[1],'',0);\r\n\tint2lcd(Upes_eb2[2],'(',0);\r\n\t//int2lcdyx(net_buff_,3,10,0);\r\n\t\r\n\t//int2lcdyx(Kunet,3,16,0);\r\n }\r\n\r\n\r\n//#endif\t \r\n\t\t\t\r\nif(ind==iDeb)\r\n {\r\n if(sub_ind==0)\r\n \t{\r\n\r\n\r\n bgnd_par(\"0000000000 \",\r\n \t \" \",\r\n \t \" \",\r\n \t \" ******** \");\r\n\r\n\t\tint2lcdyx(SOFT_NUM,0,4,0);\r\n\t\tlong2lcdyx_mmm(SOFT_DATE,0,11,0);\r\n\t\r\n\t\tint2lcdyx(numOfForvardBps_minCnt,1,5,0);\r\n\t\tint2lcdyx(numOfForvardBps_hourCnt,1,10,0);\r\n\t\tint2lcdyx(numOfForvardBps,1,15,0);\r\n\t\r\n\t\tint2lcdyx(numOfForvardBps_minCnt,2,4,0);\r\n\t\tint2lcdyx(numOfForvardBps_hourCnt,2,9,0);\r\n\t\tint2lcdyx(cntrl_stat,2,19,0);\r\n\r\n \r\n\r\n \t} \r\n\r\n \telse if(sub_ind==1) \r\n \t{\r\n \tbgnd_par(\"Б \",\r\n \t \" \",\r\n \t \" \",\r\n \t \" \");\r\n\r\n\t\t//int2lcdyx(bAVG,0,0,0);\r\n\t\t//int2lcdyx(LPC_CAN1->GSR,0,6,0);\r\n\t\t//int2lcdyx((LPC_CAN1->GSR)>>16,0,16,0);\r\n\t\t//int2lcdyx(avg,0,19,0);\r\n\r\n\t\t\t\t//int2lcdyx((((LPC_CAN1->GSR)&(0xff000000))>>24),0,19,0);\r\n\t\t//int2lcdyx((((LPC_CAN1->GSR)&(0x00ff0000))>>16),0,15,0);\r\n\r\n /* int2lcdyx(bat[0]._Ubm,1,7,0); \tint2lcdyx(bat[0]._av,1,10,0);\r\n\t\tint2lcdyx(bat[0]._dUbm,2,7,0);\r\n\t\tint2lcdyx(bat[0]._cnt_as,3,7,0);\r\n\t\t\r\n \r\n\t\tint2lcdyx(bat[1]._Ub,0,14,0);\r\n int2lcdyx(bat[1]._Ubm,1,14,0);\tint2lcdyx(bat[1]._av,1,17,0);\r\n\t\tint2lcdyx(bat[1]._dUbm,2,14,0);\r\n\t\tint2lcdyx(bat[1]._cnt_as,3,14,0);/\r\n\r\n\t\tint2lcdyx(sub_ind1+0,1,0,0);\r\n\t\tint2lcdyx(sub_ind1+1,2,0,0);\r\n\t\tint2lcdyx(sub_ind1+2,3,0,0);\r\n\t\t\r\n\t\t\r\n\t\tint2lcdyx(bps[sub_ind1 ]._cnt,1,2,0);\r\n\t\tint2lcdyx(bps[sub_ind1+1]._cnt,2,2,0);\r\n\t\tint2lcdyx(bps[sub_ind1+2]._cnt,3,2,0);\t\t\r\n\t\t\r\n\t/\tint2lcdyx(bps[sub_ind1 ]._ist_blok_cnt,1,5,0);\r\n\t\tint2lcdyx(bps[sub_ind1+1]._ist_blok_cnt,2,5,0);\r\n\t\tint2lcdyx(bps[sub_ind1+2]._ist_blok_cnt,3,5,0);/\t\t\t\r\n\t\t\r\n\t/\tchar2lcdhyx(bps[sub_ind1 ]._flags_tu,1,8);\r\n\t\tchar2lcdhyx(bps[sub_ind1+1]._flags_tu,2,8);\r\n\t\tchar2lcdhyx(bps[sub_ind1+2]._flags_tu,3,8);\r\n\r\n\t\tint2lcdyx(bps[sub_ind1 ]._vol_u,1,12,0);\r\n\t\tint2lcdyx(bps[sub_ind1+1]._vol_u,2,12,0);\r\n\t\tint2lcdyx(bps[sub_ind1+2]._vol_u,3,12,0);\t\t\r\n\r\n\r\n\t\tchar2lcdhyx(bps[sub_ind1]._flags_tm,1,15);\r\n\t\tchar2lcdhyx(bps[sub_ind1+1]._flags_tm,2,15);\r\n\t\tchar2lcdhyx(bps[sub_ind1+2]._flags_tm,3,15);\t\r\n\t\t/\r\n\t\tint2lcdyx(bps[sub_ind1]._Ii,1,15,0);\r\n\t\tint2lcdyx(bps[sub_ind1+1]._Ii,2,15,0);\r\n\t\tint2lcdyx(bps[sub_ind1+2]._Ii,3,15,0);\r\n\t/\r\n\t\tchar2lcdhyx(bps[sub_ind1]._rotor>>8,1,15);\r\n\t\tchar2lcdhyx(bps[sub_ind1+1]._rotor>>8,2,15);\r\n\t\tchar2lcdhyx(bps[sub_ind1+2]._rotor>>8,3,15);\t\t\r\n\t\t/\r\n\t\t\r\n\t\tint2lcdyx(bps[sub_ind1]._rotor,1,19,0);\r\n\t\tint2lcdyx(bps[sub_ind1+1]._rotor,2,19,0);\r\n\t\tint2lcdyx(bps[sub_ind1+2]._rotor,3,19,0);\r\n\r\n\r\n \t\t}\r\n\r\n \r\n\r\n else if(sub_ind==2)\r\n \t{\r\n \tbgnd_par(\t\"F \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\r\n\r\n\t\tint2lcdyx(uout_av,1,5,0);\r\n\t\tint2lcdyx(USIGN,2,5,0); \r\n\r\n\t\tint2lcdyx(bSILENT,3,5,0);\r\n\r\n\t\t\r\n\t\t\r\n\t\tint2lcdyx(U_OUT_KONTR_MAX,0,19,0);\r\n\t\tint2lcdyx(load_U,1,19,0);\r\n\t\tint2lcdyx(U_OUT_KONTR_MIN,2,19,0);\r\n\t\t//int2lcdyx(U_OUT_KONTR_DELAY,3,19,0);\r\n\t\tint2lcdyx(outVoltContrHndlCnt,3,19,0);\r\n\r\n\t\tlong2lcdhyx(0x12345678UL,1,14);\r\n\t\tlong2lcdhyx(avar_stat,2,14);\r\n\t\tlong2lcdhyx(avar_ind_stat,3,14);\r\n\t\t} \r\n\r\n\telse if(sub_ind==3)\r\n \t{\r\n \tbgnd_par(\"КЕ \",\r\n \t \" \",\r\n \t \" ^\",\r\n \t \" &\");\r\n \r\n \tint2lcdyx(NUMBAT,0,5,0);\r\n\tint2lcdyx(NUMIST,1,5,0); \t\r\n\tint2lcdyx(num_net_in,2,5,0);\r\n\tint2lcdyx(num_rki,3,5,0);\r\n\tint2lcdyx(NUMEXT,0,10,0);\r\n\tint2lcdyx(NUMBAT,1,10,0);\r\n\tint2lcdyx(NUMBAT,2,10,0);\r\n\tint2lcdyx(NUMBAT,3,10,0);\r\n/\tint2lcdyx(spc_stat,0,5,0);\r\n\tint2lcdyx(__ee_spc_stat,0,9,0);\r\n\tint2lcdyx(lc640_read_int(EE_SPC_STAT),0,13,0);\r\n\r\n\tint2lcdyx(spc_bat,1,5,0);\r\n\tint2lcdyx(__ee_spc_bat,1,9,0);\r\n\tint2lcdyx(lc640_read_int(EE_SPC_BAT),1,13,0);\r\n\r\n\t\r\n\t\r\n\t\r\n\tint2lcdyx(bat[0]._zar_cnt_ke,2,5,0);\r\n\tint2lcdyx(lc640_read_int(ADR_EE_BAT_ZAR_CNT_KE[0]),2,10,0);\t\r\n\tint2lcdyx(bat[0]._u_old[0],2,14,0);\r\n\tint2lcd_mmm(bat[0]._Ib,'^',2);\r\n\r\n\tint2lcdyx(bat[1]._zar_cnt_ke,3,5,0);\r\n\tint2lcdyx(lc640_read_int(ADR_EE_BAT_ZAR_CNT_KE[1]),3,10,0);\r\n\tint2lcdyx(bat[1]._Ub,3,14,0);\r\n\tint2lcd_mmm(bat[1]._Ib,'&',2);\t\r\n\r\n\tint2lcdyx(spc_phase,1,15,0);\r\n\tint2lcdyx(__ee_spc_phase,1,17,0);\r\n\tint2lcdyx(lc640_read_int(EE_SPC_PHASE),1,19,0);\t/\r\n\r\n/\tint2lcdyx(speedChIsOn,0,4,0);\r\n\tint2lcdyx(speedChTimeCnt,1,4,0);\r\n\tint2lcdyx(speedChrgBlckStat,2,4,0);\r\n\tint2lcdyx(speedChrgBlckSrc,3,4,0);\r\n\r\n\tint2lcdyx(speedChrgBlckSrc,0,8,0);\r\n\tint2lcdyx(speedChrgBlckLog,1,8,0); /\r\n\t\r\n\t\r\n\t\t\r\n\r\n/\t \t\tint2lcdyx(adc_net_buff_cnt,0,4,0);\r\n\r\n\t\t \tint2lcdyx((short)(main_power_buffer[0]>>12),0,19,0);\r\n\t\t\tint2lcdyx((short)(main_power_buffer[1]>>12),1,19,0);\r\n\t\t\tint2lcdyx((short)(main_power_buffer[2]>>12),2,19,0);\r\n\t\t\tint2lcdyx((short)(main_power_buffer[3]>>12),3,19,0);\r\n\r\n\t\t \tint2lcdyx((net_buff_),2,5,0); /\r\n\r\n\r\n\t\t \r\n\t\t \r\n\r\n\r\n/\t\tint2lcdyx(load_U,0,4,0);\r\n\t\tint2lcdyx(load_I,1,4,0);\r\n\t\tlcd_buffer[44]='a';\r\n\t\tint2lcd_mmm((bat[0]._Ib)/10,'a',1);\r\n\t\tlcd_buffer[64]='a';\r\n\t\tint2lcd_mmm((bat[1]._Ib)/10,'a',1);\r\n\r\n \t\tint2lcdyx(u_necc,0,8,0);\r\n\r\n\t\t\r\n\t\t\r\n\t\tlcd_buffer[14]='.';\r\n\t\tlcd_buffer[34]='.';\r\n\t\tint2lcdyx(Isumm,0,15,1);\t\t\r\n\t\tint2lcdyx(Isumm_,1,15,1);\r\n\r\n\r\n\t\tint2lcdyx(cntrl_stat,0,19,0);\r\n\t\tint2lcdyx(num_necc,1,19,0);\r\n\t\t\r\n\t\t\r\n\t\t \r\n//\t\tint2lcdyx(cntrl_stat,0,15,0);\r\n\t\t \r\n\t\t//int2lcdyx(cntrl_plazma,1,3,0);\r\n\t\t//lcd_buffer[30]='a';\r\n\t\tint2lcd_mmm(Ibmax,'a',0);\r\n\t\tint2lcdyx(IZMAX,1,14,0);\r\n\r\n\t\tlcd_buffer[65]='a';\r\n\t\tint2lcd_mmm(bat[0]._Ib,'a',0);\r\n\r\n\t\tlcd_buffer[70]='a';\r\n\t\tint2lcd_mmm(bat[1]._Ib,'a',0); \r\n\r\n\t\tlcd_buffer[75]='a';\r\n\t\tint2lcd_mmm(Ibmax,'a',0); \r\n\r\n\t//\tint2lcdyx(IMAX,2,3,0);\r\n\t\t\r\n\t\t\r\n\r\n\t//\tint2lcdyx(IZMAX,3,19,0);\r\n\r\n\t\t//int2lcdyx(num_necc_Imax,3,6,0);\r\n\t\t//int2lcdyx(num_necc_Imin,3,12,0);\r\n\r\n\r\n // \tlcd_buffer[4]='a'; \r\n // \tint2lcd_mmm(Ibat,'a',1); int2lcdyx(cntrl_stat,0,9,0); int2lcdyx(hour_apv_cnt,0,13,0); char2lcdhyx(St_[0],0,19); \r\n // \tint2lcdyx(Ubat,1,4,0); int2lcdyx(main_apv_cnt,1,9,0); int2lcdyx(lc640_read_int(bps1_AVAR_PTR),1,13,0); char2lcdhyx(St_[1],1,19);\r\n // \tint2lcdyx(Us[0],2,4,0); int2lcdyx(apv_cnt_1,2,9,0); int2lcdyx(lc640_read_int(SRC1_AVAR_CNT),2,13,0); int2lcdhyx(av_stat,2,19);\r\n // \tint2lcdyx(Us[1],3,4,0); int2lcdyx(reset_apv_cnt,3,9,0); int2lcdyx(plazma,3,19,0);\r\n \t//int2lcd(plazma,'(',0);\r\n\r\n \t//int2lcd(Us[0],'#',1);\r\n \t//int2lcd(Us[1],'$',1);\r\n \t//int2lcd(Is[0],'%',1);\r\n \t//int2lcd(Is[1],'^',1);\r\n // \tint2lcd(bat[0]._Ub,'<',1);\r\n // \tint2lcd_mmm(bat[0]._Ib,'>',2);\r\n // \tchar2lcdhyx(St_[0],3,13);\r\n // \tchar2lcdhyx(St_[1],3,19);\r\n // \tchar2lcdhyx(St,3,5); /\r\n\t\t}\r\n\r\n else if(sub_ind==4)\r\n \t{\r\n \tbgnd_par(\t\"LB \",\r\n \t\t \t\" \",\r\n \t\t \t\" ! # \",\r\n \t\t \t\" @ $ \");\r\n\r\n\r\n \tint2lcdyx(NUMBAT_TELECORE,0,1,0);\r\n\t\t\r\n\t\tint2lcdyx(bps[0]._Ii,0,5,0);\r\n\t\tint2lcdyx(bps[1]._Ii,0,9,0);\r\n\t\t\r\n\t\tint2lcdyx(plazma_cntrl_stat,0,19,0);\r\n\t\t\r\n\t\tint2lcdyx(Ubpsmax,1,3,0);\r\n\t\tint2lcdyx(Ibmax,1,7,0);\r\n\t\tint2lcdyx(cntrl_stat,1,11,0);\r\n\t\tint2lcdyx(load_U,1,19,0);\r\n\t\t\t\r\n\t\tint2lcdyx(lakb[0]._balanced_event_code/_tot_bat_volt/,2,2,0);\r\n\t \tint2lcdyx(lakb[1]._balanced_event_code/_tot_bat_volt/,3,2,0);\r\n\t\t\r\n\t \tint2lcd_mmm(lakb[0]._ch_curr/10,'!',0);\r\n\t\tint2lcd_mmm(lakb[1]._ch_curr/10,'@',0);\t\t\r\n\t\t\r\n\t \tint2lcd_mmm(bat[0]._Ib/10,'#',0);\r\n\t\tint2lcd_mmm(bat[1]._Ib/10,'$',0);\r\n\r\n\t\tint2lcdyx(TELECORE2017_ULINECC,2,19,0);\r\n\t \tint2lcdyx(TELECORE2017_ULINECC_,3,19,0);\r\n\r\n\t\t//int2lcdyx(lakb[0]._communicationFullErrorStat,2,19,0);\r\n\t \t//int2lcdyx(lakb[1]._communicationFullErrorStat,3,19,0);\r\n\r\n\t\tint2lcdyx(IMAX,0,13,0);\r\n\t\t\r\n\t\tint2lcdyx(lakb[0]._voltage_event_code,2,15,0); \r\n\t\tint2lcdyx(lakb[1]._voltage_event_code,3,15,0);\r\n\r\n\r\n\r\n\t\t//int2lcdyx(load_I,2,17,0); \r\n\t\t//int2lcdyx(Isumm,3,17,0);\r\n\r\n\t\t//int2lcdyx(lakb[0]._s_o_c_percent,2,17,0); \r\n\t\t//int2lcdyx(lakb[1]._s_o_c_percent,3,17,0);\r\n\r\n\r\n\t\t\r\n\r\n\r\n\r\n\r\n\t\t\r\n\t\t//int2lcdyx(u_necc,1,15,0);\r\n\t\t\r\n\r\n\t\t//int2lcdyx(plazma_ztt[0],1,13,0);lakb[i]._communicationFullErrorStat\r\n\t\t//int2lcdyx(plazma_ztt[1],1,17,0);\r\n \t\t//int2lcdyx(zTTBatteryHndlCmnd/zTTBatteryHndlPhase/,0,5,0);\r\n\r\n\t\t//int2lcdyx(zTTButteryCnter,0,7,0);\r\n\r\n\t\t//int2lcdyx(numOfPacks,0,9,0);\r\n\r\n\t\t//int2lcdyx(numOfTemperCells,0,12,0);\r\n\t\t//t2lcdyx(cntrl_stat_blck_cnt,0,6,0);\r\n\t\t \r\n\t\t//int2lcdyx(ch_cnt0,0,13,0);\r\n\t\t//int2lcdyx(ch_cnt1,0,16,0);\r\n\t\t//int2lcdyx(bat[0]._Ib,0,9,0);\r\n\t\t//int2lcdyx(bat[1]._Ib,0,15,0);\r\n\t\t}\r\n/\telse if(sub_ind==4)\r\n \t{\r\n \tbgnd_par(\" АВАРИИ \",\r\n \t \" \",\r\n \t \" \",\r\n \t \" \");\r\n\r\n\t\tint2lcdyx(main_10Hz_cnt,0,7,0);\r\n\t\tint2lcdyx(bat[0]._av,0,10,0);\r\n\t\tint2lcdyx(bat[1]._av,0,12,0);\r\n\t\tchar2lcdhyx(rele_stat,0,19);\r\n\r\n \t\tlong2lcdhyx(avar_stat,1,7);\r\n\t\tlong2lcdhyx(avar_stat_old,2,7);\r\n\t\tlong2lcdhyx(avar_ind_stat,3,7);\r\n\r\n\t\tlong2lcdhyx(avar_stat_new,2,19);\r\n\t\tlong2lcdhyx(avar_stat_offed,3,19);\r\n\r\n\r\n\r\n\t\t}/\r\n \r\n else if(sub_ind==5)\r\n \t{\r\n \tbgnd_par(\" \",\r\n \t\t \" \",\r\n \t\t \" \",\r\n \t\t \" \");\r\n\r\n\t\tint2lcdyx(adc_buff_[0],0,4,0);\r\n\t\tint2lcdyx(adc_buff_[1],1,4,0);\r\n\t\tint2lcdyx(adc_buff_[2],2,4,0);\r\n\t\tint2lcdyx(adc_buff_[3],3,4,0);\r\n\t\tint2lcdyx(adc_buff_[4],0,9,0);\r\n\t\tint2lcdyx(adc_buff_[5],1,9,0);\r\n\t\tint2lcdyx(adc_buff_[6],2,9,0);\r\n\t\tint2lcdyx(adc_buff_[7],3,9,0);\r\n\t\tint2lcdyx(adc_buff_[8],0,14,0);\r\n\t\tint2lcdyx(adc_buff_[9],1,14,0);\r\n\t\tint2lcdyx(adc_buff_[10],2,14,0);\r\n\t\tint2lcdyx(adc_buff_[11],3,14,0);\r\n\t\tint2lcdyx(adc_buff_[12],0,19,0);\r\n\t\tint2lcdyx(adc_buff_[13],1,19,0);\r\n\t\tint2lcdyx(adc_buff_[14],2,19,0);\r\n\t\tint2lcdyx(adc_buff_[15],3,19,0);\r\n\r\n\r\n\r\n\t/\tint2lcdyx(main_kb_cnt,0,3,0);\r\n\t\tint2lcdyx(cntrl_stat,1,3,0);\r\n\t\tint2lcdyx(ibat_ips,2,3,0);\r\n\t\tint2lcdyx(ibat_ips_,3,3,0);\r\n\r\n\t\tint2lcdyx(kb_cnt_1lev,0,19,0);\r\n\t\tint2lcdyx(kb_cnt_2lev,1,19,0);\r\n\t\tint2lcdyx(kb_full_ver,2,19,0);\r\n\r\n\t\tint2lcdyx(Ibmax,0,16,0);\r\n\t\tint2lcdyx(IZMAX_,1,16,0);\r\n\t\tint2lcdyx(cntrl_hndl_plazma,2,16,0); /\r\n\r\n\t\t\r\n \t} \t\t \t\t\r\n\r\n\r\n else if(sub_ind==6)\r\n \t{\r\n \tbgnd_par(\t\"6 \",\r\n \t\t \t\" ! $ \",\r\n \t\t \t\" @ % \",\r\n \t\t \t\" ^ \");\r\n#ifdef UKU_TELECORE2017 \t\t \r\n/\t\tint2lcd_mmm(bat[0]._Ib,'!',2);\r\n\t\tint2lcd_mmm(bat[1]._Ib,'@',2);\r\n\t\tint2lcd_mmm(bps[0]._Ii,'$',1);\r\n\t\tint2lcd_mmm(bps[1]._Ii,'%',1);\r\n\t\tint2lcd_mmm(bps[2]._Ii,'^',1); /\r\n\r\n\t\tint2lcd_mmm(t_ext[0],'!',0);\r\n\t\tint2lcd_mmm(t_ext[1],'@',0);\r\n\t\tint2lcd_mmm(t_box_warm,'$',0);\r\n\t\tint2lcd_mmm(t_box_vent,'%',0);\r\n\t\t//int2lcdyx(load_I,3,7,0);\r\n\t\t//int2lcdyx(t_box_vent,2,7,0);\r\n\r\n\t\tint2lcdyx(warm_stat_k,1,19,0);\r\n\t\tint2lcdyx(vent_stat_k,2,19,0);\r\n\t\t\r\n\r\n\t\tint2lcdyx(TELECORE2017_KLIMAT_WARM_ON_temp,3,3,0);\r\n\t\tint2lcdyx(TELECORE2017_KLIMAT_WARM_ON,3,7,0);\r\n\t\tint2lcdyx(TELECORE2017_KLIMAT_WARM_OFF,3,11,0);\r\n\t\tint2lcdyx(TELECORE2017_INT_VENT_PWM,3,15,0);\r\n\t\tint2lcdyx(TELECORE2017_EXT_VENT_PWM,3,19,0);\r\n\t\t\r\n\t\t\r\n\t\t\r\n\t\t//int2lcdyx(li_bat._Tb,3,3,0);\r\n\t\t\r\n\t\t\r\n\r\n\r\n\t\tint2lcdyx(t_box_warm_on_cnt,1,17,0);\r\n\t\tint2lcdyx(t_box_vent_on_cnt,2,17,0);\r\n//\t\t\t//int2lcdyx(t_box_vent_on_cnt,0,3,0);\r\n\t//int2lcdyx(t_box_warm_on_cnt,0,7,0);\r\n//\t\tint2lcdyx(vent_stat_k,2,15,0);\r\n\r\n\t\t\r\n\t\tint2lcdyx(ND_EXT[0],0,9,0);\r\n\t\tint2lcdyx(ND_EXT[1],0,13,0);\r\n\t\t//int2lcdyx(TELECORE2017_KLIMAT_VENT_ON20,0,16,0);\t \r\n\t\tint2lcdyx(lakb[0]._zar_percent,0,19,0);\t \r\n#endif\r\n \t}\r\n\r\n\r\n else if(sub_ind==7)\r\n \t{\r\n \tbgnd_par(\"7 \",\r\n \t\t \" \",\r\n \t\t \" \",\r\n \t\t \" \");\r\n \t\t \r\n\t\tint2lcdyx(adc_buff_[sk_buff_TELECORE2015[0]],0,19,0);\r\n\t\tint2lcdyx(adc_buff_[sk_buff_TELECORE2015[1]],1,19,0);\r\n\t\tint2lcdyx(adc_buff_[sk_buff_TELECORE2015[2]],2,19,0);\r\n\t\tint2lcdyx(adc_buff_[sk_buff_TELECORE2015[3]],3,19,0);\r\n\t\tint2lcdyx(sk_cnt[0],0,14,0);\r\n\t\tint2lcdyx(sk_cnt[1],1,14,0);\r\n\t\tint2lcdyx(sk_cnt[2],2,14,0);\r\n\t\tint2lcdyx(sk_cnt[3],3,14,0);\r\n\t\tint2lcdyx(sk_stat[0],0,10,0);\r\n\t\tint2lcdyx(sk_stat[1],1,10,0);\r\n\t\tint2lcdyx(sk_stat[2],2,10,0);\r\n\t\tint2lcdyx(sk_stat[3],3,10,0);\r\n\r\n \t\t}\r\n else if(sub_ind==8)\r\n \t{\r\n \tbgnd_par(\" \",\r\n \t\t \" \",\r\n \t\t \" \",\r\n \t\t \" \");\r\n \tint2lcdyx(ibt._T[0],0,2,0);\r\n\t\tint2lcdyx(ibt._T[1],1,2,0);\r\n \tint2lcdyx(ibt._T[2],2,2,0);\r\n\t\tint2lcdyx(ibt._T[3],3,2,0);\r\n\t\t\r\n \tint2lcdyx(ibt._nd[0],0,4,0);\r\n\t\tint2lcdyx(ibt._nd[1],1,4,0);\r\n \tint2lcdyx(ibt._nd[2],2,4,0);\r\n\t\tint2lcdyx(ibt._nd[3],3,4,0);\t \r\n\r\n \tint2lcdyx(ibt._T_dispers[0],0,7,0);\r\n\t\tint2lcdyx(ibt._T_dispers[1],1,7,0);\r\n \tint2lcdyx(ibt._T_dispers[2],2,7,0);\r\n\t\tint2lcdyx(ibt._T_dispers[3],3,7,0);\r\n\t\t\t \r\n\t\tint2lcdyx(ibt._avg1,0,19,0);\r\n\t\tint2lcdyx(ibt._max_dispers_num,1,19,0);\r\n\t\tint2lcdyx(t_box,3,19,0);\r\n \t}\t\t \t\r\n\r\n else if(sub_ind==10)\r\n \t{\r\n \tbgnd_par(\"LB \",\r\n \t\t \" \",\r\n \t\t \" \",\r\n \t\t \" \");\r\n\r\n \tint2lcdyx(sub_ind1+1,0,3,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._cnt,0,6,0);\r\n\r\n\t\tint2lcdyx(lakb[sub_ind1]._max_cell_temp,0,14,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._min_cell_temp,0,19,0);\r\n\r\n\t\tint2lcdyx(lakb[sub_ind1]._max_cell_volt,1,4,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._min_cell_volt,1,9,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._tot_bat_volt,1,14,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._s_o_h,1,19,0);\r\n\r\n\t\tint2lcdyx(lakb[sub_ind1]._ch_curr,2,4,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._dsch_curr,2,9,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._rat_cap,2,14,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._s_o_c,2,19,0);\r\n\r\n\t\tint2lcdyx(lakb[sub_ind1]._c_c_l_v,3,4,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._r_b_t,3,9,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._b_p_ser_num,3,14,0);\r\n\t\t//int2lcdyx(lakb[sub_ind1]._bRS485ERR,3,16,0);\r\n\t\t//int2lcdyx(lakb[sub_ind1]._rs485_cnt,3,19,0); \r\n\t\t\r\n \t}\t\r\n\r\n else if(sub_ind==11)\r\n \t{\r\n \tbgnd_par(\"LB \",\r\n \t\t \" \",\r\n \t\t \" \",\r\n \t\t \" \");\r\n\r\n \tint2lcdyx(sub_ind,0,1,0);\r\n\t\t\r\n\t\tint2lcdyx(u_necc,0,5,0);\r\n\r\n\t\tint2lcdyx(load_U,0,11,0);\r\n\t\tint2lcdyx(bps[0]._Uin,0,15,0);\r\n\t\tint2lcdyx(bps[1]._Uii,0,19,0);\r\n\r\n\t\tint2lcdyx(li_bat._Ub,1,3,0);\r\n\r\n\r\n\t\tint2lcdyx(lakb[0]._tot_bat_volt,1,8,0); \r\n\r\n\t\tint2lcdyx(cntrl_stat,1,19,0);\r\n\t\t\r\n\t\tint2lcdyx(lakb_error_cnt,3,19,0);\r\n\r\n\r\n\r\n\t\t//int2lcdyx(ccc_plazma[2],3,12,0);\r\n\t\t//int2lcdyx(ccc_plazma[3],1,16,0); \r\n\t\t//int2lcdyx(ccc_plazma[4],2,16,0); \r\n\t\t//int2lcdyx(ccc_plazma[5],3,16,0); \r\n\r\n\t\tint2lcdyx(li_bat._canErrorCnt,2,5,0);\r\n\t\tint2lcdyx(li_bat._canError,2,8,0);\r\n\t\tint2lcdyx(li_bat._485ErrorCnt,3,5,0);\r\n\t\tint2lcdyx(li_bat._485Error,3,8,0);\r\n\t\t\t\r\n\t\t/int2lcdyx(lakb[sub_ind1]._cnt,0,6,0);\r\n\r\n\t\tint2lcdyx(lakb[sub_ind1]._max_cell_temp,0,14,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._min_cell_temp,0,19,0);\r\n\r\n\t\tint2lcdyx(lakb[sub_ind1]._max_cell_volt,1,4,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._min_cell_volt,1,9,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._tot_bat_volt,1,14,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._s_o_h,1,19,0);\r\n\r\n\t\tint2lcdyx(lakb[sub_ind1]._ch_curr,2,4,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._dsch_curr,2,9,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._rat_cap,2,14,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._s_o_c,2,19,0);\r\n\r\n\t\tint2lcdyx(lakb[sub_ind1]._c_c_l_v,3,4,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._r_b_t,3,9,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._b_p_ser_num,3,14,0);\r\n\t\tint2lcdyx(lakb[sub_ind1]._bRS485ERR,3,16,0);\r\n\t\t /\r\n\t\t\r\n \t}\t\r\n else if(sub_ind==12)\r\n \t{\r\n \tbgnd_par(\t\"ica \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\t\tint2lcdyx(ica_my_current,1,4,0);\r\n \tint2lcdyx(ica_your_current,2,4,0);\r\n \tint2lcdyx(ica_timer_cnt,1,14,0);\r\n\r\n\r\n\t\tint2lcdyx(ica_plazma[0],0,15,0);\r\n \tint2lcdyx(ica_plazma[1],1,15,0);\r\n \tint2lcdyx(ica_plazma[2],2,15,0);\r\n \tint2lcdyx(ica_plazma[3],3,15,0);\r\n \tint2lcdyx(ica_plazma[4],0,19,0);\r\n\t\tint2lcdyx(ica_plazma[5],1,19,0);\r\n \tint2lcdyx(ica_plazma[6],2,19,0);\r\n \tint2lcdyx(ica_plazma[7],3,19,0);\r\n\r\n \r\n\t\tint2lcdyx(ica_u_necc+50,0,10,0);\r\n\t\tint2lcdyx(u_necc,1,10,0);\r\n\r\n\t\tint2lcdyx(bps_U,2,10,0);\r\n\r\n\r\n \t//int2lcdyx(ica_plazma[8],3,15,0);\r\n \t//int2lcdyx(ica_plazma[9],3,19,0); /\r\n \r\n\t\t\r\n \t}\r\n\t\t\r\n else if(sub_ind==13)\r\n \t{\r\n \tbgnd_par(\t\"RS485-2 \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\t\t//int2lcdyx(ica_my_current,1,4,0);\r\n \t//int2lcdyx(ica_your_current,2,4,0);\r\n \t//int2lcdyx(ica_timer_cnt,1,14,0);\r\n\r\n\r\n\t\t//int2lcdyx(ica_plazma[0],0,15,0);\r\n \t//int2lcdyx(ica_plazma[1],1,15,0);\r\n \t//int2lcdyx(ica_plazma[2],2,15,0);\r\n \t//int2lcdyx(ica_plazma[3],3,15,0);\r\n \t//int2lcdyx(ica_plazma[4],0,19,0);\r\n\t\t//int2lcdyx(ica_plazma[5],1,19,0);\r\n \t//int2lcdyx(ica_plazma[6],2,19,0);\r\n \t//int2lcdyx(ica_plazma[7],3,19,0);\r\n\r\n \r\n\t\t//int2lcdyx(ica_u_necc+50,0,10,0);\r\n\t\t//int2lcdyx(u_necc,1,10,0);\r\n\r\n\t\t//int2lcdyx(bps_U,2,10,0);\r\n\r\n\r\n \tint2lcdyx(plazma_suz[0],0,19,0);\r\n \t//int2lcdyx(ica_plazma[9],3,19,0); /\r\n \r\n\t\t\r\n \t}\r\n else if(sub_ind==14)\r\n \t{\r\n \tbgnd_par(\t\"SNTP \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n \t\r\n\t\tint2lcdyx(socket_udp,0,10,0);\r\n\t\tint2lcdyx(udp_callback_cnt,0,15,0);\r\n\t\tint2lcdyx(udp_callback_cnt1,0,19,0);\r\n\t\t//int2lcdyx(udp_callback_plazma[0],1,3,0);\r\n\t\tint2lcdyx((U16)full_days_since_2000_01_01,1,4,0);\r\n\t\tint2lcdyx(this_year,1,7,0);\r\n\t\tint2lcdyx(this_month,1,10,0);\r\n\t\tint2lcdyx(day_of_month,1,13,0);\r\n\t\tint2lcdyx(hour_in_this_day,1,16,0);\r\n\t\tint2lcdyx(min_in_this_hour,1,19,0);\r\n\t\tint2lcdyx(udp_callback_plazma[4],3,5,0);\r\n\t\tint2lcdyx(udp_callback_plazma[5],2,3,0);\r\n\t\tint2lcdyx(udp_callback_plazma[6],2,7,0);\r\n\t\tint2lcdyx(udp_callback_plazma[7],2,11,0);\r\n\t\tint2lcdyx(udp_callback_plazma[8],2,15,0);\r\n\t\tint2lcdyx(udp_callback_plazma[9],3,13,0);\r\n\t\tint2lcdyx(udp_callback_plazma[10],3,19,0);\r\n\t\tint2lcdyx(sec_in_this_min,3,10,0);\r\n \t}\t\t\t\r\n\r\n\r\n else if(sub_ind==15)\r\n \t{\r\n \tbgnd_par(\t\"STARK \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n \t\r\n\t\t//int2lcdyx(plazma_stark[0],1,3,0);\r\n\t\t//int2lcdyx(plazma_stark[1],2,3,0);\r\n\t\t\r\n\t\t\r\n\t\tint2lcdyx(plazma_stark[2],0,3,0);\r\n\t\tint2lcdyx(plazma_stark[3],1,3,0);\r\n\t\tint2lcdyx(plazma_stark[4],2,3,0);\r\n\t\tint2lcdyx(plazma_stark[5],3,3,0);\r\n\r\n\t\tint2lcdyx(plazma_stark[6],0,7,0);\t\t\t\t\r\n\t\tint2lcdyx(plazma_stark[7],1,7,0);\r\n\t\tint2lcdyx(plazma_stark[8],2,7,0);\r\n\t\tint2lcdyx(plazma_stark[9],3,7,0);\r\n\r\n\t\tint2lcdyx(plazma_stark[10],0,11,0);\t\t\t\t\r\n\t\tint2lcdyx(plazma_stark[11],1,11,0);\r\n\t\tint2lcdyx(plazma_stark[12],2,11,0);\r\n\t\tint2lcdyx(plazma_stark[13],3,11,0);\r\n\t\t\t\t\r\n\t\tint2lcdyx(plazma_stark[14],0,15,0);\t\t\t\t\r\n\t\tint2lcdyx(plazma_stark[15],1,15,0);\r\n\t\tint2lcdyx(plazma_stark[16],2,15,0);\r\n\t\tint2lcdyx(plazma_stark[17],3,15,0);\r\n\r\n\t\tint2lcdyx(plazma_stark[18],0,19,0);\t\t\t\t\r\n\t\tint2lcdyx(plazma_stark[19],1,19,0);\r\n\t\tint2lcdyx(plazma_stark[20],2,19,0);\r\n\t\tint2lcdyx(plazma_stark[21],3,19,0);\r\n \t}\t\r\n\r\n else if(sub_ind==16)\r\n \t{\r\n \tbgnd_par(\t\"Z \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\t\tint2lcdyx(spc_stat,0,19,0);\t\t\t\t\r\n\t\t//int2lcdyx(hv_vz_stat,1,19,0);\r\n\t\tint2lcdyx(sp_ch_stat,1,19,0);\r\n\t\tint2lcdyx(vz2_stat,2,19,0);\t\r\n\t\tint2lcdyx(vz2_wrk_cnt/100,2,17,0);\r\n\t\tint2lcdyx(vz2_up_cnt/10L,2,12,0);\r\n\t\tint2lcdyx(vz1_stat,3,19,0);\t\r\n\t\tint2lcdyx(vz1_wrk_cnt/100,3,17,0);\r\n\t\tint2lcdyx(vz1_up_cnt/10L,3,12,0);\r\n\t\tint2lcdyx(u_necc,1,3,0);\r\n\t\tint2lcdyx(cntrl_stat,2,3,0);\r\n\t\tint2lcdyx(volt_region,3,3,0);\r\n\t\tint2lcdyx(vz2_stat_ph2_cnt,0,5,0);\r\n\t\tint2lcdyx(Ib_ips_termokompensat,0,10,0);\r\n\t\tint2lcdyx(FZ_ISW12,0,15,0);\t\r\n\t\t}\r\n\r\n else if(sub_ind==17)\r\n \t{\r\n \tbgnd_par(\t\"A \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\t\tint2lcdyx(uavt_set_result_stat,0,17,0);\r\n\t\tint2lcdyx(uavt_set_stat,0,19,0);\r\n\t\tint2lcdyx(u_max_temp,0,15,0);\r\n\t\tint2lcdyx(u_min_temp,0,10,0);\r\n\t\tint2lcdyx(uavt_bps_pntr,0,5,0);\r\n\t\tint2lcdyx(avt_plazma,0,3,0);\t\r\n\t\tint2lcdyx(cntrl_hndl_plazma,1,4,0);\r\n\t\tint2lcdyx(cntrl_stat,1,8,0);\r\n\t\tint2lcdyx(U_AVT,2,4,0);\r\n\t\tint2lcdyx(out_U,2,8,0);\r\n\r\n\t\tint2lcdyx(u_necc,1,15,0);\r\n\t\tint2lcdyx(bps_U,2,15,0);\r\n\t\tint2lcdyx(uavt_set_error_cnt,3,19,0); \r\n\t\t}\t\r\n\t\t\r\n else if(sub_ind==18)\r\n \t{\r\n \tbgnd_par(\t\"SP \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\t\tint2lcdyx(speedChrgAvtEn,0,3,0);\r\n\t\tint2lcdyx(sp_ch_stat,0,6,0);\r\n\t\tint2lcdyx(spc_stat,0,9,0);\r\n\t\tint2lcdyx(load_U,1,4,0);\r\n\t\tint2lcdyx(u_necc,1,9,0);\r\n\t\tint2lcdyx(speedChrgDU,1,14,0);\t\r\n\t\tint2lcdyx(Ib_ips_termokompensat,2,4,0);\r\n\t\tint2lcdyx(IZMAX,2,9,0);\r\n\t\tint2lcdyx(speedChrgBlckStat,2,14,0);\r\n\t\tint2lcdyx(cntrl_stat,2,19,0);\r\n\r\n\t\t/int2lcdyx(u_necc,1,15,0);\r\n\t\tint2lcdyx(bps_U,2,15,0);\r\n\t\tint2lcdyx(uavt_set_error_cnt,3,19,0);/ \r\n\t\t}\t\r\n\t\t\r\n else if(sub_ind==19)\r\n \t{\r\n \tbgnd_par(\t\"B1 \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\t\tlong2lcdyx_mmm(bat_hndl_i,1,5,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_t_razr,2,5,0);\t\r\n\t\tint2lcdyx(Ib_ips_termokompensat,3,5,0);\r\n\t\tint2lcdyx(speedChargeStartCnt,0,10,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_t_razr,2,14,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_proc_razr,2,19,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_zvu_Q,3,19,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_remain_time,0,19,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_t_razr_min,1,19,0);\r\n\r\n\r\n\r\n\r\n\t\t}\r\n else if(sub_ind==20)\r\n \t{\r\n \tbgnd_par(\t\"B2 \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\t\tint2lcdyx(I_from_t_table[0],1,4,0);\r\n\t\tint2lcdyx(I_from_t_table[1],2,4,0);\r\n\t\tint2lcdyx(I_from_t_table[2],3,4,0);\r\n\t\tint2lcdyx(I_from_t_table[3],0,9,0);\r\n\t\tint2lcdyx(I_from_t_table[4],1,9,0);\r\n\t\tint2lcdyx(I_from_t_table[5],2,9,0);\t\r\n\t\tint2lcdyx(I_from_t_table[6],3,9,0);\r\n\r\n\t\tlong2lcdyx_mmm(bat_hndl_plazma[0],0,19,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_plazma[1],1,19,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_plazma[2],2,19,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_plazma[3],3,19,0);\r\n\t\t//int2lcdyx(IZMAX,2,9,0);\r\n\t\t//int2lcdyx(speedChrgBlckStat,2,14,0);\r\n\t\t//int2lcdyx(cntrl_stat,2,19,0);\r\n\r\n\t\t/int2lcdyx(u_necc,1,15,0);\r\n\t\tint2lcdyx(bps_U,2,15,0);\r\n\t\tint2lcdyx(uavt_set_error_cnt,3,19,0);/ \r\n\t\t}\t\r\n\t\t\r\n else if(sub_ind==21)\r\n \t{\r\n \tbgnd_par(\t\"KE1 \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\t\tlong2lcdyx_mmm(Ib_ips_termokompensat,0,19,0);\r\n\t\tint2lcdyx(spc_stat,0,6,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_t_razr_ke,1,5,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_u_end,2,5,0);\t\r\n\t\tint2lcdyx(bat_hndl_zvu_Q_cnt,1,19,0);\r\n\t\tint2lcdyx(u_necc_dn,3,14,0);\r\n\t\tint2lcdyx(u_necc_up,3,19,0); \r\n\t\tint2lcdyx(main_kb_cnt,2,19,0);\r\n\t\t/long2lcdyx_mmm(bat_hndl_proc_razr,2,19,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_zvu_Q,3,19,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_remain_time,0,19,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_t_razr_min,1,19,0);/\r\n\r\n\r\n\r\n\r\n\t\t}\r\n else if(sub_ind==22)\r\n \t{\r\n \tbgnd_par(\t\"KE2 \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\t\tint2lcdyx(bat_hndl_i_vector,1,6,0);\r\n\t\tint2lcdyx(bat_hndl_i_vector_old,2,6,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_i,3,6,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_i_summ,0,13,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_i_zar_price,1,13,0);\r\n\t\tlong2lcdyx_mmm(bat_hndl_zvu_Q,2,13,0); \r\n\t\tlong2lcdyx_mmm(lc640_read_int(EE_AMPER_CHAS_CNT),3,13,0);\r\n\t\t/int2lcdyx(U_end_from_i_table[5],2,9,0);\t\r\n\t\tint2lcdyx(U_end_from_i_table[6],3,9,0);\r\n\t\tint2lcdyx(lc640_read_int(EE_ZVU_BAT_MIN_CNT_KE),0,19,0);\r\n\t\tint2lcdyx(bat[0]._time_min_cnt_ke,1,19,0);/\r\n\t\t//int2lcdyx(cntrl_stat,2,19,0);\r\n\r\n\t\t/int2lcdyx(u_necc,1,15,0);\r\n\t\tint2lcdyx(bps_U,2,15,0);\r\n\t\tint2lcdyx(uavt_set_error_cnt,3,19,0);/ \t\t\t\r\n\t\t}\t\r\n else if(sub_ind==23)\r\n \t{\r\n \tbgnd_par(\t\"KE3 \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\t\tint2lcdyx(U_end_from_i_table[0],1,4,0);\r\n\t\tint2lcdyx(U_end_from_i_table[1],2,4,0);\r\n\t\tint2lcdyx(U_end_from_i_table[2],3,4,0);\r\n\t\tint2lcdyx(U_end_from_i_table[3],0,9,0);\r\n\t\tint2lcdyx(U_end_from_i_table[4],1,9,0);\r\n\t\tint2lcdyx(U_end_from_i_table[5],2,9,0);\t\r\n\t\tint2lcdyx(U_end_from_i_table[6],3,9,0);\r\n\t\tint2lcdyx(lc640_read_int(EE_ZVU_BAT_MIN_CNT_KE),0,19,0);\r\n\t\tint2lcdyx(bat[0]._time_min_cnt_ke,1,19,0);\r\n\t\t//int2lcdyx(cntrl_stat,2,19,0);\r\n\r\n\t\t/int2lcdyx(u_necc,1,15,0);\r\n\t\tint2lcdyx(bps_U,2,15,0);\r\n\t\tint2lcdyx(uavt_set_error_cnt,3,19,0);/ \r\n\t\t}\r\n else if(sub_ind==24)\r\n \t{\r\n \tbgnd_par(\t\"KB \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\t\tint2lcdyx(main_kb_cnt,1,4,0);\r\n\t\tint2lcdyx(TBAT60,2,4,0);\r\n\t\tint2lcdyx(BAT_IS_ON[0],3,2,0);\r\n\t\tint2lcdyx(BAT_IS_ON[1],3,5,0);\r\n\t\tint2lcdyx(kb_start[0],0,16,0);\r\n\t\tint2lcdyx(kb_start[1],1,16,0);\r\n\t\tint2lcdyx(kb_start_ips,2,16,0);\t\r\n\t\tint2lcdyx(bat[0]._av,0,12,0);\r\n\t\tint2lcdyx(bat[1]._av,1,12,0);\r\n\t\tint2lcdyx(bat_ips._av,2,12,0);\t\r\n\t\tint2lcdyx(net_av,3,8,0);\r\n\t\tint2lcdyx(num_of_wrks_bps,3,11,0);\r\n\t\tint2lcdyx(spc_stat,0,9,0);\r\n\t\tint2lcdyx(vz1_stat,3,15,0);\r\n\t\tint2lcdyx(vz2_stat,3,19,0);\r\n\t\tint2lcdyx(abs(Ib_ips_termokompensat),1,9,0);\r\n\t\tint2lcdyx(IKB,2,9,0);\r\n\t\tint2lcdyx(sp_ch_stat,2,7,0);\r\n\t\tint2lcdyx(kb_cnt_1lev,0,19,0);\r\n\t\tint2lcdyx(kb_cnt_2lev,1,19,0);\r\n\t\tint2lcdyx(kb_full_ver,2,19,0);\r\n\r\n\t\t/int2lcdyx(u_necc,1,15,0);\r\n\t\tint2lcdyx(bps_U,2,15,0);\r\n\t\tint2lcdyx(uavt_set_error_cnt,3,19,0);/ \r\n\t\t}\r\n else if(sub_ind==25)\r\n \t{\r\n \tbgnd_par(\t\"СТ \",\r\n \t\t \t\" \",\r\n \t\t \t\" \",\r\n \t\t \t\" \");\r\n\r\n\r\n\t\tint2lcdyx(UBM_AV,1,4,0);\r\n\t\tint2lcdyx(bat[0]._Ubm,2,3,0);\r\n\t\tint2lcdyx(bat[1]._Ubm,3,3,0);\r\n\t\tint2lcdyx(bat[0]._dUbm,2,7,0);\r\n\t\tint2lcdyx(bat[1]._dUbm,3,7,0);\r\n\t\tint2lcdyx(bat[0]._cnt_as,2,12,0);\r\n\t\tint2lcdyx(bat[1]._cnt_as,3,12,0);\r\n\t\tint2lcdyx(bat[0]._av,2,16,0);\r\n\t\tint2lcdyx(bat[1]._av,3,16,0);\r\n\t\t/int2lcdyx(kb_start[1],1,16,0);\r\n\t\tint2lcdyx(kb_start_ips,2,16,0);\t\r\n\t\tint2lcdyx(bat[0]._av,0,12,0);\r\n\t\tint2lcdyx(bat[1]._av,1,12,0);\r\n\t\tint2lcdyx(bat_ips._av,2,12,0);\t\r\n\t\tint2lcdyx(net_av,3,8,0);\r\n\t\tint2lcdyx(num_of_wrks_bps,3,11,0);\r\n\t\tint2lcdyx(spc_stat,0,9,0);\r\n\t\tint2lcdyx(vz1_stat,3,15,0);\r\n\t\tint2lcdyx(vz2_stat,3,19,0);\r\n\t\tint2lcdyx(abs(Ib_ips_termokompensat),1,9,0);\r\n\t\tint2lcdyx(IKB,2,9,0);\r\n\t\tint2lcdyx(sp_ch_stat,2,7,0);\r\n\t\tint2lcdyx(kb_cnt_1lev,0,19,0);\r\n\t\tint2lcdyx(kb_cnt_2lev,1,19,0);\r\n\t\tint2lcdyx(kb_full_ver,2,19,0);/\r\n\r\n\t\t/int2lcdyx(u_necc,1,15,0);\r\n\t\tint2lcdyx(bps_U,2,15,0);\r\n\t\tint2lcdyx(uavt_set_error_cnt,3,19,0);/ \r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \t\t\t\t \t\t\t\r\n\t}\r\n\r\nelse if((ind==iAv_view)\|\|(ind==iAv_view_avt))\r\n\t{\r\n//\tunsigned short tempUI,tempUI_;\r\n// \tunsigned long tempUL;\r\n\r\nif(uku_or_rki==0){\t//oleg_start\t\r\n\tbgnd_par(sm_,sm_,sm_,sm_);\r\n\tif(sub_ind==0)\r\n\t\t{\t\r\n\t\tif(avar_stat&0x00000001)\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" Авария сети \",\r\n\t\t\t\t \t\" не устранена \",\r\n\t\t\t\t \tsm_,sm_); \r\n\t\t\tint2lcd(net_U,']',0);\r\n\t\t\t}\r\n \t\telse \r\n\t\t\t{\r\n\t \t\tbgnd_par(\t\" Авария сети \",\r\n\t \t\t\t\t\" устранена \",\r\n\t\t\t\t\tsm_,sm_); \r\n\t\t\t}\r\n\t\t}\r\n\telse if((sub_ind==1)\|\|(sub_ind==2))\r\n\t\t{\r\n\t\tif(avar_stat&(1<<sub_ind))\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" Авария бат. N! \",\r\n\t\t\t\t \t\" не устранена \",\r\n\t\t\t\t \tsm_,sm_); \r\n\t\t\t}\r\n \t\telse \r\n\t\t\t{\r\n\t \t\tbgnd_par(\t\" Авария бат. N! \",\r\n\t \t\t\t\t\" устранена \",\r\n\t\t\t\t\tsm_,sm_); \r\n\t\t\r\n\t\t }\r\n/\t\telse if(ips_bat_av_stat==1)\r\n\t\t\t{\r\n\r\n\t\t\t} /\r\n\t\tint2lcd(sub_ind,'!',0);\r\n\t\t} \r\n \r\n\telse if((sub_ind>=3)&&(sub_ind<=14))\r\n\t\t{\r\n\t\tif((sub_ind-2)<=9)\t\t\t\t\tptrs[0]=\t\" Авария БПС N+ \";\r\n\t\telse \t\t\t\t\t\t\tptrs[0]=\t\" Авария БПС N + \";\r\n\t\tif(bps[sub_ind-3]._last_avar==0)\t\tptrs[1]=\t\" перегрев!!! \";\r\n\t\telse if(bps[sub_ind-3]._last_avar==1)\tptrs[1]=\t\" завышено Uвых!!! \";\t\r\n\t\telse if(bps[sub_ind-3]._last_avar==2)\tptrs[1]=\t\" занижено Uвых!!! \";\t\r\n\t\telse if(bps[sub_ind-3]._last_avar==3)\tptrs[1]=\t\" отключился!!! \";\r\n\t\tif(avar_stat&(1<<sub_ind)) \t\t\tptrs[2]=\t\" не устранена \";\r\n\t\telse\t\t\t\t\t\t\t\tptrs[2]=\t\" устранена \";\t\r\n\t\t\t\t\t\t\t\t\t\tptrs[3]=\t\" \";\r\n\r\n\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\tint2lcd((sub_ind-2),'+',0);\r\n \r\n\t\t//int2lcdxy(sub_ind,0x20,0);\r\n\r\n\t\t} \r\n\t\t\r\n\telse if(sub_ind==24)\r\n\t\t{ \r\n\r\n\t\tif(sk_av_stat[0]==sasON)\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" Авария СК. N1 \",\r\n\t\t\t\t \t\" не устранена \",\r\n\t\t\t\t \tsm_,sm_); \r\n\t\t\t}\r\n \t\telse \r\n\t\t\t{\r\n\t \t\tbgnd_par(\t\" Авария СК. N1 \",\r\n\t \t\t\t\t\" устранена \",\r\n\t\t\t\t\tsm_,sm_); \r\n\t\t\r\n\t\t }\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==25)\r\n\t\t{ \r\n\r\n\t\tif(sk_av_stat[1]==sasON)\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" Авария СК. N2 \",\r\n\t\t\t\t \t\" не устранена \",\r\n\t\t\t\t \tsm_,sm_); \r\n\t\t\t}\r\n \t\telse \r\n\t\t\t{\r\n\t \t\tbgnd_par(\t\" Авария СК. N2 \",\r\n\t \t\t\t\t\" устранена \",\r\n\t\t\t\t\tsm_,sm_); \r\n\t\t\r\n\t\t }\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==26)\r\n\t\t{ \r\n\r\n\t\tif(sk_av_stat[2]==sasON)\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" Авария СК. N3 \",\r\n\t\t\t\t \t\" не устранена \",\r\n\t\t\t\t \tsm_,sm_); \r\n\t\t\t}\r\n \t\telse \r\n\t\t\t{\r\n\t \t\tbgnd_par(\t\" Авария СК. N3 \",\r\n\t \t\t\t\t\" устранена \",\r\n\t\t\t\t\tsm_,sm_); \r\n\t\t\r\n\t\t }\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==27)\r\n\t\t{ \r\n\r\n\t\tif(sk_av_stat[3]==sasON)\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" Авария СК. N4 \",\r\n\t\t\t\t \t\" не устранена \",\r\n\t\t\t\t \tsm_,sm_); \r\n\t\t\t}\r\n \t\telse \r\n\t\t\t{\r\n\t \t\tbgnd_par(\t\" Авария СК. N4 \",\r\n\t \t\t\t\t\" устранена \",\r\n\t\t\t\t\tsm_,sm_); \r\n\t\t\r\n\t\t }\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==28)\r\n\t\t{ \r\n\t\tif(avar_stat&(1<<sub_ind))\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" Авария выходного \",\r\n\t\t\t\t \t\" напряжения!!! \",\r\n\t\t\t\t \tsm_,sm_); \r\n\t\t\t}\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==29)\r\n\t\t{\r\n\t\tif(bat_ips._av)\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" Авария батареи \",\r\n\t\t\t\t \t\" не устранена \",\r\n\t\t\t\t \tsm_,sm_); \r\n\t\t\t}\r\n \telse \r\n\t\t\t{\r\n\t \tbgnd_par(\t\" Авария батареи \",\r\n\t \t\t\t\t\" устранена \",\r\n\t\t\t\t\tsm_,sm_); \r\n\t\t\r\n\t\t }\r\n\t\t} \r\n\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==7)\r\n\t\t{\r\n\r\n\t\t} \r\n\t\t\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\r\n\t\t}\r\n\t \t\t \r\n\telse if(sub_ind==11)\r\n\t\t{\r\n\r\n\t\t} \r\n\t\t\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==13)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==14)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==15)\r\n\t\t{\r\n\r\n\t\t} \r\n}// end if(uku_or_rki==0){\t//oleg_start\r\n//oleg_start\r\nelse if(uku_or_rki==1){\t//oleg_start\t\t\r\n\r\n\tif(sub_ind==0) { \r\n\t\tif( rki_avar1_stat&1){\r\n\t\t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t \t\" Rиз+ < Rпред \",\r\n\t\t\t\t\t\t\" не устранена \",\r\n\t\t\t\t \tsm_); \r\n\t\t\t}\r\n \telse {\r\n\t \t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t\t\t\t\" Rиз+ < Rпред \",\r\n\t \t\t\t\t \" устранена \",\r\n\t\t\t\t\t \tsm_);\t\t\r\n\t\t}\r\n\t}\r\n\telse if(sub_ind==1) { \r\n\t\tif( rki_avar1_stat&0x02){\r\n\t\t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t \t\" Rиз+ < Rаварии \",\r\n\t\t\t\t\t\t\" не устранена \",\r\n\t\t\t\t \tsm_); \r\n\t\t}\r\n \telse {\r\n\t \t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t\t\t\t\" Rиз+ < Rаварии \",\r\n\t \t\t\t\t \" устранена \",\r\n\t\t\t\t\t \tsm_);\t\t\r\n\t\t}\r\n\t}\r\n\telse if(sub_ind==2) { \r\n\t\tif( rki_avar1_stat&0x04){\r\n\t\t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t \t\" Rиз- < Rпред \",\r\n\t\t\t\t\t\t\" не устранена \",\r\n\t\t\t\t \tsm_); \r\n\t\t\t}\r\n \telse {\r\n\t \t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t\t\t\t\" Rиз- < Rпред \",\r\n\t \t\t\t\t \" устранена \",\r\n\t\t\t\t\t \tsm_);\t\t\r\n\t\t}\r\n\t}\r\n\telse if(sub_ind==3) { \r\n\t\tif( rki_avar1_stat&0x08){\r\n\t\t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t \t\" Rиз- < Rаварии \",\r\n\t\t\t\t\t\t\" не устранена \",\r\n\t\t\t\t \tsm_); \r\n\t\t\t}\r\n \telse {\r\n\t \t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t\t\t\t\" Rиз- < Rаварии \",\r\n\t \t\t\t\t \" устранена \",\r\n\t\t\t\t\t \tsm_);\t\t\r\n\t\t}\r\n\t}\r\n\telse if(sub_ind==4) { \r\n\t\tif( rki_avar1_stat&0x10){\r\n\t\t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t \t\" асимметрия \",\r\n\t\t\t\t\t\t\" не устранена \",\r\n\t\t\t\t \tsm_); \r\n\t\t\t}\r\n \telse {\r\n\t \t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t\t\t\t\" асимметрия \",\r\n\t \t\t\t\t \" устранена \",\r\n\t\t\t\t\t \tsm_);\t\t\r\n\t\t}\r\n\t}\r\n\telse if(sub_ind==5) { \r\n\t\tif( rki_avar1_stat&0x20){\r\n\t\t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t \t\" Uшины < Uмин \",\r\n\t\t\t\t\t\t\" не устранена \",\r\n\t\t\t\t \tsm_); \r\n\t\t\t}\r\n \telse {\r\n\t \t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t\t\t\t\" Uшины < Uмин \",\r\n\t \t\t\t\t \" устранена \",\r\n\t\t\t\t\t \tsm_);\t\t\r\n\t\t}\r\n\t}\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\r\n\t\t} \r\n\t\t\r\n\telse if(sub_ind==7)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse { \r\n\t\tif( rki_avar1_stat& (1<<(sub_ind) ) ){\r\n\t\t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t \t\" СК ! \",\r\n\t\t\t\t\t\t\" не устранена \",\r\n\t\t\t\t \tsm_); \r\n\t\t\t}\r\n \telse {\r\n\t \t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t\t\t\t\" СК ! \",\r\n\t \t\t\t\t \" устранена \",\r\n\t\t\t\t\t \tsm_);\t\t\r\n\t\t}\r\n\t\tint2lcd(sub_ind-7,'!',0);\r\n\t}\r\n\r\n } // end else if(uku_or_rki==1){\r\n /* //o_3_s //можно удалить\r\n else if(uku_or_rki==2){\r\n \r\n\t\tif( status_di1& (1<<(sub_ind) )){\r\n\t\t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t \t\" Iддт ! > Iпред \",\r\n\t\t\t\t\t\t\" не устранена \",\r\n\t\t\t\t \tsm_); \r\n\t\t}\r\n \telse {\r\n\t \tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t\t\t\" Iддт ! > Iпред \",\r\n\t \t\t\t\t\" устранена \",\r\n\t\t\t\t\t \tsm_);\t\t\r\n\t\t}\r\n\t\tint2lcd(sub_ind+1,'!',0);\r\n\r\n\r\n }\t// end else if(uku_or_rki==2){\r\n else if(uku_or_rki==3){\r\n \r\n\t\tif( status_di2& (1<<(sub_ind) )){\r\n\t\t\tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t \t\" Iддт ! > Iавар \",\r\n\t\t\t\t\t\t\" не устранена \",\r\n\t\t\t\t \tsm_); \r\n\t\t}\r\n \telse {\r\n\t \tbgnd_par(\t\" Авария РКИ \",\r\n\t\t\t\t\t\t\" Iддт ! > Iавар \",\r\n\t \t\t\t\t\" устранена \",\r\n\t\t\t\t\t \tsm_);\t\t\r\n\t\t}\r\n\t\tint2lcd(sub_ind+1,'!',0);\r\n\r\n\r\n }\t// end else if(uku_or_rki==3){\r\n / //o_3_e\r\n//int2lcdyx(uku_or_rki,0,19,0);\r\n//int2lcdyx(sub_ind,0,10,0);\r\n}\t\t\t\t\t\r\n \r\n//#ifndef _DEBUG_\t\r\nelse if(ind==iAvz)\r\n\t{\r\n\t\r\n \tif(AVZ==AVZ_1) \t\tptrs[0]=\t\" раз в месяц \";\r\n\telse if(AVZ==AVZ_2) \tptrs[0]=\t\" раз в 2 месяца \";\r\n\telse if(AVZ==AVZ_3) \tptrs[0]=\t\" раз в 3 месяца \"; \r\n\telse if(AVZ==AVZ_6) \tptrs[0]=\t\" раз в полгода \";\r\n\telse if(AVZ==AVZ_12) \tptrs[0]=\t\" раз в год \";\r\n\telse \t\t\t\tptrs[0]=\t\" выключен \"; \r\n\t\r\n\tptrs[1]=\t\t\t\t\t\t\" Длительность (ч.\";\r\n\tif(AVZ!=AVZ_OFF)\r\n\t\t{\r\n\t\tptrs[2]=\t\t\t\t\t\" очередное включение\";\r\n\t\tptrs[3]=\t\t\t\t\t\" 0% &0^ 0@:0#:0$ \";\r\n\t\tptrs[4]=\t\t\t\t\tsm_exit;\r\n\t\t}\r\n\telse ptrs[2]=\t\t\t\t\t\tsm_exit;\r\n\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>1) index_set=sub_ind-1;\r\n\tif((sub_ind==2)&&(AVZ!=AVZ_OFF)) index_set=2;\r\n\t\r\n\tbgnd_par(\t\" АВТОМАТИЧЕСКИЙ \",\r\n\t\t\t\"ВЫРАВНИВАЮЩИЙ ЗАРЯД \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1]);\r\n\r\n\tpointer_set(2);\r\n\t\t\r\n\tint2lcd(HOUR_AVZ,'@',0);\r\n\tint2lcd(MIN_AVZ,'#',0);\r\n\tint2lcd(SEC_AVZ,'$',0);\r\n\tint2lcd(DATE_AVZ,'%',0);\r\n\tint2lcd(YEAR_AVZ,'^',0);\r\n\r\n\tsub_bgnd(sm_mont[MONTH_AVZ],'&',-2);\r\n\r\n\tint2lcd(AVZ_TIME,'(',0);\r\n\t\r\n\t}\r\n\r\n\r\nelse if(ind==iTst_RSTKM)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[1]=\t\t\t\t\t\t\" сети !\";\r\n ptrs[2]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[3]=\t\t\t\t\t\t\" освещения @\";\r\n ptrs[4]=\t\t\t\t\t\t\" Реле отключения \";\r\n ptrs[5]=\t\t\t\t\t\t\" нагрузки &\";\r\n ptrs[6]=\t\t\t\t\t\t\" Перемешивающий \";\r\n ptrs[7]=\t\t\t\t\t\t\" вентилятор #\";\r\n ptrs[8]=\t\t\t\t\t\t\" Реле аварий \"; \r\n ptrs[9]= \" общее %\";\r\n ptrs[10]=\t\t\t\t\t\t\" Приточный \";\r\n ptrs[11]=\t\t\t\t\t\t\" вентилятор l\";\r\n\r\n ptrs[12]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[13]=\t\t\t\t\t\t\" самокалибровки ^\";\r\n\r\n\tif((sub_ind==12)&&(bFL2))\r\n\t\t{\r\n\t\tptrs[12]=\t\t\t\t\t\" Iбат1 = <A \";\r\n \tptrs[13]=\t\t\t\t\t\" Iбат2 = >A \";\r\n\t\t}\r\n ptrs[14]=\t\t\t\t\t\t\" Реле бат.N1 (\";\r\n ptrs[15]=\t\t\t\t\t\t\" Реле бат.N2 )\";\r\n\tptrs[16]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[17]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[18]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[19]=\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[20]=\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[21]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[22]=\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[23]=\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[24]=\t\t\t\t\t\t\" БПС N9 \"; \r\n\tptrs[25]=\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[26]=\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[27]=\t\t\t\t\t\t\" БПС N12 \"; \r\n\tptrs[16+NUMIST]=\t\t\t\t\" Сброс \";\r\n\tptrs[17+NUMIST]=\t\t\t\t\" Сброс пл.расш. {\";\r\n\tptrs[18+NUMIST]=\t\t\t\t\" Выход \";\r\n\tptrs[19+NUMIST]=\t\t\t\t\" \";\r\n\tptrs[20+NUMIST]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n\r\n\tint2lcd_mmm(bat[0]._Ib,'<',2);\r\n\tint2lcd_mmm(bat[1]._Ib,'>',2);\r\n\r\n\tif(tst_state[0]==tst1) sub_bgnd(\"ВКЛ.\",'!',-3);\r\n\tif(tst_state[0]==tst2) sub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'!',-5);\r\n\r\n\tif(tst_state[1]==tst1) sub_bgnd(\"ВКЛ.\",'@',-3);\r\n\tif(tst_state[1]==tst2) sub_bgnd(\"ВЫКЛ.\",'@',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'@',-5);\r\n\r\n\tif(tst_state[9]==tst1) sub_bgnd(\"ВКЛ.\",'&',-3);\r\n\tif(tst_state[9]==tst2) sub_bgnd(\"ВЫКЛ.\",'&',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'&',-5);\r\n\r\n\tif(tst_state[2]==tst1) sub_bgnd(\"ВКЛ.\",'#',-3);\r\n\tif(tst_state[2]==tst2) sub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'#',-5);\r\n\r\n\tif(tst_state[3]==tst1) sub_bgnd(\"ВКЛ.\",'%',-3);\r\n\tif(tst_state[3]==tst2) sub_bgnd(\"ВЫКЛ.\",'%',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'%',-5);\r\n\r\n\tif(tst_state[4]==tst1) sub_bgnd(\"ВКЛ.\",'^',-3);\r\n\tif(tst_state[4]==tst2) sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'^',-5);\r\n\r\n\tif(tst_state[7]==tst1) sub_bgnd(\"ВЫКЛ.\",'(',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'(',-5);\r\n\r\n\tif(tst_state[8]==tst1) sub_bgnd(\"ВЫКЛ.\",')',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",')',-5);\r\n\r\n\tif((tst_state[10]>=1)&&(tst_state[10]<=20)) int2lcd(tst_state[10],'l',0);\r\n\telse sub_bgnd(\"РАБОЧ.\",'l',-5);\r\n\r\n\t\r\n\tif(sub_ind==0)\r\n\t\t{\r\n\t\tif(tst_state[0]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,1,5);\r\n\t\telse if(tst_state[0]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,0,5);\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_LIGHT,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_LIGHT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(tst_state[9]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_LOAD_OFF,1,5);\r\n\t\telse if(tst_state[9]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_LOAD_OFF,0,5);\r\n\t\t}\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(tst_state[2]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,1,5);\r\n\t\telse if(tst_state[2]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif(tst_state[3]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_COMM,1,5);\r\n\t\telse if(tst_state[3]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_COMM,0,5);\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif((tst_state[10]>=1)&&(tst_state[10]<=20))mess_send(MESS2VENT_HNDL,PARAM_VENT_CB,tst_state[10],5);\r\n\t\t}\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif(tst_state[4]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,5);\r\n\t\telse if(tst_state[4]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,0,5);\r\n\t\t}\r\n\r\n\r\n\r\n\telse if(sub_ind==14)\r\n\t\t{\r\n\t\tif(tst_state[7]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<0),10);\r\n\r\n\t\t}\r\n\telse if(sub_ind==15)\r\n\t\t{\r\n\t\tif(tst_state[8]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<1),10);\r\n\r\n\t\t}\r\n\r\n\t//int2lcdyx(cv_pos,0,2,0);\r\n\t//char2lcdbyx(rele_stat,0,7);\r\n\tint2lcd(ext_can_cnt,'{',0);\r\n \t}\r\n\r\n/\r\nelse if(ind==iTst_KONTUR)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Реле аварий \"; \r\n ptrs[1]= \" общее %\";\r\n\tptrs[2]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[3]=\t\t\t\t\t\t\" сети !\";\r\n ptrs[4]=\t\t\t\t\t\t\" Реле отключения \";\r\n ptrs[5]=\t\t\t\t\t\t\" нагрузки &\";\r\n ptrs[6]=\t\t\t\t\t\t\" Приточный \";\r\n ptrs[7]=\t\t\t\t\t\t\" вентилятор #\";\r\n ptrs[8]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[9]=\t\t\t\t\t\t\" нагревателя @\";\r\n\tptrs[10]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[11]=\t\t\t\t\t\t\" самокалибровки ^\";\r\n\r\n\tif((sub_ind==10)&&(bFL2))\r\n\t\t{\r\n\t\tptrs[10]=\t\t\t\t\t\" Iбат1 = <A \";\r\n \tptrs[11]=\t\t\t\t\t\" Iбат2 = >A \";\r\n\t\t}\r\n\r\n ptrs[12]=\t\t\t\t\t\t\" Реле бат.N1 (\";\r\n ptrs[13]=\t\t\t\t\t\t\" Реле бат.N2 )\";\r\n\tptrs[14]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[15]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[16]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[17]=\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[18]=\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[19]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[20]=\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[21]=\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[22]=\t\t\t\t\t\t\" БПС N9 \"; \r\n\tptrs[23]=\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[24]=\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[25]=\t\t\t\t\t\t\" БПС N12 \"; \r\n\tptrs[14+NUMIST]=\t\t\t\t\" Сброс \";\r\n\tptrs[15+NUMIST]=\t\t\t\t\" Сброс пл.расш. {\";\r\n\tptrs[16+NUMIST]=\t\t\t\t\" Выход \";\r\n\tptrs[17+NUMIST]=\t\t\t\t\" \";\r\n\tptrs[18+NUMIST]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n\r\n\tint2lcd_mmm(bat[0]._Ib,'<',2);\r\n\tint2lcd_mmm(bat[1]._Ib,'>',2);\r\n\r\n\tif(tst_state[0]==tst1) sub_bgnd(\"ВКЛ.\",'!',-3);\r\n\tif(tst_state[0]==tst2) sub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'!',-5);\r\n\r\n\tif(tst_state[1]==tst1) sub_bgnd(\"ВКЛ.\",'@',-3);\r\n\tif(tst_state[1]==tst2) sub_bgnd(\"ВЫКЛ.\",'@',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'@',-5);\r\n\r\n\tif(tst_state[9]==tst1) sub_bgnd(\"ВКЛ.\",'&',-3);\r\n\tif(tst_state[9]==tst2) sub_bgnd(\"ВЫКЛ.\",'&',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'&',-5);\r\n\r\n\tif(tst_state[2]==tst1) sub_bgnd(\"ВКЛ.\",'#',-3);\r\n\tif(tst_state[2]==tst2) sub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'#',-5);\r\n\r\n\tif(tst_state[3]==tst1) sub_bgnd(\"ВКЛ.\",'%',-3);\r\n\tif(tst_state[3]==tst2) sub_bgnd(\"ВЫКЛ.\",'%',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'%',-5);\r\n\r\n\tif(tst_state[4]==tst1) sub_bgnd(\"ВКЛ.\",'^',-3);\r\n\tif(tst_state[4]==tst2) sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'^',-5);\r\n\r\n\tif(tst_state[7]==tst1) sub_bgnd(\"ВЫКЛ.\",'(',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'(',-5);\r\n\r\n\tif(tst_state[8]==tst1) sub_bgnd(\"ВЫКЛ.\",')',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",')',-5);\r\n\r\n\r\n\r\n\tif(sub_ind==0)\r\n\t\t{\r\n\t\tif(tst_state[3]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_COMM,1,5);\r\n\t\telse if(tst_state[3]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_COMM,0,5);\r\n\t\t}\t\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[0]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,1,5);\r\n\t\telse if(tst_state[0]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,0,5);\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(tst_state[9]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_LOAD_OFF,1,5);\r\n\t\telse if(tst_state[9]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_LOAD_OFF,0,5);\r\n\t\t}\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(tst_state[2]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,1,5);\r\n\t\telse if(tst_state[2]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_WARM,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_WARM,0,5);\r\n\t\t}\r\n\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif(tst_state[4]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,5);\r\n\t\telse if(tst_state[4]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,0,5);\r\n\t\t}\r\n\r\n\r\n\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif(tst_state[7]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<0),10);\r\n\r\n\t\t}\r\n\telse if(sub_ind==13)\r\n\t\t{\r\n\t\tif(tst_state[8]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<1),10);\r\n\r\n\t\t}\r\n\r\n\t//int2lcdyx(cv_pos,0,2,0);\r\n\t//char2lcdbyx(rel_warm_plazma,0,7);\r\n\tint2lcd(ext_can_cnt,'{',0);\r\n \t} /\r\n\r\nelse if(ind==iTst_KONTUR)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[1]=\t\t\t\t\t\t\" сети !\";\r\n ptrs[2]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[3]=\t\t\t\t\t\t\" освещения @\";\r\n ptrs[4]=\t\t\t\t\t\t\" Реле отключения \";\r\n ptrs[5]=\t\t\t\t\t\t\" нагрузки &\";\r\n ptrs[6]=\t\t\t\t\t\t\" Перемешивающий \";\r\n ptrs[7]=\t\t\t\t\t\t\" вентилятор #\";\r\n if(RELE_LOG)\r\n\t\t{\r\n\t\tptrs[6]=\t\t\t\t\t\" Реле \";\r\n \tptrs[7]=\t\t\t\t\t\" отопителя #\";\r\n\t\t}\r\n ptrs[8]=\t\t\t\t\t\t\" Реле аварий \"; \r\n ptrs[9]= \" общее %\";\r\n ptrs[10]=\t\t\t\t\t\t\" Приточный \";\r\n ptrs[11]=\t\t\t\t\t\t\" вентилятор l\";\r\n\r\n ptrs[12]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[13]=\t\t\t\t\t\t\" самокалибровки ^\";\r\n\r\n\tif((sub_ind==12)&&(bFL))\r\n\t\t{\r\n\t\tptrs[12]=\t\t\t\t\t\" Iбат1 = <A \";\r\n \tptrs[13]=\t\t\t\t\t\" Iбат2 = >A \";\r\n\t\t}\r\n ptrs[14]=\t\t\t\t\t\t\" Реле бат.N1 (\";\r\n ptrs[15]=\t\t\t\t\t\t\" Реле бат.N2 )\";\r\n\tptrs[16]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[17]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[18]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[19]=\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[20]=\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[21]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[22]=\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[23]=\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[24]=\t\t\t\t\t\t\" БПС N9 \"; \r\n\tptrs[25]=\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[26]=\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[27]=\t\t\t\t\t\t\" БПС N12 \"; \r\n\tptrs[16+NUMIST]=\t\t\t\t\" Сброс \";\r\n\tptrs[17+NUMIST]=\t\t\t\t\" Сброс пл.расш. {\";\r\n\tptrs[18+NUMIST]=\t\t\t\t\" Выход \";\r\n\tptrs[19+NUMIST]=\t\t\t\t\" \";\r\n\tptrs[20+NUMIST]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n\r\n\tint2lcd_mmm(bat[0]._Ib,'<',2);\r\n\tint2lcd_mmm(bat[1]._Ib,'>',2);\r\n\r\n\tif(tst_state[0]==tst1) sub_bgnd(\"ВКЛ.\",'!',-3);\r\n\tif(tst_state[0]==tst2) sub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'!',-5);\r\n\r\n\tif(tst_state[1]==tst1) sub_bgnd(\"ВКЛ.\",'@',-3);\r\n\tif(tst_state[1]==tst2) sub_bgnd(\"ВЫКЛ.\",'@',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'@',-5);\r\n\r\n\tif(tst_state[9]==tst1) sub_bgnd(\"ВКЛ.\",'&',-3);\r\n\tif(tst_state[9]==tst2) sub_bgnd(\"ВЫКЛ.\",'&',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'&',-5);\r\n\r\n\tif(tst_state[2]==tst1) sub_bgnd(\"ВКЛ.\",'#',-3);\r\n\tif(tst_state[2]==tst2) sub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'#',-5);\r\n\r\n\tif(tst_state[3]==tst1) sub_bgnd(\"ВКЛ.\",'%',-3);\r\n\tif(tst_state[3]==tst2) sub_bgnd(\"ВЫКЛ.\",'%',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'%',-5);\r\n\r\n\tif(tst_state[4]==tst1) sub_bgnd(\"ВКЛ.\",'^',-3);\r\n\tif(tst_state[4]==tst2) sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'^',-5);\r\n\r\n\tif(tst_state[7]==tst1) sub_bgnd(\"ВЫКЛ.\",'(',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'(',-5);\r\n\r\n\tif(tst_state[8]==tst1) sub_bgnd(\"ВЫКЛ.\",')',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",')',-5);\r\n\r\n\tif((tst_state[10]>=1)&&(tst_state[10]<=20)) int2lcd(tst_state[10],'l',0);\r\n\telse sub_bgnd(\"РАБОЧ.\",'l',-5);\r\n\r\n\t\r\n\tif(sub_ind==0)\r\n\t\t{\r\n\t\tif(tst_state[0]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,1,5);\r\n\t\telse if(tst_state[0]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,0,5);\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_LIGHT,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_LIGHT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(tst_state[9]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_LOAD_OFF,1,5);\r\n\t\telse if(tst_state[9]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_LOAD_OFF,0,5);\r\n\t\t}\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(tst_state[2]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT_WARM,1,5);\r\n\t\telse if(tst_state[2]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT_WARM,0,5);\r\n\t\t}\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif(tst_state[3]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_COMM,1,5);\r\n\t\telse if(tst_state[3]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_COMM,0,5);\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif((tst_state[10]>=1)&&(tst_state[10]<=20))mess_send(MESS2VENT_HNDL,PARAM_VENT_CB,tst_state[10],5);\r\n\t\t}\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif(tst_state[4]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,5);\r\n\t\telse if(tst_state[4]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,0,5);\r\n\t\t}\r\n\r\n\r\n\r\n\telse if(sub_ind==14)\r\n\t\t{\r\n\t\tif(tst_state[7]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<0),10);\r\n\r\n\t\t}\r\n\telse if(sub_ind==15)\r\n\t\t{\r\n\t\tif(tst_state[8]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<1),10);\r\n\r\n\t\t}\r\n\r\n\t//int2lcdyx(cv_pos,0,2,0);\r\n\t//char2lcdbyx(rele_stat,0,7);\r\n\tint2lcd(ext_can_cnt,'{',0);\r\n \t}\r\n\r\nelse if(ind==iTst_3U)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[1]=\t\t\t\t\t\t\" сети !\";\r\n ptrs[2]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[3]=\t\t\t\t\t\t\" батареи №1 @\";\r\n ptrs[4]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[5]=\t\t\t\t\t\t\" батареи №2 &\";\r\n ptrs[6]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[7]=\t\t\t\t\t\t\" источников #\";\r\n ptrs[8]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[9]=\t\t\t\t\t\t\" самокалибровки ^\";\r\n\r\n\tif((sub_ind==8)&&(bFL2))\r\n\t\t{\r\n\t\tptrs[8]=\t\t\t\t\t\" Iбат1 = <A \";\r\n \tptrs[9]=\t\t\t\t\t\" Iбат2 = >A \";\r\n\t\t}\r\n ptrs[10]=\t\t\t\t\t\t\" Реле бат.N1 (\";\r\n ptrs[11]=\t\t\t\t\t\t\" Реле бат.N2 )\";\r\n\tptrs[12]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[13]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[14]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[15]=\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[16]=\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[17]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[18]=\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[19]=\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[20]=\t\t\t\t\t\t\" БПС N9 \"; \r\n\tptrs[21]=\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[22]=\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[23]=\t\t\t\t\t\t\" БПС N12 \"; \r\n\tptrs[12+NUMIST]=\t\t\t\t\" Сброс \";\r\n\tptrs[13+NUMIST]=\t\t\t\t\" Выход \";\r\n\tptrs[14+NUMIST]=\t\t\t\t\" \";\r\n\tptrs[15+NUMIST]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n\r\n\tint2lcd_mmm(bat[0]._Ib,'<',2);\r\n\tint2lcd_mmm(bat[1]._Ib,'>',2);\r\n\r\n\tif(tst_state[0]==tst1) sub_bgnd(\"ВКЛ.\",'!',-3);\r\n\tif(tst_state[0]==tst2) sub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'!',-5);\r\n\r\n\tif(tst_state[1]==tst1) sub_bgnd(\"ВКЛ.\",'@',-3);\r\n\tif(tst_state[1]==tst2) sub_bgnd(\"ВЫКЛ.\",'@',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'@',-5);\r\n\r\n\tif(tst_state[2]==tst1) sub_bgnd(\"ВКЛ.\",'&',-3);\r\n\tif(tst_state[2]==tst2) sub_bgnd(\"ВЫКЛ.\",'&',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'&',-5);\r\n\r\n\tif(tst_state[3]==tst1) sub_bgnd(\"ВКЛ.\",'#',-3);\r\n\tif(tst_state[3]==tst2) sub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'#',-5);\r\n\r\n\tif(tst_state[4]==tst1) sub_bgnd(\"ВКЛ.\",'^',-3);\r\n\tif(tst_state[4]==tst2) sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'^',-5);\r\n\r\n\r\n\tif(tst_state[5]==tst1) sub_bgnd(\"ВЫКЛ.\",'(',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'(',-5);\r\n\r\n\tif(tst_state[6]==tst1) sub_bgnd(\"ВЫКЛ.\",')',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",')',-5);\r\n\r\n\r\n\t\r\n\tif(sub_ind==0)\r\n\t\t{\r\n\t\tif(tst_state[0]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,1,5);\r\n\t\telse if(tst_state[0]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,0,5);\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT1,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT1,0,5);\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(tst_state[2]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT2,1,5);\r\n\t\telse if(tst_state[2]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT2,0,5);\r\n\t\t}\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(tst_state[3]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,1,5);\r\n\t\telse if(tst_state[3]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,0,5);\r\n\t\t}\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif(tst_state[4]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,5);\r\n\t\telse if(tst_state[4]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,0,5);\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif(tst_state[5]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<0),10);\r\n\r\n\t\t}\r\n\telse if(sub_ind==11)\r\n\t\t{\r\n\t\tif(tst_state[6]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<1),10);\r\n\r\n\t\t}\r\n\tint2lcdyx(sub_ind,0,19,0);\r\n\tint2lcdyx(index_set,0,17,0);\r\n\tint2lcdyx(bat[0]._cnt_to_block,0,3,0);\r\n\tint2lcdyx(bat[1]._cnt_to_block,0,7,0);\r\n\t//int2lcdyx(sub_ind1,0,1,0);\r\n \t}\r\n\r\nelse if(ind==iTst_GLONASS)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[1]=\t\t\t\t\t\t\" сети !\";\r\n ptrs[2]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[3]=\t\t\t\t\t\t\" батареи №1 @\";\r\n ptrs[4]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[5]=\t\t\t\t\t\t\" батареи №2 &\";\r\n ptrs[6]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[7]=\t\t\t\t\t\t\" источников #\";\r\n ptrs[8]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[9]=\t\t\t\t\t\t\" самокалибровки ^\";\r\n\r\n\tif((sub_ind==8)&&(bFL2))\r\n\t\t{\r\n\t\tptrs[8]=\t\t\t\t\t\" Iбат1 = <A \";\r\n \tptrs[9]=\t\t\t\t\t\" Iбат2 = >A \";\r\n\t\t}\r\n ptrs[10]=\t\t\t\t\t\t\" Реле бат.N1 (\";\r\n ptrs[11]=\t\t\t\t\t\t\" Реле бат.N2 )\";\r\n\tptrs[12]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[13]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[14]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[15]=\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[16]=\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[17]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[18]=\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[19]=\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[20]=\t\t\t\t\t\t\" БПС N9 \"; \r\n\tptrs[21]=\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[22]=\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[23]=\t\t\t\t\t\t\" БПС N12 \"; \r\n\tptrs[12+NUMIST]=\t\t\t\t\" Сброс \";\r\n\tptrs[13+NUMIST]=\t\t\t\t\" Выход \";\r\n\tptrs[14+NUMIST]=\t\t\t\t\" \";\r\n\tptrs[15+NUMIST]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n\r\n\tint2lcd_mmm(bat[0]._Ib,'<',2);\r\n\tint2lcd_mmm(bat[1]._Ib,'>',2);\r\n\r\n\tif(tst_state[0]==tst1) sub_bgnd(\"ВКЛ.\",'!',-3);\r\n\tif(tst_state[0]==tst2) sub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'!',-5);\r\n\r\n\tif(tst_state[1]==tst1) sub_bgnd(\"ВКЛ.\",'@',-3);\r\n\tif(tst_state[1]==tst2) sub_bgnd(\"ВЫКЛ.\",'@',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'@',-5);\r\n\r\n\tif(tst_state[2]==tst1) sub_bgnd(\"ВКЛ.\",'&',-3);\r\n\tif(tst_state[2]==tst2) sub_bgnd(\"ВЫКЛ.\",'&',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'&',-5);\r\n\r\n\tif(tst_state[3]==tst1) sub_bgnd(\"ВКЛ.\",'#',-3);\r\n\tif(tst_state[3]==tst2) sub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'#',-5);\r\n\r\n\tif(tst_state[4]==tst1) sub_bgnd(\"ВКЛ.\",'^',-3);\r\n\tif(tst_state[4]==tst2) sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'^',-5);\r\n\r\n\r\n\tif(tst_state[5]==tst1) sub_bgnd(\"ВЫКЛ.\",'(',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'(',-5);\r\n\r\n\tif(tst_state[6]==tst1) sub_bgnd(\"ВЫКЛ.\",')',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",')',-5);\r\n\r\n\r\n\t\r\n\tif(sub_ind==0)\r\n\t\t{\r\n\t\tif(tst_state[0]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,1,5);\r\n\t\telse if(tst_state[0]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,0,5);\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT1,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT1,0,5);\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(tst_state[2]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT2,1,5);\r\n\t\telse if(tst_state[2]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT2,0,5);\r\n\t\t}\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(tst_state[3]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,1,5);\r\n\t\telse if(tst_state[3]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,0,5);\r\n\t\t}\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif(tst_state[4]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,5);\r\n\t\telse if(tst_state[4]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,0,5);\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif(tst_state[5]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<0),10);\r\n\r\n\t\t}\r\n\telse if(sub_ind==11)\r\n\t\t{\r\n\t\tif(tst_state[6]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<1),10);\r\n\r\n\t\t}\r\n\t//int2lcdyx(sub_ind,0,19,0);\r\n\t//int2lcdyx(index_set,0,17,0);\r\n\t//int2lcdyx(bat[0]._cnt_to_block,0,3,0);\r\n\t//int2lcdyx(bat[1]._cnt_to_block,0,7,0);\r\n\t//int2lcdyx(sub_ind1,0,1,0);\r\n \t}\r\n\r\nelse if(ind==iTst_6U)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[1]=\t\t\t\t\t\t\" сети !\";\r\n ptrs[2]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[3]=\t\t\t\t\t\t\" батареи N1 @\";\r\n ptrs[4]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[5]=\t\t\t\t\t\t\" батареи N2 &\";\r\n ptrs[6]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[7]=\t\t\t\t\t\t\" БПСов #\";\r\n ptrs[8]=\t\t\t\t\t\t\" Реле вент. %\";\r\n ptrs[9]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[10]=\t\t\t\t\t\t\" самокалибровки ^\";\r\n\tif((sub_ind==9)&&(bFL2))\r\n\t\t{\r\n\t\tptrs[9]=\t\t\t\t\t\" Iбат1 = <A \";\r\n \tptrs[10]=\t\t\t\t\t\" Iбат2 = >A \";\r\n\t\t}\r\n ptrs[11]=\t\t\t\t\t\t\" Реле бат.N1 (\";\r\n ptrs[12]=\t\t\t\t\t\t\" Реле бат.N2 )\";\r\n\tptrs[13]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[14]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[15]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[16]=\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[17]=\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[18]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[19]=\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[20]=\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[21]=\t\t\t\t\t\t\" БПС N9 \"; \r\n\tptrs[22]=\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[23]=\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[24]=\t\t\t\t\t\t\" БПС N12 \";\r\n\t ptrs[13+NUMIST]=\t\t\t\t\" Сброс \"; \r\n\tptrs[14+NUMIST]=\t\t\t\t\" Выход \";\r\n\tptrs[15+NUMIST]=\t\t\t\t\" \";\r\n\tptrs[16+NUMIST]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n/\tint2lcdyx(sub_ind,0,19,0);\r\n\tint2lcdyx(index_set,0,17,0);\r\n\tint2lcdyx(tst_state[0],0,15,0); /\r\n\r\n\tint2lcd_mmm(bat[0]._Ib,'<',2);\r\n\tint2lcd_mmm(bat[1]._Ib,'>',2);\r\n\r\n\tif(tst_state[0]==tst1) sub_bgnd(\"ВКЛ.\",'!',-3);\r\n\tif(tst_state[0]==tst2) sub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'!',-5);\r\n\r\n\tif(tst_state[1]==tst1) sub_bgnd(\"ВКЛ.\",'@',-3);\r\n\tif(tst_state[1]==tst2) sub_bgnd(\"ВЫКЛ.\",'@',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'@',-5);\r\n\r\n\tif(tst_state[9]==tst1) sub_bgnd(\"ВКЛ.\",'&',-3);\r\n\tif(tst_state[9]==tst2) sub_bgnd(\"ВЫКЛ.\",'&',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'&',-5);\r\n\r\n\tif(tst_state[2]==tst1) sub_bgnd(\"ВКЛ.\",'#',-3);\r\n\tif(tst_state[2]==tst2) sub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'#',-5);\r\n\r\n\tif(tst_state[3]==tst1) sub_bgnd(\"ВКЛ.\",'%',-3);\r\n\tif(tst_state[3]==tst2) sub_bgnd(\"ВЫКЛ.\",'%',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'%',-5);\r\n\r\n\tif(tst_state[4]==tst1) sub_bgnd(\"ВКЛ.\",'^',-3);\r\n\tif(tst_state[4]==tst2) sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'^',-5);\r\n\r\n\tif(tst_state[7]==tst1) sub_bgnd(\"ВЫКЛ.\",'(',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'(',-5);\r\n\r\n\tif(tst_state[8]==tst1) sub_bgnd(\"ВЫКЛ.\",')',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",')',-5);\r\n\t\r\n\tif(sub_ind==0)\r\n\t\t{\r\n\t\tif(tst_state[0]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,1,5);\r\n\t\telse if(tst_state[0]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,0,5);\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT1,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT1,0,5);\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(tst_state[9]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT2,1,5);\r\n\t\telse if(tst_state[9]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT2,0,5);\r\n\t\t}\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(tst_state[2]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,1,5);\r\n\t\telse if(tst_state[2]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,0,5);\r\n\t\t}\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif(tst_state[3]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,1,5);\r\n\t\telse if(tst_state[3]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\t\tif(tst_state[4]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,5);\r\n\t\telse if(tst_state[4]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,0,5);\r\n\t\t}\r\n\telse if(sub_ind==11)\r\n\t\t{\r\n\t\tif(tst_state[7]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<0),10);\r\n\r\n\t\t}\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif(tst_state[8]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<1),10);\r\n\r\n\t\t}\r\n\r\n\t\t//char2lcdbyx(GET_REG(LPC_GPIO0->FIOPIN,4,8),0,19);\r\n\r\n\r\n \t}\r\n\r\nelse if(ind==iTst_220)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[1]=\t\t\t\t\t\t\" сети !\";\r\n ptrs[2]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[3]=\t\t\t\t\t\t\" батарей @\";\r\n ptrs[4]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[5]=\t\t\t\t\t\t\" БПСов #\";\r\n ptrs[6]=\t\t\t\t\t\t\" Реле вент. %\";\r\n ptrs[7]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[8]=\t\t\t\t\t\t\" самокалибровки ^\";\r\n\tif((sub_ind==7)&&(bFL2))\r\n\t\t{\r\n\t\tptrs[7]=\t\t\t\t\t\" Iбат1 = <A \";\r\n \tptrs[8]=\t\t\t\t\t\" Iбат2 = >A \";\r\n\t\t}\r\n ptrs[9]=\t\t\t\t\t\t\" Реле бат.N1 [\";\r\n ptrs[10]=\t\t\t\t\t\t\" Реле бат.N2 ]\";\r\n\tptrs[11]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[12]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[13]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[14]=\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[15]=\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[16]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[17]=\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[18]=\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[19]=\t\t\t\t\t\t\" БПС N9 \"; \r\n\tptrs[20]=\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[21]=\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[22]=\t\t\t\t\t\t\" БПС N12 \"; \r\n\tptrs[11+NUMIST]=\t\t\t\t\" Выход \";\r\n\tptrs[12+NUMIST]=\t\t\t\t\" Проверка WDT(внутр)\";\r\n\tptrs[13+NUMIST]=\t\t\t\t\" Проверка WDT(внешн)\";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n/\tint2lcdyx(sub_ind,0,19,0);\r\n\tint2lcdyx(index_set,0,17,0);\r\n\tint2lcdyx(tst_state[0],0,15,0); /\r\n\r\n\tint2lcd_mmm(bat[0]._Ib,'<',2);\r\n\tint2lcd_mmm(bat[1]._Ib,'>',2);\r\n\r\n\tif(tst_state[0]==tst1) sub_bgnd(\"ВКЛ.\",'!',-3);\r\n\tif(tst_state[0]==tst2) sub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'!',-5);\r\n\r\n\tif(tst_state[1]==tst1) sub_bgnd(\"ВКЛ.\",'@',-3);\r\n\tif(tst_state[1]==tst2) sub_bgnd(\"ВЫКЛ.\",'@',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'@',-5);\r\n\r\n\tif(tst_state[2]==tst1) sub_bgnd(\"ВКЛ.\",'#',-3);\r\n\tif(tst_state[2]==tst2) sub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'#',-5);\r\n\r\n\tif(tst_state[3]==tst1) sub_bgnd(\"ВКЛ.\",'%',-3);\r\n\tif(tst_state[3]==tst2) sub_bgnd(\"ВЫКЛ.\",'%',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'%',-5);\r\n\r\n\tif(tst_state[4]==tst1) sub_bgnd(\"ВКЛ.\",'^',-3);\r\n\tif(tst_state[4]==tst2) sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'^',-5);\r\n\r\n\tif(tst_state[7]==tst1) sub_bgnd(\"ВЫКЛ.\",'[',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'[',-5);\r\n\r\n\tif(tst_state[8]==tst1) sub_bgnd(\"ВЫКЛ.\",']',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",']',-5);\r\n\t\r\n\tif(sub_ind==0)\r\n\t\t{\r\n\t\tif(tst_state[0]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,1,5);\r\n\t\telse if(tst_state[0]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,0,5);\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(tst_state[2]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,1,5);\r\n\t\telse if(tst_state[2]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,0,5);\r\n\t\t}\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(tst_state[3]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,1,5);\r\n\t\telse if(tst_state[3]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==7)\r\n\t\t{\r\n\t\tif(tst_state[4]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,5);\r\n\t\telse if(tst_state[4]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,0,5);\r\n\t\t}\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\t\tif(tst_state[7]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<0),10);\r\n\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif(tst_state[8]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<1),10);\r\n\r\n\t\t}\r\n\t}\t \r\n\r\nelse if(ind==iTst_220_380)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[1]=\t\t\t\t\t\t\" сети !\";\r\n ptrs[2]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[3]=\t\t\t\t\t\t\" батареи N1 @\";\r\n ptrs[4]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[5]=\t\t\t\t\t\t\" БПСов #\";\r\n\t if(RELE_VENT_LOGIC==1)\r\n\t \t{\r\n\t\tptrs[6]=\t\t\t\t\t\" Реле вент. %\";\r\n\t\t}\r\n\t else ptrs[6]=\t\t\t\t\t\" Реле Ав.БатN2 %\";\r\n ptrs[7]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[8]=\t\t\t\t\t\t\" самокалибровки ^\";\r\n\tif((sub_ind==7)&&(bFL2))\r\n\t\t{\r\n\t\tptrs[7]=\t\t\t\t\t\" Iбат1 = <A \";\r\n \tptrs[8]=\t\t\t\t\t\" Iбат2 = >A \";\r\n\t\t}\r\n ptrs[9]=\t\t\t\t\t\t\" Реле бат.N1 (\";\r\n ptrs[10]=\t\t\t\t\t\t\" Реле бат.N2 )\";\r\n\tptrs[11]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[12]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[13]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[14]=\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[15]=\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[16]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[17]=\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[18]=\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[19]=\t\t\t\t\t\t\" БПС N9 \"; \r\n\tptrs[20]=\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[21]=\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[22]=\t\t\t\t\t\t\" БПС N12 \"; \r\n\tptrs[11+NUMIST]=\t\t\t\t\" Выход \";\r\n\tptrs[12+NUMIST]=\t\t\t\t\" Сброс \";\r\n\tptrs[13+NUMIST]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n/\tint2lcdyx(sub_ind,0,19,0);\r\n\tint2lcdyx(index_set,0,17,0);\r\n\tint2lcdyx(tst_state[0],0,15,0); /\r\n\r\n\tint2lcd_mmm(bat[0]._Ib,'<',2);\r\n\tint2lcd_mmm(bat[1]._Ib,'>',2);\r\n\r\n\tif(tst_state[0]==tst1) sub_bgnd(\"ВКЛ.\",'!',-3);\r\n\tif(tst_state[0]==tst2) sub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'!',-5);\r\n\r\n\tif(tst_state[1]==tst1) sub_bgnd(\"ВКЛ.\",'@',-3);\r\n\tif(tst_state[1]==tst2) sub_bgnd(\"ВЫКЛ.\",'@',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'@',-5);\r\n\r\n\tif(tst_state[2]==tst1) sub_bgnd(\"ВКЛ.\",'#',-3);\r\n\tif(tst_state[2]==tst2) sub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'#',-5);\r\n\r\n\tif(tst_state[3]==tst1) sub_bgnd(\"ВКЛ.\",'%',-3);\r\n\tif(tst_state[3]==tst2) sub_bgnd(\"ВЫКЛ.\",'%',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'%',-5);\r\n\r\n\tif(tst_state[4]==tst1) sub_bgnd(\"ВКЛ.\",'^',-3);\r\n\tif(tst_state[4]==tst2) sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'^',-5);\r\n\r\n\tif(tst_state[7]==tst1) sub_bgnd(\"ВЫКЛ.\",'(',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'(',-5);\r\n\r\n\tif(tst_state[8]==tst1) sub_bgnd(\"ВЫКЛ.\",')',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",')',-5);\r\n\t\r\n\tif(sub_ind==0)\r\n\t\t{\r\n\t\tif(tst_state[0]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,1,5);\r\n\t\telse if(tst_state[0]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,0,5);\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(tst_state[2]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,1,5);\r\n\t\telse if(tst_state[2]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,0,5);\r\n\t\t}\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(tst_state[3]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,1,5);\r\n\t\telse if(tst_state[3]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==7)\r\n\t\t{\r\n\t\tif(tst_state[4]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,5);\r\n\t\telse if(tst_state[4]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,0,5);\r\n\t\t}\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\t\tif(tst_state[7]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<0),10);\r\n\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif(tst_state[8]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<1),10);\r\n\r\n\t\t}\r\n\t}\t \r\n\r\nelse if(ind==iTst_220_IPS_TERMOKOMPENSAT)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[1]=\t\t\t\t\t\t\" сети !\";\r\n ptrs[2]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[3]=\t\t\t\t\t\t\" БПСов #\";\r\n ptrs[4]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[5]=\t\t\t\t\t\t\" батарей @\";\r\n\tptrs[6]=\t\t\t\t\t\t\" Реле дополнительное\";\r\n ptrs[7]=\t\t\t\t\t\t\" %\";\r\n\tptrs[8]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[9]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[10]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[11]=\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[12]=\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[13]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[14]=\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[15]=\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[16]=\t\t\t\t\t\t\" БПС N9 \"; \r\n\tptrs[17]=\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[18]=\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[19]=\t\t\t\t\t\t\" БПС N12 \";\r\n\tif(NUMBDR)\r\n\t\t{\r\n\t\tptrs[8+NUMIST]=\t\t\t\t\" Реле выносного \";\r\n \tptrs[9+NUMIST]=\t\t\t\t\" блока N1 {\";\r\n\t\tptrs[10+NUMIST]=\t\t\t\" Реле выносного \";\r\n \tptrs[11+NUMIST]=\t\t\t\" блока N2 }\";\r\n\t\tptrs[12+NUMIST]=\t\t\t\" Реле выносного \";\r\n \tptrs[13+NUMIST]=\t\t\t\" блока N3 [\";\r\n\t\tptrs[14+NUMIST]=\t\t\t\" Реле выносного \";\r\n \tptrs[15+NUMIST]=\t\t\t\" блока N4 ]\";\r\n\t\t}\t\t\t\t\t\t\t \r\n\tptrs[8+NUMIST + 8(NUMBDR==1)]=\t\" Выход \";\r\n\tptrs[9+NUMIST + 8(NUMBDR==1)]=\t\" Проверка WDT(внутр)\";\r\n\tptrs[10+NUMIST + 8(NUMBDR==1)]=\" Проверка WDT(внешн)\";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n\r\n\t//int2lcd_mmm(bat[0]._Ib,'<',2);\r\n\t//int2lcd_mmm(bat[1]._Ib,'>',2);\r\n\r\n\tif(tst_state[0]==tst1) sub_bgnd(\"ВКЛ.\",'!',-3);\r\n\tif(tst_state[0]==tst2) sub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'!',-5);\r\n\r\n\tif(tst_state[1]==tst1) sub_bgnd(\"ВКЛ.\",'@',-3);\r\n\tif(tst_state[1]==tst2) sub_bgnd(\"ВЫКЛ.\",'@',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'@',-5);\r\n\r\n\tif(tst_state[2]==tst1) sub_bgnd(\"ВКЛ.\",'#',-3);\r\n\tif(tst_state[2]==tst2) sub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'#',-5);\r\n\r\n\tif(tst_state[3]==tst1) sub_bgnd(\"ВКЛ.\",'%',-3);\r\n\tif(tst_state[3]==tst2) sub_bgnd(\"ВЫКЛ.\",'%',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'%',-5);\r\n\r\n\t//if(tst_state[4]==tst1) sub_bgnd(\"ВКЛ.\",'^',-3);\r\n\t//if(tst_state[4]==tst2) sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\t//else sub_bgnd(\"РАБОЧ.\",'^',-5);\r\n\r\n\t//if(tst_state[7]==tst1) sub_bgnd(\"ВЫКЛ.\",'(',-4);\r\n\t//else sub_bgnd(\"РАБОЧ.\",'(',-5);\r\n\r\n\t//if(tst_state[8]==tst1) sub_bgnd(\"ВЫКЛ.\",')',-4);\r\n\t//else sub_bgnd(\"РАБОЧ.\",')',-5);\r\n\r\n\tif(tst_state[5]==tst1) sub_bgnd(\"ВКЛ.\",'{',-3);\r\n\tif(tst_state[5]==tst2) sub_bgnd(\"ВЫКЛ.\",'{',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'{',-5);\r\n\r\n\tif(tst_state[6]==tst1) sub_bgnd(\"ВКЛ.\",'}',-3);\r\n\tif(tst_state[6]==tst2) sub_bgnd(\"ВЫКЛ.\",'}',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'}',-5);\r\n\t\r\n\tif(tst_state[7]==tst1) sub_bgnd(\"ВКЛ.\",'[',-3);\r\n\tif(tst_state[7]==tst2) sub_bgnd(\"ВЫКЛ.\",'[',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'[',-5);\r\n\t\r\n\tif(tst_state[8]==tst1) sub_bgnd(\"ВКЛ.\",']',-3);\r\n\tif(tst_state[8]==tst2) sub_bgnd(\"ВЫКЛ.\",']',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",']',-5);\r\n\t\t\t\t\r\n\tif(sub_ind==0)\r\n\t\t{\r\n\t\tif(tst_state[0]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,1,5);\r\n\t\telse if(tst_state[0]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,0,5);\r\n\t\t}\r\n/\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT,0,5);\r\n\t\t}/\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[2]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,1,5);\r\n\t\telse if(tst_state[2]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,0,5);\r\n\t\t}\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BAT,0,5);\r\n\t\t}\r\n\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(tst_state[3]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_EXT,1,5);\r\n\t\telse if(tst_state[3]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_EXT,0,5);\r\n\t\t}\r\n/\telse if(sub_ind==7)\r\n\t\t{\r\n\t\tif(tst_state[4]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,5);\r\n\t\telse if(tst_state[4]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,0,5);\r\n\t\t}\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\t\tif(tst_state[7]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<0),10);\r\n\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif(tst_state[8]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<1),10);\r\n\r\n\t\t}/\r\n\telse if((sub_ind==(8+NUMIST))&&(NUMBDR==1))\r\n\t\t{\r\n\t\tif(tst_state[5]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_BDR1,1,5);\r\n\t\telse if(tst_state[5]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_BDR1,0,5);\r\n\t\t}\r\n\telse if((sub_ind==(10+NUMIST))&&(NUMBDR==1))\r\n\t\t{\r\n\t\tif(tst_state[6]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_BDR2,1,5);\r\n\t\telse if(tst_state[6]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_BDR2,0,5);\r\n\t\t}\r\n\telse if((sub_ind==(12+NUMIST))&&(NUMBDR==1))\r\n\t\t{\r\n\t\tif(tst_state[7]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_BDR3,1,5);\r\n\t\telse if(tst_state[7]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_BDR3,0,5);\r\n\t\t}\r\n\telse if((sub_ind==(14+NUMIST))&&(NUMBDR==1))\r\n\t\t{\r\n\t\tif(tst_state[8]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_BDR4,1,5);\r\n\t\telse if(tst_state[8]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_BDR4,0,5);\r\n\t\t}\r\n\r\n/\tint2lcdyx(sub_ind,0,19,0);\r\n\tint2lcdyx(index_set,0,17,0);\r\n\tint2lcdyx(tst_state[5],0,15,0); /\r\n\t//int2lcdyx(bdr_transmit_stat,0,12,0); \r\n\t}\r\n#ifdef UKU_TELECORE2015\r\nelse if(ind==iTst_TELECORE)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[1]=\t\t\t\t\t\t\" сети !\";\r\n ptrs[2]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[3]=\t\t\t\t\t\t\" освещения @\";\r\n ptrs[4]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[5]=\t\t\t\t\t\t\" нагревателя #\";\r\n ptrs[6]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[7]=\t\t\t\t\t\t\" вентилятора $\";\r\n ptrs[8]=\t\t\t\t\t\t\" Внутренний \";\r\n ptrs[9]=\t\t\t\t\t\t\" вентилятор }\"; \r\n\tptrs[10]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[11]=\t\t\t\t\t\t\" самокалибровки ^\";\r\n\r\n\tif((sub_ind==10)&&(bFL))\r\n\t\t{\r\n\t\tptrs[10]=\t\t\t\t\t\" Iбат = <A \";\r\n \tptrs[11]=\t\t\t\t\t\" \";\r\n\t\t}\r\n\tptrs[12]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[13]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[14]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[15]=\t\t\t\t\t\t\" БПС N4 \";\r\n \tptrs[12+NUMIST]=\t\t\t\t\" Сброс \";\r\n\tptrs[13+NUMIST]=\t\t\t\t\" Сброс пл.расш. {\";\r\n\tptrs[14+NUMIST]=\t\t\t\t\" Выход \";\r\n\tptrs[15+NUMIST]=\t\t\t\t\" \";\r\n\tptrs[16+NUMIST]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n\r\n\tint2lcd_mmm(bat[0]._Ib,'<',2);\r\n\tint2lcd_mmm(bat[1]._Ib,'>',2);\r\n\r\n\tif(tst_state[0]==tst1) sub_bgnd(\"ВКЛ.\",'!',-3);\r\n\tif(tst_state[0]==tst2) sub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'!',-5);\r\n\r\n\tif(tst_state[1]==tst1) sub_bgnd(\"ВКЛ.\",'@',-3);\r\n\tif(tst_state[1]==tst2) sub_bgnd(\"ВЫКЛ.\",'@',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'@',-5);\r\n\r\n\tif(tst_state[3]==tst1) sub_bgnd(\"ВКЛ.\",'#',-3);\r\n\tif(tst_state[3]==tst2) sub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'#',-5);\r\n\r\n\tif(tst_state[4]==tst1) sub_bgnd(\"ВКЛ.\",'$',-3);\r\n\tif(tst_state[4]==tst2) sub_bgnd(\"ВЫКЛ.\",'$',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'$',-5);\r\n\r\n\tif(tst_state[2]==tst1) sub_bgnd(\"ВКЛ.\",'^',-3);\r\n\tif(tst_state[2]==tst2) sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'^',-5);\r\n\r\n\tif(tst_state[5]==tst1) sub_bgnd(\"ВКЛ.\",'}',-3);\r\n\tif(tst_state[5]==tst2) sub_bgnd(\"ВЫКЛ.\",'}',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'}',-5);\r\n\r\n\tif(tst_state[7]==tst1) sub_bgnd(\"ВЫКЛ.\",'(',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'(',-5);\r\n\r\n\tif(tst_state[8]==tst1) sub_bgnd(\"ВЫКЛ.\",')',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",')',-5);\r\n\r\n\tif((tst_state[10]>=1)&&(tst_state[10]<=20)) int2lcd(tst_state[10],'l',0);\r\n\telse sub_bgnd(\"РАБОЧ.\",'l',-5);\r\n\r\n\t\r\n\tif(sub_ind==0)\r\n\t\t{\r\n\t\tif(tst_state[0]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,1,5);\r\n\t\telse if(tst_state[0]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,0,5);\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_LIGHT,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_LIGHT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(tst_state[3]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_WARM,1,5);\r\n\t\telse if(tst_state[3]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_WARM,0,5);\r\n\t\t}\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(tst_state[4]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,1,5);\r\n\t\telse if(tst_state[4]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif(tst_state[5]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_VVENT,1,5);\r\n\t\telse if(tst_state[5]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_VVENT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif(tst_state[2]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,5);\r\n\t\telse if(tst_state[2]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,0,5);\r\n\t\t}\r\n\r\n\r\n\r\n/\telse if(sub_ind==14)\r\n\t\t{\r\n\t\tif(tst_state[7]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<0),10);\r\n\r\n\t\t}\r\n\telse if(sub_ind==15)\r\n\t\t{\r\n\t\tif(tst_state[8]==tst1)mess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<1),10);\r\n\r\n\t\t}/\r\n\r\n\t//int2lcdyx(cv_pos,0,2,0);\r\n\t//char2lcdbyx(rele_stat,0,7);\r\n\tint2lcd(ext_can_cnt,'{',0);\r\n \t}\r\n#endif\r\n#ifdef UKU_TELECORE2017\r\nelse if(ind==iTst_TELECORE)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Реле аварии \";\r\n ptrs[1]=\t\t\t\t\t\t\" сети !\";\r\n ptrs[2]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[3]=\t\t\t\t\t\t\" нагревателя #\";\r\n ptrs[4]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[5]=\t\t\t\t\t\t\" вентилятора $\";\r\n ptrs[6]=\t\t\t\t\t\t\" Внутренний \";\r\n ptrs[7]=\t\t\t\t\t\t\" вентилятор }\";\r\n \tptrs[8]=\t\t\t\t\t\t\" Внешний \";\r\n\tptrs[9]=\t\t\t\t\t\t\" вентилятор @\";\r\n ptrs[10]=\t\t\t\t\t\t\" Реле отключения \";\r\n ptrs[11]=\t\t\t\t\t\t\" нагрузки &\";\t \r\n\tptrs[12]=\t\t\t\t\t\t\" Реле \";\r\n ptrs[13]=\t\t\t\t\t\t\" самокалибровки ^\";\r\n\r\n\r\n\tif((sub_ind==12)&&(bFL))\r\n\t\t{\r\n\t\tptrs[12]=\t\t\t\t\t\" Iбат1 = <A \";\r\n \tptrs[13]=\t\t\t\t\t\" Iбат2 = >A \";\r\n\t\t}\r\n\tptrs[14]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[15]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[16]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[17]=\t\t\t\t\t\t\" БПС N4 \";\r\n \tptrs[14+NUMIST]=\t\t\t\t\" Сброс \";\r\n\tptrs[15+NUMIST]=\t\t\t\t\" Выход \";\r\n\tptrs[16+NUMIST]=\t\t\t\t\" \";\r\n\tptrs[17+NUMIST]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n\r\n\tint2lcd_mmm(bat[0]._Ib,'<',2);\r\n\tint2lcd_mmm(bat[1]._Ib,'>',2);\r\n\r\n\tif(tst_state[0]==tst1) sub_bgnd(\"ВКЛ.\",'!',-3);\t\r\n\tif(tst_state[0]==tst2) sub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'!',-5);\r\n\r\n\tif(tst_state[1]==tst1) sub_bgnd(\"ВКЛ.\",'#',-3);\r\n\tif(tst_state[1]==tst2) sub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'#',-5);\r\n\r\n\tif(tst_state[2]==tst1) sub_bgnd(\"ВКЛ.\",'$',-3);\r\n\tif(tst_state[2]==tst2) sub_bgnd(\"ВЫКЛ.\",'$',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'$',-5);\r\n\r\n\tif(tst_state[3]==0) \tsub_bgnd(\"ВЫКЛ.\",'}',-4);\r\n\telse \t\t\t\t\tint2lcd(tst_state[3],'}',0);\r\n\r\n\tif(tst_state[4]==0) \tsub_bgnd(\"ВЫКЛ.\",'@',-4);\r\n\telse \t\t\t\t\tint2lcd(tst_state[4],'@',0);\r\n\r\n\tif(tst_state[5]==tst1) sub_bgnd(\"ВКЛ.\",'^',-3);\r\n\tif(tst_state[5]==tst2) sub_bgnd(\"ВЫКЛ.\",'^',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'^',-5);\r\n\r\n\tif(tst_state[6]==tst1) sub_bgnd(\"ВКЛ.\",'&',-3);\r\n\tif(tst_state[6]==tst2) sub_bgnd(\"ВЫКЛ.\",'&',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'&',-5);\r\n\r\n\r\n/\tif(tst_state[7]==tst1) sub_bgnd(\"ВЫКЛ.\",'(',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'(',-5);\r\n\r\n\tif(tst_state[8]==tst1) sub_bgnd(\"ВЫКЛ.\",')',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",')',-5);\r\n\r\n\tif((tst_state[10]>=1)&&(tst_state[10]<=20)) int2lcd(tst_state[10],'l',0);\r\n\telse sub_bgnd(\"РАБОЧ.\",'l',-5);/\r\n\r\n\t\r\n\tif(sub_ind==0)\r\n\t\t{\r\n\t\tif(tst_state[0]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,1,5);\r\n\t\telse if(tst_state[0]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,0,5);\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_WARM,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_WARM,0,5);\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(tst_state[2]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,1,5);\r\n\t\telse if(tst_state[2]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,0,5);\r\n\t\t}\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(tst_state[3]==0)\r\n\t\t\t{\r\n\t\t\tmess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,0,5);\r\n\t\t\tmess_send(MESS2KLIMAT_CNTRL,PARAM_KLIMAT_CNTRL_VENT_INT,0,5);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tmess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,1,5);\r\n\t\t\tmess_send(MESS2KLIMAT_CNTRL,PARAM_KLIMAT_CNTRL_VENT_INT,tst_state[3],5);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif(tst_state[4]==0)\r\n\t\t\t{\r\n\t\t\tmess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,0,5);\r\n\t\t\tmess_send(MESS2KLIMAT_CNTRL,PARAM_KLIMAT_CNTRL_VENT_EXT,0,5);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tmess_send(MESS2RELE_HNDL,PARAM_RELE_VENT,1,5);\r\n\t\t\tmess_send(MESS2KLIMAT_CNTRL,PARAM_KLIMAT_CNTRL_VENT_EXT,tst_state[4],5);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif(tst_state[6]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_LOAD_OFF,1,5);\r\n\t\telse if(tst_state[6]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_LOAD_OFF,0,5);\r\n\t\t}\r\n\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif(tst_state[5]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,1,5);\r\n\t\telse if(tst_state[5]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR,0,5);\r\n\t\t}\r\n\r\n\t//int2lcdyx(cv_pos,0,2,0);\r\n\t//char2lcdbyx(rele_stat,0,7);\r\n\tint2lcd(ext_can_cnt,'{',0);\r\n \t}\r\n#endif\r\n\r\n#ifdef IPS_SGEP_GAZPROM\r\nelse if(ind==iTst_IPS_SGEP_GAZPROM)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Реле аварии \";\r\n\tptrs[1]=\t\t\t\t\t\t\" сети !\";\r\n\tptrs[2]=\t\t\t\t\t\t\" Реле аварии \";\r\n\tptrs[3]=\t\t\t\t\t\t\" БПСов #\";\r\n\tptrs[4]=\t\t\t\t\t\t\" БПС N1 \";\r\n\tptrs[5]=\t\t\t\t\t\t\" БПС N2 \";\r\n\tptrs[6]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[7]=\t\t\t\t\t\t\" БПС N4 \";\r\n\tptrs[8]=\t\t\t\t\t\t\" БПС N5 \";\r\n\tptrs[9]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[10]=\t\t\t\t\t\t\" БПС N7 \";\r\n\tptrs[11]=\t\t\t\t\t\t\" БПС N8 \";\r\n\tptrs[12]=\t\t\t\t\t\t\" БПС N9 \"; \r\n\tptrs[13]=\t\t\t\t\t\t\" БПС N10 \";\r\n\tptrs[14]=\t\t\t\t\t\t\" БПС N11 \";\r\n\tptrs[15]=\t\t\t\t\t\t\" БПС N12 \";\r\n\t\t\t\t\t\t\t \r\n\tptrs[4+NUMIST]=\t\" Выход \";\r\n\tptrs[5+NUMIST]=\t\" Проверка WDT(внутр)\";\r\n\tptrs[6+NUMIST]=\" Проверка WDT(внешн)\";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n\r\n\t//int2lcd_mmm(bat[0]._Ib,'<',2);\r\n\t//int2lcd_mmm(bat[1]._Ib,'>',2);\r\n\r\n\tif(tst_state[0]==tst1) sub_bgnd(\"ВКЛ.\",'!',-3);\r\n\tif(tst_state[0]==tst2) sub_bgnd(\"ВЫКЛ.\",'!',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'!',-5);\r\n\r\n\tif(tst_state[1]==tst1) sub_bgnd(\"ВКЛ.\",'#',-3);\r\n\tif(tst_state[1]==tst2) sub_bgnd(\"ВЫКЛ.\",'#',-4);\r\n\telse sub_bgnd(\"РАБОЧ.\",'#',-5);\r\n\r\n\t\t\t\t\r\n\tif(sub_ind==0)\r\n\t\t{\r\n\t\tif(tst_state[0]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,1,5);\r\n\t\telse if(tst_state[0]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_NET,0,5);\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(tst_state[1]==tst1)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,1,5);\r\n\t\telse if(tst_state[1]==tst2)mess_send(MESS2RELE_HNDL,PARAM_RELE_AV_BPS,0,5);\r\n\t\t}\r\n\t//int2lcdyx(rele_hndl_plazma[0],0,10,0);\r\n\t//int2lcdyx(bRESET_INT_WDT,0,15,0);\r\n\t//int2lcdyx(bRESET_EXT_WDT,0,19,0);\r\n\r\n\t}\r\n#endif\r\n\r\nelse if(ind==iTst_bps)\r\n\t{\r\n\tif(tst_state[5]==tstOFF)ptrs[0]=\t\t\" Выключен \";\r\n\telse if(tst_state[5]==tst1)ptrs[0]=\t\t\" Включен \";\r\n\telse ptrs[0]=\t\t\t\t\t\t\t\" Автономно \";\r\n ptrs[1]=\t\t\t\t\t\t\t\t\" ШИМ @ \";\r\n ptrs[2]=\t\t\t\t\t\t\t\t\" U = .$В I = .#A \";\r\n\tptrs[3]=\t\t\t\t\t\t\t\t\" Выход \";\r\n\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" ТЕСТ БПС N! \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n\tif(tst_state[6]==tst1) sub_bgnd(\"Uтемпер( .@В)\",'@',-13);\r\n\telse if(tst_state[6]==tst2) sub_bgnd(\"Umax\",'@',-3);\r\n\telse sub_bgnd(\"Umin\",'@',-3);\r\n\r\n\r\n\r\n\r\n\t/int2lcdyx(sub_ind,0,19,0);\r\n\tint2lcdyx(index_set,0,17,0);\r\n\tint2lcdyx(tst_state[5],0,3,0);\r\n\tint2lcdyx(tst_state[6],0,5,0); /\r\n\t//int2lcdyx(sub_ind1,0,4,0); \r\n\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tif(tst_state[5]==tst2)\r\n\t\t{\r\n\t\t#ifdef UKU_220\r\n\t\tint2lcd(load_U/10,'$',0);\r\n\t\t#else \r\n\t\tint2lcd(load_U,'$',1);\r\n\t\t#endif\r\n\t\t}\r\n\telse\r\n\t\t{\r\n\t\t#ifdef UKU_220\r\n\t\tint2lcd(bps[sub_ind1]._Uii/10,'$',0);\r\n\t\t#else \r\n\t\tint2lcd(bps[sub_ind1]._Uii,'$',1);\r\n\t\t#endif\r\n\t\t}\r\n\t\r\n\tint2lcd(bps[sub_ind1]._Ii,'#',1);\r\n\tint2lcd(u_necc,'@',1);\r\n\r\n\r\n\tif(tst_state[5]==tstOFF) mess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,~(1<<sub_ind1),10);\r\n\telse mess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n\t\r\n\tif(tst_state[5]==tst2) mess_send(MESS2NET_DRV,PARAM_BPS_NET_OFF,1,10);\r\n\t\t\r\n\tif(tst_state[6]==tstOFF) mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,30,10);\r\n\telse if(tst_state[6]==tst1) \r\n\t\t{\r\n\t\tmess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,30,10);\r\n\t\tmess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_FAST_REG,0,10);\r\n\t\t}\r\n\telse if(tst_state[6]==tst2) mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,1020,10);\r\n/\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,10);\r\n\t \tmess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,1000,10);\r\n }\r\n if(sub_ind==6)\r\n\t\t{\r\n mess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n mess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,40);\r\n mess_send(MESS2UNECC_HNDL,PARAM_UNECC_SET,U_AVT,10);\r\n\t \tmess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_FAST_REG,0,10);\r\n\r\n }\r\n\r\n if(sub_ind==9)\r\n\t\t{\r\n\t\tif(phase==0)\r\n\t\t\t{\r\n \t\r\n \t}\r\n \telse if(phase==1)\r\n\t\t\t{\r\n \tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,10);\r\n \t}\r\n mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,1000,10);\r\n }\r\n\t/\r\n\r\n\r\n\r\n\r\n\t}\t \r\nelse if(ind==iKlimat)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\" tшк.max= !°C \";\r\n\tptrs[1]=\t\t\t\t\" tвент.max= @°C \";\r\n\tptrs[2]=\t\t\t\t\" tшк.рег.= #°C \";\r\n\tptrs[3]=\t\t\t\t\" tоткл.нагр. $°C \";\r\n\tptrs[4]=\t\t\t\t\" tвкл.нагр. %°C \";\r\n\tptrs[5]=\t\t\t\t\" tоткл.бат. ^°C \";\r\n\tptrs[6]=\t\t\t\t\" tвкл.бат. &°C \";\r\n\tptrs[7]=\t\t\t\t\" Выход \";\r\n\r\n\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\t\t\" КЛИМАТКОНТРОЛЬ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t\r\n\tint2lcd(TBOXMAX,'!',0); \r\n\tif((TBOXVENTMAX>=50)&&(TBOXVENTMAX<=80))int2lcd(TBOXVENTMAX,'@',0); \r\n\telse sub_bgnd(\"ВЫКЛ.\",'@',-2);\r\n\tint2lcd(TBOXREG,'#',0);\r\n\tif((TLOADDISABLE>=50)&&(TLOADDISABLE<=80))int2lcd(TLOADDISABLE,'$',0);\r\n\telse sub_bgnd(\"ВЫКЛ.\",'$',-2);\r\n\tif((TLOADDISABLE>=50)&&(TLOADDISABLE<=80)/&&(TLOADENABLE>=50)&&(TLOADENABLE<=80)/)int2lcd(TLOADENABLE,'%',0);\r\n\telse sub_bgnd(\"ВЫКЛ.\",'%',-2);\r\n\tif((TBATDISABLE>=50)&&(TBATDISABLE<=90))int2lcd(TBATDISABLE,'^',0);\r\n\telse sub_bgnd(\"ВЫКЛ.\",'^',-2);\r\n\tif((TBATDISABLE>=50)&&(TBATDISABLE<=90)/&&(TBATENABLE>=50)&&(TBATENABLE<=80)/)int2lcd(TBATENABLE,'&',0);\r\n\telse sub_bgnd(\"ВЫКЛ.\",'&',-2);\r\n\t}\r\n\r\nelse if(ind==iKlimat_kontur)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\" tшк.max= !°C \";\r\n\tptrs[1]=\t\t\t\t\" tвент.max= @°C \";\r\n\tptrs[2]=\t\t\t\t\" tшк.рег.= #°C \";\r\n\tptrs[3]=\t\t\t\t\" tвкл.отопит. $°C \";\r\n\tptrs[4]=\t\t\t\t\" tоткл.отопит. %°C \";\r\n\tptrs[5]=\t\t\t\t\" tоткл.нагруз. ^°C \";\r\n\tptrs[6]=\t\t\t\t\" tвкл.нагруз. &°C \";\r\n\tptrs[7]=\t\t\t\t\" tоткл.бат. °C \";\r\n\tptrs[8]=\t\t\t\t\" tвкл.бат. (°C \";\r\n\tptrs[9]=\t\t\t\t\" Выход \";\r\n\r\n\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\t\t\" КЛИМАТКОНТРОЛЬ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t\r\n\tint2lcd(TBOXMAX,'!',0); \r\n/\tint2lcd(TBOXVENTON,'@',0); \r\n\tint2lcd(TBOXVENTOFF,'#',0);/\r\n\tif((TBOXVENTMAX>=50)&&(TBOXVENTMAX<=80))int2lcd(TBOXVENTMAX,'@',0); \r\n\telse sub_bgnd(\"ВЫКЛ.\",'@',-2);\r\n\tint2lcd(TBOXREG,'#',0);\r\n\tint2lcd_mmm(TBOXWARMON,'$',0); \r\n\tint2lcd_mmm(TBOXWARMOFF,'%',0);\r\n\tif((TLOADDISABLE>=50)&&(TLOADDISABLE<=80))int2lcd(TLOADDISABLE,'^',0);\r\n\telse sub_bgnd(\"ВЫКЛ.\",'^',-2);\r\n\tif((TLOADDISABLE>=50)&&(TLOADDISABLE<=80))int2lcd(TLOADENABLE,'&',0);\r\n\telse sub_bgnd(\"ВЫКЛ.\",'&',-2);\r\n\tif((TBATDISABLE>=50)&&(TBATDISABLE<=90))int2lcd(TBATDISABLE,'',0);\r\n\telse sub_bgnd(\"ВЫКЛ.\",'',-2);\r\n\tif((TBATDISABLE>=50)&&(TBATDISABLE<=90))int2lcd(TBATENABLE,'(',0);\r\n\telse sub_bgnd(\"ВЫКЛ.\",'(',-2);\r\n\r\n//\t\tint2lcdyx(t_box_vent_on_cnt,0,3,0);\r\n//\tint2lcdyx(t_box_warm_on_cnt,0,7,0);\r\n//\tint2lcdyx(vent_stat_k,0,10,0);\r\n//\tint2lcdyx(warm_stat_k,0,13,0);\r\n\t\r\n\tint2lcdyx(t_box,0,19,0);\t \r\n\t}\r\n#ifdef UKU_TELECORE2015\r\nelse if(ind==iKlimat_TELECORE)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\" Сигнал температуры \";\r\n\tptrs[1]=\t\t\t\t\" обогрева ! \";\r\n\tptrs[2]=\t\t\t\t\" Сигнал температуры \";\r\n\tptrs[3]=\t\t\t\t\" вентилятора @ \";\r\n\tptrs[4]=\t\t\t\t\" tвкл.отопит. $°C \";\r\n\tptrs[5]=\t\t\t\t\" tоткл.отопит. <°C \";\r\n\tptrs[6]=\t\t\t\t\" Qперкл. % \";\r\n\tptrs[7]=\t\t\t\t\" tвкл.вент. ^°C \";\r\n\tptrs[8]=\t\t\t\t\" tоткл.вент. &°C \";\r\n\tptrs[9]=\t\t\t\t\" tвкл.вн.вент. [°C \";\r\n\tptrs[10]=\t\t\t\t\" tоткл.вн.вент. ]°C \";\r\n\tptrs[11]=\t\t\t\t\" Выход \";\r\n\r\n\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\t\t\" КЛИМАТКОНТРОЛЬ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n\tif(TELECORE2015_KLIMAT_WARM_SIGNAL==0) sub_bgnd(\"ДТ 2\",'!',-3);\r\n\telse if(TELECORE2015_KLIMAT_WARM_SIGNAL==1) sub_bgnd(\"ДТ 1\",'!',-3);\r\n\t//else sub_bgnd(\"ДТ BMS\",'!',-5);\r\n\tif(TELECORE2015_KLIMAT_VENT_SIGNAL==0) sub_bgnd(\"ДТ 2\",'@',-3);\r\n\telse if(TELECORE2015_KLIMAT_VENT_SIGNAL==1) sub_bgnd(\"ДТ 1\",'@',-3);\r\n\t//else sub_bgnd(\"ДТ BMS\",'@',-5);\r\n\tint2lcd_mmm(TELECORE2015_KLIMAT_WARM_ON,'$',0); \r\n\tint2lcd_mmm(TELECORE2015_KLIMAT_WARM_OFF,'<',0);\r\n\tint2lcd_mmm(TELECORE2015_KLIMAT_CAP,'',0);\t\r\n\tint2lcd_mmm(TELECORE2015_KLIMAT_VENT_ON,'^',0);\r\n\tint2lcd_mmm(TELECORE2015_KLIMAT_VENT_OFF,'&',0);\r\n\tint2lcd_mmm(TELECORE2015_KLIMAT_VVENT_ON,'[',0);\r\n\tint2lcd_mmm(TELECORE2015_KLIMAT_VVENT_OFF,']',0);\r\n\r\n\t//int2lcd(TBOXMAX,'!',0); \r\n\t\r\n/\tint2lcd(TBOXVENTON,'@',0); \r\n\tint2lcd(TBOXVENTOFF,'#',0);/\r\n\t//if((TBOXVENTMAX>=50)&&(TBOXVENTMAX<=80))int2lcd(TBOXVENTMAX,'@',0); \r\n\t//else sub_bgnd(\"ВЫКЛ.\",'@',-2);\r\n\t//int2lcd(TBOXREG,'#',0);\r\n\r\n\r\n\r\n\r\n//\tint2lcdyx(t_ext[0],0,3,0);\r\n//\tint2lcdyx(t_ext[1],0,7,0);\r\n///\tint2lcdyx(vent_stat_k,0,10,0);\r\n\tint2lcdyx(TELECORE2015_KLIMAT_WARM_ON_temp,0,13,0);\r\n\t\r\n\tint2lcdyx(t_box,0,19,0);\t /\r\n\t}\r\n#endif\r\n#ifdef UKU_TELECORE2017\r\nelse if(ind==iKlimat_TELECORE)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\" Сигнал температуры \";\r\n\tptrs[1]=\t\t\t\t\" обогрева ! \";\r\n\tptrs[2]=\t\t\t\t\" Сигнал температуры \";\r\n\tptrs[3]=\t\t\t\t\" вентилятора @ \";\r\n\tptrs[4]=\t\t\t\t\" tвкл.отопит. $°C \";\r\n\tptrs[5]=\t\t\t\t\" tоткл.отопит. <°C \";\r\n\tptrs[6]=\t\t\t\t\" Qперкл. >% \";\r\n\tptrs[7]=\t\t\t\t\" tвент.100% y°C \";\t\r\n\tptrs[8]=\t\t\t\t\" tвент.80% f°C \";\r\n\tptrs[9]=\t\t\t\t\" tвент.60% r°C \";\r\n\tptrs[10]=\t\t\t\t\" tвент.40% e°C \";\r\n\tptrs[11]=\t\t\t\t\" tвент.20% w°C \";\r\n\tptrs[12]=\t\t\t\t\" dtвент.100% s°C \";\r\n\tptrs[13]=\t\t\t\t\" dtвент.80% a°C \";\r\n\tptrs[14]=\t\t\t\t\" dtвент.60% p°C \";\r\n\tptrs[15]=\t\t\t\t\" dtвент.40% o°C \";\r\n\tptrs[16]=\t\t\t\t\" dtвент.20% i°C \";\r\n\tptrs[17]=\t\t\t\t\" Выход \";\r\n\r\n//\tptrs[7]=\t\t\t\t\" tвент.0% q°C \";\r\n//\tptrs[13]=\t\t\t\t\" dtвент.0% u°C \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\t\t\" КЛИМАТКОНТРОЛЬ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n\tif(TELECORE2017_KLIMAT_WARM_SIGNAL==0) sub_bgnd(\"ДТ 2\",'!',-3);\r\n\telse if(TELECORE2017_KLIMAT_WARM_SIGNAL==1) sub_bgnd(\"ДТ 1\",'!',-3);\r\n\t//else sub_bgnd(\"ДТ BMS\",'!',-5);\r\n\tif(TELECORE2017_KLIMAT_VENT_SIGNAL==0) sub_bgnd(\"ДТ 2\",'@',-3);\r\n\telse if(TELECORE2017_KLIMAT_VENT_SIGNAL==1) sub_bgnd(\"ДТ 1\",'@',-3);\r\n\t//else sub_bgnd(\"ДТ BMS\",'@',-5);\r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_WARM_ON,'$',0); \r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_WARM_OFF,'<',0);\r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_CAP,'>',0);\t\r\n//\tint2lcd_mmm(TELECORE2017_KLIMAT_VENT_ON0,'q',0);\r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_VENT_ON20,'w',0);\r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_VENT_ON40,'e',0);\r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_VENT_ON60,'r',0);\r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_VENT_ON80,'f',0);\r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_VENT_ON100,'y',0);\r\n//\tint2lcd_mmm(TELECORE2017_KLIMAT_DVENT_ON0,'u',0);\r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_DVENT_ON20,'i',0);\r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_DVENT_ON40,'o',0);\r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_DVENT_ON60,'p',0);\r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_DVENT_ON80,'a',0);\r\n\tint2lcd_mmm(TELECORE2017_KLIMAT_DVENT_ON100,'s',0);\r\n\r\n\t//int2lcd(TBOXMAX,'!',0); \r\n\t\r\n/\tint2lcd(TBOXVENTON,'@',0); \r\n\tint2lcd(TBOXVENTOFF,'#',0);/\r\n\t//if((TBOXVENTMAX>=50)&&(TBOXVENTMAX<=80))int2lcd(TBOXVENTMAX,'@',0); \r\n\t//else sub_bgnd(\"ВЫКЛ.\",'@',-2);\r\n\t//int2lcd(TBOXREG,'#',0);\r\n\r\n\r\n\r\n\r\n//\tint2lcdyx(t_ext[0],0,3,0);\r\n//\tint2lcdyx(t_ext[1],0,7,0);\r\n///\tint2lcdyx(vent_stat_k,0,10,0);\r\n\tint2lcdyx(TELECORE2015_KLIMAT_WARM_ON_temp,0,13,0);\r\n\t\r\n\tint2lcdyx(t_box,0,19,0);\t /\r\n\t}\r\n#endif\r\n\r\nelse if(ind==iNpn_set)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\" Вывод ! \";\r\n\tif(NPN_OUT==npnoOFF)\r\n\t\t{\r\n\t\tptrs[1]=\t\t\t\" Выход \";\r\n\t\tptrs[2]=\t\t\t\" \";\r\n\t\tsimax=1;\r\n\t\t}\r\n\telse \r\n\t\t{\r\n/\t\tptrs[1]=\t\t\t\" Сигнал @ \";\r\n \t\tif(NPN_SIGN==npnsAVNET)\r\n\t\t\t{\r\n\t\t\tptrs[2]=\t\t\" Tз.н.п.н. #с.\";\r\n\t\t\tptrs[3]=\t\t\" Выход \";\r\n\t\t\tsimax=3;\r\n\t\t\t}\r\n\t\telse if(NPN_SIGN==npnsULOAD)\r\n\t\t\t{\r\n\t\t\tptrs[2]=\t\t\" Uоткл.н.п.н. $В \";\r\n\t\t\tptrs[3]=\t\t\" Uвкл.н.п.н. %В \";\r\n\t\t\tptrs[4]=\t\t\" Tз.н.п.н. #с.\";\r\n\t\t\tptrs[5]=\t\t\" Выход \";\r\n\t\t\tsimax=5;\r\n\t\t\t}/\r\n\r\n\t\t\tptrs[1]=\t\t\" Uоткл.н.п.н. $В \";\r\n\t\t\tptrs[2]=\t\t\" Uвкл.н.п.н. %В \";\r\n\t\t\tptrs[3]=\t\t\" Tз.н.п.н. #с.\";\r\n\t\t\tptrs[4]=\t\t\" Выход \";\r\n\t\t\tsimax=4;\r\n\t\t}\r\n\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\t\t\" Отключение Н.П.Н. \",\r\n\t\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\t\tptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t\r\n\tif(NPN_OUT==npnoRELEVENT) sub_bgnd(\"Реле вент-ра\",'!',-8);\r\n\telse if(NPN_OUT==npnoRELEAVBAT2) sub_bgnd(\"Реле АВ.БАТ2\",'!',-8);\r\n\telse sub_bgnd(\"Выкл.\",'!',-1);\r\n//\tif(NPN_SIGN==npnsAVNET) sub_bgnd(\"Ав.сети\",'@',-3);\r\n//\telse sub_bgnd(\"Uнагр.\",'@',-2);\r\n\tint2lcd(TZNPN,'#',0);\r\n\tint2lcd(UONPN,'$',1);\r\n\tint2lcd(UVNPN,'%',1);\r\n\r\n\t}\r\n\r\n//#endif\r\n\r\nelse if(ind==iBps_list)\r\n {\r\n if(sub_ind==0)\r\n \t{\r\n \tbgnd_par(\" N L U I t \" ,\r\n \t \" ! @ ^ $ #\",\r\n \t \" ! @ ^ $ #\",\r\n \t \" ! @ ^ $ #\");\r\n \r\n\r\n \t} \r\n\r\n \telse if(sub_ind==1) \r\n \t{\r\n \tbgnd_par(\" N L U I Uн \" ,\r\n \t \" ! @ ^ $ %\",\r\n \t \" ! @ ^ $ %\",\r\n \t \" ! @ ^ $ %\");\r\n\r\n\t\t} \r\n\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tint2lcd(sub_ind1+2,'!',0);\r\n\tif(sub_ind1==NUMIST-2) sub_bgnd(\"Ш\",'!',0);\r\n\telse int2lcd(sub_ind1+3,'!',0);\r\n\r\n\tint2lcd(bps[sub_ind1]._cnt,'@',0);\r\n\tint2lcd(bps[sub_ind1+1]._cnt,'@',0);\r\n\tif(sub_ind1==NUMIST-2)int2lcd(ibat_metr_cnt,'@',0);\r\n\telse int2lcd(bps[sub_ind1+2]._cnt,'@',0);\t\t\r\n\t\t\r\n\tint2lcd(bps[sub_ind1]._Uii/10,'^',0);\r\n\tint2lcd(bps[sub_ind1+1]._Uii/10,'^',0);\r\n\tif(sub_ind1<NUMIST-2) int2lcd(bps[sub_ind1+2]._Uii/10,'^',0);\r\n\telse sub_bgnd(\" \",'^',0);\r\n\r\n int2lcd(bps[sub_ind1]._Ii,'$',1); \r\n\tint2lcd(bps[sub_ind1+1]._Ii,'$',1); \r\n\tif(sub_ind1<NUMIST-2) int2lcd(bps[sub_ind1+2]._Ii,'$',1); \r\n\telse int2lcd_mmm(Ib_ips_termokompensat,'$',2);\r\n\r\n\tint2lcd(bps[sub_ind1]._Uin/10,'%',0);\r\n\tint2lcd(bps[sub_ind1+1]._Uin/10,'%',0);\r\n\tif(sub_ind1<NUMIST-2) int2lcd(bps[sub_ind1+2]._Uin/10,'%',0);\r\n\telse sub_bgnd(\" \",'%',0);\r\n\r\n\tint2lcd(bps[sub_ind1]._Ti,'#',0);\r\n\tint2lcd(bps[sub_ind1+1]._Ti,'#',0); \r\n \tif(sub_ind1<NUMIST-2) int2lcd(bps[sub_ind1+2]._Ti,'#',0);\r\n\telse sub_bgnd(\" \",'#',0);\r\n\r\n\t}\r\n// oleg_start\r\nelse if(ind==iK_Net_In){\r\n\t\tptrs[0]=\t\t\t\t\t\" U фазы А qВ\";\r\n\t\tptrs[1]=\t\t\t\t\t\" U фазы В wВ\";\r\n\t\tptrs[2]=\t\t\t\t\t\" U фазы С eВ\";\r\n\t\tptrs[3]=\t\t\t\t\t\" I фазы А rА\";\r\n\t\tptrs[4]=\t\t\t\t\t\" I фазы В tА\";\r\n\t\tptrs[5]=\t\t\t\t\t\" I фазы С yА\";\r\n\t\tptrs[6]=\t\t\t\t\t\" U фазы А fВ\";\r\n\t\tptrs[7]=\t\t\t\t\t\" U фазы В gВ\";\r\n\t\tptrs[8]=\t\t\t\t\t\" U фазы С hВ\";\r\n\t\tptrs[9]=\t\t\t\t\t\" I фазы А jА\";\r\n\t\tptrs[10]=\t\t\t\t\t\" I фазы В kА\";\r\n\t\tptrs[11]=\t\t\t\t\t\" I фазы С lА\";\r\n\t\tptrs[12]=\t\t\t\t\t\" Выход \";\r\n\r\n\r\n\r\n \tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\t\r\n\t\t\t\t\t\t\r\n\tbgnd_par(\t\t\t\" СЕТЕВОЙ ВВОД ! \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]);\r\n\t\r\n\tif(sub_ind>5) int2lcd(2,'!',0);\r\n\telse int2lcd(1,'!',0);\r\n\tpointer_set(1);\r\n\tint2lcd(net_in_u1_a,'q',1);\r\n\tint2lcd(net_in_u1_b,'w',1);\r\n\tint2lcd(net_in_u1_c,'e',1);\r\n\tint2lcd(net_in_i1_a,'r',2);\r\n\tint2lcd(net_in_i1_b,'t',2);\r\n\tint2lcd(net_in_i1_c,'y',2);\r\n\tint2lcd(net_in_u2_a,'f',1);\r\n\tint2lcd(net_in_u2_b,'g',1);\r\n\tint2lcd(net_in_u2_c,'h',1);\r\n\tint2lcd(net_in_i2_a,'j',2);\r\n\tint2lcd(net_in_i2_b,'k',2);\r\n\tint2lcd(net_in_i2_c,'l',2);\r\n\r\n\r\n}\r\n\r\n\r\nelse if(ind==iSetNetIn){\r\n\tptrs[0]=\t\t\t\t\t\t\" Uмин #В \";\r\n ptrs[1]=\t\t\t\t\t\t\" Uмакс $В \";\r\n\tptrs[2]=\t\t\t\t\t\t\" Iмакс eА \";\r\n\tif(priority_net_in!=1 && priority_net_in!=2) \r\n\tptrs[3]=\t\t\t\t\t\t\" Приоритет ввода \";\r\n\telse \r\n\tptrs[3]=\t\t\t \t\t\t\" Приоритет ввода r \";\r\n\tptrs[4]=\t\t\t\t\t\t\" Гистерезис t% \";\r\n\tptrs[5]=\t\t\t\t\t\t\" t вкл yсек \";\r\n\tptrs[6]=\t\t\t\t\t\t\" t выкл uсек \";\r\n\tptrs[7]=\t\t\t\t\t\t\" Выход \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\r\n\tbgnd_par(\t\t\t\" УСТАНОВКИ СВ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]\r\n\t\t\t\t\t\t);\r\n\tpointer_set(1);\r\n\tint2lcd(u_min_net_in,'#',0);\r\n\tint2lcd(u_max_net_in,'$',0);\r\n\tint2lcd(i_min_net_in,'e',0);\r\n\tint2lcd(priority_net_in,'r',0);\r\n\tint2lcd(hysteresis_net_in,'t',0);\r\n\tint2lcd(t_inclusion_net_in,'y',1);\r\n\tint2lcd(t_shutdown_net_in,'u',1);\r\n\r\n}\r\nelse if(ind==iK_MOST){\r\n\tbgnd_par(\t\t\t\" ИДЕТ \",\r\n\t\t\t\t\t\t\" КАЛИБРОВКА \",\r\n\t\t\t\t\t\t\" МОСТА \",\r\n\t\t\t\t\t\t\" \"\r\n\t\t\t\t\t\t);\r\n\r\n\tif( (status_izm_r&00040000) && kalibr_r_most==0 ) kalibr_r_most=1;\r\n\tif( !(status_izm_r&00040000) && kalibr_r_most==1 ) {\r\n\t\t kalibr_r_most=0;\r\n\t\t ind=iK_RKI;\r\n\t\t ret(1000);\r\n\t}\r\n}\r\nelse if(ind==iK_RKI){ //rki_1_s\r\n\t\tptrs[0]=\t\t\t\t\t\" Uшины qВ\";\r\n\t \tptrs[1]=\t\t\t\t\t\" Калибровка моста \";\r\n\t\tif(u_rki==0) ptrs[2]=\t\t\" U РКИ 220 В \";\r\n\t\telse if(u_rki==1) ptrs[2]=\t\" U РКИ 48 В \";\r\n\t\telse if(u_rki==2) ptrs[2]=\t\" U РКИ 110 В \";\r\n\t\tptrs[3]=\t\t\t\t\t\" Выход \";\r\n\t\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\t\" КАЛИБРОВКА РКИ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]\r\n\t\t\t\t\t\t);\r\n\tpointer_set(1);\r\n\tint2lcd(Ubus,'q',0);\r\n\r\n} \r\nelse if(ind==iSetRKI){\t\r\n\tptrs[0]=\t\t\t\t\t\t\" Rпор.пред. #кОм\";\r\n ptrs[1]=\t\t\t\t\t\t\" Rпор.авар. $кОм\";\r\n\tptrs[2]=\t\t\t\t\t\t\" Порог асимметр. e%\";\r\n\tptrs[3]=\t\t\t\t\t\t\" Uасим.пор.1МОм rВ\";\r\n\tptrs[4]=\t\t\t\t\t\t\" Uасим.пор. tВ\";\r\n\tptrs[5]=\t\t\t\t\t\t\" Uасим.пор.20кОм yВ\";\r\n\tptrs[6]=\t\t\t\t\t\t\" Umin шины zB \";\r\n\tif(type_rki==1){\r\n\t\tptrs[7]=\t\t\t\t\t\t\" R ДДТ пред qкОм \";\t \r\n\t\tptrs[8]=\t\t\t\t\t\t\" R ДДТ авар wкОм \";\t \t\r\n\t\tptrs[9]=\t\t\t\t\t\t\" Выход \";\r\n\t}\r\n\telse if(type_rki==0){\r\n\t\tptrs[7]=\t\t\t\t\t\t\" Выход \";\r\n\t}\r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\t\" УСТАНОВКИ РКИ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]\r\n\t\t\t\t\t\t);\r\n\tpointer_set(1);\r\n\tint2lcd(r_iz_porog_pred,'#',0);\r\n\tint2lcd(r_iz_porog_error,'$',0);\r\n\tint2lcd(Iddt_porog_pred,'q',0);\t \r\n\tint2lcd(Iddt_porog_error,'w',0); \r\n\tint2lcd(asymmetry_porog,'e',0);\r\n\tint2lcd(porog_u_in,'z',0);\r\n\tint2lcd(u_asymmetry_porog_up,'r',0);\r\n\tint2lcd(u_asymmetry_porog,'t',0);\r\n\tint2lcd(u_asymmetry_porog_down,'y',0);\r\n\t \t\r\n} \r\nelse if(ind==iRKI) \r\n\t{\r\n\r\n\tif(no_rki==NO_RKI){\r\n\t\tbgnd_par(\t\t\" \",\r\n\t\t\t\t\t\t\" СВЯЗЬ С РКИ \",\r\n\t\t\t\t\t\t\" ОТСУТСТВУЕТ \",\r\n\t\t\t\t\t\t\" \");\r\n\t\r\n\t}\r\n\telse{\r\n\tif(u_rki==0){\r\n\t\tif(r_iz_plus==1002)ptrs[0]= \t\" Rиз+ Uшины=0 \";\r\n\t\telse if(r_iz_plus==1001)ptrs[0]=\t\" Rиз+ >1 МОм \";\r\n\t\telse ptrs[0]=\t\t\t\t\t\t\" Rиз+ !кОм \";\r\n\t\tif(r_iz_minus==1002)ptrs[1]=\t\t\" Rиз- Uшины=0 \";\r\n \telse if(r_iz_minus==1001)ptrs[1]=\t\" Rиз- >1 МОм \";\r\n\t\telse ptrs[1]=\t\t\t\t\t\t\" Rиз- @кОм \";\r\n\t}\r\n\telse if(u_rki==1){\r\n\t\tif(r_iz_plus==202)ptrs[0]= \t\t\" Rиз+ Uшины=0 \";\r\n\t\telse if(r_iz_plus==201)ptrs[0]=\t\t\" Rиз+ >200 кОм \";\r\n\t\telse ptrs[0]=\t\t\t\t\t\t\" Rиз+ !кОм \";\r\n\t\tif(r_iz_minus==202)ptrs[1]=\t\t\t\" Rиз- Uшины=0 \";\r\n \telse if(r_iz_minus==201)ptrs[1]=\t\" Rиз- >200 кОм \";\r\n\t\telse ptrs[1]=\t\t\t\t\t\t\" Rиз- @кОм \";\r\n\t}\r\n\telse if(u_rki==2){\r\n\t\tif(r_iz_plus==502)ptrs[0]= \t\t\" Rиз+ Uшины=0 \";\r\n\t\telse if(r_iz_plus==501)ptrs[0]=\t\t\" Rиз+ >500 кОм \";\r\n\t\telse ptrs[0]=\t\t\t\t\t\t\" Rиз+ !кОм \";\r\n\t\tif(r_iz_minus==502)ptrs[1]=\t\t\t\" Rиз- Uшины=0 \";\r\n \telse if(r_iz_minus==501)ptrs[1]=\t\" Rиз- >500 кОм \";\r\n\t\telse ptrs[1]=\t\t\t\t\t\t\" Rиз- @кОм \";\r\n\t}\r\n\tptrs[2]=\t\t\t\t\t\t\" Rпор.пред. #кОм\";\r\n ptrs[3]=\t\t\t\t\t\t\" Rпор.авар. $кОм\";\r\n\tptrs[4]=\t\t\t\t\t\t\" V+ ^В \";\r\n\tptrs[5]=\t\t\t\t\t\t\" V- &В \";\r\n\tptrs[6]=\t\t\t\t\t\t\" Uшины zВ \";\r\n\tptrs[7]=\t\t\t\t\t\t\" Порог Uшины _В\";\r\n\tptrs[8]=\t\t\t\t\t\t\" асимметрия % \";\r\n\tptrs[9]=\t\t\t\t\t\t\" асимметрия (В \";\r\n\tptrs[10]=\t\t\t\t\t\t\" Порог асим. )% \";\r\n\tptrs[11]=\t\t\t\t\t\t\" Uасим.пор.1МОм ?В\";\r\n\tptrs[12]=\t\t\t\t\t\t\" Uасим.пор. /В\";\r\n\tptrs[13]=\t\t\t\t\t\t\" Uасим.пор.20кОм :В\";\r\n\tptrs[14]=\t\t\t\t\t\t\" Версия РКИ Z \";\r\n if(sk1_24&0x000001UL)ptrs[15]=\t\" СК1 ВКЛЮЧЕН \";\r\n\telse ptrs[15]=\t\t\t\t\t\" СК1 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x000002UL)ptrs[16]=\t\" СК2 ВКЛЮЧЕН \";\r\n\telse ptrs[16]=\t\t\t\t\t\" СК2 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x000004UL)ptrs[17]=\t\" СК3 ВКЛЮЧЕН \";\r\n\telse ptrs[17]=\t\t\t\t\t\" СК3 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x000008UL)ptrs[18]=\t\" СК4 ВКЛЮЧЕН \";\r\n\telse ptrs[18]=\t\t\t\t\t\" СК4 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x000010UL)ptrs[19]=\t\" СК5 ВКЛЮЧЕН \";\r\n\telse ptrs[19]=\t\t\t\t\t\" СК5 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x000020UL)ptrs[20]=\t\" СК6 ВКЛЮЧЕН \";\r\n\telse ptrs[20]=\t\t\t\t\t\" СК6 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x000040UL)ptrs[21]=\t\" СК7 ВКЛЮЧЕН \";\r\n\telse ptrs[21]=\t\t\t\t\t\" СК7 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x000080UL)ptrs[22]=\t\" СК8 ВКЛЮЧЕН \";\r\n\telse ptrs[22]=\t\t\t\t\t\" СК8 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x000100UL)ptrs[23]=\t\" СК9 ВКЛЮЧЕН \";\r\n\telse ptrs[23]=\t\t\t\t\t\" СК9 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x000200UL)ptrs[24]=\t\" СК10 ВКЛЮЧЕН \";\r\n\telse ptrs[24]=\t\t\t\t\t\" СК10 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x000400UL)ptrs[25]=\t\" СК11 ВКЛЮЧЕН \";\r\n\telse ptrs[25]=\t\t\t\t\t\" СК11 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x000800UL)ptrs[26]=\t\" СК12 ВКЛЮЧЕН \";\r\n\telse ptrs[26]=\t\t\t\t\t\" СК12 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x001000UL)ptrs[27]=\t\" СК13 ВКЛЮЧЕН \";\r\n\telse ptrs[27]=\t\t\t\t\t\" СК13 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x002000UL)ptrs[28]=\t\" СК14 ВКЛЮЧЕН \";\r\n\telse ptrs[28]=\t\t\t\t\t\" СК14 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x004000UL)ptrs[29]=\t\" СК15 ВКЛЮЧЕН \";\r\n\telse ptrs[29]=\t\t\t\t\t\" СК15 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x008000UL)ptrs[30]=\t\" СК16 ВКЛЮЧЕН \";\r\n\telse ptrs[30]=\t\t\t\t\t\" СК16 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x010000UL)ptrs[31]=\t\" СК17 ВКЛЮЧЕН \";\r\n\telse ptrs[31]=\t\t\t\t\t\" СК17 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x020000UL)ptrs[32]=\t\" СК18 ВКЛЮЧЕН \";\r\n\telse ptrs[32]=\t\t\t\t\t\" СК18 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x040000UL)ptrs[33]=\t\" СК19 ВКЛЮЧЕН \";\r\n\telse ptrs[33]=\t\t\t\t\t\" СК19 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x080000UL)ptrs[34]=\t\" СК20 ВКЛЮЧЕН \";\r\n\telse ptrs[34]=\t\t\t\t\t\" СК20 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x100000UL)ptrs[35]=\t\" СК21 ВКЛЮЧЕН \";\r\n\telse ptrs[35]=\t\t\t\t\t\" СК21 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x200000UL)ptrs[36]=\t\" СК22 ВКЛЮЧЕН \";\r\n\telse ptrs[36]=\t\t\t\t\t\" СК22 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x400000UL)ptrs[37]=\t\" СК23 ВКЛЮЧЕН \";\r\n\telse ptrs[37]=\t\t\t\t\t\" СК23 ОТКЛЮЧЕН \";\r\n\tif(sk1_24&0x800000UL)ptrs[38]=\t\" СК24 ВКЛЮЧЕН \";\r\n\telse ptrs[38]=\t\t\t\t\t\" СК24 ОТКЛЮЧЕН \";\r\n \tptrs[39]=\t\t\t\t\t\t\" R ДДТ пред qкОм\";\r\n\tptrs[40]=\t\t\t\t\t\t\" R ДДТ авар wкОм\";\r\n\tptrs[41]=\t\t\t\t\t\t\" Авар. фидеров l \";\r\n\r\n\r\n\tif(ddt_error&0x01){\r\n\t\tptrs[42]=\t\t\t\t\t\t\" ДДТ№ ~ нет связи\";\r\n\t\tptrs[43]=\t\t\t\t\t\t\" ------ ------ \";\r\n\t\t}\r\n\telse {\r\n\t\tif(Rddt[0][1]==255) ptrs[42]=\t\" ДДТ№ ~ R\|\|>255кОм\";\r\n\t\telse \tptrs[42]=\t\" ДДТ№ ~ R\|\|= eкОм\";\r\n\t\tif(Rddt[0][2]>999 && Rddt[0][3]>999) \tptrs[43]=\t\" R- >1MОм R+ >1MОм\";\r\n\t\telse if(Rddt[0][2]>999)\t\t\t \t\tptrs[43]=\t\" R- >1MОм R+= BкОм\";\r\n\t\telse if(Rddt[0][3]>999)\t\t\t \t\tptrs[43]=\t\" R-= rкОм R+ >1MОм\";\r\n\t\telse \t\t\t\t\t\tptrs[43]=\t\" R-= rкОм R+= BкОм\";\r\n\t\t}\r\n\r\n\tif(ddt_error&0x02){\r\n\t\tptrs[44]=\t\t\t\t\t\t\" ДДТ№ t нет связи\";\r\n\t\tptrs[45]=\t\t\t\t\t\t\" ------ ------ \";\r\n\t\t}\r\n\telse {\r\n\t\tif(Rddt[1][1]==255) ptrs[44]=\t\" ДДТ№ t R\|\|>255кОм\";\r\n\t\telse \tptrs[44]=\t\" ДДТ№ t R\|\|= CкОм\";\r\n\t\tif(Rddt[1][2]>999 && Rddt[1][3]>999) \tptrs[45]=\t\" R- >1MОм R+ >1MОм\";\r\n\t\telse if(Rddt[1][2]>999)\t\t\t\t \tptrs[45]=\t\" R- >1MОм R+= DкОм\";\r\n\t\telse if(Rddt[1][3]>999)\t \t\t\t \tptrs[45]=\t\" R-= yкОм R+ >1MОм\";\r\n\t\telse \t\t\t\t\t\tptrs[45]=\t\" R-= yкОм R+= DкОм\";\r\n\t\t}\r\n\r\n\tif(ddt_error&0x04){\r\n\t\tptrs[46]=\t\t\t\t\t\t\" ДДТ№ u нет связи\";\r\n\t\tptrs[47]=\t\t\t\t\t\t\" ------ ------ \";\r\n\t\t}\r\n\telse {\r\n\t\tif(Rddt[2][1]==255) ptrs[46]=\t\" ДДТ№ u R\|\|>255кОм\";\r\n\t\telse \tptrs[46]=\t\" ДДТ№ u R\|\|= EкОм\";\r\n\t\tif(Rddt[2][2]>999 && Rddt[2][3]>999) \tptrs[47]=\t\" R- >1MОм R+ >1MОм\";\r\n\t\telse if(Rddt[2][2]>999)\t\t\t \tptrs[47]=\t\" R- >1MОм R+= FкОм\";\r\n\t\telse if(Rddt[2][3]>999)\t\t\t \tptrs[47]=\t\" R-= iкОм R+ >1MОм\";\r\n\t\telse \t\t\t\t\t\tptrs[47]=\t\" R-= iкОм R+= FкОм\";\r\n\t\t}\r\n\r\n\tif(ddt_error&0x08){\r\n\t\tptrs[48]=\t\t\t\t\t\t\" ДДТ№ o нет связи\";\r\n\t\tptrs[49]=\t\t\t\t\t\t\" ------ ------ \";\r\n\t\t}\r\n\telse {\r\n\t\tif(Rddt[3][1]==255) ptrs[48]=\t\" ДДТ№ o R\|\|>255кОм\";\r\n\t\telse \tptrs[48]=\t\" ДДТ№ o R\|\|= JкОм\";\r\n\t\tif(Rddt[3][2]>999 && Rddt[3][3]>999) \tptrs[49]=\t\" R- >1MОм R+ >1MОм\";\r\n\t\telse if(Rddt[3][2]>999)\t\t\t \tptrs[49]=\t\" R- >1MОм R+= LкОм\";\r\n\t\telse if(Rddt[3][3]>999)\t\t\t \tptrs[49]=\t\" R-= pкОм R+ >1MОм\";\r\n\t\telse \t\t\t\t\t\tptrs[49]=\t\" R-= pкОм R+= LкОм\";\r\n\t\t}\r\n\r\n\tif(ddt_error&0x10){\r\n\t\tptrs[50]=\t\t\t\t\t\t\" ДДТ№ a нет связи\";\r\n\t\tptrs[51]=\t\t\t\t\t\t\" ------ ------ \";\r\n\t\t}\r\n\telse {\r\n\t\tif(Rddt[4][1]==255) ptrs[50]=\t\" ДДТ№ a R\|\|>255кОм\";\r\n\t\telse \tptrs[50]=\t\" ДДТ№ a R\|\|= PкОм\";\r\n\t\tif(Rddt[4][2]>999 && Rddt[4][3]>999) \tptrs[51]=\t\" R- >1MОм R+ >1MОм\";\r\n\t\telse if(Rddt[4][2]>999)\t\t\t \tptrs[51]=\t\" R- >1MОм R+= QкОм\";\r\n\t\telse if(Rddt[4][3]>999)\t\t\t \tptrs[51]=\t\" R-= sкОм R+ >1MОм\";\r\n\t\telse \t\t\t\t\t\tptrs[51]=\t\" R-= sкОм R+= QкОм\";\r\n\t\t}\r\n\r\n\tif(ddt_error&0x20){\r\n\t\tptrs[52]=\t\t\t\t\t\t\" ДДТ№ d нет связи\";\r\n\t\tptrs[53]=\t\t\t\t\t\t\" ------ ------ \";\r\n\t\t}\r\n\telse {\r\n\t\tif(Rddt[5][1]==255) ptrs[52]=\t\" ДДТ№ d R\|\|>255кОм\";\r\n\t\telse \tptrs[52]=\t\" ДДТ№ d R\|\|= WкОм\";\r\n\t\tif(Rddt[5][2]>999 && Rddt[5][3]>999) \tptrs[53]=\t\" R- >1MОм R+ >1MОм\";\r\n\t\telse if(Rddt[5][2]>999)\t\t\t \tptrs[53]=\t\" R- >1MОм R+= TкОм\";\r\n\t\telse if(Rddt[5][3]>999)\t\t\t \tptrs[53]=\t\" R-= fкОм R+ >1MОм\";\r\n\t\telse \t\t\t\t\t\tptrs[53]=\t\" R-= fкОм R+= TкОм\";\r\n\t\t}\r\n\r\n\tif(ddt_error&0x40){\r\n\t\tptrs[54]=\t\t\t\t\t\t\" ДДТ№ g нет связи\";\r\n\t\tptrs[55]=\t\t\t\t\t\t\" ------ ------ \";\r\n\t\t}\r\n\telse {\r\n\t\tif(Rddt[6][1]==255) ptrs[54]=\t\" ДДТ№ g R\|\|>255кОм\";\r\n\t\telse \tptrs[54]=\t\" ДДТ№ g R\|\|= YкОм\";\r\n\t\tif(Rddt[6][2]>999 && Rddt[6][3]>999) \tptrs[55]=\t\" R- >1MОм R+ >1MОм\";\r\n\t\telse if(Rddt[6][2]>999)\t\t\t \tptrs[55]=\t\" R- >1MОм R+= SкОм\";\r\n\t\telse if(Rddt[6][3]>999)\t\t\t \tptrs[55]=\t\" R-= hкОм R+ >1MОм\";\r\n\t\telse \t\t\t\t\t\tptrs[55]=\t\" R-= hкОм R+= SкОм\";\r\n\t\t}\r\n\r\n\tif(ddt_error&0x80){\r\n\t\tptrs[56]=\t\t\t\t\t\t\" ДДТ№ j нет связи\";\r\n\t\tptrs[57]=\t\t\t\t\t\t\" ------ ------ \";\r\n\t\t}\r\n\telse {\r\n\t\tif(Rddt[7][1]==255) ptrs[56]=\t\" ДДТ№ j R\|\|>255кОм\";\r\n\t\telse \tptrs[56]=\t\" ДДТ№ j R\|\|= GкОм\";\r\n\t\tif(Rddt[7][2]>999 && Rddt[7][3]>999) \tptrs[57]=\t\" R- >1MОм R+ >1MОм\";\r\n\t\telse if(Rddt[7][2]>999)\t\t\t \tptrs[57]=\t\" R- >1MОм R+= HкОм\";\r\n\t\telse if(Rddt[7][3]>999)\t\t\t \tptrs[57]=\t\" R-= kкОм R+ >1MОм\";\r\n\t\telse \t\t\t\t\t\tptrs[57]=\t\" R-= kкОм R+= HкОм\";\r\n\t\t}\r\n\r\n\r\n\tindex_set=sub_ind;\r\n\t\r\n\tbgnd_par(\t\t\t\" ДАННЫЕ ОТ РКИ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]);\r\n\t\r\n\t//long2lcd_mmm(sk_alarm,'!',0);\r\n\t//long2lcd_mmm(status_di1,'@',0);\r\n\t//long2lcd_mmm(status_di2,'#',0); \r\n\tint2lcd(r_iz_plus,'!',0);\r\n\tint2lcd(r_iz_minus,'@',0);\r\n\tint2lcd(r_iz_porog_pred,'#',0); //\r\n\tint2lcd(r_iz_porog_error,'$',0);\r\n\tint2lcd(v_plus,'^',0);\r\n\tint2lcd(v_minus,'&',0);\r\n\tint2lcd(v_plus+v_minus,'z',0);\r\n\tint2lcd(porog_u_in,'_',0);\r\n\tint2lcd(asymmetry,'',0);\r\n\t//if(v_plus>v_minus) int2lcd(v_plus-v_minus,'(',0);\t//o_3 строку можно удалить\r\n\t//else int2lcd(v_minus-v_plus,'(',0);\t\t\t\t//o_3 строку можно удалить\r\n\tint2lcd(u_asymmetry,'(',0);\t\t\t\t\t\t\t//o_3\r\n\tint2lcd(asymmetry_porog,')',0);\r\n\tint2lcd(u_asymmetry_porog_up,'?',0);\r\n\tint2lcd(u_asymmetry_porog,'/',0);\r\n\tint2lcd(u_asymmetry_porog_down,':',0);\r\n\r\n\tint2lcd(Iddt_porog_pred,'q',0);\r\n\tint2lcd(Iddt_porog_error,'w',0);\r\n\r\n\tint2lcd(n_error_ddt_uku,'l',0);\r\n\tint2lcd(ver_soft,'Z',0);\r\n\r\n\tint2lcd(Rddt[0][0],'~',0);\r\n\tint2lcd(Rddt[0][1],'e',0);\r\n\tint2lcd(Rddt[0][2],'r',0);\r\n\tint2lcd(Rddt[0][3],'B',0);\r\n\r\n\tint2lcd(Rddt[1][0],'t',0);\r\n\tint2lcd(Rddt[1][1],'C',0);\r\n\tint2lcd(Rddt[1][2],'y',0);\r\n\tint2lcd(Rddt[1][3],'D',0);\r\n\r\n\tint2lcd(Rddt[2][0],'u',0);\r\n\tint2lcd(Rddt[2][1],'E',0);\r\n\tint2lcd(Rddt[2][2],'i',0);\r\n\tint2lcd(Rddt[2][3],'F',0);\r\n\r\n\tint2lcd(Rddt[3][0],'o',0);\r\n\tint2lcd(Rddt[3][1],'J',0);\r\n\tint2lcd(Rddt[3][2],'p',0);\r\n\tint2lcd(Rddt[3][3],'L',0);\r\n\r\n\tint2lcd(Rddt[4][0],'a',0);\r\n\tint2lcd(Rddt[4][1],'P',0);\r\n\tint2lcd(Rddt[4][2],'s',0);\r\n\tint2lcd(Rddt[4][3],'Q',0);\r\n\r\n\tint2lcd(Rddt[5][0],'d',0);\r\n\tint2lcd(Rddt[5][1],'W',0);\r\n\tint2lcd(Rddt[5][2],'f',0);\r\n\tint2lcd(Rddt[5][3],'T',0);\r\n\r\n\tint2lcd(Rddt[6][0],'g',0);\r\n\tint2lcd(Rddt[6][1],'Y',0);\r\n\tint2lcd(Rddt[6][2],'h',0);\r\n\tint2lcd(Rddt[6][3],'S',0);\r\n\r\n\tint2lcd(Rddt[7][0],'j',0);\r\n\tint2lcd(Rddt[7][1],'G',0);\r\n\tint2lcd(Rddt[7][2],'k',0);\r\n\tint2lcd(Rddt[7][3],'H',0);\r\n\r\n\t/\r\n\r\n\tint2lcd_mmm(Rddt[17],'X',0);\r\n\tint2lcd_mmm(Iddt[18],'x',2);\r\n\tint2lcd_mmm(Rddt[18],'Ж',0);\r\n\tint2lcd_mmm(Iddt[19],'c',2);\r\n\tint2lcd_mmm(Rddt[19],'N',0);\r\n\tint2lcd_mmm(Iddt[20],'v',2);\r\n\tint2lcd_mmm(Rddt[20],'ъ',0);\r\n\tint2lcd_mmm(Iddt[21],'b',2);\r\n\tint2lcd_mmm(Rddt[21],'№',0);\r\n\tint2lcd_mmm(Iddt[22],'n',2);\r\n\tint2lcd_mmm(Rddt[22],';',0);\r\n\tint2lcd_mmm(Iddt[23],'m',2);\r\n\tint2lcd_mmm(Rddt[23],'~',0);\r\n\t/\r\n\t}\r\n\r\n} //rki_1_e\r\nelse if(ind==iNET_IN){\r\n\tif(no_net_in==NO_NET_IN){\r\n\t\tbgnd_par(\t\t\" СВЯЗЬ С БЛОКОМ \",\r\n\t\t\t\t\t\t\" СЕТЕВЫЕ ВВОДЫ \",\r\n\t\t\t\t\t\t\" ОТСУТСТВУЕТ \",\r\n\t\t\t\t\t\t\" \"); \t\t\t\t\t\r\n\t\r\n\t}\r\n\telse{\r\n\t\tptrs[0]=\t\t\t\t\t\" U фазы А qВ\";\r\n\t\tptrs[1]=\t\t\t\t\t\" U фазы В wВ\";\r\n\t\tptrs[2]=\t\t\t\t\t\" U фазы С eВ\";\r\n\t\tptrs[3]=\t\t\t\t\t\" I фазы А rА\";\r\n\t\tptrs[4]=\t\t\t\t\t\" I фазы В tА\";\r\n\t\tptrs[5]=\t\t\t\t\t\" I фазы С yА\";\r\n\t\tptrs[6]=\t\t\t\t\t\"P акт.фазы А uВт\";\r\n\t\tptrs[7]=\t\t\t\t\t\"P акт.фазы В iВт\";\r\n\t\tptrs[8]=\t\t\t\t\t\"P акт.фазы С oВт\";\r\n\t\tptrs[9]=\t\t\t\t\t\"P полн.фазы А pВА\";\r\n\t\tptrs[10]=\t\t\t\t\t\"P полн.фазы В aВА\";\r\n\t\tptrs[11]=\t\t\t\t\t\"P полн.фазы С sВА\";\r\n\t\tptrs[12]=\t\t\t\t\t\" частота dГц \";\r\n\t\tptrs[13]=\t\t\t\t\t\" U фазы А fВ\";\r\n\t\tptrs[14]=\t\t\t\t\t\" U фазы В gВ\";\r\n\t\tptrs[15]=\t\t\t\t\t\" U фазы С hВ\";\r\n\t\tptrs[16]=\t\t\t\t\t\" I фазы А jА\";\r\n\t\tptrs[17]=\t\t\t\t\t\" I фазы В kА\";\r\n\t\tptrs[18]=\t\t\t\t\t\" I фазы С lА\";\r\n\t\tptrs[19]=\t\t\t\t\t\"P акт.фазы А zВт\";\r\n\t\tptrs[20]=\t\t\t\t\t\"P акт.фазы В xВт\";\r\n\t\tptrs[21]=\t\t\t\t\t\"P акт.фазы С cВт\";\r\n\t\tptrs[22]=\t\t\t\t\t\"P полн.фазы А vВА\";\r\n\t\tptrs[23]=\t\t\t\t\t\"P полн.фазы В bВА\";\r\n\t\tptrs[24]=\t\t\t\t\t\"P полн.фазы С nВА\";\r\n\t\tptrs[25]=\t\t\t\t\t\" частота mГц \";\r\n\r\n\r\n\r\n\r\n\tindex_set=sub_ind;\r\n\t\r\n\tbgnd_par(\t\t\t\" СЕТЕВОЙ ВВОД ! \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]);\r\n\t\r\n\tif(sub_ind>11) int2lcd(2,'!',0);\r\n\telse int2lcd(1,'!',0);\r\n\r\n\tint2lcd(net_in_u1_a/10,'q',0);\r\n\tint2lcd(net_in_u1_b/10,'w',0);\r\n\tint2lcd(net_in_u1_c/10,'e',0);\r\n\tint2lcd(net_in_i1_a,'r',2);\r\n\tint2lcd(net_in_i1_b,'t',2);\r\n\tint2lcd(net_in_i1_c,'y',2);\r\n\tint2lcd_mmm(net_in_p1_a,'u',0);\r\n\tint2lcd_mmm(net_in_p1_b,'i',0);\r\n\tint2lcd_mmm(net_in_p1_c,'o',0);\r\n\tint2lcd_mmm(net_in_s1_a,'p',0);\r\n\tint2lcd_mmm(net_in_s1_b,'a',0);\r\n\tint2lcd_mmm(net_in_s1_c,'s',0);\r\n\tint2lcd(net_in_f1,'d',1);\r\n\tint2lcd(net_in_u2_a/10,'f',0);\r\n\tint2lcd(net_in_u2_b/10,'g',0);\r\n\tint2lcd(net_in_u2_c/10,'h',0);\r\n\tint2lcd(net_in_i2_a,'j',2);\r\n\tint2lcd(net_in_i2_b,'k',2);\r\n\tint2lcd(net_in_i2_c,'l',2);\r\n\tint2lcd_mmm(net_in_p2_a,'z',0);\r\n\tint2lcd_mmm(net_in_p2_b,'x',0);\r\n\tint2lcd_mmm(net_in_p2_c,'c',0);\r\n\tint2lcd_mmm(net_in_s2_a,'v',0);\r\n\tint2lcd_mmm(net_in_s2_b,'b',0);\r\n\tint2lcd_mmm(net_in_s2_c,'n',0);\r\n\tint2lcd_mmm(net_in_f2,'m',1);\r\n }\r\n\r\n}// oleg_start\r\nelse if(ind==iK_Net_In){\r\n\t\tptrs[0]=\t\t\t\t\t\" U фазы А qВ\";\r\n\t\tptrs[1]=\t\t\t\t\t\" U фазы В wВ\";\r\n\t\tptrs[2]=\t\t\t\t\t\" U фазы С eВ\";\r\n\t\tptrs[3]=\t\t\t\t\t\" I фазы А rА\";\r\n\t\tptrs[4]=\t\t\t\t\t\" I фазы В tА\";\r\n\t\tptrs[5]=\t\t\t\t\t\" I фазы С yА\";\r\n\t\tptrs[6]=\t\t\t\t\t\" U фазы А fВ\";\r\n\t\tptrs[7]=\t\t\t\t\t\" U фазы В gВ\";\r\n\t\tptrs[8]=\t\t\t\t\t\" U фазы С hВ\";\r\n\t\tptrs[9]=\t\t\t\t\t\" I фазы А jА\";\r\n\t\tptrs[10]=\t\t\t\t\t\" I фазы В kА\";\r\n\t\tptrs[11]=\t\t\t\t\t\" I фазы С lА\";\r\n\t\tptrs[12]=\t\t\t\t\t\" Выход \";\r\n\r\n\r\n\r\n \tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\t\r\n\t\t\t\t\t\t\r\n\tbgnd_par(\t\t\t\" СЕТЕВОЙ ВВОД ! \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]);\r\n\t\r\n\tif(sub_ind>5) int2lcd(2,'!',0);\r\n\telse int2lcd(1,'!',0);\r\n\tpointer_set(1);\r\n\tint2lcd(net_in_u1_a,'q',1);\r\n\tint2lcd(net_in_u1_b,'w',1);\r\n\tint2lcd(net_in_u1_c,'e',1);\r\n\tint2lcd(net_in_i1_a,'r',2);\r\n\tint2lcd(net_in_i1_b,'t',2);\r\n\tint2lcd(net_in_i1_c,'y',2);\r\n\tint2lcd(net_in_u2_a,'f',1);\r\n\tint2lcd(net_in_u2_b,'g',1);\r\n\tint2lcd(net_in_u2_c,'h',1);\r\n\tint2lcd(net_in_i2_a,'j',2);\r\n\tint2lcd(net_in_i2_b,'k',2);\r\n\tint2lcd(net_in_i2_c,'l',2);\r\n\r\n\r\n}\r\n\r\n\r\nelse if(ind==iSetNetIn){\r\n\tptrs[0]=\t\t\t\t\t\t\" Uмин #В \";\r\n ptrs[1]=\t\t\t\t\t\t\" Uмакс $В \";\r\n\tptrs[2]=\t\t\t\t\t\t\" Iмакс eА \";\r\n\tif(priority_net_in!=1 && priority_net_in!=2) \r\n\tptrs[3]=\t\t\t\t\t\t\" Приоритет ввода \";\r\n\telse \r\n\tptrs[3]=\t\t\t \t\t\t\" Приоритет ввода r \";\r\n\tptrs[4]=\t\t\t\t\t\t\" Гистерезис t% \";\r\n\tptrs[5]=\t\t\t\t\t\t\" t вкл yсек \";\r\n\tptrs[6]=\t\t\t\t\t\t\" t выкл uсек \";\r\n\tptrs[7]=\t\t\t\t\t\t\" Выход \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\r\n\tbgnd_par(\t\t\t\" УСТАНОВКИ СВ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]\r\n\t\t\t\t\t\t);\r\n\tpointer_set(1);\r\n\tint2lcd(u_min_net_in,'#',0);\r\n\tint2lcd(u_max_net_in,'$',0);\r\n\tint2lcd(i_min_net_in,'e',0);\r\n\tint2lcd(priority_net_in,'r',0);\r\n\tint2lcd(hysteresis_net_in,'t',0);\r\n\tint2lcd(t_inclusion_net_in,'y',1);\r\n\tint2lcd(t_shutdown_net_in,'u',1);\r\n\r\n}\r\nelse if(ind==iK_MOST){\r\n\tbgnd_par(\t\t\t\" ИДЕТ \",\r\n\t\t\t\t\t\t\" КАЛИБРОВКА \",\r\n\t\t\t\t\t\t\" МОСТА \",\r\n\t\t\t\t\t\t\" \"\r\n\t\t\t\t\t\t);\r\n\r\n\tif( (status_izm_r&00040000) && kalibr_r_most==0 ) kalibr_r_most=1;\r\n\tif( !(status_izm_r&00040000) && kalibr_r_most==1 ) {\r\n\t\t kalibr_r_most=0;\r\n\t\t ind=iK_RKI;\r\n\t\t ret(1000);\r\n\t}\r\n}\r\nelse if(ind==iK_RKI){\r\n\t\tptrs[0]=\t\t\t\t\t\" Uшины qВ\";\r\n\t \tptrs[1]=\t\t\t\t\t\" Калибровка моста \";\r\n\t\tptrs[2]=\t\t\t\t\t\" Выход \";\r\n\t\t\r\n\r\n\tbgnd_par(\t\t\t\" КАЛИБРОВКА РКИ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]\r\n\t\t\t\t\t\t);\r\n\tpointer_set(1);\r\n\tint2lcd(Ubus,'q',0);\r\n}\r\nelse if(ind==iSetRKI){\r\n\tptrs[0]=\t\t\t\t\t\t\" Rпор.пред. #КОм\";\r\n ptrs[1]=\t\t\t\t\t\t\" Rпор.авар. $КОм\";\r\n\tptrs[2]=\t\t\t\t\t\t\" Порог асимметр. e%\";\r\n\tptrs[3]=\t\t\t\t\t\t\" Uасим.пор.1МОм rВ\";\r\n\tptrs[4]=\t\t\t\t\t\t\" Uасим.пор. tВ\";\r\n\tptrs[5]=\t\t\t\t\t\t\" Uасим.пор.20КОм yВ\";\r\n\tptrs[6]=\t\t\t\t\t\t\" Umin шины zB \";\r\n\tif(type_rki==1){\r\n\t\tptrs[7]=\t\t\t\t\t\t\" Iпорог пред qмА\";\r\n\t\tptrs[8]=\t\t\t\t\t\t\" Iпорог авар wмА\";\t\r\n\t\tptrs[9]=\t\t\t\t\t\t\" Выход \";\r\n\t}\r\n\telse if(type_rki==0){\r\n\t\tptrs[7]=\t\t\t\t\t\t\" Выход \";\r\n\t}\r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\t\" УСТАНОВКИ РКИ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]\r\n\t\t\t\t\t\t);\r\n\tpointer_set(1);\r\n\tint2lcd(r_iz_porog_pred,'#',0);\r\n\tint2lcd(r_iz_porog_error,'$',0);\r\n\tint2lcd(Iddt_porog_pred,'q',2);\r\n\tint2lcd(Iddt_porog_error,'w',2);\r\n\tint2lcd(asymmetry_porog,'e',0);\r\n\tint2lcd(porog_u_in,'z',0);\r\n\tint2lcd(u_asymmetry_porog_up,'r',0);\r\n\tint2lcd(u_asymmetry_porog,'t',0);\r\n\tint2lcd(u_asymmetry_porog_down,'y',0);\r\n\t \t\r\n}\r\n\r\nelse if(ind==iNET_IN){\r\n\tif(no_net_in==NO_NET_IN){\r\n\t\tbgnd_par(\t\t\" СВЯЗЬ С БЛОКОМ \",\r\n\t\t\t\t\t\t\" СЕТЕВЫЕ ВВОДЫ \",\r\n\t\t\t\t\t\t\" ОТСУТСТВУЕТ \",\r\n\t\t\t\t\t\t\" \"); \t\t\t\t\t\r\n\t\r\n\t}\r\n\telse{\r\n\t\tptrs[0]=\t\t\t\t\t\" U фазы А qВ\";\r\n\t\tptrs[1]=\t\t\t\t\t\" U фазы В wВ\";\r\n\t\tptrs[2]=\t\t\t\t\t\" U фазы С eВ\";\r\n\t\tptrs[3]=\t\t\t\t\t\" I фазы А rА\";\r\n\t\tptrs[4]=\t\t\t\t\t\" I фазы В tА\";\r\n\t\tptrs[5]=\t\t\t\t\t\" I фазы С yА\";\r\n\t\tptrs[6]=\t\t\t\t\t\"P акт.фазы А uВт\";\r\n\t\tptrs[7]=\t\t\t\t\t\"P акт.фазы В iВт\";\r\n\t\tptrs[8]=\t\t\t\t\t\"P акт.фазы С oВт\";\r\n\t\tptrs[9]=\t\t\t\t\t\"P полн.фазы А pВА\";\r\n\t\tptrs[10]=\t\t\t\t\t\"P полн.фазы В aВА\";\r\n\t\tptrs[11]=\t\t\t\t\t\"P полн.фазы С sВА\";\r\n\t\tptrs[12]=\t\t\t\t\t\" частота dГц \";\r\n\t\tptrs[13]=\t\t\t\t\t\" U фазы А fВ\";\r\n\t\tptrs[14]=\t\t\t\t\t\" U фазы В gВ\";\r\n\t\tptrs[15]=\t\t\t\t\t\" U фазы С hВ\";\r\n\t\tptrs[16]=\t\t\t\t\t\" I фазы А jА\";\r\n\t\tptrs[17]=\t\t\t\t\t\" I фазы В kА\";\r\n\t\tptrs[18]=\t\t\t\t\t\" I фазы С lА\";\r\n\t\tptrs[19]=\t\t\t\t\t\"P акт.фазы А zВт\";\r\n\t\tptrs[20]=\t\t\t\t\t\"P акт.фазы В xВт\";\r\n\t\tptrs[21]=\t\t\t\t\t\"P акт.фазы С cВт\";\r\n\t\tptrs[22]=\t\t\t\t\t\"P полн.фазы А vВА\";\r\n\t\tptrs[23]=\t\t\t\t\t\"P полн.фазы В bВА\";\r\n\t\tptrs[24]=\t\t\t\t\t\"P полн.фазы С nВА\";\r\n\t\tptrs[25]=\t\t\t\t\t\" частота mГц \";\r\n\r\n\r\n\r\n\r\n\tindex_set=sub_ind;\r\n\t\r\n\tbgnd_par(\t\t\t\" СЕТЕВОЙ ВВОД ! \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\tptrs[index_set+2]);\r\n\t\r\n\tif(sub_ind>11) int2lcd(2,'!',0);\r\n\telse int2lcd(1,'!',0);\r\n\r\n\tint2lcd(net_in_u1_a/10,'q',0);\r\n\tint2lcd(net_in_u1_b/10,'w',0);\r\n\tint2lcd(net_in_u1_c/10,'e',0);\r\n\tint2lcd(net_in_i1_a,'r',2);\r\n\tint2lcd(net_in_i1_b,'t',2);\r\n\tint2lcd(net_in_i1_c,'y',2);\r\n\tint2lcd_mmm(net_in_p1_a,'u',0);\r\n\tint2lcd_mmm(net_in_p1_b,'i',0);\r\n\tint2lcd_mmm(net_in_p1_c,'o',0);\r\n\tint2lcd_mmm(net_in_s1_a,'p',0);\r\n\tint2lcd_mmm(net_in_s1_b,'a',0);\r\n\tint2lcd_mmm(net_in_s1_c,'s',0);\r\n\tint2lcd(net_in_f1,'d',1);\r\n\tint2lcd(net_in_u2_a/10,'f',0);\r\n\tint2lcd(net_in_u2_b/10,'g',0);\r\n\tint2lcd(net_in_u2_c/10,'h',0);\r\n\tint2lcd(net_in_i2_a,'j',2);\r\n\tint2lcd(net_in_i2_b,'k',2);\r\n\tint2lcd(net_in_i2_c,'l',2);\r\n\tint2lcd_mmm(net_in_p2_a,'z',0);\r\n\tint2lcd_mmm(net_in_p2_b,'x',0);\r\n\tint2lcd_mmm(net_in_p2_c,'c',0);\r\n\tint2lcd_mmm(net_in_s2_a,'v',0);\r\n\tint2lcd_mmm(net_in_s2_b,'b',0);\r\n\tint2lcd_mmm(net_in_s2_c,'n',0);\r\n\tint2lcd_mmm(net_in_f2,'m',1);\r\n }\r\n\r\n}\r\n\t\r\nelse if(ind==iAvt_set_sel)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[1]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[2]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[3]=\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[4]=\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[5]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[6]=\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[7]=\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[8]=\t\t\t\t\t\t\" БПС N9 \";\r\n\tptrs[9]=\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[10]=\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[11]=\t\t\t\t\t\t\" БПС N12 \"; \r\n\tptrs[NUMIST]=\t\t\t\t\t\" Выход \";\r\n\tptrs[1+NUMIST]=\t\t\t\t\" \";\r\n\tptrs[2+NUMIST]=\t\t\t\t\" \";\r\n\r\n\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\t\t\"УСТАНОВКА НАПРЯЖЕНИЯ\",\r\n\t\t\t\t\t\t\" АВТОНОМНОЙ РАБОТЫ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1]);\r\n\tpointer_set(2);\r\n\r\n\t}\t\t \r\n\r\nelse if(ind==iAvt_set)\r\n\t{\r\n\tptrs[0]=\" Uавтон = $В \";\r\n\tif(bFL_)\r\n\t\t{\r\n\t\tptrs[1]=\" установите Uавтон \";\r\n \tptrs[2]=\" нажатием љ или њ \";\r\n \t}\r\n else \r\n \t{\r\n\t\tptrs[1]=\" удерживайте ¤ для \";\r\n \tptrs[2]=\" запоминания \"; \t\r\n \t}\t\r\n\r\n ptrs[3]=sm_exit;\r\n ptrs[4]=sm_;\r\n ptrs[5]=sm_; \t \t \r\n\t\r\n\r\n if((sub_ind==0)\|\|(sub_ind==1)\|\|(sub_ind==2))index_set=0;\r\n\telse index_set=3;\r\n\t\r\n\tbgnd_par(\" БПС N! \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tint2lcd(U_AVT,'$',1);\r\n\t \r\n\t\r\n if(sub_ind==0)\r\n\t\t{\r\n mess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n mess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,40);\r\n mess_send(MESS2UNECC_HNDL,PARAM_UNECC_SET,U_AVT,10);\r\n\t mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_FAST_REG,0,10);\r\n\r\n }\r\n\r\n \tif(mess_find( (MESS2IND_HNDL)) && (mess_data[0]==PARAM_U_AVT_GOOD) )\r\n\t\t{\r\n\t\tsub_ind=3;\r\n\t\tshow_mess(\t\" Установка \",\r\n\t \t\t\" напряжения \",\r\n\t \t\t\" автономной работы \",\r\n\t \t\t\" произведена \",3000);\r\n\t\t\r\n\t\t}\r\n\t//int2lcdyx(sub_ind,0,4,0);\t\t \r\n\t }\r\n\r\nelse if(ind==iAvt_comm_set)\r\n\t{\r\n\tptrs[0]=\" Uавтон = $В \";\r\n\tptrs[1]=\" для запоминания \";\r\n ptrs[2]=\" удерживайте ¤ \"; \r\n\tptrs[3]=sm_exit;\r\n ptrs[4]=sm_;\r\n ptrs[5]=sm_; \t \t \r\n\t\r\n\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\t\r\n\tbgnd_par(\t\"УСТАНОВКА НАПРЯЖЕНИЯ\",\r\n\t\t\t\t\" АВТОНОМНОЙ РАБОТЫ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1]);\r\n\r\n\tpointer_set(2);\t\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tint2lcd(U_AVT,'$',1);\r\n\t \r\n\t\r\n if(sub_ind==0)\r\n\t\t{\r\n //mess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n //mess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,40);\r\n //mess_send(MESS2UNECC_HNDL,PARAM_UNECC_SET,U_AVT,10);\r\n\t //mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_FAST_REG,0,10);\r\n\r\n }\r\n\r\n \tif(mess_find( (MESS2IND_HNDL)) && (mess_data[0]==PARAM_U_AVT_GOOD) )\r\n\t\t{\r\n\t\tsub_ind=3;\r\n\t\tshow_mess(\t\" Установка \",\r\n\t \t\t\" напряжения \",\r\n\t \t\t\" автономной работы \",\r\n\t \t\t\" произведена \",3000);\r\n\t\t\r\n\t\t}\r\n\t//int2lcdyx(sub_ind,0,4,0);\t\r\n\r\n\t//int2lcdyx(uavt_bps_pntr,3,4,0); \r\n\t}\r\nelse if(ind==iOut_volt_contr)\r\n\t{\r\n\tptrs[0]=\" Uвыхmax !В \";\r\n ptrs[1]=\" Uвыхmin @В \";\r\n ptrs[2]=\" Tздрж.ав. #с.\"; \t\r\n ptrs[3]=sm_exit;\r\n ptrs[4]=sm_;\r\n ptrs[5]=sm_; \t \t \r\n\t\r\n\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\t\r\n\tbgnd_par(\t\"КОНТРОЛЬ ВЫХОДНОГО \",\r\n\t\t\t\t\" НАПРЯЖЕНИЯ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1]);\r\n\r\n\tpointer_set(2);\t\r\n\tint2lcd(U_OUT_KONTR_MAX,'!',1);\r\n\tint2lcd(U_OUT_KONTR_MIN,'@',1);\r\n\tint2lcd(U_OUT_KONTR_DELAY,'#',0);\r\n\t}\r\nelse if(ind==iDop_rele_set)\r\n\t{\r\n\tif(DOP_RELE_FUNC==0)\r\n\t\t{\r\n\t\tptrs[0]=\t\" Индикация ускоренн.\";\r\n\t\tptrs[1]=\t\" и выравнив. заряда \";\r\n\t\t}\r\n\telse /if(DOP_RELE_FUNC==0)/\r\n\t\t{\r\n\t\tptrs[0]=\t\" Индикация \";\r\n\t\tptrs[1]=\t\" разряженной батареи\";\r\n\t\t}\r\n\tptrs[2]=\t\t\" Выход \";\r\n\tptrs[3]=\t\t\" \";\r\n\r\n\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\t\"ДОПОПЛНИТЕЛЬНОЕ РЕЛЕ\",\r\n\t\t\t\t\t\t\" ФУНКЦИОНАЛЬНОСТЬ \",\r\n\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\tptrs[index_set+1]);\r\n\tpointer_set(2);\r\n\r\n\t//int2lcdyx(sub_ind,0,6,0);\r\n\t//int2lcdyx(index_set,0,9,0);\r\n\t\r\n\t}\r\n\r\nelse if (ind==iIps_Curr_Avg_Set)\r\n\t{ \r\n\tif(ICA_EN==0)\r\n\t\t{\r\n\t\tptrs[0]=\t\t\" Ведомый \";\r\n\t\tsimax=1;\r\n\t\t}\r\n\telse if(ICA_EN==1) \r\n\t\t{\r\n\t\tptrs[0]=\t\t\" Включено \";\r\n\t\tif(ICA_CH==0)\r\n\t\t\t{\r\n\t\t\tptrs[1]=\t\" Канал MODBUS-RTU \";\r\n\t\t\tptrs[2]=\t\" АДРЕС ВЕДОМОГО ! \";\r\n\t\t\tsimax=3;\r\n\t\t\t}\r\n\t\telse if(ICA_CH==1)\r\n\t\t\t{\r\n\t\t\tptrs[1]=\t\" Канал MODBUS-TCP \";\r\n\t\t\tptrs[2]=\t\" IP [email protected]#.00$.00% \";\r\n\t\t\tptrs[3]=\t\" АДРЕС ВЕДОМОГО ^ \";\r\n\t\t\tsimax=4;\r\n\t\t\t}\r\n\t\telse if(ICA_CH==2)\r\n\t\t\t{\r\n\t\t\tptrs[1]=\t\" Канал RS485-2 \";\r\n\t\t\tptrs[2]=\t\" \";\r\n\t\t\tptrs[3]=\t\" \";\r\n\t\t\tsimax=2;\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tptrs[1]=\t\" Неопределенность \";\r\n\t\t\tptrs[2]=\t\" \";\r\n\t\t\tptrs[3]=\t\" \";\r\n\t\t\tsimax=2;\r\n\t\t\t}\r\n\t\t} \r\n\telse if(ICA_EN==2) \r\n\t\t{\r\n\t\tptrs[0]=\t\t\" ПОД ВНЕШНИМ \";\r\n\t\tptrs[1]=\t\t\" УПРАВЛЕНИЕМ \";\r\n\t\tsimax=2;\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tptrs[0]=\t\t\" Неопределенность \";\r\n\t\tptrs[1]=\t\t\" \";\r\n\t\tptrs[2]=\t\t\" \";\r\n\t\tptrs[3]=\t\t\" \";\r\n\t\tsimax=1;\r\n\t\t}\r\n\tptrs[simax]=\t\t\" Выход \";\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>1) index_set=sub_ind-1;\t\r\n\tbgnd_par(\t\" ВЫРАВНИВАНИЕ ТОКОВ \",\r\n\t\t\t\t\" ИПС \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1]);\r\n\t\r\n\tpointer_set(2);\r\n\tint2lcd(ICA_MODBUS_ADDRESS,'!',0);\r\n\tif((sub_ind==2)&&(sub_ind1==0)&&bFL2)sub_bgnd(\" \",'@',-2);\r\n\telse int2lcd(ICA_MODBUS_TCP_IP1,'@',0);\r\n\tif((sub_ind==2)&&(sub_ind1==1)&&bFL2)sub_bgnd(\" \",'#',-2);\r\n\telse int2lcd(ICA_MODBUS_TCP_IP2,'#',0);\r\n\tif((sub_ind==2)&&(sub_ind1==2)&&bFL2)sub_bgnd(\" \",'$',-2);\r\n\telse int2lcd(ICA_MODBUS_TCP_IP3,'$',0);\r\n\tif((sub_ind==2)&&(sub_ind1==3)&&bFL2)sub_bgnd(\" \",'%',-2);\r\n\telse int2lcd(ICA_MODBUS_TCP_IP4,'%',0);\r\n\tint2lcd(ICA_MODBUS_TCP_UNIT_ID,'^',0);\t\r\n \r\n \t} \r\n\r\nelse if(ind==iRele_set)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\" Реле N1 \";\r\n ptrs[1]=\t\t\t\t\" Реле N2 \";\r\n ptrs[2]=\t\t\t\t\" Реле N3 \";\r\n\tptrs[3]=\t\t\t\t\" Реле N4 \";\r\n\tptrs[4]=\t\t\t\t\" Выход \";\r\n\tptrs[5]=\t\t\t\t\" \";\r\n\tptrs[6]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\" НАСТРОЙКА РЕЛЕ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t\r\n } \r\n\r\nelse if(ind==iRele_set_)\r\n\t{\r\n\t\r\n\tptrs[0]=\t\" АБ разряжена @\";\r\n ptrs[1]=\t\" Ускоренный заряд #\";\r\n\tptrs[2]=\t\" Выравнивающий \"; \r\n\tptrs[3]=\t\" заряд $\";\r\n ptrs[4]=\t\" Общая авария ЗВУ %\";\r\n ptrs[5]=\t\" Uвых. завышено ^\";\r\n\tptrs[6]=\t\" Uвых. занижено [\";\r\n\tptrs[7]=\t\" Ресурс вентилятора \";\r\n\tptrs[8]=\t\" израсходован {\";\r\n\tptrs[9]=\t\" Авария выпрямителя}\";\r\n\tptrs[10]=\t\" Активное состояние \";\r\n\tptrs[11]=\t\" реле &\";\r\n ptrs[12]=\tsm_exit;\r\n ptrs[13]=\tsm_;\r\n ptrs[14]=\tsm_; \t \t \r\n\t\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\t\r\n\tbgnd_par(\t\" Реле N! срабатыв. \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\r\n\tint2lcd(sub_ind1+1,'!',0); \r\n \tcheckboxing('@',RELE_SET_MASK[sub_ind1]&(1<<0));\r\n\tcheckboxing('#',RELE_SET_MASK[sub_ind1]&(1<<1));\r\n \tcheckboxing('$',RELE_SET_MASK[sub_ind1]&(1<<2));\r\n\tcheckboxing('%',RELE_SET_MASK[sub_ind1]&(1<<3));\r\n \tcheckboxing('^',RELE_SET_MASK[sub_ind1]&(1<<4));\r\n\tcheckboxing('[',RELE_SET_MASK[sub_ind1]&(1<<5));\r\n\tcheckboxing('{',RELE_SET_MASK[sub_ind1]&(1<<6));\r\n\tcheckboxing('}',RELE_SET_MASK[sub_ind1]&(1<<7));\r\n\tif(RELE_SET_MASK[sub_ind1]&(1<<15))\t\tsub_bgnd(\"ВКЛ.\",'&',-3);\r\n\telse \t\t\t\t\t\t\t\t\tsub_bgnd(\"ВЫКЛ.\",'&',-4);\r\n\t\r\n\t//int2lcdyx(lc640_read_int(ADR_EE_RELE_SET_MASK[sub_ind1]),0,19,0);\r\n\t//int2lcdyx(RELE_SET_MASK[sub_ind1],0,12,0);\r\n\t//int2lcdyx(sub_ind1,0,2,0); \r\n\t}\r\n\r\nelse if(ind==iFWabout)\r\n\t{\r\n\tbgnd_par(\t\" Версия \",\r\n\t\t\t\t\" Сборка 0000.00.00 \",\r\n\t\t\t\t\" \",\r\n\t\t\t\t\" \");\r\n\tint2lcdyx(BUILD_YEAR,1,12,0);\r\n\tint2lcdyx(BUILD_MONTH,1,15,0);\r\n\tint2lcdyx(BUILD_DAY,1,18,0);\r\n\t\r\n\tsprintf(&lcd_buffer[9],\"%d.%d.%d\",HARDVARE_VERSION,SOFT_VERSION,BUILD);\r\n\t}\r\nelse if(ind==iSpecInf)\r\n\t{\r\n\tsimax=10;\r\n\t\r\n\tptrs[0]=\t\" ШИМ !\";\r\n\tptrs[1]=\t\" Uподдерж. @В\";\r\n\tptrs[2]=\t\" Iзар.макс. #А\";\t\r\n\tptrs[3]=\t\" Спец.реж. $\";\r\n\tptrs[4]=\t\" Выравн.токов.связь \";\r\n\tptrs[5]=\t\" % ^\";\r\n\tptrs[6]=\t\" Ранг &\";\r\n\tptrs[7]=\t\" Контр.выравн. \";\r\n\tptrs[8]=\t\" Iбпс.сумм. (А\";\r\n\tptrs[9]=\t\" Сумм.заряд )Ач\";\r\n ptrs[10]=\tsm_exit;\r\n ptrs[11]=\tsm_;\r\n ptrs[12]=\tsm_; \t \t \r\n\t\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\t\r\n\tbgnd_par(\t\" Специнформация \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\r\n\tint2lcd(cntrl_stat,'!',0);\r\n\tint2lcd(u_necc,'@',1);\r\n\tint2lcd(IZMAX_,'#',1);\r\n\tif(spc_stat==spcKE)\t\t\tsub_bgnd(\"кнтр.емк.\",'$',-8);\r\n\telse if(spc_stat==spcVZ)\tsub_bgnd(\"выр.зар.\",'$',-7);\r\n\telse if(sp_ch_stat!=scsOFF)\tsub_bgnd(\"уск.зар.\",'$',-7);\r\n\telse if(vz1_stat!=vz1sOFF)\tsub_bgnd(\"уравн.зар.\",'$',-9);\r\n\telse if(vz2_stat!=vz2sOFF)\tsub_bgnd(\"форм.зар.\",'$',-8);\r\n\telse \t\t\t\t\t\tsub_bgnd(\"выключен.\",'$',-8);\r\n\r\n\tif(ICA_CH==0)\t\t\t\tsub_bgnd(\"MODBUS-RTU\",'%',-9);\r\n\telse if(ICA_CH==1)\t\t\tsub_bgnd(\"MODBUS-TCP\",'%',-9);\r\n\telse if(ICA_CH==2)\t\t\tsub_bgnd(\"RS485-2\",'%',-6);\r\n\telse \t\t\t\t\t\tsub_bgnd(\"прием \",'%',-9);\r\n\r\n\tif(uart1_net_cnt>7)\t\t\tsub_bgnd(\"нет\",'^',-2);\r\n\telse \t\t\t\t\t\tsub_bgnd(\"есть\",'^',-3);\r\n\r\n\tif(ICA_EN==0)\t\t\t\tsub_bgnd(\"ведомый\",'&',-6);\r\n\telse \t\t\t\t\t\tsub_bgnd(\"ведущий\",'&',-6);\r\n\r\n\tint2lcd_mmm(ica_u_necc,'',1);\r\n\tint2lcd(bps_I,'(',1);\r\n\tint2lcd_mmm(lc640_read_int(EE_AMPER_CHAS_CNT),')',1);\r\n\t//int2lcdyx(uart1_net_cnt,0,5,0); \r\n\t//int2lcdyx(ica_timer_cnt,0,10,0);\r\n\t\r\n\t\r\n\t/\r\n\tif(VZ_HR==0) int2lcd(5,'x',1);\r\n\telse int2lcd(VZ_HR,'(',0);\r\n\tint2lcd(IMAX_VZ,']',1);\r\n\tint2lcd(UVZ,'[',1);/\r\n\r\n\t}\r\n\r\nelse if(ind==iVZ_set)\r\n\t{\r\n\t\r\n\t//ptrs[0]=\t\" тип - обычный \";\r\n\t//if(VZ_KIND)\r\n\t\t//{\r\n\t\t//VZ_KIND=0;\r\n\t\t//lc640_write_int(EE_VZ_KIND,0);\r\n\t\t//}\t\r\n\t//ptrs[0]=\t\" тип - специальный \";\r\n\tptrs[0]=\t\" Uвыр.зар.= [В \";\r\n\tptrs[1]=\t\" Imax.выр.зар.= ]А\";\r\n\tptrs[2]=\t\" Tвыр.зар.= (ч. \";\r\n\tptrs[3]=\t\" Блокирование \";\r\n\tptrs[4]=\t\" вентиляцией )\";\t\t\r\n ptrs[5]=\tsm_exit;\r\n ptrs[6]=\tsm_;\r\n ptrs[7]=\tsm_; \t \t \r\n\t\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\t\r\n\tbgnd_par(\t\"Выравнивающий заряд\",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\r\n\tif(VZ_HR==0) int2lcd(5,'(',1);\r\n\telse int2lcd(VZ_HR,'(',0);\r\n\tint2lcd(IMAX_VZ,']',1);\r\n\tint2lcd(UVZ,'[',1);\r\n\tif(VZ_CH_VENT_BLOK==1)sub_bgnd(\"ВКЛ\",')',-2);\r\n else if(VZ_CH_VENT_BLOK==0)sub_bgnd(\"ВЫКЛ.\",')',-4);\r\n\telse sub_bgnd(\"НЕКОРР..\",')',-6);\r\n\r\n\t}\r\n\r\nelse if(ind==iVZ1_set)\t\t//Меню установок уравнительного заряда\r\n\t{\r\n\t\r\n\tptrs[0]=\t\" Uу.з.= [В\";\r\n\tptrs[1]=\t\" Imax.у.з.= ]А\";\r\n\tptrs[2]=\t\" T.у.з.= {ч.\";\t\r\n ptrs[3]=\tsm_exit;\r\n ptrs[4]=\tsm_;\r\n ptrs[5]=\tsm_; \t \t \r\n\t\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\t\r\n\tbgnd_par(\t\"УРАВНИТЕЛЬНЫЙ ЗАРЯД\",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\r\n\tint2lcd(UZ_U,'[',1);\r\n\tint2lcd(UZ_IMAX,']',1);\r\n\tint2lcd(UZ_T,'{',0);\r\n\r\n\t}\r\n\r\nelse if(ind==iVZ2_set)\t\t//Меню установок формовочного заряда\r\n\t{\r\n\t\r\n\tptrs[0]=\t\" Uф.з.1= !В\";\r\n\tptrs[1]=\t\" Imax.ф.з.1= @А\";\r\n\tptrs[2]=\t\" Tф.з.1= #ч.\";\t\r\n\tptrs[3]=\t\" Iперекл.1-2= $А\";\r\n\tptrs[4]=\t\" Uф.з.2= %В\";\r\n\tptrs[5]=\t\" Imax.ф.з.2= ^А\";\r\n\tptrs[6]=\t\" Tф.з.2= &ч.\";\t\r\n ptrs[7]=\tsm_exit;\r\n ptrs[8]=\tsm_;\r\n ptrs[9]=\tsm_; \t \t \r\n\t\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\t\r\n\tbgnd_par(\t\" ФОРМОВОЧНЫЙ ЗАРЯД \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\r\n\tint2lcd(FZ_U1,'!',1);\r\n\tint2lcd(FZ_IMAX1,'@',1);\r\n\tint2lcd(FZ_T1,'#',0);\r\n\tint2lcd(FZ_ISW12,'$',1);\r\n\tint2lcd(FZ_U2,'%',1);\r\n\tint2lcd(FZ_IMAX2,'^',1);\r\n\tint2lcd(FZ_T2,'&',0);\r\n\r\n\t}\r\n\r\nelse if(ind==iHV_STEP2_1)\r\n\t{\r\n\tbgnd_par(\t\" ВНИМАНИЕ!!! \",\r\n\t\t\t\t\" Напряжение будет \",\r\n\t\t\t\t\" увеличено до @В\",\r\n\t\t\t\t\"ОТКЛЮЧИТЕ НАГРУЗКУ!!\");\r\n\tint2lcd(UVZ,'@',1);\r\n\r\n\t}\r\n\r\nelse if(ind==iHV_STEP2_2)\r\n\t{\r\n\tbgnd_par(\t\" \",\r\n\t\t\t\t\" Подтвердить \",\r\n\t\t\t\t\" Отменить \",\r\n\t\t\t\t\" \");\r\n\tpointer_set(1);\r\n\r\n\t}\r\n\r\nelse if(ind==iVZ1_STEP2_1)\r\n\t{\r\n\tbgnd_par(\t\" ВНИМАНИЕ!!! \",\r\n\t\t\t\t\" Напряжение будет \",\r\n\t\t\t\t\" увеличено до @В\",\r\n\t\t\t\t\"ОТКЛЮЧИТЕ НАГРУЗКУ!!\");\r\n\tint2lcd(UZ_U,'@',1);\r\n\r\n\t}\r\n\r\nelse if(ind==iVZ1_STEP2_2)\r\n\t{\r\n\tbgnd_par(\t\" \",\r\n\t\t\t\t\" Подтвердить \",\r\n\t\t\t\t\" Отменить \",\r\n\t\t\t\t\" \");\r\n\tpointer_set(1);\r\n\r\n\t}\r\n\r\nelse if(ind==iVZ2_STEP2_1)\r\n\t{\r\n\tbgnd_par(\t\" ВНИМАНИЕ!!! \",\r\n\t\t\t\t\" Напряжение будет \",\r\n\t\t\t\t\" увеличено до @В\",\r\n\t\t\t\t\"ОТКЛЮЧИТЕ НАГРУЗКУ!!\");\r\n\tint2lcd(FZ_U2,'@',1);\r\n\r\n\t}\r\n\r\nelse if(ind==iVZ2_STEP2_2)\r\n\t{\r\n\tbgnd_par(\t\" \",\r\n\t\t\t\t\" Подтвердить \",\r\n\t\t\t\t\" Отменить \",\r\n\t\t\t\t\" \");\r\n\tpointer_set(1);\r\n\r\n\t}\r\n\r\nelse if(ind==iSet_load_off)\r\n\t{\r\n\tptrs[0]=\t\t\" Uнагр.макс. $В \";\r\n\tptrs[1]=\t\t\" Uнагр.мин. %В \";\r\n\tptrs[2]=\t\t\" dUоткл.нагр. !В \";\r\n\tptrs[3]=\t\t\" Tз.откл.нагр. #с.\";\r\n\tptrs[4]=\t\t\" Выход \";\r\n\tsimax=4;\r\n\t\r\n\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\t\t\" Отключение нагрузки\",\r\n\t\t\t\t\t\t\tptrs[index_set],\r\n\t\t\t\t\t\t\tptrs[index_set+1],\r\n\t\t\t\t\t\t\tptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\r\n//\tif(NPN_SIGN==npnsAVNET) sub_bgnd(\"Ав.сети\",'@',-3);\r\n//\telse sub_bgnd(\"Uнагр.\",'@',-2);\r\n\tint2lcd(TZNPN,'#',0);\r\n\tint2lcd(UONPN,'$',1);\r\n\tint2lcd(UVNPN,'%',1);\t \r\n\tint2lcd(dUNPN,'!',1);\r\n\r\n\tint2lcdyx(load_off_cnt,0,19,0);\r\n\tint2lcdyx(tloaddisable_cmnd,0,15,0);\r\n\tint2lcdyx(load_off_stat,0,11,0);\r\n\t}\r\n\r\n#ifdef UKU_ZVU\r\nelse if(ind==iSet_bat_point)\r\n\t{\r\n\tchar ptr_ptrs=0;\r\n ptrs[ptr_ptrs++]= \t \" Количество 2В \";\r\n\tptrs[ptr_ptrs++]= \t \" элементов n \";\r\n\tptrs[ptr_ptrs++]= \t \" C20 &Ач \";\r\n\tptrs[ptr_ptrs++]= \t \" U20 (В \"; \r\n\tptrs[ptr_ptrs++]= \t \" C10 ^Ач \";\r\n\tptrs[ptr_ptrs++]= \t \" U10 FВ \"; \r\n\tptrs[ptr_ptrs++]= \t \" C5 %Ач \";\r\n\tptrs[ptr_ptrs++]= \t \" U5 fВ \";\r\n\tptrs[ptr_ptrs++]=\t\t\" C3 $Ач \";\r\n\tptrs[ptr_ptrs++]= \t \" U3 WВ \";\r\n\tptrs[ptr_ptrs++]=\t\t\" C1 #Ач \";\r\n\tptrs[ptr_ptrs++]= \t \" U1 wВ \"; \r\n\tptrs[ptr_ptrs++]= \t \" C1/2 @Ач \";\r\n\tptrs[ptr_ptrs++]= \t \" U1/2 QВ \";\r\n\tptrs[ptr_ptrs++]= \t \" C1/6 !Ач \";\r\n\tptrs[ptr_ptrs++]= \t \" U1/6 qВ \";\t\t \r\n ptrs[ptr_ptrs++]=\t\t\" Uб0°= LВ \";\r\n ptrs[ptr_ptrs++]=\t\t\" Uб20°= lВ \";\r\n\tptrs[ptr_ptrs++]=\t\t\" Uб.сигн= KВ \";\r\n ptrs[ptr_ptrs++]=\t\t\" Iз.мах.= kА \";\t \r\n\tptrs[ptr_ptrs++]=\t\t\" Iбк.= JА \";\r\n\tptrs[ptr_ptrs++]=\t\t\" T проверки цепи \";\r\n ptrs[ptr_ptrs++]=\t\t\" батареи jмин. \";\r\n\tptrs[ptr_ptrs++]=\t\t\" tбат.maх= H°C \";\r\n\tptrs[ptr_ptrs++]=\t\t\" tбат.сигн= h°C \";\r\n ptrs[ptr_ptrs++]=\t\t\" Uоткл.вент.= GВ \";\r\n\tptrs[ptr_ptrs++]=\t\t\" Выравнивающий заряд\";\r\n\tptrs[ptr_ptrs++]=\t\t\" Ускоренный заряд \";\r\n\tptrs[ptr_ptrs++]=\t\t\" Уравнительный заряд\";\r\n\tptrs[ptr_ptrs++]=\t\t\"с ручным отключением\";\r\n\tptrs[ptr_ptrs++]=\t\t\" нагрузки \";\r\n\tptrs[ptr_ptrs++]=\t\t\" Формовочный заряд \";\r\n\tptrs[ptr_ptrs++]=\t\t\"с ручным отключением\";\r\n\tptrs[ptr_ptrs++]=\t\t\" нагрузки \";\r\n\tptrs[ptr_ptrs++]=\t\t\" Коэфф.-ент старения\";\r\n\tptrs[ptr_ptrs++]=\t\t\" батареи g \";\r\n\t \r\n\tptrs[ptr_ptrs++]= \t \" Выход \";\r\n\r\n\tbgnd_par(\t\" ПАРАМЕТРЫ БАТАРЕИ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n\r\n \tint2lcd(BAT_C_POINT_NUM_ELEM,'n',0);\r\n\tint2lcd(BAT_C_POINT_1_6,'!',1);\r\n int2lcd(BAT_C_POINT_1_2,'@',1);\r\n int2lcd(BAT_C_POINT_1,'#',1);\r\n int2lcd(BAT_C_POINT_3,'$',1);\r\n\tint2lcd(BAT_C_POINT_5,'%',1);\r\n\tint2lcd(BAT_C_POINT_10,'^',1);\r\n\tint2lcd(BAT_C_POINT_20,'&',1);\r\n\tint2lcd(BAT_U_END_1_6,'q',1);\r\n int2lcd(BAT_U_END_1_2,'Q',1);\r\n int2lcd(BAT_U_END_1,'w',1);\r\n int2lcd(BAT_U_END_3,'W',1);\r\n\tint2lcd(BAT_U_END_5,'f',1);\r\n\tint2lcd(BAT_U_END_10,'F',1);\r\n\tint2lcd(BAT_U_END_20,'(',1);\r\n\tint2lcd(UB0,'L',1);\r\n\tint2lcd(UB20,'l',1);\r\n\tint2lcd(USIGN,'K',0);\r\n\tint2lcd(IZMAX,'k',1);\r\n\tint2lcd(IKB,'J',2);\r\n\tif(TBAT==0)sub_bgnd(\"выкл.\",'j',0);\t\r\n\telse int2lcd(TBAT,'j',0);\r\n\tint2lcd(TBATMAX,'H',0); \r\n\tint2lcd(TBATSIGN,'h',0);\r\n\tint2lcd(UVENTOFF,'G',0);\r\n\tint2lcd(BAT_K_OLD,'g',2);\r\n\r\n\r\n\t//int2lcdyx(sub_ind,0,3,0);\r\n\t//int2lcdyx(index_set,0,6,0);\r\n\t}\r\n#endif\r\n\r\n#endif\t//UKU_6U_WEB\r\n\r\nif(show_mess_cnt)\r\n\t{\r\n\tshow_mess_cnt--;\r\n\tbgnd_par(show_mess_p1,show_mess_p2,show_mess_p3,show_mess_p4);\r\n\tint2lcd(show_mess_number_,'@',show_mess_komma);\r\n\t}\r\n\r\n/\r\nconst char sm7[]\t={\" Источник N2 \"}; //\r\nconst char sm8[]\t={\" Нагрузка \"}; //\r\nconst char sm9[]\t={\" Сеть \"}; //\r\nconst char sm10[]\t={\" Спецфункции \"}; // \r\nconst char sm11[]\t={\" Журнал аварий \"}; //\r\nconst char sm12[]\t=\" Батарейный журнал \"}; //\r\nconst cha\t\t=\" Паспорт \"}; //\r\n/\r\n\r\n\r\n//char2lcdhyx(bat_rel_stat[0],0,10);\r\n//char2lcdhyx(bat_rel_stat[1],0,15);\r\n//int2lcdyx(u_necc,0,19,0);\r\n//int2lcdyx(cntrl_stat,0,5,0); \t mess_cnt[i]\r\n\r\n//char2lcdhyx(bat_rel_stat[0],0,5);\r\n//char2lcdhyx(bat_rel_stat[1],0,10);\r\n//int2lcdyx(mess_cnt[1],0,2,0);\r\n//int2lcdyx(GET_REG(IOPIN1,21,1),0,5,0); \r\n//int2lcdyx(samokalibr_cnt,0,10,0);\r\n//char2lcdhyx(rele_stat,0,19);\r\n//char2lcdhyx(mess_cnt[1],0,16); \r\n\r\n//int2lcdyx(ad7705_res1,0,8,0);\r\n//int2lcdyx(ad7705_res2,0,16,0); \r\n//\tint2lcdyx(bat[0]._cnt_to_block,0,1,0);\r\n//\tint2lcdyx(bat[1]._cnt_to_block,0,3,0);\r\n//\tint2lcdyx(bat[0]._rel_stat,0,5,0);\r\n/\tint2lcdyx(ind,0,3,0); \r\n\tint2lcdyx(sub_ind,0,6,0);\r\n\tint2lcdyx(index_set,0,9,0);\r\n\tint2lcdyx(ptr_ind,0,14,0);\r\n\t;/\r\n/int2lcdyx(ind,0,19,0);\r\nint2lcdyx(retindsec,0,15,0);\r\nint2lcdyx(retcnt,0,11,0);\r\nint2lcdyx(retcntsec,0,7,0);\t/\r\n//int2lcdyx(hv_vz_stat_cnt,3,7,0);\r\n//int2lcdyx(UB0,0,14,0);\r\n\r\n}\t\t\t\t\t\t\t \r\n\r\n\r\n#define BUT0\t16\r\n#define BUT1\t17\r\n#define BUT2\t18\r\n#define BUT3\t19\r\n#define BUT4\t20 \r\n#define BUT_MASK (1UL<<BUT0)\|(1UL<<BUT1)\|(1UL<<BUT2)\|(1UL<<BUT3)\|(1UL<<BUT4)\r\n\r\n#define BUT_ON 4\r\n#define BUT_ONL 20 \r\n\r\n#define butLUR_ 101\r\n#define butU 253\r\n#define butU_ 125\r\n#define butD 251\r\n#define butD_ 123\r\n#define butL 247\r\n#define butL_ 119\r\n#define butR 239\r\n#define butR_ 111\r\n#define butE 254\r\n#define butE_ 126\r\n#define butEL_ 118\r\n#define butUD 249\r\n#define butUD_ 121\r\n#define butLR 231\r\n#define butLR_ 103\r\n#define butED_ 122\r\n#define butDR_ 107\r\n#define butDL_ 115\r\n\r\n#define BUT_ON 4\r\n#define BUT_ONL 20 \r\n//-----------------------------------------------\r\nvoid but_drv(void)\r\n{\r\nchar i;\r\nLPC_GPIO1->FIODIR\|=(1<<21);\r\nLPC_GPIO1->FIOPIN&=~(1<<21);\r\nLPC_GPIO1->FIODIR&=~((1<<22)\|(1<<23)\|(1<<24)\|(1<<25)\|(1<<26));\r\nLPC_PINCON->PINMODE3&=~((1<<12)\|(1<<13)\|(1<<14)\|(1<<15)\|(1<<16)\|(1<<17)\|(1<<18)\|(1<<19)\|(1<<20)\|(1<<21));\r\n\r\nLPC_GPIO2->FIODIR\|=(1<<8);\r\nLPC_GPIO2->FIOPIN&=~(1<<8);\r\nfor(i=0;i<200;i++)\r\n{\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n__nop();\r\n}\r\n\r\n\t\t\tLPC_GPIO2->FIODIR\|=(1<<8);\r\n\t\t\tLPC_GPIO2->FIOPIN\|=(1<<8);\r\n\r\nbut_n=((LPC_GPIO1->FIOPIN\|(~((1<<22)\|(1<<23)\|(1<<24)\|(1<<25)\|(1<<26))))>>22)/&0x0000001f/;\r\n\r\n\r\n\r\nif((but_n==1023UL)\|\|(but_n!=but_s))\r\n \t{\r\n\tspeed=0;\r\n \r\n \tif (((but0_cnt>=BUT_ON)\|\|(but1_cnt!=0))&&(!l_but))\r\n \t\t{\r\n \t n_but=1;\r\n but=but_s;\r\n\r\n }\r\n \tif (but1_cnt>=but_onL_temp)\r\n \t\t{\r\n \t n_but=1;\r\n \r\n but=but_s&0x7f;\r\n }\r\n \tl_but=0;\r\n \tbut_onL_temp=BUT_ONL;\r\n \tbut0_cnt=0;\r\n \tbut1_cnt=0; \r\n goto but_drv_out;\r\n \t}\r\nelse if(but_n==but_s)\r\n \t{\r\n \tbut0_cnt++;\r\n \tif(but0_cnt>=BUT_ON)\r\n \t\t{\r\n \t\tbut0_cnt=0;\r\n \t\tbut1_cnt++;\r\n \t\tif(but1_cnt>=but_onL_temp)\r\n \t\t\t{ \r\n \t\t\tbut=but_s&0x7f;\r\n \t\t\tbut1_cnt=0;\r\n \t\t\tn_but=1;\r\n \t\t\t \r\n \t\t\tl_but=1;\r\n\t\t\tif(speed)\r\n\t\t\t\t{\r\n \t\t\t\tbut_onL_temp=but_onL_temp>>1;\r\n \t\t\tif(but_onL_temp<=2) but_onL_temp=2;\r\n\t\t\t\t} \r\n \t\t\t}\r\n \t\t}\r\n \t}\r\nbut_drv_out: \r\nbut_s=but_n; \r\n \r\n}\r\n\r\n//-----------------------------------------------\r\nvoid but_an(void)\r\n{\r\nsigned short temp_SS;\r\nsigned short deep,i,cap,ptr;\r\nchar av_head[4];\r\nif(!n_but)goto but_an_end;\r\n/else \t\t\t\t\t\r\n\t{\r\n\tplazma_but_an++;\r\n\tgoto but_an_end;\r\n\t}/\r\nav_beep=0x0000;\r\nav_rele=0x0000;\r\nmnemo_cnt=MNEMO_TIME;\r\n\r\n//bat_ips._av&=~1;\r\n\r\nif((main_1Hz_cnt<10)&&((but==butU)\|\|(but==butU_)\|\|(but==butD)\|\|(but==butD_)\|\|(but==butL)\|\|(but==butL_)\|\|(but==butR)\|\|(but==butR_)\|\|(but==butE)\|\|(but==butE_)))\r\n\t{\r\n\t__ee_spc_stat=spcOFF;\r\n\tspc_stat=spcOFF;\r\n\t}\r\n\r\n//if(uavt_set_stat!=uassOFF) uavt_set_stat=uassOFF;\r\nif((uavt_set_result_stat==uasrsSUCCESS)\|\|(uavt_set_result_stat==uasrsERR))uavt_set_result_stat=uasrsGOOD;\r\n\r\n\r\nif(uavt_set_result_stat!=uasrsERR)\r\n/\r\nif(vz1_stat==vz1sFINE)\r\n\t{\r\n\tvz1_stat=vz1sOFF;\r\n\tlc640_write(EE_VZ1_STAT,vz1sOFF);\r\n\t}\r\nif(vz2_stat==vz2sFINE)\r\n\t{\r\n\tvz2_stat=vz2sOFF;\r\n\tlc640_write(EE_VZ2_STAT,vz2sOFF);\r\n\t}/\r\n\r\nif(but==butUD)\r\n {\r\n if(ind!=iDeb)\r\n\t\t{\r\n\t\tc_ind=a_ind;\r\n\t\ttree_up(iDeb,25,0,0);\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\r\n\t}\r\n\r\nelse if(but==butLR)\r\n\t{\r\n\tbSILENT=1;\r\n\tbeep_init(0x00000000,'S');\r\n\t}\r\n\r\nelse if(but==butUD_)\r\n {\r\n\tavar_bat_as_hndl(0,1);\r\n\t}\r\n\r\nelse if(but==butED_)\r\n {\r\n\tif(!bCAN_OFF)bCAN_OFF=1;\r\n\telse bCAN_OFF=0;\r\n\tspeed=0;\r\n\t}\r\n\r\nelse if((but==butE)&&(hv_vz_stat==hvsSTEP3))\r\n\t{\r\n\thv_vz_stat=hvsWRK;\r\n\tlc640_write(EE_HV_VZ_STAT,hvsWRK);\r\n\t}\r\nelse if(ind==iDeb)\r\n\t{\r\n\tif(but==butR)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tindex_set=0;\r\n\t\tgran_ring_char(&sub_ind,0,25);\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tindex_set=0;\r\n\t\tgran_ring_char(&sub_ind,0,25);\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butU)\r\n\t \t{\r\n\t \tsub_ind1--;\r\n\t \tgran_char(&sub_ind1,0,30);\r\n\t \t}\r\n\t\tif(but==butD)\r\n\t \t{\r\n\t \tsub_ind1++;\r\n\t \tgran_char(&sub_ind1,0,30);\r\n\t \t}\r\n\t \r\n\t\tif(but==butE)\r\n\t \t{\r\n\t \t/SET_REG(C2GSR,3,24,8);\r\n\t\t\tC2MOD=0;\r\n\t\t\t bOUT_FREE2=1;/\r\n\r\n\t\t\t // CAN interface 1, use IRQVec7, at 125kbit\r\n//can2_init(7,8,CANBitrate250k_60MHz);\r\n\r\n// Receive message with ID 102h on CAN 1\r\n//FullCAN_SetFilter(2,0x18e);\r\n\t\t\t }\r\n\r\n\t\tif(but==butE)\r\n\t \t{\r\n\t\t\t//lc640_write_int(EE_BAT1_ZAR_CNT,10);\r\n\t\t\t//ind_pointer=0;\r\n\t\t\tind=(i_enum)0;\r\n\t\t\tsub_ind=0;\r\n\t\t\tsub_ind1=0;\r\n\t\t\tsub_ind2=0;\r\n\t\t\tindex_set=0;\r\n\t\t\t}\r\n\t \r\n\t\t\t\r\n\t\t} \r\n\r\n\t else if(sub_ind==5)\r\n\t \t{\r\n\t\tif(but==butE_)\tnumOfForvardBps_init();\r\n\t\t}\r\n\t\t\t\t\r\n\t else if(sub_ind==5)\r\n\t \t{\r\n\t\tif(but==butE_)\r\n\t\t{\r\n\t\t//can1_init(BITRATE62_5K6_25MHZ);\r\n\t\t//FullCAN_SetFilter(0,0x18e);\r\n\t\tLPC_CAN1->MOD&=~(1<<0);\r\n\t\t}\r\n\t\t}\r\n\r\n\t else if(sub_ind==14)\r\n\t \t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tsntp_requ ();\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butU)\r\n\t \t{\r\n\t \tsub_ind1--;\r\n\t \tgran_char(&sub_ind1,0,1);\r\n\t \t}\r\n\t\tif(but==butD)\r\n\t \t{\r\n\t \tsub_ind1++;\r\n\t \tgran_char(&sub_ind1,0,1);\r\n\t \t}\r\n\t\t}\t\t\r\n\t\t\r\n\t\t\r\n\t\t\t\r\n else if(but==butU)\r\n\t {\r\n\t index_set--;\r\n\t gran_char(&index_set,0,4);\r\n\t //lc640_write_int(ptr_ki_src[0],lc640_read_int(ptr_ki_src[0])+10);\r\n\t }\t\r\n else if(but==butD)\r\n\t {\r\n\t index_set++;\r\n\t gran_char(&index_set,0,4); \r\n\t //lc640_write_int(ptr_ki_src[0],lc640_read_int(ptr_ki_src[0])-10);\r\n\t }\t\r\n else if(but==butE)\r\n \t{\r\n //a=b[--ptr_ind];\r\n can1_out(1,2,3,4,5,6,7,8);\r\n } \r\n \r\n else if(but==butE_)\r\n \t{\r\n //a=b[--ptr_ind];\r\n can1_out_adr(TXBUFF,3);\r\n } \t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iMn)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,9+NUMBAT+NUMINV+NUMIST+3+(NUMAVT!=0));\r\n\t\t//LPC_CAN1->GSR = 0;\r\n\t\t\r\n\t\t}\r\n\t\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,9+NUMBAT+NUMINV+NUMIST+3+(NUMAVT!=0));\r\n\t\t}\t\r\n\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\t\r\n\telse if(but==butE_)\r\n\t\t{\r\n\t\tbRESET=1;//tree_up(iK_bps_sel,0,0,0);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind>0)&&(sub_ind<=NUMBAT))\r\n\t\t \t{\r\n\t\t \tif(BAT_IS_ON[0]!=bisON)tree_up(iBat,0,0,1);\r\n\t\t \telse tree_up(iBat,0,0,sub_ind-1);\r\n\t\t \t}\r\n\t\telse if((sub_ind>NUMBAT)&&(sub_ind<=(NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT));\r\n\t\t \t}\r\n//\t\telse if((sub_ind>(NUMBAT+NUMIST))&&(sub_ind<=(NUMINV+NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iInv,0,0,sub_ind-(1+NUMBAT));\r\n//\t\t \ttree_up(iInv,0,0,2); // 2 - адрес инвертора зашит как №3\r\n//\r\n\t\t \t}\r\n\t\telse if(sub_ind==(1+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iNet,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(2+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV)))\r\n\t\t\t{\r\n\t\t\t#ifdef UKU\r\n\t\t\ttree_up(iExtern,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t#endif\r\n\t\t\t#ifdef UKU_3U\r\n\t\t\ttree_up(iExtern_3U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t#endif\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV+1)))\r\n\t\t\t{\r\n\t\t\ttree_up(iVent,1,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV+2))&&(NUMAVT))\r\n\t\t\t{\r\n\t\t\ttree_up(iAvt,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\t#ifdef UKU_MGTS\r\n\t\telse if(sub_ind==(3+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iEnerg3,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU_3U\r\n\t\telse if(sub_ind==(3+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iEnerg,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\t#endif\r\n\r\n\t\telse if(sub_ind==(4+NUMBAT+NUMIST+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iSpc,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(5+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(7+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\telse if(sub_ind==(8+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(9+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(10+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iPrltst,0,0,0);\r\n\t\t \tparol_init();\r\n\t\t \t}\r\n\t\t\t}\r\n\t\t}\r\n \t\r\n /* else if(sub_ind==7+NUMBAT+NUMIST+NUMINV+1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\t}\t\r\n\t\t\r\n\telse if(sub_ind==8+NUMBAT+NUMIST+1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\ttree_up(iJ_bat,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\t}\t\t\r\n else if(sub_ind==9+NUMBAT+NUMIST+1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\ttree_up(iJ_bat,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\t}/\t\t\t\r\n\t\t\t\t\r\n\t}\r\n#ifndef UKU_6U_WEB\r\nelse if(ind==iMn_RSTKM)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,9+NUMBAT+NUMINV+NUMIST+3+(NUMAVT!=0));\r\n\t\t}\r\n\t\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,9+NUMBAT+NUMINV+NUMIST+3+(NUMAVT!=0));\r\n\t\t}\t\r\n\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\t\r\n\telse if(but==butE_)\r\n\t\t{\r\n\t\tbRESET=1;//tree_up(iK_bps_sel,0,0,0);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind>0)&&(sub_ind<=NUMBAT))\r\n\t\t \t{\r\n\t\t \tif(BAT_IS_ON[0]!=bisON)tree_up(iBat,0,0,1);\r\n\t\t \telse tree_up(iBat,0,0,sub_ind-1);\r\n\t\t \t}\r\n\t\telse if((sub_ind>NUMBAT)&&(sub_ind<=(NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT));\r\n\t\t \t}\r\n//\t\telse if((sub_ind>(NUMBAT+NUMIST))&&(sub_ind<=(NUMINV+NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iInv,0,0,sub_ind-(1+NUMBAT));\r\n//\t\t \ttree_up(iInv,0,0,2); // 2 - адрес инвертора зашит как №3\r\n//\r\n\t\t \t}\r\n\t\telse if(sub_ind==(1+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iNet,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(2+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV)))\r\n\t\t\t{\r\n\t\t\ttree_up(iExtern,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV+1)))\r\n\t\t\t{\r\n\t\t\ttree_up(iVent,1,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV+2))&&(NUMAVT))\r\n\t\t\t{\r\n\t\t\ttree_up(iAvt,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(3+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iEnerg3,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\t\r\n\t\telse if(sub_ind==(4+NUMBAT+NUMIST+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iSpc,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(5+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(7+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\telse if(sub_ind==(8+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(9+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(10+NUMBAT+NUMIST+NUMINV+2)+(NUMAVT!=0))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iPrltst,0,0,0);\r\n\t\t \tparol_init();\r\n\t\t \t}\r\n\t\t\t}\r\n\t\t}\r\n }\r\n\r\nelse if(ind==iMn_3U)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,9+NUMBAT+NUMINV+NUMIST+1);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,9+NUMBAT+NUMINV+NUMIST+1);\r\n\t\t}\t\r\n\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\t\r\n\telse if(but==butE_)\r\n\t\t{\r\n\t\tbRESET=1;//tree_up(iK_bps_sel,0,0,0);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind>0)&&(sub_ind<=NUMBAT))\r\n\t\t \t{\r\n\t\t \tif(BAT_IS_ON[0]!=bisON)tree_up(iBat,0,0,1);\r\n\t\t \telse tree_up(iBat,0,0,sub_ind-1);\r\n\t\t \t}\r\n\t\telse if((sub_ind>NUMBAT)&&(sub_ind<=(NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT));\r\n\t\t \t}\r\n\t\telse if((sub_ind>(NUMBAT+NUMIST))&&(sub_ind<=(NUMINV+NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iInv,0,0,sub_ind-(1+NUMBAT+NUMIST));\r\n\t\t \t}\r\n\t\telse if(sub_ind==(1+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iNet,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(2+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV)))\r\n\t\t\t{\r\n\t\t\ttree_up(iExtern,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV+1)))\r\n\t\t\t{\r\n\t\t\ttree_up(iSpc,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(5+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(7+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\telse if(sub_ind==(8+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(9+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(10+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iPrltst,0,0,0);\r\n\t\t \tparol_init();\r\n\t\t \t}\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iMn_GLONASS)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,9+NUMBAT+NUMINV+NUMIST+1);\r\n\t\tsnmp_trap_send(\"ABCDEFGHIJKLMN\",15,1,1);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,9+NUMBAT+NUMINV+NUMIST+1);\r\n\t\tsnmp_trap_send(\"ABCDEFGHIJKL#NOP\",15,1,1);\r\n\t\t}\t\r\n\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\t\r\n\telse if(but==butE_)\r\n\t\t{\r\n\t\tbRESET=1;//tree_up(iK_bps_sel,0,0,0);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind>0)&&(sub_ind<=NUMBAT))\r\n\t\t \t{\r\n\t\t \tif(BAT_IS_ON[0]!=bisON)tree_up(iBat,0,0,1);\r\n\t\t \telse tree_up(iBat,0,0,sub_ind-1);\r\n\t\t \t}\r\n\t\telse if((sub_ind>NUMBAT)&&(sub_ind<=(NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT));\r\n\t\t \t}\r\n\t\telse if((sub_ind>(NUMBAT+NUMIST))&&(sub_ind<=(NUMINV+NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iInv,0,0,sub_ind-(1+NUMBAT+NUMIST));\r\n\t\t \t}\r\n\t\telse if(sub_ind==(1+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iNet,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(2+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV)))\r\n\t\t\t{\r\n\t\t\ttree_up(iExtern_GLONASS,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV+1)))\r\n\t\t\t{\r\n\t\t\ttree_up(iSpc,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(5+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(7+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\telse if(sub_ind==(8+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(9+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(10+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iPrltst,0,0,0);\r\n\t\t \tparol_init();\r\n\t\t \t}\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iMn_KONTUR)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,10+NUMBAT+NUMIST+2);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,10+NUMBAT+NUMIST+2);\r\n\t\t}\t\r\n\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\t\r\n\telse if(but==butE_)\r\n\t\t{\r\n\t\tbRESET=1;//tree_up(iK_bps_sel,0,0,0);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind>0)&&(sub_ind<=NUMBAT))\r\n\t\t \t{\r\n\t\t \tif(BAT_IS_ON[0]!=bisON)tree_up(iBat,0,0,1);\r\n\t\t \telse tree_up(iBat,0,0,sub_ind-1);\r\n\t\t \t}\r\n\t\telse if((sub_ind>NUMBAT)&&(sub_ind<=(NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT));\r\n\t\t \t}\r\n\t\telse if((sub_ind>(NUMBAT+NUMIST))&&(sub_ind<=(NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT+NUMIST));\r\n\t\t \t}\r\n\t\telse if(sub_ind==(1+NUMBAT+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iNet,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(2+NUMBAT+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST)))\r\n\t\t\t{\r\n\t\t\ttree_up(iExtern_KONTUR,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+1)))\r\n\t\t\t{\r\n\t\t\ttree_up(iVent,1,0,0);\r\n\t\t ret(1000);\r\n\t\t\t} \r\n\r\n\t\telse if(sub_ind==(3+NUMBAT+NUMIST+2))\r\n\t\t\t{\r\n\t\t\ttree_up(iEnerg,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(4+NUMBAT+NUMIST+2))\r\n\t\t\t{\r\n\t\t\ttree_up(iSpc,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(5+NUMBAT+NUMIST+2))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMBAT+NUMIST+2))\r\n\t\t\t{\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(7+NUMBAT+NUMIST+2))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\telse if(sub_ind==(8+NUMBAT+NUMIST+2))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(9+NUMBAT+NUMIST+2))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(10+NUMBAT+NUMIST+2))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iPrltst,0,0,0);\r\n\t\t \tparol_init();\r\n\t\t \t}\r\n\t\t\t}\r\n\t\t}\r\n \t\r\n else if(sub_ind==7+NUMBAT+NUMIST+1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\t}\t\r\n\t\t\r\n/\telse if(sub_ind==8+NUMBAT+NUMIST+1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\ttree_up(iJ_bat,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\t}\t\t\r\n else if(sub_ind==9+NUMBAT+NUMIST+1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\ttree_up(iJ_bat,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\t}/\t\t\t\r\n\t\t\t\t\r\n\t}\r\n#endif\t//UKU_6U_WEB\r\nelse if(ind==iMn_6U)\r\n\t{\r\n\t\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,10+NUMBAT+NUMIST/+NUMINV/+NUMMAKB/+NUMBYPASS/+(NUMEXT!=0));\r\n\t\t//can1_init(BITRATE62_5K25MHZ);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,9+NUMBAT+NUMIST/+NUMINV/+NUMMAKB/+NUMBYPASS/+(NUMEXT!=0));\r\n\t\t//LPC_CAN1->CMR=0x00000022;\r\n\t\trx_read_power_cnt_flag++;\r\n\t\t}\t\r\n\r\n\telse if(but==butE_)\r\n\t\t{\r\n\t\t//can1_init(BITRATE62_5K25MHZ);\r\n#ifndef MCP2515CAN\r\n\t\t//FullCAN_SetFilter(0,0x18e);\r\n#endif\r\n\t\tavar_bps_hndl(1,0,1);\r\n\t\t}\r\n\telse if(but==butDR_)\r\n\t\t{\r\n\t\t//tree_up(iK_6U,0,0,0);\r\n\t\tavar_bps_hndl(1,0,0);\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind>0)&&(sub_ind<=NUMBAT))\r\n\t\t \t{\r\n\t\t\t#ifdef UKU_TELECORE2015\r\n\t\t\t#endif\t\t \t\r\n\r\n\t\t\tif(BAT_IS_ON[0]!=bisON)\r\n\t\t\t\t{\r\n\t\t\t\tif(BAT_TYPE==0)tree_up(iBat/_simple/,0,0,1);\r\n\t\t\t\telse if(BAT_TYPE==1) tree_up(iBat_li,0,0,1);\r\n\t\t\t\t}\r\n\t\t \telse \r\n\t\t\t\t{\r\n\t\t\t\tif(BAT_TYPE==0)tree_up(iBat/_simple/,0,0,sub_ind-1);\r\n\t\t\t\telse if(BAT_TYPE==1) tree_up(iBat_li,0,0,sub_ind-1);\r\n\t\t\t\t}\r\n\t\t \t}\r\n\t\telse if((sub_ind>NUMBAT)&&(sub_ind<=(NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT));\r\n\t\t \t}\r\n\t\t/else if((sub_ind>(NUMBAT+NUMIST))&&(sub_ind<=(NUMBAT+NUMIST+NUMBYPASS)))\r\n\t\t \t{\r\n\t\t \ttree_up(iByps,0,0,0);\r\n\t\t \t} /\r\n\t\t/else if((sub_ind>(NUMBAT+NUMIST+NUMBYPASS))&&(sub_ind<=(NUMBAT+NUMIST+NUMBYPASS+NUMINV)))\r\n\t\t \t{\r\n\t\t \ttree_up(iInv_v2,0,0,sub_ind-(1+NUMBAT+NUMIST+NUMBYPASS));\r\n\t\t \t}/\r\n\t\t/else if((sub_ind==(1+NUMBAT+NUMIST+NUMBYPASS+NUMINV))&&(NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iInv_tabl,0,0,0);\r\n\t\t //ret(500);\r\n\t\t }/\r\n\t\telse if((sub_ind>(NUMBAT+NUMIST/+NUMBYPASS+NUMINV//+(NUMINV!=0)/))&&(sub_ind<=(NUMBAT+NUMIST/+NUMBYPASS+NUMINV/+NUMMAKB/+(NUMINV!=0)/)))\r\n\t\t \t{\r\n\t\t \ttree_up(iMakb,0,0,sub_ind-(1+NUMBAT+NUMIST/+NUMBYPASS+NUMINV+(NUMINV!=0)/));\r\n\t\t \t}\r\n\t\telse if(sub_ind==(1+NUMBAT+NUMIST/+NUMBYPASS+NUMINV/+NUMMAKB/+(NUMINV!=0)/))\r\n\t\t\t{\r\n\t\t\t/\r\n\t\t\tif(AUSW_MAIN%10)\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet3,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t} /\r\n\t\t\tif(NUMPHASE==3)\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet3,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==(2+NUMBAT+NUMIST/+NUMBYPASS+NUMINV/+NUMMAKB/+(NUMINV!=0)/))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST/+NUMBYPASS+NUMINV/+NUMMAKB)/+(NUMINV!=0)/)&&(NUMEXT))\r\n\t\t\t{\r\n\t\t\ttree_up(iExtern_6U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(3+NUMBAT+NUMIST/+NUMBYPASS+NUMINV/+NUMMAKB/+(NUMINV!=0)/+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iSpc,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(4+NUMBAT+NUMIST/+NUMBYPASS+NUMINV/+NUMMAKB/+(NUMINV!=0)/+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(5+NUMBAT+NUMIST/+NUMBYPASS+NUMINV/+NUMMAKB/+(NUMINV!=0)/+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMBAT+NUMIST/+NUMBYPASS+NUMINV/+NUMMAKB/+(NUMINV!=0)/+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\telse if(sub_ind==(7+NUMBAT+NUMIST/+NUMBYPASS+NUMINV/+NUMMAKB/+(NUMINV!=0)/+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(8+NUMBAT+NUMIST/+NUMBYPASS+NUMINV/+NUMMAKB/+(NUMINV!=0)/+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(9+NUMBAT+NUMIST/+NUMBYPASS+NUMINV/+NUMMAKB/+(NUMINV!=0)/+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iPrltst,0,0,0);\r\n\t\t \tparol_init();\r\n\t\t \t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==(10+NUMBAT+NUMIST/+NUMBYPASS+NUMINV/+NUMMAKB/+(NUMINV!=0)/+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iSpecInf,0,0,0);\r\n\t\t \t}\r\n\t\t\t}\r\n\t\t}\r\n }\r\n#ifndef UKU_6U_WEB\r\nelse if(ind==iMn_220)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,11+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0));\r\n\t\t}\r\n\t\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,11+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0));\r\n\t\t}\t\r\n\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\tmodbus_hold_registers_transmit(0x35,3,4,5,0);\r\n\r\n\t/putchar0(0x04);\r\n\tputchar0(0x04);\r\n\tputchar0(0x02);\r\n\tputchar0(0x00);\r\n\tputchar0(0x00);\r\n\tputchar0(0x75);\r\n\tputchar0(0x30); /\r\n/\tputchar2(0);\r\n\tputchar2(1);\r\n\tputchar2(2);\r\n\tputchar2(3);\r\n\tputchar2(4);\r\n\tputchar2(5);\r\n\tputchar2(6);/\r\n\r\n\r\n\t\t}\r\n\r\n\telse if(but==butR)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\r\n\r\n\r\n/\tputchar2(0);\r\n\tputchar2(1);\r\n\tputchar2(2);\r\n\tputchar2(3);\r\n\tputchar2(4);\r\n\tputchar2(5);\r\n\tputchar2(6);/\r\n\r\n\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\t//avar_bat_ips_hndl(1);//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind>0)&&(sub_ind<=NUMBAT))\r\n\t\t \t{\r\n\t\t \tif(BAT_IS_ON[0]!=bisON)tree_up(iBat,0,0,1);\r\n\t\t \telse tree_up(iBat,0,0,sub_ind-1);\r\n\t\t \t}\r\n\t\telse if((sub_ind>NUMBAT)&&(sub_ind<=(NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT));\r\n\t\t \t}\r\n\t\telse if((sub_ind>(NUMBAT+NUMIST))&&(sub_ind<=(NUMBAT+NUMIST+NUMINV)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT+NUMIST));\r\n\t\t \t}\r\n\t\telse if(sub_ind==(1+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\tif((AUSW_MAIN==22035)\|\|(AUSW_MAIN==22033)\|\|(AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043))\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet3,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse if(AUSW_MAIN==22044)\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet3LIN,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet,0,0,0);\t\r\n\t\t\t\tret(1000);\t\t\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==(2+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV))&&(NUMEXT))\r\n\t\t\t{\r\n\t\t\ttree_up(iExtern_220,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(3+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tspeedChargeStartStop();\r\n\t\t\t//if(sp_ch_stat!=scsOFF)speedz_mem_hndl(1);\r\n\t\t\t//else speedz_mem_hndl(10);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(4+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iSpc,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(5+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(7+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\telse if(sub_ind==(8+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(9+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(10+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iPrltst,0,0,0);\r\n\t\t \tparol_init();\r\n\t\t \t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==(11+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iBps_list,0,0,0);\r\n\t\t \t}\r\n\t\t\t}\r\n\t\t}\r\n \t}\r\n\r\nelse if(ind==iMn_220_V2)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,10+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0));\r\n\t\t}\r\n\t\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,10+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0));\r\n\t\t}\t\r\n\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind>0)&&(sub_ind<=NUMBAT))\r\n\t\t \t{\r\n\t\t \tif(BAT_IS_ON[0]!=bisON)tree_up(iBat_simple,0,0,1);\r\n\t\t \telse tree_up(iBat_simple,0,0,sub_ind-1);\r\n\t\t \t}\r\n\t\telse if((sub_ind>NUMBAT)&&(sub_ind<=(NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT));\r\n\t\t \t}\r\n\t\telse if((sub_ind>(NUMBAT+NUMIST))&&(sub_ind<=(NUMBAT+NUMIST+NUMINV)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT+NUMIST));\r\n\t\t \t}\r\n\t\telse if(sub_ind==(1+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\tif((AUSW_MAIN==22035)\|\|(AUSW_MAIN==22033)\|\|(AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043))\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet3,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse if(AUSW_MAIN==22044)\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet3LIN,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet,0,0,0);\t\r\n\t\t\t\tret(1000);\t\t\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==(2+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV))&&(NUMEXT))\r\n\t\t\t{\r\n\t\t\ttree_up(iExtern_220,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(3+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iSpc,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(4+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tspeedChargeStartStop();\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(5+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(7+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\telse if(sub_ind==(8+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(9+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(10+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iPrltst,0,0,0);\r\n\t\t \tparol_init();\r\n\t\t \t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==(11+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iSpecInf,0,0,0);\r\n\t\t \t}\r\n\t\t\t}\r\n\t\t}\r\n }\r\nelse if(ind==iMn_220_IPS_TERMOKOMPENSAT)\r\n\t{\r\n\tif((NUMBAT>5)\|\|(NUMBAT<0))NUMBAT=0;\r\n\tif((NUMIST>50)\|\|(NUMIST<0))NUMIST=0;\r\n\tif((SMART_SPC!=0)&&(SMART_SPC!=1))SMART_SPC=0;\r\n\tif((num_rki>1)\|\|(num_rki<0)) num_rki=0;\r\n\tif((num_net_in>3)\|\|(num_rki<0)) num_net_in=0;\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif((sub_ind==(5+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0)/+NUMBAT/))\t && (SMART_SPC))\r\n\t\t\t{\r\n\t\t\tindex_set=sub_ind+2;\r\n\t\t\t}\r\n\t\telse if((sub_ind==(6+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0)/+NUMBAT/)) && (SMART_SPC))\r\n\t\t\t{\r\n\t\t\tsub_ind+=2;\r\n\t\t\tindex_set=sub_ind+2;\r\n\t\t\t}\r\n\t\telse if((sub_ind==(9+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0)/+NUMBAT/)) && SMART_SPC)\r\n\t\t\t{\r\n\t\t\tsub_ind+=2;\r\n\t\t\t//index_set=sub_ind+2;\r\n\t\t\t}\r\n\t\telse if((sub_ind==(10+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0)/+NUMBAT/)) && SMART_SPC)\r\n\t\t\t{\r\n\t\t\t//index_set=sub_ind+2;\r\n\t\t\t}\r\n\r\n\t\telse if((sub_ind==(9+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0))) && SMART_SPC) sub_ind+=2;\r\n\t\telse if((sub_ind==(10+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0))) && SMART_SPC) sub_ind++;\r\n\r\n\t\tgran_char(&sub_ind,0,12+NUMIST+(NUMEXT!=0)+(num_rki!=0)+(num_net_in!=0)+((SMART_SPC)6)+NUMBAT);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\t/if((sub_ind==(7+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0)+NUMBAT)) && SMART_SPC)\r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\tindex_set=sub_ind+2;\r\n\t\t\t}\r\n\t\telse/ if((sub_ind==(7+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0)/+NUMBAT/)) && SMART_SPC)\r\n\t\t\t{\r\n\t\t\tsub_ind-=2;\r\n\t\t\tindex_set=sub_ind+2;\r\n\t\t\t}\r\n/\t\telse if((sub_ind==(10+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0)+NUMBAT)) && SMART_SPC)\r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\tindex_set=sub_ind+2;\r\n\t\t\t} /\r\n\t\telse if((sub_ind==(10+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0)/+NUMBAT/)) && SMART_SPC)\r\n\t\t\t{\r\n\t\t\tsub_ind-=2;\r\n\t\t\tindex_set=sub_ind+2;\r\n\t\t\t}\r\n\t\tgran_char(&sub_ind,0,12+NUMIST+(NUMEXT!=0)+(num_rki!=0)+(num_net_in!=0)+((SMART_SPC)6)+NUMBAT);\r\n\t\t}\t\t\r\n \telse if(but==butR)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\t//sub_ind=0;\r\n\t\t//speedz_mem_hndl(1);\r\n\t\t}\r\n\telse if(but==butR_)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\t//sub_ind=0;\r\n\t\t//speedz_mem_hndl(5);\r\n\t\ttree_up(iSet_220_IPS_TERMOKOMPENSAT,0,0,0);\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t//speedz_mem_hndl(0);\r\n\t\t}\r\n\telse if(but==butL_)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t//speedz_mem_hndl(10);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\r\n\telse if(but==butLR_)\r\n\t\t{\r\n/\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init(); /\r\n\r\n\t\tload_U=1234;\r\n\t\tavar_uout_hndl(1);\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{ \r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\t\r\n\t\t\t\tuku_or_rki=0; //oleg_start\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tif(!rki_avar1_ind_stat) tree_down(0,0);\t//oleg_start добавил if(!rki_avar1_ind_stat)\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\telse if(ips_bat_av_stat)\r\n\t\t\t\t{\r\n\t\t\t\tips_bat_av_stat=0;\t\r\n\t\t\t\tuku_or_rki=0; \r\n\t\t\t\ttree_up(iAv_view,0,0,0); \r\n\t\t\t\tsub_ind=29;\r\n\t\t\t\t}\r\n\t\t\t//oleg_start\r\n\t\t\telse if(rki_avar1_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\tuku_or_rki=1;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(rki_avar1_ind_stat&(1<<(sub_ind) )))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tif(!avar_ind_stat) tree_down(0,0);\r\n\t\t\t\t\t\trki_avar1_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t\t//oleg_end\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind==2)&&(NUMBAT))\r\n\t\t \t{\r\n\t\t \ttree_up(iBat_ZVU,0,0,0);\r\n\t\t \t} \r\n\t\telse if((sub_ind>1+NUMBAT)&&(sub_ind<=(NUMIST+NUMBAT+1)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps_elteh,0,0,sub_ind-3);\r\n\t\t \t}\r\n\t\telse if(sub_ind==(2+NUMIST+NUMBAT/+NUMINV/))\r\n\t\t\t{\r\n\t\t\tif((AUSW_MAIN==22035)\|\|(AUSW_MAIN==22033)\|\|(AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043)\|\|(AUSW_MAIN==22018))\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet3,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse if(AUSW_MAIN==22044)\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet3LIN,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iNet,0,0,0);\t\r\n\t\t\t\tret(1000);\t\t\r\n\t\t\t\t}\r\n\t\t\t}\r\n/\t\telse if(sub_ind==(2+NUMBAT+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t} /\r\n\t\t\t// oleg_start\r\n\t\telse if(sub_ind==(2+NUMBAT+NUMIST+(num_net_in!=0)/+1/))\t// вход в подменю сетевые вводы\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iNET_IN,0,0,0);\r\n\t\t\t\tret(1000);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==(2+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)/+1/)) // вход в подменю РКИ\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iRKI,0,0,0);\r\n\t\t\t\tret(1000);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t\t// oleg_end\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)))&&(NUMEXT))\r\n\t\t\t{\r\n\t\t\ttree_up(iExtern_220_ZVU,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(3+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tspeedChargeStartStop();\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(4+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\t//tree_up(iSpc_termocompensat,0,0,0);\r\n\t\t //ret(1000);\r\n\t\t/\tif(VZ_KIND==0)\r\n\t\t\t\t{ /\r\n\t\t\t\tif(spc_stat==spcOFF)vz_start(VZ_HR);\r\n\t\t\t\telse if(spc_stat==spcVZ)vz_stop();\r\n\t\t\t\tif(hv_vz_stat!=hvsOFF)\r\n\t\t\t\t\t{\r\n\t\t\t\t\thv_vz_stat=hvsOFF;\r\n\t\t\t\t\tlc640_write(EE_HV_VZ_STAT,hvsOFF);\r\n\t\t\t\t\t}\r\n\t\t/\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t\t\taverageChargeStartStop();\r\n\t\t\t\tif(spc_stat==spcVZ)vz_stop();\r\n\t\t\t\t} /\r\n\t\t\t}\r\n\t\telse if((sub_ind==(5+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0))) && (SMART_SPC))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t\t\t{\r\n\t\t\t\tif(vz1_stat==vz1sOFF)\r\n\t\t\t\t\t{\r\n\t\t\t \ttree_up(iPrlVZ1,0,0,0);\r\n\t\t \t\tparol_init();\r\n\t\t \t\t}\r\n\t\t\t\telse \r\n\t\t\t\t\t{\r\n\t\t\t\t\tvz1_stop();\r\n\t\t\t\t\tuz_mem_hndl(10);\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(2+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0) + (6(SMART_SPC!=0))))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t\t\t{\r\n\t\t\t\tif(vz2_stat==vz2sOFF)\r\n\t\t\t\t\t{\r\n\t\t\t \ttree_up(iPrlVZ2,0,0,0);\r\n\t\t \t\tparol_init();\r\n\t\t \t\t}\r\n\t\t\t\telse \r\n\t\t\t\t\t{\r\n\t\t\t\t\tvz2_stop();\r\n\t\t\t\t\tfz_mem_hndl(10);\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(5+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0)+ (6(SMART_SPC!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0) + (6(SMART_SPC!=0))))\r\n\t\t\t{\r\n\t\t\tif(but==butE_)avar_uout_hndl(1);\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(7+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0) + (6(SMART_SPC!=0))))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t/\telse if(sub_ind==(8+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t} /\r\n/\t\telse if(sub_ind==(9+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}/\r\n\t\telse if(sub_ind==(8+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0) + (6(SMART_SPC!=0))))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iPrltst,0,0,0);\r\n\t\t \tparol_init();\r\n\t\t \t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==(9+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0) + (6(SMART_SPC!=0))))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iBps_list,0,0,0);\r\n\t\t \t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==(10+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0) + (6(SMART_SPC!=0))))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iFWabout,0,0,0);\r\n\t\t \t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==(11+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0) + (6(SMART_SPC!=0))))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iSpecInf,0,0,0);\r\n\t\t \t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==(12+NUMBAT+NUMIST+(num_rki!=0)+(num_net_in!=0)+(NUMEXT!=0) + (6(SMART_SPC!=0))))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t/{\r\n\t\t \tke_start(0);\r\n\t\t \t}/\r\n\t\t\t\t{\r\n \ttree_up(iSpc_prl_ke,0,0,0);\r\n \tparol_init();\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t}\r\n }\r\nelse if(ind==iMn_TELECORE2015)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,7+NUMBAT_TELECORE+NUMIST);\r\n\t\t//can1_init(BITRATE62_5K25MHZ);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,7+NUMBAT_TELECORE+NUMIST);\r\n\t\t//LPC_CAN1->CMR=0x00000022;\r\n\t\t}\t\r\n\r\n\telse if(but==butE_)\r\n\t\t{\r\n\t\tcan1_init(BITRATE62_5K25MHZ);\r\n\t\tFullCAN_SetFilter(0,0x18e);\r\n\t\t}\r\n\telse if(but==butDR_)\r\n\t\t{\r\n\t\ttree_up(iK_6U,0,0,0);\r\n\t\t}\r\n\telse if(but==butDL_)\r\n\t\t{\r\n\t\ttree_up(iSet_6U,0,0,0);\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\r\n\telse if(but==butL_)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t//snmp_trap_send(\"Temperature at the bottom of box is below -20\",20,1,1);\r\n\t\t}\r\n\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind>0)&&(sub_ind<=NUMBAT_TELECORE))\r\n\t\t \t{\r\n\t\t \ttree_up(iBat_universe,0,0,sub_ind-1);\r\n\t\t\t\t} \r\n\t\telse if((sub_ind>NUMBAT_TELECORE)&&(sub_ind<=(NUMBAT_TELECORE+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT_TELECORE));\r\n\t\t \t}\r\n\t\telse if(sub_ind==(1+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iNetEM,0,0,0);\r\n\t\t ret(0);//1204//ret(1000);\r\n\t\t\t}\r\n\t\t\r\n\t\telse if(sub_ind==(2+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(3+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iExtern_TELECORE2015,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(3+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iSpc,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(4+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(5+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(7+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iPrltst,0,0,0);\r\n\t\t \tparol_init();\r\n\t\t \t}\r\n\t\t\t}\r\n\t\t}\r\n }\r\nelse if(ind==iMn_TELECORE2015)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,7+NUMBAT_TELECORE+NUMIST);\r\n\t\t//can1_init(BITRATE62_5K25MHZ);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,7+NUMBAT_TELECORE+NUMIST);\r\n\t\t//LPC_CAN1->CMR=0x00000022;\r\n\t\t}\t\r\n\r\n\telse if(but==butE_)\r\n\t\t{\r\n\t\tcan1_init(BITRATE62_5K25MHZ);\r\n\t\tFullCAN_SetFilter(0,0x18e);\r\n\t\t}\r\n\telse if(but==butDR_)\r\n\t\t{\r\n\t\ttree_up(iK_6U,0,0,0);\r\n\t\t}\r\n\telse if(but==butDL_)\r\n\t\t{\r\n\t\ttree_up(iSet_6U,0,0,0);\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\r\n\telse if(but==butL_)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t//snmp_trap_send(\"Temperature at the bottom of box is below -20\",20,1,1);\r\n\t\t}\r\n\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind>0)&&(sub_ind<=NUMBAT_TELECORE))\r\n\t\t \t{\r\n\t\t \ttree_up(iBat_universe,0,0,sub_ind-1);\r\n\t\t\t\t} \r\n\t\telse if((sub_ind>NUMBAT_TELECORE)&&(sub_ind<=(NUMBAT_TELECORE+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT_TELECORE));\r\n\t\t \t}\r\n\t\telse if(sub_ind==(1+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iNetEM,0,0,0);\r\n\t\t ret(0);//1204//ret(1000);\r\n\t\t\t}\r\n\t\t\r\n\t\telse if(sub_ind==(2+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(3+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iExtern_TELECORE2015,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(3+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iSpc,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(4+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(5+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(7+NUMBAT_TELECORE+NUMIST))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iPrltst,0,0,0);\r\n\t\t \tparol_init();\r\n\t\t \t}\r\n\t\t\t}\r\n\t\t}\r\n }\r\n\r\nelse if(ind==iMn_IPS_SGEP_GAZPROM)\r\n\t{\r\n\t\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,6+NUMIST);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,6+NUMIST);\r\n\t\t}\t\r\n\r\n\telse if(but==butE_)\r\n\t\t{\r\n\t\t}\r\n\telse if(but==butDR_)\r\n\t\t{\r\n\t\ttree_up(iK_6U,0,0,0);\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind>0)&&(sub_ind<=NUMIST))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-1);\r\n\t\t \t}\r\n\t\telse if(sub_ind==(1+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iNet_IPS_SGEP_GAZPROM,0,0,0);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(2+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(3+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(4+NUMIST))\r\n\t\t\t{\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(5+NUMIST))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMIST))\r\n\t\t\t{\r\n\t\t\tif(but==butE)\r\n\t\t \t{\r\n\t\t \ttree_up(iPrltst,0,0,0);\r\n\t\t \tparol_init();\r\n\t\t \t}\r\n\t\t\t}\r\n\t\t}\r\n }\r\n// oleg_start\r\nelse if(ind==iSetNetIn){\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,7);\r\n\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,7);\r\n\r\n\t\t}\r\n\telse if(but==butR){\r\n\t\tif(sub_ind==0) command_net_in=1;\r\n\t\telse if(sub_ind==1) command_net_in=5;\r\n\t\telse if(sub_ind==2) command_net_in=9;\r\n\t\telse if(sub_ind==3) command_net_in=14;\r\n\t\telse if(sub_ind==4) command_net_in=63;\r\n\t\telse if(sub_ind==5) command_net_in=67;\r\n\t\telse if(sub_ind==6) command_net_in=71;\r\n\t}\r\n\telse if(but==butL){\r\n\t\tif(sub_ind==0) command_net_in=3;\r\n\t\telse if(sub_ind==1) command_net_in=7;\r\n\t\telse if(sub_ind==2) command_net_in=11;\r\n\t\telse if(sub_ind==3) command_net_in=13;\r\n\t\telse if(sub_ind==4) command_net_in=65;\r\n\t\telse if(sub_ind==5) command_net_in=69;\r\n\t\telse if(sub_ind==6) command_net_in=73; \r\n\t}\r\n\telse if(but==butR_){\r\n\t\tif(sub_ind==0) command_net_in=2;\r\n\t\telse if(sub_ind==1) command_net_in=6;\r\n\t\telse if(sub_ind==2) command_net_in=10;\r\n\t\telse if(sub_ind==3) command_net_in=14;\r\n\t\telse if(sub_ind==4) command_net_in=64;\r\n\t\telse if(sub_ind==5) command_net_in=68;\r\n\t\telse if(sub_ind==6) command_net_in=72;\r\n\t}\r\n\telse if(but==butL_){\r\n\t\tif(sub_ind==0) command_net_in=4;\r\n\t\telse if(sub_ind==1) command_net_in=8;\r\n\t\telse if(sub_ind==2) command_net_in=12;\r\n\t\telse if(sub_ind==3) command_net_in=13;\r\n\t\telse if(sub_ind==4) command_net_in=66;\r\n\t\telse if(sub_ind==5) command_net_in=70;\r\n\t\telse if(sub_ind==6) command_net_in=74; \r\n\t}\r\n\t\r\n\telse if(but==butE)\r\n\t {\r\n\t\t \tif(sub_ind==7){\r\n\t\t \t\ttree_down(0,0); \r\n\t\t\t\tret(0);\r\n\t\t\t}\t \r\n\t }\r\n}\r\nelse if(ind==iK_RKI) // меню калибровки РКИ\t //rki_1_s\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\telse if(but==butL){\r\n\t\tif(sub_ind==0) command_rki=31;\r\n\t\tif(sub_ind==2) command_rki=44; //u_rki\r\n\t}\r\n\telse if(but==butL_){\r\n\t\tif(sub_ind==0) command_rki=32;\r\n\t}\r\n\telse if(but==butR){\r\n\t\tif(sub_ind==0) command_rki=33;\r\n\t\tif(sub_ind==2) command_rki=45; //u_rki\r\n\t}\r\n\telse if(but==butR_){\r\n\t\tif(sub_ind==0) command_rki=34;\r\n\t}\r\n\telse if(but==butE_)\r\n\t {\r\n\t\t \tif(sub_ind==1) command_rki=35;\r\n\t\t\tind=iK_MOST;\r\n\t\t\tret(0);\r\n\t\t }\r\n\telse if(but==butE)\r\n\t {\r\n\t\t \tif(sub_ind==3){\r\n\t\t \t\ttree_down(0,0); \r\n\t\t\t\tret(0);\r\n\t\t\t}\t \r\n\t }\r\n} //rki_1_e\r\nelse if(ind==iSetRKI) // меню установки РКИ\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(type_rki==0) gran_char(&sub_ind,0,7);\r\n\t\telse if(type_rki==1) gran_char(&sub_ind,0,9);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(type_rki==0) gran_char(&sub_ind,0,7);\r\n\t\telse if(type_rki==1) gran_char(&sub_ind,0,9);\r\n\t\t}\r\n\telse if(but==butL){\r\n\t\tif(sub_ind==0) command_rki=38;\r\n\t\telse if(sub_ind==1) command_rki=42;\r\n\t\telse if(sub_ind==2) command_rki=13;\r\n\t\telse if(sub_ind==3) command_rki=19;\r\n\t\telse if(sub_ind==4) command_rki=23;\r\n\t\telse if(sub_ind==5) command_rki=27;\r\n\t\telse if(sub_ind==6) command_rki=15;\r\n\t\tif(type_rki==1){\r\n\t\t\tif(sub_ind==7) command_rki=5;\r\n\t\t\telse if(sub_ind==8) command_rki=7;\r\n\t\t} \r\n\t\t\r\n\t}\r\n\telse if(but==butR){\r\n\t\tif(sub_ind==0) command_rki=36;\r\n\t\telse if(sub_ind==1) command_rki=40;\r\n\t\telse if(sub_ind==2) command_rki=14;\r\n\t\telse if(sub_ind==3) command_rki=20;\r\n\t\telse if(sub_ind==4) command_rki=24;\r\n\t\telse if(sub_ind==5) command_rki=28;\r\n\t\telse if(sub_ind==6) command_rki=16;\r\n\t\tif(type_rki==1){\r\n\t\t\tif(sub_ind==7) command_rki=6;\r\n\t\t\telse if(sub_ind==8) command_rki=8;\t\t\t\r\n\t\t}\r\n\t\t \r\n\t}\r\n\telse if(but==butL_){\r\n\t\tif(sub_ind==0) command_rki=39;\r\n\t\telse if(sub_ind==1) command_rki=43;\r\n\t\telse if(sub_ind==3) command_rki=21;\r\n\t\telse if(sub_ind==4) command_rki=25;\r\n\t\telse if(sub_ind==5) command_rki=29;\r\n\t\telse if(sub_ind==6) command_rki=19;\r\n\t\tif(type_rki==1){\r\n\t\t\tif(sub_ind==7) command_rki=9;\r\n\t\t\telse if(sub_ind==8) command_rki=11;\r\n\t\t} \r\n\t}\r\n\telse if(but==butR_){\r\n\t\tif(sub_ind==0) command_rki=37;\r\n\t\telse if(sub_ind==1) command_rki=41;\r\n\t\telse if(sub_ind==3) command_rki=22;\r\n\t\telse if(sub_ind==4) command_rki=26;\r\n\t\telse if(sub_ind==5) command_rki=30;\r\n\t\telse if(sub_ind==6) command_rki=18;\r\n\t\tif(type_rki==1){\r\n\t\t\tif(sub_ind==7) command_rki=10;\r\n\t\t\telse if(sub_ind==8) command_rki=12; \r\n\t\t}\r\n\t}\r\n\telse if(but==butE)\r\n\t {\r\n\t\t \tif( (sub_ind==7 && type_rki==0) \|\| (sub_ind==9 && type_rki==1) ){\r\n\t\t \t\ttree_down(0,0); \r\n\t\t\t\tret(0);\r\n\t\t\t}\t \r\n\t }\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tif(type_rki==0) sub_ind=7;\r\n\t\telse if(type_rki==1) sub_ind=9;\r\n\t\t}\r\n\t}\r\nelse if(ind==iRKI) // индикация данных с РКИ\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(type_rki==0) gran_char(&sub_ind,0,12);\r\n\t\telse {\r\n\t\t\tif(count_Iddt==0) gran_char(&sub_ind,0,39);\r\n\t\t\telse gran_char(&sub_ind,0,39+(count_Iddt<<1) );\r\n\t\t}\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(type_rki==0) gran_char(&sub_ind,0,12);\r\n\t\telse {\r\n\t\t\tif(count_Iddt==0) gran_char(&sub_ind,0,39);\r\n\t\t\telse gran_char(&sub_ind,0,39+(count_Iddt<<1) );\r\n\t\t}\r\n\t\t}\r\n\telse if(but==butL \|\| but==butE)\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tif(type_rki==0) sub_ind=12;\r\n\t\telse {\r\n\t\t\tif(count_Iddt==0) sub_ind=39;\r\n\t\t\telse sub_ind=39+(count_Iddt<<1);\r\n\t\t}\r\n\t\t}\r\n\telse if(but==butU_)\tsub_ind=0;\t \r\n }\r\n\t// сетевые вводы\r\nelse if(ind==iNET_IN){ // подменю сетевые вводы\r\n\tret(1000);\r\n\tif(but==butD){\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==11) sub_ind=13;\r\n\t\tgran_char(&sub_ind,0,23);\r\n\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==12) sub_ind=10;\r\n\t\tgran_char(&sub_ind,0,23);\r\n\t\t}\r\n\telse if(but==butL \|\| but==butE)\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=23;\r\n\t\t}\r\n\telse if(but==butU_)\tsub_ind=0;\t\r\n\r\n\r\n}\r\nelse if(ind==iK_Net_In){ // подменю сетевые вводы\r\n\tret(1000);\r\n\tif(but==butD){\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==6) index_set=6;\r\n\t\t\r\n\t\tgran_char(&sub_ind,0,12);\r\n\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==5) index_set=3;\r\n\t\tgran_char(&sub_ind,0,12);\r\n\t\t}\r\n\telse if( but==butE)\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=12;\r\n\t\t}\r\n\telse if(but==butU_)\tsub_ind=0;\t\r\n\telse if(but==butR) { if(sub_ind<12) command_net_in=15+sub_ind4; }\r\n\telse if(but==butR_) { if(sub_ind<12) command_net_in=16+sub_ind4; }\r\n\telse if(but==butL) { if(sub_ind<12) command_net_in=17+sub_ind4; }\r\n\telse if(but==butL_) { if(sub_ind<12) command_net_in=18+sub_ind4; }\r\n\r\n}\r\nelse if(ind==iBat)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if((but==butL)\|\|((sub_ind==5)&&(but==butE)))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=5;\r\n\t\t}\t\t \r\n }\r\n\r\nelse if(ind==iBat_simple)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if((but==butL)\|\|((sub_ind==4)&&(but==butE)))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=4;\r\n\t\t}\t\t \r\n }\r\n\r\nelse if(ind==iBat_ZVU)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if((but==butL)\|\|((sub_ind==5)&&(but==butE)))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=5;\r\n\t\t}\t\t \r\n }\r\n\r\nelse if(ind==iBat_li)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,8);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,8);\r\n\t\t}\r\n\telse if((but==butL)\|\|((sub_ind==8)&&(but==butE)))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=8;\r\n\t\t}\t\t \r\n }\r\n\r\nelse if (ind==iBat_universe)\r\n\t{\r\n\tif(BAT_TYPE==0)\t//Обычная свинцово-кислотная батарея\r\n\t\t{\t\t\t//TODO следующий блок написан только для батареи без средней точки. Дописать автоизменение если в системе есть контроль СТ\r\n\t\tret(1000);\r\n\t\tif(but==butD)\r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\tgran_char(&sub_ind,0,4);\r\n\t\t\t}\r\n\t\telse if(but==butU)\r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\tgran_char(&sub_ind,0,4);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|((sub_ind==4)&&(but==butE)))\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\telse if(but==butD_)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\t}\t\t \r\n\t\t} \r\n\telse if(BAT_TYPE==1)//Батарея\tCOSLIGHT\r\n\t\t{\r\n\t\tret(1000);\r\n\t\tif(but==butD)\r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\tgran_char(&sub_ind,0,8);\r\n\t\t\tif(li_bat._batStat==bsOFF) gran_char(&sub_ind,0,1);\r\n\t\t\t}\r\n\t\telse if(but==butU)\r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\tgran_char(&sub_ind,0,8);\r\n\t\t\tif(li_bat._batStat==bsOFF) gran_char(&sub_ind,0,1);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|((sub_ind==8)&&(but==butE)))\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\telse if(but==butD_)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\t}\t\r\n\t\t}\r\n\telse if(BAT_TYPE==2)//Батарея\tSACRED SUN\r\n\t\t{\r\n\t\tret(1000);\r\n\t\tif(but==butD)\r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\tgran_char(&sub_ind,0,5);\r\n\t\t\t}\r\n\t\telse if(but==butU)\r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\tgran_char(&sub_ind,0,5);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|((sub_ind==5)&&(but==butE)))\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\telse if(but==butD_)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(BAT_TYPE==3)//Батарея\tZTT\r\n\t\t{\r\n\t\tret(1000);\r\n\t\tif(but==butD)\r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\tgran_char(&sub_ind,0,11);\r\n\t\t\t}\r\n\t\telse if(but==butU)\r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\tgran_char(&sub_ind,0,11);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|((sub_ind==11)&&(but==butE)))\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\telse if(but==butD_)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(BAT_TYPE==4)//Батарея\tSTARK\r\n\t\t{\r\n\t\tret(1000);\r\n\t\tif(but==butD)\r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\tgran_char(&sub_ind,0,11);\r\n\t\t\t}\r\n\t\telse if(but==butU)\r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\tgran_char(&sub_ind,0,11);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|((sub_ind==11)&&(but==butE)))\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\telse if(but==butD_)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t}\r\n\t\t}\t\t\t\t\t\t\t\t \r\n\t}\r\n\r\nelse if(ind==iInv_tabl)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind1--;\r\n\t\tgran_char(&sub_ind1,0,NUMINV-3);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind1++;\r\n\t\tgran_char(&sub_ind1,0,NUMINV-3);\r\n\t\t}\r\n\t\t\r\n\telse if(but==butR)\r\n\t\t{\r\n\t\tsub_ind=1;\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iMakb)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tif(sub_ind>7)sub_ind=7;\r\n\t\t//else if(sub_ind==1)sub_ind=0;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind<3)sub_ind=3;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if((but==butL)\|\|((sub_ind==simax)&&(but==butE)))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=simax;\r\n\t\t}\t\t \r\n\t}\r\n\r\n//#ifndef _DEBUG_\r\nelse if(ind==iBps)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==3)sub_ind=1;\r\n\t\telse if(sub_ind==1)sub_ind=0;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind<3)sub_ind=3;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n\telse if((but==butE)&&(sub_ind==4))\r\n\t\t{\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(((but==butE)&&(sub_ind==5))\|\|(but))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t\t\r\n\t}\t\r\nelse if(ind==iBps_elteh)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==3)sub_ind=1;\r\n\t\telse if(sub_ind==1)sub_ind=0;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind<3)sub_ind=3;\r\n\t\tif(sub_ind==4)index_set=3;\r\n\t\tif(sub_ind==5)sub_ind=6;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\r\n\telse if((but==butE_)&&(sub_ind==6))\r\n\t\t{\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,VENT_RES,0,0,0,0);\r\n\t\t}\t\t\r\n\telse if((but==butE)&&(sub_ind==7))\r\n\t\t{\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(((but==butE)&&(sub_ind==8))\|\|(but))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t\t\r\n\t}\t\t\t\r\nelse if(ind==iNet)\r\n\t{\r\n\tret(1000);\r\n\tif((but==butL)\|\|(but==butE))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\t}\r\n\r\nelse if((ind==iNet3)\|\|(ind==iNet3LIN))\r\n\t{\r\n\tret(1000);\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if((but==butL)\|\|((but==butE)&&(sub_ind==4)))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\t}\r\nelse if(ind==iNetEM)\r\n\t{\r\n\tret(1000);\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if((but==butL)\|\|((but==butE)&&(sub_ind==4)))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\t}\r\n\r\nelse if(ind==iNet_IPS_SGEP_GAZPROM)\r\n\t{\r\n\tret(1000);\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if((but==butL)\|\|((but==butE)&&(sub_ind==5)))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\t}\r\n\r\nelse if(ind==iInv)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==3)sub_ind=1;\r\n\t\telse if(sub_ind==1)sub_ind=0;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind<3)sub_ind=3;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n\telse if((but==butE)&&(sub_ind==4))\r\n\t\t{\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(((but==butE)&&(sub_ind==5))\|\|(but))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\t\r\n\t}\r\n\r\nelse if(ind==iInv_v2)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==3)sub_ind=1;\r\n\t\telse if(sub_ind==1)sub_ind=0;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind<3)sub_ind=3;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n/\telse if((but==butE)&&(sub_ind==4))\r\n\t\t{\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\t}\r\n\t\t/\t\t\r\n\telse if(((but==butE)&&(sub_ind==simax))\|\|(but==butL))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\t\r\n\t}\r\n\r\nelse if(ind==iByps)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==3)sub_ind=1;\r\n\t\telse if(sub_ind==1)sub_ind=0;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind<3)sub_ind=3;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n/\telse if((but==butE)&&(sub_ind==4))\r\n\t\t{\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\t}\r\n\t\t/\t\t\r\n\telse if(((but==butE)&&(sub_ind==simax))\|\|(but==butL))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\t\r\n\t}\r\n\r\nelse if(ind==iLoad)\r\n\t{\r\n\tret(1000);\r\n\tif((but==butL)\|\|(but==butE))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\t}\t\r\n\r\nelse if(ind==iExtern)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,8);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,8);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==8))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t}\r\nelse if(ind==iExtern_KONTUR)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,8);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,8);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==8))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t}\t\t\t\r\nelse if(ind==iExtern_3U)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,2+NUMSK);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,2+NUMSK);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==2+NUMSK))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t}\t\r\n\r\nelse if(ind==iExtern_6U)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMDT+NUMSK);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMDT+NUMSK);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==NUMDT+NUMSK))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t}\t\r\n\r\nelse if(ind==iExtern_220)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMDT+NUMSK);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMDT+NUMSK);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==NUMDT+NUMSK))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t}\t\r\n\r\nelse if(ind==iExtern_220_ZVU)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMDT+NUMSK);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMDT+NUMSK);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==NUMDT+NUMSK))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t}\t\r\n\r\nelse if(ind==iExtern_GLONASS)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,2+NUMSK);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,2+NUMSK);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==2+NUMSK))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t}\t\r\n\r\nelse if(ind==iExtern_TELECORE2015)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==3))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t}\r\n\r\nelse if(ind==iVent)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,1,2);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,1,2);\t\t\r\n\t\t}\r\n\r\n\telse if (sub_ind==1)\r\n\t\t{\r\n if((but==butR)\|\|(but==butR_))\r\n {\r\n pos_vent++;\r\n }\r\n else if((but==butL)\|\|(but==butL_))\r\n {\r\n pos_vent--;\r\n }\r\n\r\n\t\tgran(&pos_vent,1,11);\r\n lc640_write_int(EE_POS_VENT,pos_vent);\t\t\r\n\t\t}\r\n\t\t\r\n\telse if((but==butE)&&(sub_ind==2))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t}\r\nelse if(ind==iAvt)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMAVT);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMAVT);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==NUMAVT))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\r\n\t}\r\nelse if(ind==iEnerg)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==4))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\r\n }\r\n\r\nelse if(ind==iEnerg3)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,8);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,8);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==8))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\r\n }\r\n\r\n#endif\t//UKU_6U_WEB\r\nelse if((ind==iPrl_bat_in_out)\|\|(ind==iSet_prl)\|\|(ind==iK_prl)\r\n\t\|\|(ind==iSpc_prl_vz)\|\|(ind==iSpc_prl_ke)\|\|(ind==iAusw_prl)\r\n\t\|\|(ind==iPrltst)\|\|(ind==iPrlVZ1)\|\|(ind==iPrlVZ2))\r\n\t{\r\n\tret(50);\r\n\tif(but==butR)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_ring_char(&sub_ind,0,2);\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_ring_char(&sub_ind,0,2);\r\n\t\t}\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tparol[sub_ind]++;\r\n\t\tgran_ring_char(&parol[sub_ind],0,9);\r\n\t\t}\t\r\n\telse if(but==butD)\r\n\t\t{\r\n\t\tparol[sub_ind]--;\r\n\t\tgran_ring_char(&parol[sub_ind],0,9);\r\n\t\t}\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tunsigned short tempU;\r\n\t\ttempU=parol[2]+(parol[1]10U)+(parol[0]100U);\r\n\t\t\r\n\t\tif(ind==iPrl_bat_in_out)\r\n\t\t {\r\n\t\t if(BAT_IS_ON[sub_ind1]!=bisON)\r\n\t\t {\r\n\t\t if(tempU==PAROL_BAT_IN)\r\n\t\t {\r\n\t\t\t\t\t//tree_up(iPrl_bat_in_sel,0,0,sub_ind1);\r\n\t\t\t\t\t\r\n\t\t lc640_write_int(ADR_EE_BAT_IS_ON[sub_ind1],bisON);\r\n\t\t\t\t\tlc640_write_int(EE_BAT_TYPE,0);\r\n\t\t lc640_write_int(ADR_EE_BAT_DAY_OF_ON[sub_ind1],LPC_RTC->DOM);\r\n\t\t lc640_write_int(ADR_EE_BAT_MONTH_OF_ON[sub_ind1],LPC_RTC->MONTH);\r\n\t\t lc640_write_int(ADR_EE_BAT_YEAR_OF_ON[sub_ind1],LPC_RTC->YEAR);\r\n\t\t lc640_write_int(ADR_EE_BAT_C_REAL[sub_ind1],0x5555);\r\n\t\t lc640_write_int(ADR_EE_BAT_RESURS[sub_ind1],0);\r\n\t\t\t\t\tlc640_write_int(ADR_EE_BAT_ZAR_CNT[sub_ind1],0);\r\n\t\t \r\n\t\t lc640_write(KE_PTR,0);\r\n\t\t\t\t\tlc640_write(VZ_PTR,0);\r\n\t\t\t\t\tlc640_write(WRK_PTR,0);\r\n\t\t\t\t\tlc640_write(KE_CNT,0);\r\n\t\t\t\t\tlc640_write(VZ_CNT,0);\r\n\t\t\t\t\tlc640_write(WRK_CNT,0);\r\n\t\t\t\t\tlc640_write(BAT_AVAR_CNT,0);\r\n\t\t\t\t\tlc640_write(BAT_AVAR_PTR,0);\t\t\t\t\t\r\n\t\t \r\n tree_down(0,0);\r\n ret(0); \r\n\t\t }\r\n\t\t else\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\t\" Пароль \",\r\n\t \t\t\t\t\" неверный!!! \",\r\n\t \t\t\t\t\" \",1000);\r\n \t }\r\n\t\t } \r\n else\t\t \r\n\t\t {\r\n\t\t if(tempU==PAROL_BAT_OUT)\r\n\t\t {\r\n\t\t lc640_write_int(ADR_EE_BAT_IS_ON[sub_ind1],bisOFF);\r\n\t\t lc640_write_int(ADR_EE_BAT_DAY_OF_ON[sub_ind1],LPC_RTC->DOM);\r\n\t\t lc640_write_int(ADR_EE_BAT_MONTH_OF_ON[sub_ind1],LPC_RTC->MONTH);\r\n\t\t lc640_write_int(ADR_EE_BAT_YEAR_OF_ON[sub_ind1],LPC_RTC->YEAR);\r\n\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t \r\n\t\t }\r\n\t else\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\t\" Пароль \",\r\n\t \t\t\t\t\" неверный!!! \",\r\n\t \t\t\t\t\" \",1000);\r\n\t\t }\t\t \r\n\t\t } \r\n }\r\n\t\t\r\n\t\telse if(ind==iSet_prl)\r\n\t\t\t{\r\n\t \tif(tempU==PAROL_SET) \r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\t#ifdef UKU_RSTKM\r\n\t\t\t\ttree_up(iSet_RSTKM,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_GLONASS\r\n\t\t\t\ttree_up(iSet_GLONASS,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_3U\r\n\t\t\t\ttree_up(iSet_3U,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_KONTUR\r\n\t\t\t\ttree_up(iSet_KONTUR,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_6U\r\n\t\t\t\ttree_up(iSet_6U,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_220\r\n\t\t\t\ttree_up(iSet_220,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\n\t\t\t\ttree_up(iSet_220_IPS_TERMOKOMPENSAT,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_220_V2\r\n\t\t\t\ttree_up(iSet_220_V2,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_TELECORE2015\r\n\t\t\t\ttree_up(iSet_TELECORE2015,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_TELECORE2017\r\n\t\t\t\ttree_up(iSet_TELECORE2017,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef IPS_SGEP_GAZPROM\r\n\t\t\t\ttree_up(iSet_IPS_SGEP_GAZPROM,0,0,0);\r\n\t\t\t\t#endif\r\n\r\n\t\t\t\tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse\tif(ind==iK_prl)\r\n\t\t\t{\r\n\t \tif(tempU==PAROL_KALIBR) \r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\t#ifdef UKU\r\n\t\t\t\ttree_up(iK,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_RSTKM\r\n\t\t\t\ttree_up(iK_RSTKM,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_3U\r\n\t\t\t\ttree_up(iK_3U,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_GLONASS\r\n\t\t\t\ttree_up(iK_GLONASS,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_KONTUR\r\n\t\t\t\ttree_up(iK_KONTUR,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_6U\r\n\t\t\t\ttree_up(iK_6U,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_220_V2\r\n\t\t\t\ttree_up(iK_220,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_220\r\n\t\t\t\tif(AUSW_MAIN==22035)\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttree_up(iK_220_380,0,0,0);\r\n\t\t \t\t\r\n\t\t\t\t\t}\r\n\t\t\t\telse\r\n\t\t\t\ttree_up(iK_220,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\n\t\t\t\tif((AUSW_MAIN==22033)\|\|(AUSW_MAIN==22018))\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttree_up(iK_220_IPS_TERMOKOMPENSAT,0,0,0);\r\n\t\t \t\t\r\n\t\t\t\t\t}\r\n\t\t\t\telse if((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043)\|\|(AUSW_MAIN==22044)\|\|(AUSW_MAIN==22011))\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttree_up(iK_220_IPS_TERMOKOMPENSAT_IB,0,0,0);\r\n\t\t \t\t\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse\r\n\t\t\t\ttree_up(iK_220,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_TELECORE2015\r\n\t\t\t\ttree_up(iK_TELECORE,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_TELECORE2017\r\n\t\t\t\ttree_up(iK_TELECORE,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef IPS_SGEP_GAZPROM\r\n\t\t\t\ttree_up(iK_IPS_SGEP_GAZPROM,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\tshow_mess(\t\"Включите авт-ты СЕТЬ\",\r\n \t\t\t\t\t\t\t\" БАТАРЕЯ,НАГРУЗКА \",\r\n \t\t\t\t\t\t\t\" Установите ток \",\r\n \t\t\t\t\t\t\t\" нагрузки 4-10А \",3000);\r\n\t\t\t\t\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t} \r\n\t\r\n\t\telse\tif(ind==iAusw_prl)\r\n\t\t\t{\r\n\t \tif(tempU==PAROL_AUSW) \r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\ttree_up(iAusw_set,1,0,0);\r\n\t\t\t\tdefault_temp=10;\r\n\t\t\t\tret(0);\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t} \t\r\n\t\t\t\r\n\t\telse\tif(ind==iSet_st_prl)\r\n\t\t\t{\r\n\t \tif(tempU==PAROL_DEFAULT) \r\n\t\t\t\t{\r\n\t//\t\t\tind=iDefault;\r\n\t\t\t\tsub_ind=1;\r\n\t\t\t\tindex_set=0;\r\n\t\t\t\tdefault_temp=10;\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t} \r\n\t\t\t\t\t\t\r\n\t\telse if(ind==iPrltst)\r\n\t\t\t{\r\n\t\t\tif(tempU==PAROL_TST) \r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\t#ifdef UKU_GLONASS\r\n\t\t\t\ttree_up(iTst_GLONASS,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_3U\r\n\t\t\t\ttree_up(iTst_3U,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_RSTKM\r\n\t\t\t\ttree_up(iTst_RSTKM,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_KONTUR\r\n\t\t\t\ttree_up(iTst_KONTUR,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU\r\n\t\t\t\ttree_up(iTst,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_6U\r\n\t\t\t\ttree_up(iTst_6U,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_220\r\n\t\t\t\tif(AUSW_MAIN==22035)\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttree_up(iTst_220_380,0,0,0);\r\n\t\t\t\t\t}\r\n\t\t\t\telse\r\n\t\t\t\ttree_up(iTst_220,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_220_V2\r\n\t\t\t\ttree_up(iTst_220,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\n\t\t\t\ttree_up(iTst_220_IPS_TERMOKOMPENSAT,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_TELECORE2015\r\n\t\t\t\ttree_up(iTst_TELECORE,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef UKU_TELECORE2017\r\n\t\t\t\ttree_up(iTst_TELECORE,0,0,0);\r\n\t\t\t\t#endif\r\n\t\t\t\t#ifdef IPS_SGEP_GAZPROM\r\n\t\t\t\ttree_up(iTst_IPS_SGEP_GAZPROM,0,0,0);\r\n\t\t\t\t#endif\t\t\t\t\t\t\t\t\r\n\t\t\t\ttst_state[0]=tstOFF;\r\n\t\t\t\ttst_state[1]=tstOFF;\r\n\t\t\t\ttst_state[2]=tstOFF;\r\n\t\t\t\ttst_state[3]=tstOFF;\r\n\t\t\t\ttst_state[4]=tstOFF;\r\n\t\t\t\ttst_state[5]=tstOFF;\r\n\t\t\t\ttst_state[6]=tstOFF;\r\n\t\t\t\ttst_state[7]=tstOFF;\r\n\t\t\t\ttst_state[9]=tstOFF;\r\n\t\t\t\ttst_state[10]=(enum_tst_state)0;\r\n\t\t\t\tret(10000);\t\t\t\t\r\n\r\n\r\n\t\t\t\t}\r\n\t \t\telse \r\n\t\t\t\t{\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(ind==iSpc_prl_ke)\r\n\t\t\t{\r\n\t\t\tif(tempU==PAROL_KE) \r\n\t\t\t\t{\r\n\t\t\t\tchar temp;\r\n\t\t\t\ttemp=sub_ind1;\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\ttree_up(iKe,0,0,temp);\r\n\t\t\t\tret(1000);\r\n\t\t\t\t}\r\n\t \t\telse \r\n\t\t\t\t{\t\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(ind==iSpc_prl_vz)\r\n\t\t\t{\r\n\t\t\tif(tempU==PAROL_VZ) \r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\ttree_up(iVz,0,0,0);\r\n\t\t\t\tret(1000);\r\n\t\t\t\t}\r\n\t \t\telse \r\n\t\t\t\t{\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t} \t \r\n\t\t\t}\r\n\t\telse if(ind==iPrlVZ1)\r\n\t\t\t{\r\n\t\t\tret(0);\r\n\t\t\tif(tempU==PAROL_VZ1) \r\n\t\t\t\t{\r\n\t\t\t\tif(vz1_start()==0)\r\n\t\t\t\t\t{\r\n\t\t \ttree_down(0,0);\r\n\t \t \tshow_mess(\t\" Уравнительный \",\r\n\t \t\t\t\t\t\" заряд \",\r\n\t \t\t\t\t\t\" не может быть \",\r\n\t \t\t\t\t\t\" включен!!! \",1000);\r\n\t\t\t\t\t}\r\n\t\t\t\telse \r\n\t\t\t\t\t{\r\n\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\tuz_mem_hndl(1);\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t \t\telse \r\n\t\t\t\t{\t\r\n\t\t \ttree_down(0,0);\r\n\t \t\tshow_mess(\t\" \",\r\n\t \t\t\t\t\" Пароль \",\r\n\t \t\t\t\t\" неверный!!! \",\r\n\t \t\t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(ind==iPrlVZ2)\r\n\t\t\t{\r\n\t\t\tret(0);\r\n\t\t\tif(tempU==PAROL_VZ2) \r\n\t\t\t\t{\r\n\t\t\t\tif(vz2_start()==0)\r\n\t\t\t\t\t{\r\n\t\t \ttree_down(0,0);\r\n\t \t \tshow_mess(\t\" Формовочный \",\r\n\t \t\t\t\t\t\" заряд \",\r\n\t \t\t\t\t\t\" не может быть \",\r\n\t \t\t\t\t\t\" включен!!! \",1000);\r\n\t\t\t\t\t}\r\n\t\t\t\telse \r\n\t\t\t\t\t{\r\n\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\tfz_mem_hndl(1);\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t \t\telse \r\n\t\t\t\t{\t\r\n\t\t \ttree_down(0,0);\r\n\t \t\tshow_mess(\t\" \",\r\n\t \t\t\t\t\" Пароль \",\r\n\t \t\t\t\t\" неверный!!! \",\r\n\t \t\t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n#ifndef UKU_6U_WEB\r\nelse if(ind==iSet_bat_sel)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if (but==butD_)\r\n\t\t{\r\n\t\tsub_ind=5;\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n \tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(but==butE_)\r\n\t\t{\r\n\t\tif((sub_ind>=0)&&(sub_ind<=4))\r\n\t\t\t{\r\n\t\t\tBAT_TYPE=sub_ind;\r\n\t\t\tlc640_write_int(EE_BAT_TYPE,BAT_TYPE);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(but==butLR)\r\n\t\t{\r\n\t\tlc640_write_int(EE_BAT_TYPE,-1);\r\n\t\t}\r\n\t}\r\n#ifdef UKU_TELECORE2016\r\nelse if(ind==iSet_li_bat)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==4)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n \tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butR)UB0++;\r\n\t else if(but==butR_)UB0+=10;\r\n\t else if(but==butL)UB0--;\r\n\t else if(but==butL_)UB0-=10;\r\n\t gran(&UB0,50,700);\r\n\t lc640_write_int(EE_UB0,UB0);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==1)\r\n\t {\r\n\t if(but==butR)DU_LI_BAT++;\r\n\t else if(but==butR_)DU_LI_BAT++;\r\n\t else if(but==butL)DU_LI_BAT--;\r\n\t else if(but==butL_)DU_LI_BAT--;\r\n\t gran(&DU_LI_BAT,1,30);\r\n\t lc640_write_int(EE_DU_LI_BAT,DU_LI_BAT);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==2)\r\n\t {\r\n\t if(but==butR)USODERG_LI_BAT++;\r\n\t else if(but==butR_)USODERG_LI_BAT+=10;\r\n\t else if(but==butL)USODERG_LI_BAT--;\r\n\t else if(but==butL_)USODERG_LI_BAT-=10;\r\n\t gran(&USODERG_LI_BAT,50,700);\r\n\t lc640_write_int(EE_USODERG_LI_BAT,USODERG_LI_BAT);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==3)\r\n\t {\r\n\t if(but==butR)QSODERG_LI_BAT++;\r\n\t else if(but==butR_)QSODERG_LI_BAT+=10;\r\n\t else if(but==butL)QSODERG_LI_BAT--;\r\n\t else if(but==butL_)QSODERG_LI_BAT-=10;\r\n\t gran(&QSODERG_LI_BAT,5,100);\r\n\t lc640_write_int(EE_QSODERG_LI_BAT,QSODERG_LI_BAT);\r\n\t speed=1;\r\n\t }\r\n\t}\r\n#endif\r\n#ifdef UKU_TELECORE2017\r\nelse if(ind==iSet_li_bat)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,9);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,9);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n \tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butR)TELECORE2017_ULINECC++;\r\n\t else if(but==butR_)TELECORE2017_ULINECC+=10;\r\n\t else if(but==butL)TELECORE2017_ULINECC--;\r\n\t else if(but==butL_)TELECORE2017_ULINECC-=10;\r\n\t gran(&TELECORE2017_ULINECC,420,540);\r\n\t lc640_write_int(EE_TELECORE2017_ULINECC,TELECORE2017_ULINECC);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==1)\r\n\t {\r\n\t if(but==butR)TELECORE2017_Q++;\r\n\t else if(but==butR_)TELECORE2017_Q++;\r\n\t else if(but==butL)TELECORE2017_Q--;\r\n\t else if(but==butL_)TELECORE2017_Q--;\r\n\t gran(&TELECORE2017_Q,10,100);\r\n\t lc640_write_int(EE_TELECORE2017_Q,TELECORE2017_Q);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==2)\r\n\t {\r\n\t if(but==butR)TELECORE2017_IZMAX1++;\r\n\t else if(but==butR_)TELECORE2017_IZMAX1+=10;\r\n\t else if(but==butL)TELECORE2017_IZMAX1--;\r\n\t else if(but==butL_)TELECORE2017_IZMAX1-=10;\r\n\t gran(&TELECORE2017_IZMAX1,5,500);\r\n\t lc640_write_int(EE_TELECORE2017_IZMAX1,TELECORE2017_IZMAX1);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==3)\r\n\t {\r\n\t if(but==butR)TELECORE2017_IZMAX2++;\r\n\t else if(but==butR_)TELECORE2017_IZMAX2+=10;\r\n\t else if(but==butL)TELECORE2017_IZMAX2--;\r\n\t else if(but==butL_)TELECORE2017_IZMAX2-=10;\r\n\t gran(&TELECORE2017_IZMAX2,5,500);\r\n\t lc640_write_int(EE_TELECORE2017_IZMAX2,TELECORE2017_IZMAX2);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t if(but==butR)TELECORE2017_K1++;\r\n\t else if(but==butR_)TELECORE2017_K1++;\r\n\t else if(but==butL)TELECORE2017_K1--;\r\n\t else if(but==butL_)TELECORE2017_K1--;\r\n\t gran(&TELECORE2017_K1,1,30);\r\n\t lc640_write_int(EE_TELECORE2017_K1,TELECORE2017_K1);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t if(but==butR)TELECORE2017_K2++;\r\n\t else if(but==butR_)TELECORE2017_K2++;\r\n\t else if(but==butL)TELECORE2017_K2--;\r\n\t else if(but==butL_)TELECORE2017_K2--;\r\n\t gran(&TELECORE2017_K2,1,10);\r\n\t lc640_write_int(EE_TELECORE2017_K2,TELECORE2017_K2);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t if(but==butR)TELECORE2017_K3++;\r\n\t else if(but==butR_)TELECORE2017_K3++;\r\n\t else if(but==butL)TELECORE2017_K3--;\r\n\t else if(but==butL_)TELECORE2017_K3--;\r\n\t gran(&TELECORE2017_K3,1,10);\r\n\t lc640_write_int(EE_TELECORE2017_K3,TELECORE2017_K3);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==7)\r\n\t {\r\n\t if(but==butR)TELECORE2017_T4++;\r\n\t else if(but==butR_)TELECORE2017_T4++;\r\n\t else if(but==butL)TELECORE2017_T4--;\r\n\t else if(but==butL_)TELECORE2017_T4--;\r\n\t gran(&TELECORE2017_T4,1,10);\r\n\t lc640_write_int(EE_TELECORE2017_T4,TELECORE2017_T4);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t if(but==butR)TELECORE2017_USTART++;\r\n\t else if(but==butR_)TELECORE2017_USTART++;\r\n\t else if(but==butL)TELECORE2017_USTART--;\r\n\t else if(but==butL_)TELECORE2017_USTART--;\r\n\t gran(&TELECORE2017_USTART,400,540);\r\n\t lc640_write_int(EE_TELECORE2017_USTART,TELECORE2017_USTART);\r\n\t speed=1;\r\n\t }\r\n\t}\r\n#endif\r\nelse if(ind==iPrl_bat_in_sel)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tlc640_write_int(ADR_EE_BAT_IS_ON[sub_ind1],bisON);\r\n\t\t lc640_write_int(ADR_EE_BAT_DAY_OF_ON[sub_ind1],LPC_RTC->DOM);\r\n\t\t lc640_write_int(ADR_EE_BAT_MONTH_OF_ON[sub_ind1],LPC_RTC->MONTH);\r\n\t\t lc640_write_int(ADR_EE_BAT_YEAR_OF_ON[sub_ind1],LPC_RTC->YEAR);\r\n\t\t lc640_write_int(ADR_EE_BAT_C_REAL[sub_ind1],0x5555);\r\n\t\t lc640_write_int(ADR_EE_BAT_RESURS[sub_ind1],0);\r\n\t\t\tlc640_write_int(ADR_EE_BAT_ZAR_CNT[sub_ind1],0);\r\n\t\t\t//lc640_write_int(ADR_EE_BAT_TYPE[sub_ind1],0);\r\n\t\t \r\n\t\t lc640_write(KE_PTR,0);\r\n\t\t\tlc640_write(VZ_PTR,0);\r\n\t\t\tlc640_write(WRK_PTR,0);\r\n\t\t\tlc640_write(KE_CNT,0);\r\n\t\t\tlc640_write(VZ_CNT,0);\r\n\t\t\tlc640_write(WRK_CNT,0);\r\n\t\t\tlc640_write(BAT_AVAR_CNT,0);\r\n\t\t\tlc640_write(BAT_AVAR_PTR,0);\t\t\t\t\t\r\n\t\t \r\n tree_down(-1,0);\r\n ret(0);\r\n \r\n\t\t\t}\r\n\t\telse if (sub_ind==1)\r\n\t\t\t{\r\n\t\t\tlc640_write_int(ADR_EE_BAT_IS_ON[sub_ind1],bisON);\r\n\t\t lc640_write_int(ADR_EE_BAT_DAY_OF_ON[sub_ind1],LPC_RTC->DOM);\r\n\t\t lc640_write_int(ADR_EE_BAT_MONTH_OF_ON[sub_ind1],LPC_RTC->MONTH);\r\n\t\t lc640_write_int(ADR_EE_BAT_YEAR_OF_ON[sub_ind1],LPC_RTC->YEAR);\r\n\t\t lc640_write_int(ADR_EE_BAT_C_REAL[sub_ind1],0x5555);\r\n\t\t lc640_write_int(ADR_EE_BAT_RESURS[sub_ind1],0);\r\n\t\t\tlc640_write_int(ADR_EE_BAT_ZAR_CNT[sub_ind1],0);\r\n\t\t\t//lc640_write_int(ADR_EE_BAT_TYPE[sub_ind1],1);\r\n\t\t \r\n\t\t lc640_write(KE_PTR,0);\r\n\t\t\tlc640_write(VZ_PTR,0);\r\n\t\t\tlc640_write(WRK_PTR,0);\r\n\t\t\tlc640_write(KE_CNT,0);\r\n\t\t\tlc640_write(VZ_CNT,0);\r\n\t\t\tlc640_write(WRK_CNT,0);\r\n\t\t\tlc640_write(BAT_AVAR_CNT,0);\r\n\t\t\tlc640_write(BAT_AVAR_PTR,0);\t\t\t\t\t\r\n\t\t \r\n tree_down(-1,0);\r\n ret(0);\r\n\t \t show_mess(\" Не забудьте \",\r\n\t \t\t\" настроить канал \",\r\n\t \t\t\" связи \",\r\n\t \t\t\" с батареей. \",3000);\t\t\t \r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iSpc)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{ \r\n tree_up(iSpc_prl_vz,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n tree_up(iAvz,0,0,0);\r\n parol_init();\r\n\t\t\t}\t\t\t\r\n\t\telse if((sub_ind==2)\|\|(sub_ind==3))\r\n\t\t\t{\r\n tree_up(iSpc_prl_ke,0,0,sub_ind-2);\r\n parol_init();\r\n\t\t\t} \r\n\t\telse if(sub_ind==4)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\t\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\tret(0);\r\n\t\t}\t\t\t\r\n\t}\r\nelse if(ind==iSpc_termocompensat)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{ \r\n tree_up(iSpc_prl_vz,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n tree_up(iAvz,0,0,0);\r\n parol_init();\r\n\t\t\t}\t\t\t\r\n\t\telse if(sub_ind==2)\r\n\t\t\t{\r\n tree_up(iSpc_prl_ke,0,0,0);\r\n parol_init();\r\n\t\t\t} \r\n\t\telse if(sub_ind==3)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\t\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\tret(0);\r\n\t\t}\r\n\t}\r\nelse if(ind==iVz)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\t//ret_ind_sec(0,0);\r\n\tif (but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,2);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,2);\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif(spc_stat!=spcVZ)\r\n\t\t\t{\r\n\t\t\tif(but==butR)\r\n\t\t\t\t{\r\n\t\t\t\tVZ_HR++;\r\n\t\t\t\t}\r\n\t\t\telse if(but==butL)\r\n\t\t\t\t{\r\n\t\t\t\tVZ_HR--;\r\n\t\t\t\t}\r\n\t\t\tgran(&VZ_HR,1,24);\r\n\t\t\tlc640_write_int(EE_VZ_HR,VZ_HR);\r\n\t\t\t}\t\t\t\r\n }\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n if(spc_stat!=spcVZ)\r\n \t{\r\n \tchar temp;\r\n \ttemp=vz_start(VZ_HR);\r\n \tif(temp==22) \r\n \t\t{\r\n \t\tsub_ind=22;\r\n \t\tret_ind(iVz,1,5);\r\n \t\t} \r\n\t\t\telse if(temp==33) \r\n \t\t{\r\n \t\tsub_ind=33;\r\n \t\tret_ind(iVz,1,5);\r\n \t\t} \t\t\r\n \t} \r\n \telse if(spc_stat==spcVZ)\r\n \t{\r\n \tvz_stop();\r\n \t} \t \r\n\t\t}\t\t\t\r\n\telse if(sub_ind==2)\r\n\t\t{ \r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n } \r\n\t}\r\n\r\nelse if(ind==iKe)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\t//ret_ind_sec(0,0);\r\n\tif (but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif((spc_stat==spcKE)&&(spc_bat==sub_ind1))\r\n\t\t\t\t{\r\n\t\t\t\tspc_stat=spcOFF;\r\n\t\t\t\t__ee_spc_stat=spcOFF;\r\n\t\t\t\tlc640_write_int(EE_SPC_STAT,spcOFF);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\r\n\t\t\t\tke_start(sub_ind1);\r\n\t\t\t\tif(ke_start_stat==kssNOT)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshow_mess(\"Включение контроля \",\r\n\t \t\t\t\t\" емкости батареи \",\r\n\t \t\t\t\t\" невозможно. \",\r\n\t \t\t\t\t\" Причина неизвестна \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(ke_start_stat==kssNOT_VZ)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshow_mess(\"Включение контроля \",\r\n\t \t\t\t\t\" емкости батареи \",\r\n\t \t\t\t\t\" невозможно. Идет \",\r\n\t \t\t\t\t\"выравнивающий заряд \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(ke_start_stat==kssNOT_BAT)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshow_mess(\"Включение контроля \",\r\n\t \t\t\t\t\" емкости батареи \",\r\n\t \t\t\t\t\" невозможно.Батарея \",\r\n\t \t\t\t\t\" не введена \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(ke_start_stat==kssNOT_BAT_AV)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshow_mess(\"Включение контроля \",\r\n\t \t\t\t\t\" емкости батареи \",\r\n\t \t\t\t\t\" невозможно.Батарея \",\r\n\t \t\t\t\t\" не подключена \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(ke_start_stat==kssNOT_BAT_AV_T)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshow_mess(\"Включение контроля \",\r\n\t \t\t\t\t\" емкости батареи \",\r\n\t \t\t\t\t\" невозможно.Батарея \",\r\n\t \t\t\t\t\" перегрета \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(ke_start_stat==kssNOT_BAT_AV_ASS)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshow_mess(\"Включение контроля \",\r\n\t \t\t\t\t\" емкости батареи \",\r\n\t \t\t\t\t\" невозможно. \",\r\n\t \t\t\t\t\" Асимметрия. \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\t}\r\n\r\n\r\n\t\t\t\telse if(ke_start_stat==kssNOT_BAT_ZAR)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshow_mess(\"Включение контроля \",\r\n\t \t\t\t\t\" емкости батареи \",\r\n\t \t\t\t\t\" невозможно. \",\r\n\t \t\t\t\t\" Батарея заряжается \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(ke_start_stat==kssNOT_BAT_RAZR)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshow_mess(\"Включение контроля \",\r\n\t \t\t\t\t\" емкости батареи \",\r\n\t \t\t\t\t\" невозможно. \",\r\n\t \t\t\t\t\"Батарея разряжается \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\t}\r\n\r\n \t\t\t\telse if(ke_start_stat==kssNOT_KE2)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshow_mess(\"Включение контроля \",\r\n\t \t\t\t\t\" емкости батареи №1 \",\r\n\t \t\t\t\t\" невозможно. \",\r\n\t \t\t\t\t\" Идет КЕБ №2 \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\t}\r\n\r\n \t\t\t\telse if(ke_start_stat==kssNOT_KE1)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshow_mess(\"Включение контроля \",\r\n\t \t\t\t\t\" емкости батареи №1 \",\r\n\t \t\t\t\t\" невозможно. \",\r\n\t \t\t\t\t\" Идет КЕБ №2 \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(ke_start_stat==kssYES)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif(sub_ind==0)\r\n\t\t\t\t\tshow_mess(\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t \t\t\t\t\" БАТАРЕИ N1 \",\r\n\t \t\t\t\t\" ВКЛЮЧЕН!!! \",\r\n\t \t\t\t\t\" \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\telse \r\n\t\t\t\t\tshow_mess(\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t \t\t\t\t\" БАТАРЕИ N2 \",\r\n\t \t\t\t\t\" ВКЛЮЧЕН!!! \",\r\n\t \t\t\t\t\" \",\r\n\t\t\t\t\t\t\t3000);\r\n\r\n\t\t\t\t\t}\r\n\r\n \t\t\t\t\t\t\t\t\t\t \t\t\t\t\t\t\t\t \t\t\t\t\t\t\t\t\t\t\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t/\telse if(but==butR)\r\n\t\t\t{\r\n\t\t\tif((spc_stat==spcKE)&&(spc_phase==0))\r\n\t\t\t\t{\r\n\t\t\t\tlc640_write_int(ADR_EE_BAT_C_REAL[spc_bat],lc640_read_int(ADR_EE_BAT_ZAR_CNT_KE[spc_bat]));\r\n\t\t\t\tke_mem_hndl(spc_bat,lc640_read_int(ADR_EE_BAT_ZAR_CNT_KE[spc_bat]));\r\n\t\t\t\tlc640_write_int(ADR_EE_BAT_ZAR_CNT[spc_bat],0);\r\n\t\t\t\tcntrl_stat=50;\r\n\t\t\t\tcntrl_stat_old=50;\r\n\t\t\t\t}\r\n\r\n\t\t\tif((BAT_IS_ON[1-spc_bat]) == bisON)\r\n\t\t\t\t{\r\n\t\t\t\tspc_phase=1;\r\n\t\t\t\t__ee_spc_phase=1;\r\n\t\t\t\tlc640_write_int(EE_SPC_PHASE,1);\r\n\t\t\t\t}\t\t\t\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\tspc_stat=spcOFF;\r\n\t\t\t\t__ee_spc_stat=spcOFF;\r\n\t\t\t\tlc640_write_int(EE_SPC_STAT,spcOFF);\r\n\t\t\t\t}\r\n\t\t\t}/\t\t\t\t\t\t\t\t\t\r\n \t\t}\r\n\t\r\n\telse if(sub_ind==1)\r\n\t\t{ \r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n \t} \r\n \telse sub_ind=0; \r\n\t}\r\n\r\n#endif\t//UKU_6U_WEB\t\r\nelse if(ind==iLog)\r\n\t{\r\n\tret_ind_sec(0,0);\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max+1);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max+1);\r\n \r\n\t\t} \r\n\r\n\telse if (but==butD_)\r\n\t\t{\r\n\t\tsub_ind=av_j_si_max;\r\n\t\t} \r\n\t\t \r\n\telse if (but==butL)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\tret(0);\r\n\t\t} \r\n\t\t\r\n\telse if(but==butE)\r\n\t\t{ \r\n\t\tif(sub_ind==av_j_si_max+1)\r\n\t\t\t{\r\n\t\t\tlc640_write(CNT_EVENT_LOG,0);\r\n\t\t\tlc640_write(PTR_EVENT_LOG,0);\r\n\t\t\ttree_down(0,0);\r\n\t\t\tavar_ind_stat=0;\r\n\t\t\tavar_stat=0;\r\n\t\t\tavar_stat_old=0;\t\t\t\t\r\n\t\t\t}\r\n\t\t\t\t\t\r\n\t\telse if(sub_ind==av_j_si_max)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t\t\r\n\t\telse \r\n\t\t\t{\r\n\t\t\t/ind=iLog_;\r\n\t\t\tsub_ind1=sub_ind;\r\n\t\t\tindex_set=0;\r\n\t\t\tsub_ind=0;/\r\n\t\t\ttree_up(iLog_,0,0,sub_ind);\r\n\t\t\t}\t\r\n\t\t\t\r\n\t\t} \r\n\r\n\telse if(but==butR)\r\n\t\t{\r\n\t //\tavar_bat_hndl(0,1);\t\r\n\t\t}\r\n\telse if(but==butR_)\r\n\t\t{\r\n\t \t//avar_bat_hndl(0,0);\t\r\n\t\t}\t\t\r\n\telse if(but==butL)\r\n\t\t{\r\n\t \t//avar_s_hndl(1,0,1);\t\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(but==butL_)\r\n\t\t{ \r\n\t\t/lc640_write(CNT_EVENT_LOG,0);\r\n\t\tlc640_write(PTR_EVENT_LOG,0);\r\n\t\tind=iMn;\r\n\t\tsub_ind=cnt_of_slave+10;\r\n\t\tindex_set=0;/\t\t\t\t\r\n\t\r\n\t\t}\t \t\t\r\n\t}\r\n\r\nelse if(ind==iLog_)\r\n\t{ \r\n\tif(but==butU)\r\n\t\t{\r\n\t\tindex_set--;\r\n\t\tgran_char(&index_set,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butD)\r\n\t\t{\r\n\t\tindex_set++;\r\n\t\tgran_char(&index_set,0,av_j_si_max);\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\t/ind=iLog;\r\n\t\tsub_ind=sub_ind1;/\r\n\t\ttree_down(0,0/sub_ind1-sub_ind/);\r\n\t\t}\t\t\r\n\t}\t\r\n#ifndef UKU_6U_WEB\t\t\r\nelse if(ind==iSet)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==7)index_set=6;\r\n\t\tif(sub_ind==8)sub_ind=9;\r\n\t\tif(sub_ind==11)index_set=10;\r\n\t\tif(sub_ind==12)sub_ind=13;\r\n if(sub_ind==32)\r\n {\r\n index_set=31;\r\n }\r\n if(sub_ind==34)\r\n {\r\n sub_ind=35;\r\n //index_set=31;\r\n }\r\n\t\t\r\n\t\tgran_char(&sub_ind,0,37);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==8)sub_ind=7;\r\n\t\tif(sub_ind==12)sub_ind=9;\r\n if(sub_ind==33)\r\n {\r\n sub_ind=32;\r\n\t\t //index_set=29;\r\n }\r\n\t\tgran_char(&sub_ind,0,37);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=35;\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t\t\t#ifdef UKU_GLONASS\r\n\t tree_up(iDef_GLONASS,0,0,0);\r\n\t\t\t#endif\r\n\t\t\t#ifdef UKU_3U\r\n\t tree_up(iDef_3U,0,0,0);\r\n\t\t\t#endif\r\n\t\t\t#ifdef UKU\r\n\t tree_up(iDef,0,0,0);\r\n\t\t\t#endif\r\n\t\t\t#ifdef UKU_6U\r\n\t tree_up(iDef_6U,0,0,0);\r\n\t\t\t#endif\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\r\n\r\n\t }\t\r\n\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\t\t\t\t \r\n else if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\t#ifdef UKU_3U\r\n\t\t tree_up(iStr_3U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n\t\t\t#endif\r\n\t\t\t#ifdef UKU_GLONASS\r\n\t\t tree_up(iStr_GLONASS,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n\t\t\t#endif\r\n\t\t\t#ifdef UKU_RSTKM\r\n\t\t tree_up(iStr_RSTKM,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n\t\t\t#endif\r\n\t\t\t#ifdef UKU_KONTUR\r\n\t\t tree_up(iStr_KONTUR,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n\t\t\t#endif\r\n\t\t\t#ifdef UKU_6U\r\n\t\t tree_up(iStr_6U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n\t\t\t#endif\r\n\r\n\t\t\t#ifdef UKU\r\n\t\t tree_up(iStr,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n\t\t\t#endif\r\n\r\n\r\n\r\n\t\t }\r\n\t\t}\t\r\n\t\r\n\telse if(sub_ind==3)\r\n\t {\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iKlimat,0,0,0);\r\n\t\t\t}\r\n\t }\r\n\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t if(but==butR)MNEMO_TIME++;\r\n\t else if(but==butR_)MNEMO_TIME+=10;\r\n\t else if(but==butL)MNEMO_TIME--;\r\n\t else if(but==butL_)MNEMO_TIME-=10;\r\n\r\n\t if(((MNEMO_TIME<5)\|\|(MNEMO_TIME>60))&&(MNEMO_ON!=mnOFF))lc640_write_int(EE_MNEMO_ON,mnOFF);\t\r\n\t if(((MNEMO_TIME>=5)&&(MNEMO_TIME<=60))&&(MNEMO_ON!=mnON))lc640_write_int(EE_MNEMO_ON,mnON);\r\n\t gran((signed short)&MNEMO_TIME,4,61);\r\n\t lc640_write_int(EE_MNEMO_TIME,MNEMO_TIME);\r\n\t speed=1;\r\n\t }\r\n\t\t\t\t \t\t\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t lc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==7)\r\n\t {\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t lc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iApv,0,0,0);\r\n\t ret(1000);\r\n\t }\r\n\t }\t\r\n\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==11)\r\n\t {\r\n\t if(but==butR)TBAT++;\r\n\t else if(but==butR_)TBAT+=10;\r\n\t else if(but==butL)TBAT--;\r\n\t else if(but==butL_)TBAT-=10;\r\n\t gran(&TBAT,5,60);\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\t\r\n\t \t \t\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\t\t#ifdef UKU206_220\r\n\t\tgran(&UMAX,2000,3000);\r\n\t\t#else\r\n\t gran(&UMAX,10,1000);\r\n\t\t#endif\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==14)\r\n\t {\r\n/\t if(but==butR)DU++;\r\n\t else if(but==butR_)DU+=10;\r\n\t else if(but==butL)DU--;\r\n\t else if(but==butL_)DU-=10;\r\n\t gran(&DU,10,1000);/\r\n\t if(but==butL)DU++;\r\n\t else if(but==butL_)DU+=10;\r\n\t else if(but==butR)DU--;\r\n\t else if(but==butR_)DU-=10;\r\n\t gran(&DU,50,UB20-250);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)UB0++;\r\n\t else if(but==butR_)UB0+=10;\r\n\t else if(but==butL)UB0--;\r\n\t else if(but==butL_)UB0-=10;\r\n\t\tgran(&UB0,400,800);\r\n lc640_write_int(EE_UB0,UB0);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)UB20++;\r\n\t else if(but==butR_)UB20+=10;\r\n\t else if(but==butL)UB20--;\r\n\t else if(but==butL_)UB20-=10;\r\n\t\tgran(&UB20,400,800);\r\n\t lc640_write_int(EE_UB20,UB20);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t\tgran(&USIGN,40,100);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==18)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,220);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)U0B++;\r\n\t else if(but==butR_)U0B+=10;\r\n\t else if(but==butL)U0B--;\r\n\t else if(but==butL_)U0B-=10;\r\n\t\tgran(&U0B,400,800);\r\n\t lc640_write_int(EE_U0B,U0B);\r\n\t speed=1;\r\n\t }\t\r\n\t \r\n\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }\t\t\r\n \r\n\telse if(sub_ind==21)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t\tgran(&IZMAX,10,1000);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t } \r\n\r\n\telse if(sub_ind==22)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t\tgran(&IMAX,10,1000);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==23)\r\n\t {\r\n\t if(but==butR)IMIN++;\r\n\t else if(but==butR_)IMIN+=10;\r\n\t else if(but==butL)IMIN--;\r\n\t else if(but==butL_)IMIN-=10;\r\n\t gran(&IMIN,40,IMAX-10);\r\n\t lc640_write_int(EE_IMIN,IMIN);\r\n\t speed=1;\r\n\t }\r\n\t\r\n\telse if(sub_ind==24)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))UVZ+=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))UVZ-=1;\r\n\t\tgran(&UVZ,UB20,UMAX); \t \r\n\t\tlc640_write_int(EE_UVZ,UVZ);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==25)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,3);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}\t\r\n\t\t\t \t \r\n\telse if(sub_ind==26)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==27)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==28)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==29)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }\t\r\n \t \t \t\t \t \r\n else if(sub_ind==30)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iExt_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n else if(sub_ind==31)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iLan_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\telse if(sub_ind==32)\r\n\t {\r\n\t if(but==butR)POWER_CNT_ADRESS++;\r\n\t else if(but==butR_)POWER_CNT_ADRESS+=10;\r\n\t else if(but==butL)POWER_CNT_ADRESS--;\r\n\t else if(but==butL_)POWER_CNT_ADRESS-=10;\r\n\t gran(&POWER_CNT_ADRESS,0,10000);\r\n\t lc640_write_int(EE_POWER_CNT_ADRESS,POWER_CNT_ADRESS);\r\n\t speed=1;\r\n\t } \r\n\telse if(sub_ind==33)\r\n\t {\r\n\t if(but==butR)UBM_AV++;\r\n\t else if(but==butR_)UBM_AV++;\r\n\t else if(but==butL)UBM_AV--;\r\n\t else if(but==butL_)UBM_AV--;\r\n\t gran(&UBM_AV,0,50);\r\n\t lc640_write_int(EE_UBM_AV,UBM_AV);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==34)\r\n\t {\r\n\t if(but==butR)AUSW_MAIN_NUMBER++;\r\n\t else if(but==butR_)AUSW_MAIN_NUMBER+=20;\r\n\t else if(but==butL)AUSW_MAIN_NUMBER--;\r\n\t else if(but==butL_)AUSW_MAIN_NUMBER-=20;\r\n\t\telse if(but==butEL_)AUSW_MAIN_NUMBER=15000;\r\n\t\tif(AUSW_MAIN_NUMBER<13000)AUSW_MAIN_NUMBER=100000;\r\n\t\tif(AUSW_MAIN_NUMBER>100000)AUSW_MAIN_NUMBER=13000;\r\n\t lc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(AUSW_MAIN_NUMBER&0x0000ffffUL));\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((AUSW_MAIN_NUMBER&0xffff0000UL)>>16UL));\r\n\t speed=1;\r\n\t } \t\t\r\n \r\n else if((sub_ind==36) \|\| (sub_ind==4))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(sub_ind==37)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n\t\t/\t\t\t\r\n\telse if(sub_ind==37)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iPrltst,0,0,0);\r\n\t\t parol_init();\r\n\t\t }\r\n\t\t}/\t\r\n }\r\n\r\nelse if(ind==iSet_RSTKM)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==7)index_set=6;\r\n\t\tif(sub_ind==8)sub_ind=9;\r\n\t\tif(sub_ind==11)index_set=10;\r\n\t\tif(sub_ind==12)sub_ind=13;\r\n if(sub_ind==33)\r\n {\r\n index_set=32;\r\n }\r\n if(sub_ind==34)\r\n {\r\n sub_ind=35;\r\n //index_set=31;\r\n }\r\n\t\t\r\n\t\tgran_char(&sub_ind,0,37);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==8)sub_ind=7;\r\n\t\tif(sub_ind==12)sub_ind=9;\r\n if(sub_ind==34)\r\n {\r\n sub_ind=33;\r\n\t\t //index_set=29;\r\n }\r\n\t\tgran_char(&sub_ind,0,37);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=36;\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iDef_RSTKM,0,0,0);\r\n\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\t }\t\r\n\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\t\t\t\t \r\n else if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iStr_RSTKM,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\r\n\telse if(sub_ind==3)\r\n\t {\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iKlimat,0,0,0);\r\n\t\t\t}\r\n\t }\r\n\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t if(but==butR)MNEMO_TIME++;\r\n\t else if(but==butR_)MNEMO_TIME+=10;\r\n\t else if(but==butL)MNEMO_TIME--;\r\n\t else if(but==butL_)MNEMO_TIME-=10;\r\n\r\n\t if(((MNEMO_TIME<5)\|\|(MNEMO_TIME>60))&&(MNEMO_ON!=mnOFF))lc640_write_int(EE_MNEMO_ON,mnOFF);\t\r\n\t if(((MNEMO_TIME>=5)&&(MNEMO_TIME<=60))&&(MNEMO_ON!=mnON))lc640_write_int(EE_MNEMO_ON,mnON);\r\n\t gran((signed short)&MNEMO_TIME,4,61);\r\n\t lc640_write_int(EE_MNEMO_TIME,MNEMO_TIME);\r\n\t speed=1;\r\n\t }\r\n\t\t\t\t \t\t\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t lc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==7)\r\n\t {\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t lc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iApv,0,0,0);\r\n\t ret(1000);\r\n\t }\r\n\t }\t\r\n\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==11)\r\n\t {\r\n\t if(but==butR)TBAT++;\r\n\t else if(but==butR_)TBAT+=10;\r\n\t else if(but==butL)TBAT--;\r\n\t else if(but==butL_)TBAT-=10;\r\n\t gran(&TBAT,5,60);\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\t\r\n\t \t \t\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\t\t#ifdef UKU206_220\r\n\t\tgran(&UMAX,2000,3000);\r\n\t\t#else\r\n\t gran(&UMAX,10,1000);\r\n\t\t#endif\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==14)\r\n\t {\r\n/\t if(but==butR)DU++;\r\n\t else if(but==butR_)DU+=10;\r\n\t else if(but==butL)DU--;\r\n\t else if(but==butL_)DU-=10;\r\n\t gran(&DU,10,1000);/\r\n\t if(but==butL)DU++;\r\n\t else if(but==butL_)DU+=10;\r\n\t else if(but==butR)DU--;\r\n\t else if(but==butR_)DU-=10;\r\n\t gran(&DU,50,UB20-250);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)UB0++;\r\n\t else if(but==butR_)UB0+=10;\r\n\t else if(but==butL)UB0--;\r\n\t else if(but==butL_)UB0-=10;\r\n\t\tgran(&UB0,400,800);\r\n lc640_write_int(EE_UB0,UB0);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)UB20++;\r\n\t else if(but==butR_)UB20+=10;\r\n\t else if(but==butL)UB20--;\r\n\t else if(but==butL_)UB20-=10;\r\n\t\tgran(&UB20,400,800);\r\n\t lc640_write_int(EE_UB20,UB20);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t\tgran(&USIGN,40,100);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==18)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,220);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)U0B++;\r\n\t else if(but==butR_)U0B+=10;\r\n\t else if(but==butL)U0B--;\r\n\t else if(but==butL_)U0B-=10;\r\n\t\tgran(&U0B,400,800);\r\n\t lc640_write_int(EE_U0B,U0B);\r\n\t speed=1;\r\n\t }\t\r\n\t \r\n\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }\t\t\r\n \r\n\telse if(sub_ind==21)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t\tgran(&IZMAX,10,1000);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t } \r\n\r\n\telse if(sub_ind==22)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t\tgran(&IMAX,10,1000);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==23)\r\n\t {\r\n\t if(but==butR)IMIN++;\r\n\t else if(but==butR_)IMIN+=10;\r\n\t else if(but==butL)IMIN--;\r\n\t else if(but==butL_)IMIN-=10;\r\n\t gran(&IMIN,40,IMAX-10);\r\n\t lc640_write_int(EE_IMIN,IMIN);\r\n\t speed=1;\r\n\t }\r\n\t\r\n\telse if(sub_ind==24)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))UVZ+=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))UVZ-=1;\r\n\t\tgran(&UVZ,UB20,UMAX); \t \r\n\t\tlc640_write_int(EE_UVZ,UVZ);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==25)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,3);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}\t\r\n\t\t\t \t \r\n\telse if(sub_ind==26)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==27)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==28)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==29)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }\t\r\n \t \t \t\t \t \r\n else if(sub_ind==30)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iExt_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n else if(sub_ind==31)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iLan_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\telse if(sub_ind==32)\r\n\t {\r\n\t if(but==butR)POWER_CNT_ADRESS++;\r\n\t else if(but==butR_)POWER_CNT_ADRESS+=10;\r\n\t else if(but==butL)POWER_CNT_ADRESS--;\r\n\t else if(but==butL_)POWER_CNT_ADRESS-=10;\r\n\t gran(&POWER_CNT_ADRESS,0,10000);\r\n\t lc640_write_int(EE_POWER_CNT_ADRESS,POWER_CNT_ADRESS);\r\n\t speed=1;\r\n\t } \r\n\telse if(sub_ind==33)\r\n\t {\r\n\t if(but==butR)UBM_AV++;\r\n\t else if(but==butR_)UBM_AV++;\r\n\t else if(but==butL)UBM_AV--;\r\n\t else if(but==butL_)UBM_AV--;\r\n\t gran(&UBM_AV,0,50);\r\n\t lc640_write_int(EE_UBM_AV,UBM_AV);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==35)\r\n\t {\r\n\t if(but==butR)AUSW_MAIN_NUMBER++;\r\n\t else if(but==butR_)AUSW_MAIN_NUMBER+=20;\r\n\t else if(but==butL)AUSW_MAIN_NUMBER--;\r\n\t else if(but==butL_)AUSW_MAIN_NUMBER-=20;\r\n\t\telse if(but==butEL_)AUSW_MAIN_NUMBER=15000;\r\n\t\tif(AUSW_MAIN_NUMBER<13000)AUSW_MAIN_NUMBER=100000;\r\n\t\tif(AUSW_MAIN_NUMBER>100000)AUSW_MAIN_NUMBER=13000;\r\n\t lc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(AUSW_MAIN_NUMBER&0x0000ffffUL));\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((AUSW_MAIN_NUMBER&0xffff0000UL)>>16UL));\r\n\t speed=1;\r\n\t } \t\t\r\n \r\n else if((sub_ind==36) \|\| (sub_ind==4))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(sub_ind==37)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n }\r\n\r\nelse if(ind==iSet_3U)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==6)index_set=5;\r\n\t\tif(sub_ind==7)sub_ind=8;\r\n\t\tif(sub_ind==10)index_set=9;\r\n\t\tif(sub_ind==11)sub_ind=12;\r\n if(sub_ind==31)\r\n {\r\n index_set=30;\r\n }\r\n if(sub_ind==33)\r\n {\r\n sub_ind=34;\r\n \r\n }\r\n\t\t\r\n\t\tgran_char(&sub_ind,0,33);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==7)sub_ind=6;\r\n\t\tif(sub_ind==11)sub_ind=8;\r\n if(sub_ind==32)\r\n {\r\n sub_ind=31;\r\n\t\t \r\n }\r\n\t\tgran_char(&sub_ind,0,33);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=32;\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iDef_3U,0,0,0);\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\t }\t\r\n\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\t\t\t\t \r\n else if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iStr_3U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n \t\t }\r\n\t\t}\t\r\n\t\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t if(but==butR)MNEMO_TIME++;\r\n\t else if(but==butR_)MNEMO_TIME+=10;\r\n\t else if(but==butL)MNEMO_TIME--;\r\n\t else if(but==butL_)MNEMO_TIME-=10;\r\n\r\n\t if(((MNEMO_TIME<5)\|\|(MNEMO_TIME>60))&&(MNEMO_ON!=mnOFF))lc640_write_int(EE_MNEMO_ON,mnOFF);\t\r\n\t if(((MNEMO_TIME>=5)&&(MNEMO_TIME<=60))&&(MNEMO_ON!=mnON))lc640_write_int(EE_MNEMO_ON,mnON);\r\n\t gran((signed short)&MNEMO_TIME,4,61);\r\n\t lc640_write_int(EE_MNEMO_TIME,MNEMO_TIME);\r\n\t speed=1;\r\n\t }\r\n\t\t\t\t \t\t\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t lc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t lc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iApv,0,0,0);\r\n\t ret(1000);\r\n\t }\r\n\t }\t\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t if(but==butR)TBAT++;\r\n\t else if(but==butR_)TBAT+=10;\r\n\t else if(but==butL)TBAT--;\r\n\t else if(but==butL_)TBAT-=10;\r\n\t gran(&TBAT,5,60);\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\t\r\n\t \t \t\r\n\telse if(sub_ind==12)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\t\t#ifdef UKU206_220\r\n\t\tgran(&UMAX,2000,3000);\r\n\t\t#else\r\n\t gran(&UMAX,10,1000);\r\n\t\t#endif\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butL)DU++;\r\n\t else if(but==butL_)DU+=10;\r\n\t else if(but==butR)DU--;\r\n\t else if(but==butR_)DU-=10;\r\n\t gran(&DU,50,UB20-250);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butR)UB0++;\r\n\t else if(but==butR_)UB0+=10;\r\n\t else if(but==butL)UB0--;\r\n\t else if(but==butL_)UB0-=10;\r\n\t\tgran(&UB0,400,800);\r\n lc640_write_int(EE_UB0,UB0);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)UB20++;\r\n\t else if(but==butR_)UB20+=10;\r\n\t else if(but==butL)UB20--;\r\n\t else if(but==butL_)UB20-=10;\r\n\t\tgran(&UB20,400,800);\r\n\t lc640_write_int(EE_UB20,UB20);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t\tgran(&USIGN,40,100);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,220);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==18)\r\n\t {\r\n\t if(but==butR)U0B++;\r\n\t else if(but==butR_)U0B+=10;\r\n\t else if(but==butL)U0B--;\r\n\t else if(but==butL_)U0B-=10;\r\n\t\tgran(&U0B,400,800);\r\n\t lc640_write_int(EE_U0B,U0B);\r\n\t speed=1;\r\n\t }\t\r\n\t \r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }\t\t\r\n \r\n\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t\tgran(&IZMAX,10,1000);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t } \r\n\r\n\telse if(sub_ind==21)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t\tgran(&IMAX,10,1000);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==22)\r\n\t {\r\n\t if(but==butR)IMIN++;\r\n\t else if(but==butR_)IMIN+=10;\r\n\t else if(but==butL)IMIN--;\r\n\t else if(but==butL_)IMIN-=10;\r\n\t gran(&IMIN,40,IMAX-10);\r\n\t lc640_write_int(EE_IMIN,IMIN);\r\n\t speed=1;\r\n\t }\r\n\t\r\n\telse if(sub_ind==23)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))UVZ+=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))UVZ-=1;\r\n\t\tgran(&UVZ,UB20,UMAX); \t \r\n\t\tlc640_write_int(EE_UVZ,UVZ);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==24)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,3);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}\t\r\n\t\t\t \t \r\n\telse if(sub_ind==25)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==26)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==27)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==28)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }\t\r\n \t \t \t\t \t \r\n \telse if(sub_ind==29)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iExt_set_3U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n \telse if(sub_ind==30)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iLan_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n\telse if(sub_ind==31)\r\n\t {\r\n\t if(but==butR)AUSW_MAIN_NUMBER++;\r\n\t else if(but==butR_)AUSW_MAIN_NUMBER+=20;\r\n\t else if(but==butL)AUSW_MAIN_NUMBER--;\r\n\t else if(but==butL_)AUSW_MAIN_NUMBER-=20;\r\n\t\telse if(but==butEL_)AUSW_MAIN_NUMBER=15000;\r\n\t\tif(AUSW_MAIN_NUMBER<13000)AUSW_MAIN_NUMBER=100000;\r\n\t\tif(AUSW_MAIN_NUMBER>100000)AUSW_MAIN_NUMBER=13000;\r\n\t lc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(AUSW_MAIN_NUMBER&0x0000ffffUL));\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((AUSW_MAIN_NUMBER&0xffff0000UL)>>16UL));\r\n\t speed=1;\r\n\t } \t\t\r\n \r\n else if((sub_ind==32) \|\| (sub_ind==4))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(sub_ind==33)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n }\r\nelse if(ind==iSet_GLONASS)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==6)index_set=5;\r\n\t\tif(sub_ind==7)sub_ind=8;\r\n\t\tif(sub_ind==10)index_set=9;\r\n\t\tif(sub_ind==11)sub_ind=12;\r\n if(sub_ind==31)\r\n {\r\n index_set=30;\r\n }\r\n if(sub_ind==33)\r\n {\r\n sub_ind=34;\r\n \r\n }\r\n\t\t\r\n\t\tgran_char(&sub_ind,0,33);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==7)sub_ind=6;\r\n\t\tif(sub_ind==11)sub_ind=8;\r\n if(sub_ind==32)\r\n {\r\n sub_ind=31;\r\n\t\t \r\n }\r\n\t\tgran_char(&sub_ind,0,33);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=32;\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iDef_GLONASS,0,0,0);\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\t }\t\r\n\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\t\t\t\t \r\n else if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iStr_GLONASS,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n \t\t }\r\n\t\t}\t\r\n\t\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t if(but==butR)MNEMO_TIME++;\r\n\t else if(but==butR_)MNEMO_TIME+=10;\r\n\t else if(but==butL)MNEMO_TIME--;\r\n\t else if(but==butL_)MNEMO_TIME-=10;\r\n\r\n\t if(((MNEMO_TIME<5)\|\|(MNEMO_TIME>60))&&(MNEMO_ON!=mnOFF))lc640_write_int(EE_MNEMO_ON,mnOFF);\t\r\n\t if(((MNEMO_TIME>=5)&&(MNEMO_TIME<=60))&&(MNEMO_ON!=mnON))lc640_write_int(EE_MNEMO_ON,mnON);\r\n\t gran((signed short)&MNEMO_TIME,4,61);\r\n\t lc640_write_int(EE_MNEMO_TIME,MNEMO_TIME);\r\n\t speed=1;\r\n\t }\r\n\t\t\t\t \t\t\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t lc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t lc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iApv,0,0,0);\r\n\t ret(1000);\r\n\t }\r\n\t }\t\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t if(but==butR)TBAT++;\r\n\t else if(but==butR_)TBAT+=10;\r\n\t else if(but==butL)TBAT--;\r\n\t else if(but==butL_)TBAT-=10;\r\n\t gran(&TBAT,5,60);\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\t\r\n\t \t \t\r\n\telse if(sub_ind==12)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\t\t#ifdef UKU206_220\r\n\t\tgran(&UMAX,2000,3000);\r\n\t\t#else\r\n\t gran(&UMAX,10,1000);\r\n\t\t#endif\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butL)DU++;\r\n\t else if(but==butL_)DU+=10;\r\n\t else if(but==butR)DU--;\r\n\t else if(but==butR_)DU-=10;\r\n\t gran(&DU,50,UB20-250);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butR)UB0++;\r\n\t else if(but==butR_)UB0+=10;\r\n\t else if(but==butL)UB0--;\r\n\t else if(but==butL_)UB0-=10;\r\n\t\tgran(&UB0,400,800);\r\n lc640_write_int(EE_UB0,UB0);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)UB20++;\r\n\t else if(but==butR_)UB20+=10;\r\n\t else if(but==butL)UB20--;\r\n\t else if(but==butL_)UB20-=10;\r\n\t\tgran(&UB20,400,800);\r\n\t lc640_write_int(EE_UB20,UB20);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t\tgran(&USIGN,40,100);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,220);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==18)\r\n\t {\r\n\t if(but==butR)U0B++;\r\n\t else if(but==butR_)U0B+=10;\r\n\t else if(but==butL)U0B--;\r\n\t else if(but==butL_)U0B-=10;\r\n\t\tgran(&U0B,400,800);\r\n\t lc640_write_int(EE_U0B,U0B);\r\n\t speed=1;\r\n\t }\t\r\n\t \r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }\t\t\r\n \r\n\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t\tgran(&IZMAX,10,1000);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t } \r\n\r\n\telse if(sub_ind==21)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t\tgran(&IMAX,10,1000);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==22)\r\n\t {\r\n\t if(but==butR)IMIN++;\r\n\t else if(but==butR_)IMIN+=10;\r\n\t else if(but==butL)IMIN--;\r\n\t else if(but==butL_)IMIN-=10;\r\n\t gran(&IMIN,40,IMAX-10);\r\n\t lc640_write_int(EE_IMIN,IMIN);\r\n\t speed=1;\r\n\t }\r\n\t\r\n\telse if(sub_ind==23)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))UVZ+=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))UVZ-=1;\r\n\t\tgran(&UVZ,UB20,UMAX); \t \r\n\t\tlc640_write_int(EE_UVZ,UVZ);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==24)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,3);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}\t\r\n\t\t\t \t \r\n\telse if(sub_ind==25)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==26)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==27)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==28)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }\t\r\n \t \t \t\t \t \r\n \telse if(sub_ind==29)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iExt_set_GLONASS,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n \telse if(sub_ind==30)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iLan_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n\telse if(sub_ind==31)\r\n\t {\r\n\t if(but==butR)AUSW_MAIN_NUMBER++;\r\n\t else if(but==butR_)AUSW_MAIN_NUMBER+=20;\r\n\t else if(but==butL)AUSW_MAIN_NUMBER--;\r\n\t else if(but==butL_)AUSW_MAIN_NUMBER-=20;\r\n\t\telse if(but==butEL_)AUSW_MAIN_NUMBER=15000;\r\n\t\tif(AUSW_MAIN_NUMBER<13000)AUSW_MAIN_NUMBER=100000;\r\n\t\tif(AUSW_MAIN_NUMBER>100000)AUSW_MAIN_NUMBER=13000;\r\n\t lc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(AUSW_MAIN_NUMBER&0x0000ffffUL));\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((AUSW_MAIN_NUMBER&0xffff0000UL)>>16UL));\r\n\t speed=1;\r\n\t } \t\t\r\n \r\n else if((sub_ind==32) \|\| (sub_ind==3))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(sub_ind==33)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n }\r\n\r\nelse if(ind==iSet_KONTUR)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==7)index_set=6;\r\n\t\tif(sub_ind==8)sub_ind=9;\r\n\t\tif(sub_ind==11)index_set=10;\r\n\t\tif(sub_ind==12)sub_ind=13;\r\n if(sub_ind==33)\r\n {\r\n index_set=32;\r\n }\r\n if(sub_ind==34)\r\n {\r\n sub_ind=35;\r\n //index_set=31;\r\n }\r\n if(sub_ind==36)\r\n {\r\n index_set=35;\r\n }\r\n if(sub_ind==37)\r\n {\r\n sub_ind=38;\r\n //index_set=31;\r\n }\t\t\r\n\t\tgran_char(&sub_ind,0,39);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==8)sub_ind=7;\r\n\t\tif(sub_ind==12)sub_ind=9;\r\n if(sub_ind==34)\r\n {\r\n sub_ind=33;\r\n\t\t //index_set=29;\r\n }\r\n if(sub_ind==37)\r\n {\r\n sub_ind=36;\r\n\t\t //index_set=29;\r\n }\r\n\t\tgran_char(&sub_ind,0,39);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=38;\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iDef_KONTUR,0,0,0);\r\n\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\t }\t\r\n\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\t\t\t\t \r\n else if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iStr_KONTUR,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\r\n\telse if(sub_ind==3)\r\n\t {\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iKlimat_kontur,0,0,0);\r\n\t\t\t}\r\n\t }\r\n\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t if(but==butR)MNEMO_TIME++;\r\n\t else if(but==butR_)MNEMO_TIME+=10;\r\n\t else if(but==butL)MNEMO_TIME--;\r\n\t else if(but==butL_)MNEMO_TIME-=10;\r\n\r\n\t if(((MNEMO_TIME<5)\|\|(MNEMO_TIME>60))&&(MNEMO_ON!=mnOFF))lc640_write_int(EE_MNEMO_ON,mnOFF);\t\r\n\t if(((MNEMO_TIME>=5)&&(MNEMO_TIME<=60))&&(MNEMO_ON!=mnON))lc640_write_int(EE_MNEMO_ON,mnON);\r\n\t gran((signed short)&MNEMO_TIME,4,61);\r\n\t lc640_write_int(EE_MNEMO_TIME,MNEMO_TIME);\r\n\t speed=1;\r\n\t }\r\n\t\t\t\t \t\t\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t lc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==7)\r\n\t {\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t lc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iApv,0,0,0);\r\n\t ret(1000);\r\n\t }\r\n\t }\t\r\n\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==11)\r\n\t {\r\n\t if(but==butR)TBAT++;\r\n\t else if(but==butR_)TBAT+=10;\r\n\t else if(but==butL)TBAT--;\r\n\t else if(but==butL_)TBAT-=10;\r\n\t gran(&TBAT,5,60);\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\t\r\n\t \t \t\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\t\t#ifdef UKU206_220\r\n\t\tgran(&UMAX,2000,3000);\r\n\t\t#else\r\n\t gran(&UMAX,10,1000);\r\n\t\t#endif\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==14)\r\n\t {\r\n/\t if(but==butR)DU++;\r\n\t else if(but==butR_)DU+=10;\r\n\t else if(but==butL)DU--;\r\n\t else if(but==butL_)DU-=10;\r\n\t gran(&DU,10,1000);/\r\n\t if(but==butL)DU++;\r\n\t else if(but==butL_)DU+=10;\r\n\t else if(but==butR)DU--;\r\n\t else if(but==butR_)DU-=10;\r\n\t gran(&DU,50,UB20-250);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)UB0++;\r\n\t else if(but==butR_)UB0+=10;\r\n\t else if(but==butL)UB0--;\r\n\t else if(but==butL_)UB0-=10;\r\n\t\tgran(&UB0,400,800);\r\n lc640_write_int(EE_UB0,UB0);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)UB20++;\r\n\t else if(but==butR_)UB20+=10;\r\n\t else if(but==butL)UB20--;\r\n\t else if(but==butL_)UB20-=10;\r\n\t\tgran(&UB20,400,800);\r\n\t lc640_write_int(EE_UB20,UB20);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t\tgran(&USIGN,40,100);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==18)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,220);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)U0B++;\r\n\t else if(but==butR_)U0B+=10;\r\n\t else if(but==butL)U0B--;\r\n\t else if(but==butL_)U0B-=10;\r\n\t\tgran(&U0B,400,800);\r\n\t lc640_write_int(EE_U0B,U0B);\r\n\t speed=1;\r\n\t }\t\r\n\t \r\n\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }\t\t\r\n \r\n\telse if(sub_ind==21)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t\tgran(&IZMAX,10,1000);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t } \r\n\r\n\telse if(sub_ind==22)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t\tgran(&IMAX,10,1000);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==23)\r\n\t {\r\n\t if(but==butR)IMIN++;\r\n\t else if(but==butR_)IMIN+=10;\r\n\t else if(but==butL)IMIN--;\r\n\t else if(but==butL_)IMIN-=10;\r\n\t gran(&IMIN,40,IMAX-10);\r\n\t lc640_write_int(EE_IMIN,IMIN);\r\n\t speed=1;\r\n\t }\r\n\t\r\n\telse if(sub_ind==24)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))UVZ+=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))UVZ-=1;\r\n\t\tgran(&UVZ,UB20,UMAX); \t \r\n\t\tlc640_write_int(EE_UVZ,UVZ);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==25)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,3);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}\t\r\n\t\t\t \t \r\n\telse if(sub_ind==26)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==27)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==28)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==29)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }\t\r\n \t \t \t\t \t \r\n else if(sub_ind==30)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iExt_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n else if(sub_ind==31)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iLan_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\telse if(sub_ind==32)\r\n\t {\r\n\t if(but==butR)POWER_CNT_ADRESS++;\r\n\t else if(but==butR_)POWER_CNT_ADRESS+=10;\r\n\t else if(but==butL)POWER_CNT_ADRESS--;\r\n\t else if(but==butL_)POWER_CNT_ADRESS-=10;\r\n\t gran(&POWER_CNT_ADRESS,0,10000);\r\n\t lc640_write_int(EE_POWER_CNT_ADRESS,POWER_CNT_ADRESS);\r\n\t speed=1;\r\n\t } \r\n\telse if(sub_ind==33)\r\n\t {\r\n\t if(but==butR)UBM_AV++;\r\n\t else if(but==butR_)UBM_AV++;\r\n\t else if(but==butL)UBM_AV--;\r\n\t else if(but==butL_)UBM_AV--;\r\n\t gran(&UBM_AV,0,50);\r\n\t lc640_write_int(EE_UBM_AV,UBM_AV);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==35)\r\n\t {\r\n\t if(but==butR)AUSW_MAIN_NUMBER++;\r\n\t else if(but==butR_)AUSW_MAIN_NUMBER+=20;\r\n\t else if(but==butL)AUSW_MAIN_NUMBER--;\r\n\t else if(but==butL_)AUSW_MAIN_NUMBER-=20;\r\n\t\telse if(but==butEL_)AUSW_MAIN_NUMBER=15000;\r\n\t\tif(AUSW_MAIN_NUMBER<13000)AUSW_MAIN_NUMBER=100000;\r\n\t\tif(AUSW_MAIN_NUMBER>100000)AUSW_MAIN_NUMBER=13000;\r\n\t lc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(AUSW_MAIN_NUMBER&0x0000ffffUL));\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((AUSW_MAIN_NUMBER&0xffff0000UL)>>16UL));\r\n\t speed=1;\r\n\t } \t\t\r\n\r\n\telse if(sub_ind==36)\r\n\t {\r\n\t\tif(RELE_LOG)RELE_LOG=0;\r\n\t\telse RELE_LOG=1;\r\n\t lc640_write_int(EE_RELE_LOG,RELE_LOG);\r\n\t speed=1;\r\n\t }\r\n\t\t \r\n else if((sub_ind==38) \|\| (sub_ind==4))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(sub_ind==39)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n }\r\n#endif\t//UKU_6U_WEB\r\nelse if(ind==iSet_6U)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)index_set=1;\r\n\t\tif(sub_ind==3)sub_ind=4;\r\n\t\tif(sub_ind==7)index_set=6;\r\n\t\tif(sub_ind==8)sub_ind=9;\r\n\t\tif(sub_ind==11)index_set=10;\r\n\t\tif(sub_ind==12)sub_ind=13;\r\n\t\tif(sub_ind==32)index_set=31;\r\n\t\tif(sub_ind==33)sub_ind=34;\r\n\t\tif(sub_ind==34)index_set=33;\r\n\t\tif(sub_ind==35)sub_ind=36;\r\n\t\tif(sub_ind==40)index_set=39;\r\n\t\tif(sub_ind==41)sub_ind=42;\r\n\t\tif(sub_ind==42)\tindex_set=41;\r\n if(sub_ind==43)\tsub_ind=44;\r\n if(sub_ind==45)index_set=44;\r\n if(sub_ind==46)sub_ind=47;\r\n\t\tgran_char(&sub_ind,0,48);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==3)sub_ind=2;\r\n\t\tif(sub_ind==8)sub_ind=7;\r\n\t\tif(sub_ind==12)sub_ind=9;\r\n\t\tif(sub_ind==41)sub_ind=40;\r\n\t\tif(sub_ind==40)index_set=40;\r\n if(sub_ind==35)sub_ind=34;\r\n if(sub_ind==34)index_set=34;\r\n if(sub_ind==33)sub_ind=32;\r\n if(sub_ind==32)index_set=32;\r\n if(sub_ind==43)sub_ind=42;\r\n if(sub_ind==46)sub_ind=45;\r\n\t\tgran_char(&sub_ind,0,48);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=47;\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iDef_6U,0,0,0);\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\t }\t\r\n\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n else if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T_avt,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\t\t\t\t \r\n else if(sub_ind==4)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iStr_6U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n \t\t }\r\n\t\t}\t\r\n\t\r\n/\telse if(sub_ind==6)\r\n\t {\r\n\t if(but==butR)MNEMO_TIME++;\r\n\t else if(but==butR_)MNEMO_TIME+=10;\r\n\t else if(but==butL)MNEMO_TIME--;\r\n\t else if(but==butL_)MNEMO_TIME-=10;\r\n\r\n\t if(((MNEMO_TIME<5)\|\|(MNEMO_TIME>60))&&(MNEMO_ON!=mnOFF))lc640_write_int(EE_MNEMO_ON,mnOFF);\t\r\n\t if(((MNEMO_TIME>=5)&&(MNEMO_TIME<=60))&&(MNEMO_ON!=mnON))lc640_write_int(EE_MNEMO_ON,mnON);\r\n\t gran((signed short)&MNEMO_TIME,4,61);\r\n\t lc640_write_int(EE_MNEMO_TIME,MNEMO_TIME);\r\n\t speed=1;\r\n\t }/\r\n\t\t\t\t \t\t\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t lc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==7)\r\n\t {\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t lc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iApv,0,0,0);\r\n\t ret(1000);\r\n\t }\r\n\t }\t\r\n\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==11)\r\n\t {\r\n\t if(but==butR)TBAT++;\r\n\t else if(but==butR_)TBAT+=10;\r\n\t else if(but==butL)TBAT--;\r\n\t else if(but==butL_)TBAT-=10;\r\n\t gran(&TBAT,5,60);\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\t\r\n\t \t \t\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\t\t#ifdef UKU_220\r\n\t\tgran(&UMAX,2000,3000);\r\n\t\t#else\r\n\t gran(&UMAX,10,3000);\r\n\t\t#endif\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butL)DU++;\r\n\t else if(but==butL_)DU+=10;\r\n\t else if(but==butR)DU--;\r\n\t else if(but==butR_)DU-=10;\r\n\t gran(&DU,50,UB20-250);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)UB0++;\r\n\t else if(but==butR_)UB0+=10;\r\n\t else if(but==butL)UB0--;\r\n\t else if(but==butL_)UB0-=10;\r\n\t\tgran(&UB0,150,800);\r\n lc640_write_int(EE_UB0,UB0);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)UB20++;\r\n\t else if(but==butR_)UB20+=10;\r\n\t else if(but==butL)UB20--;\r\n\t else if(but==butL_)UB20-=10;\r\n\t\tgran(&UB20,150,800);\r\n\t lc640_write_int(EE_UB20,UB20);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t\tgran(&USIGN,15,100);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==18)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,220);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)U0B++;\r\n\t else if(but==butR_)U0B+=10;\r\n\t else if(but==butL)U0B--;\r\n\t else if(but==butL_)U0B-=10;\r\n\t\tgran(&U0B,150,800);\r\n\t lc640_write_int(EE_U0B,U0B);\r\n\t speed=1;\r\n\t }\t\r\n\t \r\n\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }\t\t\r\n \r\n\telse if(sub_ind==21)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t\tgran(&IZMAX,10,1500);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t } \r\n\r\n\telse if(sub_ind==22)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t\tgran(&IMAX,10,1000);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==23)\r\n\t {\r\n\t if(but==butR)IMIN++;\r\n\t else if(but==butR_)IMIN+=10;\r\n\t else if(but==butL)IMIN--;\r\n\t else if(but==butL_)IMIN-=10;\r\n\t gran(&IMIN,40,IMAX-10);\r\n\t lc640_write_int(EE_IMIN,IMIN);\r\n\t speed=1;\r\n\t }\r\n\t\r\n\telse if(sub_ind==24)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))UVZ+=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))UVZ-=1;\r\n\t\tgran(&UVZ,UB20,UMAX); \t \r\n\t\tlc640_write_int(EE_UVZ,UVZ);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==25)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,10);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}\t\r\n\t\t\t \t \r\n\telse if(sub_ind==26)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==27)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==28)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==29)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }\t\r\n \r\n \telse if(sub_ind==30)\r\n\t {\r\n\t if(but==butR)TVENTON++;\r\n\t else if(but==butR_)TVENTON+=2;\r\n\t else if(but==butL)TVENTON--;\r\n\t else if(but==butL_)TVENTON-=2;\r\n\t gran(&TVENTON,10,100);\r\n\t lc640_write_int(EE_TVENTON,TVENTON);\r\n\t speed=1;\r\n\t }\t\r\n\r\n \telse if(sub_ind==31)\r\n\t {\r\n\t if(but==butR)TVENTOFF++;\r\n\t else if(but==butR_)TVENTOFF+=2;\r\n\t else if(but==butL)TVENTOFF--;\r\n\t else if(but==butL_)TVENTOFF-=2;\r\n\t gran(&TVENTOFF,10,100);\r\n\t lc640_write_int(EE_TVENTOFF,TVENTOFF);\r\n\t speed=1;\r\n\t }\r\n\r\n \telse if(sub_ind==32)\r\n\t {\r\n\t if(RELEVENTSIGN==rvsAKB)RELEVENTSIGN=rvsBPS;\r\n\t else if(RELEVENTSIGN==rvsBPS)RELEVENTSIGN=rvsEXT;\r\n\t else RELEVENTSIGN=rvsAKB;\r\n\t lc640_write_int(EE_RELEVENTSIGN,RELEVENTSIGN);\r\n\t }\r\n\r\n \telse if(sub_ind==34)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iNpn_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\t\t\t\t \t \t \t\t \t \r\n \telse if(sub_ind==36)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\t#ifdef UKU_TELECORE2015\r\n\t\t\ttree_up(iExt_set,0,0,0);\r\n\t\t\t#endif\r\n\t\t\t#ifndef UKU_TELECORE2015\r\n\t\t tree_up(iExt_set_3U,0,0,0);\r\n\t\t\t#endif\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n\r\n \telse if(sub_ind==37)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iLan_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n\telse if(sub_ind==38)\r\n\t {\r\n\t if(but==butR)AUSW_MAIN_NUMBER++;\r\n\t else if(but==butR_)AUSW_MAIN_NUMBER+=20;\r\n\t else if(but==butL)AUSW_MAIN_NUMBER--;\r\n\t else if(but==butL_)AUSW_MAIN_NUMBER-=20;\r\n\t\telse if(but==butEL_)AUSW_MAIN_NUMBER=15000;\r\n\t\tif(AUSW_MAIN_NUMBER<13000)AUSW_MAIN_NUMBER=100000;\r\n\t\tif(AUSW_MAIN_NUMBER>100000)AUSW_MAIN_NUMBER=13000;\r\n\t lc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(AUSW_MAIN_NUMBER&0x0000ffffUL));\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((AUSW_MAIN_NUMBER&0xffff0000UL)>>16UL));\r\n\t speed=1;\r\n\t } \t\t\r\n \telse if(sub_ind==39)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_bat_sel,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n/* \telse if(sub_ind==41)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\tif(NUMINV)\r\n\t\t\t\t{\r\n\t\t \ttree_up(iInv_set_sel,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t }\r\n\t\t}/\r\n \telse if(sub_ind==40)\r\n\t\t{\r\n\t\tif(but==butR)FORVARDBPSCHHOUR++;\r\n\t\telse if(but==butR_)FORVARDBPSCHHOUR+=2;\r\n\t\telse if(but==butL)FORVARDBPSCHHOUR--;\r\n\t\telse if(but==butL_)FORVARDBPSCHHOUR-=2;\r\n\t\tgran(&FORVARDBPSCHHOUR,0,500);\r\n\t\tlc640_write_int(EE_FORVARDBPSCHHOUR,FORVARDBPSCHHOUR);\r\n\t\tnumOfForvardBps_init();\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if(sub_ind==42)\r\n\t\t{\r\n\t\tif(but==butR)UBM_AV++;\r\n\t\telse if(but==butR_)UBM_AV++;\r\n\t\telse if(but==butL)UBM_AV--;\r\n\t\telse if(but==butL_)UBM_AV--;\r\n\t\tgran(&UBM_AV,0,50);\r\n\t\tlc640_write_int(EE_UBM_AV,UBM_AV);\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if(sub_ind==44)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tMODBUS_ADRESS++;\r\n\t \tgran(&MODBUS_ADRESS,1,100);\r\n\t \tlc640_write_int(EE_MODBUS_ADRESS,MODBUS_ADRESS);\r\n\t\t\tspeed=1;\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tMODBUS_ADRESS--;\r\n\t \tgran(&MODBUS_ADRESS,1,100);\r\n\t \tlc640_write_int(EE_MODBUS_ADRESS,MODBUS_ADRESS);\r\n\t\t\tspeed=1;\r\n\t \t}\r\n }\r\n else if(sub_ind==45)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t\t\tif(MODBUS_BAUDRATE==120)MODBUS_BAUDRATE=240;\r\n\t\t\telse if(MODBUS_BAUDRATE==240)MODBUS_BAUDRATE=480;\r\n\t \telse if(MODBUS_BAUDRATE==480)MODBUS_BAUDRATE=960;\r\n\t\t\telse if(MODBUS_BAUDRATE==960)MODBUS_BAUDRATE=1920;\r\n\t\t\telse if(MODBUS_BAUDRATE==1920)MODBUS_BAUDRATE=3840;\r\n\t\t\telse if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=5760;\r\n\t\t\telse if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=5760;\r\n\t\t\telse if(MODBUS_BAUDRATE==5760)MODBUS_BAUDRATE=11520;\r\n\t\t\telse MODBUS_BAUDRATE=120;\r\n\t \tgran(&MODBUS_BAUDRATE,120,11520);\r\n\t \tlc640_write_int(EE_MODBUS_BAUDRATE,MODBUS_BAUDRATE);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t\t\tif(MODBUS_BAUDRATE==120)MODBUS_BAUDRATE=11520;\r\n\t\t\telse if(MODBUS_BAUDRATE==240)MODBUS_BAUDRATE=120;\r\n\t \telse if(MODBUS_BAUDRATE==480)MODBUS_BAUDRATE=240;\r\n\t\t\telse if(MODBUS_BAUDRATE==960)MODBUS_BAUDRATE=480;\r\n\t\t\telse if(MODBUS_BAUDRATE==1920)MODBUS_BAUDRATE=960;\r\n\t\t\telse if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=1920;\r\n\t\t\telse if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=3840;\r\n\t\t\telse if(MODBUS_BAUDRATE==5760)MODBUS_BAUDRATE=3840;\r\n\t\t\telse MODBUS_BAUDRATE=11520;\r\n\t \tgran(&MODBUS_BAUDRATE,120,11520);\r\n\t \tlc640_write_int(EE_MODBUS_BAUDRATE,MODBUS_BAUDRATE);\r\n\t \t}\r\n } \r\n\t//o_2_e\r\n else if((sub_ind==47) \|\| (sub_ind==5))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\r\n\telse if(sub_ind==48)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n }\r\n#ifndef UKU_6U_WEB\r\nelse if(ind==iSet_TELECORE2015)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==6)index_set=5;\r\n\t\tif(sub_ind==7)sub_ind=8;\r\n\t\tif(sub_ind==10)index_set=9;\r\n\t\tif(sub_ind==11)sub_ind=12;\r\n if(sub_ind==31)\r\n {\r\n index_set=30;\r\n }\r\n if(sub_ind==27)\r\n {\r\n sub_ind=28;\r\n \r\n }\r\n\t\tif(sub_ind==28)\r\n {\r\n index_set=27;\r\n }\r\n\t\tif(sub_ind==34)\r\n {\r\n \t\tindex_set=33;\r\n }\r\n if(sub_ind==35)\r\n {\r\n sub_ind=36;\r\n \r\n }\r\n\t\tif(sub_ind==37)\r\n {\r\n \t\tindex_set=36;\r\n }\r\n if(sub_ind==38)\r\n {\r\n sub_ind=39;\r\n \r\n }\r\n\t\t\r\n\t\tgran_char(&sub_ind,0,41);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==7)sub_ind=6;\r\n\t\tif(sub_ind==11)sub_ind=8;\r\n / if(sub_ind==29)\r\n {\r\n sub_ind=28;\r\n\t\t index_set=28;\r\n }/ \r\n if(sub_ind==32)\r\n {\r\n sub_ind=31;\r\n\t\t index_set=31;\r\n } \r\n if(sub_ind==35)\r\n {\r\n sub_ind=34;\r\n\t\t index_set=34;\r\n }\r\n if(sub_ind==37)\r\n {\r\n sub_ind=36;\r\n\t\t index_set=36;\r\n }\r\n\t\tgran_char(&sub_ind,0,41);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=40;\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iDef_6U,0,0,0);\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\t }\t\r\n\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\t\t\t\t \r\n else if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iStr_TELECORE2015,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n \t\t }\r\n\t\t}\t\r\n\t\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t if(but==butR)MNEMO_TIME++;\r\n\t else if(but==butR_)MNEMO_TIME+=10;\r\n\t else if(but==butL)MNEMO_TIME--;\r\n\t else if(but==butL_)MNEMO_TIME-=10;\r\n\r\n\t if(((MNEMO_TIME<5)\|\|(MNEMO_TIME>60))&&(MNEMO_ON!=mnOFF))lc640_write_int(EE_MNEMO_ON,mnOFF);\t\r\n\t if(((MNEMO_TIME>=5)&&(MNEMO_TIME<=60))&&(MNEMO_ON!=mnON))lc640_write_int(EE_MNEMO_ON,mnON);\r\n\t gran((signed short)&MNEMO_TIME,4,61);\r\n\t lc640_write_int(EE_MNEMO_TIME,MNEMO_TIME);\r\n\t speed=1;\r\n\t }\r\n\t\t\t\t \t\t\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t lc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t lc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iApv,0,0,0);\r\n\t ret(1000);\r\n\t }\r\n\t }\t\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t if(but==butR)TBAT++;\r\n\t else if(but==butR_)TBAT+=10;\r\n\t else if(but==butL)TBAT--;\r\n\t else if(but==butL_)TBAT-=10;\r\n\t gran(&TBAT,5,60);\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\t\r\n\t \t \t\r\n\telse if(sub_ind==12)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\t\t#ifdef UKU_220\r\n\t\tgran(&UMAX,2000,3000);\r\n\t\t#else\r\n\t gran(&UMAX,10,3000);\r\n\t\t#endif\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butL)DU++;\r\n\t else if(but==butL_)DU+=10;\r\n\t else if(but==butR)DU--;\r\n\t else if(but==butR_)DU-=10;\r\n\t gran(&DU,50,UB20-250);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butR)UB0++;\r\n\t else if(but==butR_)UB0+=10;\r\n\t else if(but==butL)UB0--;\r\n\t else if(but==butL_)UB0-=10;\r\n\t\tgran(&UB0,150,800);\r\n lc640_write_int(EE_UB0,UB0);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)UB20++;\r\n\t else if(but==butR_)UB20+=10;\r\n\t else if(but==butL)UB20--;\r\n\t else if(but==butL_)UB20-=10;\r\n\t\tgran(&UB20,150,800);\r\n\t lc640_write_int(EE_UB20,UB20);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t\tgran(&USIGN,15,100);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,220);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==18)\r\n\t {\r\n\t if(but==butR)U0B++;\r\n\t else if(but==butR_)U0B+=10;\r\n\t else if(but==butL)U0B--;\r\n\t else if(but==butL_)U0B-=10;\r\n\t\tgran(&U0B,150,800);\r\n\t lc640_write_int(EE_U0B,U0B);\r\n\t speed=1;\r\n\t }\t\r\n\t \r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }\t\t\r\n \r\n\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t\tgran(&IZMAX,10,1500);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t } \r\n\r\n\telse if(sub_ind==21)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t\tgran(&IMAX,10,1000);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==22)\r\n\t {\r\n\t if(but==butR)IMIN++;\r\n\t else if(but==butR_)IMIN+=10;\r\n\t else if(but==butL)IMIN--;\r\n\t else if(but==butL_)IMIN-=10;\r\n\t gran(&IMIN,40,IMAX-10);\r\n\t lc640_write_int(EE_IMIN,IMIN);\r\n\t speed=1;\r\n\t }\r\n\t\r\n\telse if(sub_ind==23)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))UVZ+=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))UVZ-=1;\r\n\t\tgran(&UVZ,UB20,UMAX); \t \r\n\t\tlc640_write_int(EE_UVZ,UVZ);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==24)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,10);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}\t\r\n\t\t\t \t \r\n\telse if(sub_ind==25)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==26)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==27)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==28)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }\r\n\t\t\t\r\n \telse if(sub_ind==29)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\ttree_up(iKlimat_TELECORE,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\t\t \r\n \telse if(sub_ind==30)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\ttree_up(iExt_set_TELECORE2015,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n \telse if(sub_ind==31)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iLan_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n\telse if(sub_ind==32)\r\n\t {\r\n\t if(but==butR)AUSW_MAIN_NUMBER++;\r\n\t else if(but==butR_)AUSW_MAIN_NUMBER+=20;\r\n\t else if(but==butL)AUSW_MAIN_NUMBER--;\r\n\t else if(but==butL_)AUSW_MAIN_NUMBER-=20;\r\n\t\telse if(but==butEL_)AUSW_MAIN_NUMBER=15000;\r\n\t\tif(AUSW_MAIN_NUMBER<13000)AUSW_MAIN_NUMBER=100000;\r\n\t\tif(AUSW_MAIN_NUMBER>100000)AUSW_MAIN_NUMBER=13000;\r\n\t lc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(AUSW_MAIN_NUMBER&0x0000ffffUL));\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((AUSW_MAIN_NUMBER&0xffff0000UL)>>16UL));\r\n\t speed=1;\r\n\t } \t\t\r\n \telse if(sub_ind==33)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_bat_sel,BAT_TYPE,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n \telse if(sub_ind==34)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_li_bat,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n/\telse if(sub_ind==34)\r\n\t {\r\n\t if(but==butR)DU_LI_BAT++;\r\n\t else if(but==butR_)DU_LI_BAT++;\r\n\t else if(but==butL)DU_LI_BAT--;\r\n\t else if(but==butL_)DU_LI_BAT--;\r\n\t gran(&DU_LI_BAT,1,30);\r\n\t lc640_write_int(EE_DU_LI_BAT,DU_LI_BAT);\r\n\t speed=1;\r\n\t } /\r\n\r\n \telse if(sub_ind==36)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\tif(NUMINV)\r\n\t\t\t\t{\r\n\t\t \ttree_up(iInv_set_sel,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t }\r\n\t\t}\r\n \telse if(sub_ind==37)\r\n\t \t{\r\n\t if(but==butR)FORVARDBPSCHHOUR++;\r\n\t else if(but==butR_)FORVARDBPSCHHOUR+=2;\r\n\t else if(but==butL)FORVARDBPSCHHOUR--;\r\n\t else if(but==butL_)FORVARDBPSCHHOUR-=2;\r\n\t gran(&FORVARDBPSCHHOUR,0,500);\r\n\t lc640_write_int(EE_FORVARDBPSCHHOUR,FORVARDBPSCHHOUR);\r\n\t numOfForvardBps_init();\r\n\t\tspeed=1;\r\n\t }\r\n \telse if(sub_ind==39)\r\n\t \t{\r\n\t if(but==butR)CNTRL_HNDL_TIME++;\r\n\t else if(but==butL)CNTRL_HNDL_TIME--;\r\n\t gran(&CNTRL_HNDL_TIME,1,10);\r\n\t lc640_write_int(EE_CNTRL_HNDL_TIME,CNTRL_HNDL_TIME);\r\n\t }\r\n else if((sub_ind==40) \|\| (sub_ind==3))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(sub_ind==41)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n }\r\n#ifdef UKU_TELECORE2017\r\nelse if(ind==iSet_TELECORE2017)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tindex_set=4;\r\n\t\t\t}\r\n\t\tif(sub_ind==6)\r\n\t\t\t{\r\n\t\t\tsub_ind=7;\r\n\t\t\t//index_set=6;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tindex_set=8;\r\n\t\t\t}\r\n\t\t//if(sub_ind==7)sub_ind=8;\r\n\t\tif(sub_ind==10)\r\n\t\t\t{\r\n\t\t\tsub_ind=11;\r\n\t\t\tindex_set=9;\r\n\t\t\t}\r\n\t\t//if(sub_ind==11)sub_ind=12;\r\n \r\n\t\tif(sub_ind==29)\r\n {\r\n\t\t\t sub_ind=30;\r\n index_set=29;\r\n }\r\n\r\n\t\tif(sub_ind==27)\r\n {\r\n\t\t\t sub_ind=28;\r\n index_set=27;\r\n }\r\n\r\n /* if(sub_ind==27)\r\n {\r\n sub_ind=28;\r\n \r\n }/\r\n\t\tif(sub_ind==26)\r\n {\r\n index_set=25;\r\n }\r\n\t\tif(sub_ind==27)\r\n {\r\n sub_ind=28;\r\n \r\n }\r\n\t\tif(sub_ind==31)\r\n {\r\n \t\tsub_ind=32;\r\n }\r\n \t/ if(sub_ind==35)\r\n {\r\n sub_ind=36;\r\n \r\n }\r\n\t\tif(sub_ind==37)\r\n {\r\n \t\tindex_set=36;\r\n }\r\n if(sub_ind==38)\r\n {\r\n sub_ind=39;\r\n \r\n }/\r\n\t\t\r\n\t\tgran_char(&sub_ind,0,33);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==6)\r\n\t\t\t{\r\n\t\t\tsub_ind=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==10)\r\n\t\t\t{\r\n\t\t\tsub_ind=9;\r\n\t\t\t//index_set=8;\r\n\t\t\t}\r\n if(sub_ind==27)\r\n {\r\n sub_ind=26;\r\n\t\t index_set=27;\r\n } \r\n if(sub_ind==29)\r\n {\r\n sub_ind=28;\r\n\t\t index_set=29;\r\n } \r\n if(sub_ind==31)\r\n {\r\n sub_ind=30;\r\n\t\t index_set=30;\r\n }\r\n / if(sub_ind==37)\r\n {\r\n sub_ind=36;\r\n\t\t index_set=36;\r\n } /\r\n\t\tgran_char(&sub_ind,0,33);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=30;\r\n\t\t}\r\n\telse if(but==butU_)\r\n\t\t{\r\n\t\tsub_ind=0;\r\n\t\t}\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iDef_6U,0,0,0);\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\t }\t\r\n\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\t\t\t\t \r\n else if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iStr_TELECORE2015,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n \t\t }\r\n\t\t}\t\r\n\t\r\n/\telse if(sub_ind==4)\r\n\t {\r\n\t if(but==butR)MNEMO_TIME++;\r\n\t else if(but==butR_)MNEMO_TIME+=10;\r\n\t else if(but==butL)MNEMO_TIME--;\r\n\t else if(but==butL_)MNEMO_TIME-=10;\r\n\r\n\t if(((MNEMO_TIME<5)\|\|(MNEMO_TIME>60))&&(MNEMO_ON!=mnOFF))lc640_write_int(EE_MNEMO_ON,mnOFF);\t\r\n\t if(((MNEMO_TIME>=5)&&(MNEMO_TIME<=60))&&(MNEMO_ON!=mnON))lc640_write_int(EE_MNEMO_ON,mnON);\r\n\t gran((signed short)&MNEMO_TIME,4,61);\r\n\t lc640_write_int(EE_MNEMO_TIME,MNEMO_TIME);\r\n\t speed=1;\r\n\t }\t /\r\n\t\t\t\t \t\t\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t lc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t lc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==7)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iApv,0,0,0);\r\n\t ret(1000);\r\n\t }\r\n\t }\t\r\n\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n\r\n/\telse if(sub_ind==9)\r\n\t {\r\n\t if(but==butR)TBAT++;\r\n\t else if(but==butR_)TBAT+=10;\r\n\t else if(but==butL)TBAT--;\r\n\t else if(but==butL_)TBAT-=10;\r\n\t gran(&TBAT,5,60);\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }/\t\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t if(but==butR)\r\n\t\t\t{\r\n\t\t\tTBAT++;\r\n\t\t\tif(TBAT<0)TBAT=0;\r\n\t\t\telse if((TBAT>0)&&(TBAT<=5))TBAT=5;\r\n\t\t\telse if(TBAT>=60)TBAT=60;\r\n\t\t\t}\r\n\t else if(but==butR_)\r\n\t\t\t{\r\n\t\t\tTBAT+=10;\r\n\t\t\tif(TBAT<0)TBAT=0;\r\n\t\t\telse if((TBAT>0)&&(TBAT<=5))TBAT=5;\r\n\t\t\telse if(TBAT>=60)TBAT=60;\r\n\t\t\t}\r\n\t else if(but==butL)\r\n\t\t\t{\r\n\t\t\tTBAT--;\r\n\t\t\tif(TBAT<0)TBAT=0;\r\n\t\t\telse if((TBAT>0)&&(TBAT<=5))TBAT=0;\r\n\t\t\telse if(TBAT>=60)TBAT=60;\r\n\t\t\t}\r\n\t else if(but==butL_)\r\n\t\t\t{\r\n\t\t\tTBAT-=10;\r\n\t\t\tif(TBAT<0)TBAT=0;\r\n\t\t\telse if((TBAT>0)&&(TBAT<=5))TBAT=0;\r\n\t\t\telse if(TBAT>=60)TBAT=60;\r\n\t\t\t}\r\n\t //gran(&TBAT,5,60);\r\n\t\t//if(TBAT>=60)TBAT=60;\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\t\r\n\t\t \t \t \t\r\n\telse if(sub_ind==11)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\t gran(&UMAX,10,3000);\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==12)\r\n\t {\r\n\t if(but==butL)DU++;\r\n\t else if(but==butL_)DU+=10;\r\n\t else if(but==butR)DU--;\r\n\t else if(but==butR_)DU-=10;\r\n\t gran(&DU,50,UMAX-250);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n/\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butR)ULAUNCH++;\r\n\t else if(but==butR_)ULAUNCH+=10;\r\n\t else if(but==butL)ULAUNCH--;\r\n\t else if(but==butL_)ULAUNCH-=10;\r\n\t\tgran(&ULAUNCH,420,540);\r\n lc640_write_int(EE_UB0,ULAUNCH);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butR)ULINECC++;\r\n\t else if(but==butR_)ULINECC+=10;\r\n\t else if(but==butL)ULINECC--;\r\n\t else if(but==butL_)ULINECC-=10;\r\n\t\tgran(&ULINECC,420,540);\r\n\t lc640_write_int(EE_UB20,ULINECC);\r\n\t speed=1;\r\n\t }/\t\r\n\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t\tgran(&USIGN,15,100);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,220);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n/\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)U0B++;\r\n\t else if(but==butR_)U0B+=10;\r\n\t else if(but==butL)U0B--;\r\n\t else if(but==butL_)U0B-=10;\r\n\t\tgran(&U0B,150,800);\r\n\t lc640_write_int(EE_U0B,U0B);\r\n\t speed=1;\r\n\t }/\t\r\n\t \r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }\t\t\r\n \r\n/\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t\tgran(&IZMAX,10,1500);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t } \r\n /\r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t\tgran(&IMAX,10,1000);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)IMIN++;\r\n\t else if(but==butR_)IMIN+=10;\r\n\t else if(but==butL)IMIN--;\r\n\t else if(but==butL_)IMIN-=10;\r\n\t gran(&IMIN,40,IMAX-10);\r\n\t lc640_write_int(EE_IMIN,IMIN);\r\n\t speed=1;\r\n\t }\r\n\t\r\n/\telse if(sub_ind==18)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))UVZ+=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))UVZ-=1;\r\n\t\tgran(&UVZ,UB20,UMAX); \t \r\n\t\tlc640_write_int(EE_UVZ,UVZ);\r\n\t speed=1;\r\n\t }/\r\n\telse if(sub_ind==18)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,10);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}\t \r\n\t\t\t \t \r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t \r\n/\telse if(sub_ind==21)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==22)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }/\r\n\t\t\t\r\n \telse if(sub_ind==21)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\ttree_up(iKlimat_TELECORE,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\t\t \r\n \telse if(sub_ind==22)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\ttree_up(iExt_set_TELECORE2015,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n \telse if(sub_ind==23)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iLan_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n\telse if(sub_ind==24)\r\n\t {\r\n\t if(but==butR)AUSW_MAIN_NUMBER++;\r\n\t else if(but==butR_)AUSW_MAIN_NUMBER+=20;\r\n\t else if(but==butL)AUSW_MAIN_NUMBER--;\r\n\t else if(but==butL_)AUSW_MAIN_NUMBER-=20;\r\n\t\telse if(but==butEL_)AUSW_MAIN_NUMBER=15000;\r\n\t\tif(AUSW_MAIN_NUMBER<13000)AUSW_MAIN_NUMBER=100000;\r\n\t\tif(AUSW_MAIN_NUMBER>100000)AUSW_MAIN_NUMBER=13000;\r\n\t lc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(AUSW_MAIN_NUMBER&0x0000ffffUL));\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((AUSW_MAIN_NUMBER&0xffff0000UL)>>16UL));\r\n\t speed=1;\r\n\t } \t\t\r\n \telse if(sub_ind==25)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_bat_sel,BAT_TYPE,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n \telse if(sub_ind==26)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_li_bat,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n/\telse if(sub_ind==34)\r\n\t {\r\n\t if(but==butR)DU_LI_BAT++;\r\n\t else if(but==butR_)DU_LI_BAT++;\r\n\t else if(but==butL)DU_LI_BAT--;\r\n\t else if(but==butL_)DU_LI_BAT--;\r\n\t gran(&DU_LI_BAT,1,30);\r\n\t lc640_write_int(EE_DU_LI_BAT,DU_LI_BAT);\r\n\t speed=1;\r\n\t } /\r\n\r\n /* \telse if(sub_ind==36)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\tif(NUMINV)\r\n\t\t\t\t{\r\n\t\t \ttree_up(iInv_set_sel,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t }\r\n\t\t} /\r\n \telse if(sub_ind==28)\r\n\t \t{\r\n\t if(but==butR)FORVARDBPSCHHOUR++;\r\n\t else if(but==butR_)FORVARDBPSCHHOUR+=2;\r\n\t else if(but==butL)FORVARDBPSCHHOUR--;\r\n\t else if(but==butL_)FORVARDBPSCHHOUR-=2;\r\n\t gran(&FORVARDBPSCHHOUR,0,500);\r\n\t lc640_write_int(EE_FORVARDBPSCHHOUR,FORVARDBPSCHHOUR);\r\n\t numOfForvardBps_init();\r\n\t\tspeed=1;\r\n\t }\r\n\r\n \telse if(sub_ind==30)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_load_off,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n / \telse if(sub_ind==37)\r\n\t \t{\r\n\t if(but==butR)CNTRL_HNDL_TIME++;\r\n\t else if(but==butL)CNTRL_HNDL_TIME--;\r\n\t gran(&CNTRL_HNDL_TIME,1,10);\r\n\t lc640_write_int(EE_CNTRL_HNDL_TIME,CNTRL_HNDL_TIME);\r\n\t }/\r\n else if((sub_ind==32) \|\| (sub_ind==3))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(sub_ind==33)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n }\r\n#endif\r\n\r\nelse if((ind==iSet_220))\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==6)index_set=5;\r\n\t\tif(sub_ind==7)sub_ind=8;\r\n\t\tif(sub_ind==10)index_set=9;\r\n\t\tif(sub_ind==11)sub_ind=12;\r\n if(sub_ind==31)\r\n {\r\n index_set=30;\r\n }\r\n\t\tif(sub_ind==32)index_set=31;\r\n if(sub_ind==33)\r\n {\r\n sub_ind=34;\r\n \r\n }\r\n if(sub_ind==36)\r\n {\r\n sub_ind=37;\r\n \r\n }\r\n\t\t\r\n\t\tgran_char(&sub_ind,0,38);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==7)sub_ind=6;\r\n\t\tif(sub_ind==11)sub_ind=8;\r\n if(sub_ind==33)\r\n {\r\n sub_ind=32;\r\n\t\t \r\n }\r\n if(sub_ind==36)\r\n {\r\n sub_ind=35;\r\n\t\t \r\n }\r\n\t\tgran_char(&sub_ind,0,38);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=37;\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iDef_220,0,0,0);\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\t }\t\r\n\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\t\t\t\t \r\n else if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iStr_6U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n \t\t }\r\n\t\t}\t\r\n\t\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t if(but==butR)MNEMO_TIME++;\r\n\t else if(but==butR_)MNEMO_TIME+=10;\r\n\t else if(but==butL)MNEMO_TIME--;\r\n\t else if(but==butL_)MNEMO_TIME-=10;\r\n\r\n\t if(((MNEMO_TIME<5)\|\|(MNEMO_TIME>60))&&(MNEMO_ON!=mnOFF))lc640_write_int(EE_MNEMO_ON,mnOFF);\t\r\n\t if(((MNEMO_TIME>=5)&&(MNEMO_TIME<=60))&&(MNEMO_ON!=mnON))lc640_write_int(EE_MNEMO_ON,mnON);\r\n\t gran((signed short)&MNEMO_TIME,4,61);\r\n\t lc640_write_int(EE_MNEMO_TIME,MNEMO_TIME);\r\n\t speed=1;\r\n\t }\r\n\t\t\t\t \t\t\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t lc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t lc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iApv,0,0,0);\r\n\t ret(1000);\r\n\t }\r\n\t }\t\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t if(but==butR)TBAT++;\r\n\t else if(but==butR_)TBAT+=10;\r\n\t else if(but==butL)TBAT--;\r\n\t else if(but==butL_)TBAT-=10;\r\n\t gran(&TBAT,5,60);\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\t\r\n\t \t \t\r\n\telse if(sub_ind==12)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\r\n\t gran(&UMAX,100,6000);\r\n\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butL)DU++;\r\n\t else if(but==butL_)DU+=10;\r\n\t else if(but==butR)DU--;\r\n\t else if(but==butR_)DU-=10;\r\n\t gran(&DU,50,UB20-250);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butR)UB0++;\r\n\t else if(but==butR_)UB0+=10;\r\n\t else if(but==butL)UB0--;\r\n\t else if(but==butL_)UB0-=10;\r\n\t\tgran(&UB0,800,3000);\r\n lc640_write_int(EE_UB0,UB0);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)UB20++;\r\n\t else if(but==butR_)UB20+=10;\r\n\t else if(but==butL)UB20--;\r\n\t else if(but==butL_)UB20-=10;\r\n\t\tgran(&UB20,800,3000);\r\n\t lc640_write_int(EE_UB20,UB20);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t\tgran(&USIGN,80,300);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,220);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==18)\r\n\t {\r\n\t if(but==butR)U0B++;\r\n\t else if(but==butR_)U0B+=10;\r\n\t else if(but==butL)U0B--;\r\n\t else if(but==butL_)U0B-=10;\r\n\t\tgran(&U0B,800,3000);\r\n\t lc640_write_int(EE_U0B,U0B);\r\n\t speed=1;\r\n\t }\t\r\n\t \r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }\t\t\r\n \r\n\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t\tgran(&IZMAX,10,1000);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t } \r\n\r\n\telse if(sub_ind==21)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t\tgran(&IMAX,10,1000);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==22)\r\n\t {\r\n\t if(but==butR)IMIN++;\r\n\t else if(but==butR_)IMIN+=10;\r\n\t else if(but==butL)IMIN--;\r\n\t else if(but==butL_)IMIN-=10;\r\n\t gran(&IMIN,40,IMAX-10);\r\n\t lc640_write_int(EE_IMIN,IMIN);\r\n\t speed=1;\r\n\t }\r\n\t\r\n\telse if(sub_ind==23)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))UVZ+=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))UVZ-=1;\r\n\t\tgran(&UVZ,UB20,UMAX); \t \r\n\t\tlc640_write_int(EE_UVZ,UVZ);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==24)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,3);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}\t\r\n\t\t\t \t \r\n\telse if(sub_ind==25)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==26)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==27)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==28)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }\t\r\n \t \t \t\t \t \r\n \telse if(sub_ind==29)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iExt_set_3U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n \telse if(sub_ind==30)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iLan_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n\telse if(sub_ind==31)\r\n\t {\r\n\t if(but==butR)AUSW_MAIN_NUMBER++;\r\n\t else if(but==butR_)AUSW_MAIN_NUMBER+=20;\r\n\t else if(but==butL)AUSW_MAIN_NUMBER--;\r\n\t else if(but==butL_)AUSW_MAIN_NUMBER-=20;\r\n\t\telse if(but==butEL_)AUSW_MAIN_NUMBER=15000;\r\n\t\tif(AUSW_MAIN_NUMBER<13000)AUSW_MAIN_NUMBER=100000;\r\n\t\tif(AUSW_MAIN_NUMBER>100000)AUSW_MAIN_NUMBER=13000;\r\n\t lc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(AUSW_MAIN_NUMBER&0x0000ffffUL));\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((AUSW_MAIN_NUMBER&0xffff0000UL)>>16UL));\r\n\t speed=1;\r\n\t } \t\t\r\n\r\n\telse if(sub_ind==32)\r\n\t {\r\n\t if(but==butR)UBM_AV++;\r\n\t else if(but==butR_)UBM_AV++;\r\n\t else if(but==butL)UBM_AV--;\r\n\t else if(but==butL_)UBM_AV--;\r\n\t gran(&UBM_AV,0,50);\r\n\t lc640_write_int(EE_UBM_AV,UBM_AV);\r\n\t speed=1;\r\n\t }\r\n\r\n else if(sub_ind==34)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tMODBUS_ADRESS++;\r\n\t \tgran(&MODBUS_ADRESS,1,100);\r\n\t \tlc640_write_int(EE_MODBUS_ADRESS,MODBUS_ADRESS);\r\n\t\t\tspeed=1;\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tMODBUS_ADRESS--;\r\n\t \tgran(&MODBUS_ADRESS,1,100);\r\n\t \tlc640_write_int(EE_MODBUS_ADRESS,MODBUS_ADRESS);\r\n\t\t\tspeed=1;\r\n\t \t}\r\n }\r\n else if(sub_ind==35)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t\t\tif(MODBUS_BAUDRATE==120)MODBUS_BAUDRATE=240;\r\n\t\t\telse if(MODBUS_BAUDRATE==240)MODBUS_BAUDRATE=480;\r\n\t \telse if(MODBUS_BAUDRATE==480)MODBUS_BAUDRATE=960;\r\n\t\t\telse if(MODBUS_BAUDRATE==960)MODBUS_BAUDRATE=1920;\r\n\t\t\telse if(MODBUS_BAUDRATE==1920)MODBUS_BAUDRATE=3840;\r\n\t\t\telse if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=5760;\r\n\t\t\t//else if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=5760;\r\n\t\t\telse if(MODBUS_BAUDRATE==5760)MODBUS_BAUDRATE=11520;\r\n\t\t\telse MODBUS_BAUDRATE=120;\r\n\t \tgran(&MODBUS_BAUDRATE,120,11520);\r\n\t \tlc640_write_int(EE_MODBUS_BAUDRATE,MODBUS_BAUDRATE);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t\t\tif(MODBUS_BAUDRATE==120)MODBUS_BAUDRATE=11520;\r\n\t\t\telse if(MODBUS_BAUDRATE==240)MODBUS_BAUDRATE=120;\r\n\t \telse if(MODBUS_BAUDRATE==480)MODBUS_BAUDRATE=240;\r\n\t\t\telse if(MODBUS_BAUDRATE==960)MODBUS_BAUDRATE=480;\r\n\t\t\telse if(MODBUS_BAUDRATE==1920)MODBUS_BAUDRATE=960;\r\n\t\t\telse if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=1920;\r\n\t\t\t//else if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=3840;\r\n\t\t\telse if(MODBUS_BAUDRATE==5760)MODBUS_BAUDRATE=3840;\r\n\t\t\telse MODBUS_BAUDRATE=11520;\r\n\t \tgran(&MODBUS_BAUDRATE,120,11520);\r\n\t \tlc640_write_int(EE_MODBUS_BAUDRATE,MODBUS_BAUDRATE);\r\n\t \t}\r\n }\r\n \r\n else if((sub_ind==37) \|\| (sub_ind==3))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(sub_ind==38)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n }\r\nelse if((ind==iSet_220_V2))\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==6)index_set=5;\r\n\t\tif(sub_ind==7)sub_ind=8;\r\n\t\tif(sub_ind==10)index_set=9;\r\n\t\tif(sub_ind==11)sub_ind=12;\r\n if(sub_ind==31)\r\n {\r\n index_set=30;\r\n }\r\n\t\tif(sub_ind==32)index_set=31;\r\n\t\tif(sub_ind==33)index_set=32;\r\n if(sub_ind==35)\r\n {\r\n sub_ind=36;\r\n \r\n } \r\n\t\t\r\n\t\tgran_char(&sub_ind,0,37);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==7)sub_ind=6;\r\n\t\tif(sub_ind==11)sub_ind=8;\r\n if(sub_ind==35)\r\n {\r\n sub_ind=34;\r\n\t\t \r\n } \r\n\t\tgran_char(&sub_ind,0,37);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=36;\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iDef_220_V2,0,0,0);\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\t }\t\r\n\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\t\t\t\t \r\n else if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iStr_6U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n \t\t }\r\n\t\t}\t\r\n\t\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t if(but==butR)MNEMO_TIME++;\r\n\t else if(but==butR_)MNEMO_TIME+=10;\r\n\t else if(but==butL)MNEMO_TIME--;\r\n\t else if(but==butL_)MNEMO_TIME-=10;\r\n\r\n\t if(((MNEMO_TIME<5)\|\|(MNEMO_TIME>60))&&(MNEMO_ON!=mnOFF))lc640_write_int(EE_MNEMO_ON,mnOFF);\t\r\n\t if(((MNEMO_TIME>=5)&&(MNEMO_TIME<=60))&&(MNEMO_ON!=mnON))lc640_write_int(EE_MNEMO_ON,mnON);\r\n\t gran((signed short)&MNEMO_TIME,4,61);\r\n\t lc640_write_int(EE_MNEMO_TIME,MNEMO_TIME);\r\n\t speed=1;\r\n\t }\r\n\t\t\t\t \t\t\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t lc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t lc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iApv,0,0,0);\r\n\t ret(1000);\r\n\t }\r\n\t }\t\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t if(but==butR)TBAT++;\r\n\t else if(but==butR_)TBAT+=10;\r\n\t else if(but==butL)TBAT--;\r\n\t else if(but==butL_)TBAT-=10;\r\n\t gran(&TBAT,5,60);\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\t\r\n\t \t \t\r\n\telse if(sub_ind==12)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\r\n\t gran(&UMAX,100,3000);\r\n\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butL)DU++;\r\n\t else if(but==butL_)DU+=10;\r\n\t else if(but==butR)DU--;\r\n\t else if(but==butR_)DU-=10;\r\n\t gran(&DU,50,UB20-250);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butR)UB0++;\r\n\t else if(but==butR_)UB0+=10;\r\n\t else if(but==butL)UB0--;\r\n\t else if(but==butL_)UB0-=10;\r\n\t\tgran(&UB0,800,3000);\r\n lc640_write_int(EE_UB0,UB0);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)UB20++;\r\n\t else if(but==butR_)UB20+=10;\r\n\t else if(but==butL)UB20--;\r\n\t else if(but==butL_)UB20-=10;\r\n\t\tgran(&UB20,800,3000);\r\n\t lc640_write_int(EE_UB20,UB20);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t\tgran(&USIGN,80,300);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,220);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==18)\r\n\t {\r\n\t if(but==butR)U0B++;\r\n\t else if(but==butR_)U0B+=10;\r\n\t else if(but==butL)U0B--;\r\n\t else if(but==butL_)U0B-=10;\r\n\t\tgran(&U0B,800,3000);\r\n\t lc640_write_int(EE_U0B,U0B);\r\n\t speed=1;\r\n\t }\t\r\n\t \r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }\t\t\r\n \r\n\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t\tgran(&IZMAX,10,1000);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t } \r\n\r\n\telse if(sub_ind==21)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t\tgran(&IMAX,10,1000);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==22)\r\n\t {\r\n\t if(but==butR)IMIN++;\r\n\t else if(but==butR_)IMIN+=10;\r\n\t else if(but==butL)IMIN--;\r\n\t else if(but==butL_)IMIN-=10;\r\n\t gran(&IMIN,40,IMAX-10);\r\n\t lc640_write_int(EE_IMIN,IMIN);\r\n\t speed=1;\r\n\t }\r\n\t\r\n\telse if(sub_ind==23)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))UVZ+=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))UVZ-=1;\r\n\t\tgran(&UVZ,UB20,UMAX); \t \r\n\t\tlc640_write_int(EE_UVZ,UVZ);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==24)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,3);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}\t\r\n\t\t\t \t \r\n\telse if(sub_ind==25)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==26)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==27)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==28)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }\t\r\n \t \t \t\t \t \r\n \telse if(sub_ind==29)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iExt_set_3U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n \telse if(sub_ind==30)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iLan_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n \telse if(sub_ind==31)\r\n\t\t{\r\n\t\tif(but==butE) \r\n\t\t {\r\n\t\t tree_up(iSpch_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t} \r\n\r\n\telse if(sub_ind==32)\r\n\t {\r\n\t if(but==butR)AUSW_MAIN_NUMBER++;\r\n\t else if(but==butR_)AUSW_MAIN_NUMBER+=20;\r\n\t else if(but==butL)AUSW_MAIN_NUMBER--;\r\n\t else if(but==butL_)AUSW_MAIN_NUMBER-=20;\r\n\t\telse if(but==butEL_)AUSW_MAIN_NUMBER=15000;\r\n\t\tif(AUSW_MAIN_NUMBER<13000)AUSW_MAIN_NUMBER=100000;\r\n\t\tif(AUSW_MAIN_NUMBER>100000)AUSW_MAIN_NUMBER=13000;\r\n\t lc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(AUSW_MAIN_NUMBER&0x0000ffffUL));\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((AUSW_MAIN_NUMBER&0xffff0000UL)>>16UL));\r\n\t speed=1;\r\n\t } \t\t\r\n\r\n else if(sub_ind==33)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tMODBUS_ADRESS++;\r\n\t \tgran(&MODBUS_ADRESS,1,100);\r\n\t \tlc640_write_int(EE_MODBUS_ADRESS,MODBUS_ADRESS);\r\n\t\t\tspeed=1;\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tMODBUS_ADRESS--;\r\n\t \tgran(&MODBUS_ADRESS,1,100);\r\n\t \tlc640_write_int(EE_MODBUS_ADRESS,MODBUS_ADRESS);\r\n\t\t\tspeed=1;\r\n\t \t}\r\n }\r\n else if(sub_ind==34)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t\t\tif(MODBUS_BAUDRATE==120)MODBUS_BAUDRATE=240;\r\n\t\t\telse if(MODBUS_BAUDRATE==240)MODBUS_BAUDRATE=480;\r\n\t \telse if(MODBUS_BAUDRATE==480)MODBUS_BAUDRATE=960;\r\n\t\t\telse if(MODBUS_BAUDRATE==960)MODBUS_BAUDRATE=1920;\r\n\t\t\telse if(MODBUS_BAUDRATE==1920)MODBUS_BAUDRATE=3840;\r\n\t\t\telse if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=5760;\r\n\t\t\t//else if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=5760;\r\n\t\t\telse if(MODBUS_BAUDRATE==5760)MODBUS_BAUDRATE=11520;\r\n\t\t\telse MODBUS_BAUDRATE=120;\r\n\t \tgran(&MODBUS_BAUDRATE,120,11520);\r\n\t \tlc640_write_int(EE_MODBUS_BAUDRATE,MODBUS_BAUDRATE);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t\t\tif(MODBUS_BAUDRATE==120)MODBUS_BAUDRATE=11520;\r\n\t\t\telse if(MODBUS_BAUDRATE==240)MODBUS_BAUDRATE=120;\r\n\t \telse if(MODBUS_BAUDRATE==480)MODBUS_BAUDRATE=240;\r\n\t\t\telse if(MODBUS_BAUDRATE==960)MODBUS_BAUDRATE=480;\r\n\t\t\telse if(MODBUS_BAUDRATE==1920)MODBUS_BAUDRATE=960;\r\n\t\t\telse if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=1920;\r\n\t\t\t//else if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=3840;\r\n\t\t\telse if(MODBUS_BAUDRATE==5760)MODBUS_BAUDRATE=3840;\r\n\t\t\telse MODBUS_BAUDRATE=11520;\r\n\t \tgran(&MODBUS_BAUDRATE,120,11520);\r\n\t \tlc640_write_int(EE_MODBUS_BAUDRATE,MODBUS_BAUDRATE);\r\n\t \t}\r\n }\r\n \r\n else if((sub_ind==36) \|\| (sub_ind==3))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(sub_ind==37)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n }\r\nelse if(ind==iSet_220_IPS_TERMOKOMPENSAT)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}\r\n\t\tif(sub_ind==8)index_set=7;\r\n\t\tif(sub_ind==9)sub_ind=10;\r\n\t\tif(sub_ind==21)index_set=20;\r\n\t\tif(sub_ind==22)sub_ind=23;\r\n\t\tif(sub_ind==24)index_set=23;\r\n\t\tif(sub_ind==25)sub_ind=26;\r\n\t\tif(sub_ind==26)index_set=25;\r\n\t\tif(sub_ind==27)sub_ind=28;\r\n\t\tif(sub_ind==32)index_set=31;\r\n\t\tif(sub_ind==33)sub_ind=34;\r\n\t\tif(sub_ind==35)index_set=34;\r\n\t\tif(sub_ind==36)sub_ind=37;\r\n\t\tif(sub_ind==39)index_set=38;\r\n\t\tif(sub_ind==40)sub_ind=41;\r\n\t\tif(sub_ind==41)index_set=40;\r\n\t\tif(sub_ind==42)sub_ind=43;\r\n\t\tif(sub_ind==46)index_set=45;\r\n\t\tif(sub_ind==47)sub_ind=48;\r\n /if(sub_ind==37)\r\n \t{\r\n index_set=36;\r\n }\r\n\t\tif(sub_ind==38)\r\n\t\t\t{\r\n\t\t\tsub_ind=39;\r\n\t\t\t}\r\n\t\tif(sub_ind==41)\r\n\t\t\t{\r\n\t\t\tindex_set=40;\r\n\t\t\t}\r\n if(sub_ind==42)\r\n \t{\r\n sub_ind=43;\r\n }\r\n if(sub_ind==43)\r\n \t{\r\n index_set=42;\r\n }\r\n if(sub_ind==44)\r\n \t{\r\n sub_ind=45;\r\n }\r\n if(sub_ind==49)\r\n \t{\r\n\t\t\tindex_set=48;\r\n \t} \r\n if(sub_ind==50)\r\n {\r\n sub_ind=51;\r\n }\r\n \tif(sub_ind==52)\r\n \t{\r\n index_set=51;\r\n }\r\n if(sub_ind==53)\r\n {\r\n sub_ind=54;\r\n }\r\n if(sub_ind==57)\r\n \t{\r\n sub_ind=58;\r\n\t\t }\r\n if(sub_ind==59)\r\n \t{\r\n sub_ind=60;\r\n\t\t }\r\n if(sub_ind==63)\r\n \t{\r\n\t\t\tindex_set=62;\r\n \t}\r\n if(sub_ind==64)\r\n \t{\r\n sub_ind=65;\r\n\t\t }/\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\tgran_char(&sub_ind,0,49);\r\n\t\t//gran_char(&sub_ind,0,56+(num_rki!=0)+(num_net_in!=0));\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\t}\r\n\t\tif(sub_ind==10)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\t} \r\n if(sub_ind==22)\r\n \t{\r\n sub_ind=21;\r\n\t\t }\r\n if(sub_ind==25)\r\n \t{\r\n sub_ind=24;\r\n\t\t }\r\n if(sub_ind==27)\r\n \t{\r\n sub_ind=26;\r\n\t\t }\r\n\r\n if(sub_ind==33)\r\n \t{\r\n sub_ind=32;\r\n\t\t }\r\n if(sub_ind==36)\r\n \t{\r\n sub_ind=35;\r\n\t\t }\r\n\t\tif(sub_ind==40)sub_ind=39;\r\n\t\tif(sub_ind==42)sub_ind=41;\r\n\t\tif(sub_ind==47)sub_ind=46;\r\n / if(sub_ind==38)\r\n \t{\r\n sub_ind=37;\r\n\t\t }\r\n\r\n if(sub_ind==40)\r\n \t{\r\n sub_ind=39;\r\n\t\t }\r\n if(sub_ind==42)\r\n \t{\r\n sub_ind=41;\r\n\t\t }\r\n if(sub_ind==44)\r\n \t{\r\n sub_ind=43;\r\n\t\t }\t\r\n if(sub_ind==50)\r\n {\r\n sub_ind=49;\r\n\t\t\t}\r\n if(sub_ind==53)\r\n {\r\n sub_ind=52;\r\n\t\t\t}\r\n if(sub_ind==57)\r\n \t{\r\n sub_ind=56;\r\n\t\t }\r\n if(sub_ind==59)\r\n \t{\r\n sub_ind=58;\r\n\t\t }\r\n if(sub_ind==64)\r\n \t{\r\n sub_ind=63;\r\n\t\t }\t\t\t/\r\n\t\tgran_char(&sub_ind,0,49);\r\n\t\t//gran_char(&sub_ind,0,54+(num_rki!=0)+(num_net_in!=0));\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=49;\r\n\t\t//sub_ind=53+(num_rki!=0)+(num_net_in!=0); // oleg_start было 51\r\n\t\t}\r\n\r\n\telse if(but==butU_)\r\n\t\t{\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\r\n\telse if(but==butLR_)\r\n\t\t{\r\n\t\tlc640_write_int(EE_SPEED_CHRG_CURR,20);\r\n\t\tlc640_write_int(EE_SPEED_CHRG_VOLT,2400);\r\n\t\tlc640_write_int(EE_SPEED_CHRG_TIME,1);\r\n\t\tlc640_write_int(EE_SPEED_CHRG_D_U,50);\r\n\t\tlc640_write_int(EE_SPEED_CHRG_AVT_EN,0);\r\n\t\tlc640_write_int(EE_SPEED_CHRG_BLOCK_SRC,1);\r\n\t\tlc640_write_int(EE_SPEED_CHRG_BLOCK_LOG,1);\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER,20000);\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iDef_220_IPS_TERMOKOMPENSAT,0,0,0);\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\t }\t\r\n\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n else if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T_avt,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\t\t\t\t \r\n else if(sub_ind==4)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iStr_220_IPS_TERMOKOMPENSAT,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n \t\t }\r\n\t\t}\t\r\n\telse if(sub_ind==5)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\ttree_up(iSet_bat_point,0,0,0); \r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\t}\r\n\t\r\n\telse if(sub_ind==7)\r\n\t\t{\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t\tlc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t\tspeed=1;\r\n\t\t}\t\r\n\t\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t\tlc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t\tspeed=1;\r\n\t\t}\t\r\n\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_up(iApv,0,0,0);\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\t}\t\r\n\r\n\telse if(sub_ind==11)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n\r\n\r\n\t \t \t\r\n\telse if(sub_ind==12)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\r\n\t gran(&UMAX,10,3000);\r\n\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butL)DU++;\r\n\t else if(but==butL_)DU+=10;\r\n\t else if(but==butR)DU--;\r\n\t else if(but==butR_)DU-=10;\r\n\t gran(&DU,50,UB20-10);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n\r\n\t\r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,350);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\r\n\r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t\tgran(&IMAX,10,1000);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)IMIN++;\r\n\t else if(but==butR_)IMIN+=10;\r\n\t else if(but==butL)IMIN--;\r\n\t else if(but==butL_)IMIN-=10;\r\n\t gran(&IMIN,1,IMAX-10);\r\n\t lc640_write_int(EE_IMIN,IMIN);\r\n\t speed=1;\r\n\t }\r\n\t\r\n\r\n\t\t\t \r\n\telse if(sub_ind==17)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,3);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}\t\r\n\t\t\t\t\t \t \r\n\telse if(sub_ind==18)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t \r\n\r\n\t\r\n \t \t \t\t \t \r\n else if(sub_ind==20)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iExt_set_3U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\r\n\telse if(sub_ind==21)\r\n\t {\r\n\t\tif(but==butE) \r\n\t\t\t{\r\n\t\t tree_up(iOut_volt_contr,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\t \r\n\t }\r\n\r\n\telse if(sub_ind==23)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))TERMOKOMPENS=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))TERMOKOMPENS=0;\r\n\t\tlc640_write_int(EE_TERMOKOMP,TERMOKOMPENS);\r\n\t speed=0;\r\n\t }\r\n\r\n\r\n \telse if(sub_ind==24)\r\n\t {\r\n\t if(but==butR)FORVARDBPSCHHOUR++;\r\n\t else if(but==butR_)FORVARDBPSCHHOUR+=2;\r\n\t else if(but==butL)FORVARDBPSCHHOUR--;\r\n\t else if(but==butL_)FORVARDBPSCHHOUR-=2;\r\n\t gran(&FORVARDBPSCHHOUR,0,500);\r\n\t lc640_write_int(EE_FORVARDBPSCHHOUR,FORVARDBPSCHHOUR);\r\n\t numOfForvardBps_init();\r\n\t\tspeed=1;\r\n\t }\r\n\r\n\t\t\t\t\r\n\telse if(sub_ind==26)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iAvt_comm_set,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t} \r\n\r\n\telse if(sub_ind==28)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iDop_rele_set,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==29)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iBlok_ips_set,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==30)\r\n\t\t{\r\n\t if(but==butR)AUSW_MAIN_NUMBER++;\r\n\t else if(but==butR_)AUSW_MAIN_NUMBER+=20;\r\n\t else if(but==butL)AUSW_MAIN_NUMBER--;\r\n\t else if(but==butL_)AUSW_MAIN_NUMBER-=20;\r\n\t\telse if(but==butEL_)AUSW_MAIN_NUMBER=15000;\r\n\t\tif(AUSW_MAIN_NUMBER<20000)AUSW_MAIN_NUMBER=100000;\r\n\t\tif(AUSW_MAIN_NUMBER>100000)AUSW_MAIN_NUMBER=20000;\r\n\t lc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(AUSW_MAIN_NUMBER&0x0000ffffUL));\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((AUSW_MAIN_NUMBER&0xffff0000UL)>>16UL));\r\n\t speed=1;\r\n\t } \r\n \telse if(sub_ind==31)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tMODBUS_ADRESS++;\r\n\t \tgran(&MODBUS_ADRESS,1,100);\r\n\t \tlc640_write_int(EE_MODBUS_ADRESS,MODBUS_ADRESS);\r\n\t\t\tspeed=1;\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tMODBUS_ADRESS--;\r\n\t \tgran(&MODBUS_ADRESS,1,100);\r\n\t \tlc640_write_int(EE_MODBUS_ADRESS,MODBUS_ADRESS);\r\n\t\t\tspeed=1;\r\n\t \t}\r\n }\r\n\r\n else if(sub_ind==32)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t\t\tif(MODBUS_BAUDRATE==120)MODBUS_BAUDRATE=240;\r\n\t\t\telse if(MODBUS_BAUDRATE==240)MODBUS_BAUDRATE=480;\r\n\t \telse if(MODBUS_BAUDRATE==480)MODBUS_BAUDRATE=960;\r\n\t\t\telse if(MODBUS_BAUDRATE==960)MODBUS_BAUDRATE=1920;\r\n\t\t\telse if(MODBUS_BAUDRATE==1920)MODBUS_BAUDRATE=3840;\r\n\t\t\telse if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=5760;\r\n\t\t\t//else if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=5760;\r\n\t\t\telse if(MODBUS_BAUDRATE==5760)MODBUS_BAUDRATE=11520;\r\n\t\t\telse MODBUS_BAUDRATE=120;\r\n\t \tgran(&MODBUS_BAUDRATE,120,11520);\r\n\t \tlc640_write_int(EE_MODBUS_BAUDRATE,MODBUS_BAUDRATE);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t\t\tif(MODBUS_BAUDRATE==120)MODBUS_BAUDRATE=11520;\r\n\t\t\telse if(MODBUS_BAUDRATE==240)MODBUS_BAUDRATE=120;\r\n\t \telse if(MODBUS_BAUDRATE==480)MODBUS_BAUDRATE=240;\r\n\t\t\telse if(MODBUS_BAUDRATE==960)MODBUS_BAUDRATE=480;\r\n\t\t\telse if(MODBUS_BAUDRATE==1920)MODBUS_BAUDRATE=960;\r\n\t\t\telse if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=1920;\r\n\t\t\t//else if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=3840;\r\n\t\t\telse if(MODBUS_BAUDRATE==5760)MODBUS_BAUDRATE=3840;\r\n\t\t\telse MODBUS_BAUDRATE=11520;\r\n\t \tgran(&MODBUS_BAUDRATE,120,11520);\r\n\t \tlc640_write_int(EE_MODBUS_BAUDRATE,MODBUS_BAUDRATE);\r\n\t \t}\r\n }\r\n \telse if(sub_ind==34)\r\n\t\t{\r\n\t\tif(but==butE) \r\n\t\t {\r\n\t\t tree_up(iLan_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\telse if(sub_ind==35)\r\n\t\t{\r\n\t if(but==butR)\t\tTVENTMAX=((TVENTMAX/100)+1)100;\r\n\t else if(but==butR_)\tTVENTMAX=((TVENTMAX/100)+1)100;\r\n\t else if(but==butL)\tTVENTMAX=((TVENTMAX/100)-1)100;\r\n\t else if(but==butL_)\tTVENTMAX=((TVENTMAX/100)-1)100;\r\n\t\t//else if(but==butE_)\tTVENTMAX=1500;\r\n\t\tgran(&TVENTMAX,1,6000);\r\n\t\tif(but==butE_)\tTVENTMAX=0;\r\n\t\tlc640_write_int(EE_TVENTMAX,TVENTMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==37)\r\n\t {\r\n\t\tif(but==butE) \r\n\t\t\t{\r\n\t\t tree_up(iIps_Curr_Avg_Set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\t \r\n\t }\t\t \r\n\r\n\telse if(sub_ind==38)\r\n\t {\r\n\t if(but==butR)PWM_START++;\r\n\t else if(but==butR_)PWM_START+=10;\r\n\t else if(but==butL)PWM_START--;\r\n\t else if(but==butL_)PWM_START-=10;\r\n\t\tgran(&PWM_START,10,100);\r\n\t lc640_write_int(EE_PWM_START,PWM_START);\r\n\t speed=1;\r\n\t } \r\n\r\n\telse if(sub_ind==39)\r\n\t\t{\r\n\t if(but==butR)KB_ALGORITM++;\r\n\t else if(but==butR_)KB_ALGORITM++;\r\n\t else if(but==butL)KB_ALGORITM--;\r\n\t else if(but==butL_)KB_ALGORITM--;\r\n\t\tgran(&KB_ALGORITM,1,3);\r\n\t lc640_write_int(EE_KB_ALGORITM,KB_ALGORITM);\r\n\t speed=1;\r\n\t } \r\n\r\n\telse if(sub_ind==41)\r\n\t\t{\r\n\t if(but==butR)REG_SPEED++;\r\n\t else if(but==butR_)REG_SPEED++;\r\n\t else if(but==butL)REG_SPEED--;\r\n\t else if(but==butL_)REG_SPEED--;\r\n\t\tgran(&REG_SPEED,1,5);\r\n\t lc640_write_int(EE_REG_SPEED,REG_SPEED);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==43)\r\n\t {\r\n\t\tif((but==butE) && (NUMBDR))\r\n\t\t\t{\r\n\t\t tree_up(iRele_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\t \r\n\t }\r\n\r\n\telse if(sub_ind==44)\r\n\t\t{\r\n\t\tif(num_rki) \r\n\t\t\t{ \r\n\t\t\ttree_up(iSetRKI,0,0,0);\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==45)\r\n\t\t{\r\n\t\tif(num_net_in) \r\n\t\t\t{ \r\n\t\t\ttree_up(iSetNetIn,0,0,0); \r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==46)\r\n\t\t{\r\n\t\tif(SMART_SPC)SMART_SPC=0;\r\n\t\telse SMART_SPC=1;\r\n\t\tlc640_write_int(EE_SMART_SPC,SMART_SPC);\r\n\t\tspeed=1;\r\n\t\t}\r\n\r\n\telse if((sub_ind==48) \|\| (sub_ind==6))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\r\n\telse if(sub_ind==49) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n } \r\n\r\nelse if(ind==iSet_IPS_SGEP_GAZPROM)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tsub_ind=3;\r\n\t\t\t}\r\n\t\t/if(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}/\r\n\t\tif(sub_ind==6)index_set=5;\r\n\t\tif(sub_ind==7)sub_ind=8;\r\n\t\t//if(sub_ind==11)index_set=10;\r\n\t\t//if(sub_ind==12)sub_ind=13;\r\n\t\tif(sub_ind==22)\r\n\t\t\t{\r\n\t\t\tindex_set=21;\r\n\t\t\t}\r\n\t\tif(sub_ind==23)\r\n\t\t\t{\r\n\t\t\tsub_ind=24;\r\n\t\t\t}\r\n if(sub_ind==18)\r\n \t{\r\n index_set=17;\r\n }\r\n\t\tif(sub_ind==19)\r\n\t\t\t{\r\n\t\t\tsub_ind=20;\r\n\t\t\t} \r\n\t\tif(sub_ind==35)\r\n\t\t\t{\r\n\t\t\tindex_set=34;\r\n\t\t\t}\r\n if(sub_ind==36)\r\n \t{\r\n sub_ind=37;\r\n }\r\n if(sub_ind==37)\r\n \t{\r\n index_set=36;\r\n }\r\n if(sub_ind==38)\r\n \t{\r\n sub_ind=39;\r\n }\r\n if(sub_ind==43)\r\n \t{\r\n\t\t\tindex_set=42;\r\n \t} \r\n if(sub_ind==44)\r\n {\r\n sub_ind=45;\r\n }\r\n \tif(sub_ind==46)\r\n \t{\r\n index_set=45;\r\n }\r\n if(sub_ind==47)\r\n {\r\n sub_ind=48;\r\n }\r\n if(sub_ind==51)\r\n \t{\r\n sub_ind=52;\r\n\t\t }\r\n if(sub_ind==53)\r\n \t{\r\n sub_ind=54;\r\n\t\t }\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\tgran_char(&sub_ind,0,27);\r\n\t\t//gran_char(&sub_ind,0,56+(num_rki!=0)+(num_net_in!=0));\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t}\r\n\t\tif(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tsub_ind=1;\r\n\t\t\t} \r\n if(sub_ind==23)\r\n \t{\r\n sub_ind=22;\r\n\t\t }\r\n if(sub_ind==39)\r\n {\r\n //sub_ind=38;\r\n\t\t\t//index_set=34;\r\n }\r\n if(sub_ind==19)\r\n \t{\r\n sub_ind=18;\r\n\t\t }\r\n if(sub_ind==36)\r\n \t{\r\n sub_ind=35;\r\n\t\t }\r\n if(sub_ind==38)\r\n \t{\r\n sub_ind=37;\r\n\t\t }\r\n / if(sub_ind==39)\r\n {\r\n sub_ind=38;\r\n\t\t\tindex_set=37;\r\n } /\r\n if(sub_ind==44)\r\n {\r\n sub_ind=43;\r\n\t\t\t}\r\n if(sub_ind==47)\r\n {\r\n sub_ind=46;\r\n\t\t\t}\r\n if(sub_ind==51)\r\n \t{\r\n sub_ind=50;\r\n\t\t }\r\n if(sub_ind==53)\r\n \t{\r\n sub_ind=52;\r\n\t\t }\r\n\t\tgran_char(&sub_ind,0,27);\r\n\t\t//gran_char(&sub_ind,0,54+(num_rki!=0)+(num_net_in!=0));\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=26;\r\n\t\t//sub_ind=53+(num_rki!=0)+(num_net_in!=0); // oleg_start было 51\r\n\t\t}\r\n\r\n\telse if(but==butU_)\r\n\t\t{\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\r\n\telse if(but==butLR_)\r\n\t\t{\r\n\t/\tlc640_write_int(EE_SPEED_CHRG_CURR,20);\r\n\t\tlc640_write_int(EE_SPEED_CHRG_VOLT,2400);\r\n\t\tlc640_write_int(EE_SPEED_CHRG_TIME,1);\r\n\t\tlc640_write_int(EE_SPEED_CHRG_D_U,50);\r\n\t\tlc640_write_int(EE_SPEED_CHRG_AVT_EN,0);\r\n\t\tlc640_write_int(EE_SPEED_CHRG_BLOCK_SRC,1);\r\n\t\tlc640_write_int(EE_SPEED_CHRG_BLOCK_LOG,1);\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER,20000);/\r\n\t\t}\r\n\t\t\r\n/\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iDef_220_IPS_TERMOKOMPENSAT,0,0,0);\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\t }/\t\r\n\t\r\n else if(sub_ind==0)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T_avt,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\t\t\t\t \r\n else if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iStr_IPS_SGEP_GAZPROM,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n \t\t }\r\n\t\t}\t\r\n\t\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t lc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t lc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iApv,0,0,0);\r\n\t ret(1000);\r\n\t }\r\n\t }\t\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n /\r\n\telse if(sub_ind==11)\r\n\t {\r\n\t if(but==butR)\r\n\t\t\t{\r\n\t\t\tTBAT++;\r\n\t\t\tif(TBAT<0)TBAT=0;\r\n\t\t\telse if((TBAT>0)&&(TBAT<=5))TBAT=5;\r\n\t\t\telse if(TBAT>=60)TBAT=60;\r\n\t\t\t}\r\n\t else if(but==butR_)\r\n\t\t\t{\r\n\t\t\tTBAT+=10;\r\n\t\t\tif(TBAT<0)TBAT=0;\r\n\t\t\telse if((TBAT>0)&&(TBAT<=5))TBAT=5;\r\n\t\t\telse if(TBAT>=60)TBAT=60;\r\n\t\t\t}\r\n\t else if(but==butL)\r\n\t\t\t{\r\n\t\t\tTBAT--;\r\n\t\t\tif(TBAT<0)TBAT=0;\r\n\t\t\telse if((TBAT>0)&&(TBAT<=5))TBAT=0;\r\n\t\t\telse if(TBAT>=60)TBAT=60;\r\n\t\t\t}\r\n\t else if(but==butL_)\r\n\t\t\t{\r\n\t\t\tTBAT-=10;\r\n\t\t\tif(TBAT<0)TBAT=0;\r\n\t\t\telse if((TBAT>0)&&(TBAT<=5))TBAT=0;\r\n\t\t\telse if(TBAT>=60)TBAT=60;\r\n\t\t\t}\r\n\t //gran(&TBAT,5,60);\r\n\t\t//if(TBAT>=60)TBAT=60;\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\t\r\n\t / \t \t\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\r\n\t gran(&UMAX,10,3000);\r\n\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==11)\r\n\t {\r\n\t if(but==butL)DU++;\r\n\t else if(but==butL_)DU+=10;\r\n\t else if(but==butR)DU--;\r\n\t else if(but==butR_)DU-=10;\r\n\t gran(&DU,10,UB20-10);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif(but==butR)UB0++;\r\n\t\telse if(but==butR_)UB0+=10;\r\n\t\telse if(but==butL)UB0--;\r\n\t\telse if(but==butL_)UB0-=10;\r\n\t\tgran(&UB0,100,3000);\r\n\t\tlc640_write_int(EE_UB0,UB0);\r\n\t\tlc640_write_int(EE_UB20,UB0);\r\n\t\tspeed=1;\r\n\t\t}\r\n\t \r\n/\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)UB20++;\r\n\t else if(but==butR_)UB20+=10;\r\n\t else if(but==butL)UB20--;\r\n\t else if(but==butL_)UB20-=10;\r\n\t\tgran(&UB20,100,3000);\r\n\t lc640_write_int(EE_UB20,UB20);\r\n\t speed=1;\r\n\t }/\t\r\n\r\n/\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t\tgran(&USIGN,10,300);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }/\t\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,350);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n/\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }/\t\t\r\n \r\n/\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t\tgran(&IZMAX,10,2000);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t } / \r\n\r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t\tgran(&IMAX,10,1000);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)IMIN++;\r\n\t else if(but==butR_)IMIN+=10;\r\n\t else if(but==butL)IMIN--;\r\n\t else if(but==butL_)IMIN-=10;\r\n\t gran(&IMIN,1,IMAX-10);\r\n\t lc640_write_int(EE_IMIN,IMIN);\r\n\t speed=1;\r\n\t }\r\n\t\r\n\r\n\t\t\t \r\n/\telse if(sub_ind==23)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,3);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}/\t\r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t\t\t\t\t \t \r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\t \r\n/\telse if(sub_ind==26)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==27)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }\t\t /\r\n/\telse if(sub_ind==28)\r\n\t {\r\n\t if(but==butR)UVENTOFF++;\r\n\t else if(but==butR_)UVENTOFF+=2;\r\n\t else if(but==butL)UVENTOFF--;\r\n\t else if(but==butL_)UVENTOFF-=2;\r\n\t gran(&UVENTOFF,15,250);\r\n\t lc640_write_int(EE_UVENTOFF,UVENTOFF);\r\n\t speed=1;\r\n\t } /\r\n / else if(sub_ind==29)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iVZ_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\t/\r\n\t\r\n \t \t \t\t \t \r\n / else if(sub_ind==30)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iExt_set_3U,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t} /\r\n\r\n/\telse if(sub_ind==31)\r\n\t {\r\n\t\tif(but==butE) \r\n\t\t\t{\r\n\t\t tree_up(iOut_volt_contr,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\t \r\n\t } /\r\n\r\n/\telse if(sub_ind==33)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))TERMOKOMPENS=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))TERMOKOMPENS=0;\r\n\t\tlc640_write_int(EE_TERMOKOMP,TERMOKOMPENS);\r\n\t speed=0;\r\n\t }/\r\n\r\n/ \telse if(sub_ind==34)\r\n\t\t{\r\n\t\tif(but==butE) \r\n\t\t {\r\n\t\t tree_up(iSpch_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t} /\r\n / \telse if(sub_ind==35)\r\n\t {\r\n\t if(but==butR)FORVARDBPSCHHOUR++;\r\n\t else if(but==butR_)FORVARDBPSCHHOUR+=2;\r\n\t else if(but==butL)FORVARDBPSCHHOUR--;\r\n\t else if(but==butL_)FORVARDBPSCHHOUR-=2;\r\n\t gran(&FORVARDBPSCHHOUR,0,500);\r\n\t lc640_write_int(EE_FORVARDBPSCHHOUR,FORVARDBPSCHHOUR);\r\n\t numOfForvardBps_init();\r\n\t\tspeed=1;\r\n\t }/\r\n\r\n\t\t\t\t\r\n\telse if(sub_ind==18)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iAvt_set_sel,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n\r\n/\telse if(sub_ind==39)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iDop_rele_set,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t} /\r\n/\telse if(sub_ind==40)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iBlok_ips_set,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t} /\r\n\telse if(sub_ind==20)\r\n\t\t{\r\n\t if(but==butR)AUSW_MAIN_NUMBER++;\r\n\t else if(but==butR_)AUSW_MAIN_NUMBER+=20;\r\n\t else if(but==butL)AUSW_MAIN_NUMBER--;\r\n\t else if(but==butL_)AUSW_MAIN_NUMBER-=20;\r\n\t\telse if(but==butEL_)AUSW_MAIN_NUMBER=15000;\r\n\t\tif(AUSW_MAIN_NUMBER<13000)AUSW_MAIN_NUMBER=100000;\r\n\t\tif(AUSW_MAIN_NUMBER>100000)AUSW_MAIN_NUMBER=13000;\r\n\t lc640_write_int(EE_AUSW_MAIN_NUMBER,(short)(AUSW_MAIN_NUMBER&0x0000ffffUL));\r\n\t\tlc640_write_int(EE_AUSW_MAIN_NUMBER+2,(short)((AUSW_MAIN_NUMBER&0xffff0000UL)>>16UL));\r\n\t speed=1;\r\n\t } \r\n \telse if(sub_ind==21)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tMODBUS_ADRESS++;\r\n\t \tgran(&MODBUS_ADRESS,1,100);\r\n\t \tlc640_write_int(EE_MODBUS_ADRESS,MODBUS_ADRESS);\r\n\t\t\tspeed=1;\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tMODBUS_ADRESS--;\r\n\t \tgran(&MODBUS_ADRESS,1,100);\r\n\t \tlc640_write_int(EE_MODBUS_ADRESS,MODBUS_ADRESS);\r\n\t\t\tspeed=1;\r\n\t \t}\r\n }\r\n\r\n else if(sub_ind==22)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t\t\tif(MODBUS_BAUDRATE==120)MODBUS_BAUDRATE=240;\r\n\t\t\telse if(MODBUS_BAUDRATE==240)MODBUS_BAUDRATE=480;\r\n\t \telse if(MODBUS_BAUDRATE==480)MODBUS_BAUDRATE=960;\r\n\t\t\telse if(MODBUS_BAUDRATE==960)MODBUS_BAUDRATE=1920;\r\n\t\t\telse if(MODBUS_BAUDRATE==1920)MODBUS_BAUDRATE=3840;\r\n\t\t\telse if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=5760;\r\n\t\t\t//else if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=5760;\r\n\t\t\telse if(MODBUS_BAUDRATE==5760)MODBUS_BAUDRATE=11520;\r\n\t\t\telse MODBUS_BAUDRATE=120;\r\n\t \tgran(&MODBUS_BAUDRATE,120,11520);\r\n\t \tlc640_write_int(EE_MODBUS_BAUDRATE,MODBUS_BAUDRATE);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t\t\tif(MODBUS_BAUDRATE==120)MODBUS_BAUDRATE=11520;\r\n\t\t\telse if(MODBUS_BAUDRATE==240)MODBUS_BAUDRATE=120;\r\n\t \telse if(MODBUS_BAUDRATE==480)MODBUS_BAUDRATE=240;\r\n\t\t\telse if(MODBUS_BAUDRATE==960)MODBUS_BAUDRATE=480;\r\n\t\t\telse if(MODBUS_BAUDRATE==1920)MODBUS_BAUDRATE=960;\r\n\t\t\telse if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=1920;\r\n\t\t\t//else if(MODBUS_BAUDRATE==3840)MODBUS_BAUDRATE=3840;\r\n\t\t\telse if(MODBUS_BAUDRATE==5760)MODBUS_BAUDRATE=3840;\r\n\t\t\telse MODBUS_BAUDRATE=11520;\r\n\t \tgran(&MODBUS_BAUDRATE,120,11520);\r\n\t \tlc640_write_int(EE_MODBUS_BAUDRATE,MODBUS_BAUDRATE);\r\n\t \t}\r\n }\r\n \telse if(sub_ind==24)\r\n\t\t{\r\n\t\tif(but==butE) \r\n\t\t {\r\n\t\t tree_up(iLan_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n/\telse if(sub_ind==46)\r\n\t\t{\r\n\t if(but==butR)\t\tTVENTMAX=((TVENTMAX/100)+1)100;\r\n\t else if(but==butR_)\tTVENTMAX=((TVENTMAX/100)+1)100;\r\n\t else if(but==butL)\tTVENTMAX=((TVENTMAX/100)-1)100;\r\n\t else if(but==butL_)\tTVENTMAX=((TVENTMAX/100)-1)100;\r\n\t\t//else if(but==butE_)\tTVENTMAX=1500;\r\n\t\tgran(&TVENTMAX,1,6000);\r\n\t\tif(but==butE_)\tTVENTMAX=0;\r\n\t\tlc640_write_int(EE_TVENTMAX,TVENTMAX);\r\n\t speed=1;\r\n\t } /\r\n/\telse if(sub_ind==48)\r\n\t {\r\n\t\tif(but==butE) \r\n\t\t\t{\r\n\t\t tree_up(iIps_Curr_Avg_Set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\t \r\n\t }/\t\t \r\n\r\n\telse if(sub_ind==25)\r\n\t {\r\n\t if(but==butR)PWM_START++;\r\n\t else if(but==butR_)PWM_START+=10;\r\n\t else if(but==butL)PWM_START--;\r\n\t else if(but==butL_)PWM_START-=10;\r\n\t\tgran(&PWM_START,10,100);\r\n\t lc640_write_int(EE_PWM_START,PWM_START);\r\n\t speed=1;\r\n\t } \r\n\r\n/\telse if(sub_ind==50)\r\n\t\t{\r\n\t if(but==butR)KB_ALGORITM++;\r\n\t else if(but==butR_)KB_ALGORITM++;\r\n\t else if(but==butL)KB_ALGORITM--;\r\n\t else if(but==butL_)KB_ALGORITM--;\r\n\t\tgran(&KB_ALGORITM,1,3);\r\n\t lc640_write_int(EE_KB_ALGORITM,KB_ALGORITM);\r\n\t speed=1;\r\n\t } /\r\n\r\n/\telse if(sub_ind==52)\r\n\t\t{\r\n\t if(but==butR)REG_SPEED++;\r\n\t else if(but==butR_)REG_SPEED++;\r\n\t else if(but==butL)REG_SPEED--;\r\n\t else if(but==butL_)REG_SPEED--;\r\n\t\tgran(&REG_SPEED,1,5);\r\n\t lc640_write_int(EE_REG_SPEED,REG_SPEED);\r\n\t speed=1;\r\n\t }/\r\n/\telse if(sub_ind==54)\r\n\t {\r\n\t\tif((but==butE) && (NUMBDR))\r\n\t\t\t{\r\n\t\t tree_up(iRele_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\t \r\n\t } /\r\n/\r\n\telse if(sub_ind==(52 + (num_rki!=0)))\r\n\t\t{\r\n\t\tif(but==butE) \r\n\t\t\t{\r\n\t\t \tif(num_rki) { tree_up(iSetRKI,0,0,0); ret(1000);}\r\n\t\t\t\telse if(num_net_in) { tree_up(iSetNetIn,0,0,0); ret(1000);}\r\n\t\t\t\telse { tree_down(0,0); ret(0);}\r\n\t\t }\r\n\t\t}\r\n\t// oleg_end\t\r\n\telse if(sub_ind==54)// oleg_start было 51\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t \tif(num_rki && num_net_in) { tree_up(iSetNetIn,0,0,0); ret(1000);}\r\n\t\t\t\telse if(!num_rki && num_net_in) {tree_down(0,0); ret(0);}\r\n\t\t\t\telse if(num_rki && !num_net_in) {tree_down(0,0); ret(0);}\r\n\t\t\t\telse {\r\n\t\t\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\t\t\tparol_init();\r\n\t\t\t\t\tret(50);\r\n\t\t\t\t}\r\n\t\t }\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(sub_ind==53) // oleg_start было 52\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\r\n\t\t\t\tif(num_rki && num_net_in) {tree_down(0,0); ret(0);}\t\r\n\t\t\t\telse{\r\n\t\t\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\t\t\tparol_init();\r\n\t\t\t\t\tret(50);\r\n\t\t\t\t}\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}/\r\n/\telse if(sub_ind==55)\r\n\t\t{\r\n\t\tif(num_rki) \r\n\t\t\t{ \r\n\t\t\ttree_up(iSetRKI,0,0,0);\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\t}/\r\n/\telse if(sub_ind==56)\r\n\t\t{\r\n\t\tif(num_net_in) \r\n\t\t\t{ \r\n\t\t\ttree_up(iSetNetIn,0,0,0); \r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\t}/\r\n\telse if((sub_ind==26) \|\| (sub_ind==4))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\r\n\telse if(sub_ind==27)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\r\n\t} \r\n\r\nelse if(ind==iBat_link_set)\r\n\r\n\r\n\r\n#define SIMAXIDEF 2\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,SIMAXIDEF);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,SIMAXIDEF);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=SIMAXIDEF;\r\n\t\t}\r\n\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tlc640_write_int(EE_BAT_LINK,0);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tlc640_write_int(EE_BAT_LINK,1);\r\n\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==SIMAXIDEF)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\tdefault_temp=sub_ind;\t\r\n\t\t}\r\n }\r\n\r\nelse if(ind==iDef)\r\n\r\n#define SIMAXIDEF 2\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,SIMAXIDEF);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,SIMAXIDEF);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=SIMAXIDEF;\r\n\t\t}\r\n\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,545,2,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4840);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,545,3,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4860);\r\n\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==SIMAXIDEF)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\tdefault_temp=sub_ind;\t\r\n\t\t}\r\n }\r\n\r\nelse if(ind==iDef_RSTKM)\r\n\t{\r\n\tsimax=2;\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=simax;\r\n\t\t}\r\n\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,545,2,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4840);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,545,3,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4860);\r\n\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==SIMAXIDEF)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\tdefault_temp=sub_ind;\t\r\n\t\t}\r\n }\r\n\r\nelse if(ind==iDef_3U)\r\n\t{\r\n\tsimax=4;\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=simax;\r\n\t\t}\r\n\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,545,2,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4840);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,545,3,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4860);\r\n\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,680,2,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,6040);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,680,3,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,6060);\r\n\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==SIMAXIDEF)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\tdefault_temp=sub_ind;\t\r\n\t\t}\r\n }\r\n\r\nelse if(ind==iDef_GLONASS)\r\n\t{\r\n\tsimax=4;\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=simax;\r\n\t\t}\r\n\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,545,2,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4840);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,545,3,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4860);\r\n\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,680,2,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,6040);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,680,3,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,6060);\r\n\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==SIMAXIDEF)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\tdefault_temp=sub_ind;\t\r\n\t\t}\r\n }\r\n\r\nelse if(ind==iDef_KONTUR)\r\n\t{\r\n\tsimax=2;\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=simax;\r\n\t\t}\r\n\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,545,2,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4840);\r\n\t\t\tlc640_write_int(EE_NUMSK,3);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,545,3,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4860);\r\n\t\t\tlc640_write_int(EE_NUMSK,3);\r\n\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==SIMAXIDEF)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\tdefault_temp=sub_ind;\t\r\n\t\t}\r\n }\r\nelse if(ind==iDef_6U)\r\n\t{\r\n\tsimax=36;\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=simax;\r\n\t\t}\r\n\telse if(but==butE_)\r\n\t\t{\r\n\t\tlc640_write_int(EE_BAT_TYPE,3);\r\n\t\t}\r\n\telse if(but==butR_)\r\n\t\t{\r\n\t\tlc640_write_int(EE_BAT_TYPE,65536);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tdef_set(300,282,273,22,150,240,2,288);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,24120);\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tdef_set(300,282,273,22,150,240,3,288);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,24120);\r\n\t\t\t}\r\n\t\telse if(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tdef_set(300,282,273,22,150,240,4,288);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,24120);\r\n\t\t\t}\r\n\t\telse if(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tdef_set(300,282,273,22,150,240,3,288);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,24210);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==4)\r\n\t\t\t{\r\n\t\t\tdef_set(300,282,273,22,150,240,4,288);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,24210);\r\n\t\t\t}\r\n\t\telse if(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tdef_set(300,282,273,22,150,240,5,288);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,24210);\r\n\t\t\t}\r\n\t\telse if(sub_ind==6)\r\n\t\t\t{\r\n\t\t\tdef_set(300,282,273,22,150,240,6,288);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,24210);\r\n\t\t\t}\r\n\t\telse if(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tdef_set(300,282,273,22,150,240,7,288);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,24210);\r\n\t\t\t}\r\n\t\telse if(sub_ind==8)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,480,2,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4880);\r\n\t\t\t}\r\n\t\telse if(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,480,3,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4880);\r\n\t\t\t}\r\n\t\telse if(sub_ind==10)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,480,4,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4880);\r\n\t\t\t}\r\n\t\telse if(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,480,3,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)48140);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==12)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,480,4,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)48140);\r\n\t\t\t}\r\n\t\telse if(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,480,5,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)48140);\r\n\t\t\t}\r\n\t\telse if(sub_ind==14)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,480,6,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)48140);\r\n\t\t\t}\r\n\t\telse if(sub_ind==15)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,480,7,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)48140);\r\n\t\t\t}\r\n\t\telse if(sub_ind==16)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,2,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)6080);\r\n\t\t\t}\r\n\t\telse if(sub_ind==17)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,3,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)6080);\r\n\t\t\t}\r\n\t\telse if(sub_ind==18)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,4,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)6080);\r\n\t\t\t}\r\n\t\telse if(sub_ind==19)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,3,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)60140);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==20)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,4,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)60140);\r\n\t\t\t}\r\n\t\telse if(sub_ind==21)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,5,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)60140);\r\n\t\t\t}\r\n\t\telse if(sub_ind==22)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,6,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)60140);\r\n\t\t\t}\r\n\t\telse if(sub_ind==23)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,7,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,(signed short)60140);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==24)\r\n\t\t\t{\r\n\t\t\tdef_set(300,282,273,22,150,240,4,288);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,24123);\r\n\t\t\t}\r\n\t\telse if(sub_ind==25)\r\n\t\t\t{\r\n\t\t\tdef_set(300,282,273,22,150,240,7,288);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,24213);\r\n\t\t\t}\r\n\t\telse if(sub_ind==26)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,480,4,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4883);\r\n\t\t\t}\r\n\t\telse if(sub_ind==27)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,480,7,576);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,48143);\r\n\t\t\t}\r\n\t\telse if(sub_ind==28)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,4,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,6083);\r\n\t\t\t}\r\n\t\telse if(sub_ind==29)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,7,720);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,60143);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==30)\r\n\t\t\t{\r\n\t\t\tdef_ips_set(240);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,2400);\r\n\t\t\t}\r\n\t\telse if(sub_ind==31)\r\n\t\t\t{\r\n\t\t\tdef_ips_set(480);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4800);\r\n\t\t\t}\r\n\t\telse if(sub_ind==32)\r\n\t\t\t{\r\n\t\t\tdef_ips_set(600);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,6000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==31)\r\n\t\t\t{\r\n\t\t\tdef_ips_set(240);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,2403);\r\n\t\t\t}\r\n\t\telse if(sub_ind==32)\r\n\t\t\t{\r\n\t\t\tdef_ips_set(480);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,4803);\r\n\t\t\t}\r\n\t\telse if(sub_ind==33)\r\n\t\t\t{\r\n\t\t\tdef_ips_set(600);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,6003);\r\n\t\t\t}\r\n\t\telse if(sub_ind==simax)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\tdefault_temp=sub_ind;\t\r\n\t\t}\r\n }\r\n\r\nelse if (ind==iDef_220)\r\n\t{\r\n\tsimax=8;\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=simax;\r\n\t\t}\r\n\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tdef_set(2700,2590,2450,198,30,2200,2,2590);\r\n\t\t\tlc640_write_int(EE_DU,2450-1200);\r\n\t\t\tlc640_write_int(EE_U_AVT,2450);\r\n\t\t\tlc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22010);\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tdef_set(2550,2397,2316,187,30,2200,2,2440);\r\n\t\t\tlc640_write_int(EE_DU,2315-1100);\r\n\t\t\tlc640_write_int(EE_U_AVT,2315);\r\n\t\t\tlc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22010);\r\n\t\t\t}\r\n\t\telse if(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tdef_set(2700,2590,2450,198,30,2200,2,2590);\r\n\t\t\tlc640_write_int(EE_DU,2450-1200);\r\n\t\t\tlc640_write_int(EE_U_AVT,2450);\r\n\t\t\tlc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22020);\r\n\t\t\t}\r\n\t\telse if(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tdef_set(2550,2397,2316,187,30,2200,2,2440);\r\n\t\t\tlc640_write_int(EE_DU,2315-1100);\r\n\t\t\tlc640_write_int(EE_U_AVT,2315);\r\n\t\t\tlc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22020);\r\n\t\t\t}\r\n\t\telse if(sub_ind==4)\r\n\t\t\t{\r\n\t\t\tdef_set(2700,2590,2450,198,30,2200,2,2590);\r\n\t\t\tlc640_write_int(EE_DU,2450-1200);\r\n\t\t\tlc640_write_int(EE_U_AVT,2450);\r\n\t\t\tlc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22020);\r\n\t\t\t}\r\n\t\telse if(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tdef_set(2550,2397,2316,187,30,2200,2,2440);\r\n\t\t\tlc640_write_int(EE_DU,2315-1100);\r\n\t\t\tlc640_write_int(EE_U_AVT,2315);\r\n\t\t\tlc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22035);\r\n\t\t\t}\r\n\r\n\r\n\t\telse if(sub_ind==6)\r\n\t\t\t{\r\n\t\t\tdef_set(2700,2590,2450,198,30,2200,7,2590);\r\n\t\t\tlc640_write_int(EE_DU,2450-1200);\r\n\t\t\tlc640_write_int(EE_U_AVT,2450);\r\n\t\t\tlc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22035);\r\n\t\t\tlc640_write_int(EE_MNEMO_ON,mnOFF);\r\n\t\t\t}\r\n\t\telse if(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tdef_set(2700,2200,2200,198,30,2200,7,2590);\r\n\t\t\tlc640_write_int(EE_DU,2450-1200);\r\n\t\t\tlc640_write_int(EE_U_AVT,2450);\r\n\t\t\tlc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22035);\r\n\t\t\tlc640_write_int(EE_PAR,1);\r\n\t\t\tlc640_write_int(EE_MNEMO_ON,mnOFF);\r\n\t\t\t}\r\n\r\n\r\n\t\telse if(sub_ind==SIMAXIDEF)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\tdefault_temp=sub_ind;\t\r\n\t\t}\r\n }\r\n\r\n\t else if (ind==iDef_220_V2)\r\n\t{\r\n\t//simax=3;\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3/simax/);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3/simax/);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3/simax/;\r\n\t\t}\r\n\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tdef_set(2700,2590,2450,198,30,2200,4,2590);\r\n\t\t\tlc640_write_int(EE_DU,2450-1200);\r\n\t\t\tlc640_write_int(EE_U_AVT,2450);\r\n\t\t\tlc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22010);\r\n\t\t\tdefault_temp=sub_ind;\r\n\t\t\t//tree_down(0,0);\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tdef_set(2450,2410,2315,187,30,2200,4,2410);\r\n\t\t\tlc640_write_int(EE_DU,2315-1200);\r\n\t\t\tlc640_write_int(EE_U_AVT,2315);\r\n\t\t\tlc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22010);\r\n\t\t\tdefault_temp=sub_ind;\r\n\t\t\t//tree_down(0,0);\r\n\t\t\t}\r\n\t\telse if(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tdef_set(2700,2590,2450,198,100,2200,3,2590);\r\n\t\t\tlc640_write_int(EE_DU,2450-1200);\r\n\t\t\tlc640_write_int(EE_U_AVT,2450);\r\n\t\t\tlc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22033);\r\n\t\t\tdefault_temp=sub_ind;\r\n\t\t\t//tree_down(0,0);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==3/SIMAXIDEF/)\r\n\t\t\t{\r\n\t\t\t//default_temp=sub_ind;\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t\t\r\n\t\t}\r\n }\r\n\r\nelse if (ind==iDef_220_IPS_TERMOKOMPENSAT)\r\n\t{\r\n\tsimax=8;\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=simax;\r\n\t\t}\r\n\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tdef_ips_set(220);\r\n\t\t\t//lc640_write_int(EE_DU,2315-1850);\r\n\t\t\tlc640_write_int(EE_U_AVT,2200);\r\n\t\t\tlc640_write_int(EE_IZMAX,50);\r\n\t\t\t//lc640_write_int(EE_IMAX,12);\r\n\t\t\t//lc640_write_int(EE_IMIN,8);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22043);\r\n\t\t\tlc640_write_int(EE_NUMIST,3);\r\n\r\n\t\t\tlc640_write_int(EE_PAR,0);\r\n\t\t\t//lc640_write_int(EE_UMAX,2550);\r\n\t\t\tlc640_write_int(EE_DU,2315-1110);\r\n\t\t\tlc640_write_int(EE_UB0,2397);\r\n\t\t\tlc640_write_int(EE_UB20,2314);\r\n\t\t\t//lc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_UVZ,2346);\r\n\t\t\tlc640_write_int(EE_UBM_AV,0);\r\n\t\t\tlc640_write_int(EE_U_OUT_KONTR_MAX,2420);\r\n\t\t\tlc640_write_int(EE_U_OUT_KONTR_MIN,2200);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tdef_ips_set(220);\r\n\t\t\t//lc640_write_int(EE_DU,2315-1850);\r\n\t\t\tlc640_write_int(EE_U_AVT,2200);\r\n\t\t\tlc640_write_int(EE_IZMAX,50);\r\n\t\t\t//lc640_write_int(EE_IMAX,12);\r\n\t\t\t//lc640_write_int(EE_IMIN,8);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22044);\r\n\t\t\tlc640_write_int(EE_NUMIST,3);\r\n\r\n\t\t\tlc640_write_int(EE_PAR,0);\r\n\t\t\t//lc640_write_int(EE_UMAX,2550);\r\n\t\t\tlc640_write_int(EE_DU,2315-1110);\r\n\t\t\tlc640_write_int(EE_UB0,2397);\r\n\t\t\tlc640_write_int(EE_UB20,2314);\r\n\t\t\t//lc640_write_int(EE_IZMAX,20);\r\n\t\t\tlc640_write_int(EE_UVZ,2346);\r\n\t\t\tlc640_write_int(EE_UBM_AV,0);\r\n\t\t\tlc640_write_int(EE_U_OUT_KONTR_MAX,2420);\r\n\t\t\tlc640_write_int(EE_U_OUT_KONTR_MIN,2200);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tdef_ips_set(220);\r\n\t\t\tlc640_write_int(EE_DU,2315-1850);\r\n\t\t\tlc640_write_int(EE_U_AVT,2200);\r\n\t\t\t//lc640_write_int(EE_IZMAX,50);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22011);\r\n\t\t\tlc640_write_int(EE_NUMIST,2);\r\n\t\t\tlc640_write_int(EE_TERMOKOMP,1);\r\n\t\t\t//lc640_write_int(EE_IMAX,30);\r\n\t\t //lc640_write_int(EE_IMIN,24);\r\n\t\t\t//lc640_write_int(EE_UMAX,2450);\r\n\t/\t\t}\r\n\t\telse if(sub_ind==3)\r\n\t\t\t{ /\r\n\t\t//\tdef_ips_set(220);\r\n\t\t\t//lc640_write_int(EE_DU,2315-1850);\r\n\t\t//\tlc640_write_int(EE_U_AVT,2200);\r\n\t\t\t//lc640_write_int(EE_IZMAX,10);\r\n\t\t\t//lc640_write_int(EE_IMAX,30);\r\n\t\t//\tlc640_write_int(EE_IMIN,24);\r\n\t\t\t//lc640_write_int(EE_AUSW_MAIN,22023);\r\n\t\t\tlc640_write_int(EE_NUMIST,2);\r\n\r\n\t\t\tlc640_write_int(EE_PAR,0);\r\n\t\t\tlc640_write_int(EE_UMAX,2550);\r\n\t\t\tlc640_write_int(EE_DU,2315-1110);\r\n\t\t\tlc640_write_int(EE_UB0,2397);\r\n\t\t\tlc640_write_int(EE_UB20,2314);\r\n\t\t\tlc640_write_int(EE_IZMAX,50);\r\n\t\t\tlc640_write_int(EE_UVZ,2440);\r\n\t\t\tlc640_write_int(EE_UBM_AV,0);\r\n\t\t\tlc640_write_int(EE_UMAX,2450);\r\n\t\t\tlc640_write_int(EE_U_OUT_KONTR_MAX,2420);\r\n\t\t\tlc640_write_int(EE_U_OUT_KONTR_MIN,2200);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tdef_ips_set(110);\r\n\t\t\t//lc640_write_int(EE_DU,2315-1850);\r\n\t\t\t//lc640_write_int(EE_U_AVT,2200);\r\n\t\t\t//lc640_write_int(EE_IZMAX,50);\r\n\t\t\t//lc640_write_int(EE_IMAX,12);\r\n\t\t\t//lc640_write_int(EE_IMIN,8);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22043);\r\n\t\t\t//lc640_write_int(EE_NUMIST,3);\r\n\r\n\t\t\t//lc640_write_int(EE_PAR,0);\r\n\t\t\t//lc640_write_int(EE_UMAX,2550);\r\n\t\t\t//lc640_write_int(EE_DU,2315-1110);\r\n\t\t\t//lc640_write_int(EE_UB0,2397);\r\n\t\t\t//lc640_write_int(EE_UB20,2314);\r\n\t\t\t//lc640_write_int(EE_IZMAX,20);\r\n\t\t\t//lc640_write_int(EE_UVZ,2346);\r\n\t\t\t//lc640_write_int(EE_UBM_AV,0);\r\n\t\t\t//lc640_write_int(EE_U_OUT_KONTR_MAX,2420);\r\n\t\t\t//lc640_write_int(EE_U_OUT_KONTR_MIN,2200);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==4)\r\n\t\t\t{\r\n\t\t\tdef_ips_set(220);\r\n\t\t\t//lc640_write_int(EE_DU,2315-1850);\r\n\t\t\tlc640_write_int(EE_U_AVT,2200);\r\n\t\t\t//lc640_write_int(EE_IZMAX,50);\r\n\t\t\tlc640_write_int(EE_AUSW_MAIN,22018);\r\n\t\t\tlc640_write_int(EE_NUMIST,2);\r\n\t\t\tlc640_write_int(EE_TERMOKOMP,1);\r\n\t\t\t//lc640_write_int(EE_IMAX,30);\r\n\t\t //lc640_write_int(EE_IMIN,24);\r\n\t\t\t//lc640_write_int(EE_UMAX,2450);\r\n\t/\t\t}\r\n\t\telse if(sub_ind==3)\r\n\t\t\t{ /\r\n\t\t//\tdef_ips_set(220);\r\n\t\t\t//lc640_write_int(EE_DU,2315-1850);\r\n\t\t//\tlc640_write_int(EE_U_AVT,2200);\r\n\t\t\t//lc640_write_int(EE_IZMAX,10);\r\n\t\t\t//lc640_write_int(EE_IMAX,30);\r\n\t\t//\tlc640_write_int(EE_IMIN,24);\r\n\t\t\t//lc640_write_int(EE_AUSW_MAIN,22023);\r\n\t\t\tlc640_write_int(EE_NUMIST,2);\r\n\r\n\t\t\tlc640_write_int(EE_PAR,0);\r\n\t\t\tlc640_write_int(EE_UMAX,2700);\r\n\t\t\tlc640_write_int(EE_DU,2450-1200);\r\n\t\t\tlc640_write_int(EE_UB0,2590);\r\n\t\t\tlc640_write_int(EE_UB20,2450);\r\n\t\t\tlc640_write_int(EE_IZMAX,50);\r\n\t\t\tlc640_write_int(EE_UVZ,2590);\r\n\t\t\tlc640_write_int(EE_UBM_AV,0);\r\n\t\t\t//lc640_write_int(EE_UMAX,2450);\r\n\t\t\tlc640_write_int(EE_U_OUT_KONTR_MAX,2420);\r\n\t\t\tlc640_write_int(EE_U_OUT_KONTR_MIN,2200);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tdef_sgep_ips_set(17);\r\n\t\t\t}\r\n\t\telse if(sub_ind==6)\r\n\t\t\t{\r\n\t\t\tdef_sgep_ips_set(18);\r\n\t\t\t}\r\n\t\telse if(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tdef_sgep_ips_set(20);\r\n\t\t\t}\r\n\t\telse if(sub_ind==simax)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\tdefault_temp=sub_ind;\t\r\n\t\t}\r\n }\r\n\r\nelse if(ind==iSet_T)\r\n\t{\r\n\tsigned char temp;\r\n\tif(but==butR)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\r\n\telse if(sub_ind==0)\r\n\t {\t\t\t \r\n\t temp=LPC_RTC->HOUR;\r\n\t if((but==butU)\|\|(but==butU_))\r\n\t {\r\n\t temp++;\r\n\t gran_ring_char(&temp,0,23);\r\n\t LPC_RTC->HOUR=temp;\r\n\t }\r\n else if((but==butD)\|\|(but==butD_))\r\n\t {\r\n\t temp--;\r\n\t gran_ring_char(&temp,0,23);\r\n\t LPC_RTC->HOUR=temp;\r\n\t }\t\r\n\t speed=1; \r\n\t }\r\n else if(sub_ind==1)\r\n\t {\r\n\t temp=LPC_RTC->MIN;\r\n\t if((but==butU)\|\|(but==butU_))\r\n\t {\r\n\t temp++;\r\n\t gran_ring_char(&temp,0,59);\r\n\t LPC_RTC->MIN=temp;\r\n\t }\r\n else if((but==butD)\|\|(but==butD_))\r\n\t {\r\n\t temp--;\r\n\t gran_ring_char(&temp,0,59);\r\n\t LPC_RTC->MIN=temp;\r\n\t }\t\r\n\t speed=1; \r\n\t }\r\n else if(sub_ind==2)\r\n\t {\t\t\t\t \r\n\t temp=LPC_RTC->SEC;\r\n\t if((but==butU)\|\|(but==butU_))\r\n\t {\r\n\t temp=0;\r\n\t gran_ring_char(&temp,0,59);\r\n\t LPC_RTC->SEC=temp;\r\n\t }\r\n else if((but==butD)\|\|(but==butD_))\r\n\t {\r\n\t temp=0;\r\n\t gran_ring_char(&temp,0,59);\r\n\t LPC_RTC->SEC=temp;\r\n\t }\t\r\n\t speed=1; \r\n\t }\r\n\r\n else if(sub_ind==3)\r\n\t {\r\n\t temp=LPC_RTC->DOM;\r\n\t if((but==butU)\|\|(but==butU_))\r\n\t {\r\n\t temp++;\r\n\t gran_ring_char(&temp,1,31);\r\n\t LPC_RTC->DOM=temp;\r\n\t }\r\n else if((but==butD)\|\|(but==butD_))\r\n\t {\r\n\t temp--;\r\n\t gran_ring_char(&temp,1,31);\r\n\t LPC_RTC->DOM=temp;\r\n\t }\t\r\n\t speed=1; \r\n\t }\r\n else if(sub_ind==4)\r\n\t {\r\n\t temp=LPC_RTC->MONTH;\r\n\t if((but==butU)\|\|(but==butU_))\r\n\t {\r\n\t temp++;\r\n\t gran_ring_char(&temp,1,12);\r\n\t LPC_RTC->MONTH=temp;\r\n\t }\r\n else if((but==butD)\|\|(but==butD_))\r\n\t {\r\n\t temp--;\r\n\t gran_ring_char(&temp,1,12);\r\n\t LPC_RTC->MONTH=temp;\r\n\t }\t\r\n\t speed=1; \r\n\t }\t \r\n else if(sub_ind==5)\r\n\t {\r\n\t temp=LPC_RTC->YEAR;\r\n\t if((but==butU)\|\|(but==butU_))\r\n\t {\r\n\t temp++;\r\n\t gran_ring_char(&temp,0,99);\r\n\t LPC_RTC->YEAR=temp;\r\n\t }\r\n else if((but==butD)\|\|(but==butD_))\r\n\t {\r\n\t temp--;\r\n\t gran_ring_char(&temp,0,99);\r\n\t LPC_RTC->YEAR=temp;\r\n\t }\t\r\n\t speed=1; \r\n\t }\t\t \r\n\t}\r\n\t \r\nelse if(ind==iSet_T_avt)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(SNTP_ENABLE==0)gran_char(&sub_ind,0,1);\r\n\t\telse gran_char(&sub_ind,0,2); \r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(SNTP_ENABLE==0)gran_char(&sub_ind,0,1);\r\n\t\telse gran_char(&sub_ind,0,2); \r\n\t\t}\r\n/\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=4;\r\n\t\t}/\t\t\t\t\r\n else if(sub_ind==0)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tSNTP_ENABLE++;\r\n\t \tgran(&SNTP_ENABLE,0,3);\r\n\t \tlc640_write_int(EE_SNTP_ENABLE,SNTP_ENABLE);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tSNTP_ENABLE--;\r\n\t \tgran(&SNTP_ENABLE,0,3);\r\n\t \tlc640_write_int(EE_SNTP_ENABLE,SNTP_ENABLE);\r\n\t \t}\r\n }\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(SNTP_ENABLE==0)\r\n\t\t \t{\r\n\t\t\tif(but==butE)\r\n\t \t{\r\n\t\t\t\ttree_down(0,0);\r\n\t \t}\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t \tif((but==butR)\|\|(but==butR_))\r\n\t \t\t{\r\n\t \t\tSNTP_GMT++;\r\n\t \t\tgran(&SNTP_GMT,-12,13);\r\n\t \t\tlc640_write_int(EE_SNTP_GMT,SNTP_GMT);\r\n\t \t\t}\r\n\t \r\n\t \telse if((but==butL)\|\|(but==butL_))\r\n\t \t\t{\r\n\t \t\tSNTP_GMT--;\r\n\t \t\tgran(&SNTP_GMT,-12,13);\r\n\t \t\tlc640_write_int(EE_SNTP_GMT,SNTP_GMT);\r\n\t \t\t}\r\n\t\t\t}\r\n\t\t}\t \t\t\t \r\n \r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tsntp_requ();\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t}\t \r\n\t} \r\n\r\nelse if(ind==iStr)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)index_set=1;\r\n\t\tif(sub_ind==3)sub_ind++;\r\n\t\tgran_char(&sub_ind,1,5);\t\r\n\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==3)sub_ind--;\r\n\t\tgran_char(&sub_ind,1,5);\t \r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n//\t\tsub_ind=5;\t\t //\r\n\t\t}\t\t\t\t\r\n else if(sub_ind==1)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMIST++;\r\n\t \tgran(&NUMIST,0,12);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMIST--;\r\n\t \tgran(&NUMIST,0,12);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n }\t\r\n//\r\n\t else if(sub_ind==2)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMINV++;\r\n\t \tgran(&NUMINV,0,12-NUMIST);\r\n\t \tlc640_write_int(EE_NUMINV,NUMINV);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMINV--;\r\n\t \tgran(&NUMINV,0,12-NUMIST);\r\n\t \tlc640_write_int(EE_NUMINV,NUMINV);\r\n\t \t}\r\n }\t\r\n//\r\n// else if(sub_ind==3) //\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMAVT++;\r\n\t \tgran(&NUMAVT,0,12);\r\n\t \tlc640_write_int(EE_NUMAVT,NUMAVT);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMAVT--;\r\n\t \tgran(&NUMAVT,0,12);\r\n\t \tlc640_write_int(EE_NUMAVT,NUMAVT);\r\n\t \t}\r\n }\t\r\n \r\n// else if(sub_ind==5)\t //\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t\t\ttree_down(0,0);\r\n\t }\r\n }\t \r\n\t}\r\n\r\nelse if(ind==iStr_RSTKM)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==3)index_set=2;\r\n\t\tif(sub_ind==4)\r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\t//index_set=3;\r\n\t\t\t}\r\n\t\tgran_char(&sub_ind,1,5);\t\r\n\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==4)sub_ind--;\r\n\t\tgran_char(&sub_ind,1,5);\t \r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=5;\t\t //\r\n\t\t}\t\t\t\t\r\n else if(sub_ind==1)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMIST++;\r\n\t \tgran(&NUMIST,0,12);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMIST--;\r\n\t \tgran(&NUMIST,0,12);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n }\t\r\n\r\n\t else if(sub_ind==2)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMINV++;\r\n\t \tgran(&NUMINV,0,12-NUMIST);\r\n\t \tlc640_write_int(EE_NUMINV,NUMINV);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMINV--;\r\n\t \tgran(&NUMINV,0,12-NUMIST);\r\n\t \tlc640_write_int(EE_NUMINV,NUMINV);\r\n\t \t}\r\n }\t\r\n else if(sub_ind==3) //\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMAVT++;\r\n\t \tgran(&NUMAVT,0,12);\r\n\t \tlc640_write_int(EE_NUMAVT,NUMAVT);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMAVT--;\r\n\t \tgran(&NUMAVT,0,12);\r\n\t \tlc640_write_int(EE_NUMAVT,NUMAVT);\r\n\t \t}\r\n }\t\r\n \r\n// else if(sub_ind==5)\t //\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t\t\ttree_down(0,0);\r\n\t }\r\n }\t \r\n\t}\r\n\r\nelse if(ind==iStr_3U)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\t//if(sub_ind==2)index_set=1;\r\n\t\t//if(sub_ind==3)sub_ind++;\r\n\t\tgran_char(&sub_ind,1,5);\t\r\n\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\t//if(sub_ind==3)sub_ind--;\r\n\t\tgran_char(&sub_ind,1,5);\t \r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=4;\t\t \r\n\t\t}\t\t\t\t\r\n else if(sub_ind==1)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMIST++;\r\n\t \tgran(&NUMIST,0,2);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMIST--;\r\n\t \tgran(&NUMIST,0,2);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n }\t\r\n\r\n\t else if(sub_ind==2)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMINV++;\r\n\t \tgran(&NUMINV,0,2);\r\n\t \tlc640_write_int(EE_NUMINV,NUMINV);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMINV--;\r\n\t \tgran(&NUMINV,0,2);\r\n\t \tlc640_write_int(EE_NUMINV,NUMINV);\r\n\t \t}\r\n }\t\r\n \telse if(sub_ind==3) \r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMSK++;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMSK--;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n }\t\r\n \r\n \telse if(sub_ind==4)\t \r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t\t\ttree_down(0,0);\r\n\t }\r\n }\t \r\n\t}\r\n\r\nelse if(ind==iStr_GLONASS)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\t//if(sub_ind==2)index_set=1;\r\n\t\t//if(sub_ind==3)sub_ind++;\r\n\t\tgran_char(&sub_ind,0,4);\t\r\n\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\t//if(sub_ind==3)sub_ind--;\r\n\t\tgran_char(&sub_ind,0,4);\t \r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=4;\t\t \r\n\t\t}\t\t\t\t\r\n else if(sub_ind==1)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMIST++;\r\n\t \tgran(&NUMIST,0,4);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMIST--;\r\n\t \tgran(&NUMIST,0,4);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n }\t\r\n\r\n\t else if(sub_ind==2)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMINV++;\r\n\t \tgran(&NUMINV,0,2);\r\n\t \tlc640_write_int(EE_NUMINV,NUMINV);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMINV--;\r\n\t \tgran(&NUMINV,0,2);\r\n\t \tlc640_write_int(EE_NUMINV,NUMINV);\r\n\t \t}\r\n }\t\r\n \telse if(sub_ind==3) \r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMSK++;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMSK--;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n }\t\r\n \r\n \telse if(sub_ind==4)\t \r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t\t\ttree_down(0,0);\r\n\t }\r\n }\t \r\n\t}\r\n\r\nelse if(ind==iStr_KONTUR)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,1,2);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,1,2);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=4;\r\n\t\t}\t\t\t\t\r\n else if(sub_ind==1)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMIST++;\r\n\t \tgran(&NUMIST,0,12);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMIST--;\r\n\t \tgran(&NUMIST,0,12);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n }\t\r\n \r\n else if(sub_ind==2)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t\t\ttree_down(0,0);\r\n\t }\r\n }\t \r\n\t} \r\n#endif\t//UKU_6U_WEB\t\r\nelse if(ind==iStr_6U)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==4)index_set=3;\r\n\t\tif(sub_ind==5)sub_ind++;\r\n\t\tgran_char(&sub_ind,1,8);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==5)sub_ind--;\r\n\t\tgran_char(&sub_ind,1,8);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=4;\r\n\t\t}\t\t\t\t\r\n else if(sub_ind==1)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMIST++;\r\n\t \tgran(&NUMIST,0,12);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMIST--;\r\n\t \tgran(&NUMIST,0,12);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n }\t\r\n \r\n /* else if(sub_ind==2)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMINV++;\r\n\t \tgran(&NUMINV,0,15);\r\n\t \tlc640_write_int(EE_NUMINV,NUMINV);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMINV--;\r\n\t \tgran(&NUMINV,0,15);\r\n\t \tlc640_write_int(EE_NUMINV,NUMINV);\r\n\t \t}\r\n }\r\n else if(sub_ind==3)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMBYPASS++;\r\n\t \tgran(&NUMBYPASS,0,1);\r\n\t \tlc640_write_int(EE_NUMBYPASS,NUMBYPASS);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMBYPASS--;\r\n\t \tgran(&NUMBYPASS,0,1);\r\n\t \tlc640_write_int(EE_NUMBYPASS,NUMBYPASS);\r\n\t \t}\r\n }\t/ \t\t\t \r\n else if(sub_ind==2)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMDT++;\r\n\t \tgran(&NUMDT,0,3);\r\n\t \tlc640_write_int(EE_NUMDT,NUMDT);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMDT--;\r\n\t \tgran(&NUMDT,0,3);\r\n\t \tlc640_write_int(EE_NUMDT,NUMDT);\r\n\t \t}\r\n }\t\r\n else if(sub_ind==3)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMSK++;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMSK--;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n }\r\n\telse if(sub_ind==4) \r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t \tNUMPHASE=3;\r\n\t \tlc640_write_int(EE_NUMPHASE,NUMPHASE);\r\n\t \t}\r\n\t \r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t\t\tNUMPHASE=1;\r\n\t \tlc640_write_int(EE_NUMPHASE,NUMPHASE);\r\n\t \t}\r\n\t\t}\r\n else if(sub_ind==6)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMMAKB++;\r\n\t\t\tif(NUMMAKB==1)NUMMAKB++;\r\n\t\t\tif(NUMMAKB==3)NUMMAKB++;\r\n\t \tgran(&NUMMAKB,0,4);\r\n\t \tlc640_write_int(EE_NUMMAKB,NUMMAKB);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMMAKB--;\r\n\t\t\tif(NUMMAKB==1)NUMMAKB--;\r\n\t\t\tif(NUMMAKB==3)NUMMAKB--;\r\n\t \tgran(&NUMMAKB,0,4);\r\n\t \tlc640_write_int(EE_NUMMAKB,NUMMAKB);\r\n\t \t}\r\n }\r\n\telse if(sub_ind==7) \r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t \tif(NUMENMV) NUMENMV=0;\r\n\t\t\telse NUMENMV=1;\r\n\t \tlc640_write_int(EE_NUMENMV,NUMENMV);\r\n\t \t}\r\n\t \r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tif(NUMENMV) NUMENMV=0;\r\n\t\t\telse NUMENMV=1;\r\n\t \tlc640_write_int(EE_NUMENMV,NUMENMV);\r\n\t \t}\r\n\t\t}\t\t \t\t\t \r\n else if(sub_ind==8)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t\t\ttree_down(0,0);\r\n\t }\r\n }\t \r\n\t} \r\n/\r\nelse if(ind==iStr_220_IPS_TERMOKOMPENSAT)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=4;\r\n\t\t}\t\t\t\t\r\n else if(sub_ind==0)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMIST++;\r\n\t \tgran(&NUMIST,0,18);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMIST--;\r\n\t \tgran(&NUMIST,0,18);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n }\t\r\n \r\n else if(sub_ind==1)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMDT++;\r\n\t \tgran(&NUMDT,0,3);\r\n\t \tlc640_write_int(EE_NUMDT,NUMDT);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMDT--;\r\n\t \tgran(&NUMDT,0,3);\r\n\t \tlc640_write_int(EE_NUMDT,NUMDT);\r\n\t \t}\r\n }\t\r\n\r\n else if(sub_ind==2)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMMAKB++;\r\n\t\t\tif(NUMMAKB==1)NUMMAKB++;\r\n\t\t\tif(NUMMAKB==3)NUMMAKB++;\r\n\t \tgran(&NUMMAKB,0,4);\r\n\t \tlc640_write_int(EE_NUMMAKB,NUMMAKB);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMMAKB--;\r\n\t\t\tif(NUMMAKB==1)NUMMAKB--;\r\n\t\t\tif(NUMMAKB==3)NUMMAKB--;\r\n\t \tgran(&NUMMAKB,0,4);\r\n\t \tlc640_write_int(EE_NUMMAKB,NUMMAKB);\r\n\t \t}\r\n }\r\n else if(sub_ind==3)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMSK++;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMSK--;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n\t\t}\t\r\n else if(sub_ind==4)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMBDR++;\r\n\t \tgran(&NUMBDR,0,1);\r\n\t \tlc640_write_int(EE_NUMBDR,NUMBDR);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMBDR--;\r\n\t \tgran(&NUMBDR,0,1);\r\n\t \tlc640_write_int(EE_NUMBDR,NUMBDR);\r\n\t \t}\r\n\t\t}\t\t\t\t\t \t\t\t \r\n else if(sub_ind==5)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t\t\ttree_down(0,0);\r\n\t }\r\n }\r\n\t}/\r\n#ifndef UKU_6U_WEB\t\r\nelse if(ind==iStr_220_IPS_TERMOKOMPENSAT)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,9); //o_5\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,9); //o_5\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=9;\t//o_5\r\n\t\t}\r\n else if(sub_ind==0)\r\n\t\t{\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMBAT++;\r\n\t \tgran(&NUMBAT,0,1);\r\n\t \tlc640_write_int(EE_NUMBAT,NUMBAT);\r\n\r\n\t\t\tlc640_write_int(EE_BAT1_ZAR_CNT,100);\r\n\t\t\tbat_hndl_zvu_init=0;\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMBAT--;\r\n\t \tgran(&NUMBAT,0,1);\r\n\t \tlc640_write_int(EE_NUMBAT,NUMBAT);\r\n\r\n\t \t}\r\n\t\t}\t\t\t\t\t\t\r\n else if(sub_ind==1)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMIST++;\r\n\t \tgran(&NUMIST,0,18);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMIST--;\r\n\t \tgran(&NUMIST,0,18);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n }\t\r\n \r\n else if(sub_ind==2)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMDT++;\r\n\t \tgran(&NUMDT,0,3);\r\n\t \tlc640_write_int(EE_NUMDT,NUMDT);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMDT--;\r\n\t \tgran(&NUMDT,0,3);\r\n\t \tlc640_write_int(EE_NUMDT,NUMDT);\r\n\t \t}\r\n }\t\r\n\r\n else if(sub_ind==3)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMMAKB++;\r\n\t\t\tif(NUMMAKB==1)NUMMAKB++;\r\n\t\t\tif(NUMMAKB==3)NUMMAKB++;\r\n\t \tgran(&NUMMAKB,0,4);\r\n\t \tlc640_write_int(EE_NUMMAKB,NUMMAKB);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMMAKB--;\r\n\t\t\tif(NUMMAKB==1)NUMMAKB--;\r\n\t\t\tif(NUMMAKB==3)NUMMAKB--;\r\n\t \tgran(&NUMMAKB,0,4);\r\n\t \tlc640_write_int(EE_NUMMAKB,NUMMAKB);\r\n\t \t}\r\n }\r\n else if(sub_ind==4)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMSK++;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMSK--;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n\t\t}\r\n\telse if(sub_ind==5)\t\r\n\t {\r\n\t if(num_rki==0 && ((but==butR)\|\|(but==butR_))) {num_rki=1; lc640_write_int(EE_NUM_RKI, num_rki);}\r\n\t\t else if((but==butL)\|\|(but==butL_)) {num_rki=0; lc640_write_int(EE_NUM_RKI, num_rki);}\r\n }\r\n\telse if(sub_ind==6)\t\r\n\t {\r\n\t if(num_net_in==0 && ((but==butR)\|\|(but==butR_))) {num_net_in=1; lc640_write_int(EE_NUM_NET_IN, num_net_in);}\r\n\t\t else if((but==butL)\|\|(but==butL_)) {num_net_in=0; lc640_write_int(EE_NUM_NET_IN, num_net_in);}\r\n }\r\n else if(sub_ind==7)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMBDR++;\r\n\t \tgran(&NUMBDR,0,1);\r\n\t \tlc640_write_int(EE_NUMBDR,NUMBDR);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMBDR--;\r\n\t \tgran(&NUMBDR,0,1);\r\n\t \tlc640_write_int(EE_NUMBDR,NUMBDR);\r\n\t \t}\r\n\t\t}\r\n\t//o_5_s\r\n\telse if(sub_ind==8) \r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t \tif(NUMENMV) NUMENMV=0;\r\n\t\t\telse NUMENMV=1;\r\n\t \tlc640_write_int(EE_NUMENMV,NUMENMV);\r\n\t \t}\r\n\t \r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tif(NUMENMV) NUMENMV=0;\r\n\t\t\telse NUMENMV=1;\r\n\t \tlc640_write_int(EE_NUMENMV,NUMENMV);\r\n\t \t}\r\n\t\t}\r\n\t//o_5_e\t\t \t\t \t\t\t \t\t\t \r\n\telse if(sub_ind==9)\t//o_5 \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iStr_TELECORE2015)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=4;\r\n\t\t}\r\n else if(sub_ind==0)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMBAT_TELECORE++;\r\n\t \tgran(&NUMBAT_TELECORE,1,3);\r\n\t \tlc640_write_int(EE_NUMBAT_TELECORE,NUMBAT_TELECORE);\r\n\t\t\t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMBAT_TELECORE--;\r\n\t \tgran(&NUMBAT_TELECORE,1,3);\r\n\t \tlc640_write_int(EE_NUMBAT_TELECORE,NUMBAT_TELECORE);\r\n\t \t}\r\n }\t\t\t\t\t\t\t\r\n else if(sub_ind==1)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMIST++;\r\n\t \tgran(&NUMIST,0,12);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMIST--;\r\n\t \tgran(&NUMIST,0,12);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n }\t \t\t\t \r\n else if(sub_ind==2)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMDT++;\r\n\t \tgran(&NUMDT,0,3);\r\n\t \tlc640_write_int(EE_NUMDT,NUMDT);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMDT--;\r\n\t \tgran(&NUMDT,0,3);\r\n\t \tlc640_write_int(EE_NUMDT,NUMDT);\r\n\t \t}\r\n }\t\r\n else if(sub_ind==3)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMSK++;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMSK--;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n } \r\n else if(sub_ind==4)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t\t\t\ttree_down(0,0);\r\n\t }\r\n }\t \r\n\t}\r\nelse if(ind==iStr_IPS_SGEP_GAZPROM)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,1);\t\r\n\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,1);\t \r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=1;\t\t \r\n\t\t}\t\t\t\t\r\n else if(sub_ind==0)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMIST++;\r\n\t \tgran(&NUMIST,0,2);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMIST--;\r\n\t \tgran(&NUMIST,0,2);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t\t\tnumOfForvardBps_init();\r\n\t \t}\r\n }\t\r\n\telse if(sub_ind==1)\t \t\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t}\t \r\n\t}\r\n#endif\t//UKU_6U_WEB\t\t \r\nelse if (ind==iLan_set)\r\n\t{\r\n\tchar si_max;\r\n\tret(1000);\r\n\r\n\tsi_max=1;\r\n\tif(ETH_IS_ON!=0)si_max=21;\r\n\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\r\n\t\tif((sub_ind==2)&&(index_set==0))\r\n\t\t\t{\r\n\t\t\tindex_set=1;\r\n\t\t\tsub_ind1=0;\r\n\t\t\t}\r\n\t\tif(sub_ind==3) \r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\tsub_ind1=0;\r\n\t\t\t}\r\n\t\tif(sub_ind==5) \r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\tindex_set=5;\r\n\t\t\tsub_ind1=0;\r\n\t\t\t}\r\n\t\tif(sub_ind==7) \r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\t//index_set=3;\r\n\t\t\tsub_ind1=0;\r\n\t\t\t}\r\n\t\tif(sub_ind==10) \r\n\t\t\t{\r\n\t\t\t//sub_ind=6;\r\n\t\t\t//index_set=9;\r\n\t\t\tsub_ind1=0;\r\n\t\t\t}\r\n\t\tif(sub_ind==11) \r\n\t\t\t{\r\n\t\t\t//sub_ind=6;\r\n\t\t\tindex_set=10;\r\n\t\t\tsub_ind1=0;\r\n\t\t\t}\r\n\t\tif(sub_ind==12) \r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\t}\r\n\t\tif(sub_ind==13) \r\n\t\t\t{\r\n\t\t\t//sub_ind=6;\r\n\t\t\tindex_set=12;\r\n\t\t\tsub_ind1=0;\r\n\t\t\t}\r\n\t\tif(sub_ind==14) \r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\t}\r\n\t\tif(sub_ind==15) \r\n\t\t\t{\r\n\t\t\t//sub_ind=6;\r\n\t\t\tindex_set=14;\r\n\t\t\tsub_ind1=0;\r\n\t\t\t}\r\n\t\tif(sub_ind==16) \r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\t}\r\n\t\tif(sub_ind==17) \r\n\t\t\t{\r\n\t\t\t//sub_ind=6;\r\n\t\t\tindex_set=16;\r\n\t\t\tsub_ind1=0;\r\n\t\t\t}\r\n\t\tif(sub_ind==18) \r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\t}\r\n\t\tif(sub_ind==19) \r\n\t\t\t{\r\n\t\t\t//sub_ind=6;\r\n\t\t\tindex_set=18;\r\n\t\t\tsub_ind1=0;\r\n\t\t\t}\r\n\t\tif(sub_ind==20) \r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\t}\r\n\t/\tif((sub_ind==4)&&(index_set==2))\r\n\t\t\t{\r\n\t\t\tindex_set=3;\r\n\t\t\tsub_ind1=0;\r\n\t\t\t}/\r\n\t\t\r\n\t\tgran_char(&sub_ind,0,si_max);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,si_max);\r\n\t\tif(sub_ind==20) \r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\t}\t\t\r\n\t\tif(sub_ind==18) \r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\t}\t\t\r\n\t\tif(sub_ind==16) \r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\t}\r\n\t\tif(sub_ind==14) \r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\t}\r\n\t\tif(sub_ind==12) \r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\t}\r\n\t\tif(sub_ind==7) \r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\t}\r\n\t\tif(sub_ind==5) \r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\t}\r\n\t\tif(sub_ind==3) \r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=si_max;\r\n\t\t}\r\n\telse if(but==butLR_)\r\n\t\t{\r\n\t\tlc640_write_int(EE_ETH_IS_ON,1);\r\n\t\tlc640_write_int(EE_ETH_DHCP_ON,1);\r\n\t\tlc640_write_int(EE_ETH_IP_1,192);\r\n\t\tlc640_write_int(EE_ETH_IP_2,168);\r\n\t\tlc640_write_int(EE_ETH_IP_3,1);\r\n\t\tlc640_write_int(EE_ETH_IP_4,251);\r\n\t\t#ifdef UKU_KONTUR\r\n\t\tlc640_write_int(EE_ETH_IP_4,230);\r\n\t\t#endif\r\n\t\tlc640_write_int(EE_ETH_MASK_1,255);\r\n\t\tlc640_write_int(EE_ETH_MASK_2,255);\r\n\t\tlc640_write_int(EE_ETH_MASK_3,255);\r\n\t\tlc640_write_int(EE_ETH_MASK_4,0);\r\n\t\tlc640_write_int(EE_ETH_GW_1,192);\r\n\t\tlc640_write_int(EE_ETH_GW_2,168);\r\n\t\tlc640_write_int(EE_ETH_GW_3,1);\r\n\t\tlc640_write_int(EE_ETH_GW_4,254);\r\n\t\tlc640_write_int(EE_ETH_SNMP_PORT_READ,161);\r\n\t\tlc640_write_int(EE_ETH_SNMP_PORT_WRITE,162);\r\n\t\tlc640_write_int(EE_COMMUNITY,'1');\r\n\t\tlc640_write_int(EE_COMMUNITY+2,'2');\r\n\t\tlc640_write_int(EE_COMMUNITY+4,'3');\r\n\t\tlc640_write_int(EE_COMMUNITY+6,0);\r\n\t\tlc640_write_int(EE_COMMUNITY+8,0);\r\n\t\tlc640_write_int(EE_ETH_TRAP1_IP_1,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP1_IP_2,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP1_IP_3,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP1_IP_4,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP2_IP_1,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP2_IP_2,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP2_IP_3,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP2_IP_4,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP3_IP_1,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP3_IP_2,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP3_IP_3,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP3_IP_4,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP4_IP_1,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP4_IP_2,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP4_IP_3,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP4_IP_4,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP5_IP_1,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP5_IP_2,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP5_IP_3,255);\r\n\t\tlc640_write_int(EE_ETH_TRAP5_IP_4,255);\r\n\t\t}\t\t\t\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if((but==butE)\|\|(but==butL)\|\|(but==butR))\r\n\t \t{\r\n\t \tif(ETH_IS_ON)lc640_write_int(EE_ETH_IS_ON,0);\r\n\t\t\telse lc640_write_int(EE_ETH_IS_ON,1);\r\n\t \t}\r\n\t }\t\r\n else if((sub_ind==1)&&(ETH_IS_ON))\r\n\t {\r\n\t\tif((but==butE)\|\|(but==butL)\|\|(but==butR))\r\n\t \t{\r\n\t \tif(ETH_DHCP_ON)lc640_write_int(EE_ETH_DHCP_ON,0);\r\n\t\t\telse lc640_write_int(EE_ETH_DHCP_ON,1);\r\n\t \t}\r\n\t\t}\t\r\n else if(sub_ind==2)\r\n\t {\r\n\t\tif(but==butE_)\r\n\t \t{\r\n\t \tsub_ind1++;\r\n\t\t\tgran_ring_char(&sub_ind1,0,3);\r\n\t \t}\r\n\t\telse if(sub_ind1==0)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_IP_1++;\r\n\t\t\t\tgran_ring(&ETH_IP_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_IP_1,ETH_IP_1);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_IP_1--;\r\n\t\t\t\tgran_ring(&ETH_IP_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_IP_1,ETH_IP_1);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==1)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_IP_2++;\r\n\t\t\t\tgran_ring(&ETH_IP_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_IP_2,ETH_IP_2);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_IP_2--;\r\n\t\t\t\tgran_ring(&ETH_IP_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_IP_2,ETH_IP_2);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==2)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_IP_3++;\r\n\t\t\t\tgran_ring(&ETH_IP_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_IP_3,ETH_IP_3);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_IP_3--;\r\n\t\t\t\tgran_ring(&ETH_IP_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_IP_3,ETH_IP_3);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==3)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_IP_4++;\r\n\t\t\t\tgran_ring(&ETH_IP_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_IP_4,ETH_IP_4);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_IP_4--;\r\n\t\t\t\tgran_ring(&ETH_IP_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_IP_4,ETH_IP_4);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\r\n }\r\n else if(sub_ind==4)\r\n\t {\r\n\t\tif(but==butE_)\r\n\t \t{\r\n\t \tsub_ind1++;\r\n\t\t\tgran_ring_char(&sub_ind1,0,3);\r\n\t \t}\r\n\t\telse if(sub_ind1==0)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_MASK_1++;\r\n\t\t\t\tgran_ring(&ETH_MASK_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_MASK_1,ETH_MASK_1);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_MASK_1--;\r\n\t\t\t\tgran_ring(&ETH_MASK_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_MASK_1,ETH_MASK_1);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==1)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_MASK_2++;\r\n\t\t\t\tgran_ring(&ETH_MASK_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_MASK_2,ETH_MASK_2);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_MASK_2--;\r\n\t\t\t\tgran_ring(&ETH_MASK_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_MASK_2,ETH_MASK_2);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==2)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_MASK_3++;\r\n\t\t\t\tgran_ring(&ETH_MASK_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_MASK_3,ETH_MASK_3);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_MASK_3--;\r\n\t\t\t\tgran_ring(&ETH_MASK_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_MASK_3,ETH_MASK_3);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==3)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_MASK_4++;\r\n\t\t\t\tgran_ring(&ETH_MASK_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_MASK_4,ETH_MASK_4);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_MASK_4--;\r\n\t\t\t\tgran_ring(&ETH_MASK_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_MASK_4,ETH_MASK_4);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\t}\r\n else if(sub_ind==6)\r\n\t {\r\n\t\tif(but==butE_)\r\n\t \t{\r\n\t \tsub_ind1++;\r\n\t\t\tgran_ring_char(&sub_ind1,0,3);\r\n\t \t}\r\n\t\telse if(sub_ind1==0)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_GW_1++;\r\n\t\t\t\tgran_ring(&ETH_GW_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_GW_1,ETH_GW_1);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_GW_1--;\r\n\t\t\t\tgran_ring(&ETH_GW_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_GW_1,ETH_GW_1);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==1)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_GW_2++;\r\n\t\t\t\tgran_ring(&ETH_GW_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_GW_2,ETH_GW_2);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_GW_2--;\r\n\t\t\t\tgran_ring(&ETH_GW_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_GW_2,ETH_GW_2);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==2)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_GW_3++;\r\n\t\t\t\tgran_ring(&ETH_GW_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_GW_3,ETH_GW_3);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_GW_3--;\r\n\t\t\t\tgran_ring(&ETH_GW_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_GW_3,ETH_GW_3);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==3)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_GW_4++;\r\n\t\t\t\tgran_ring(&ETH_GW_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_GW_4,ETH_GW_4);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_GW_4--;\r\n\t\t\t\tgran_ring(&ETH_GW_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_GW_4,ETH_GW_4);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\t}\r\n else if(sub_ind==8)\r\n\t {\r\n\t\tif(but==butR)ETH_SNMP_PORT_READ++;\r\n\t\telse if(but==butR_)ETH_SNMP_PORT_READ+=2;\r\n\t\telse if(but==butL)ETH_SNMP_PORT_READ--;\r\n\t\telse if(but==butL_)ETH_SNMP_PORT_READ-=2;\r\n\t\tspeed=1;\r\n\t\tlc640_write_int(EE_ETH_SNMP_PORT_READ,ETH_SNMP_PORT_READ);\r\n\t\t}\r\n\r\n else if(sub_ind==9)\r\n\t {\r\n\t\tif(but==butR)ETH_SNMP_PORT_WRITE++;\r\n\t\telse if(but==butR_)ETH_SNMP_PORT_WRITE+=2;\r\n\t\telse if(but==butL)ETH_SNMP_PORT_WRITE--;\r\n\t\telse if(but==butL_)ETH_SNMP_PORT_WRITE-=2;\r\n\t\tspeed=1;\r\n\t\tlc640_write_int(EE_ETH_SNMP_PORT_WRITE,ETH_SNMP_PORT_WRITE);\r\n\t\t}\t\t\t\t\t\r\n else if(sub_ind==10)\r\n\t {\r\n\t\tif(but==butE_)\r\n\t \t{\r\n\t \tsub_ind1++;\r\n\t\t\tgran_ring_char(&sub_ind1,0,8);\r\n\t \t}\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tsnmp_community[sub_ind1]++;\r\n\t\t\tif(snmp_community[sub_ind1]<32) snmp_community[sub_ind1]=32;\r\n\t\t\telse if ((snmp_community[sub_ind1]>32)&&(snmp_community[sub_ind1]<48)) snmp_community[sub_ind1]=48;\r\n\t\t\telse if ((snmp_community[sub_ind1]>57)&&(snmp_community[sub_ind1]<65)) snmp_community[sub_ind1]=65;\r\n\t\t\telse if ((snmp_community[sub_ind1]>90)&&(snmp_community[sub_ind1]<97)) snmp_community[sub_ind1]=97;\r\n\t\t\telse if (snmp_community[sub_ind1]>122) snmp_community[sub_ind1]=32;\r\n\t\t\t\t//gran_ring(&ETH_GW_1,0,255);\r\n\t\t\tlc640_write_int(EE_COMMUNITY+(sub_ind12),snmp_community[sub_ind1]);\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\tif((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tsnmp_community[sub_ind1]--;\r\n\t\t\tif(snmp_community[sub_ind1]<32) snmp_community[sub_ind1]=122;\r\n\t\t\telse if ((snmp_community[sub_ind1]>32)&&(snmp_community[sub_ind1]<48)) snmp_community[sub_ind1]=32;\r\n\t\t\telse if ((snmp_community[sub_ind1]>57)&&(snmp_community[sub_ind1]<65)) snmp_community[sub_ind1]=57;\r\n\t\t\telse if ((snmp_community[sub_ind1]>90)&&(snmp_community[sub_ind1]<97)) snmp_community[sub_ind1]=90;\r\n\t\t\telse if (snmp_community[sub_ind1]>122) snmp_community[sub_ind1]=122;\r\n\t\t\t//gran_ring(&ETH_GW_1,0,255);\r\n\t\t\tlc640_write_int(EE_COMMUNITY+(sub_ind12),snmp_community[sub_ind1]);\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\t}\r\n \r\n else if(sub_ind==11)\r\n\t {\r\n\t\tif(but==butE_)\r\n\t \t{\r\n\t \tsub_ind1++;\r\n\t\t\tgran_ring_char(&sub_ind1,0,3);\r\n\t \t}\r\n\t\telse if(sub_ind1==0)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP1_IP_1++;\r\n\t\t\t\tgran_ring(&ETH_TRAP1_IP_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP1_IP_1,ETH_TRAP1_IP_1);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP1_IP_1--;\r\n\t\t\t\tgran_ring(&ETH_TRAP1_IP_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP1_IP_1,ETH_TRAP1_IP_1);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==1)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP1_IP_2++;\r\n\t\t\t\tgran_ring(&ETH_TRAP1_IP_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP1_IP_2,ETH_TRAP1_IP_2);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP1_IP_2--;\r\n\t\t\t\tgran_ring(&ETH_TRAP1_IP_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP1_IP_2,ETH_TRAP1_IP_2);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==2)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP1_IP_3++;\r\n\t\t\t\tgran_ring(&ETH_TRAP1_IP_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP1_IP_3,ETH_TRAP1_IP_3);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP1_IP_3--;\r\n\t\t\t\tgran_ring(&ETH_TRAP1_IP_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP1_IP_3,ETH_TRAP1_IP_3);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==3)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP1_IP_4++;\r\n\t\t\t\tgran_ring(&ETH_TRAP1_IP_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP1_IP_4,ETH_TRAP1_IP_4);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP1_IP_4--;\r\n\t\t\t\tgran_ring(&ETH_TRAP1_IP_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP1_IP_4,ETH_TRAP1_IP_4);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\t}\t\r\n else if(sub_ind==13)\r\n\t {\r\n\t\tif(but==butE_)\r\n\t \t{\r\n\t \tsub_ind1++;\r\n\t\t\tgran_ring_char(&sub_ind1,0,3);\r\n\t \t}\r\n\t\telse if(sub_ind1==0)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP2_IP_1++;\r\n\t\t\t\tgran_ring(&ETH_TRAP2_IP_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP2_IP_1,ETH_TRAP2_IP_1);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP2_IP_1--;\r\n\t\t\t\tgran_ring(&ETH_TRAP2_IP_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP2_IP_1,ETH_TRAP2_IP_1);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==1)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP2_IP_2++;\r\n\t\t\t\tgran_ring(&ETH_TRAP2_IP_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP2_IP_2,ETH_TRAP2_IP_2);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP2_IP_2--;\r\n\t\t\t\tgran_ring(&ETH_TRAP2_IP_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP2_IP_2,ETH_TRAP2_IP_2);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==2)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP2_IP_3++;\r\n\t\t\t\tgran_ring(&ETH_TRAP2_IP_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP2_IP_3,ETH_TRAP2_IP_3);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP2_IP_3--;\r\n\t\t\t\tgran_ring(&ETH_TRAP2_IP_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP2_IP_3,ETH_TRAP2_IP_3);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==3)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP2_IP_4++;\r\n\t\t\t\tgran_ring(&ETH_TRAP2_IP_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP2_IP_4,ETH_TRAP2_IP_4);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP2_IP_4--;\r\n\t\t\t\tgran_ring(&ETH_TRAP2_IP_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP2_IP_4,ETH_TRAP2_IP_4);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\t}\t\r\n else if(sub_ind==15)\r\n\t {\r\n\t\tif(but==butE_)\r\n\t \t{\r\n\t \tsub_ind1++;\r\n\t\t\tgran_ring_char(&sub_ind1,0,3);\r\n\t \t}\r\n\t\telse if(sub_ind1==0)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP3_IP_1++;\r\n\t\t\t\tgran_ring(&ETH_TRAP3_IP_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP3_IP_1,ETH_TRAP3_IP_1);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP3_IP_1--;\r\n\t\t\t\tgran_ring(&ETH_TRAP3_IP_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP3_IP_1,ETH_TRAP3_IP_1);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==1)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP3_IP_2++;\r\n\t\t\t\tgran_ring(&ETH_TRAP3_IP_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP3_IP_2,ETH_TRAP3_IP_2);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP3_IP_2--;\r\n\t\t\t\tgran_ring(&ETH_TRAP3_IP_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP3_IP_2,ETH_TRAP3_IP_2);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==2)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP3_IP_3++;\r\n\t\t\t\tgran_ring(&ETH_TRAP3_IP_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP3_IP_3,ETH_TRAP3_IP_3);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP3_IP_3--;\r\n\t\t\t\tgran_ring(&ETH_TRAP3_IP_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP3_IP_3,ETH_TRAP3_IP_3);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==3)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP3_IP_4++;\r\n\t\t\t\tgran_ring(&ETH_TRAP3_IP_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP3_IP_4,ETH_TRAP3_IP_4);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP3_IP_4--;\r\n\t\t\t\tgran_ring(&ETH_TRAP3_IP_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP3_IP_4,ETH_TRAP3_IP_4);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\t}\t\r\n else if(sub_ind==17)\r\n\t {\r\n\t\tif(but==butE_)\r\n\t \t{\r\n\t \tsub_ind1++;\r\n\t\t\tgran_ring_char(&sub_ind1,0,3);\r\n\t \t}\r\n\t\telse if(sub_ind1==0)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP4_IP_1++;\r\n\t\t\t\tgran_ring(&ETH_TRAP4_IP_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP4_IP_1,ETH_TRAP4_IP_1);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP4_IP_1--;\r\n\t\t\t\tgran_ring(&ETH_TRAP4_IP_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP4_IP_1,ETH_TRAP4_IP_1);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==1)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP4_IP_2++;\r\n\t\t\t\tgran_ring(&ETH_TRAP4_IP_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP4_IP_2,ETH_TRAP4_IP_2);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP4_IP_2--;\r\n\t\t\t\tgran_ring(&ETH_TRAP4_IP_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP4_IP_2,ETH_TRAP4_IP_2);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==2)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP4_IP_3++;\r\n\t\t\t\tgran_ring(&ETH_TRAP4_IP_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP4_IP_3,ETH_TRAP4_IP_3);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP4_IP_3--;\r\n\t\t\t\tgran_ring(&ETH_TRAP4_IP_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP4_IP_3,ETH_TRAP4_IP_3);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==3)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP4_IP_4++;\r\n\t\t\t\tgran_ring(&ETH_TRAP4_IP_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP4_IP_4,ETH_TRAP4_IP_4);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP4_IP_4--;\r\n\t\t\t\tgran_ring(&ETH_TRAP4_IP_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP4_IP_4,ETH_TRAP4_IP_4);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\t}\t\r\n else if(sub_ind==19)\r\n\t {\r\n\t\tif(but==butE_)\r\n\t \t{\r\n\t \tsub_ind1++;\r\n\t\t\tgran_ring_char(&sub_ind1,0,3);\r\n\t \t}\r\n\t\telse if(sub_ind1==0)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP5_IP_1++;\r\n\t\t\t\tgran_ring(&ETH_TRAP5_IP_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP5_IP_1,ETH_TRAP5_IP_1);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP5_IP_1--;\r\n\t\t\t\tgran_ring(&ETH_TRAP5_IP_1,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP5_IP_1,ETH_TRAP5_IP_1);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==1)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP5_IP_2++;\r\n\t\t\t\tgran_ring(&ETH_TRAP5_IP_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP5_IP_2,ETH_TRAP5_IP_2);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP5_IP_2--;\r\n\t\t\t\tgran_ring(&ETH_TRAP5_IP_2,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP5_IP_2,ETH_TRAP5_IP_2);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==2)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP5_IP_3++;\r\n\t\t\t\tgran_ring(&ETH_TRAP5_IP_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP5_IP_3,ETH_TRAP5_IP_3);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP5_IP_3--;\r\n\t\t\t\tgran_ring(&ETH_TRAP5_IP_3,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP5_IP_3,ETH_TRAP5_IP_3);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind1==3)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP5_IP_4++;\r\n\t\t\t\tgran_ring(&ETH_TRAP5_IP_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP5_IP_4,ETH_TRAP5_IP_4);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tETH_TRAP5_IP_4--;\r\n\t\t\t\tgran_ring(&ETH_TRAP5_IP_4,0,255);\r\n\t\t\t\tlc640_write_int(EE_ETH_TRAP5_IP_4,ETH_TRAP5_IP_4);\r\n\t\t\t\t}\r\n\t\t\tspeed=1;\r\n\t\t\t}\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t \r\n else if(sub_ind==si_max)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_down(0,0);\r\n\t }\r\n }\t \t\r\n\t}\r\n\r\n#ifndef UKU_6U_WEB\r\nelse if (ind==iSpch_set)\r\n\t{\r\n ret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==3)index_set=2;\r\n\t\tif(sub_ind==4)sub_ind=5;\r\n\t\tif(sub_ind==8)sub_ind=9;\r\n\t\tif(sub_ind==9)index_set=8;\r\n\t\tif(sub_ind==10)sub_ind=11;\r\n\t\tgran_char(&sub_ind,0,11);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==4)sub_ind=3;\r\n\t\t//if(sub_ind==3)index_set=2;\r\n\t\tif(sub_ind==8)sub_ind=7;\r\n\t\tif(sub_ind==10)sub_ind=9;\r\n\t\tgran_char(&sub_ind,0,11);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=6;\r\n\t\t}\t\t\t\r\n/\telse if(but==butE)\r\n\t {\r\n\t if(sub_ind==9)\r\n\t {\r\n\t //a=b[--ptr_ind];\r\n\t tree_down(0,0);\r\n\t }\r\n }/\r\n \r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\tspeedChrgCurr++;\r\n\t\t\tgran(&speedChrgCurr,0,10000);\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_CURR,speedChrgCurr);\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\tspeedChrgCurr+=10;\r\n\t\t\tgran(&speedChrgCurr,0,10000);\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_CURR,speedChrgCurr);\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tspeedChrgCurr--;\r\n\t\t\tgran(&speedChrgCurr,0,10000);\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_CURR,speedChrgCurr);\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\tspeedChrgCurr-=10;\r\n\t\t\tgran(&speedChrgCurr,0,10000);\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_CURR,speedChrgCurr);\r\n\t\t\t}\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\tspeedChrgVolt++;\r\n\t\t\tgran(&speedChrgVolt,0,UMAX);\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_VOLT,speedChrgVolt);\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\tspeedChrgVolt=(speedChrgVolt/5+1)5;\r\n\t\t\tgran(&speedChrgVolt,0,UMAX);\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_VOLT,speedChrgVolt);\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tspeedChrgVolt--;\r\n\t\t\tgran(&speedChrgVolt,0,UMAX);\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_VOLT,speedChrgVolt);\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\tspeedChrgVolt=(speedChrgVolt/5-1)5;\r\n\t\t\tgran(&speedChrgVolt,0,UMAX);\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_VOLT,speedChrgVolt);\r\n\t\t\t}\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tspeedChrgTimeInHour++;\r\n\t\t\tgran(&speedChrgTimeInHour,1,24);\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_TIME,speedChrgTimeInHour);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tspeedChrgTimeInHour--;\r\n\t\t\tgran(&speedChrgTimeInHour,1,24);\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_TIME,speedChrgTimeInHour);\r\n\t\t\t}\r\n\t\tspeed=1;\r\n\t\t}\t\t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tspeedChrgAvtEn=1;\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_AVT_EN,speedChrgAvtEn);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tspeedChrgAvtEn=0;\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_AVT_EN,speedChrgAvtEn);\r\n\t\t\t}\r\n\t\tspeed=1;\r\n\t\t}\r\n\r\n\telse if(sub_ind==5)\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tspeedChrgDU++;\r\n\t\t\tgran(&speedChrgDU,1,100);\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_D_U,speedChrgDU);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tspeedChrgDU--;\r\n\t\t\tgran(&speedChrgDU,1,100);\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_D_U,speedChrgDU);\r\n\t\t\t}\r\n\t\tspeed=1;\r\n\t\t}\r\n\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tspeedChrgBlckSrc++;\r\n\t\t\tgran(&speedChrgBlckSrc,0,2);\r\n\t\t\tif(speedChrgBlckSrc==1)speedChrgBlckSrc=2;\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_BLOCK_SRC,speedChrgBlckSrc);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tspeedChrgBlckSrc--;\r\n\t\t\tgran(&speedChrgBlckSrc,0,2);\r\n\t\t\tif(speedChrgBlckSrc==1)speedChrgBlckSrc=0;\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_BLOCK_SRC,speedChrgBlckSrc);\r\n\t\t\t}\r\n\t\tspeed=1;\r\n\t\t}\r\n\r\n\telse if(sub_ind==7)\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tspeedChrgBlckLog=1;\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_BLOCK_LOG,speedChrgBlckLog);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tspeedChrgBlckLog=0;\r\n\t\t\tlc640_write_int(EE_SPEED_CHRG_BLOCK_LOG,speedChrgBlckLog);\r\n\t\t\t}\r\n\t\tspeed=1;\r\n\t\t}\r\n\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tSP_CH_VENT_BLOK=1;\r\n\t\t\tlc640_write_int(EE_SP_CH_VENT_BLOK,SP_CH_VENT_BLOK);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tSP_CH_VENT_BLOK=0;\r\n\t\t\tlc640_write_int(EE_SP_CH_VENT_BLOK,SP_CH_VENT_BLOK);\r\n\t\t\t}\r\n\t\tspeed=1;\r\n\t\t}\r\n\r\n\r\n\r\n\telse if((sub_ind==11)&&(but==butE))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t} \t\t\t\t\t\t\t\t\t\t\t\t\r\n\t}\r\n\r\nelse if (ind==iBlok_ips_set)\r\n\t{\r\n ret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)sub_ind=3;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==2)sub_ind=1;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3;\r\n\t\t}\t\t\t\r\n \r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tipsBlckSrc++;\r\n\t\t\tgran(&ipsBlckSrc,0,2);\r\n\t\t\tlc640_write_int(EE_IPS_BLOCK_SRC,ipsBlckSrc);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tipsBlckSrc--;\r\n\t\t\tgran(&ipsBlckSrc,0,2);\r\n\t\t\tlc640_write_int(EE_IPS_BLOCK_SRC,ipsBlckSrc);\r\n\t\t\t}\r\n\t\tspeed=1;\r\n\t\t}\r\n\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tipsBlckLog=1;\r\n\t\t\tlc640_write_int(EE_IPS_BLOCK_LOG,ipsBlckLog);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tipsBlckLog=0;\r\n\t\t\tlc640_write_int(EE_IPS_BLOCK_LOG,ipsBlckLog);\r\n\t\t\t}\r\n\t\tspeed=1;\r\n\t\t}\r\n\r\n\telse if((sub_ind==3)&&(but==butE))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t} \t\t\t\t\t\t\t\t\t\t\t\t\r\n\t}\r\n\r\nelse if (ind==iApv)\r\n\t{\r\n ret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=simax;\r\n\t\t}\t\t\t\r\n\telse if(but==butE)\r\n\t {\r\n\t if(sub_ind==simax)\r\n\t {\r\n\t //a=b[--ptr_ind];\r\n\t tree_down(0,0);\r\n\t }\r\n\t else if(sub_ind==0) \r\n\t {\r\n\t if(APV_ON1==apvON)lc640_write_int(EE_APV_ON1,apvOFF);\r\n\t else lc640_write_int(EE_APV_ON1,apvON);\r\n\t }\r\n else if((sub_ind==1)&&(APV_ON1==apvON)) \r\n\t {\r\n\t if(APV_ON2==apvON)lc640_write_int(EE_APV_ON2,apvOFF);\r\n\t else lc640_write_int(EE_APV_ON2,apvON);\r\n\t }\t \r\n }\r\n \r\n else if((sub_ind==2)&&(APV_ON2==apvON)) \r\n {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t {\r\n\t signed short tempSS;\r\n\t tempSS=APV_ON2_TIME;\r\n\t tempSS++;\r\n\t gran(&tempSS,1,24);\r\n\t lc640_write_int(EE_APV_ON2_TIME,tempSS);\r\n\t }\r\n else if((but==butL)\|\|(but==butL_))\r\n\t {\r\n\t signed short tempSS;\r\n\t tempSS=APV_ON2_TIME;\r\n\t tempSS--;\r\n\t gran(&tempSS,1,24);\r\n\t lc640_write_int(EE_APV_ON2_TIME,tempSS);\r\n\t }\t \r\n\t speed=1;\r\n\t }\t \r\n \t} \r\n\r\nelse if (ind==iExt_set)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==0))\r\n\t\t{\r\n\t tree_up(iExt_ddv,0,0,0);\r\n\t ret(0);\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==1))\r\n\t\t{\r\n\t tree_up(iExt_ddi,0,0,0);\r\n\t ret(0);\r\n\t\t}\r\n\telse if((but==butE)&&(sub_ind==2))\r\n\t\t{\r\n\t tree_up(iExt_dud,0,0,0);\r\n\t ret(0);\r\n\t\t}\r\n/\telse if((but==butE)&&(sub_ind==3))\r\n\t\t{\r\n\t tree_up(iExt_dp,0,0,0);\r\n\t ret(0);\r\n\t\t} /\r\n\t\t\r\n\telse if((but==butE)&&(sub_ind==3))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t} \t\r\n\t}\r\n\r\nelse if (ind==iExt_set_TELECORE2015)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,1);\t\t\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==0))\r\n\t\t{\r\n\t tree_up(iExt_ddv,0,0,0);\r\n\t ret(0);\r\n\t\t}\r\n\r\n\telse if((but==butE)&&(sub_ind==1))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t} \t\r\n\t}\r\n\r\n\r\nelse if (ind==iExt_set_3U)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMSK);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMSK);\t\t\r\n\t\t}\r\n \telse if((but==butE)&&(sub_ind==NUMSK))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\r\n\telse if((but==butE)&&(sub_ind==0))\r\n\t\t{\r\n\t tree_up(iExt_sk_3U,0,0,0);\r\n\t ret(0);\r\n\t\t}\r\n\telse if((but==butE)&&(sub_ind==1))\r\n\t\t{\r\n\t tree_up(iExt_sk_3U,0,0,1);\r\n\t ret(0);\r\n\t\t}\r\n\telse if((but==butE)&&(sub_ind==2))\r\n\t\t{\r\n\t tree_up(iExt_sk_3U,0,0,2);\r\n\t ret(0);\r\n\t\t}\r\n\telse if((but==butE)&&(sub_ind==3))\r\n\t\t{\r\n\t tree_up(iExt_sk_3U,0,0,3);\r\n\t ret(0);\r\n\t\t} \r\n\t}\r\n\r\nelse if (ind==iExt_set_GLONASS)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMSK);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMSK);\t\t\r\n\t\t}\r\n \telse if((but==butE)&&(sub_ind==NUMSK))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\r\n\telse if((but==butE)&&(sub_ind==0))\r\n\t\t{\r\n\t tree_up(iExt_sk_GLONASS,0,0,0);\r\n\t ret(0);\r\n\t\t}\r\n\telse if((but==butE)&&(sub_ind==1))\r\n\t\t{\r\n\t tree_up(iExt_sk_GLONASS,0,0,1);\r\n\t ret(0);\r\n\t\t}\r\n\telse if((but==butE)&&(sub_ind==2))\r\n\t\t{\r\n\t tree_up(iExt_sk_GLONASS,0,0,2);\r\n\t ret(0);\r\n\t\t}\r\n\telse if((but==butE)&&(sub_ind==3))\r\n\t\t{\r\n\t tree_up(iExt_sk_GLONASS,0,0,3);\r\n\t ret(0);\r\n\t\t} \r\n\t}\r\n\t\r\nelse if (ind==iExt_dt)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,1,7);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tif(sub_ind==1)index_set=0;\r\n\t\telse sub_ind--;\r\n\t\tgran_char(&sub_ind,1,7);\r\n\t\t}\t\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=7;\r\n\t\t}\t\t\t\r\n\t\t\r\n\telse if(sub_ind==1) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!TMAX_EXT_EN[sub_ind1])lc640_write_int(ADR_TMAX_EXT_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_TMAX_EXT_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\telse if((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tTMAX_EXT[sub_ind1]++;\r\n\t\t\t}\t\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tTMAX_EXT[sub_ind1]--;\r\n\t\t\t}\t\r\n\t\tgran(&TMAX_EXT[sub_ind1],-50,100);\r\n\t\tif(lc640_read_int(ADR_TMAX_EXT[sub_ind1])!=TMAX_EXT[sub_ind1]) lc640_write_int(ADR_TMAX_EXT[sub_ind1],TMAX_EXT[sub_ind1]);\t\t\t\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if(sub_ind==2) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!TMIN_EXT_EN[sub_ind1])lc640_write_int(ADR_TMIN_EXT_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_TMIN_EXT_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\telse if((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tTMIN_EXT[sub_ind1]++;\r\n\t\t\t}\t\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tTMIN_EXT[sub_ind1]--;\r\n\t\t\t}\t\r\n\t\tgran(&TMIN_EXT[sub_ind1],-50,100);\r\n\t\tif(lc640_read_int(ADR_TMIN_EXT[sub_ind1])!=TMIN_EXT[sub_ind1]) lc640_write_int(ADR_TMIN_EXT[sub_ind1],TMIN_EXT[sub_ind1]);\t\t\t\r\n\t\tspeed=1;\r\n\t\t}\t\t\r\n\telse if(sub_ind==3) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!T_EXT_REL_EN[sub_ind1])lc640_write_int(ADR_T_EXT_REL_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_T_EXT_REL_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==4) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!T_EXT_ZVUK_EN[sub_ind1])lc640_write_int(ADR_T_EXT_ZVUK_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_T_EXT_ZVUK_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==5) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!T_EXT_LCD_EN[sub_ind1])lc640_write_int(ADR_T_EXT_LCD_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_T_EXT_LCD_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==6) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!T_EXT_RS_EN[sub_ind1])lc640_write_int(ADR_T_EXT_RS_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_T_EXT_RS_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==7) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t//a=b[--ptr_ind];\r\n\t\t\t}\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t}\t\r\n\r\nelse if (ind==iExt_sk)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)sub_ind=3;\r\n\t\tgran_char(&sub_ind,1,7);\r\n\t\t\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tif(sub_ind==1)index_set=0;\r\n\t\telse sub_ind--;\r\n\t\tif(sub_ind==2)sub_ind=1;\r\n\t\tgran_char(&sub_ind,1,7);\r\n\t\t}\t\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=7;\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==1) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_SIGN[sub_ind1])lc640_write_int(ADR_SK_SIGN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_SIGN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==3) \r\n\t\t{\r\n\t//\tif(but==butE)\r\n\t\t//\t{\r\n\t//\t\tif(!SK_REL_EN[sub_ind1])lc640_write_int(ADR_SK_REL_EN[sub_ind1],0xffff);\r\n\t//\t\telse lc640_write_int(ADR_SK_REL_EN[sub_ind1],0);\r\n\t//\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==4) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_ZVUK_EN[sub_ind1])lc640_write_int(ADR_SK_ZVUK_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_ZVUK_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==5) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_LCD_EN[sub_ind1])lc640_write_int(ADR_SK_LCD_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_LCD_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==6) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_RS_EN[sub_ind1])lc640_write_int(ADR_SK_RS_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_RS_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==7) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\t//a=b[--ptr_ind];\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t}\t\r\n\r\nelse if (ind==iExt_sk_3U)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)sub_ind=3;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tif(sub_ind==1)index_set=0;\r\n\t\telse sub_ind--;\r\n\t\tif(sub_ind==2)sub_ind=1;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t}\t\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=5;\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==1) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_SIGN[sub_ind1])lc640_write_int(ADR_SK_SIGN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_SIGN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==3) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_ZVUK_EN[sub_ind1])lc640_write_int(ADR_SK_ZVUK_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_ZVUK_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==4) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_LCD_EN[sub_ind1])lc640_write_int(ADR_SK_LCD_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_LCD_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==5) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t}\t\r\n\r\nelse if (ind==iExt_sk_GLONASS)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)sub_ind=3;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tif(sub_ind==1)index_set=0;\r\n\t\telse sub_ind--;\r\n\t\tif(sub_ind==2)sub_ind=1;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t}\t\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=5;\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==1) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_SIGN[sub_ind1])lc640_write_int(ADR_SK_SIGN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_SIGN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==3) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_ZVUK_EN[sub_ind1])lc640_write_int(ADR_SK_ZVUK_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_ZVUK_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==4) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_LCD_EN[sub_ind1])lc640_write_int(ADR_SK_LCD_EN[sub_ind1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_LCD_EN[sub_ind1],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==5) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t}\t\r\n\r\n\r\nelse if (ind==iExt_ddv)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)sub_ind=3;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tif(sub_ind==1)index_set=0;\r\n\t\telse sub_ind--;\r\n\t\tif(sub_ind==2)sub_ind=1;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t}\t\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=7;\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==1) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_SIGN[0])lc640_write_int(ADR_SK_SIGN[0],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_SIGN[0],0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==3) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(SK_REL_EN[0])lc640_write_int(ADR_SK_REL_EN[0],0);\r\n\t\t\telse lc640_write_int(ADR_SK_REL_EN[0],0xffff);\r\n\t\t\t}\r\n\t\t}\t\r\n\r\n\telse if(sub_ind==4) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(SK_LCD_EN[0])lc640_write_int(ADR_SK_LCD_EN[0],0);\r\n\t\t\telse lc640_write_int(ADR_SK_LCD_EN[0],0xffff);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==5) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t}\t\r\n\r\nelse if (ind==iExt_ddi)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)sub_ind=3;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tif(sub_ind==1)index_set=0;\r\n\t\telse sub_ind--;\r\n\t\tif(sub_ind==2)sub_ind=1;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t}\t\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=7;\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==1) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_SIGN[1])lc640_write_int(ADR_SK_SIGN[1],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_SIGN[1],0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==3) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(SK_REL_EN[1])lc640_write_int(ADR_SK_REL_EN[1],0);\r\n\t\t\telse lc640_write_int(ADR_SK_REL_EN[1],0xffff);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==4) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(SK_LCD_EN[1])lc640_write_int(ADR_SK_LCD_EN[1],0);\r\n\t\t\telse lc640_write_int(ADR_SK_LCD_EN[1],0xffff);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==5) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t}\r\n \r\n else if (ind==iExt_dud)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)sub_ind=3;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tif(sub_ind==1)index_set=0;\r\n\t\telse sub_ind--;\r\n\t\tif(sub_ind==2)sub_ind=1;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t}\t\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=7;\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==1) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_SIGN[2])lc640_write_int(ADR_SK_SIGN[2],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_SIGN[2],0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==3) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(SK_REL_EN[2])lc640_write_int(ADR_SK_REL_EN[2],0);\r\n\t\t\telse lc640_write_int(ADR_SK_REL_EN[2],0xffff);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==4) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(SK_LCD_EN[2])lc640_write_int(ADR_SK_LCD_EN[2],0);\r\n\t\t\telse lc640_write_int(ADR_SK_LCD_EN[2],0xffff);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==5) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t}\r\n/ \r\nelse if (ind==iExt_dp)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)sub_ind=3;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tif(sub_ind==1)index_set=0;\r\n\t\telse sub_ind--;\r\n\t\tif(sub_ind==2)sub_ind=1;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t}\t\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=7;\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==1) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_SIGN[3])lc640_write_int(ADR_SK_SIGN[3],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_SIGN[3],0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==3) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_REL_EN[3])lc640_write_int(ADR_SK_REL_EN[3],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_REL_EN[3],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==4) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif(!SK_LCD_EN[3])lc640_write_int(ADR_SK_LCD_EN[3],0xffff);\r\n\t\t\telse lc640_write_int(ADR_SK_LCD_EN[3],0);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==5) \r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t} \t\r\n/\t\t \r\nelse if(ind==iK)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+2);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+2);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+2;\r\n\t\t}\t\t\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\ttree_up(iK_net,0,0,0);\t\r\n\t\t\tret(1000);\t\t\r\n\t\t\t}\r\n\t\telse if((NUMBAT)&&(sub_ind==1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==(1+(NUMBAT!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n/\t\telse if((sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n \telse if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n else if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_power_net3,0,0,0);\t\r\n\t\t\tret(1000);\r\n } \t\t\t\t\r\n else if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+2))\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}/\r\n//\t\telse if((NUMINV)&&(sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_inv_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\t\t\t\t\t\t\t\r\n\t\t\telse if((sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0))))\t\t //\r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n// \telse if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)))\t //\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n//\t\telse if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+1))\t\t//\r\n\t\t\t{\r\n\t\t\ttree_up(iK_power_net3,0,0,0);\t\r\n\t\t\tret(1000);\r\n } \t\t\t\t\r\n//\t \telse if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+2))\t //\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}\t\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_GLONASS)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+2);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+2);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+2;\r\n\t\t}\t\t\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\ttree_up(iK_net,0,0,0);\t\r\n\t\t\tret(1000);\t\t\r\n\t\t\t}\r\n\t\telse if((NUMBAT)&&(sub_ind==1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==(1+(NUMBAT!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMINV)&&(sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_inv_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0))))\t\t \r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \telse if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)))\t \r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n\t \telse if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+1))\t \r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}\t\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_RSTKM)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+2);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+2);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+2;\r\n\t\t}\t\t\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\ttree_up(iK_net,0,0,0);\t\r\n\t\t\tret(1000);\t\t\r\n\t\t\t}\r\n\t\telse if((NUMBAT)&&(sub_ind==1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==(1+(NUMBAT!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n/\t\telse if((sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n \telse if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n else if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_power_net3,0,0,0);\t\r\n\t\t\tret(1000);\r\n } \t\t\t\t\r\n else if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+2))\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}/\r\n//\t\telse if((NUMINV)&&(sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_inv_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\t\t\t\t\t\t\t\r\n\t\t\telse if((sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0))))\t\t //\r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n// \telse if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)))\t //\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n//\t\telse if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+1))\t\t//\r\n\t\t\t{\r\n\t\t\ttree_up(iK_power_net3,0,0,0);\t\r\n\t\t\tret(1000);\r\n } \t\t\t\t\r\n//\t \telse if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+2))\t //\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iK_KONTUR)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,2+(NUMBAT!=0)+(NUMIST!=0)+2);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,2+(NUMBAT!=0)+(NUMIST!=0)+2);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=2+(NUMBAT!=0)+(NUMIST!=0)+2;\r\n\t\t}\t\t\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\ttree_up(iK_net,0,0,0);\t\r\n\t\t\tret(1000);\t\t\r\n\t\t\t}\r\n\t\telse if((NUMBAT)&&(sub_ind==1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==(1+(NUMBAT!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n \telse if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n else if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_power_net,0,0,0);\t\r\n\t\t\tret(1000);\r\n } \t\t\t\t\r\n else if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+2))\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_6U)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3+(NUMBAT!=0)+(NUMIST!=0)+(NUMDT!=0)+(NUMMAKB!=0));\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3+(NUMBAT!=0)+(NUMIST!=0)+(NUMDT!=0)+(NUMMAKB!=0));\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=2+(NUMBAT!=0)+(NUMIST!=0)+(NUMDT!=0)+(NUMMAKB!=0);\r\n\t\t}\r\n\telse if(sub_ind==(3+(NUMBAT!=0)+(NUMIST!=0)+(NUMDT!=0)+(NUMMAKB!=0)))\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tif(RS485_QWARZ_DIGIT==10)RS485_QWARZ_DIGIT=30;\r\n\t\t\telse if(RS485_QWARZ_DIGIT==30)RS485_QWARZ_DIGIT=40;\r\n\t\t\telse RS485_QWARZ_DIGIT=10;\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tif(RS485_QWARZ_DIGIT==10)RS485_QWARZ_DIGIT=40;\r\n\t\t\telse if(RS485_QWARZ_DIGIT==40)RS485_QWARZ_DIGIT=30;\r\n\t\t\telse RS485_QWARZ_DIGIT=10;\r\n\t\t\t}\r\n\t\tgran(&RS485_QWARZ_DIGIT,10,40);\r\n\t\tlc640_write_int(EE_RS485_QWARZ_DIGIT,RS485_QWARZ_DIGIT);\r\n\t\tspeed=0;\r\n\t\t}\t\t\t\t\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(AUSW_MAIN%10)\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net3,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if((NUMBAT)&&(sub_ind==1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==(1+(NUMBAT!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMINV)&&(sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_inv_sel,0,0,1);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\t\t\r\n\r\n\t\telse if((NUMBYPASS)&&(sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_byps,0,0,1);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if((sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+((NUMBYPASS>0)&&(NUMBYPASS<2)))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n \telse if((NUMDT)&&(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+((NUMBYPASS>0)&&(NUMBYPASS<2)))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext_6U,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n \telse if((NUMMAKB)&&(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0)+((NUMBYPASS>0)&&(NUMBYPASS<2)))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_makb_sel,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\t\t\t\t\t\t\t\r\n else if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0)+(NUMMAKB!=0)+((NUMBYPASS>0)&&(NUMBYPASS<2))))\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}\t\t\t\r\n\t}\r\n\r\n\telse if(ind==iK_220)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0);\r\n\t\t}\r\n\telse if(sub_ind==(3+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0)))\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tif(RS485_QWARZ_DIGIT==10)RS485_QWARZ_DIGIT=30;\r\n\t\t\telse if(RS485_QWARZ_DIGIT==30)RS485_QWARZ_DIGIT=40;\r\n\t\t\telse RS485_QWARZ_DIGIT=10;\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tif(RS485_QWARZ_DIGIT==10)RS485_QWARZ_DIGIT=40;\r\n\t\t\telse if(RS485_QWARZ_DIGIT==40)RS485_QWARZ_DIGIT=30;\r\n\t\t\telse RS485_QWARZ_DIGIT=10;\r\n\t\t\t}\r\n\t\tgran(&RS485_QWARZ_DIGIT,10,40);\r\n\t\tlc640_write_int(EE_RS485_QWARZ_DIGIT,RS485_QWARZ_DIGIT);\r\n\t\tspeed=0;\r\n\t\t}\t \t\t\t\t\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif((AUSW_MAIN==22035)\|\|(AUSW_MAIN==22033))\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net3,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net,0,0,0);\t\r\n\t\t\t\tret(1000);\t\t\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if((NUMBAT)&&(sub_ind==1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==(1+(NUMBAT!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMINV)&&(sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_inv_sel,0,0,1);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\t\t\r\n\r\n\t\telse if((sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n \telse if((NUMDT)&&(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext_6U,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\t\t\t\t\r\n else if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0)))\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}\t\t\t\r\n\t}\r\n\r\n\r\n\r\nelse if(ind==iK_220_IPS_TERMOKOMPENSAT)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif((AUSW_MAIN==22033)\|\|(AUSW_MAIN==22018))\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net3,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net,0,0,0);\t\r\n\t\t\t\tret(1000);\t\t\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if((NUMBAT)&&(sub_ind==1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==(1+(NUMBAT!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if((sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_out,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n \telse if((NUMDT)&&(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext_6U,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n \t\t\t\t\t\t\r\n else if(sub_ind==(3+(NUMBAT!=0)+(NUMIST!=0)/+(NUMINV!=0)/))\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_220_IPS_TERMOKOMPENSAT_IB)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4+(NUMIST!=0)+(NUMDT!=0)+(num_rki!=0)+(num_net_in!=0)); //oleg_start\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4+(NUMIST!=0)+(NUMDT!=0)+(num_rki!=0)+(num_net_in!=0)); //oleg_start\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3+(NUMIST!=0)+(NUMDT!=0)+(num_rki!=0)+(num_net_in!=0);\r\n\t\t}\r\n\t\telse if(sub_ind==(4+(NUMIST!=0)+(NUMDT!=0)+(num_rki!=0)+(num_net_in!=0)))\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tif(RS485_QWARZ_DIGIT==10)RS485_QWARZ_DIGIT=30;\r\n\t\t\t\telse if(RS485_QWARZ_DIGIT==30)RS485_QWARZ_DIGIT=40;\r\n\t\t\t\telse RS485_QWARZ_DIGIT=10;\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tif(RS485_QWARZ_DIGIT==10)RS485_QWARZ_DIGIT=40;\r\n\t\t\t\telse if(RS485_QWARZ_DIGIT==40)RS485_QWARZ_DIGIT=30;\r\n\t\t\t\telse RS485_QWARZ_DIGIT=10;\r\n\t\t\t\t}\r\n\t\t\tgran(&RS485_QWARZ_DIGIT,10,40);\r\n\t\t\tlc640_write_int(EE_RS485_QWARZ_DIGIT,RS485_QWARZ_DIGIT);\r\n\t\t\tspeed=0;\r\n\t\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043)\|\|(AUSW_MAIN==22044)\|\|(AUSW_MAIN==22018))\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net3,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net,0,0,0);\t\r\n\t\t\t\tret(1000);\t\t\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_ips_termokompensat_ib,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==2))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if((sub_ind==(2+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_out,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n else if((NUMDT)&&(sub_ind==(3+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext_6U,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n \t\t//oleg_start\r\n\t\telse if( num_rki && (sub_ind==(3+(NUMIST!=0)+(NUMDT!=0) ) ) )\r\n\t\t\t{\r\n\t tree_up(iK_RKI,0,0,0);\t\r\n\t\t\tret(1000);\r\n }\r\n\t\telse if( num_net_in && (sub_ind==(3+(NUMIST!=0)+(NUMDT!=0)+(num_rki!=0) ) )\t)\r\n\t\t\t{\r\n\t tree_up(iK_Net_In,0,0,0);\t\r\n\t\t\tret(1000);\r\n }\r\n\t\t//oleg_end\t\t\t\t\r\n else if(sub_ind==(3+(NUMIST!=0)+(NUMDT!=0)+(num_rki!=0)+(num_net_in!=0))) // oleg_start добавил +(num_rki!=0)+(num_net_in!=0)\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\r\n\t\t\t\t \t\t\t\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_220_IPS_TERMOKOMPENSAT_IB)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4+(NUMIST!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4+(NUMIST!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3+(NUMIST!=0)+(NUMDT!=0);\r\n\t\t}\r\n\t\telse if(sub_ind==(4+(NUMIST!=0)+(NUMDT!=0)))\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tif(RS485_QWARZ_DIGIT==10)RS485_QWARZ_DIGIT=30;\r\n\t\t\t\telse if(RS485_QWARZ_DIGIT==30)RS485_QWARZ_DIGIT=40;\r\n\t\t\t\telse RS485_QWARZ_DIGIT=10;\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tif(RS485_QWARZ_DIGIT==10)RS485_QWARZ_DIGIT=40;\r\n\t\t\t\telse if(RS485_QWARZ_DIGIT==40)RS485_QWARZ_DIGIT=30;\r\n\t\t\t\telse RS485_QWARZ_DIGIT=10;\r\n\t\t\t\t}\r\n\t\t\tgran(&RS485_QWARZ_DIGIT,10,40);\r\n\t\t\tlc640_write_int(EE_RS485_QWARZ_DIGIT,RS485_QWARZ_DIGIT);\r\n\t\t\tspeed=0;\r\n\t\t\t}\t \r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043)\|\|(AUSW_MAIN==22044)\|\|(AUSW_MAIN==22018))\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net3,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net,0,0,0);\t\r\n\t\t\t\tret(1000);\t\t\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_ips_termokompensat_ib,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==2))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if((sub_ind==(2+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_out,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n \telse if((NUMDT)&&(sub_ind==(3+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext_6U,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n \t\t\t\t\t\t\r\n else if(sub_ind==(3+(NUMIST!=0)+(NUMDT!=0)))\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\r\n \t\t\t\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_IPS_SGEP_GAZPROM)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3+(NUMIST!=0));\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3+(NUMIST!=0));\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3+(NUMIST!=0);\r\n\t\t}\t\t\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\ttree_up(iK_net,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if((sub_ind==(1+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n else if(sub_ind==(2+(NUMIST!=0)))\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\r\n\t\t}\r\n\telse if(sub_ind==(3+(NUMIST!=0)))\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tif(RS485_QWARZ_DIGIT==10)RS485_QWARZ_DIGIT=30;\r\n\t\t\telse if(RS485_QWARZ_DIGIT==30)RS485_QWARZ_DIGIT=40;\r\n\t\t\telse RS485_QWARZ_DIGIT=10;\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tif(RS485_QWARZ_DIGIT==10)RS485_QWARZ_DIGIT=40;\r\n\t\t\telse if(RS485_QWARZ_DIGIT==40)RS485_QWARZ_DIGIT=30;\r\n\t\t\telse RS485_QWARZ_DIGIT=10;\r\n\t\t\t}\r\n\t\tgran(&RS485_QWARZ_DIGIT,10,40);\r\n\t\tlc640_write_int(EE_RS485_QWARZ_DIGIT,RS485_QWARZ_DIGIT);\r\n\t\tspeed=0;\r\n\t\t}\t\t\t\t\t\r\n\t}\r\n\r\n/\r\nelse if(ind==iK_220_IPS_TERMOKOMPENSAT_IB)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3+(NUMIST!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3+(NUMIST!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3+(NUMIST!=0)+(NUMDT!=0);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043))\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net3,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net,0,0,0);\t\r\n\t\t\t\tret(1000);\t\t\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==2))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if((sub_ind==(2+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n \telse if((NUMDT)&&(sub_ind==(3+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext_6U,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n \t\t\t\t\t\t\r\n else if(sub_ind==(3+(NUMIST!=0)+(NUMDT!=0)))\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}\t\t\t\r\n\t}\r\n/\r\nelse if(ind==iK_220_380)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0);\r\n\t\t}\r\n \telse if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0)))\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_)\|\|(but==butE)\|\|(but==butE_))\r\n\t\t\t\t{\r\n\t\t\t\tif(RELE_VENT_LOGIC==0)RELE_VENT_LOGIC=1;\r\n\t\t\t\telse if(RELE_VENT_LOGIC==1)RELE_VENT_LOGIC=2;\r\n\t\t\t\telse RELE_VENT_LOGIC=0;\r\n\t\t\t\tlc640_write_int(EE_RELE_VENT_LOGIC,RELE_VENT_LOGIC);\r\n\t\t\t\t}\r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tif(RELE_VENT_LOGIC==0)RELE_VENT_LOGIC=2;\r\n\t\t\t\telse if(RELE_VENT_LOGIC==2)RELE_VENT_LOGIC=1;\r\n\t\t\t\telse RELE_VENT_LOGIC=0;\r\n\t\t\t\tlc640_write_int(EE_RELE_VENT_LOGIC,RELE_VENT_LOGIC);\r\n\t\t\t\t}\t\t\t\r\n }\r\n\t\t\t\t\t\t\t\t\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(AUSW_MAIN==22035)\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net3,0,0,0);\r\n\t\t \tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\ttree_up(iK_net,0,0,0);\t\r\n\t\t\t\tret(1000);\t\t\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if((NUMBAT)&&(sub_ind==1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==(1+(NUMBAT!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMINV)&&(sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_inv_sel,0,0,1);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\t\t\r\n\r\n\t\telse if((sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n \telse if((NUMDT)&&(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext_6U,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n \t\t\t\t\t\t\r\n else if(sub_ind==(3+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0)))\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_TELECORE)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,2+(NUMBAT_TELECORE!=0)+(NUMIST!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,2+(NUMBAT_TELECORE!=0)+(NUMIST!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=2+(NUMBAT_TELECORE!=0)+(NUMIST!=0)+(NUMDT!=0);\r\n\t\t}\t\t\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\ttree_up(iK_net,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMBAT_TELECORE)&&(sub_ind==1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_sel_TELECORE,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==(1+(NUMBAT_TELECORE!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if((sub_ind==(1+(NUMBAT_TELECORE!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n \telse if((NUMDT)&&(sub_ind==(2+(NUMBAT_TELECORE!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_ext_6U,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\r\n \telse if(sub_ind==(2+(NUMBAT_TELECORE!=0)+(NUMIST!=0)+(NUMDT!=0)))\r\n\t\t\t{\r\n\t \ttree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_net)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=1;\r\n\t\t}\t\t\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KUNET);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(EE_KUNET);\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t//lc640_write_int(EE_KUNET,temp_SS);\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(EE_KUNET);\r\n\t\t\ttemp_SS--;\r\n\t\t\t//lc640_write_int(EE_KUNET,temp_SS);\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(EE_KUNET);\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t//lc640_write_int(EE_KUNET,temp_SS);\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,10,12000);\r\n\t\tlc640_write_int(EE_KUNET,temp_SS);\r\n\t\t\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_net3)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3;\r\n\t\t}\t\t\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KUNETA);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttemp_SS--;\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,150,4000);\r\n\t\tlc640_write_int(EE_KUNETA,temp_SS);\r\n\t\t}\r\n\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KUNETB);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttemp_SS--;\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,150,4000);\r\n\t\tlc640_write_int(EE_KUNETB,temp_SS);\r\n\t\t}\r\n\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KUNETC);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttemp_SS--;\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,150,4000);\r\n\t\tlc640_write_int(EE_KUNETC,temp_SS);\r\n\t\t}\r\n\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_power_net)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,2);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,2);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3;\r\n\t\t}\t\t\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KUNET_EXT0);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttemp_SS--;\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,200,550);\r\n\t\tlc640_write_int(EE_KUNET_EXT0,temp_SS);\r\n\t\t\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KUNET_EXT1);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttemp_SS--;\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,200,550);\r\n\t\tlc640_write_int(EE_KUNET_EXT1,temp_SS);\r\n\t\t\t\t\t\r\n\t\t}\r\n\r\n\r\n\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_power_net3)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,6);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,6);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=6;\r\n\t\t}\r\n\t\t\t\t\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KVV0_EB2);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttemp_SS--;\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,200,550);\r\n\t\tlc640_write_int(EE_KVV0_EB2,temp_SS);\r\n\t\t}\r\n\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KVV1_EB2);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttemp_SS--;\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,200,550);\r\n\t\tlc640_write_int(EE_KVV1_EB2,temp_SS);\r\n\t\t}\r\n\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KVV2_EB2);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttemp_SS--;\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,200,550);\r\n\t\tlc640_write_int(EE_KVV2_EB2,temp_SS);\r\n\t\t}\r\n\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KPES0_EB2);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttemp_SS--;\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,200,550);\r\n\t\tlc640_write_int(EE_KPES0_EB2,temp_SS);\r\n\t\t}\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KPES1_EB2);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttemp_SS--;\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,200,550);\r\n\t\tlc640_write_int(EE_KPES1_EB2,temp_SS);\r\n\t\t}\r\n\r\n\telse if(sub_ind==5)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KPES2_EB2);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttemp_SS--;\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,200,550);\r\n\t\tlc640_write_int(EE_KPES2_EB2,temp_SS);\r\n\t\t}\r\n\r\n\r\n\r\n\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_bat_sel)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMBAT);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMBAT);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=1+NUMBAT;\r\n\t\t}\t\r\n\telse if((but==butE)&&(NUMBAT)&&(BAT_IS_ON[0]==bisON)&&(sub_ind==0))\r\n\t\t{\r\n\t\t#ifdef UKU_6U\r\n\t\ttree_up(iK_bat,0,0,0);\r\n\t\t#else\r\n\r\n\t\t#ifdef UKU_220_V2\r\n\t\ttree_up(iK_bat_simple,0,0,0);\r\n\t\t#else\r\n\t\t\r\n\t/\t#ifdef UKU_220 \r\n\t\ttree_up(iK_bat_simple,0,0,0);\r\n\t\t#else/\r\n\t\ttree_up(iK_bat,0,0,0);\t\r\n\t\t#endif\r\n\t\t#endif\r\n\t\t//mess_send(MESS_SRC_CONTROL,0xFFFF,0,10);\r\n \t//mess_send(MESS_BAT_CONTROL,0xFFFF&(~(1<<sub_ind1)),1<<(sub_ind1),10);\r\n\r\n\t\tret(1000);\r\n\t\t}\t\r\n\telse if((but==butE)&&(NUMBAT)&&(BAT_IS_ON[1]==bisON)&&(sub_ind==((BAT_IS_ON[0]==bisON))))\r\n\t\t{\r\n\t\t#ifdef UKU_6U\r\n\t\ttree_up(iK_bat,0,0,1);\r\n\t\t#else\r\n\t\ttree_up(iK_bat,0,0,1);\t\r\n\t\t#endif\r\n\t\t\r\n\t\t//mess_send(MESS_SRC_CONTROL,0xFFFF,0,10);\r\n \t//mess_send(MESS_BAT_CONTROL,0xFFFF&(~(1<<sub_ind1)),1<<(sub_ind1),10);\r\n \t\t\r\n\t\tret(1000);\r\n\t\t}\t\r\n\telse if(sub_ind==(NUMBAT))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_bat_sel_TELECORE)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMBAT_TELECORE);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMBAT_TELECORE);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=1+NUMBAT_TELECORE;\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butE)&&(NUMBAT_TELECORE>0))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_TELECORE,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if((sub_ind==1)&&(NUMBAT_TELECORE>1))\r\n\t\t{\r\n\t\tif((but==butE)&&(NUMBAT_TELECORE>1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_TELECORE,0,0,1);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==(NUMBAT_TELECORE))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_bat)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=3;\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=6;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=9;\r\n else if((sub_ind==10)\|\|(sub_ind==11))sub_ind=12;\r\n\t\tgran_char(&sub_ind,0,12);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2)) sub_ind=0;\r\n\t else if((sub_ind==4)\|\|(sub_ind==5))sub_ind=3;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=6;\r\n\t\telse if((sub_ind==10)\|\|(sub_ind==11))sub_ind=9;\r\n gran_char(&sub_ind,0,12);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=9;\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(ADR_KUBAT[sub_ind1]);\r\n\t if(but==butR)\r\n\t \t{\r\n \t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\r\n\t\tgran(&temp_SS,500,650);\r\n\t\tlc640_write_int(ADR_KUBAT[sub_ind1],temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\r\n\t\t\t\t\t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t if(phase==0)\r\n\t\t {\r\n\t\t lc640_write_int(ADR_KI0BAT[sub_ind1],ad7705_buff_[sub_ind1]);\r\n\t\t phase=1;\r\n\t\t }\r\n\t\t }\t\r\n\t\telse\r\n\t\t\t{\r\n\t\t\ttemp_SS=lc640_read_int(ADR_KI1BAT[sub_ind1]);\r\n\t\t\tif(but==butR)temp_SS++;\r\n\t\t\telse if(but==butR_)temp_SS+=2;\r\n\t\t\telse if(but==butL)temp_SS--;\r\n\t\t\telse if(but==butL_)temp_SS-=2;\r\n\t\t\t\t\t\t\r\n\t\t\tgran(&temp_SS,200,4000);\r\n\t\t\tlc640_write_int(ADR_KI1BAT[sub_ind1],temp_SS);\r\n\t\t\tphase=1;\r\n\t\t\t}\r\n\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\t\t\t\t\t\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(ADR_KTBAT[sub_ind1]);\r\n\t\tif(but==butR)temp_SS++;\r\n\t\telse if(but==butR_)temp_SS+=3;\r\n\t\telse if(but==butL)temp_SS--;\r\n\t\telse if(but==butL_)temp_SS-=3;\r\n\t\tgran(&temp_SS,1900,3000);\r\n\t\tlc640_write_int(ADR_KTBAT[sub_ind1],temp_SS);\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(ADR_KUBATM[sub_ind1]);\r\n\t if(but==butR)\r\n\t \t{\r\n \t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\r\n\t\tgran(&temp_SS,500,650);\r\n\t\tlc640_write_int(ADR_KUBATM[sub_ind1],temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t} \t\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\t\t\r\n\r\nelse if(ind==iK_bat_TELECORE)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=3;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2)) sub_ind=0;\r\n gran_char(&sub_ind,0,3);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3;\r\n\t\t}\t\t\t\r\n\t\t\t\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t if(phase==0)\r\n\t\t {\r\n\t\t lc640_write_int(ADR_KI0BAT[sub_ind1],ad7705_buff_[sub_ind1]);\r\n\t\t phase=1;\r\n\t\t }\r\n\t\t }\t\r\n\t\telse\r\n\t\t\t{\r\n\t\t\ttemp_SS=lc640_read_int(ADR_KI1BAT[sub_ind1]);\r\n\t\t\tif(but==butR)temp_SS++;\r\n\t\t\telse if(but==butR_)temp_SS+=2;\r\n\t\t\telse if(but==butL)temp_SS--;\r\n\t\t\telse if(but==butL_)temp_SS-=2;\r\n\t\t\t\t\t\t\r\n\t\t\tgran(&temp_SS,20,4000);\r\n\t\t\tlc640_write_int(ADR_KI1BAT[sub_ind1],temp_SS);\r\n\t\t\tphase=1;\r\n\t\t\t}\r\n\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\t\t\t\t\t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\t\r\n\r\nelse if(ind==iK_bat_ips_termokompensat_ib)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=3;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2)) sub_ind=0;\r\n gran_char(&sub_ind,0,3);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3;\r\n\t\t}\t\t\t\r\n\t\t\t\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(ADR_KI1BAT[0]);\r\n\t\tif(but==butR)temp_SS++;\r\n\t\telse if(but==butR_)temp_SS+=10;\r\n\t\telse if(but==butL)temp_SS--;\r\n\t\telse if(but==butL_)temp_SS-=10;\r\n\t\t\t\t\t\t\r\n\t\tgran(&temp_SS,200,30000);\r\n\t\tlc640_write_int(ADR_KI1BAT[0],temp_SS);\r\n\t\tphase=1;\r\n\t\tspeed=1;\r\n\t\t}\r\n\t\t\t\t\t\t\t\t\t \t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\t\t\r\n\r\n\r\nelse if(ind==iK_bat_simple)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=3;\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=6;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=9;\r\n\t\tgran_char(&sub_ind,0,9);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2)) sub_ind=0;\r\n\t else if((sub_ind==4)\|\|(sub_ind==5))sub_ind=3;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=6;\r\n gran_char(&sub_ind,0,9);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=9;\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(ADR_KUBAT[sub_ind1]);\r\n\t if(but==butR)\r\n\t \t{\r\n \t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\r\n\t\tgran(&temp_SS,500,650);\r\n\t\tlc640_write_int(ADR_KUBAT[sub_ind1],temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\r\n\t\t\t\t\t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t if(phase==0)\r\n\t\t {\r\n\t\t lc640_write_int(ADR_KI0BAT[sub_ind1],ad7705_buff_[sub_ind1]);\r\n\t\t phase=1;\r\n\t\t }\r\n\t\t }\t\r\n\t\telse\r\n\t\t\t{\r\n\t\t\ttemp_SS=lc640_read_int(ADR_KI1BAT[sub_ind1]);\r\n\t\t\tif(but==butR)temp_SS++;\r\n\t\t\telse if(but==butR_)temp_SS+=2;\r\n\t\t\telse if(but==butL)temp_SS--;\r\n\t\t\telse if(but==butL_)temp_SS-=2;\r\n\t\t\t\t\t\t\r\n\t\t\tgran(&temp_SS,20,30000);\r\n\t\t\tlc640_write_int(ADR_KI1BAT[sub_ind1],temp_SS);\r\n\t\t\tphase=1;\r\n\t\t\t}\r\n\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\t\t\t\t\t\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(ADR_KTBAT[sub_ind1]);\r\n\t\tif(but==butR)temp_SS++;\r\n\t\telse if(but==butR_)temp_SS+=3;\r\n\t\telse if(but==butL)temp_SS--;\r\n\t\telse if(but==butL_)temp_SS-=3;\r\n\t\tgran(&temp_SS,1900,3000);\r\n\t\tlc640_write_int(ADR_KTBAT[sub_ind1],temp_SS);\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\r\n \t\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\t\t\r\n\r\nelse if(ind==iK_bps_sel)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMIST);\r\n\t\tphase=0;\r\n\t\tcan1_out(sub_ind,sub_ind,CMND,ALRM_RES,0,0,0,0);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMIST);\r\n\t\tphase=0;\r\n\t\tcan1_out(sub_ind,sub_ind,CMND,ALRM_RES,0,0,0,0);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=1+NUMIST;\r\n\t\t}\t\r\n\telse if((but==butE)&&(NUMIST)&&(sub_ind<NUMIST))\r\n\t\t{\r\n\t\ttree_up(iK_bps,0,0,sub_ind);\t\r\n\t\t\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\t//mess_send(MESS_SRC_CONTROL,0xFFFF,0,10);\r\n \t//mess_send(MESS_BAT_CONTROL,0xFFFF&(~(1<<sub_ind1)),1<<(sub_ind1),10);\r\n\r\n\t\tret(1000);\r\n\t\t}\t\r\n\telse if(sub_ind==(NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_bps)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=3;\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=6;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=9;\r\n\t\telse if((sub_ind==10)\|\|(sub_ind==11))sub_ind=12;\r\n\t\telse if((sub_ind==13)\|\|(sub_ind==14))sub_ind=15;\r\n\t\tgran_char(&sub_ind,0,15);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=0;\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=3;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=6;\r\n\t\telse if((sub_ind==10)\|\|(sub_ind==11))sub_ind=9;\r\n\t\telse if((sub_ind==13)\|\|(sub_ind==14))sub_ind=12;\t\t\r\n\t\tgran_char(&sub_ind,0,15);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=15;\r\n\t\t}\r\n\telse if (sub_ind == 0)\r\n\t\t{\r\n\t\tif(but==butLR) can1_out(sub_ind1,sub_ind1,KLBR,(016)+1,(016)+1,0,0,0);\r\n\t else if(but==butR) can1_out(sub_ind1,sub_ind1,KLBR,(016)+2,(016)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1,sub_ind1,KLBR,(016)+3,(016)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1,sub_ind1,KLBR,(016)+4,(016)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1,sub_ind1,KLBR,(016)+5,(016)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\r\n\t\t\r\n\telse if (sub_ind == 3)\r\n\t\t{\r\n\t\tif(but==butLR) can1_out(sub_ind1,sub_ind1,KLBR,(116)+1,(116)+1,0,0,0);\r\n\t else if(but==butR) can1_out(sub_ind1,sub_ind1,KLBR,(116)+2,(116)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1,sub_ind1,KLBR,(116)+3,(116)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1,sub_ind1,KLBR,(116)+4,(116)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1,sub_ind1,KLBR,(116)+5,(116)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\r\n\t\t\r\n\telse if (sub_ind == 6)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_U_AVT);\r\n\t\tif(but==butR)temp_SS++;\r\n\t\telse if(but==butR_)temp_SS+=2;\r\n\t\telse if(but==butL)temp_SS--;\r\n\t\telse if(but==butL_)temp_SS-=2;\r\n\t\telse if(but==butE_)can1_out(sub_ind1,sub_ind1,CMND,0xee,0xee,0,0,0); \r\n\t\t\r\n\t\t#ifdef UKU206_220\t\t\t\t\r\n\t\tgran(&temp_SS,1000,3000);\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU206_24\r\n\t\tgran(&temp_SS,200,300);\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU320\r\n\t\tgran(&temp_SS,400,800);\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU320_24\r\n\t\tgran(&temp_SS,200,300);\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU320_F\r\n\t\tgran(&temp_SS,400,800);\r\n\t\t#endif\t\t\r\n\t\tlc640_write_int(EE_U_AVT,temp_SS);\r\n\t\t\r\n\t\tspeed=1;\r\n\t\t}\t\r\n\t\t\r\n\telse if (sub_ind == 9)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tcan1_out(sub_ind1,sub_ind1,KLBR,(216)+1,(216)+1,0,0,0);\r\n\t\t\tphase=1;\r\n\t\t\t}\r\n\t else if(but==butR) can1_out(sub_ind1,sub_ind1,KLBR,(216)+2,(216)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1,sub_ind1,KLBR,(216)+3,(216)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1,sub_ind1,KLBR,(216)+4,(216)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1,sub_ind1,KLBR,(216)+5,(216)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\r\n\t\t\r\n\telse if (sub_ind == 12)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1,sub_ind1,KLBR,(316)+2,(316)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1,sub_ind1,KLBR,(316)+3,(316)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1,sub_ind1,KLBR,(316)+4,(316)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1,sub_ind1,KLBR,(316)+5,(316)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\t\t\t\t\t\t\r\n\t\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif(phase==0)\r\n\t\t {\r\n\t\t if(but==butE)\r\n\t\t {\r\n\t\t #if(UKU_VERSION==300)\r\n\t\t if(sub_ind1==0)temp_SS=adc_buff_[3];\r\n\t\t if(sub_ind1==1)temp_SS=adc_buff_[2];\r\n #else\r\n if(sub_ind1==0)temp_SS=adc_buff_[2];\r\n\t\t if(sub_ind1==1)temp_SS=adc_buff_[3];\r\n\t\t #endif\r\n\t\t //lc640_write_int(ptr_ki0_src[sub_ind1],temp_SS);\r\n\t\t \tphase=1;\r\n\t\t }\r\n\t\t else phase=1; \r\n\t\t }\r\n\t\telse if(phase==2)\r\n\t\t {\r\n\t\t if(but==butR)\r\n\t\t \t{\r\n\t\t \t//temp_SS=lc640_read_int(ptr_ki_src[sub_ind1]);\r\n\t\t \ttemp_SS++;\r\n\t\t \t//lc640_write_int(ptr_ki_src[sub_ind1],temp_SS);\r\n\t \t\t}\r\n\t \telse if(but==butR_)\r\n\t \t\t{\r\n\t \t\t//temp_SS=lc640_read_int(ptr_ki_src[sub_ind1]);\r\n\t \t\ttemp_SS+=2;\r\n\t \t\t//lc640_write_int(ptr_ki_src[sub_ind1],temp_SS);\r\n\t \t\t}\t\r\n\t \telse if(but==butL)\r\n\t \t\t{\r\n\t \t\t//temp_SS=lc640_read_int(ptr_ki_src[sub_ind1]);\r\n\t \t\ttemp_SS--;\r\n\t \t\t//lc640_write_int(ptr_ki_src[sub_ind1],temp_SS);\r\n\t \t\t}\r\n\t \telse if(but==butL_)\r\n\t \t\t{\r\n\t \t\t//temp_SS=lc640_read_int(ptr_ki_src[sub_ind1]);\r\n\t \t\ttemp_SS-=2;\r\n\t \t\t//lc640_write_int(ptr_ki_src[sub_ind1],temp_SS);\r\n\t \t\t}\t\t\t\t\r\n\t \tspeed=1;\t\t\t\r\n\t \t}\r\n\t }\t\r\n\t\t\t\t\t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t if(but==butR)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_ku_src[sub_ind1]);\r\n\t\t\ttemp_SS++;\r\n\t\t\t//lc640_write_int(ptr_ku_src[sub_ind1],temp_SS);\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_ku_src[sub_ind1]);\r\n\t\t\ttemp_SS+=2;\r\n\t\t\t//lc640_write_int(ptr_ku_src[sub_ind1],temp_SS);\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_ku_src[sub_ind1]);\r\n\t\t\ttemp_SS--;\r\n\t\t\t//lc640_write_int(ptr_ku_src[sub_ind1],temp_SS);\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_ku_src[sub_ind1]);\r\n\t\t\ttemp_SS-=2;\r\n\t\t\t//lc640_write_int(ptr_ku_src[sub_ind1],temp_SS);\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\t\t\t\t\t\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_kt_src[sub_ind1]);\r\n\t\t\ttemp_SS++;\r\n\t\t\t//lc640_write_int(ptr_kt_src[sub_ind1],temp_SS);\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_kt_src[sub_ind1]);\r\n\t\t\ttemp_SS+=3;\r\n\t\t\t//lc640_write_int(ptr_kt_src[sub_ind1],temp_SS);\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_kt_src[sub_ind1]);\r\n\t\t\ttemp_SS--;\r\n\t\t\t//lc640_write_int(ptr_kt_src[sub_ind1],temp_SS);\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_kt_src[sub_ind1]);\r\n\t\t\ttemp_SS-=3;\r\n\t\t\t//lc640_write_int(ptr_kt_src[sub_ind1],temp_SS);\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\t\r\n\telse if(sub_ind==15)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\t//a=b[--ptr_ind];\r\n\t\t\t//sub_ind++;\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\t\t\r\n\r\nelse if(ind==iK_inv_sel)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMINV);\r\n\t\tphase=0;\r\n\t\tcan1_out((sub_ind+first_inv_slot),(sub_ind+first_inv_slot),CMND,ALRM_RES,0,0,0,0);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMINV);\r\n\t\tphase=0;\r\n\t\tcan1_out((sub_ind+first_inv_slot),(sub_ind+first_inv_slot),CMND,ALRM_RES,0,0,0,0);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=1+NUMINV;\r\n\t\t}\t\r\n\telse if((but==butE)&&(NUMINV)&&(sub_ind<NUMINV))\r\n\t\t{\r\n\t\ttree_up(iK_inv,0,0,sub_ind);\t\r\n\t\t\r\n\t\tcan1_out(4,4,CMND,ALRM_RES,0,0,0,0);\r\n\t\t//mess_send(MESS_SRC_CONTROL,0xFFFF,0,10);\r\n \t//mess_send(MESS_BAT_CONTROL,0xFFFF&(~(1<<sub_ind1)),1<<(sub_ind1),10);\r\n\r\n\t\tret(1000);\r\n\t\t}\t\r\n\telse if(sub_ind==(NUMINV))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iInv_set_sel)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMINV);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMINV);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=1+NUMINV;\r\n\t\t}\t\r\n\telse if((but==butE)&&(NUMINV)&&(sub_ind<NUMINV))\r\n\t\t{\r\n\t\ttree_up(iInv_set,0,0,sub_ind);\t\r\n\t\tret(1000);\r\n\t\t}\t\r\n\telse if(sub_ind==(NUMINV))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iInv_set)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=2;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\tif(sub_ind==1)sub_ind=0;\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=2;\r\n\t\t\t}\r\n\t\t}\r\n\telse if (sub_ind == 0)\r\n\t\t{\r\n\t\tif(but==butR) \t\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xa2/(1216)+2/,0xa2/(1216)+2/,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xa3/(1216)+3/,0xa3/(1216)+3/,0,0,0);\r\n \t\telse if(but==butL) \tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xa4/(1216)+4/,0xa4/(1216)+4/,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xa5/(1216)+5/,0xa5/(1216)+5/,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if (sub_ind == 2)\r\n\t\t{\r\n\t\tif(but==butR) \t\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xb2/(1216)+2/,0xb2/(1216)+2/,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xb3/(1216)+3/,0xb3/(1216)+3/,0,0,0);\r\n \t\telse if(but==butL) \tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xb4/(1216)+4/,0xb4/(1216)+4/,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xb5/(1216)+5/,0xb5/(1216)+5/,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\t\r\nelse if(ind==iK_makb_sel)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMMAKB);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMMAKB);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=NUMMAKB;\r\n\t\t}\t\r\n\telse if((but==butE)&&(NUMMAKB)&&(sub_ind<NUMMAKB))\r\n\t\t{\r\n\t\tif(makb[sub_ind]._cnt<5)\r\n\t\t\t{\r\n\t\t\ttree_up(iK_makb,0,0,sub_ind);\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse show_mess(\r\n\t\t\t\t\t\" \",\r\n\t \t\t\" НЕ ПОДКЛЮЧЕН!!! \",\r\n\t \t\t\" \",\r\n\t \t\t\" \",1000);\t\r\n\t\t}\t\r\n\telse if(sub_ind==(NUMMAKB))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_makb)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\t//if(sub_ind>7)sub_ind=7;\r\n\t\t//else if(sub_ind==1)sub_ind=0;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\t//if(sub_ind<3)sub_ind=3;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=10;\r\n\t\t}\r\n\telse if ((sub_ind >= 0) && (sub_ind <= 9))\r\n\t\t{\r\n\t\tif(but==butLR) can1_out(sub_ind1,sub_ind1,KLBR_MAKB,\t\t(sub_ind16)+1,(sub_ind16)+1,0,0,0);\r\n\t else if(but==butR) can1_out(sub_ind1,sub_ind1,KLBR_MAKB,\t(sub_ind16)+2,(sub_ind16)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1,sub_ind1,KLBR_MAKB,\t(sub_ind16)+3,(sub_ind16)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1,sub_ind1,KLBR_MAKB,\t(sub_ind16)+4,(sub_ind16)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1,sub_ind1,KLBR_MAKB,\t(sub_ind16)+5,(sub_ind16)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\r\n\t\t\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\r\n#ifndef GLADKOV\t\t\t\t\t\t\t\t\t\t\t\r\nelse if(ind==iK_inv)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=3;\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=6;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=9;\r\n\t\telse if((sub_ind==10)\|\|(sub_ind==11))sub_ind=12;\r\n\t\telse if((sub_ind==13)\|\|(sub_ind==14))sub_ind=15;\r\n\t\telse if((sub_ind==16)\|\|(sub_ind==17))sub_ind=18;\r\n\t\telse if((sub_ind==19)\|\|(sub_ind==20))sub_ind=21;\r\n\r\n\t\tgran_char(&sub_ind,0,24);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=0;\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=3;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=6;\r\n\t\telse if((sub_ind==10)\|\|(sub_ind==11))sub_ind=9;\r\n\t\telse if((sub_ind==13)\|\|(sub_ind==14))sub_ind=12;\r\n\t\telse if((sub_ind==16)\|\|(sub_ind==17))sub_ind=15;\r\n\t\telse if((sub_ind==19)\|\|(sub_ind==20))sub_ind=18;\r\n\t\tgran_char(&sub_ind,0,24);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=24;\r\n\t\t}\r\n\telse if (sub_ind == 0)\r\n\t\t{\r\n\t\tif(but==butR) \t\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xc2/(1216)+2/,0xc2/(1216)+2/,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xc3/(1216)+3/,0xc3/(1216)+3/,0,0,0);\r\n \t\telse if(but==butL) \tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xc4/(1216)+4/,0xc4/(1216)+4/,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xc5/(1216)+5/,0xc5/(1216)+5/,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if (sub_ind == 3)\r\n\t\t{\r\n\t\tif(but==butLR) \tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(016)+1,(016)+1,0,0,0);\r\n\t \telse if(but==butR) \tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(016)+2,(016)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(016)+3,(016)+3,0,0,0);\r\n \t\telse if(but==butL) \tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(016)+4,(016)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(016)+5,(016)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\r\n\t\t\r\n\telse if (sub_ind == 6)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(216)+1,(216)+1,0,0,0);\r\n\t\t\tphase=1;\r\n\t\t\t}\r\n\t \telse if(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(216)+2,(216)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(216)+3,(216)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(216)+4,(216)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(216)+5,(216)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\r\n\t\t\r\n\telse if (sub_ind == 9)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(316)+2,(316)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(316)+3,(316)+3,0,0,0);\r\n \telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(316)+4,(316)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(316)+5,(316)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\t\t\t\t\t\t\r\n\t\t\t\r\n\telse if (sub_ind == 12)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(416)+2,(416)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(416)+3,(416)+3,0,0,0);\r\n \telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(416)+4,(416)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(416)+5,(416)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if (sub_ind == 15)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(516)+2,(516)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(516)+3,(516)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(516)+4,(516)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(516)+5,(516)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if (sub_ind == 18)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(616)+2,(616)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(616)+3,(616)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(616)+4,(616)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(616)+5,(616)+5,0,0,0);\r\n\t\tspeed=1;\t\r\n\t\t}\t\t\t\t\t\t\t\r\n\r\n\telse if (sub_ind == 21)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1316)+2,(1316)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1316)+2,(1316)+2,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1316)+4,(1316)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1316)+4,(1316)+4,0,0,0);\r\n\t\tspeed=1;\r\n\r\n\t\t}\r\n\t\t\r\n\telse if (sub_ind == 22)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1416)+2,(1416)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1416)+2,(1416)+2,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1416)+4,(1416)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1416)+4,(1416)+4,0,0,0);\r\n\t\tspeed=1;\r\n\r\n\t\t}\r\n\r\n\telse if (sub_ind == 23)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1516)+2,(1516)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1516)+2,(1516)+2,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1516)+4,(1516)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1516)+4,(1516)+4,0,0,0);\r\n\t\tspeed=1;\r\n\r\n\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\r\n\telse if(sub_ind==24)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\t//a=b[--ptr_ind];\r\n\t\t\t//sub_ind++;\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n#endif\r\n#ifdef GLADKOV\r\nelse if(ind==iK_inv)\r\n\t{\r\n\tchar GLADKOV_ADR;\r\n\tGLADKOV_ADR=4;\r\n\tif(sub_ind1==1)GLADKOV_ADR=21;\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=3;\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=6;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=9;\r\n\t\telse if((sub_ind==10)\|\|(sub_ind==11))sub_ind=12;\r\n\t\telse if((sub_ind==13)\|\|(sub_ind==14))sub_ind=15;\r\n\t\telse if((sub_ind==16)\|\|(sub_ind==17))sub_ind=18;\r\n\t\telse if((sub_ind==19)\|\|(sub_ind==20))sub_ind=21;\r\n\r\n\t\tgran_char(&sub_ind,0,24);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=0;\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=3;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=6;\r\n\t\telse if((sub_ind==10)\|\|(sub_ind==11))sub_ind=9;\r\n\t\telse if((sub_ind==13)\|\|(sub_ind==14))sub_ind=12;\r\n\t\telse if((sub_ind==16)\|\|(sub_ind==17))sub_ind=15;\r\n\t\telse if((sub_ind==19)\|\|(sub_ind==20))sub_ind=18;\r\n\t\tgran_char(&sub_ind,0,24);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=24;\r\n\t\t}\r\n\telse if (sub_ind == 0)\r\n\t\t{\r\n\t\tif(but==butR) \t\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xc2/(1216)+2/,0xc2/(1216)+2/,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xc3/(1216)+3/,0xc3/(1216)+3/,0,0,0);\r\n \t\telse if(but==butL) \tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xc4/(1216)+4/,0xc4/(1216)+4/,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,0xc5/(1216)+5/,0xc5/(1216)+5/,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if (sub_ind == 3)\r\n\t\t{\r\n\t\tif(but==butLR) \tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(016)+1,(016)+1,0,0,0);\r\n\t \telse if(but==butR) \tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(016)+2,(016)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(016)+3,(016)+3,0,0,0);\r\n \t\telse if(but==butL) \tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(016)+4,(016)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(016)+5,(016)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\r\n\t\t\r\n\telse if (sub_ind == 6)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(216)+1,(216)+1,0,0,0);\r\n\t\t\tphase=1;\r\n\t\t\t}\r\n\t \telse if(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(216)+2,(216)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(216)+3,(216)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(216)+4,(216)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(216)+5,(216)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\r\n\t\t\r\n\telse if (sub_ind == 9)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(316)+2,(316)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(316)+3,(316)+3,0,0,0);\r\n \telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(316)+4,(316)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(316)+5,(316)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\t\t\t\t\t\t\r\n\t\t\t\r\n\telse if (sub_ind == 12)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(416)+2,(416)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(416)+3,(416)+3,0,0,0);\r\n \telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(416)+4,(416)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(416)+5,(416)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if (sub_ind == 15)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(516)+2,(516)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(516)+3,(516)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(516)+4,(516)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(516)+5,(516)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if (sub_ind == 18)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(616)+2,(616)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(616)+3,(616)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(616)+4,(616)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(616)+5,(616)+5,0,0,0);\r\n\t\tspeed=1;\t\r\n\t\t}\t\t\t\t\t\t\t\r\n\r\n\telse if (sub_ind == 21)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1316)+2,(1316)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1316)+2,(1316)+2,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1316)+4,(1316)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1316)+4,(1316)+4,0,0,0);\r\n\t\tspeed=1;\r\n\r\n\t\t}\r\n\t\t\r\n\telse if (sub_ind == 22)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1416)+2,(1416)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1416)+2,(1416)+2,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1416)+4,(1416)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1416)+4,(1416)+4,0,0,0);\r\n\t\tspeed=1;\r\n\r\n\t\t}\r\n\r\n\telse if (sub_ind == 23)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1516)+2,(1516)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1516)+2,(1516)+2,0,0,0);\r\n \t\telse if(but==butL) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1516)+4,(1516)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(1516)+4,(1516)+4,0,0,0);\r\n\t\tspeed=1;\r\n\r\n\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\r\n\telse if(sub_ind==24)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\t//a=b[--ptr_ind];\r\n\t\t\t//sub_ind++;\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n#endif\r\n\r\nelse if(ind==iK_byps)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=3;\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=6;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=9;\r\n\t\telse if((sub_ind==10)\|\|(sub_ind==11))sub_ind=12;\r\n\t\telse if((sub_ind==13)\|\|(sub_ind==14))sub_ind=15;\r\n\t\telse if((sub_ind==16)\|\|(sub_ind==17))sub_ind=18;\r\n\r\n\t\tgran_char(&sub_ind,0,18);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=0;\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=3;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=6;\r\n\t\telse if((sub_ind==10)\|\|(sub_ind==11))sub_ind=9;\r\n\t\telse if((sub_ind==13)\|\|(sub_ind==14))sub_ind=12;\r\n\t\telse if((sub_ind==16)\|\|(sub_ind==17))sub_ind=15;\r\n\t\tgran_char(&sub_ind,0,18);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=9;\r\n\t\t}\r\n\telse if (sub_ind == 0)\r\n\t\t{\r\n\t\tif(but==butLR) \tcan1_out(byps._adress,byps._adress,KLBR,\t(016)+1,(016)+1,0,0,0);\r\n\t \telse if(but==butR) \tcan1_out(byps._adress,byps._adress,KLBR,\t(016)+2,(016)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(byps._adress,byps._adress,KLBR,\t(016)+3,(016)+3,0,0,0);\r\n \t\telse if(but==butL) \tcan1_out(byps._adress,byps._adress,KLBR,\t(016)+4,(016)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(byps._adress,byps._adress,KLBR,\t(016)+5,(016)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\r\n\t\t\r\n\telse if (sub_ind == 3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tcan1_out(sub_ind1+first_inv_slot,sub_ind1+first_inv_slot,KLBR,(216)+1,(216)+1,0,0,0);\r\n\t\t\tphase=1;\r\n\t\t\t}\r\n\t \telse if(but==butR) can1_out(byps._adress,byps._adress,KLBR,\t\t(216)+2,(216)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(byps._adress,byps._adress,KLBR,\t(216)+3,(216)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(byps._adress,byps._adress,KLBR,\t\t(216)+4,(216)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(byps._adress,byps._adress,KLBR,\t(216)+5,(216)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\r\n\t\t\r\n\telse if (sub_ind == 6)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(byps._adress,byps._adress,KLBR,\t\t\t(316)+2,(316)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(byps._adress,byps._adress,KLBR,\t(316)+3,(316)+3,0,0,0);\r\n \telse if(but==butL) can1_out(byps._adress,byps._adress,KLBR,\t\t\t(316)+4,(316)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(byps._adress,byps._adress,KLBR,\t(316)+5,(316)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\t\t\t\t\t\t\r\n\t\t\t\r\n\telse if (sub_ind == 9)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(byps._adress,byps._adress,KLBR,\t\t\t(416)+2,(416)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(byps._adress,byps._adress,KLBR,\t(416)+3,(416)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(byps._adress,byps._adress,KLBR,\t\t(416)+4,(416)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(byps._adress,byps._adress,KLBR,\t(416)+5,(416)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if (sub_ind == 12)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(byps._adress,byps._adress,KLBR,\t\t\t(516)+2,(516)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(byps._adress,byps._adress,KLBR,\t(516)+3,(516)+3,0,0,0);\r\n \telse if(but==butL) can1_out(byps._adress,byps._adress,KLBR,\t\t\t(516)+4,(516)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(byps._adress,byps._adress,KLBR,\t(516)+5,(516)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if (sub_ind == 15)\r\n\t\t{\r\n\t\tif(but==butR) can1_out(byps._adress,byps._adress,KLBR,\t\t\t(616)+2,(616)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan1_out(byps._adress,byps._adress,KLBR,\t(616)+3,(616)+3,0,0,0);\r\n \t\telse if(but==butL) can1_out(byps._adress,byps._adress,KLBR,\t\t(616)+4,(616)+4,0,0,0); \r\n\t\telse if(but==butL_) can1_out(byps._adress,byps._adress,KLBR,\t(616)+5,(616)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\t\t\t\t\t\r\n\t\t\t\t\t\t\t\r\n\telse if(sub_ind==18)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\t//a=b[--ptr_ind];\r\n\t\t\t//sub_ind++;\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_load)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind=1;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KULOAD);\r\n\t if(but==butR)\r\n\t \t{\r\n\t\t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\t\t#ifdef UKU_220\r\n\t gran(&temp_SS,300,2000);\r\n\t\t#else \r\n\t\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\n\t gran(&temp_SS,50,2000);\r\n\t #else \r\n\t\tgran(&temp_SS,100,5000);\r\n\t\t#endif\r\n\t\t#endif\r\n\t\tlc640_write_int(EE_KULOAD,temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\r\n\t\t\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_out)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,2);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,2);\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KUBPS);\r\n\t if(but==butR)\r\n\t \t{\r\n\t\t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\t gran(&temp_SS,50,2000);\r\n\r\n\t\tlc640_write_int(EE_KUBPS,temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\r\n\t\t\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KUOUT);\r\n\t if(but==butR)\r\n\t \t{\r\n\t\t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\t gran(&temp_SS,50,2000);\r\n\r\n\t\tlc640_write_int(EE_KUOUT,temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\r\n\t\t\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_t_ext)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(KT_EXT0);\r\n\t if(but==butR)\r\n\t \t{\r\n\t\t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\t gran(&temp_SS,1900,3000);\r\n\t\tlc640_write_int(KT_EXT0,temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\r\n\t\t\t\t\t\r\n\t\t}\r\n\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(KT_EXT1);\r\n\t if(but==butR)\r\n\t \t{\r\n\t\t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\t gran(&temp_SS,1900,3000);\r\n\t\tlc640_write_int(KT_EXT1,temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\r\n\t\t\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(KT_EXT2);\r\n\t if(but==butR)\r\n\t \t{\r\n\t\t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\t gran(&temp_SS,1900,3000);\r\n\t\tlc640_write_int(KT_EXT2,temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\r\n\t\t\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_t_ext_6U)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMDT);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMDT);\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(KT_EXT0);\r\n\t if(but==butR)\r\n\t \t{\r\n\t\t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\t gran(&temp_SS,1900,3000);\r\n\t\tlc640_write_int(KT_EXT0,temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\r\n\t\t\t\t\t\r\n\t\t}\r\n\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(KT_EXT1);\r\n\t if(but==butR)\r\n\t \t{\r\n\t\t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\t gran(&temp_SS,1900,3000);\r\n\t\tlc640_write_int(KT_EXT1,temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\r\n\t\t\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(KT_EXT2);\r\n\t if(but==butR)\r\n\t \t{\r\n\t\t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\t gran(&temp_SS,1900,3000);\r\n\t\tlc640_write_int(KT_EXT2,temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\r\n\t\t\t\t\t\r\n\t\t}\r\n \tif(sub_ind==NUMDT)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n#endif\t//UKU_6U_WEB\t\t\t\r\nelse if(ind==iBatLog)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,6);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,6);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=6;\r\n\t\t}\t\t\t\t\r\n\telse if((but==butL)&&((sub_ind==0)\|\|(sub_ind==3)\|\|(sub_ind==4)))\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t //b[ptr_ind++]=a;\r\n\t //if(BAT_IS_ON[sub_ind1]==bisON) ind=iPrl_bat_in_out;\r\n\t //else \r\n\t //{\r\n\t //ind=iPdp1;\r\n\t //ret_ind(iPrl_bat_in_out,0,10);\r\n\t //}\r\n\t tree_up(iPrl_bat_in_out,0,0,sub_ind1);\r\n\t if(BAT_IS_ON[sub_ind1]!=bisON) show_mess(\" Введение батареи \",\r\n\t \t\t\t\t\t\t\t\t \" уничтожит все \",\r\n\t \t\t\t\t\t\t\t\t \" предшествующие \",\r\n\t \t\t\t\t\t\t\t\t \" данные!!! \",4000); \r\n\t parol_init();\r\n\t }\r\n\t }\r\n\telse if(sub_ind==1)\r\n\t {\r\n\t if(but==butR)BAT_C_NOM[sub_ind1]++;\r\n\t else if(but==butR_)BAT_C_NOM[sub_ind1]+=10;\r\n\t else if(but==butL)BAT_C_NOM[sub_ind1]--;\r\n\t else if(but==butL_)BAT_C_NOM[sub_ind1]-=10;\r\n\t gran(&BAT_C_NOM[sub_ind1],0,2000);\r\n\t lc640_write_int(ADR_EE_BAT_C_NOM[sub_ind1],BAT_C_NOM[sub_ind1]);\r\n\t speed=1;\r\n\t }\t\t \r\n\t\t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{ \r\n cap=0;\r\n\t\t\tdeep=lc640_read_int(CNT_EVENT_LOG);\r\n\t\t\tptr=lc640_read_int(PTR_EVENT_LOG);\r\n\t\t\t\r\n\t\t\tif(deep>63)\r\n\t\t\t\t{\r\n\t\t\t\tdeep=0;\r\n\t\t\t ptr=0;\r\n\t\t\t }\r\n\t\t\t \t\t\t\r\n\t\t\tfor(i=0;i<deep;i++)\r\n\t\t\t\t{\r\n\t\t\t\tlc640_read_long_ptr(EVENT_LOG+(32ptr),av_head);\r\n\t\t\t\t\r\n\t\t\t\tif((av_head[0]=='B')&&(av_head[1]==sub_ind1)&&(av_head[2]=='K')) \t//ищем записи батарейных событий 'K'(контроли емкости)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tcap++;\r\n\t\t\t\t\tcontent[cap-1]=ptr;\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t\t\tptr=ptr_carry(ptr,64,-1); \r\n\t\r\n\t\t\t\t} \r\n\t\t\t\t\r\n\t\t\ttree_up(iBatLogKe,0,0,sub_ind1);\r\n\t\t\t\r\n\t\t\tav_j_si_max=cap;\r\n\t\t\tif(av_j_si_max>63)av_j_si_max=0;\r\n\t\t\t} \r\n\t\t}\r\n\r\n\r\n\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{ \r\n cap=0;\r\n\t\t\tdeep=lc640_read_int(CNT_EVENT_LOG);\r\n\t\t\tptr=lc640_read_int(PTR_EVENT_LOG);\r\n\t\t\t\r\n\t\t\tif(deep>63)\r\n\t\t\t\t{\r\n\t\t\t\tdeep=0;\r\n\t\t\t ptr=0;\r\n\t\t\t }\r\n\t\t\t \r\n\t\t\tfor(i=0;i<deep;i++)\r\n\t\t\t\t{\r\n\t\t\t\tlc640_read_long_ptr(EVENT_LOG+(32ptr),av_head);\r\n\t\t\t\t\r\n\t\t\t\tif((av_head[0]=='B')/&&(av_head[1]==sub_ind1)/&&(av_head[2]=='Z')) \t//ищем записи батарейных событий 'z'(выравнивающий заряд)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tcap++;\r\n\t\t\t\t\tcontent[cap-1]=ptr;\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t\t\tptr=ptr_carry(ptr,64,-1); \r\n\t\t\t\t} \r\n\t\t\t\t\r\n\t\t\ttree_up(iBatLogVz,0,0,sub_ind1); \r\n\t\t\t\r\n\t\t\tav_j_si_max=cap;\r\n\t\t\tif(av_j_si_max>63)av_j_si_max=0;\r\n\t\t\t} \r\n\t\telse if(but==butR)\r\n\t\t\t{\r\n\t\t\t//vz_mem_hndl(0,5);\r\n\t\t\t//vz_mem_hndl(1,6);\t \r\n\t\t\t} \r\n\t\t}\r\n\r\n\telse if(sub_ind==5)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{ \r\n cap=0;\r\n\t\t\tdeep=lc640_read_int(CNT_EVENT_LOG);\r\n\t\t\tptr=lc640_read_int(PTR_EVENT_LOG);\r\n\r\n\t\t\tif(deep>63)\r\n\t\t\t\t{\r\n\t\t\t\tdeep=0;\r\n\t\t\t ptr=0;\r\n\t\t\t }\r\n\t\t\t\r\n\t\t\t//out_usart0 (8,0x11,((char)&deep),(((char)&deep)+1),((char)&ptr),(((char)&ptr)+1),cap,content[cap-1],i,0);\r\n\t\t\t\r\n\t\t\tfor(i=0;i<deep;i++)\r\n\t\t\t\t{\r\n\t\t\t\tlc640_read_long_ptr(EVENT_LOG+(32ptr),av_head);\r\n\t\t\t\t\r\n\t\t\t\tif((av_head[0]=='B')&&(av_head[1]==sub_ind1)&&(av_head[2]=='W')) \t//ищем записи батарейных событий 'W'(разряды)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tcap++;\r\n\t\t\t\t\tcontent[cap-1]=ptr;\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t \t/* \tout_usart0 (8,0x22,((char)&deep),(((char)&deep)+1),((char)&ptr),(((char)&ptr)+1),cap,content[cap-1],i,0); \r\n\t\t\t\tdelay_ms(100);\r\n\t\t\t\tPORTC.7=!PORTC.7;\r\n\t\t\t\t#asm(\"wdr\"); \t/\r\n\t\t\t\tptr=ptr_carry(ptr,64,-1); \r\n\t\t\t\t} \r\n\t\t\t\t\r\n\t\t\t/ind=iJ_bat_wrk_sel;\r\n\t\t\tsub_ind=0;/\r\n\r\n\t\t\ttree_up(iBatLogWrk,0,0,sub_ind1);\r\n\t\t\t\r\n\t\t\tav_j_si_max=cap;\r\n\t\t\tif(av_j_si_max>63)av_j_si_max=0;\r\n\t\t\t} \r\n\t\telse if(but==butR)\r\n\t\t\t{\r\n\t\t\t//vz_mem_hndl(0,5);\r\n\t\t\t//vz_mem_hndl(1,6);\t \r\n\t\t\t} \r\n\t\t}\t\t\r\n\t\t \t \t\r\n else if(sub_ind==6)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t\t\tif(BAT_IS_ON[sub_ind1]!=bisON)tree_down(0,-4);\r\n\t else tree_down(0,0);\r\n\t }\r\n\t }\t\t \r\n\t\t\r\n\t} \r\n#ifndef UKU_6U_WEB\r\nelse if(ind==iBatLogVz)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==av_j_si_max)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t} \r\n\telse if(but==butL)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\t\r\n //\telse if(but==butR) vz_mem_hndl(sub_ind1,_sec);\r\n\t\r\n\t\t\r\n\t}\r\n\r\nelse if(ind==iBatLogKe)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==av_j_si_max)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t} \r\n\telse if(but==butL)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\t\r\n //\telse if(but==butR) ke_mem_hndl(sub_ind1,_sec);\t\t\r\n\t}\r\n\r\nelse if(ind==iBatLogWrk)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==av_j_si_max)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\telse if(sub_ind<=av_j_si_max)\r\n\t\t\t{\r\n\t\t\t//ind=iWrk;\r\n\t\t\t//sub_ind2=content[sub_ind];\r\n\t\t\tindex_set=0;\r\n\t\t\t//sub_ind=0;\r\n\t\t\t}\t\r\n\t\t} \r\n\telse if(but==butL)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\t\r\n\telse if(but==butR)\r\n\t\t{\r\n\t //\twrk_mem_hndl(sub_ind1);\r\n\r\n\t\t} \r\n\t//int2lcdyx(BAT_TYPE[sub_ind1],0,2,0);\r\n\t}\r\n\r\nelse if(ind==iAv_view)\r\n\t{\r\n\tif(but==butE)\r\n\t\t{\r\n\t\tif(uku_or_rki==0){\t//oleg_start\r\n\t\t\tavar_ind_stat&=~(1L<<sub_ind);\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t{\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t{\r\n\t\t\t\tsub_ind++;\r\n\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif(rki_avar1_ind_stat==0) tree_down(0,0); //oleg_start\t\ttree_down(0,0);\r\n\t\t\t\t\telse {sub_ind=-1; uku_or_rki=1;}\t//oleg_start\r\n\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t \t}\r\n\t \t\telse \r\n\t\t\t{\r\n\t\t\t\tif(rki_avar1_ind_stat==0) {tree_down(0,0);} //oleg_start\t\ttree_down(0,0);\r\n\t\t\t\telse {uku_or_rki=1;\tsub_ind=-1;}//oleg_start\r\n\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\r\n\t\t\t}\r\n\r\n\t\t}\r\n\t\t//oleg_start\r\n\t\tif(uku_or_rki==1){\t\r\n\t\t\trki_avar1_ind_stat&=~(1L<<sub_ind);\r\n\t\t\tif(rki_avar1_ind_stat)\r\n\t\t\t{\r\n\t\t\t\twhile(!(rki_avar1_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t{\r\n\t\t\t\tsub_ind++;\r\n\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t{\r\n\t\t\t\t\t/ //o_3_s // можно удалить\r\n\t\t\t\t\tif(rki_avarI1_ind_stat ) {sub_ind=-1; uku_or_rki=2;}\r\n\t\t\t\t\telse if(rki_avarI2_ind_stat ) {sub_ind=-1; uku_or_rki=3;}\r\n\t\t\t\t\telse / tree_down(0,0);\t//o_3_e\t\t\t\t\r\n\t\t\t\t\trki_avar1_ind_stat=0;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t \t}\r\n\t \t\telse \r\n\t\t\t{\r\n\t\t\t\t/\t//o_3_s // можно удалить\r\n\t\t\t\tif(rki_avarI1_ind_stat ) {sub_ind=-1; uku_or_rki=2;}\r\n\t\t\t\telse if(rki_avarI2_ind_stat ) {sub_ind=-1; uku_or_rki=3;}\r\n\t\t\t\telse /tree_down(0,0);\t//o_3_e\t\t\t\t\r\n\t\t\t\trki_avar1_ind_stat=0;\t\t\t\t\r\n\t\t\t}\r\n\r\n\t\t}\r\n\t\t/ //o_3_s // можно удалить\r\n\t\tif(uku_or_rki==2){\t\r\n\t\t\trki_avarI1_ind_stat&=~(1L<<sub_ind);\r\n\t\t\tif(rki_avarI1_ind_stat)\r\n\t\t\t{\r\n\t\t\t\twhile(!(rki_avarI1_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t{\r\n\t\t\t\tsub_ind++;\r\n\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif(rki_avarI2_ind_stat ) {sub_ind=-1; uku_or_rki=3;}\r\n\t\t\t\t\telse tree_down(0,0);\t\t\t\t\t\r\n\t\t\t\t\trki_avarI1_ind_stat=0;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t \t}\r\n\t \t\telse \r\n\t\t\t{\r\n\t\t\t\tif(rki_avarI2_ind_stat ) {sub_ind=-1; uku_or_rki=3;}\r\n\t\t\t\telse tree_down(0,0);\t\t\t\t\t\r\n\t\t\t\trki_avarI1_ind_stat=0;\t\t\t\t\r\n\t\t\t}\r\n\r\n\t\t}\r\n\t\tif(uku_or_rki==3){\r\n\t\t\trki_avarI2_ind_stat&=~(1L<<sub_ind);\r\n\t\t\tif(rki_avarI2_ind_stat)\r\n\t\t\t{\r\n\t\t\t\twhile(!(rki_avarI2_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t{\r\n\t\t\t\tsub_ind++;\r\n\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\trki_avarI2_ind_stat=0;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t \t}\r\n\t \t\telse \r\n\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\trki_avarI2_ind_stat=0;\r\n\t\t\t}\r\n\r\n\t\t}\r\n\t\t/ //o_3_e\r\n\t\t//oleg_end\r\n\r\n\t\t}\r\n \t}\r\n\r\nelse if(ind==iAvz)\r\n\t{\r\n\tif(AVZ!=AVZ_OFF)\r\n\t\t{\r\n\t\tif(but==butU)\r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\tif(sub_ind==3)sub_ind--;\r\n\t\t\t}\r\n\t\telse if(but==butD)\r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\tif(sub_ind==3)sub_ind++;\r\n\t\t\t}\r\n\t\telse if(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(but==butL)\r\n\t\t\t\t{\r\n\t\t\t\tif(AVZ==AVZ_1)AVZ=AVZ_OFF;\r\n\t\t\t\telse if(AVZ==AVZ_2)AVZ=AVZ_1;\r\n\t\t\t\telse if(AVZ==AVZ_3)AVZ=AVZ_2; \r\n\t\t\t\telse if(AVZ==AVZ_6)AVZ=AVZ_3;\r\n\t\t\t\telse if(AVZ==AVZ_12)AVZ=AVZ_6;\t\t\t\r\n\t\t\t\telse AVZ=AVZ_12;\r\n\t\t\t\t}\r\n\t\t\telse if((but==butR)\|\|(but==butE))\r\n\t\t\t\t{\r\n\t\t\t\tif(AVZ==AVZ_1)AVZ=AVZ_2;\r\n\t\t\t\telse if(AVZ==AVZ_2)AVZ=AVZ_3;\r\n\t\t\t\telse if(AVZ==AVZ_3)AVZ=AVZ_6; \r\n\t\t\t\telse if(AVZ==AVZ_6)AVZ=AVZ_12;\r\n\t\t\t\telse if(AVZ==AVZ_12)AVZ=AVZ_OFF;\t\t\t\r\n\t\t\t\telse AVZ=AVZ_1;\r\n\t\t\t\t} \r\n\t\t\tlc640_write_int(EE_AVZ,AVZ);\r\n\t\t\tif(AVZ!=AVZ_OFF)avz_next_date_hndl();\t\t\r\n\t\t\t} \r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tspeed=1;\r\n\t\t\t\tAVZ_TIME++;\r\n\t\t\t\t} \r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tspeed=1;\r\n\t\t\t\tAVZ_TIME--;\r\n\t\t\t\t}\t\t\t\r\n\t\t\tgran((signed short)&AVZ_TIME,1,24);\r\n\t\t\tlc640_write_int(EE_AVZ_TIME,AVZ_TIME);\r\n\t\t\t}\t\r\n\t\telse if(sub_ind==4)\r\n\t\t\t{\r\n\t\t\tif((but==butE))\r\n\t\t\t\t{\r\n\t\t\t\tind=iSpc;\r\n\t\t\t\tsub_ind=1;\r\n\t\t\t\t}\t\r\n\t\t\t} \r\n\t\tgran_char(&sub_ind,0,4);\t\t\t\t\t\t \r\n\t\t} \r\n\telse if(AVZ==AVZ_OFF)\r\n\t\t{\r\n\t\tif(but==butU)\r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\t}\r\n\t\telse if(but==butD)\r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\t}\r\n\t\telse if(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(but==butL)\r\n\t\t\t\t{\r\n\t\t\t\tif(AVZ==AVZ_1)AVZ=AVZ_OFF;\r\n\t\t\t\telse if(AVZ==AVZ_2)AVZ=AVZ_1;\r\n\t\t\t\telse if(AVZ==AVZ_3)AVZ=AVZ_2; \r\n\t\t\t\telse if(AVZ==AVZ_6)AVZ=AVZ_3;\r\n\t\t\t\telse if(AVZ==AVZ_12)AVZ=AVZ_6;\t\t\t\r\n\t\t\t\telse AVZ=AVZ_12;\r\n\t\t\t\t}\r\n\t\t\telse if((but==butR)\|\|(but==butE))\r\n\t\t\t\t{\r\n\t\t\t\tif(AVZ==AVZ_1)AVZ=AVZ_2;\r\n\t\t\t\telse if(AVZ==AVZ_2)AVZ=AVZ_3;\r\n\t\t\t\telse if(AVZ==AVZ_3)AVZ=AVZ_6; \r\n\t\t\t\telse if(AVZ==AVZ_6)AVZ=AVZ_12;\r\n\t\t\t\telse if(AVZ==AVZ_12)AVZ=AVZ_OFF;\t\t\t\r\n\t\t\t\telse AVZ=AVZ_1;\r\n\t\t\t\t} \r\n\t\t\tlc640_write_int(EE_AVZ,AVZ);\r\n\t\t\tif(AVZ!=AVZ_OFF)avz_next_date_hndl();\t\t\r\n\t\t\t} \r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tspeed=1;\r\n\t\t\t\tAVZ_TIME++;\r\n\t\t\t\t} \r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tspeed=1;\r\n\t\t\t\tAVZ_TIME--;\r\n\t\t\t\t}\t\t\t\r\n\t\t\tgran((signed short)&AVZ_TIME,1,20);\r\n\t\t\tlc640_write_int(EE_AVZ_TIME,AVZ_TIME);\r\n\t\t\t}\t\r\n\t\telse if(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tif((but==butE))\r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\t}\t\r\n\t\t\t} \r\n\t\tgran_char(&sub_ind,0,2);\t\t\t\t\t\t \r\n\t\t} \r\n }\r\n\t\t\r\nelse if(ind==iTst_RSTKM)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,18+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\tindex_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\tindex_set=7;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n sub_ind=10;\r\n\t\t\tindex_set=9;\r\n\t\t\t}\r\n\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\tindex_set=11;\r\n\t\t\t}\r\n\t\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=14;\r\n\t\t\tindex_set=13;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,18+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n\t\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\t}\t\t\r\n\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=10;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\t}\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tstOFF) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tst1) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tst2) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tstOFF) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tstOFF) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tst1) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tst2) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tstOFF) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\t}\t\t\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[9]==tstOFF) tst_state[9]=tst1;\r\n\t\t\telse if(tst_state[9]==tst1) tst_state[9]=tst2;\r\n\t\t\telse tst_state[9]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[9]==tst2) tst_state[9]=tst1;\r\n\t\t\telse if(tst_state[9]==tstOFF) tst_state[9]=tst2;\r\n\t\t\telse tst_state[9]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tstOFF) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tst1) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tst2) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tstOFF) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tstOFF) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tst1) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tst2) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tstOFF) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\ttst_state[10]++;\r\n\t\t\tif((tst_state[10]<(enum_tst_state)1)\|\|(tst_state[10]>(enum_tst_state)20)) tst_state[10]=(enum_tst_state)20;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttst_state[10]--;\r\n\t\t\tif((tst_state[10]<(enum_tst_state)1)\|\|(tst_state[10]>(enum_tst_state)20)) tst_state[10]=(enum_tst_state)0;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tstOFF) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tst1) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tst2) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tstOFF) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==14)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[7]==tstOFF) tst_state[7]=tst1;\r\n\t\t\telse tst_state[7]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==15)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[8]==tstOFF) tst_state[8]=tst1;\r\n\t\t\telse tst_state[8]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if((sub_ind>=16)&&(sub_ind<(16+NUMIST))&&(NUMIST)&&((but==butE)))\t\r\n\t\t{\r\n\t\ttree_up(iTst_bps,0,0,sub_ind-16);\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\r\n\telse if(sub_ind==(16+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET=1;\r\n\t\t\t}\r\n\t\r\n\t\t}\r\n\telse if(sub_ind==(17+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET_EXT=1;\r\n\t\t\t}\r\n\t\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==(18+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\r\n\t\t}\t\r\n\t}\r\n\r\nelse if(ind==iTst_KONTUR)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,18+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\tindex_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\tindex_set=7;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n sub_ind=10;\r\n\t\t\tindex_set=9;\r\n\t\t\t}\r\n\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\tindex_set=11;\r\n\t\t\t}\r\n\t\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=14;\r\n\t\t\tindex_set=13;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,18+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n\t\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\t}\t\t\r\n\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=10;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\t}\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tstOFF) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tst1) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tst2) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tstOFF) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tstOFF) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tst1) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tst2) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tstOFF) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\t}\t\t\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[9]==tstOFF) tst_state[9]=tst1;\r\n\t\t\telse if(tst_state[9]==tst1) tst_state[9]=tst2;\r\n\t\t\telse tst_state[9]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[9]==tst2) tst_state[9]=tst1;\r\n\t\t\telse if(tst_state[9]==tstOFF) tst_state[9]=tst2;\r\n\t\t\telse tst_state[9]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tstOFF) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tst1) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tst2) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tstOFF) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tstOFF) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tst1) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tst2) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tstOFF) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\ttst_state[10]++;\r\n\t\t\tif((tst_state[10]<(enum_tst_state)1)\|\|(tst_state[10]>(enum_tst_state)20)) tst_state[10]=(enum_tst_state)20;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\ttst_state[10]--;\r\n\t\t\tif((tst_state[10]<(enum_tst_state)1)\|\|(tst_state[10]>(enum_tst_state)20)) tst_state[10]=(enum_tst_state)0;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tstOFF) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tst1) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tst2) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tstOFF) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==14)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[7]==tstOFF) tst_state[7]=tst1;\r\n\t\t\telse tst_state[7]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==15)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[8]==tstOFF) tst_state[8]=tst1;\r\n\t\t\telse tst_state[8]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if((sub_ind>=16)&&(sub_ind<(16+NUMIST))&&(NUMIST)&&((but==butE)))\t\r\n\t\t{\r\n\t\ttree_up(iTst_bps,0,0,sub_ind-16);\r\n\t\tcan2_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\r\n\telse if(sub_ind==(16+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET=1;\r\n\t\t\t}\r\n\t\r\n\t\t}\r\n\telse if(sub_ind==(17+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET_EXT=1;\r\n\t\t\t}\r\n\t\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==(18+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\r\n\t\t}\t\r\n\t}\r\n\r\nelse if(ind==iTst_3U)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,14+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\tindex_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\tindex_set=7;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n sub_ind=10;\r\n\t\t\t//index_set=9;\r\n\t\t\t}\r\n\t/\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\tindex_set=11;\r\n\t\t\t}/\r\n\t/\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=14;\r\n\t\t\tindex_set=13;\r\n\t\t\t}/\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,18+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n\t/\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\t}/\t\t\r\n\t/\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=10;\r\n\t\t\t}/\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\t}\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tstOFF) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tst1) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tst2) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tstOFF) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tstOFF) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tst1) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tst2) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tstOFF) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\t}\t\t\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tstOFF) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tst1) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tst2) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tstOFF) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tstOFF) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tst1) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tst2) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tstOFF) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tstOFF) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tst1) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tst2) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tstOFF) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[5]==tstOFF) tst_state[5]=tst1;\r\n\t\t\telse tst_state[5]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==11)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[6]==tstOFF) tst_state[6]=tst1;\r\n\t\t\telse tst_state[6]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if((sub_ind>=12)&&(sub_ind<(12+NUMIST))&&(NUMIST)&&((but==butE)))\t\r\n\t\t{\r\n\t\ttree_up(iTst_bps,0,0,sub_ind-13);\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\r\n\telse if(sub_ind==(12+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET=1;\r\n\t\t\t}\r\n\t\t}\r\n\t\t\t\r\n\telse if(sub_ind==(13+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\r\n\t\t}\t\r\n\t}\r\n\r\nelse if(ind==iTst_GLONASS)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,13+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\tindex_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\tindex_set=7;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n sub_ind=10;\r\n\t\t\t//index_set=9;\r\n\t\t\t}\r\n\t/\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\tindex_set=11;\r\n\t\t\t}/\r\n\t/\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=14;\r\n\t\t\tindex_set=13;\r\n\t\t\t}/\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,13+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n\t/\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\t}/\t\t\r\n\t/\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=10;\r\n\t\t\t}/\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\t}\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tstOFF) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tst1) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tst2) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tstOFF) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tstOFF) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tst1) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tst2) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tstOFF) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\t}\t\t\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tstOFF) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tst1) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tst2) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tstOFF) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tstOFF) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tst1) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tst2) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tstOFF) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tstOFF) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tst1) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tst2) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tstOFF) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[5]==tstOFF) tst_state[5]=tst1;\r\n\t\t\telse tst_state[5]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==11)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[6]==tstOFF) tst_state[6]=tst1;\r\n\t\t\telse tst_state[6]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n/\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[7]==tstOFF) tst_state[7]=tst1;\r\n\t\t\telse tst_state[7]=tstOFF;\r\n\t\t\t}\r\n\t\t}/\r\n\telse if((sub_ind>=12)&&(sub_ind<(12+NUMIST))&&(NUMIST)&&((but==butE)))\t\r\n\t\t{\r\n\t\ttree_up(iTst_bps,0,0,sub_ind-12);\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\r\n\telse if(sub_ind==(12+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET=1;\r\n\t\t\t}\r\n\t\t}\r\n\t\t\t\r\n\telse if(sub_ind==(13+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\r\n\t\t}\t\r\n\t}\r\n\r\nelse if(ind==iTst_6U)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,14+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\tindex_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\t//index_set=7;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tindex_set=8;\r\n\t\t\t}\r\n\t\tif(sub_ind==10)\r\n\t\t\t{\r\n\t\t\tsub_ind=11;\r\n\t\t\tindex_set=10;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,14+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\t\r\n\t\tif(sub_ind==10)\r\n\t\t\t{\r\n\t\t\tsub_ind=9;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tstOFF) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tst1) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tst2) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tstOFF) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tstOFF) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tst1) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tst2) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tstOFF) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\t}\t\t\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[9]==tstOFF) tst_state[9]=tst1;\r\n\t\t\telse if(tst_state[9]==tst1) tst_state[9]=tst2;\r\n\t\t\telse tst_state[9]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[9]==tst2) tst_state[9]=tst1;\r\n\t\t\telse if(tst_state[9]==tstOFF) tst_state[9]=tst2;\r\n\t\t\telse tst_state[9]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tstOFF) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tst1) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tst2) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tstOFF) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tstOFF) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tst1) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tst2) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tstOFF) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tstOFF) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tst1) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tst2) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tstOFF) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==11)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[7]==tstOFF) tst_state[7]=tst1;\r\n\t\t\telse tst_state[7]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[8]==tstOFF) tst_state[8]=tst1;\r\n\t\t\telse tst_state[8]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if((sub_ind>=13)&&(sub_ind<(13+NUMIST))&&(NUMIST)&&((but==butE)))\t\r\n\t\t{\r\n\t\ttree_up(iTst_bps,0,0,sub_ind-13);\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\r\n\telse if(sub_ind==(13+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET=1;\r\n\t\t\tbRESET_INT_WDT=1;\r\n\t\t\tbRESET_EXT_WDT=1;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==(14+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\r\n\t\t}\t\r\n\t}\r\n\r\nelse if((ind==iTst_220)\|\|(ind==iTst_220_380))\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,13+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tindex_set=6;\r\n\t\t\t}\r\n\t\tif(sub_ind==8)\r\n\t\t\t{\r\n\t\t\tsub_ind=9;\r\n\t\t\tindex_set=5;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,13+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\t\r\n\t\tif(sub_ind==8)\r\n\t\t\t{\r\n\t\t\tsub_ind=7;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tstOFF) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tst1) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tst2) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tstOFF) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tstOFF) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tst1) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tst2) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tstOFF) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\t}\t\t\r\n\t\t\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tstOFF) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tst1) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tst2) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tstOFF) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tstOFF) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tst1) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tst2) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tstOFF) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==7)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tstOFF) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tst1) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tst2) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tstOFF) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[7]==tstOFF) tst_state[7]=tst1;\r\n\t\t\telse tst_state[7]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[8]==tstOFF) tst_state[8]=tst1;\r\n\t\t\telse tst_state[8]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if((sub_ind>=11)&&(sub_ind<(11+NUMIST))&&(NUMIST)&&((but==butE)))\t\r\n\t\t{\r\n\t\ttree_up(iTst_bps,0,0,sub_ind-11);\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\r\n\r\n\telse if(sub_ind==(11+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==(12+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET_INT_WDT=1;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==(13+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET_EXT_WDT=1;\r\n\t\t\t}\r\n\t\t}\t\t\r\n\t}\r\n\r\nelse if(ind==iTst_220_IPS_TERMOKOMPENSAT)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,10+NUMIST + 8(NUMBDR==1));\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\tindex_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\tindex_set=7;\r\n\t\t\t}\r\n\r\n\t\tif(sub_ind==(8+NUMIST))\r\n\t\t\t{\r\n\t\t\tindex_set=(7+NUMIST);\r\n\t\t\t}\r\n\r\n\t\tif((sub_ind==(9+NUMIST))&&(NUMBDR==1))\r\n\t\t\t{\r\n\t\t\tsub_ind=(10+NUMIST);\r\n\t\t\tindex_set=(9+NUMIST);\r\n\t\t\t}\r\n\t\tif((sub_ind==(11+NUMIST))&&(NUMBDR==1))\r\n\t\t\t{\r\n\t\t\tsub_ind=(12+NUMIST);\r\n\t\t\tindex_set=(11+NUMIST);\r\n\t\t\t}\r\n\t\tif((sub_ind==(13+NUMIST))&&(NUMBDR==1))\r\n\t\t\t{\r\n\t\t\tsub_ind=(14+NUMIST);\r\n\t\t\tindex_set=(13+NUMIST);\r\n\t\t\t}\r\n\t\tif((sub_ind==(15+NUMIST))&&(NUMBDR==1))\r\n\t\t\t{\r\n\t\t\tsub_ind=(16+NUMIST);\r\n\t\t\tindex_set=(15+NUMIST);\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,10+NUMIST + 8(NUMBDR==1));\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\r\n\t\tif((sub_ind==(15+NUMIST))&&(NUMBDR==1))\r\n\t\t\t{\r\n\t\t\tsub_ind=(14+NUMIST);\r\n\t\t\tindex_set=(13+NUMIST);\r\n\t\t\t}\r\n\t\tif((sub_ind==(13+NUMIST))&&(NUMBDR==1))\r\n\t\t\t{\r\n\t\t\tsub_ind=(12+NUMIST);\r\n\t\t\tindex_set=(11+NUMIST);\r\n\t\t\t}\r\n\t\tif((sub_ind==(11+NUMIST))&&(NUMBDR==1))\r\n\t\t\t{\r\n\t\t\tsub_ind=(10+NUMIST);\r\n\t\t\tindex_set=(9+NUMIST);\r\n\t\t\t}\r\n\t\tif((sub_ind==(9+NUMIST))&&(NUMBDR==1))\r\n\t\t\t{\r\n\t\t\tsub_ind=(8+NUMIST);\r\n\t\t\tindex_set=(7+NUMIST);\r\n\t\t\t}\r\n\r\n\r\n\t\t\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\tindex_set=4;\r\n\t\t\t} \r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=5;\r\n\t\t\t} \r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tstOFF) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tst1) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tst2) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tstOFF) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\t}\r\n\t\t\r\n\t\t\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tstOFF) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tst1) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tst2) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tstOFF) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tstOFF) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tst1) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tst2) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tstOFF) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tstOFF) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tst1) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tst2) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tstOFF) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\telse if((sub_ind>=8)&&(sub_ind<(8+NUMIST))&&(NUMIST)&&((but==butE)))\t\r\n\t\t{\r\n\t\ttree_up(iTst_bps,0,0,sub_ind-8);\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\r\n\r\n\telse if((sub_ind==(8+NUMIST)) &&(NUMBDR==1))\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[5]==tstOFF) tst_state[5]=tst1;\r\n\t\t\telse if(tst_state[5]==tst1) tst_state[5]=tst2;\r\n\t\t\telse tst_state[5]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[5]==tst2) tst_state[5]=tst1;\r\n\t\t\telse if(tst_state[5]==tstOFF) tst_state[5]=tst2;\r\n\t\t\telse tst_state[5]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if((sub_ind==(10+NUMIST))&&(NUMBDR==1))\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[6]==tstOFF) tst_state[6]=tst1;\r\n\t\t\telse if(tst_state[6]==tst1) tst_state[6]=tst2;\r\n\t\t\telse tst_state[6]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[6]==tst2) tst_state[6]=tst1;\r\n\t\t\telse if(tst_state[6]==tstOFF) tst_state[6]=tst2;\r\n\t\t\telse tst_state[6]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if((sub_ind==(12+NUMIST))&&(NUMBDR==1))\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[7]==tstOFF) tst_state[7]=tst1;\r\n\t\t\telse if(tst_state[7]==tst1) tst_state[7]=tst2;\r\n\t\t\telse tst_state[7]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[7]==tst2) tst_state[7]=tst1;\r\n\t\t\telse if(tst_state[7]==tstOFF) tst_state[7]=tst2;\r\n\t\t\telse tst_state[7]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n \telse if((sub_ind==(14+NUMIST))&&(NUMBDR==1))\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[8]==tstOFF) tst_state[8]=tst1;\r\n\t\t\telse if(tst_state[8]==tst1) tst_state[8]=tst2;\r\n\t\t\telse tst_state[8]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[8]==tst2) tst_state[8]=tst1;\r\n\t\t\telse if(tst_state[8]==tstOFF) tst_state[8]=tst2;\r\n\t\t\telse tst_state[8]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==(8+NUMIST+(8(NUMBDR==1))))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==(9+NUMIST+(8(NUMBDR==1))))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET_INT_WDT=1;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==(10+NUMIST+(8(NUMBDR==1))))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET_EXT_WDT=1;\r\n\t\t\t}\r\n\t\t}\t\t\t\t\t\r\n\t}\r\n#ifdef UKU_TELECORE2015\r\nelse if(ind==iTst_TELECORE)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,14+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\tindex_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\tindex_set=7;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tsub_ind=10;\r\n\t\t\tindex_set=9;\r\n\t\t\t}\r\n\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\tindex_set=11;\r\n\t\t\t}\r\n\t/\tif(sub_ind==13)\r\n\t\t\t{\r\n sub_ind=14;\r\n\t\t\t//index_set=9;\r\n\t\t\t}/\r\n/\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\tindex_set=11;\r\n\t\t\t}\r\n\t\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=14;\r\n\t\t\tindex_set=13;\r\n\t\t\t} /\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,14+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n/\t\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\t}\t\t\r\n\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=10;\r\n\t\t\t}/\r\n\t/\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\t}/\r\n\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=10;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\t}\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tstOFF) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tst1) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tst2) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tstOFF) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tstOFF) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tst1) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tst2) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tstOFF) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tstOFF) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tst1) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tst2) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tstOFF) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tstOFF) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tst1) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tst2) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tstOFF) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[5]==tstOFF) tst_state[5]=tst1;\r\n\t\t\telse if(tst_state[5]==tst1) tst_state[5]=tst2;\r\n\t\t\telse tst_state[5]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[5]==tst2) tst_state[5]=tst1;\r\n\t\t\telse if(tst_state[5]==tstOFF) tst_state[5]=tst2;\r\n\t\t\telse tst_state[5]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tstOFF) tst_state[2]=tst1;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if((sub_ind>=12)&&(sub_ind<(12+NUMIST))&&(NUMIST)&&((but==butE)))\t\r\n\t\t{\r\n\t\ttree_up(iTst_bps,0,0,sub_ind-12);\r\n\t\tcan2_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\r\n\telse if(sub_ind==(12+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET=1;\r\n\t\t\t}\r\n\t\r\n\t\t}\r\n\telse if(sub_ind==(13+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET_EXT=1;\r\n\t\t\t}\r\n\t\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==(14+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\r\n\t\t}\t\r\n\t}\r\n#endif\r\n\r\n#ifdef UKU_TELECORE2017\r\nelse if(ind==iTst_TELECORE)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,15+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\tindex_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\tindex_set=7;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tsub_ind=10;\r\n\t\t\tindex_set=9;\r\n\t\t\t}\r\n\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\tindex_set=11;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,15+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=10;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\t}\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tstOFF) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tst1) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tst2) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tstOFF) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tstOFF) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tst1) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tst2) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tstOFF) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tstOFF) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tst1) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tst2) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[2]==tstOFF) tst_state[2]=tst2;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif((but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]<5)tst_state[3]++;\r\n\t\t\telse tst_state[3]=5;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]>0)tst_state[3]--;\r\n\t\t\telse tst_state[3]=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif((but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]<5)tst_state[4]++;\r\n\t\t\telse tst_state[4]=5;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]>0)tst_state[4]--;\r\n\t\t\telse tst_state[4]=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n \telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[6]==tstOFF) tst_state[6]=tst1;\r\n\t\t\telse if(tst_state[6]==tst1) tst_state[6]=tst2;\r\n\t\t\telse tst_state[6]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[6]==tst2) tst_state[6]=tst1;\r\n\t\t\telse if(tst_state[6]==tstOFF) tst_state[6]=tst2;\r\n\t\t\telse tst_state[6]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[5]==tstOFF) tst_state[5]=tst1;\r\n\t\t\telse tst_state[5]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if((sub_ind>=14)&&(sub_ind<(14+NUMIST))&&(NUMIST)&&((but==butE)))\t\r\n\t\t{\r\n\t\ttree_up(iTst_bps,0,0,sub_ind-14);\r\n\t\tcan2_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\r\n\telse if(sub_ind==(14+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET=1;\r\n\t\t\tbRESET_INT_WDT=1;\r\n\t\t\tbRESET_EXT_WDT=1;\r\n\t\t\t}\r\n\t\r\n\t\t}\r\n\telse if(sub_ind==(15+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\r\n\t\t}\t\r\n\t}\r\n#endif\r\n\r\nelse if(ind==iTst_TELECORE)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,14+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\tindex_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\tindex_set=7;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tsub_ind=10;\r\n\t\t\tindex_set=9;\r\n\t\t\t}\r\n\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\tindex_set=11;\r\n\t\t\t}\r\n\t/\tif(sub_ind==13)\r\n\t\t\t{\r\n sub_ind=14;\r\n\t\t\t//index_set=9;\r\n\t\t\t}/\r\n/\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\tindex_set=11;\r\n\t\t\t}\r\n\t\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=14;\r\n\t\t\tindex_set=13;\r\n\t\t\t} /\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,14+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\t\ttst_state[9]=tstOFF;\r\n\t\ttst_state[10]=(enum_tst_state)0;\r\n\r\n/\t\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\t}\t\t\r\n\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=10;\r\n\t\t\t}/\r\n\t/\tif(sub_ind==13)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\t}/\r\n\t\tif(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=10;\r\n\t\t\t}\r\n\t\tif(sub_ind==9)\r\n\t\t\t{\r\n\t\t\tsub_ind=8;\r\n\t\t\t}\r\n\t\tif(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t}\r\n\t\tif(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\t}\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tstOFF) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tst1) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tst2) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tstOFF) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tstOFF) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tst1) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tst2) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tstOFF) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tstOFF) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tst1) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[3]==tst2) tst_state[3]=tst1;\r\n\t\t\telse if(tst_state[3]==tstOFF) tst_state[3]=tst2;\r\n\t\t\telse tst_state[3]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tstOFF) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tst1) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[4]==tst2) tst_state[4]=tst1;\r\n\t\t\telse if(tst_state[4]==tstOFF) tst_state[4]=tst2;\r\n\t\t\telse tst_state[4]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[5]==tstOFF) tst_state[5]=tst1;\r\n\t\t\telse if(tst_state[5]==tst1) tst_state[5]=tst2;\r\n\t\t\telse tst_state[5]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[5]==tst2) tst_state[5]=tst1;\r\n\t\t\telse if(tst_state[5]==tstOFF) tst_state[5]=tst2;\r\n\t\t\telse tst_state[5]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR)\|\|(but==butL))\r\n\t\t\t{\r\n\t\t\tif(tst_state[2]==tstOFF) tst_state[2]=tst1;\r\n\t\t\telse tst_state[2]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if((sub_ind>=12)&&(sub_ind<(12+NUMIST))&&(NUMIST)&&((but==butE)))\t\r\n\t\t{\r\n\t\ttree_up(iTst_bps,0,0,sub_ind-12);\r\n\t\tcan2_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\r\n\telse if(sub_ind==(12+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET=1;\r\n\t\t\t}\r\n\t\r\n\t\t}\r\n\telse if(sub_ind==(13+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET_EXT=1;\r\n\t\t\t}\r\n\t\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==(14+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\r\n\t\t}\t\r\n\t}\r\n#ifdef IPS_SGEP_GAZPROM\r\nelse if(ind==iTst_IPS_SGEP_GAZPROM)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,6+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\tindex_set=3;\r\n\t\t\t}\r\n\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,6+NUMIST);\r\n\t\tphase=0;\r\n\t\ttst_state[0]=tstOFF;\r\n\t\ttst_state[1]=tstOFF;\r\n\t\ttst_state[2]=tstOFF;\r\n\t\ttst_state[3]=tstOFF;\r\n\t\ttst_state[4]=tstOFF;\r\n\t\ttst_state[5]=tstOFF;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\ttst_state[7]=tstOFF;\r\n\t\ttst_state[8]=tstOFF;\r\n\r\n\r\n\t\tif(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=2;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t//index_set=5;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tstOFF) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tst1) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[0]==tst2) tst_state[0]=tst1;\r\n\t\t\telse if(tst_state[0]==tstOFF) tst_state[0]=tst2;\r\n\t\t\telse tst_state[0]=tstOFF; \r\n\t\t\t}\r\n\t\t}\r\n\t\t\r\n\t\t\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tstOFF) tst_state[1]=tst1;\r\n\t\t\telse if(tst_state[1]==tst1) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[1]==tst2) tst_state[2]=tst1;\r\n\t\t\telse if(tst_state[1]==tstOFF) tst_state[1]=tst2;\r\n\t\t\telse tst_state[1]=tstOFF;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if((sub_ind>=4)&&(sub_ind<(4+NUMIST))&&(NUMIST)&&((but==butE)))\t\r\n\t\t{\r\n\t\ttree_up(iTst_bps,0,0,sub_ind-4);\r\n\t\tcan1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t}\t\t\t\t\t\t\t\t\t\t\t\r\n\r\n \telse if(sub_ind==(4+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\r\n\t\t}\r\n\r\n\telse if(sub_ind==(5+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET_INT_WDT=1;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==(6+NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tbRESET_EXT_WDT=1;\r\n\t\t\t}\r\n\t\t}\t\t\t\t\t\r\n\t}\r\n#endif\r\n\r\nelse if(ind==iTst_bps)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t\r\n\t\tif(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tsub_ind=3;\r\n\t\t\t//index_set=2;\r\n\t\t\t}\r\n\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\ttst_state[5]=tst1;\r\n\t\ttst_state[6]=tstOFF;\r\n\t\t\r\n\t\tif(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tsub_ind=1;\r\n\t\t\t//index_set=2;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\tif(tst_state[5]==tstOFF)tst_state[5]=tst1;\r\n\t\t\telse if(tst_state[5]==tst1)tst_state[5]=tst2;\r\n\t\t\telse tst_state[5]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[5]==tstOFF)tst_state[5]=tst2;\r\n\t\t\telse if(tst_state[5]==tst1)tst_state[5]=tstOFF;\r\n\t\t\telse tst_state[5]=tst1;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\tif((but==butE)\|\|(but==butR))\r\n\t\t\t{\r\n\t\t\tif(tst_state[6]==tstOFF) tst_state[6]=tst1;\r\n\t\t\telse if(tst_state[6]==tst1) tst_state[6]=tst2;\r\n\t\t\telse tst_state[6]=tstOFF;\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tif(tst_state[6]==tst2) tst_state[6]=tst1;\r\n\t\t\telse if(tst_state[6]==tstOFF) tst_state[6]=tst2;\r\n\t\t\telse tst_state[6]=tstOFF;\r\n\t\t\t}\r\n\t\t}\t\t\r\n\t\t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\r\n\t}\r\n\r\nelse if(ind==iKlimat)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,7);\r\n\t\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,7);\r\n\t\t\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butR)TBOXMAX++;\r\n\t else if(but==butR_)TBOXMAX+=2;\r\n\t else if(but==butL)TBOXMAX--;\r\n\t else if(but==butL_)TBOXMAX-=2;\r\n\t gran(&TBOXMAX,50,80);\r\n\t lc640_write_int(EE_TBOXMAX,TBOXMAX);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==1)\r\n\t {\r\n\t if(but==butR)TBOXVENTMAX++;\r\n\t else if(but==butR_)TBOXVENTMAX+=2;\r\n\t else if(but==butL)TBOXVENTMAX--;\r\n\t else if(but==butL_)TBOXVENTMAX-=2;\r\n\t gran(&TBOXVENTMAX,49,81);\r\n\t lc640_write_int(EE_TBOXVENTMAX,TBOXVENTMAX);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==2)\r\n\t {\r\n\t if(but==butR)TBOXREG++;\r\n\t else if(but==butR_)TBOXREG+=2;\r\n\t else if(but==butL)TBOXREG--;\r\n\t else if(but==butL_)TBOXREG-=2;\r\n\t gran(&TBOXREG,5,30);\r\n\t lc640_write_int(EE_TBOXREG,TBOXREG);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==3)\r\n\t {\r\n\t if(but==butR)TLOADDISABLE++;\r\n\t else if(but==butR_)TLOADDISABLE+=2;\r\n\t else if(but==butL)TLOADDISABLE--;\r\n\t else if(but==butL_)TLOADDISABLE-=2;\r\n\t gran(&TLOADDISABLE,49,81);\r\n\t lc640_write_int(EE_TLOADDISABLE,TLOADDISABLE);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t if(but==butR)TLOADENABLE++;\r\n\t else if(but==butR_)TLOADENABLE+=2;\r\n\t else if(but==butL)TLOADENABLE--;\r\n\t else if(but==butL_)TLOADENABLE-=2;\r\n\t gran(&TLOADENABLE,44,TLOADDISABLE-5);\r\n\t lc640_write_int(EE_TLOADENABLE,TLOADENABLE);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t if(but==butR)TBATDISABLE++;\r\n\t else if(but==butR_)TBATDISABLE+=2;\r\n\t else if(but==butL)TBATDISABLE--;\r\n\t else if(but==butL_)TBATDISABLE-=2;\r\n\t gran(&TBATDISABLE,49,91);\r\n\t lc640_write_int(EE_TBATDISABLE,TBATDISABLE);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t if(but==butR)TBATENABLE++;\r\n\t else if(but==butR_)TBATENABLE+=2;\r\n\t else if(but==butL)TBATENABLE--;\r\n\t else if(but==butL_)TBATENABLE-=2;\r\n\t gran(&TBATENABLE,44,TBATDISABLE-5);\r\n\t lc640_write_int(EE_TBATENABLE,TBATENABLE);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==7)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iKlimat_kontur)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,9);\r\n\t\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,9);\r\n\t\t\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butR)TBOXMAX++;\r\n\t else if(but==butR_)TBOXMAX+=2;\r\n\t else if(but==butL)TBOXMAX--;\r\n\t else if(but==butL_)TBOXMAX-=2;\r\n\t gran(&TBOXMAX,50,80);\r\n\t lc640_write_int(EE_TBOXMAX,TBOXMAX);\r\n\t speed=1;\r\n\t }\r\n\r\n/\telse if(sub_ind==1)\r\n\t {\r\n\t if(but==butR)TBOXVENTON++;\r\n\t else if(but==butR_)TBOXVENTON+=2;\r\n\t else if(but==butL)TBOXVENTON--;\r\n\t else if(but==butL_)TBOXVENTON-=2;\r\n\t gran(&TBOXVENTON,TBOXVENTOFF+2,150);\r\n\t lc640_write_int(EE_TBOXVENTON,TBOXVENTON);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==2)\r\n\t {\r\n\t if(but==butR)TBOXVENTOFF++;\r\n\t else if(but==butR_)TBOXVENTOFF+=2;\r\n\t else if(but==butL)TBOXVENTOFF--;\r\n\t else if(but==butL_)TBOXVENTOFF-=2;\r\n\t gran(&TBOXVENTOFF,TBOXWARMOFF+2,TBOXVENTON-2);\r\n\t lc640_write_int(EE_TBOXVENTOFF,TBOXVENTOFF);\r\n\t speed=1;\r\n\t } /\r\n\telse if(sub_ind==1)\r\n\t {\r\n\t if(but==butR)TBOXVENTMAX++;\r\n\t else if(but==butR_)TBOXVENTMAX+=2;\r\n\t else if(but==butL)TBOXVENTMAX--;\r\n\t else if(but==butL_)TBOXVENTMAX-=2;\r\n\t gran(&TBOXVENTMAX,49,81);\r\n\t lc640_write_int(EE_TBOXVENTMAX,TBOXVENTMAX);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==2)\r\n\t {\r\n\t if(but==butR)TBOXREG++;\r\n\t else if(but==butR_)TBOXREG+=2;\r\n\t else if(but==butL)TBOXREG--;\r\n\t else if(but==butL_)TBOXREG-=2;\r\n\t //gran(&TBOXREG,5,30);\r\n\t\tgran(&TBOXREG,0,50);\r\n\t lc640_write_int(EE_TBOXREG,TBOXREG);\r\n\t speed=1;\r\n\t }\r\n\r\n\r\n\telse if(sub_ind==3)\r\n\t {\r\n\t if(but==butR)TBOXWARMON++;\r\n\t else if(but==butR_)TBOXWARMON+=2;\r\n\t else if(but==butL)TBOXWARMON--;\r\n\t else if(but==butL_)TBOXWARMON-=2;\r\n\t //gran(&TBOXWARMON,-20,20);\r\n\t\tgran(&TBOXWARMON,-50,50);\r\n\t lc640_write_int(EE_TBOXWARMON,TBOXWARMON);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t if(but==butR)TBOXWARMOFF++;\r\n\t else if(but==butR_)TBOXWARMOFF+=2;\r\n\t else if(but==butL)TBOXWARMOFF--;\r\n\t else if(but==butL_)TBOXWARMOFF-=2;\r\n\t //gran(&TBOXWARMOFF,-20,20);\r\n\t\tgran(&TBOXWARMOFF,-50,50);\r\n\t lc640_write_int(EE_TBOXWARMOFF,TBOXWARMOFF);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t if(but==butR)TLOADDISABLE++;\r\n\t else if(but==butR_)TLOADDISABLE+=2;\r\n\t else if(but==butL)TLOADDISABLE--;\r\n\t else if(but==butL_)TLOADDISABLE-=2;\r\n\t gran(&TLOADDISABLE,49,81);\r\n\t lc640_write_int(EE_TLOADDISABLE,TLOADDISABLE);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t if(but==butR)TLOADENABLE++;\r\n\t else if(but==butR_)TLOADENABLE+=2;\r\n\t else if(but==butL)TLOADENABLE--;\r\n\t else if(but==butL_)TLOADENABLE-=2;\r\n\t gran(&TLOADENABLE,44,TLOADDISABLE-5);\r\n\t lc640_write_int(EE_TLOADENABLE,TLOADENABLE);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==7)\r\n\t {\r\n\t if(but==butR)TBATDISABLE++;\r\n\t else if(but==butR_)TBATDISABLE+=2;\r\n\t else if(but==butL)TBATDISABLE--;\r\n\t else if(but==butL_)TBATDISABLE-=2;\r\n\t gran(&TBATDISABLE,49,91);\r\n\t lc640_write_int(EE_TBATDISABLE,TBATDISABLE);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t if(but==butR)TBATENABLE++;\r\n\t else if(but==butR_)TBATENABLE+=2;\r\n\t else if(but==butL)TBATENABLE--;\r\n\t else if(but==butL_)TBATENABLE-=2;\r\n\t gran(&TBATENABLE,44,TBATDISABLE-5);\r\n\t lc640_write_int(EE_TBATENABLE,TBATENABLE);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n#ifdef UKU_TELECORE2015\r\n else if(ind==iKlimat_TELECORE)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tgran_char(&sub_ind,0,11);\r\n\t\tif(sub_ind==3)sub_ind++;\r\n\t\tgran_char(&sub_ind,0,11);\t\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==1)sub_ind--;\r\n\t\tgran_char(&sub_ind,0,11);\r\n\t\tif(sub_ind==3)sub_ind--;\r\n\t\tgran_char(&sub_ind,0,11);\r\n\t\t\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butR)TELECORE2015_KLIMAT_WARM_SIGNAL++;\r\n\t else if(but==butR_)TELECORE2015_KLIMAT_WARM_SIGNAL++;\r\n\t else if(but==butL)TELECORE2015_KLIMAT_WARM_SIGNAL--;\r\n\t else if(but==butL_)TELECORE2015_KLIMAT_WARM_SIGNAL--;\r\n\t gran_ring(&TELECORE2015_KLIMAT_WARM_SIGNAL,0,1);\r\n\t lc640_write_int(EE_TELECORE2015_KLIMAT_WARM_SIGNAL,TELECORE2015_KLIMAT_WARM_SIGNAL);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==2)\r\n\t {\r\n\t if(but==butR)TELECORE2015_KLIMAT_VENT_SIGNAL++;\r\n\t else if(but==butR_)TELECORE2015_KLIMAT_VENT_SIGNAL++;\r\n\t else if(but==butL)TELECORE2015_KLIMAT_VENT_SIGNAL--;\r\n\t else if(but==butL_)TELECORE2015_KLIMAT_VENT_SIGNAL--;\r\n\t gran_ring(&TELECORE2015_KLIMAT_VENT_SIGNAL,0,1);\r\n\t lc640_write_int(EE_TELECORE2015_KLIMAT_VENT_SIGNAL,TELECORE2015_KLIMAT_VENT_SIGNAL);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t if(but==butR)TELECORE2015_KLIMAT_WARM_ON++;\r\n\t else if(but==butR_)TELECORE2015_KLIMAT_WARM_ON+=2;\r\n\t else if(but==butL)TELECORE2015_KLIMAT_WARM_ON--;\r\n\t else if(but==butL_)TELECORE2015_KLIMAT_WARM_ON-=2;\r\n\t gran(&TELECORE2015_KLIMAT_WARM_ON,-20,50);\r\n\t lc640_write_int(EE_TELECORE2015_KLIMAT_WARM_ON,TELECORE2015_KLIMAT_WARM_ON);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t if(but==butR)TELECORE2015_KLIMAT_WARM_OFF++;\r\n\t else if(but==butR_)TELECORE2015_KLIMAT_WARM_OFF+=2;\r\n\t else if(but==butL)TELECORE2015_KLIMAT_WARM_OFF--;\r\n\t else if(but==butL_)TELECORE2015_KLIMAT_WARM_OFF-=2;\r\n\t gran(&TELECORE2015_KLIMAT_WARM_OFF,-20,50);\r\n\t lc640_write_int(EE_TELECORE2015_KLIMAT_WARM_OFF,TELECORE2015_KLIMAT_WARM_OFF);\r\n\t speed=1;\r\n\t }\r\n\r\n\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t if(but==butR)TELECORE2015_KLIMAT_CAP++;\r\n\t else if(but==butR_)TELECORE2015_KLIMAT_CAP+=2;\r\n\t else if(but==butL)TELECORE2015_KLIMAT_CAP--;\r\n\t else if(but==butL_)TELECORE2015_KLIMAT_CAP-=2;\r\n\t //gran(&TBOXWARMON,-20,20);\r\n\t\tgran(&TELECORE2015_KLIMAT_CAP,5,95);\r\n\t lc640_write_int(EE_TELECORE2015_KLIMAT_CAP,TELECORE2015_KLIMAT_CAP);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==7)\r\n\t {\r\n\t if(but==butR)TELECORE2015_KLIMAT_VENT_ON++;\r\n\t else if(but==butR_)TELECORE2015_KLIMAT_VENT_ON+=2;\r\n\t else if(but==butL)TELECORE2015_KLIMAT_VENT_ON--;\r\n\t else if(but==butL_)TELECORE2015_KLIMAT_VENT_ON-=2;\r\n\t gran(&TELECORE2015_KLIMAT_VENT_ON,0,80);\r\n\t\tgran(&TELECORE2015_KLIMAT_VENT_ON,TELECORE2015_KLIMAT_VENT_OFF,80);\r\n\t lc640_write_int(EE_TELECORE2015_KLIMAT_VENT_ON,TELECORE2015_KLIMAT_VENT_ON);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t if(but==butR)TELECORE2015_KLIMAT_VENT_OFF++;\r\n\t else if(but==butR_)TELECORE2015_KLIMAT_VENT_OFF+=2;\r\n\t else if(but==butL)TELECORE2015_KLIMAT_VENT_OFF--;\r\n\t else if(but==butL_)TELECORE2015_KLIMAT_VENT_OFF-=2;\r\n\t gran(&TELECORE2015_KLIMAT_VENT_OFF,0,80);\r\n\t\tgran(&TELECORE2015_KLIMAT_VENT_OFF,0,TELECORE2015_KLIMAT_VENT_OFF);\r\n\t lc640_write_int(EE_TELECORE2015_KLIMAT_VENT_OFF,TELECORE2015_KLIMAT_VENT_OFF);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t if(but==butR)TELECORE2015_KLIMAT_VVENT_ON++;\r\n\t else if(but==butR_)TELECORE2015_KLIMAT_VVENT_ON+=2;\r\n\t else if(but==butL)TELECORE2015_KLIMAT_VVENT_ON--;\r\n\t else if(but==butL_)TELECORE2015_KLIMAT_VVENT_ON-=2;\r\n\t gran(&TELECORE2015_KLIMAT_VVENT_ON,0,80);\r\n\t\tgran(&TELECORE2015_KLIMAT_VVENT_ON,TELECORE2015_KLIMAT_VVENT_OFF,80);\r\n\t lc640_write_int(EE_TELECORE2015_KLIMAT_VVENT_ON,TELECORE2015_KLIMAT_VVENT_ON);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t if(but==butR)TELECORE2015_KLIMAT_VVENT_OFF++;\r\n\t else if(but==butR_)TELECORE2015_KLIMAT_VVENT_OFF+=2;\r\n\t else if(but==butL)TELECORE2015_KLIMAT_VVENT_OFF--;\r\n\t else if(but==butL_)TELECORE2015_KLIMAT_VVENT_OFF-=2;\r\n\t gran(&TELECORE2015_KLIMAT_VVENT_OFF,0,80);\r\n\t\tgran(&TELECORE2015_KLIMAT_VVENT_OFF,0,TELECORE2015_KLIMAT_VVENT_OFF);\r\n\t lc640_write_int(EE_TELECORE2015_KLIMAT_VVENT_OFF,TELECORE2015_KLIMAT_VVENT_OFF);\r\n\t speed=1;\r\n\t }\r\n\r\n\r\n\telse if(sub_ind==11)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n#endif\r\n#ifdef UKU_TELECORE2017\r\n else if(ind==iKlimat_TELECORE)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\tgran_char(&sub_ind,0,17);\r\n\t\tif(sub_ind==3)sub_ind++;\r\n\t\tgran_char(&sub_ind,0,17);\t\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==1)sub_ind--;\r\n\t\tgran_char(&sub_ind,0,17);\r\n \t\t}\r\n\telse if(but==butLR_)\r\n\t\t{\r\n\t\tlc640_write_int(EE_TELECORE2017_KLIMAT_WARM_SIGNAL,0);\r\n\t\tlc640_write_int(EE_TELECORE2017_KLIMAT_VENT_SIGNAL,1);\r\n\t\tlc640_write_int(EE_TELECORE2017_KLIMAT_WARM_ON,10);\r\n\t\tlc640_write_int(EE_TELECORE2017_KLIMAT_WARM_OFF,30);\r\n\t\tlc640_write_int(EE_TELECORE2017_KLIMAT_CAP,30);\r\n\t\t//lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON0,30);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON20,40);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON40,50);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON60,60);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON80,70);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON100,80);\r\n\t //lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON0,10);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON20,20);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON40,30);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON60,40);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON80,50);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON100,60);\r\n \t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_WARM_SIGNAL++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_WARM_SIGNAL++;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_WARM_SIGNAL--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_WARM_SIGNAL--;\r\n\t gran_ring(&TELECORE2017_KLIMAT_WARM_SIGNAL,0,1);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_WARM_SIGNAL,TELECORE2017_KLIMAT_WARM_SIGNAL);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==2)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_VENT_SIGNAL++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_VENT_SIGNAL++;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_VENT_SIGNAL--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_VENT_SIGNAL--;\r\n\t gran_ring(&TELECORE2017_KLIMAT_VENT_SIGNAL,0,1);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_SIGNAL,TELECORE2017_KLIMAT_VENT_SIGNAL);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_WARM_ON++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_WARM_ON+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_WARM_ON--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_WARM_ON-=2;\r\n\t gran(&TELECORE2017_KLIMAT_WARM_ON,-20,50);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_WARM_ON,TELECORE2017_KLIMAT_WARM_ON);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_WARM_OFF++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_WARM_OFF+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_WARM_OFF--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_WARM_OFF-=2;\r\n\t gran(&TELECORE2017_KLIMAT_WARM_OFF,-20,50);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_WARM_OFF,TELECORE2017_KLIMAT_WARM_OFF);\r\n\t speed=1;\r\n\t }\r\n\r\n\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_CAP++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_CAP+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_CAP--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_CAP-=2;\r\n\t gran(&TELECORE2017_KLIMAT_CAP,5,95);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_CAP,TELECORE2017_KLIMAT_CAP);\r\n\t speed=1;\r\n\t }\r\n\r\n/\telse if(sub_ind==7)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_VENT_ON0++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_VENT_ON0+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_VENT_ON0--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_VENT_ON0-=2;\r\n\t\t gran(&TELECORE2017_KLIMAT_VENT_ON0,0,TELECORE2017_KLIMAT_VENT_ON20);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON0,TELECORE2017_KLIMAT_VENT_ON0);\r\n\t speed=1;\r\n\t }/\r\n\r\n\r\n\telse if(sub_ind==7)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_VENT_ON100++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_VENT_ON100+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_VENT_ON100--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_VENT_ON100-=2;\r\n\t\t gran(&TELECORE2017_KLIMAT_VENT_ON100,TELECORE2017_KLIMAT_VENT_ON80,100);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON100,TELECORE2017_KLIMAT_VENT_ON100);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_VENT_ON80++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_VENT_ON80+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_VENT_ON80--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_VENT_ON80-=2;\r\n\t\t gran(&TELECORE2017_KLIMAT_VENT_ON80,TELECORE2017_KLIMAT_VENT_ON60,TELECORE2017_KLIMAT_VENT_ON100);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON80,TELECORE2017_KLIMAT_VENT_ON80);\r\n\t speed=1;\r\n\t }\r\n\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_VENT_ON60++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_VENT_ON60+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_VENT_ON60--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_VENT_ON60-=2;\r\n\t\t gran(&TELECORE2017_KLIMAT_VENT_ON60,TELECORE2017_KLIMAT_VENT_ON40,TELECORE2017_KLIMAT_VENT_ON80);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON60,TELECORE2017_KLIMAT_VENT_ON60);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_VENT_ON40++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_VENT_ON40+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_VENT_ON40--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_VENT_ON40-=2;\r\n\t\t gran(&TELECORE2017_KLIMAT_VENT_ON40,TELECORE2017_KLIMAT_VENT_ON20,TELECORE2017_KLIMAT_VENT_ON60);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON40,TELECORE2017_KLIMAT_VENT_ON40);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==11)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_VENT_ON20++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_VENT_ON20+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_VENT_ON20--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_VENT_ON20-=2;\r\n\t\t gran(&TELECORE2017_KLIMAT_VENT_ON20,0,TELECORE2017_KLIMAT_VENT_ON40);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_VENT_ON20,TELECORE2017_KLIMAT_VENT_ON20);\r\n\t speed=1;\r\n\t }\r\n\r\n/\telse if(sub_ind==12)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_DVENT_ON0++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_DVENT_ON0+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_DVENT_ON0--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_DVENT_ON0-=2;\r\n\t\t gran(&TELECORE2017_KLIMAT_DVENT_ON0,0,TELECORE2017_KLIMAT_DVENT_ON20);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON0,TELECORE2017_KLIMAT_DVENT_ON0);\r\n\t speed=1;\r\n\t }/\r\n\r\n\telse if(sub_ind==12)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_DVENT_ON100++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_DVENT_ON100+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_DVENT_ON100--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_DVENT_ON100-=2;\r\n\t\t gran(&TELECORE2017_KLIMAT_DVENT_ON100,TELECORE2017_KLIMAT_DVENT_ON80,100);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON100,TELECORE2017_KLIMAT_DVENT_ON100);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_DVENT_ON80++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_DVENT_ON80+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_DVENT_ON80--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_DVENT_ON80-=2;\r\n\t\t gran(&TELECORE2017_KLIMAT_DVENT_ON80,TELECORE2017_KLIMAT_DVENT_ON60,TELECORE2017_KLIMAT_DVENT_ON100);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON80,TELECORE2017_KLIMAT_DVENT_ON80);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_DVENT_ON60++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_DVENT_ON60+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_DVENT_ON60--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_DVENT_ON60-=2;\r\n\t\t gran(&TELECORE2017_KLIMAT_DVENT_ON60,TELECORE2017_KLIMAT_DVENT_ON40,TELECORE2017_KLIMAT_DVENT_ON80);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON60,TELECORE2017_KLIMAT_DVENT_ON60);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_DVENT_ON40++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_DVENT_ON40+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_DVENT_ON40--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_DVENT_ON40-=2;\r\n\t\t gran(&TELECORE2017_KLIMAT_DVENT_ON40,TELECORE2017_KLIMAT_DVENT_ON20,TELECORE2017_KLIMAT_DVENT_ON60);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON40,TELECORE2017_KLIMAT_DVENT_ON40);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)TELECORE2017_KLIMAT_DVENT_ON20++;\r\n\t else if(but==butR_)TELECORE2017_KLIMAT_DVENT_ON20+=2;\r\n\t else if(but==butL)TELECORE2017_KLIMAT_DVENT_ON20--;\r\n\t else if(but==butL_)TELECORE2017_KLIMAT_DVENT_ON20-=2;\r\n\t\t gran(&TELECORE2017_KLIMAT_DVENT_ON20,0,TELECORE2017_KLIMAT_DVENT_ON40);\r\n\t lc640_write_int(EE_TELECORE2017_KLIMAT_DVENT_ON20,TELECORE2017_KLIMAT_DVENT_ON20);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==17)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n#endif\r\nelse if(ind==iNpn_set)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(NPN_OUT==npnoRELEVENT)NPN_OUT=npnoRELEAVBAT2;\r\n\t\telse if(NPN_OUT==npnoRELEAVBAT2)NPN_OUT=npnoOFF;\r\n\t\telse NPN_OUT=npnoRELEVENT;\r\n\t lc640_write_int(EE_NPN_OUT,NPN_OUT);\r\n\t \r\n\t }\r\n\telse if(sub_ind==1)\r\n\t {\r\n\t\tif(NPN_OUT==npnoOFF)\r\n\t\t\t{\r\n\t\t\tif(but==butE)\t\t\t\r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\tret(0);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\t/if(NPN_SIGN==npnsAVNET)NPN_SIGN=npnsULOAD;\r\n\t\t\telse NPN_SIGN=npnsAVNET;\r\n\t\t\tlc640_write_int(EE_NPN_SIGN,NPN_SIGN);/\r\n\r\n\t\t\tif(but==butR)UONPN++;\r\n\t \telse if(but==butR_)UONPN+=2;\r\n\t \telse if(but==butL)UONPN--;\r\n\t \telse if(but==butL_)UONPN-=2;\r\n\t \tgran(&UONPN,100,2500);\r\n\t \tlc640_write_int(EE_UONPN,UONPN);\r\n\t \tspeed=1;\r\n\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n/\t\tif(NPN_SIGN==npnsULOAD)\r\n\t\t\t{\r\n\t\t\tif(but==butR)UONPN++;\r\n\t \telse if(but==butR_)UONPN+=2;\r\n\t \telse if(but==butL)UONPN--;\r\n\t \telse if(but==butL_)UONPN-=2;\r\n\t \tgran(&UONPN,100,2500);\r\n\t \tlc640_write_int(EE_UONPN,UONPN);\r\n\t \tspeed=1;\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tif(but==butR)TZNPN++;\r\n\t \telse if(but==butR_)TZNPN+=2;\r\n\t \telse if(but==butL)TZNPN--;\r\n\t \telse if(but==butL_)TZNPN-=2;\r\n\t \tgran(&TZNPN,10,60);\r\n\t \tlc640_write_int(EE_TZNPN,TZNPN);\r\n\t \tspeed=1;\r\n\t\t\t}/\r\n\r\n\t\t\tif(but==butR)UVNPN++;\r\n\t \telse if(but==butR_)UVNPN+=2;\r\n\t \telse if(but==butL)UVNPN--;\r\n\t \telse if(but==butL_)UVNPN-=2;\r\n\t \tgran(&UVNPN,100,2500);\r\n\t \tlc640_write_int(EE_UVNPN,UVNPN);\r\n\t \tspeed=1;\r\n\t\t}\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n/\t\tif(NPN_SIGN==npnsULOAD)\r\n\t\t\t{\r\n\t\t\tif(but==butR)UVNPN++;\r\n\t \telse if(but==butR_)UVNPN+=2;\r\n\t \telse if(but==butL)UVNPN--;\r\n\t \telse if(but==butL_)UVNPN-=2;\r\n\t \tgran(&UVNPN,100,2500);\r\n\t \tlc640_write_int(EE_UVNPN,UVNPN);\r\n\t \tspeed=1;\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tif(but==butE)\t\t\t\r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\tret(0);\r\n\t\t\t\t}\r\n\t\t\t}/\r\n\t\t\tif(but==butR)TZNPN++;\r\n\t \telse if(but==butR_)TZNPN+=2;\r\n\t \telse if(but==butL)TZNPN--;\r\n\t \telse if(but==butL_)TZNPN-=2;\r\n\t \tgran(&TZNPN,10,60);\r\n\t \tlc640_write_int(EE_TZNPN,TZNPN);\r\n\t \tspeed=1;\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n/\t\tif(NPN_SIGN==npnsULOAD)\r\n\t\t\t{\r\n\t\t\tif(but==butR)TZNPN++;\r\n\t \telse if(but==butR_)TZNPN+=2;\r\n\t \telse if(but==butL)TZNPN--;\r\n\t \telse if(but==butL_)TZNPN-=2;\r\n\t \tgran(&TZNPN,10,60);\r\n\t \tlc640_write_int(EE_TZNPN,TZNPN);\r\n\t \tspeed=1;\r\n\t\t\t}/\r\n\t\t\tif(but==butE)\t\t\t\r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\tret(0);\r\n\t\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==5)\r\n\t\t{\r\n\t\tif(NPN_SIGN==npnsULOAD)\r\n\t\t\t{\r\n\t\t\tif(but==butE)\t\t\t\r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\tret(0);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t}\r\n\r\n\r\n\t}\r\nelse if(ind==iBps_list)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind1--;\r\n\t\tgran_char(&sub_ind1,0,NUMIST-2);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind1++;\r\n\t\tgran_char(&sub_ind1,0,NUMIST-2);\r\n\t\t}\r\n\r\n\telse if (but==butD_)\r\n\t\t{\r\n\t\tsub_ind1=NUMIST-2;\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(but==butR)\r\n\t\t{\r\n\t\tsub_ind=1;\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\t\t\t\r\n\t}\r\nelse if(ind==iAvt_set_sel)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMIST);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMIST);\r\n\t\t}\r\n\telse if((sub_ind>=0)&&(sub_ind<NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_up(iAvt_set,0,0,sub_ind);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==NUMIST)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\t\r\n\t\t}\r\n\t}\r\nelse if(ind==iAvt_set)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=3;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=0;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3;\r\n\t\t}\r\n \telse if (sub_ind == 0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_U_AVT);\r\n\t\tif(but==butR)temp_SS++;\r\n\t\telse if(but==butR_)temp_SS+=2;\r\n\t\telse if(but==butL)temp_SS--;\r\n\t\telse if(but==butL_)temp_SS-=2;\r\n\t\telse if(but==butE_)can1_out(sub_ind1,sub_ind1,CMND,0xee,0xee,0,0,0); \r\n\t\t\r\n\t\t#ifdef UKU206_220\t\t\t\t\r\n\t\tgran(&temp_SS,1000,3000);\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU206_24\r\n\t\tgran(&temp_SS,200,300);\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU320\r\n\t\tgran(&temp_SS,400,800);\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU320_24\r\n\t\tgran(&temp_SS,200,300);\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU320_F\r\n\t\tgran(&temp_SS,400,800);\r\n\t\t#endif\t\t\r\n\t\tlc640_write_int(EE_U_AVT,temp_SS);\r\n\t\t\r\n\t\tspeed=1;\t\r\n\t\t\t\t\t\r\n\t\t}\r\n\t\t\r\n\t\t\t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\t//a=b[--ptr_ind];\r\n\t\t\t//sub_ind++;\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\r\n\t}\r\n\r\nelse if(ind==iAvt_comm_set)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==2)sub_ind=1;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==1)index_set=1;\r\n\t\tif(sub_ind==2)sub_ind=3;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3;\r\n\t\t}\r\n \telse if (sub_ind == 0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_U_AVT);\r\n\t\tif(but==butR)temp_SS++;\r\n\t\telse if(but==butR_)temp_SS+=2;\r\n\t\telse if(but==butL)temp_SS--;\r\n\t\telse if(but==butL_)temp_SS-=2;\r\n\t\telse if(but==butE_)can1_out(sub_ind1,sub_ind1,CMND,0xee,0xee,0,0,0); \r\n\t\t\r\n\t\t#ifdef UKU206_220\t\t\t\t\r\n\t\tgran(&temp_SS,1000,3000);\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU206_24\r\n\t\tgran(&temp_SS,200,300);\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU320\r\n\t\tgran(&temp_SS,400,800);\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU320_24\r\n\t\tgran(&temp_SS,200,300);\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU320_F\r\n\t\tgran(&temp_SS,400,800);\r\n\t\t#endif\t\t\r\n\t\tlc640_write_int(EE_U_AVT,temp_SS);\r\n\t\t\r\n\t\tspeed=1;\t\r\n\t\t\t\t\t\r\n\t\t}\r\n\telse if (sub_ind == 1)\r\n\t\t{\r\n\t\tif(but==butE_)\r\n\t\t\t{\r\n\t\t\tshow_mess(\t\" Установка \",\r\n\t \t\t\t\" напряжения \",\r\n\t \t\t\t\" автономной работы \",\r\n\t \t\t\t\" инициирована \",500);\r\n\t\t\t\t\t\tuavt_set_stat=uassSTEP1;\r\n\t\t\t\t\t\tuavt_set_result_stat=uasrsWRK;\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\t//a=b[--ptr_ind];\r\n\t\t\t//sub_ind++;\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iOut_volt_contr)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3;\r\n\t\t}\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif(but==butR)U_OUT_KONTR_MAX++;\r\n\t\telse if(but==butR_)U_OUT_KONTR_MAX=(U_OUT_KONTR_MAX/5+1)5;\r\n\t\telse if(but==butL)U_OUT_KONTR_MAX--;\r\n\t\telse if(but==butL_)U_OUT_KONTR_MAX=(U_OUT_KONTR_MAX/5-1)5;\r\n\t\tgran(&U_OUT_KONTR_MAX,10,3000);\r\n\t\tlc640_write_int(EE_U_OUT_KONTR_MAX,U_OUT_KONTR_MAX);\r\n\t\tspeed=1;\r\n\t\t}\t\t\t\t\r\n\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butR)U_OUT_KONTR_MIN++;\r\n\t\telse if(but==butR_)U_OUT_KONTR_MIN=(U_OUT_KONTR_MIN/5+1)5;\r\n\t\telse if(but==butL)U_OUT_KONTR_MIN--;\r\n\t\telse if(but==butL_)U_OUT_KONTR_MIN=(U_OUT_KONTR_MIN/5-1)5;\r\n\t\tgran(&U_OUT_KONTR_MIN,10,3000);\r\n\t\tlc640_write_int(EE_U_OUT_KONTR_MIN,U_OUT_KONTR_MIN);\r\n\t\tspeed=1;\r\n\t\t}\t\t\t\t\r\n\r\n\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butR)U_OUT_KONTR_DELAY++;\r\n\t else if(but==butR_)U_OUT_KONTR_DELAY+=2;\r\n\t else if(but==butL)U_OUT_KONTR_DELAY--;\r\n\t else if(but==butL_)U_OUT_KONTR_DELAY-=2;\r\n\t gran(&U_OUT_KONTR_DELAY,5,100);\r\n\t lc640_write_int(EE_U_OUT_KONTR_DELAY,U_OUT_KONTR_DELAY);\r\n\t speed=1;\r\n\t\t}\t\t\t\t\r\n\r\n\r\n/\t\r\n\tint2lcd(U_BAT_KONTR_MAX,'!',1);\r\n\tint2lcd(U_BAT_KONTR_MIN,'@',1);\r\n\tint2lcd(U_BAT_KONTR_DELAY,'#',0);\r\n\t/\r\n\r\n\t}\r\n\r\nelse if(ind==iDop_rele_set)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind+=2;\r\n\t\tgran_char(&sub_ind,0,2);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind-=2;\r\n\t\tgran_char(&sub_ind,0,2);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=2;\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))DOP_RELE_FUNC++;\r\n\t\tif((but==butL)\|\|(but==butL_))DOP_RELE_FUNC--;\r\n\t\tgran(&DOP_RELE_FUNC,0,1);\r\n\t\tlc640_write_int(EE_DOP_RELE_FUNC,DOP_RELE_FUNC);\r\n\t\tspeed=1;\r\n\t\t}\t\t\t\t\r\n\t}\r\n\r\nelse if (ind==iIps_Curr_Avg_Set)\r\n\t{\r\n ret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tsub_ind1=0;\r\n\t\tif(ICA_EN==2)sub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tsub_ind1=0;\r\n\t\tif(ICA_EN==2)sub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=simax;\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==simax)\r\n\t\t{\r\n\t\tif(but==butE)tree_down(0,0);\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif(/(but==butE)\|\|/(but==butR))\r\n\t\t\t{\r\n\t\t\tICA_EN++;\r\n\t\t\tgran_ring(&ICA_EN,0,2);\r\n\t\t\tlc640_write_int(EE_ICA_EN,ICA_EN);\r\n\t\t\t}\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\tICA_EN--;\r\n\t\t\tgran_ring(&ICA_EN,0,2);\r\n\t\t\tlc640_write_int(EE_ICA_EN,ICA_EN);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(ICA_EN==1)\r\n\t\t{\r\n\t\tif(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tif(but==butR)\r\n\t\t\t\t{\r\n\t\t\t\tif(ICA_CH==0)ICA_CH=1;\r\n\t\t\t\telse if(ICA_CH==1)ICA_CH=2;\r\n\t\t\t\telse ICA_CH=0;\r\n\t\t\t\tlc640_write_int(EE_ICA_CH,ICA_CH);\r\n\t\t\t\t}\r\n\t\t\telse if(but==butL)\r\n\t\t\t\t{\r\n\t\t\t\tif(ICA_CH==0)ICA_CH=2;\r\n\t\t\t\telse if(ICA_CH==1)ICA_CH=0;\r\n\t\t\t\telse ICA_CH=1;\r\n\t\t\t\tlc640_write_int(EE_ICA_CH,ICA_CH);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(ICA_CH==0)\r\n\t\t\t{\r\n\t\t\tif(sub_ind==2)\r\n\t\t\t\t{\r\n\t\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tICA_MODBUS_ADDRESS++;\r\n\t\t\t\t\tgran(&ICA_MODBUS_ADDRESS,1,254);\r\n\t\t\t\t\tlc640_write_int(EE_ICA_MODBUS_ADDRESS,ICA_MODBUS_ADDRESS);\r\n\t\t\t\t\tspeed=1;\r\n\t\t\t\t\t}\r\n\t\t\t\tif((but==butL)\|\|(but==butL_))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tICA_MODBUS_ADDRESS--;\r\n\t\t\t\t\tgran(&ICA_MODBUS_ADDRESS,1,254);\r\n\t\t\t\t\tlc640_write_int(EE_ICA_MODBUS_ADDRESS,ICA_MODBUS_ADDRESS);\r\n\t\t\t\t\tspeed=1;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t}\r\n\r\n\t\telse if(ICA_CH==1)\r\n\t\t\t{\r\n\t\t\tif(sub_ind==2)\r\n\t\t\t\t{\r\n\t\t\t\tif((but==butE)\|\|(but==butE_))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind1++;\r\n\t\t\t\t\tgran_ring_char(&sub_ind1,0,3);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(sub_ind1==0)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tICA_MODBUS_TCP_IP1++;\r\n\t\t\t\t\t\tgran_ring(&ICA_MODBUS_TCP_IP1,0,255);\r\n\t\t\t\t\t\tlc640_write_int(EE_ICA_MODBUS_TCP_IP1,ICA_MODBUS_TCP_IP1);\r\n\t\t\t\t\t\tspeed=1;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\tif((but==butL)\|\|(but==butL_))\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tICA_MODBUS_TCP_IP1--;\r\n\t\t\t\t\t\tgran(&ICA_MODBUS_TCP_IP1,0,255);\r\n\t\t\t\t\t\tlc640_write_int(EE_ICA_MODBUS_TCP_IP1,ICA_MODBUS_TCP_IP1);\r\n\t\t\t\t\t\tspeed=1;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(sub_ind1==1)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tICA_MODBUS_TCP_IP2++;\r\n\t\t\t\t\t\tgran_ring(&ICA_MODBUS_TCP_IP2,0,255);\r\n\t\t\t\t\t\tlc640_write_int(EE_ICA_MODBUS_TCP_IP2,ICA_MODBUS_TCP_IP2);\r\n\t\t\t\t\t\tspeed=1;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\tif((but==butL)\|\|(but==butL_))\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tICA_MODBUS_TCP_IP2--;\r\n\t\t\t\t\t\tgran(&ICA_MODBUS_TCP_IP2,0,255);\r\n\t\t\t\t\t\tlc640_write_int(EE_ICA_MODBUS_TCP_IP2,ICA_MODBUS_TCP_IP2);\r\n\t\t\t\t\t\tspeed=1;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(sub_ind1==2)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tICA_MODBUS_TCP_IP3++;\r\n\t\t\t\t\t\tgran_ring(&ICA_MODBUS_TCP_IP3,0,255);\r\n\t\t\t\t\t\tlc640_write_int(EE_ICA_MODBUS_TCP_IP3,ICA_MODBUS_TCP_IP3);\r\n\t\t\t\t\t\tspeed=1;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\tif((but==butL)\|\|(but==butL_))\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tICA_MODBUS_TCP_IP3--;\r\n\t\t\t\t\t\tgran(&ICA_MODBUS_TCP_IP3,0,255);\r\n\t\t\t\t\t\tlc640_write_int(EE_ICA_MODBUS_TCP_IP3,ICA_MODBUS_TCP_IP3);\r\n\t\t\t\t\t\tspeed=1;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(sub_ind1==3)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tICA_MODBUS_TCP_IP4++;\r\n\t\t\t\t\t\tgran_ring(&ICA_MODBUS_TCP_IP4,0,255);\r\n\t\t\t\t\t\tlc640_write_int(EE_ICA_MODBUS_TCP_IP4,ICA_MODBUS_TCP_IP4);\r\n\t\t\t\t\t\tspeed=1;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\tif((but==butL)\|\|(but==butL_))\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tICA_MODBUS_TCP_IP4--;\r\n\t\t\t\t\t\tgran(&ICA_MODBUS_TCP_IP4,0,255);\r\n\t\t\t\t\t\tlc640_write_int(EE_ICA_MODBUS_TCP_IP4,ICA_MODBUS_TCP_IP4);\r\n\t\t\t\t\t\tspeed=1;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\tif(sub_ind==3)\r\n\t\t\t\t{\r\n\t\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tICA_MODBUS_TCP_UNIT_ID++;\r\n\t\t\t\t\tgran(&ICA_MODBUS_TCP_UNIT_ID,1,254);\r\n\t\t\t\t\tlc640_write_int(EE_ICA_MODBUS_TCP_UNIT_ID,ICA_MODBUS_TCP_UNIT_ID);\r\n\t\t\t\t\tspeed=1;\r\n\t\t\t\t\t}\r\n\t\t\t\tif((but==butL)\|\|(but==butL_))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tICA_MODBUS_TCP_UNIT_ID--;\r\n\t\t\t\t\tgran(&ICA_MODBUS_TCP_UNIT_ID,1,254);\r\n\t\t\t\t\tlc640_write_int(EE_ICA_MODBUS_TCP_UNIT_ID,ICA_MODBUS_TCP_UNIT_ID);\r\n\t\t\t\t\tspeed=1;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t}\r\n\r\n\r\n \t} \r\nelse if(ind==iRele_set)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=4;\r\n\t\t}\t\r\n\telse if((but==butE)&&(sub_ind>=0)&&(sub_ind<=3))\r\n\t\t{\r\n\t\ttree_up(iRele_set_,0,0,sub_ind);\t\r\n\t\t\r\n\t\t//can1_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\t//mess_send(MESS_SRC_CONTROL,0xFFFF,0,10);\r\n \t//mess_send(MESS_BAT_CONTROL,0xFFFF&(~(1<<sub_ind1)),1<<(sub_ind1),10);\r\n\r\n\t\tret(1000);\r\n\t\t}\t\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iRele_set_)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tindex_set=1;\r\n\t\t\t}\r\n\t\telse if(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tsub_ind=4;\r\n\t\t\t//index_set=3;\r\n\t\t\t}\r\n\t\telse if(sub_ind==7)\r\n\t\t\t{\r\n\t\t\tindex_set=6;\r\n\t\t\t}\r\n\t\telse if(sub_ind==8)\r\n\t\t\t{\r\n\t\t\tsub_ind=9;\r\n\t\t\t}\r\n\t\telse if(sub_ind==10)\r\n\t\t\t{\r\n\t\t\tindex_set=9;\r\n\t\t\t}\r\n\t\telse if(sub_ind==11)\r\n\t\t\t{\r\n\t\t\tsub_ind=12;\r\n\t\t\t}\r\n\t\tgran_char(&sub_ind,0,12);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==3)sub_ind=2;\r\n\t\telse if(sub_ind==8)sub_ind=7;\r\n\t\telse if(sub_ind==11)sub_ind=10;\r\n\t\tgran_char(&sub_ind,0,12);\t\t\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=11;\r\n\t\t}\r\n\telse if (sub_ind == 0)\r\n\t\t{\r\n\t\tif(but==butE) RELE_SET_MASK[sub_ind1]^=(1<<0);\r\n\t else if(but==butR) RELE_SET_MASK[sub_ind1]\|=(1<<0);\r\n \telse if(but==butL) RELE_SET_MASK[sub_ind1]&=~(1<<0);\r\n\t\t}\t\r\n\t\t\r\n\telse if (sub_ind == 1)\r\n\t\t{\r\n\t\tif(but==butE) RELE_SET_MASK[sub_ind1]^=(1<<1);\r\n\t else if(but==butR) RELE_SET_MASK[sub_ind1]\|=(1<<1);\r\n \telse if(but==butL) RELE_SET_MASK[sub_ind1]&=~(1<<1);\r\n\t\t}\t\r\n\t\t\r\n\telse if (sub_ind == 2)\r\n\t\t{\r\n\t\tif(but==butE) RELE_SET_MASK[sub_ind1]^=(1<<2);\r\n\t else if(but==butR) RELE_SET_MASK[sub_ind1]\|=(1<<2);\r\n \telse if(but==butL) RELE_SET_MASK[sub_ind1]&=~(1<<2);\r\n\t\t}\r\n\t\t\r\n\telse if (sub_ind == 4)\r\n\t\t{\r\n\t\tif(but==butE) RELE_SET_MASK[sub_ind1]^=(1<<3);\r\n\t else if(but==butR) RELE_SET_MASK[sub_ind1]\|=(1<<3);\r\n \telse if(but==butL) RELE_SET_MASK[sub_ind1]&=~(1<<3);\r\n\t\t}\t\r\n\t\t\r\n\telse if (sub_ind == 5)\r\n\t\t{\r\n\t\tif(but==butE) RELE_SET_MASK[sub_ind1]^=(1<<4);\r\n\t else if(but==butR) RELE_SET_MASK[sub_ind1]\|=(1<<4);\r\n \telse if(but==butL) RELE_SET_MASK[sub_ind1]&=~(1<<4);\r\n\t\t}\t\t\t\t\t\t\t\r\n\r\n\telse if (sub_ind == 6)\r\n\t\t{\r\n\t\tif(but==butE) RELE_SET_MASK[sub_ind1]^=(1<<5);\r\n\t else if(but==butR) RELE_SET_MASK[sub_ind1]\|=(1<<5);\r\n \telse if(but==butL) RELE_SET_MASK[sub_ind1]&=~(1<<5);\r\n\t\t}\r\n\telse if (sub_ind == 7)\r\n\t\t{\r\n\t\tif(but==butE) RELE_SET_MASK[sub_ind1]^=(1<<6);\r\n\t else if(but==butR) RELE_SET_MASK[sub_ind1]\|=(1<<6);\r\n \telse if(but==butL) RELE_SET_MASK[sub_ind1]&=~(1<<6);\r\n\t\t}\r\n\telse if (sub_ind == 9)\r\n\t\t{\r\n\t\tif(but==butE) RELE_SET_MASK[sub_ind1]^=(1<<7);\r\n\t else if(but==butR) RELE_SET_MASK[sub_ind1]\|=(1<<7);\r\n \telse if(but==butL) RELE_SET_MASK[sub_ind1]&=~(1<<7);\r\n\t\t}\r\n\r\n\telse if (sub_ind == 10)\r\n\t\t{\r\n\t\tif(but==butE) RELE_SET_MASK[sub_ind1]^=(1<<15);\r\n\t else if(but==butR) RELE_SET_MASK[sub_ind1]\|=(1<<15);\r\n \telse if(but==butL) RELE_SET_MASK[sub_ind1]&=~(1<<15);\r\n\t\t} \r\n\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\t//if(RELE_SET_MASK[sub_ind1]!=lc640_read_int(ADR_EE_RELE_SET_MASK[sub_ind1]))lc640_write_int(ADR_EE_RELE_SET_MASK[sub_ind1],RELE_SET_MASK[sub_ind1]);\r\n\tif(RELE_SET_MASK[sub_ind1]!=lc640_read_int(ADR_EE_RELE_SET_MASK[sub_ind1]))lc640_write_int(ADR_EE_RELE_SET_MASK[sub_ind1],RELE_SET_MASK[sub_ind1]);\r\n\r\n\t} \r\nelse if(ind==iFWabout)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butE)\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\t}\r\nelse if(ind==iSpecInf)\r\n\t{\r\n\t\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\t\t\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=simax;\r\n\t\t}\r\n \tif(sub_ind==simax)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==simax-1)\r\n\t\t{\r\n\t\tif(but==butE_)\r\n\t\t\t{\r\n\t\t\tlc640_write_int(EE_AMPER_CHAS_CNT,0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\nelse if(ind==iVZ_set)\r\n\t{\r\n\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\tif(sub_ind==3)index_set=2;\r\n\t\tif(sub_ind==4)sub_ind++;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\tif(sub_ind==4)sub_ind--;\t\t\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=5;\r\n\t\t}\r\n if(sub_ind==0)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))UVZ+=1;\r\n\t\tif ((but==butL)\|\|(but==butL_))UVZ-=1;\r\n\t\tif(VZ_KIND==0)gran(&UVZ,UB20,2650);\r\n\t\telse gran(&UVZ,UB20,2900); \t \r\n\t\tlc640_write_int(EE_UVZ,UVZ);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==1)\r\n\t {\r\n\t\tif(but==butR)IMAX_VZ++;//((IMAX_VZ/10)+1)10;\r\n\t else if(but==butR_)IMAX_VZ+=2;//((IMAX_VZ/10)+2)10;\r\n\t else if(but==butL)IMAX_VZ--;//((IMAX_VZ/10)-1)10;\r\n\t else if(but==butL_)IMAX_VZ-=2;//((IMAX_VZ/10)-2)10;\r\n\t\tgran(&IMAX_VZ,10,2000); \t \r\n\t\tlc640_write_int(EE_IMAX_VZ,IMAX_VZ);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))VZ_HR++;\r\n\t\tif ((but==butL)\|\|(but==butL_))VZ_HR--;\r\n\t\tgran(&VZ_HR,0,72);\r\n\t\tlc640_write_int(EE_VZ_HR,VZ_HR);\r\n\t\tspeed=1; \r\n\t\t}\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t{\r\n\t\t\tVZ_CH_VENT_BLOK=1;\r\n\t\t\tlc640_write_int(EE_VZ_CH_VENT_BLOK,VZ_CH_VENT_BLOK);\r\n\t\t\t}\r\n\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t{\r\n\t\t\tVZ_CH_VENT_BLOK=0;\r\n\t\t\tlc640_write_int(EE_VZ_CH_VENT_BLOK,VZ_CH_VENT_BLOK);\r\n\t\t\t}\r\n\t\tspeed=1;\r\n\t\t}\r\n\telse if(sub_ind==5)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iVZ1_set)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,3);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,3);\t\t\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=3;\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t\tif(but==butR)UZ_U++;\r\n\t else if(but==butR_)UZ_U+=2;\r\n\t else if(but==butL)UZ_U--;\r\n\t else if(but==butL_)UZ_U-=2;\r\n\t\tgran(&UZ_U,UB20,2600); \t \r\n\t\tlc640_write_int(EE_UZ_U,UZ_U);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==1)\r\n\t {\r\n\t\tif(but==butR)IMAX_VZ++;//((IMAX_VZ/10)+1)10;\r\n\t else if(but==butR_)IMAX_VZ+=10;//((IMAX_VZ/10)+2)10;\r\n\t else if(but==butL)IMAX_VZ--;//((IMAX_VZ/10)-1)10;\r\n\t else if(but==butL_)IMAX_VZ-=10;//((IMAX_VZ/10)-2)10;\r\n\t\tgran(&IMAX_VZ,10,10000); \t \r\n\t\tlc640_write_int(EE_IMAX_VZ,IMAX_VZ);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==2)\r\n\t {\r\n\t\tif(but==butR)UZ_T++;\r\n\t else if(but==butR_)UZ_T++;\r\n\t else if(but==butL)UZ_T--;\r\n\t else if(but==butL_)UZ_T--;\r\n\t\tgran(&UZ_T,1,72); \t \r\n\t\tlc640_write_int(EE_UZ_T,UZ_T);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iVZ2_set)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,7);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,7);\t\t\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=7;\r\n\t\t}\r\n\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t\tif(but==butR)FZ_U1++;\r\n\t else if(but==butR_)FZ_U1+=2;\r\n\t else if(but==butL)FZ_U1--;\r\n\t else if(but==butL_)FZ_U1-=2;\r\n\t\tgran(&FZ_U1,UB20,3000); \t \r\n\t\tlc640_write_int(EE_FZ_U1,FZ_U1);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==1)\r\n\t {\r\n\t\tif(but==butR)FZ_IMAX1++;//((FZ_IMAX1/10)+1)10;\r\n\t else if(but==butR_)FZ_IMAX1+=2;//((FZ_IMAX1/10)+2)10;\r\n\t else if(but==butL)FZ_IMAX1--;//((FZ_IMAX1/10)-1)10;\r\n\t else if(but==butL_)FZ_IMAX1-=2;//((FZ_IMAX1/10)-2)10;\r\n\t\tgran(&FZ_IMAX1,10,1000); \t \r\n\t\tlc640_write_int(EE_FZ_IMAX1,FZ_IMAX1);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==2)\r\n\t {\r\n\t\tif(but==butR)FZ_T1++;\r\n\t else if(but==butR_)FZ_T1++;\r\n\t else if(but==butL)FZ_T1--;\r\n\t else if(but==butL_)FZ_T1--;\r\n\t\tgran(&FZ_T1,1,10); \t \r\n\t\tlc640_write_int(EE_FZ_T1,FZ_T1);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==3)\r\n\t {\r\n\t\tif(but==butR)FZ_ISW12++;//((FZ_ISW12/10)+1)10;\r\n\t else if(but==butR_)FZ_ISW12+=2;//((FZ_ISW12/10)+2)10;\r\n\t else if(but==butL)FZ_ISW12--;//((FZ_ISW12/10)-1)10;\r\n\t else if(but==butL_)FZ_ISW12-=2;//((FZ_ISW12/10)-2)10;\r\n\t\tgran(&FZ_ISW12,10,1000); \t \r\n\t\tlc640_write_int(EE_FZ_ISW12,FZ_ISW12);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t\tif(but==butR)FZ_U2++;\r\n\t else if(but==butR_)FZ_U2+=2;\r\n\t else if(but==butL)FZ_U2--;\r\n\t else if(but==butL_)FZ_U2-=2;\r\n\t\tgran(&FZ_U2,UB20,3000); \t \r\n\t\tlc640_write_int(EE_FZ_U2,FZ_U2);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t\tif(but==butR)FZ_IMAX2++;//((FZ_IMAX1/10)+1)10;\r\n\t else if(but==butR_)FZ_IMAX2+=2;//((FZ_IMAX1/10)+2)10;\r\n\t else if(but==butL)FZ_IMAX2--;//((FZ_IMAX1/10)-1)10;\r\n\t else if(but==butL_)FZ_IMAX2-=2;//((FZ_IMAX1/10)-2)10;\r\n\t\tgran(&FZ_IMAX2,10,1000); \t \r\n\t\tlc640_write_int(EE_FZ_IMAX2,FZ_IMAX2);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t\tif(but==butR)FZ_T2++;\r\n\t else if(but==butR_)FZ_T2++;\r\n\t else if(but==butL)FZ_T2--;\r\n\t else if(but==butL_)FZ_T2--;\r\n\t\tgran(&FZ_T2,1,10); \t \r\n\t\tlc640_write_int(EE_FZ_T2,FZ_T2);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==7)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iHV_STEP2_1)\r\n\t{\r\n\tif(but==butE)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\tret(0);\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iHV_STEP2_2)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,1);\t\t\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\thv_vz_stat=hvsSTEP3;\r\n\t\t\tlc640_write(EE_HV_VZ_STAT,hvsSTEP3);\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n \t\t\thv_vz_stat=hvsOFF;\r\n\t\t\tlc640_write(EE_HV_VZ_STAT,hvsOFF);\r\n\t\t\t}\r\n\t\ttree_down(0,0);\r\n\t\t}\r\n\t}\r\nelse if(ind==iVZ1_STEP2_1)\r\n\t{\r\n\tif(but==butE)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\tret(0);\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iVZ1_STEP2_2)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,1);\t\t\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tvz1_stat=vz1sSTEP3;\r\n\t\t\tlc640_write(EE_VZ1_STAT,vz1sSTEP3);\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n \t\t\tvz1_stat==vz1sOFF;\r\n\t\t\tlc640_write(EE_VZ1_STAT,vz1sOFF);\r\n\t\t\t}\r\n\t\ttree_down(0,0);\r\n\t\t}\r\n\t}\r\nelse if(ind==iVZ2_STEP2_1)\r\n\t{\r\n\tif(but==butE)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\tret(0);\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iVZ2_STEP2_2)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,1);\t\t\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tvz2_stat=vz2sSTEP3;\r\n\t\t\tlc640_write(EE_VZ2_STAT,vz2sSTEP3);\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n \t\t\tvz2_stat==vz2sOFF;\r\n\t\t\tlc640_write(EE_VZ2_STAT,vz2sOFF);\r\n\t\t\t}\r\n\t\ttree_down(0,0);\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iSet_load_off)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\r\n\t\t}\r\n\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t\tif(but==butR)UONPN++;\r\n\t else if(but==butR_)UONPN+=2;\r\n\t else if(but==butL)UONPN--;\r\n\t else if(but==butL_)UONPN-=2;\r\n\t gran(&UONPN,100,2500);\r\n\t lc640_write_int(EE_UONPN,UONPN);\r\n\t speed=1;\r\n\r\n\t\t}\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butR)UVNPN++;\r\n\t else if(but==butR_)UVNPN+=2;\r\n\t else if(but==butL)UVNPN--;\r\n\t else if(but==butL_)UVNPN-=2;\r\n\t gran(&UVNPN,100,2500);\r\n\t lc640_write_int(EE_UVNPN,UVNPN);\r\n\t speed=1;\r\n\t\t}\r\n\telse if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butR)dUNPN++;\r\n\t else if(but==butR_)dUNPN+=2;\r\n\t else if(but==butL)dUNPN--;\r\n\t else if(but==butL_)dUNPN-=2;\r\n\t gran(&dUNPN,1,250);\r\n\t lc640_write_int(EE_dUNPN,dUNPN);\r\n\t speed=1;\r\n\t\t}\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butR)TZNPN++;\r\n\t else if(but==butR_)TZNPN+=2;\r\n\t else if(but==butL)TZNPN--;\r\n\t else if(but==butL_)TZNPN-=2;\r\n\t gran(&TZNPN,10,60);\r\n\t lc640_write_int(EE_TZNPN,TZNPN);\r\n\t speed=1;\r\n\t\t}\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(but==butE)\t\t\t\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n#ifdef UKU_ZVU\r\nelse if(ind==iSet_bat_point)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,36);\r\n\t\tif(sub_ind==1)sub_ind--;\r\n\t\tif(sub_ind==22)sub_ind--;\r\n\t\tif((sub_ind==29)\|\|(sub_ind==30))sub_ind=28;\r\n\t\tif((sub_ind==32)\|\|(sub_ind==33))sub_ind=31;\r\n\t\tif(sub_ind==35)sub_ind--;\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,36);\r\n\t\tif(sub_ind==1)sub_ind++;\r\n\t\tif(sub_ind==21)index_set=20;\r\n\t\tif(sub_ind==22)sub_ind++;\r\n\t\tif(sub_ind==28)index_set=30;\r\n\t\tif((sub_ind==29)\|\|(sub_ind==30))sub_ind=31;\r\n if(sub_ind==31)index_set=33;\r\n\t\tif((sub_ind==32)\|\|(sub_ind==33))sub_ind=34;\r\n\t\tif(sub_ind==34)index_set=33;\r\n\t\tif(sub_ind==35)sub_ind++;\r\n\t\t\r\n\t\t}\r\n\telse if (but==butD_)\r\n\t\t{\r\n\t\tsub_ind=36;\r\n\t\t}\r\n\telse if (but==butU_)\r\n\t\t{\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\telse if(sub_ind==36)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n \tret(0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t\t char bI=0;\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t\t \t{\r\n\t\t\tBAT_C_POINT_NUM_ELEM++;\r\n\t\t\tbI=1;\r\n\t\t\t}\r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t\t \t{\r\n\t\t\tBAT_C_POINT_NUM_ELEM--;\r\n\t\t\tbI=1;\r\n\t\t\t}\r\n\t gran(&BAT_C_POINT_NUM_ELEM,1,200);\r\n\t lc640_write_int(EE_BAT_C_POINT_NUM_ELEM,BAT_C_POINT_NUM_ELEM);\r\n\t speed=1;\r\n\t\t if(bI)\r\n\t\t \t{\r\n\t\t\tbI=0;\r\n\t\t\tlc640_write_int(EE_UB0,(short)((long)BAT_C_POINT_NUM_ELEM237L/10L));\r\n\t\t\tlc640_write_int(EE_UB20,(short)((long)BAT_C_POINT_NUM_ELEM227L/10L));\r\n\t\t\tlc640_write_int(EE_USIGN,(short)((long)BAT_C_POINT_NUM_ELEM180L/100L));\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==2)\r\n\t {\r\n\t if(but==butR)BAT_C_POINT_20++;\r\n\t else if(but==butR_)BAT_C_POINT_20=(BAT_C_POINT_20/10+1)10;\r\n\t else if(but==butL)BAT_C_POINT_20--;\r\n\t else if(but==butL_)BAT_C_POINT_20=(BAT_C_POINT_20/10-1)10;\r\n\t gran(&BAT_C_POINT_20,10,25000);\r\n\t lc640_write_int(EE_BAT_C_POINT_20,BAT_C_POINT_20);\r\n\t\t speed=1;\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_C_POINT_10=(signed short)((((long)BAT_C_POINT_20)95L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_10,BAT_C_POINT_10);\r\n\t\t\tBAT_C_POINT_5=(signed short)((((long)BAT_C_POINT_20)9L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_5,BAT_C_POINT_5);\r\n\t\t\tBAT_C_POINT_3=(signed short)((((long)BAT_C_POINT_20)8L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_3,BAT_C_POINT_3);\r\n\t\t\tBAT_C_POINT_1=(signed short)((((long)BAT_C_POINT_20)6L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1,BAT_C_POINT_1);\r\n\t\t\tBAT_C_POINT_1_2=(signed short)((((long)BAT_C_POINT_20)5L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1_2,BAT_C_POINT_1_2);\r\n\t\t\tBAT_C_POINT_1_6=(signed short)((((long)BAT_C_POINT_20)3L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1_6,BAT_C_POINT_1_6);\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==3)\r\n\t {\r\n\t if(but==butR)BAT_U_END_20++;\r\n\t else if(but==butR_)BAT_U_END_20=(BAT_U_END_20/10+1)10;\r\n\t else if(but==butL)BAT_U_END_20--;\r\n\t else if(but==butL_)BAT_U_END_20=(BAT_U_END_20/10-1)10;\r\n\t gran(&BAT_U_END_20,10,10000);\r\n\t lc640_write_int(EE_BAT_U_END_20,BAT_U_END_20);\r\n\t\t speed=1;\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_U_END_10=(signed short)((((long)BAT_U_END_20)97L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_10,BAT_U_END_10);\r\n\t\t\tBAT_U_END_5=(signed short)((((long)BAT_U_END_20)94L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_5,BAT_U_END_5);\t\t\t\r\n\t\t\tBAT_U_END_3=(signed short)((((long)BAT_U_END_20)93L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_3,BAT_U_END_3);\r\n\t\t\tBAT_U_END_1=(signed short)((((long)BAT_U_END_20)92L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1,BAT_U_END_1);\r\n\t\t\tBAT_U_END_1_2=(signed short)((((long)BAT_U_END_20)91L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1_2,BAT_U_END_1_2);\r\n\t\t\tBAT_U_END_1_6=(signed short)((((long)BAT_U_END_20)89L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1_6,BAT_U_END_1_6);\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t\t char bI=0;\r\n\t if(but==butR)\r\n\t\t \t{\r\n\t\t\tBAT_C_POINT_10++;\r\n\t\t\tbI=1;\r\n\t\t\t}\r\n\t else if(but==butR_)\r\n\t\t \t{\r\n\t\t \tBAT_C_POINT_10=(BAT_C_POINT_10/10+1)10;\r\n\t\t\tbI=1;\r\n\t\t\t}\r\n\t else if(but==butL)\r\n\t\t \t{\r\n\t\t\tBAT_C_POINT_10--;\r\n\t\t\tbI=1;\r\n\t\t\t}\r\n\t else if(but==butL_)\r\n\t\t \t{\r\n\t\t\tBAT_C_POINT_10=(BAT_C_POINT_10/10-1)10;\r\n\t\t\tbI=1;\r\n\t\t\t}\r\n\t gran(&BAT_C_POINT_10,10,21000);\r\n\t lc640_write_int(EE_BAT_C_POINT_10,BAT_C_POINT_10);\r\n\t\t speed=1;\r\n\t\t if(bI)\r\n\t\t \t{\r\n\t\t\tbI=0;\r\n\t\t\tlc640_write_int(EE_IZMAX,(short)((long)BAT_C_POINT_10/10L));\r\n\t\t\t}\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_C_POINT_20=(signed short)((((long)BAT_C_POINT_10)100L)/95L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_20,BAT_C_POINT_20);\r\n\t\t\tBAT_C_POINT_5=(signed short)((((long)BAT_C_POINT_20)9L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_5,BAT_C_POINT_5);\r\n\t\t\tBAT_C_POINT_3=(signed short)((((long)BAT_C_POINT_20)8L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_3,BAT_C_POINT_3);\r\n\t\t\tBAT_C_POINT_1=(signed short)((((long)BAT_C_POINT_20)6L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1,BAT_C_POINT_1);\r\n\t\t\tBAT_C_POINT_1_2=(signed short)((((long)BAT_C_POINT_20)5L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1_2,BAT_C_POINT_1_2);\r\n\t\t\tBAT_C_POINT_1_6=(signed short)((((long)BAT_C_POINT_20)3L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1_6,BAT_C_POINT_1_6);\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==5)\r\n\t\t{\r\n\t\tif(but==butR)BAT_U_END_10++;\r\n\t\telse if(but==butR_)BAT_U_END_10=(BAT_U_END_10/10+1)10;\r\n\t\telse if(but==butL)BAT_U_END_10--;\r\n\t\telse if(but==butL_)BAT_U_END_10=(BAT_U_END_10/10-1)10;\r\n\t\tgran(&BAT_U_END_10,10,10000);\r\n\t\tlc640_write_int(EE_BAT_U_END_10,BAT_U_END_10);\r\n\t\tspeed=1;\r\n\t\tif(but==butE_)\r\n\t\t\t{\r\n\t\t\tBAT_U_END_20=(signed short)((((long)BAT_U_END_10)100L)/97L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_20,BAT_U_END_20);\r\n\t\t\tBAT_U_END_5=(signed short)((((long)BAT_U_END_20)94L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_5,BAT_U_END_5);\t\t\t\r\n\t\t\tBAT_U_END_3=(signed short)((((long)BAT_U_END_20)93L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_3,BAT_U_END_3);\r\n\t\t\tBAT_U_END_1=(signed short)((((long)BAT_U_END_20)92L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1,BAT_U_END_1);\r\n\t\t\tBAT_U_END_1_2=(signed short)((((long)BAT_U_END_20)91L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1_2,BAT_U_END_1_2);\r\n\t\t\tBAT_U_END_1_6=(signed short)((((long)BAT_U_END_20)89L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1_6,BAT_U_END_1_6);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==6)\r\n\t {\r\n\t if(but==butR)BAT_C_POINT_5++;\r\n\t else if(but==butR_)BAT_C_POINT_5=(BAT_C_POINT_5/10+1)10;\r\n\t else if(but==butL)BAT_C_POINT_5--;\r\n\t else if(but==butL_)BAT_C_POINT_5=(BAT_C_POINT_5/10-1)10;\r\n\t gran(&BAT_C_POINT_5,10,20000);\r\n\t lc640_write_int(EE_BAT_C_POINT_5,BAT_C_POINT_5);\r\n\t\t speed=1;\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_C_POINT_20=(signed short)((((long)BAT_C_POINT_5)10L)/9L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_20,BAT_C_POINT_20);\r\n\t\t\tBAT_C_POINT_10=(signed short)((((long)BAT_C_POINT_20)95L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_10,BAT_C_POINT_10);\r\n\t\t\tBAT_C_POINT_3=(signed short)((((long)BAT_C_POINT_20)8L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_3,BAT_C_POINT_3);\r\n\t\t\tBAT_C_POINT_1=(signed short)((((long)BAT_C_POINT_20)6L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1,BAT_C_POINT_1);\r\n\t\t\tBAT_C_POINT_1_2=(signed short)((((long)BAT_C_POINT_20)5L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1_2,BAT_C_POINT_1_2);\r\n\t\t\tBAT_C_POINT_1_6=(signed short)((((long)BAT_C_POINT_20)3L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1_6,BAT_C_POINT_1_6);\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==7)\r\n\t {\r\n\t if(but==butR)BAT_U_END_5++;\r\n\t else if(but==butR_)BAT_U_END_5=(BAT_U_END_5/10+1)10;\r\n\t else if(but==butL)BAT_U_END_5--;\r\n\t else if(but==butL_)BAT_U_END_5=(BAT_U_END_5/10-1)10;\r\n\t gran(&BAT_U_END_5,10,10000);\r\n\t lc640_write_int(EE_BAT_U_END_5,BAT_U_END_5);\r\n\t\t speed=1;\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_U_END_20=(signed short)((((long)BAT_U_END_5)100L)/94L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_20,BAT_U_END_20);\r\n\t\t\tBAT_U_END_10=(signed short)((((long)BAT_U_END_20)97L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_10,BAT_U_END_10);\r\n\t\t\tBAT_U_END_3=(signed short)((((long)BAT_U_END_20)93L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_3,BAT_U_END_3);\r\n\t\t\tBAT_U_END_1=(signed short)((((long)BAT_U_END_20)92L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1,BAT_U_END_1);\r\n\t\t\tBAT_U_END_1_2=(signed short)((((long)BAT_U_END_20)91L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1_2,BAT_U_END_1_2);\r\n\t\t\tBAT_U_END_1_6=(signed short)((((long)BAT_U_END_20)89L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1_6,BAT_U_END_1_6);\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t if(but==butR)BAT_C_POINT_3++;\r\n\t else if(but==butR_)BAT_C_POINT_3=(BAT_C_POINT_3/10+1)10;\r\n\t else if(but==butL)BAT_C_POINT_3--;\r\n\t else if(but==butL_)BAT_C_POINT_3=(BAT_C_POINT_3/10-1)10;\r\n\t gran(&BAT_C_POINT_3,10,18000);\r\n\t lc640_write_int(EE_BAT_C_POINT_3,BAT_C_POINT_3);\r\n\t\t speed=1;\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_C_POINT_20=(signed short)((((long)BAT_C_POINT_3)10L)/8L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_20,BAT_C_POINT_20);\r\n\t\t\tBAT_C_POINT_10=(signed short)((((long)BAT_C_POINT_20)95L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_10,BAT_C_POINT_10);\r\n\t\t\tBAT_C_POINT_5=(signed short)((((long)BAT_C_POINT_20)9L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_5,BAT_C_POINT_5);\r\n\t\t\tBAT_C_POINT_1=(signed short)((((long)BAT_C_POINT_20)6L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1,BAT_C_POINT_1);\r\n\t\t\tBAT_C_POINT_1_2=(signed short)((((long)BAT_C_POINT_20)5L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1_2,BAT_C_POINT_1_2);\r\n\t\t\tBAT_C_POINT_1_6=(signed short)((((long)BAT_C_POINT_20)3L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1_6,BAT_C_POINT_1_6);\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\t\tif(but==butR)BAT_U_END_3++;\r\n\t\telse if(but==butR_)BAT_U_END_3=(BAT_U_END_3/10+1)10;\r\n\t\telse if(but==butL)BAT_U_END_3--;\r\n\t\telse if(but==butL_)BAT_U_END_3=(BAT_U_END_3/10-1)10;\r\n\t\tgran(&BAT_U_END_3,10,10000);\r\n\t\tlc640_write_int(EE_BAT_U_END_3,BAT_U_END_3);\r\n\t\tspeed=1;\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_U_END_20=(signed short)((((long)BAT_U_END_3)100L)/93L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_20,BAT_U_END_20);\r\n\t\t\tBAT_U_END_10=(signed short)((((long)BAT_U_END_20)97L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_10,BAT_U_END_10);\r\n\t\t\tBAT_U_END_5=(signed short)((((long)BAT_U_END_20)94L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_5,BAT_U_END_5);\t\t\t\r\n\t\t\tBAT_U_END_1=(signed short)((((long)BAT_U_END_20)92L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1,BAT_U_END_1);\r\n\t\t\tBAT_U_END_1_2=(signed short)((((long)BAT_U_END_20)91L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1_2,BAT_U_END_1_2);\r\n\t\t\tBAT_U_END_1_6=(signed short)((((long)BAT_U_END_20)89L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1_6,BAT_U_END_1_6);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(sub_ind==10)\r\n\t {\r\n\t if(but==butR)BAT_C_POINT_1++;\r\n\t else if(but==butR_)BAT_C_POINT_1=(BAT_C_POINT_1/10+1)10;\r\n\t else if(but==butL)BAT_C_POINT_1--;\r\n\t else if(but==butL_)BAT_C_POINT_1=(BAT_C_POINT_1/10-1)10;\r\n\t gran(&BAT_C_POINT_1,10,16000);\r\n\t lc640_write_int(EE_BAT_C_POINT_1,BAT_C_POINT_1);\r\n\t\t speed=1;\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_C_POINT_20=(signed short)((((long)BAT_C_POINT_1)10L)/6L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_20,BAT_C_POINT_20);\r\n\t\t\tBAT_C_POINT_10=(signed short)((((long)BAT_C_POINT_20)95L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_10,BAT_C_POINT_10);\r\n\t\t\tBAT_C_POINT_5=(signed short)((((long)BAT_C_POINT_20)9L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_5,BAT_C_POINT_5);\r\n\t\t\tBAT_C_POINT_3=(signed short)((((long)BAT_C_POINT_20)8L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_3,BAT_C_POINT_3);\r\n\t\t\tBAT_C_POINT_1_2=(signed short)((((long)BAT_C_POINT_20)5L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1_2,BAT_C_POINT_1_2);\r\n\t\t\tBAT_C_POINT_1_6=(signed short)((((long)BAT_C_POINT_20)3L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1_6,BAT_C_POINT_1_6);\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==11)\r\n\t {\r\n\t if(but==butR)BAT_U_END_1++;\r\n\t else if(but==butR_)BAT_U_END_1=(BAT_U_END_1/10+1)10;\r\n\t else if(but==butL)BAT_U_END_1--;\r\n\t else if(but==butL_)BAT_U_END_1=(BAT_U_END_1/10-1)10;\r\n\t gran(&BAT_U_END_1,10,10000);\r\n\t lc640_write_int(EE_BAT_U_END_1,BAT_U_END_1);\r\n\t\t speed=1;\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_U_END_20=(signed short)((((long)BAT_U_END_1)100L)/92L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_20,BAT_U_END_20);\r\n\t\t\tBAT_U_END_10=(signed short)((((long)BAT_U_END_20)97L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_10,BAT_U_END_10);\r\n\t\t\tBAT_U_END_5=(signed short)((((long)BAT_U_END_20)94L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_5,BAT_U_END_5);\t\t\t\r\n\t\t\tBAT_U_END_3=(signed short)((((long)BAT_U_END_20)93L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_3,BAT_U_END_3);\r\n \t\t\tBAT_U_END_1_2=(signed short)((((long)BAT_U_END_20)91L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1_2,BAT_U_END_1_2);\r\n\t\t\tBAT_U_END_1_6=(signed short)((((long)BAT_U_END_20)89L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1_6,BAT_U_END_1_6);\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==12)\r\n\t {\r\n\t if(but==butR)BAT_C_POINT_1_2++;\r\n\t else if(but==butR_)BAT_C_POINT_1_2=(BAT_C_POINT_1_2/10+1)10;\r\n\t else if(but==butL)BAT_C_POINT_1_2--;\r\n\t else if(but==butL_)BAT_C_POINT_1_2=(BAT_C_POINT_1_2/10-1)10;\r\n\t gran(&BAT_C_POINT_1_2,10,13000);\r\n\t lc640_write_int(EE_BAT_C_POINT_1_2,BAT_C_POINT_1_2);\r\n\t speed=1;\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_C_POINT_20=(signed short)((((long)BAT_C_POINT_1_2)10L)/5L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_20,BAT_C_POINT_20);\r\n\t\t\tBAT_C_POINT_10=(signed short)((((long)BAT_C_POINT_20)95L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_10,BAT_C_POINT_10);\r\n\t\t\tBAT_C_POINT_5=(signed short)((((long)BAT_C_POINT_20)9L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_5,BAT_C_POINT_5);\r\n\t\t\tBAT_C_POINT_3=(signed short)((((long)BAT_C_POINT_20)8L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_3,BAT_C_POINT_3);\r\n\t\t\tBAT_C_POINT_1=(signed short)((((long)BAT_C_POINT_20)6L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1,BAT_C_POINT_1);\r\n\t\t\tBAT_C_POINT_1_6=(signed short)((((long)BAT_C_POINT_20)3L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1_6,BAT_C_POINT_1_6);\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butR)BAT_U_END_1_2++;\r\n\t else if(but==butR_)BAT_U_END_1_2=(BAT_U_END_1_2/10+1)10;\r\n\t else if(but==butL)BAT_U_END_1_2--;\r\n\t else if(but==butL_)BAT_U_END_1_2=(BAT_U_END_1_2/10-1)10;\r\n\t gran(&BAT_U_END_1_2,10,10000);\r\n\t lc640_write_int(EE_BAT_U_END_1_2,BAT_U_END_1_2);\r\n\t speed=1;\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_U_END_20=(signed short)((((long)BAT_U_END_1_2)100L)/91L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_20,BAT_U_END_20);\r\n\t\t\tBAT_U_END_10=(signed short)((((long)BAT_U_END_20)97L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_10,BAT_U_END_10);\r\n\t\t\tBAT_U_END_5=(signed short)((((long)BAT_U_END_20)94L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_5,BAT_U_END_5);\t\t\t\r\n\t\t\tBAT_U_END_3=(signed short)((((long)BAT_U_END_20)93L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_3,BAT_U_END_3);\r\n\t\t\tBAT_U_END_1=(signed short)((((long)BAT_U_END_20)92L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1,BAT_U_END_1);\r\n\t\t\tBAT_U_END_1_6=(signed short)((((long)BAT_U_END_20)89L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1_6,BAT_U_END_1_6);\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butR)BAT_C_POINT_1_6++;\r\n\t else if(but==butR_)BAT_C_POINT_1_6=(BAT_C_POINT_1_6/10+1)10;\r\n\t else if(but==butL)BAT_C_POINT_1_6--;\r\n\t else if(but==butL_)BAT_C_POINT_1_6=(BAT_C_POINT_1_6/10-1)10;\r\n\t gran(&BAT_C_POINT_1_6,10,8000);\r\n\t lc640_write_int(EE_BAT_C_POINT_1_6,BAT_C_POINT_1_6);\r\n\t speed=1;\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_C_POINT_20=(signed short)((((long)BAT_C_POINT_1_6)10L)/3L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_20,BAT_C_POINT_20);\r\n\t\t\tBAT_C_POINT_10=(signed short)((((long)BAT_C_POINT_20)95L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_10,BAT_C_POINT_10);\r\n\t\t\tBAT_C_POINT_5=(signed short)((((long)BAT_C_POINT_20)9L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_5,BAT_C_POINT_5);\r\n\t\t\tBAT_C_POINT_3=(signed short)((((long)BAT_C_POINT_20)8L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_3,BAT_C_POINT_3);\r\n\t\t\tBAT_C_POINT_1=(signed short)((((long)BAT_C_POINT_20)6L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1,BAT_C_POINT_1);\r\n\t\t\tBAT_C_POINT_1_2=(signed short)((((long)BAT_C_POINT_20)5L)/10L);\r\n\t\t\tlc640_write_int(EE_BAT_C_POINT_1_2,BAT_C_POINT_1_2);\r\n\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)BAT_U_END_1_6++;\r\n\t else if(but==butR_)BAT_U_END_1_6=(BAT_U_END_1_6/10+1)10;\r\n\t else if(but==butL)BAT_U_END_1_6--;\r\n\t else if(but==butL_)BAT_U_END_1_6=(BAT_U_END_1_6/10-1)10;\r\n\t gran(&BAT_U_END_1_6,10,10000);\r\n\t lc640_write_int(EE_BAT_U_END_1_6,BAT_U_END_1_6);\r\n\t speed=1;\r\n\t\t if(but==butE_)\r\n\t\t \t{\r\n\t\t\tBAT_U_END_20=(signed short)((((long)BAT_U_END_1_6)100L)/89L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_20,BAT_U_END_20);\r\n\t\t\tBAT_U_END_10=(signed short)((((long)BAT_U_END_20)97L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_10,BAT_U_END_10);\r\n\t\t\tBAT_U_END_5=(signed short)((((long)BAT_U_END_20)94L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_5,BAT_U_END_5);\t\t\t\r\n\t\t\tBAT_U_END_3=(signed short)((((long)BAT_U_END_20)93L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_3,BAT_U_END_3);\r\n\t\t\tBAT_U_END_1=(signed short)((((long)BAT_U_END_20)92L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1,BAT_U_END_1);\r\n\t\t\tBAT_U_END_1_2=(signed short)((((long)BAT_U_END_20)91L)/100L);\r\n\t\t\tlc640_write_int(EE_BAT_U_END_1_2,BAT_U_END_1_2);\r\n\r\n\t\t\t}\r\n\t }\r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)UB0++;\r\n\t else if(but==butR_)UB0+=10;\r\n\t else if(but==butL)UB0--;\r\n\t else if(but==butL_)UB0-=10;\r\n\t\tgran(&UB0,10,3000);\r\n lc640_write_int(EE_UB0,UB0);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)UB20++;\r\n\t else if(but==butR_)UB20+=10;\r\n\t else if(but==butL)UB20--;\r\n\t else if(but==butL_)UB20-=10;\r\n\t\tgran(&UB20,10,3000);\r\n\t lc640_write_int(EE_UB20,UB20);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==18)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t\tgran(&USIGN,1,300);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t\tgran(&IZMAX,10,4000);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==21)\r\n\t {\r\n\t if(but==butR)\r\n\t\t\t{\r\n\t\t\tTBAT++;\r\n\t\t\tif(TBAT<0)TBAT=0;\r\n\t\t\telse if((TBAT>0)&&(TBAT<=5))TBAT=5;\r\n\t\t\telse if(TBAT>=60)TBAT=60;\r\n\t\t\t}\r\n\t else if(but==butR_)\r\n\t\t\t{\r\n\t\t\tTBAT+=10;\r\n\t\t\tif(TBAT<0)TBAT=0;\r\n\t\t\telse if((TBAT>0)&&(TBAT<=5))TBAT=5;\r\n\t\t\telse if(TBAT>=60)TBAT=60;\r\n\t\t\t}\r\n\t else if(but==butL)\r\n\t\t\t{\r\n\t\t\tTBAT--;\r\n\t\t\tif(TBAT<0)TBAT=0;\r\n\t\t\telse if((TBAT>0)&&(TBAT<=5))TBAT=0;\r\n\t\t\telse if(TBAT>=60)TBAT=60;\r\n\t\t\t}\r\n\t else if(but==butL_)\r\n\t\t\t{\r\n\t\t\tTBAT-=10;\r\n\t\t\tif(TBAT<0)TBAT=0;\r\n\t\t\telse if((TBAT>0)&&(TBAT<=5))TBAT=0;\r\n\t\t\telse if(TBAT>=60)TBAT=60;\r\n\t\t\t}\r\n\t //gran(&TBAT,5,60);\r\n\t\t//if(TBAT>=60)TBAT=60;\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==23)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==24)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==25)\r\n\t {\r\n\t if(but==butR)UVENTOFF++;\r\n\t else if(but==butR_)UVENTOFF+=2;\r\n\t else if(but==butL)UVENTOFF--;\r\n\t else if(but==butL_)UVENTOFF-=2;\r\n\t gran(&UVENTOFF,15,250);\r\n\t lc640_write_int(EE_UVENTOFF,UVENTOFF);\r\n\t speed=1;\r\n\t }\r\n else if(sub_ind==26)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iVZ_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\t\r\n \telse if(sub_ind==27)\r\n\t\t{\r\n\t\tif(but==butE) \r\n\t\t {\r\n\t\t tree_up(iSpch_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t} \r\n else if(sub_ind==28)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iVZ1_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\t\t\r\n else if(sub_ind==31)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iVZ2_set,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n\telse if(sub_ind==34)\r\n\t {\r\n\t if(but==butR)BAT_K_OLD++;\r\n\t else if(but==butR_)BAT_K_OLD+=10;\r\n\t else if(but==butL)BAT_K_OLD--;\r\n\t else if(but==butL_)BAT_K_OLD-=10;\r\n\t gran(&BAT_K_OLD,10,100);\r\n\t lc640_write_int(EE_BAT_K_OLD,BAT_K_OLD);\r\n\t speed=1;\r\n\t }\t\t\t\t\t\t \t\t \t\t\t \t\t\r\n \t}\r\n#endif\r\n//#endif\r\n#endif\t//UKU_6U_WEB\t\t\r\nbut_an_end:\r\nn_but=0;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid watchdog_enable (void) \r\n{\r\nLPC_WDT->WDTC=2000000;\r\nLPC_WDT->WDCLKSEL=0;\r\nLPC_WDT->WDMOD=3;\r\nLPC_WDT->WDFEED=0xaa;\r\nLPC_WDT->WDFEED=0x55;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid watchdog_reset (void) \r\n{\r\nLPC_WDT->WDFEED=0xaa;\r\nLPC_WDT->WDFEED=0x55;\r\n}\r\n\r\n\r\n\r\n//********************************************\r\n//*******************************************\r\n//*******************************************\r\n//*******************************************\r\n//********************************************\r\nvoid SysTick_Handler (void) \t / SysTick Interrupt Handler (1ms) /\r\n{\r\n//sys_plazma++;\r\nb2000Hz=1;\r\n\r\nif(bTPS)\r\n\t{\r\n\tLPC_GPIO1->FIODIR\|=(1UL<<26);\r\n\tLPC_GPIO1->FIOPIN^=(1UL<<26);\r\n\t}\r\n\r\nif(++t0cnt4>=2)\r\n\t{\r\nt0cnt4=0;\r\nb1000Hz=1;\r\n\r\n\tif(ce102m_delayCnt)ce102m_delayCnt--;\t\r\n\r\n\tbFF=(char)(GET_REG(LPC_GPIO0->FIOPIN, 27, 1));\r\n\tif(bFF!=bFF_) hz_out++;\r\n\tbFF_=bFF;\r\n\r\n\r\nif(++t0cnt5>=20)\r\n {\r\n t0cnt5=0;\r\n b50Hz=1;\r\n }\r\n \r\nif(++t0cnt>=10)\r\n {\r\n t0cnt=0;\r\n b100Hz=1;\r\n\r\n hz_out_cnt++;\r\n if(hz_out_cnt>=500)\r\n\t {\t\r\n\t hz_out_cnt=0;\r\n\t net_F=hz_out;\r\n\t hz_out=0;\r\n\t }\r\n\r\n if(++t0cnt0>=10)\r\n\t {\r\n\t t0cnt0=0;\r\n\t b10Hz=1;\r\n\t\tbeep_drv();\r\n\t\tif(main_10Hz_cnt<10000) main_10Hz_cnt++;\r\n\t }\r\n\r\n if(t0cnt0==5)\r\n\t {\r\n\t\t//beep_drv();\r\n\t }\r\n\r\n if(++t0cnt1>=20)\r\n\t {\r\n\t t0cnt1=0;\r\n\t b5Hz=1;\r\n\t\tif(bFL5)bFL5=0;\r\n\t\telse bFL5=1; \r\n\t }\r\n\r\n if(++t0cnt2>=50)\r\n\t {\r\n\t t0cnt2=0;\r\n\t b2Hz=1;\r\n\t\tif(bFL2)bFL2=0;\r\n\t\telse bFL2=1;\r\n\r\n\t } \r\n\r\n if(++t0cnt3>=100)\r\n\t {\r\n\t t0cnt3=0;\r\n\t b1Hz=1;\r\n\t\tif(main_1Hz_cnt<10000) main_1Hz_cnt++;\r\n\t\tif(bFL)bFL=0;\r\n\t\telse bFL=1;\r\n\r\n\t\tt0cntMin++;\r\n\t\tif(t0cntMin>=60)\r\n\t\t\t{\r\n\t\t\tt0cntMin=0;\r\n\t\t\tb1min=1;\r\n\t\t\t}\r\n\t }\r\n }\r\n\r\n\t}\r\n\r\n\r\nif(modbus_timeout_cnt<6)\r\n\t{\r\n\tmodbus_timeout_cnt++;\r\n\tif(modbus_timeout_cnt>=6)\r\n\t\t{\r\n\t\tbMODBUS_TIMEOUT=1;\r\n\t\t}\r\n\t}\r\nelse if (modbus_timeout_cnt>6)\r\n\t{\r\n\tmodbus_timeout_cnt=0;\r\n\tbMODBUS_TIMEOUT=0;\r\n\t}\r\n\r\n//LPC_GPIO0->FIOCLR\|=0x00000001;\r\n return; \r\n\r\n\r\n\r\n//LPC_GPIO0->FIOCLR\|=0x00000001;\r\n}\r\n\r\n\r\n//*********************************************\r\n__irq void timer0_interrupt(void) \r\n{\t\r\n/if(BPS1_spa_leave)T0EMR_bit.EM1=0; \r\nelse T0EMR_bit.EM1=1;\r\nif(BPS2_spa_leave)T0EMR_bit.EM3=0; \r\nelse T0EMR_bit.EM3=1;\r\nT0IR = 0xff;/\r\n}\r\n\r\n//===============================================\r\n//===============================================\r\n//===============================================\r\n//===============================================\r\nint main (void) \r\n{\r\nchar ind_reset_cnt=0;\r\nlong i;\r\nchar mac_adr[6] = { 0x00,0x73,0x04,50,60,70 };\r\n/\r\ni=2000000;\r\nwhile(--i){}; /\r\n\r\nSystemInit();\r\n\r\nbTPS=1;\r\n\r\nSysTick->LOAD = (SystemFrequency / 2000) - 1;\r\nSysTick->CTRL = 0x07;\r\n\r\n//if(!(LPC_SC->RSID&0x00000004L))bRESET_INT_WDT=1;\r\nif(LPC_SC->RSID&0x00000001L)bRESET_INT_WDT=1;\r\n\r\nLPC_SC->RSID=LPC_SC->RSID;\r\n//init_timer( 0,SystemFrequency/2000/4 - 1 ); // 1ms\t\r\n//enable_timer( 0 );\r\n\r\n//rs232_data_out_1();\r\n\r\nbps[0]._state=bsOFF_AV_NET;\r\nbps[1]._state=bsOFF_AV_NET;\r\nbps[2]._state=bsOFF_AV_NET;\r\nbps[3]._state=bsOFF_AV_NET;\r\nbps[4]._state=bsOFF_AV_NET;\r\nbps[5]._state=bsOFF_AV_NET;\r\nbps[6]._state=bsOFF_AV_NET;\r\n\r\nSET_REG(LPC_GPIO0->FIODIR, 0, 27, 1);\r\nSET_REG(LPC_GPIO2->FIODIR, 1, 7, 1);\r\nSET_REG(LPC_GPIO2->FIODIR, 1, 8, 1);\r\n//LPC_GPIO1->FIODIR \|= 1<<27; \r\n\t;\r\n//FIO1MASK = 0x00000000;\t \r\n//LPC_GPIO0->FIODIR \|= 1<<27;\r\n//LPC_GPIO0->FIOSET \|= 1<<27;\r\n\r\n///SET_REG(LPC_GPIO0->FIODIR,0,10,1); //вход частоты \r\n#ifdef UKU2071x\r\nSET_REG(LPC_GPIO3->FIODIR,1,SHIFT_REL_AV_NET,1);\r\nSET_REG(LPC_GPIO3->FIOCLR,1,SHIFT_REL_AV_NET,1); // реле аварии сети под ток\r\n#else \r\nSET_REG(LPC_GPIO3->FIODIR,1,SHIFT_REL_AV_NET,1);\r\nSET_REG(LPC_GPIO3->FIOSET,1,SHIFT_REL_AV_NET,1); // реле аварии сети под ток\r\n#endif\r\n\r\n\r\n\r\nad7705_reset();\r\ndelay_ms(20);\r\n\r\nad7705_write(0x21);\r\nad7705_write(BIN8(1101)); \r\nad7705_write(0x11);\r\nad7705_write(0x44);\r\n\r\n\r\nad7705_buff[0][1]=0x7fff;\r\nad7705_buff[0][2]=0x7fff;\r\nad7705_buff[0][3]=0x7fff;\r\nad7705_buff[0][4]=0x7fff;\r\nad7705_buff[0][5]=0x7fff;\r\nad7705_buff[0][6]=0x7fff;\r\nad7705_buff[0][7]=0x7fff;\r\nad7705_buff[0][8]=0x7fff;\r\nad7705_buff[0][9]=0x7fff;\r\nad7705_buff[0][10]=0x7fff;\r\nad7705_buff[0][11]=0x7fff;\r\nad7705_buff[0][12]=0x7fff;\r\nad7705_buff[0][13]=0x7fff;\r\nad7705_buff[0][14]=0x7fff;\r\nad7705_buff[0][15]=0x7fff;\r\nad7705_buff[1][1]=0x7fff;\r\nad7705_buff[1][2]=0x7fff;\r\nad7705_buff[1][3]=0x7fff;\r\nad7705_buff[1][4]=0x7fff;\r\nad7705_buff[1][5]=0x7fff;\r\nad7705_buff[1][6]=0x7fff;\r\nad7705_buff[1][7]=0x7fff;\r\nad7705_buff[1][8]=0x7fff;\r\nad7705_buff[1][9]=0x7fff;\r\nad7705_buff[1][10]=0x7fff;\r\nad7705_buff[1][11]=0x7fff;\r\nad7705_buff[1][12]=0x7fff;\r\nad7705_buff[1][13]=0x7fff;\r\nad7705_buff[1][14]=0x7fff;\r\nad7705_buff[1][15]=0x7fff;\r\n\r\nad7705_buff_[0]=0x7fff;\r\nad7705_buff_[1]=0x7fff;\r\n\r\n/\r\nad7705_reset();\r\ndelay_ms(20);\r\n\r\nad7705_write(0x20);\r\nad7705_write(BIN8(1101)); \r\nad7705_write(0x10);\r\nad7705_write(0x44);\r\n\r\nad7705_reset();\r\ndelay_ms(20); \r\n\r\nad7705_write(0x20);\r\nad7705_write(BIN8(1101)); \r\nad7705_write(0x10);\r\nad7705_write(0x44); \r\n\r\ndelay_ms(20); /\r\n\r\n\r\n\r\n\r\nlcd_init(); \r\nlcd_on();\r\nlcd_clear();\r\n\t\t\r\n///LPC_GPIO4->FIODIR \|= (1<<29); / LEDs on PORT2 defined as Output /\r\nrtc_init();\r\n///pwm_init();\r\nind=iMn;\r\n#ifdef UKU_GLONASS\r\nind=iMn_GLONASS;\r\n#endif\r\n#ifdef UKU_3U\r\nind=iMn_3U;\r\n#endif\r\n#ifdef UKU_RSTKM\r\nind=iMn_RSTKM;\r\n#endif \r\n#ifdef UKU_KONTUR\r\nind=iMn_KONTUR;\r\n#endif \r\n#ifdef UKU_6U\r\nind=iMn_6U;\r\n#endif\r\n#ifdef UKU_220\r\nind=iMn_220;\r\n#endif\r\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\nind=iMn_220_IPS_TERMOKOMPENSAT;\r\n#endif\r\n#ifdef UKU_220_V2\r\nind=iMn_220_V2;\r\n#endif\r\n#ifdef UKU_TELECORE2015\r\nind=iMn_TELECORE2015;\r\n#endif\r\n#ifdef UKU_TELECORE2017\r\nind=iMn_TELECORE2015;\r\n#endif\r\n#ifdef IPS_SGEP_GAZPROM\r\nind=iMn_IPS_SGEP_GAZPROM;\r\n#endif\r\n//snmp_plazma=15;\r\n\r\n\r\n//#ifdef ETHISON\r\n//mac_adr[5]=((char)&AUSW_MAIN_NUMBER);\r\n//mac_adr[4]=(((char)&AUSW_MAIN_NUMBER)+1);\r\n//mac_adr[3]=(((char)&AUSW_MAIN_NUMBER)+2);\r\n//mem_copy (own_hw_adr, mac_adr, 6);\r\n\r\n\r\n//if(lc640_read_int(EE_ETH_IS_ON)==1)\r\n\t//{\r\n\tbgnd_par(\t\t\" \",\r\n \t\t\" Инициализация \",\r\n \t\t\" Ethernet \",\r\n \t\t\" \");\r\n\t//bitmap_hndl();\r\n\t//lcd_out(lcd_bitmap);\r\n\t//init_TcpNet ();\r\n\r\n\t//init_ETH();\r\n\t//mem_copy (&localm[NETIF_ETH], &ip_config, sizeof(ip_config));\r\n\r\n//\t}\r\n//#endif\r\n//event2snmp(2);\r\n\r\n\r\n//LPC_GPIO0->FIODIR \|= (0x60000000);\r\n\r\nadc_init();\r\n\r\nLPC_GPIO0->FIODIR\|=(1<<11);\r\nLPC_GPIO0->FIOSET\|=(1<<11);\r\n\r\n\r\nlc640_write_int(100,134);\r\n\r\n#ifndef MCP2515_CAN\r\ncan1_init(BITRATE62_5K25MHZ); \r\ncan2_init(BITRATE125K25MHZ);\r\nFullCAN_SetFilter(1,0x0e9);\r\nFullCAN_SetFilter(0,0x18e);\r\n#endif\r\n\r\n\r\n\r\nmemo_read();\r\n\r\n#ifndef UKU_220 \r\nUARTInit(0, (uint32_t)MODBUS_BAUDRATE10UL);\t/* baud rate setting /\r\n#endif\r\n\r\n#ifdef UKU_220 \r\nUART_2_Init((uint32_t)MODBUS_BAUDRATE10UL);\t/* baud rate setting /\r\nUARTInit(0, (uint32_t)MODBUS_BAUDRATE10UL);\t/* baud rate setting /\r\n#endif\r\n\r\n\r\nmac_adr[5]=((char)&AUSW_MAIN_NUMBER);\r\nmac_adr[4]=(((char)&AUSW_MAIN_NUMBER)+1);\r\nmac_adr[3]=(((char)&AUSW_MAIN_NUMBER)+2);\r\nmem_copy (own_hw_adr, mac_adr, 6);\r\n\r\nsnmp_Community[0]=(char)lc640_read_int(EE_COMMUNITY); \r\n//if((snmp_Community[0]==0)\|\|(snmp_Community[0]==' '))snmp_Community[0]=0;\r\nsnmp_Community[1]=(char)lc640_read_int(EE_COMMUNITY+2);\r\nif((snmp_Community[1]==0)\|\|(snmp_Community[1]==' '))snmp_Community[1]=0;\r\nsnmp_Community[2]=(char)lc640_read_int(EE_COMMUNITY+4);\r\nif((snmp_Community[2]==0)\|\|(snmp_Community[2]==' '))snmp_Community[2]=0;\r\nsnmp_Community[3]=(char)lc640_read_int(EE_COMMUNITY+6);\r\nif((snmp_Community[3]==0)\|\|(snmp_Community[3]==' '))snmp_Community[3]=0;\r\nsnmp_Community[4]=(char)lc640_read_int(EE_COMMUNITY+8);\r\nif((snmp_Community[4]==0)\|\|(snmp_Community[4]==' '))snmp_Community[4]=0;\r\nsnmp_Community[5]=(char)lc640_read_int(EE_COMMUNITY+10);\r\nif((snmp_Community[5]==0)\|\|(snmp_Community[5]==' '))snmp_Community[5]=0;\r\nsnmp_Community[6]=(char)lc640_read_int(EE_COMMUNITY+12);\r\nif((snmp_Community[6]==0)\|\|(snmp_Community[6]==' '))snmp_Community[6]=0;\r\nsnmp_Community[7]=(char)lc640_read_int(EE_COMMUNITY+14);\r\nif((snmp_Community[7]==0)\|\|(snmp_Community[7]==' '))snmp_Community[7]=0;\r\nsnmp_Community[8]=(char)lc640_read_int(EE_COMMUNITY+16);\r\nif((snmp_Community[8]==0)\|\|(snmp_Community[8]==' '))snmp_Community[8]=0;\r\nsnmp_Community[9]=0; //\r\n\r\nif(lc640_read_int(EE_ETH_IS_ON)==1)\r\n\t{\r\n\tbgnd_par(\t\t\" \",\r\n \t\t\" Инициализация \",\r\n \t\t\" Ethernet \",\r\n \t\t\" \");\r\n\tbitmap_hndl();\r\n\tlcd_out(lcd_bitmap);\r\n\tinit_TcpNet ();\r\n\tlcd_out(lcd_bitmap);\r\n\tinit_ETH();\r\n\t//mem_copy (&localm[NETIF_ETH], &ip_config, sizeof(ip_config));\r\n//\tlcd_out(lcd_bitmap);\r\n\t}\r\n//sys_plazma1=sys_plazma;\r\nind_reset_cnt=58;\r\n\r\nif(__ee_spc_stat==spcVZ)\r\n\t{\r\n\tif(__ee_vz_cnt)\r\n\t\t{\r\n\t\tspc_stat=spcVZ; \r\n\t\tvz_cnt_h=__ee_vz_cnt/60;\r\n\t\tvz_cnt_h_=(lc640_read_int(EE_SPC_VZ_LENGT)-__ee_vz_cnt)/60;\r\n\t\tif(vz_cnt_h_<0)vz_cnt_h_=0;\r\n\t\tvz_cnt_s_=(short)(((lc640_read_int(EE_SPC_VZ_LENGT)-__ee_vz_cnt)60)%3600UL);\r\n\r\n\t\tvz_cnt_s=0;\r\n\t\t}\r\n\t}\r\nelse if(__ee_spc_stat==spcKE)\r\n\t{\r\n\tspc_stat=spcKE;\r\n\tspc_bat=__ee_spc_bat;\r\n\tbat[spc_bat]._zar_cnt_ke=0;\r\n\tspc_phase=__ee_spc_phase;\r\n\t}\r\nwatchdog_enable();\r\nif((AUSW_MAIN==2400)\|\|(AUSW_MAIN==4800)\|\|(AUSW_MAIN==6000)\|\|(BAT_TYPE==1))\r\n\t{\r\n\tcntrl_stat=350;\r\n\tcntrl_stat_old=350;\r\n\t}\r\n\r\n#ifdef UKU_TELECORE2015\r\ncntrl_stat=0;\r\ncntrl_stat_old=0;\r\n#endif\r\n\r\n\r\n#ifdef UKU_TELECORE2017\r\n{\r\nsigned short tempSS,tempSS1;\r\ntempSS=0;\r\ntempSS1=0;\r\ntempSS=ULAUNCH;\r\nif(TELECORE2017_USTART<420)tempSS=420;\r\nif(TELECORE2017_USTART>540)tempSS=540;\r\ntempSS-=420;\r\ntempSS=100;\r\ntempSS/=12;\r\n\r\ncntrl_stat=tempSS;\r\ngran(&cntrl_stat,100,1000);\r\ncntrl_stat_old=0;\r\n//cntrl_stat=500;\r\n}\r\n#endif\r\n\r\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\ncntrl_stat=10PWM_START;\r\ncntrl_stat_old=10PWM_START;\r\n#endif\r\n\r\n\r\nkb_init();\r\n//ind=iDeb;\r\n//sub_ind=6;\r\n#ifdef MCP2515_CAN\r\ncan_mcp2515_init();\r\n#endif\r\n\r\n#ifdef SC16IS740_UART\r\nsc16is700_init((uint32_t)(MODBUS_BAUDRATE10UL));\r\ndelay_ms(100);\r\nsc16is700_init((uint32_t)(MODBUS_BAUDRATE10UL));\r\n#endif\r\n//sc16is700_init();\r\n\r\nreload_hndl();\r\n\r\nsocket_tcp = tcp_get_socket (TCP_TYPE_SERVER, 0, 10, tcp_callback);\r\nif (socket_tcp != 0) \r\n\t{\r\n tcp_listen (socket_tcp, 502);\r\n \t}\r\n\r\nuart1_init(9600);\r\n\r\nsocket_udp = udp_get_socket (0, UDP_OPT_SEND_CS \| UDP_OPT_CHK_CS, udp_callback);\r\nif (socket_udp != 0) \r\n\t{\r\n udp_open (socket_udp, PORT_NUM);\r\n \t}\r\n\r\nrx_read_power_cnt_flag=0;\r\n\r\n#ifdef IPS_SGEP_GAZPROM\r\nipsSgepGazpromEeSets();\r\ncntrl_stat=PWM_START10;\r\ncntrl_stat_old=cntrl_stat;\r\ncntrl_stat_new=cntrl_stat;\r\n#endif\r\n \r\n#ifndef UKU_220_IPS_TERMOKOMPENSAT\r\nvz1_stop();\r\nvz2_stop();\r\nif(hv_vz_stat!=hvsOFF)\r\n\t{\r\n\thv_vz_stat=hvsOFF;\r\n\tlc640_write(EE_HV_VZ_STAT,hvsOFF);\r\n\t}\r\n#endif \r\n\t\t\r\nwhile (1) \r\n\t{\r\n\tbTPS=0; \r\n //timer_poll ();\r\n main_TcpNet ();\r\n\r\n\t//watchdog_reset();\r\n#ifdef MCP2515_CAN\r\n\tif(bMCP2515_IN)\r\n\t\t{\r\n\t\tbMCP2515_IN=0;\r\n\t\tcan_in_an1();\r\n\t\t}\r\n#endif\r\n\tif(bMODBUS_TIMEOUT)\r\n\t\t{\r\n\t\tbMODBUS_TIMEOUT=0;\r\n\t\t//modbus_plazma++;;\r\n\t\tmodbus_in();\r\n\t\t}\r\n\r\n\tif(bRXIN1) \r\n\t\t{\r\n\t\tbRXIN1=0;\r\n\t\r\n\t\tuart_in1();\r\n\t\t}\r\n\r\n\tif(bRXIN0) \r\n\t\t{\r\n\t\tbRXIN0=0;\r\n\t\r\n\t\tuart_in0();\r\n\t\t} \r\n\r\n/\tif(bRXIN_SC16IS700) \r\n\t\t{\r\n\t\tbRXIN_SC16IS700=0;\r\n\t\r\n\t\tuart_in_SC16IS700();\r\n\t\t}/\r\n\r\n\t/\r\n\tif(bRXIN1) \r\n\t\t{\r\n\t\tbRXIN1=0;\r\n\t\r\n\t\tuart_in1();\r\n\t\t}/ \r\n if(b10000Hz)\r\n\t\t{\r\n\t\tb10000Hz=0; \r\n\t\t\r\n\r\n\t\t}\r\n\r\n if(b2000Hz)\r\n\t\t{\r\n\r\n\t\tif(adc_window_cnt<200)adc_window_cnt++;\r\n\r\n\t\tb2000Hz=0; \r\n\t\tadc_drv7();\r\n\t\t\r\n\t\t}\r\n\r\n\tif(b1000Hz)\r\n\t\t{\r\n\t\tb1000Hz=0;\r\n\t\t#ifdef MCP2515_CAN\r\n\t\tcan_mcp2515_hndl();\r\n\t\t//mcp2515_read_status();\r\n\t\t#endif\r\n\r\n\t\t#ifdef SC16IS740_UART\r\n\t\tsc16is700_uart_hndl();\r\n\t\t#endif\t\t\r\n\t\t}\r\n\t\r\n\tif(b100Hz)\r\n\t\t{\r\n\t\tb100Hz=0;\r\n\r\n\t\t//LPC_GPIO2->FIODIR\|=(1<<7);\r\n\t\t//LPC_GPIO2->FIOPIN^=(1<<7);\t\t\r\n\r\n\t\tif((!bRESET_INT_WDT)&&(!bRESET_EXT_WDT))but_drv();\r\n\t\tbut_an();\r\n\t\t}\r\n\t\t \r\n\tif(b50Hz)\r\n\t\t{\r\n\t\tb50Hz=0;\r\n\t\t\r\n\t\tnet_drv();\r\n\r\n\t\t}\r\n\r\n\tif(bMODBUS_TIMEOUT)\r\n\t\t{\r\n\t\tbMODBUS_TIMEOUT=0;\r\n\t\t//modbus_plazma++;;\r\n\t\tmodbus_in();\r\n\t\t}\t\r\n\t\r\n\tif(b10Hz)\r\n\t\t{\r\n\t\tchar i;\r\n\r\n timer_tick ();\r\n tick = __TRUE;\r\n\r\n\t\tb10Hz=0;\r\n\t\t\t\t\r\n\t\tu_necc_hndl();\r\n\t\t\r\n\t\tfor(i=0;i<NUMIST;i++)bps_drv(i);\r\n\t\tbps_hndl();\r\n\r\n\t\t//inv_search();\r\n\t\t\r\n\t\t//if(NUMINV) {for(i=0;i<NUMINV;i++)inv_drv(i);}\t\t \r\n\t\t\r\n\t\t//nv[0]._Uii=123;\r\n\r\n\r\n\t\tif(BAT_IS_ON[0]==bisON)bat_drv(0);\r\n\t\tif(BAT_IS_ON[1]==bisON)bat_drv(1);\r\n\t\tbat_hndl();\r\n\r\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\n\t\tbat_drv(0);\t\t\r\n\t\tif(main_10Hz_cnt>200)\r\n\t\t\t{\r\n\t\t\tif(abs(Ib_ips_termokompensat)>IKB) \r\n\t\t\t\t{\r\n\t\t\t\tif((bat_ips._av&1))avar_bat_ips_hndl(0);\r\n\t\t\t\t}\r\n\t\t\t}\r\n#ifdef APSENERGIA\r\n\t\t{\r\n\t\tif(Ib_ips_termokompensat<-150)\r\n\t\t\t{\r\n\t\t\tif(apsEnergiaCnt<30)apsEnergiaCnt++;\r\n\t\t\telse apsEnergiaCnt=30; \r\n\t\t\t}\r\n\t\telse if(Ib_ips_termokompensat>-150)\r\n\t\t\t{\r\n\t\t\tif(apsEnergiaCnt>0)apsEnergiaCnt--;\r\n\t\t\telse apsEnergiaCnt=0;\r\n\t\t\t}\r\n\t\tif (apsEnergiaCnt<1)apsEnergiaStat=0; \t\t//батарея заряжается\r\n\t\telse if (apsEnergiaCnt>29)apsEnergiaStat=1; //батарея разряжается\r\n\t\t \r\n\t\t//if(num_of_wrks_bps)apsEnergiaStat=0;\r\n\t\t//else if (!num_of_wrks_bps)apsEnergiaStat=1;\r\n\t\t}\r\n#endif\r\n\t\tipsBlckHndl();\r\n#endif\t\t\t\t\r\n\t\tunet_drv();\r\n\r\n\t\t\r\n\t\t\r\n\t\tind_hndl(); \r\n\t\t#ifndef SIMULATOR\r\n\t\tbitmap_hndl();\r\n\t\tif(!bRESET_EXT_WDT)\r\n\t\t\t{\r\n\t\t\tlcd_out(lcd_bitmap);\r\n\t\t\t}\r\n\t\t#endif\r\n\t\t//ad7705_drv();\r\n\t\t//ad7705_write(0x20);\r\n\r\n\t\tadc_window_cnt=0; \r\n\r\n\t\t \r\n\t\tmess_hndl();\r\n\r\n#ifdef \tUKU_TELECORE2017\r\n\t\tcntrl_hndl_telecore2017();\r\n\t\tlakb_hndl();\r\n#elif\tTELECORE\r\n\t\tcntrl_hndl_telecore();\r\n\t\tlakb_hndl();\r\n#else \r\n\t\tcntrl_hndl();\r\n#endif\t\t\t\t \r\n\r\n\t\t//ret_hndl();\r\n\t\text_drv();\r\n\t\tavt_hndl();\r\n\t\tret_hndl();\r\n\r\n\t\tif(++sc16is700_spi_init_cnt>=13)\r\n\t\t\t{\r\n\t\t\tsc16is700_spi_init_cnt=0;\r\n\t\t\tsc16is700_init((uint32_t)(MODBUS_BAUDRATE10UL));\r\n\t\t\t}\r\n\t\tenergometr_hndl();\r\n\t\t}\r\n\r\n\tif(b5Hz)\r\n\t\t{\r\n\t\tb5Hz=0;\t\t\r\n\t\t \r\n\t\tif(!bRESET_EXT_WDT)\r\n\t\t\t{\r\n\t\t\tad7705_drv();\r\n\t\t\t}\r\n\t\tif(!bRESET_EXT_WDT)\r\n\t\t\t{\r\n\t\t\tmemo_read();\r\n\t\t\t}\r\n\t\tLPC_GPIO1->FIODIR\|=(1UL<<26);\r\n\t\tmatemat();\r\n\t\t\r\n\t\trele_hndl();\r\n\t\tif(!bRESET_EXT_WDT)avar_hndl();\r\n\t\tzar_superviser_drv();\r\n\t\tsnmp_data();\r\n\t\t//LPC_GPIO1->FIODIR\|=(1UL<<31);\r\n\t\t//LPC_GPIO1->FIOPIN^=(1UL<<31);\r\n\r\n\t\t\r\n \t\t}\r\n\t\t \r\n\tif(b2Hz)\r\n\t\t{\r\n\t\tb2Hz=0;\r\n\t\thttp_data();\r\n\t\t\r\n\t\t\t\t//uart_out_adr1(dig,150);\r\n\t\t//sc16is700_wr_buff(CS16IS7xx_THR, 20);\r\n\r\n\t\t//sc16is700_wr_byte(CS16IS7xx_LCR, 0x80);\r\n\t\t//can1_out(cnt_net_drv,cnt_net_drv,GETTM,bps[cnt_net_drv]._flags_tu,((char)(&bps[cnt_net_drv]._vol_u)),((char)((&bps[cnt_net_drv]._vol_u))+1),((char)(&bps[cnt_net_drv]._vol_i)),((char)((&bps[cnt_net_drv]._vol_i))+1));\r\n \t\t}\r\n\tif(bMODBUS_TIMEOUT)\r\n\t\t{\r\n\t\tbMODBUS_TIMEOUT=0;\r\n\t\t//modbus_plazma++;;\r\n\t\tmodbus_in();\r\n\t\t\r\n\t\t}\r\n\r\n\tif(b1Hz)\r\n\t\t{\r\n\t\tb1Hz=0;\r\n\r\n\t\tbat_flag();\t \r\n\t\t\r\n\t #if defined UKU_6U \|\| defined UKU_220_IPS_TERMOKOMPENSAT \|\| defined UKU_220_V2 //o_5\r\n\t if(NUMENMV==1) modbus_zapros_ENMV();\r\n\t\t#endif\r\n\r\n\t\tbps_I_phantom++;\r\n\r\n\t\tif(bps_I_phantom>=100)bps_I_phantom=0;\r\n\r\n\t\tif(!bRESET_INT_WDT)\r\n\t\t\t{\r\n\t\t\twatchdog_reset();\r\n\t\t\t}\r\n\t\t//can1_out_adr((char)&net_U,21);\r\n\t\t\r\n\t\tsamokalibr_hndl();\r\n\t\tnum_necc_hndl();\r\n\t\t//zar_drv();\r\n\t\tubat_old_drv();\r\n\t\tkb_hndl();\r\n\t\tbeep_hndl();\r\n\t\tavg_hndl();\r\n\t\tvz_drv();\t \r\n\t\tavz_drv();\r\n\t\tke_drv();\r\n\t\tmnemo_hndl();\r\n\t\tvent_hndl();\r\n\r\n\t\tplazma_plazma_plazma++;\t \r\n\t\t\r\n\t\tif(++ind_reset_cnt>=60)\r\n\t\t\t{\r\n\t\t\tind_reset_cnt=0;\r\n\t\t\tlcd_init();\r\n\t\t\tlcd_on();\r\n\t\t\tlcd_clear();\r\n\t\t\t}\r\n \r\n vent_hndl();\r\n\r\n\t\t#ifdef \tUKU_TELECORE2017\r\n\t\tklimat_hndl_telecore2017();\r\n\t\t#elif\tTELECORE\r\n\t\tklimat_hndl_telecore2015();\r\n\t\t#else \r\n\t\tcntrl_hndl();\r\n\t\t#endif\t\r\n\t\t \r\n\t\tif(t_ext_can_nd<10) t_ext_can_nd++;\r\n\t\t\r\n\t\t//if(main_1Hz_cnt<200)main_1Hz_cnt++;\r\n\r\n\t\t#ifdef UKU_TELECORE2015\r\n\r\n\t\tif(BAT_TYPE==2)sacred_san_bat_hndl();\r\n\t\telse if(BAT_TYPE==3)\r\n\t\t\t{\r\n\t\t\t#ifdef UKU_TELECORE2016 \r\n\t\t\tztt_bat_hndl_can();\r\n\t\t\t#else\r\n\t\t\tztt_bat_hndl();\r\n\t\t\t#endif\r\n\t\t\t}\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU_TELECORE2017\r\n\r\n\t\tif(BAT_TYPE==2)sacred_san_bat_hndl();\r\n\t\telse if(BAT_TYPE==3)\r\n\t\t\t{\r\n\t\t\t#ifdef UKU_TELECORE2017 \r\n\t\t\tztt_bat_hndl_can();\r\n\t\t\t#else\r\n\t\t\tztt_bat_hndl();\r\n\t\t\t#endif\r\n\t\t\t}\r\n\t\telse if(BAT_TYPE==4)\r\n\t\t\t{\r\n\t\t\t//stark_bat_hndl_can();\r\n\t\t\tzTTBatteryHndlCmnd=0x99;\r\n\t\t\t}\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU_220_V2\r\n\t\tspeedChargeHndl();\r\n\t\t#endif\r\n\r\n\t\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\n\r\n\t\tspeedChargeHndl();\r\n\t\taverageChargeHndl();\r\n\t\tvz1_drv();\r\n\t\tvz2_drv();\r\n\t\t#endif\r\n\r\n\t\tcan_reset_hndl();\r\n\t\tnpn_hndl();\r\n\t\tloadoff_hndl();\r\n/\t\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\n\t\tif((AUSW_MAIN==22063)\|\|(AUSW_MAIN==22023)\|\|(AUSW_MAIN==22043))rs232_data_out_tki();\r\n\t\telse if(AUSW_MAIN==22010)rs232_data_out_1();\r\n\t\telse rs232_data_out();\r\n\t\t#endif /\t\r\n \r\n\t\t//modbus_registers_transmit(MODBUS_ADRESS,4,0,5);\r\n\t\t\r\n\t/\tputchar2(0x56);\r\n\t\tputchar2(0x57);\r\n\t\tputchar2(0x58);\r\n\t\tputchar2(0x59);\r\n\t\tputchar2(0x5a);/\r\n\r\n\t\tpowerAntiAliasingHndl();\r\n\r\n\t\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\n\t\toutVoltContrHndl();\r\n\t\tvent_resurs_hndl();\r\n\t\t#endif\r\n\r\n\t\tips_current_average_hndl();\r\n\t\t\r\n\r\n\t\t//SET_REG(LPC_GPIO2->FIODIR,1,2,1);\r\n\t\t//SET_REG(LPC_GPIO2->FIOPIN,1,2,1);\r\n\t\t//putchar1(0x56);\r\n\t\t//LPC_PINCON->PINSEL4 &= ~0x0000003f;\r\n\t//\tLPC_PINCON->PINSEL4 \|= 0x0000000A;\t/* Enable RxD1 P2.1, TxD1 P2.0 /\r\n\t\t//LPC_GPIO2->FIODIR\|=(4UL<<0);\r\n\t\t//LPC_GPIO2->FIOPIN\|=(4UL<<0);\r\n\t\t//putchar1(0x78);\r\n\t\t\r\n\t\ttime_sinc_hndl();\r\n\r\n\t\tif(uart1_net_cnt<10) uart1_net_cnt++;\r\n\t\tu_avt_set_hndl();\r\n\t\t#ifdef UKU_ZVU\r\n\t\tbat_hndl_zvu();\r\n\t\tamper_chas_cnt_drv();\r\n\t\t#endif\r\n\t\t}\r\n\tif(b1min)\r\n\t\t{\r\n\t\tb1min=0;\r\n\r\n\t\tif((tloaddisable_cmnd)&&(tloaddisable_cmnd<=10))\r\n\t\t\t{\r\n\t\t\ttloaddisable_cmnd--;\r\n\t\t\tif(!tloaddisable_cmnd)tloaddisable_cmnd=20;\r\n\t\t\t}\r\n\t\tif((tbatdisable_cmnd)&&(tbatdisable_cmnd<=10))\r\n\t\t\t{\r\n\t\t\tif(!tbatdisable_cmnd)tbatdisable_cmnd=20;\r\n\t\t\t}\r\n\t\t\r\n\t\tnumOfForvardBps_hndl();\t\t\t//Программа смены первого источника для равномерного износа БПСов\r\n\t\t}\r\n\r\n\t}\r\n}\r\n" }, { "alpha_fraction": 0.548828125, "alphanum_fraction": 0.688720703125, "avg_line_length": 19.005128860473633, "blob_id": "f877edc2239b0a206c8e8b81d61d9b008774e892", "content_id": "88b2b905e40d0c1b24218a14c24088ab59edcd8e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 4096, "license_type": "no_license", "max_line_length": 129, "num_lines": 195, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/ztt.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"ztt.h\"\r\n#include \"main.h\"\r\n\r\nchar portForZTTBatteryIsInitiated=0;\r\nchar zTTBatteryHndlPhase;\r\n//char zTTBatteryInBuff[300];\r\nchar zTTRequestPhase;\r\nshort zTTSilentCnt[3];\r\nchar zTTButteryCnter=0;\r\nchar zTTBatteryHndlCmnd;\r\n\r\n\r\n\r\n#ifdef UKU_TELECORE2015\r\n\r\n#ifdef UKU_TELECORE2016 \r\nvoid ztt_bat_hndl_can(void)\r\n{\r\nzTTBatteryHndlPhase++;\r\n\r\nif(zTTBatteryHndlPhase==5)\t\r\n\t{\r\n\tif(zTTButteryCnter==0)\r\n\t\t{\r\n\t\tzTTBatteryHndlCmnd=0x11;\r\n\t\tzTTSilentCnt[0]=10;\r\n\t\t}\r\n\telse if(zTTButteryCnter==1)\r\n\t\t{\r\n\t\tzTTBatteryHndlCmnd=0x21;\r\n\t\tzTTSilentCnt[1]=10;\r\n\t\t}\r\n\telse if(zTTButteryCnter==2)\r\n\t\t{\r\n\t\tzTTBatteryHndlCmnd=0x31;\r\n\t\tzTTSilentCnt[2]=10;\r\n\t\t}\r\n\tzTTRequestPhase=0;\r\n\t}\r\nelse if(zTTBatteryHndlPhase==10)\r\n\t{\r\n\tif(zTTButteryCnter==0)\r\n\t\t{\r\n\t\tzTTBatteryHndlCmnd=0x12;\r\n\t\tzTTSilentCnt[0]=10;\r\n\t\t}\r\n\telse if(zTTButteryCnter==1)\r\n\t\t{\r\n\t\tzTTBatteryHndlCmnd=0x22;\r\n\t\tzTTSilentCnt[1]=10;\r\n\t\t}\r\n\telse if(zTTButteryCnter==2)\r\n\t\t{\r\n\t\tzTTBatteryHndlCmnd=0x32;\r\n\t\tzTTSilentCnt[2]=10;\r\n\t\t}\r\n\r\n\tzTTRequestPhase=1;\r\n\r\n\tzTTBatteryHndlPhase=0;\r\n\t\r\n\tzTTButteryCnter++;\r\n\tif(zTTButteryCnter>=NUMBAT_TELECORE)zTTButteryCnter=0;\r\n\r\n\t}\r\n\r\n}\r\n#else\r\nvoid ztt_bat_hndl(void)\r\n{\r\n\r\nif(portForZTTBatteryIsInitiated==0)\r\n\t{\r\n\tUARTInit(0, 9600);\t/ baud rate setting /\r\n\tportForZTTBatteryIsInitiated=1;\r\n\t}\r\n\r\nzTTBatteryHndlPhase++;\r\n\r\nif((zTTSilentCnt[0])&&(zTTSilentCnt[0]<=10))zTTSilentCnt[0]--;\r\nif((zTTSilentCnt[1])&&(zTTSilentCnt[1]<=10))zTTSilentCnt[1]--;\r\nif((zTTSilentCnt[2])&&(zTTSilentCnt[2]<=10))zTTSilentCnt[2]--;\r\n\r\nif(zTTBatteryHndlPhase==5)\t//7E 32 36 30 30 34 36 34 32 45 30 30 32 30 31 46 44 33 30 0D\r\n\t{\r\n\tif(zTTButteryCnter==0)\r\n\t\t{\r\n\t\tchar zTTButteryOutBuff[]={0x7e,0x32,0x36,0x30,0x30,0x34,0x36,0x34,0x32,0x45,0x30,0x30,0x32,0x30,0x31,0x46,0x44,0x33,0x30,0x0d};\r\n\t\tuart_out_buff0(zTTButteryOutBuff,20);\r\n\t\tzTTSilentCnt[0]=10;\r\n\t\t}\r\n\telse if(zTTButteryCnter==1)\r\n\t\t{\r\n\t\tchar zTTButteryOutBuff[]={0x7e,0x32,0x36,0x30,0x30,0x34,0x36,0x34,0x32,0x45,0x30,0x30,0x32,0x30,0x32,0x46,0x44,0x32,0x46,0x0d};\r\n\t\tuart_out_buff0(zTTButteryOutBuff,20);\r\n\t\tzTTSilentCnt[1]=10;\r\n\t\t}\r\n\telse if(zTTButteryCnter==2)\r\n\t\t{\r\n\t\tchar zTTButteryOutBuff[]={0x7e,0x32,0x36,0x30,0x30,0x34,0x36,0x34,0x32,0x45,0x30,0x30,0x32,0x30,0x33,0x46,0x44,0x32,0x45,0x0d};\r\n\t\tuart_out_buff0(zTTButteryOutBuff,20);\r\n\t\tzTTSilentCnt[2]=10;\r\n\t\t}\r\n\r\n\tzTTRequestPhase=0;\r\n\r\n\t}\r\nelse if(zTTBatteryHndlPhase==10)\r\n\t{\r\n\tif(zTTButteryCnter==0)\r\n\t\t{\r\n\t\tchar zTTButteryOutBuff[]={0x7e,0x32,0x36,0x30,0x30,0x34,0x36,0x34,0x34,0x45,0x30,0x30,0x32,0x30,0x31,0x46,0x44,0x32,0x45,0x0d};\r\n\t\tuart_out_buff0(zTTButteryOutBuff,20);\r\n\t\tzTTSilentCnt[0]=10;\r\n\t\t}\r\n\telse if(zTTButteryCnter==1)\r\n\t\t{\r\n\t\tchar zTTButteryOutBuff[]={0x7e,0x32,0x36,0x30,0x30,0x34,0x36,0x34,0x34,0x45,0x30,0x30,0x32,0x30,0x32,0x46,0x44,0x32,0x44,0x0d};\r\n\t\tuart_out_buff0(zTTButteryOutBuff,20);\r\n\t\tzTTSilentCnt[1]=10;\r\n\t\t}\r\n\telse if(zTTButteryCnter==2)\r\n\t\t{\r\n\t\tchar zTTButteryOutBuff[]={0x7e,0x32,0x36,0x30,0x30,0x34,0x36,0x34,0x34,0x45,0x30,0x30,0x32,0x30,0x33,0x46,0x44,0x32,0x45,0x0d};\r\n\t\tuart_out_buff0(zTTButteryOutBuff,20);\r\n\t\tzTTSilentCnt[2]=10;\r\n\t\t}\r\n\r\n\tzTTRequestPhase=1;\r\n\r\n\tzTTBatteryHndlPhase=0;\r\n\t\r\n\tzTTButteryCnter++;\r\n\tif(zTTButteryCnter>=NUMBAT_TELECORE)zTTButteryCnter=0;\r\n\t}\r\n\r\n}\r\n\r\n#endif\r\n\r\n#endif\r\n\r\n#ifdef UKU_TELECORE2017 \r\nvoid ztt_bat_hndl_can(void)\r\n{\r\nzTTBatteryHndlPhase++;\r\n\r\nif(zTTBatteryHndlPhase==5)\t\r\n\t{\r\n\tif(zTTButteryCnter==0)\r\n\t\t{\r\n\t\tzTTBatteryHndlCmnd=0x11;\r\n\t\tzTTSilentCnt[0]=10;\r\n\t\t}\r\n\telse if(zTTButteryCnter==1)\r\n\t\t{\r\n\t\tzTTBatteryHndlCmnd=0x21;\r\n\t\tzTTSilentCnt[1]=10;\r\n\t\t}\r\n\telse if(zTTButteryCnter==2)\r\n\t\t{\r\n\t\tzTTBatteryHndlCmnd=0x31;\r\n\t\tzTTSilentCnt[2]=10;\r\n\t\t}\r\n\tzTTRequestPhase=0;\r\n\t}\r\nelse if(zTTBatteryHndlPhase==10)\r\n\t{\r\n\tif(zTTButteryCnter==0)\r\n\t\t{\r\n\t\tzTTBatteryHndlCmnd=0x12;\r\n\t\tzTTSilentCnt[0]=10;\r\n\t\t}\r\n\telse if(zTTButteryCnter==1)\r\n\t\t{\r\n\t\tzTTBatteryHndlCmnd=0x22;\r\n\t\tzTTSilentCnt[1]=10;\r\n\t\t}\r\n\telse if(zTTButteryCnter==2)\r\n\t\t{\r\n\t\tzTTBatteryHndlCmnd=0x32;\r\n\t\tzTTSilentCnt[2]=10;\r\n\t\t}\r\n\r\n\tzTTRequestPhase=1;\r\n\r\n\tzTTBatteryHndlPhase=0;\r\n\t\r\n\tzTTButteryCnter++;\r\n\tif(zTTButteryCnter>=NUMBAT_TELECORE)zTTButteryCnter=0;\r\n\r\n\t}\r\n\r\n}\r\n#endif\r\n" }, { "alpha_fraction": 0.42105263471603394, "alphanum_fraction": 0.42105263471603394, "avg_line_length": 22, "blob_id": "85b51dc29403de9d481417142f6dc607bd329dd1", "content_id": "87faec50fbdcacfe4ea0d53f03506552b53708b1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 38, "license_type": "no_license", "max_line_length": 22, "num_lines": 1, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/memo.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\nvoid memo_read (void);\r\n\r\n\r\n\r\n\r\n\r\n\r\n" }, { "alpha_fraction": 0.6304348111152649, "alphanum_fraction": 0.7147562503814697, "avg_line_length": 25.472726821899414, "blob_id": "bdda039bd8e5552dfd47c506c6657663a7af34f2", "content_id": "1d52fbf097e0d384e6138b4e441a0e5954555106", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1518, "license_type": "no_license", "max_line_length": 92, "num_lines": 55, "path": "/SOFT/UKU/RKI/uart2.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\n#define RX_BUFFER_SIZE2 1024\r\n#define TX_BUFFER_SIZE2 1024\r\n\r\n//#define BUFSIZE \t\t1024\r\n\r\n#define IER_RBR\t\t0x01\r\n#define IER_THRE\t\t0x02\r\n#define IER_RLS\t\t0x04\r\n\r\n//#define PT\t(UIB2[1]&0x80)\r\n//#define C_D\t(UIB2[1]&0x40)\r\n//#define FR\t(UIB2[1]&0x20)\r\n\r\n#define IIR_PEND\t0x01\r\n#define IIR_RLS\t\t0x03\r\n#define IIR_RDA\t\t0x02\r\n#define IIR_CTI\t\t0x06\r\n#define IIR_THRE\t0x01\r\n\r\n#define LSR_RDR\t\t0x01\r\n#define LSR_OE\t\t0x02\r\n#define LSR_PE\t\t0x04\r\n#define LSR_FE\t\t0x08\r\n#define LSR_BI\t\t0x10\r\n#define LSR_THRE\t0x20\r\n#define LSR_TEMT\t0x40\r\n#define LSR_RXFE\t0x80\r\n\r\n\r\nextern char bRXIN2;\r\nextern char UIB2[100];\r\nextern char flag2;\r\nextern char rx_buffer2[RX_BUFFER_SIZE2];\r\nextern char tx_buffer2[TX_BUFFER_SIZE2];\r\nextern unsigned short rx_wr_index2,rx_rd_index2,rx_counter2;\r\nextern unsigned short tx_wr_index2,tx_rd_index2,tx_counter2;\r\nextern char rx_buffer_overflow2;\r\nextern char plazma_uart2;\r\nextern char memo_out2[50];\r\nextern char data_rs2[50];\r\nextern char data_rs02[50];\r\n\r\nvoid putchar2(char c);\r\nvoid uart_out2 (char num,char data0,char data1,char data2,char data3,char data4,char data5);\r\nvoid uart_out_adr2 (char ptr, char len);\r\nvoid uart0_init(void);\r\nchar getchar0(void);\r\n__irq void uart0_interrupt(void);\r\nvoid uart_in_an2(void);\r\nsigned short index_offset2 (signed short index,signed short offset);\r\nchar control_check2(signed short index);\r\nvoid uart_in0(void);\r\nvoid uart_out_adr2_block (unsigned long adress,char ptr, char len);\r\nuint32_t UART_2_Init(uint32_t baudrate );\r\nvoid uart_in2(void); \r\n\r\n\r\n" }, { "alpha_fraction": 0.6372092962265015, "alphanum_fraction": 0.7069767713546753, "avg_line_length": 24.875, "blob_id": "f20a4e480b432ef42dbb08dbe39eceb2b06d7c41", "content_id": "0aa4b0ccf00f271980ae22f3c6866dd0eec0cb51", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 215, "license_type": "no_license", "max_line_length": 34, "num_lines": 8, "path": "/SOFT/UKU/2rki/curr_version.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"curr_version.h\"\r\n\r\nconst short HARDVARE_VERSION = 10;\r\nconst short SOFT_VERSION = 19;\r\nconst short BUILD = 206;\r\nconst short BUILD_YEAR = 2018;\r\nconst short BUILD_MONTH = 12;\r\nconst short BUILD_DAY = 28;\r\n" }, { "alpha_fraction": 0.4131859242916107, "alphanum_fraction": 0.5710483193397522, "avg_line_length": 20.497695922851562, "blob_id": "d3c012f313c4d6e6f7cf8e8c82e1ed96aab6de55", "content_id": "9e934898bb93c98e37db135de1954b17bdd93b7a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 4884, "license_type": "no_license", "max_line_length": 110, "num_lines": 217, "path": "/SOFT/UKU/2/mcp2515.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"25lc640.h\"\r\n#include \"mcp2515.h\"\r\n#include \"LPC17xx.H\"\r\n#include \"main.h\"\r\n#include \"full_can.h\"\r\n\r\nchar mcp2515_can_st,mcp2515_can_st_old;\r\nchar MCP2515_RXBUFF[40];\r\nchar bMCP2515_IN;\r\nchar mcp2515_out_buff[8][8];\r\nchar mcp2515_buff_wr_ptr;\r\nchar mcp2515_buff_rd_ptr;\r\n\r\n//-----------------------------------------------\r\nvoid mcp2515_reset(void)\r\n{\r\nspi1_config_mcp2515();\r\nMCP2515_CS_ON\r\nspi1(0xc0);\r\nMCP2515_CS_OFF\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nchar mcp2515_write(char addr,char in)\r\n{ \r\nchar temp;\r\nspi1_config_mcp2515(); \r\nMCP2515_CS_ON\r\nspi1(0x02);\r\nspi1(addr);\r\nspi1(in);\r\nMCP2515_CS_OFF\r\nreturn temp; \r\n}\r\n\r\n//-----------------------------------------------\r\nchar mcp2515_read(char addr)\r\n{ \r\nchar temp;\r\n\r\nspi1_config_mcp2515(); \r\nMCP2515_CS_ON\r\ndelay_us(10);\r\nspi1(0x03);\r\nspi1(addr);\r\ntemp=spi1(0x55);\r\nMCP2515_CS_OFF \r\nreturn temp; \r\n} \r\n\r\n//-----------------------------------------------\r\nvoid mcp2515_bit_modify(char addr,char mask,char data)\r\n{ \r\nspi1_config_mcp2515(); \r\nMCP2515_CS_ON\r\nspi1(0x05);\r\nspi1(addr);\r\nspi1(mask);\r\nspi1(data);\r\nMCP2515_CS_OFF\r\n} \r\n\r\n//-----------------------------------------------\r\nchar mcp2515_read_status(void)\r\n{ \r\nchar temp;\r\n//#asm(\"cli\")\r\nspi1_config_mcp2515(); \r\nMCP2515_CS_ON\r\ndelay_us(1);\r\nspi1(0xa0);\r\ntemp=spi1(0x55);\r\nMCP2515_CS_OFF\r\n//#asm(\"sei\") \r\nreturn temp; \r\n}\r\n\r\n//-----------------------------------------------\r\nvoid mcp2515_rts(char in)\r\n{\r\n//#asm(\"cli\")\r\nspi1_config_mcp2515(); \r\nMCP2515_CS_ON\r\nif(in==0) in=0x81;\r\nelse if(in==1) in=0x82;\r\nelse if(in==2) in=0x84;\r\nspi1(in);\r\nMCP2515_CS_OFF\r\n//#asm(\"sei\") \r\n}\r\n\r\n//-----------------------------------------------\r\nvoid can_mcp2515_init(void)\r\n{\r\nchar spi_temp; \r\n\r\nmcp2515_reset();\r\nspi_temp=mcp2515_read(CANSTAT);\r\nif((spi_temp&0xe0)!=0x80)\r\n\t{\r\n\tmcp2515_bit_modify(CANCTRL,0xe0,0x80);\r\n\t}\r\ndelay_us(10);\t\t\r\nmcp2515_write(CNF1,CNF1_init);\r\nmcp2515_write(CNF2,CNF2_init);\r\nmcp2515_write(CNF3,CNF3_init);\r\n\r\nmcp2515_write(RXB0CTRL,0x20/0b00100000/);\r\nmcp2515_write(RXB1CTRL,0x20/0b00100000/);\r\n\r\ndelay_ms(10);\r\n\r\nmcp2515_write(RXM0SIDH, 0xFF); \r\nmcp2515_write(RXM0SIDL, 0xFF); \r\nmcp2515_write(RXF0SIDH, 0xFF); \r\nmcp2515_write(RXF0SIDL, 0xFF); \r\nmcp2515_write(RXF1SIDH, 0xFF);\r\nmcp2515_write(RXF1SIDL, 0xFF); \r\n\r\nmcp2515_write(RXM1SIDH, 0xff); \r\nmcp2515_write(RXM1SIDL, 0xe0); \r\n\r\nmcp2515_write(RXF2SIDH, 0x31); \r\nmcp2515_write(RXF2SIDL, 0xc0); \r\n\r\nmcp2515_write(RXF3SIDH, 0x00); \r\nmcp2515_write(RXF3SIDL, 0x00); \r\n\r\nmcp2515_write(RXF4SIDH, 0x00); \r\nmcp2515_write(RXF4SIDL, 0x00); \r\n\r\nmcp2515_write(RXF5SIDH, 0x00); \r\nmcp2515_write(RXF5SIDL, 0x00); \r\n\r\nmcp2515_write(TXB2SIDH, 0x13); \r\nmcp2515_write(TXB2SIDL, 0xc0); \r\n\r\nmcp2515_write(TXB1SIDH, 0x13); \r\nmcp2515_write(TXB1SIDL, 0xc0); \r\n\r\nmcp2515_write(TXB0SIDH, 0x13); \r\nmcp2515_write(TXB0SIDL, 0xc0); \r\n\r\n\r\n\r\nmcp2515_bit_modify(CANCTRL,0xe7,0x05/0b00000101/);\r\n\r\nmcp2515_write(CANINTE,0x06/0b00000110/);\r\ndelay_ms(100);\r\nmcp2515_write(BFPCTRL,0x00/0b00000000/); \r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid mcp2515_transmit(char data0,char data1,char data2,char data3,char data4,char data5,char data6,char data7)\r\n{\r\nif(/(mcp2515_buff_wr_ptr<0)\|\|/(mcp2515_buff_wr_ptr>7))mcp2515_buff_wr_ptr=0;\r\n\r\nmcp2515_out_buff[0][mcp2515_buff_wr_ptr]=data0;\r\nmcp2515_out_buff[1][mcp2515_buff_wr_ptr]=data1;\r\nmcp2515_out_buff[2][mcp2515_buff_wr_ptr]=data2;\r\nmcp2515_out_buff[3][mcp2515_buff_wr_ptr]=data3;\r\nmcp2515_out_buff[4][mcp2515_buff_wr_ptr]=data4;\r\nmcp2515_out_buff[5][mcp2515_buff_wr_ptr]=data5;\r\nmcp2515_out_buff[6][mcp2515_buff_wr_ptr]=data6;\r\nmcp2515_out_buff[7][mcp2515_buff_wr_ptr]=data7;\r\n\r\nmcp2515_buff_wr_ptr++;\r\nif(mcp2515_buff_wr_ptr>7)mcp2515_buff_wr_ptr=0;\r\n} \r\n\r\n//-----------------------------------------------\r\nvoid can_mcp2515_hndl(void)\r\n{\r\nunsigned char /temp,/j,temp_index,c_temp;\r\nstatic char ch_cnt;\r\n//#asm(\"cli\")\r\nmcp2515_can_st=mcp2515_read_status();\r\nmcp2515_can_st_old=mcp2515_can_st;\r\n\r\n\r\nif(mcp2515_can_st&0x02/0b00000010/)\r\n\t{\r\n\t\r\n\tfor(j=0;j<8;j++)\r\n\t\t{\r\n\t\t/MCP2515_/RXBUFF[j]=mcp2515_read(RXB1D0+j);\r\n\t\t}\r\n\t\r\n\tmcp2515_bit_modify(CANINTF,0x02 /0b00000010/ ,0x00);\r\n bMCP2515_IN=1;\r\n\t}\r\n \r\n \r\nelse if(/(can_st1&0b10101000)&&/(!(mcp2515_can_st&0x54/0b01010100/)))\r\n\t{\r\n\tchar n;\r\n mcp2515_bit_modify(CANINTF,0x1c/0b00011100/,0x00);\r\n \r\n if(mcp2515_buff_rd_ptr!=mcp2515_buff_wr_ptr)\r\n \t{\r\n//\t\tcan_plazma++;\r\n \tfor(n=0;n<8;n++)\r\n\t\t\t{ \r\n\t\t\tmcp2515_write(TXB0D0+n,mcp2515_out_buff[n][mcp2515_buff_rd_ptr]);\r\n\t\t\t} \r\n \t\tmcp2515_write(TXB0DLC,8);\r\n \t\tmcp2515_rts(0); \r\n \t\t\r\n \t\tmcp2515_buff_rd_ptr++;\r\n \t\tif(mcp2515_buff_rd_ptr>7)mcp2515_buff_rd_ptr=0;\r\n \t\t} \r\n \t} \t\r\n\t\t\r\n//#asm(\"sei\") \r\n}\r\n\r\n" }, { "alpha_fraction": 0.44075143337249756, "alphanum_fraction": 0.4595375657081604, "avg_line_length": 13.550561904907227, "blob_id": "e53ce03078fc5bc8ee12bb7ca61ca65a125d6b15", "content_id": "7cfbb864a0338658fa68a2935a349c5396e8b9bf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1384, "license_type": "no_license", "max_line_length": 62, "num_lines": 89, "path": "/SOFT/UKU/2rki/mess.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"global_define.h\"\r\n#include \"mess.h\"\r\n#include \"main.h\"\r\n\r\n\r\nchar mess[MESS_DEEP],mess_old[MESS_DEEP],mess_cnt[MESS_DEEP];\r\nint mess_par0[MESS_DEEP],mess_par1[MESS_DEEP],mess_data[2];\r\n\r\n\r\n//-----------------------------------------------\r\nvoid mess_hndl(void)\r\n{\r\nchar i;\r\nfor(i=0;i<MESS_DEEP;i++)\r\n\t{\r\n\tif((mess[i])&&(mess[i]==mess_old[i])&&(mess_cnt[i]))\r\n\t\t{\r\n\t\tmess_cnt[i]--;\r\n\t\tif(!mess_cnt[i])mess[i]=MESS_ZERO;\r\n\t\t\r\n\t\t}\r\n\tmess_old[i]=mess[i];\r\n\t} \r\n}\r\n\r\n//-----------------------------------------------\r\nvoid mess_send(char _mess, short par0, short par1, char _time)\r\n{\r\nchar i;\r\ni=0;\r\n\r\ndo\r\n\t{\r\n\ti++;\r\n\t}\r\nwhile((mess[i])&&(mess[i]!=_mess)&&(i<MESS_DEEP));\r\n\r\nmess[i]=_mess; \r\nmess_par0[i]=par0;\r\nmess_par1[i]=par1;\r\nmess_cnt[i]=_time; \r\n \r\n}\r\n\r\n//-----------------------------------------------\r\nchar mess_find(char _mess)\r\n{\r\nchar i;\r\ni=0;\r\n\r\ndo\r\n\t{\r\n\ti++;\r\n\t}\r\nwhile((mess[i]!=_mess)&&(i<MESS_DEEP));\r\n\r\nif(mess[i]==_mess)\r\n\t{ \r\n\tmess_data[0]=mess_par0[i]; \r\n\tmess_data[1]=mess_par1[i];\r\n\tmess[i]=MESS_ZERO;\r\n\tmess_cnt[i]=0;\r\n\treturn 1; \r\n\t}\r\nelse return 0; \r\n \r\n}\r\n\r\n//-----------------------------------------------\r\nchar mess_find_unvol(char _mess)\r\n{\r\nchar i;\r\ni=0;\r\n\r\ndo\r\n\t{\r\n\ti++;\r\n\t}\r\nwhile((mess[i]!=_mess)&&(i<MESS_DEEP));\r\n\r\nif(mess[i]==_mess)\r\n\t{ \r\n\tmess_data[0]=mess_par0[i]; \r\n\tmess_data[1]=mess_par1[i];\r\n\treturn 1; \r\n\t}\r\nelse return 0; \r\n \r\n}\r\n" }, { "alpha_fraction": 0.6366279125213623, "alphanum_fraction": 0.7563953399658203, "avg_line_length": 33.79166793823242, "blob_id": "28a1a9a90c6c38c744cc7e095b2c4bedcc49ec3d", "content_id": "16b441da915700608596b35f9b45b211eaa79ec8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 2044, "license_type": "no_license", "max_line_length": 94, "num_lines": 48, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/sc16is7xx.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#include \"stdint.h\"\r\n\r\n#define CS16IS7xx_RHR\t0x00\r\n#define CS16IS7xx_THR\t0x00\r\n#define CS16IS7xx_IER\t0x01\r\n#define CS16IS7xx_IIR\t0x02\r\n#define CS16IS7xx_FCR\t0x02\r\n#define CS16IS7xx_LCR\t0x03\r\n#define CS16IS7xx_MCR\t0x04\r\n#define CS16IS7xx_LSR\t0x05\r\n#define CS16IS7xx_SPR\t0x07\r\n#define CS16IS7xx_TXLVL\t0x08\r\n#define CS16IS7xx_RXLVL\t0x09\r\n#define CS16IS7xx_EFCR\t0x0f\r\n\r\n\r\n#define CS16IS7xx_DLL\t0x00\r\n#define CS16IS7xx_DLH\t0x01\r\n#define CS16IS7xx_EFR\t0x02\r\n\r\n#define sc16is700_CS_ON LPC_GPIO0->FIODIR\|=(1<<0);LPC_GPIO0->FIOCLR\|=(1<<0);\r\n#define sc16is700_CS_OFF LPC_GPIO0->FIODIR\|=(1<<0);LPC_GPIO0->FIOSET\|=(1<<0);\r\n\r\n//Размер программного буфера передачи\r\n#define TX_BUFFER_SIZE_SC16IS700\t32\r\n\r\n//Длительность в миллисекундах свободности ФИФО передачи для возможности начала новой передачи\r\n#define SC16IS700TXFIFOEMPTYCNTMAX\t\t5\r\n\r\nextern char sc16is700ByteAvailable;\r\nextern char sc16is700TxFifoLevel;\r\nextern char tx_buffer_sc16is700[TX_BUFFER_SIZE_SC16IS700]; //программный буфер передачи\r\nextern char tx_wr_index_sc16is700;//указатель записи в программный буфер передачи\r\nextern char tx_rd_index_sc16is700;//указатель чтения из программного буфера передачи\r\nextern char sc16is700TxFifoEmptyCnt; //Временной счетчик свободности ФИФО передачи\r\nextern char sc16is700TxPossibleFlag;//Флаг возможности передачи\r\n\r\nextern char sc16is700_spi_init_cnt;\r\n\r\n\r\nvoid sc16is700_init(uint32_t baudrate);\r\nvoid sc16is700_wr_byte(char reg_num,char data);\r\nchar sc16is700_rd_byte(char reg_num);\r\n//----------------------------------------------- \r\n//Отправка num байт из программного буфера передачи в sc16is700\r\nvoid sc16is700_wr_buff(char reg_num,char num);\r\nvoid putchar_sc16is700(char out_byte);\r\nvoid sc16is700_uart_hndl(void);\r\n\r\n" }, { "alpha_fraction": 0.5997120141983032, "alphanum_fraction": 0.6011518836021423, "avg_line_length": 31.878047943115234, "blob_id": "bd5dc00b35587c5e6a2d487fd2bd7e2500330d79", "content_id": "86566111bb6fc1cdefa3f123a6f462b2d7ff85d2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1389, "license_type": "no_license", "max_line_length": 68, "num_lines": 41, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/curr_version.py", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\r\n\r\nimport re\r\nfrom datetime import datetime\r\n\r\nsource_file = 'curr_version.c'\r\nnow=datetime.now()\r\n\r\nbuild_string = 'const short BUILD = {};'\r\nbuild_re = re.compile(build_string.format('(\\d+)'))\r\n\r\nbuild_year_string = 'const short BUILD_YEAR = {};'\r\nbuild_year_re = re.compile(build_year_string.format('(\\d+)'))\r\n\r\nbuild_month_string = 'const short BUILD_MONTH = {};'\r\nbuild_month_re = re.compile(build_month_string.format('(\\d+)'))\r\n\r\nbuild_day_string = 'const short BUILD_DAY = {};'\r\nbuild_day_re = re.compile(build_day_string.format('(\\d+)'))\r\n\r\ndata = []\r\nwith open(source_file) as f:\r\n for line in f:\r\n match_build = build_re.search(line)\r\n match_build_year = build_year_re.search(line)\r\n match_build_month = build_month_re.search(line)\r\n match_build_day = build_day_re.search(line)\r\n if match_build:\r\n build = int(match_build.group(1))\r\n data.append(build_string.format(build + 1) + '\\n')\r\n elif match_build_year:\r\n data.append(build_year_string.format(now.year) + '\\n')\r\n elif match_build_month:\r\n data.append(build_month_string.format(now.month) + '\\n')\r\n elif match_build_day:\r\n data.append(build_day_string.format(now.day) + '\\n')\r\n else:\r\n data.append(line)\r\n\r\nwith open(source_file, 'w') as f:\r\n f.write(''.join(data))\r\n" }, { "alpha_fraction": 0.67173832654953, "alphanum_fraction": 0.7170026898384094, "avg_line_length": 65.46154022216797, "blob_id": "a80b5b339bde102a6a65c1725541b62c7024c821", "content_id": "358a880bc10dd344d6bbcc7fe5d1a1f81463e5e8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 2629, "license_type": "no_license", "max_line_length": 119, "num_lines": 39, "path": "/SOFT/UKU/2/eeprom_map.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"eeprom_map.h\"\r\n\r\n\r\nconst unsigned short ADR_EE_BAT_ZAR_CNT[2]={EE_BAT1_ZAR_CNT,EE_BAT2_ZAR_CNT};\r\nconst unsigned short ADR_EE_BAT_ZAR_CNT_KE[2]={EE_BAT1_ZAR_CNT_KE,EE_BAT2_ZAR_CNT_KE};\r\nconst unsigned short ADR_EE_BAT_C_NOM[2]={EE_BAT1_C_NOM,EE_BAT2_C_NOM};\r\nconst unsigned short ADR_EE_BAT_YEAR_OF_ON[2]={EE_BAT1_YEAR_OF_ON,EE_BAT2_YEAR_OF_ON};\r\nconst unsigned short ADR_EE_BAT_IS_ON[2]={EE_BAT1_IS_ON,EE_BAT2_IS_ON};\r\nconst unsigned short ADR_EE_BAT_DAY_OF_ON[2]={EE_BAT1_DAY_OF_ON,EE_BAT2_DAY_OF_ON};\r\nconst unsigned short ADR_EE_BAT_MONTH_OF_ON[2]={EE_BAT1_MONTH_OF_ON,EE_BAT2_MONTH_OF_ON};\r\nconst unsigned short ADR_EE_BAT_RESURS[2]={EE_BAT1_RESURS,EE_BAT2_RESURS};\r\nconst unsigned short ADR_EE_BAT_C_REAL[2]={EE_BAT1_C_REAL,EE_BAT2_C_REAL};\r\n//const unsigned short ADR_EE_BAT_TYPE[2]={EE_BAT1_TYPE,EE_BAT2_TYPE};\r\nconst unsigned short ADR_KUBAT[2]={EE_KUBAT1,EE_KUBAT2};\r\nconst unsigned short ADR_KUBATM[2]={EE_KUBATM1,EE_KUBATM2};\r\nconst unsigned short ADR_KI0BAT[2]={EE_KI0BAT1,EE_KI0BAT2};\r\nconst unsigned short ADR_KI1BAT[2]={EE_KI1BAT1,EE_KI1BAT2};\r\nconst unsigned short ADR_KTBAT[2]={EE_KTBAT1,EE_KTBAT2};\r\n\r\n\r\nconst unsigned short ADR_TMAX_EXT_EN[3]={EE_TMAX_EXT_EN0,EE_TMAX_EXT_EN1,EE_TMAX_EXT_EN2};\r\nconst unsigned short ADR_TMAX_EXT[3]={EE_TMAX_EXT0,EE_TMAX_EXT1,EE_TMAX_EXT2};\r\nconst unsigned short ADR_TMIN_EXT_EN[3]={EE_TMIN_EXT_EN0,EE_TMIN_EXT_EN1,EE_TMIN_EXT_EN2};\r\nconst unsigned short ADR_TMIN_EXT[3]={EE_TMIN_EXT0,EE_TMIN_EXT1,EE_TMIN_EXT2};\r\nconst unsigned short ADR_T_EXT_REL_EN[3]={EE_T_EXT_REL_EN0,EE_T_EXT_REL_EN1,EE_T_EXT_REL_EN2};\r\nconst unsigned short ADR_T_EXT_ZVUK_EN[3]={EE_T_EXT_ZVUK_EN0,EE_T_EXT_ZVUK_EN1,EE_T_EXT_ZVUK_EN2};\r\nconst unsigned short ADR_T_EXT_LCD_EN[3]={EE_T_EXT_LCD_EN0,EE_T_EXT_LCD_EN1,EE_T_EXT_LCD_EN2};\r\nconst unsigned short ADR_T_EXT_RS_EN[3]={EE_T_EXT_RS_EN0,EE_T_EXT_RS_EN1,EE_T_EXT_RS_EN2};\r\n\r\nconst unsigned short ADR_SK_SIGN[4]={EE_SK_SIGN0,EE_SK_SIGN1,EE_SK_SIGN2,EE_SK_SIGN3};\r\nconst unsigned short ADR_SK_REL_EN[4]={EE_SK_REL_EN0,EE_SK_REL_EN1,EE_SK_REL_EN2,EE_SK_REL_EN3};\r\nconst unsigned short ADR_SK_ZVUK_EN[4]={EE_SK_ZVUK_EN0,EE_SK_ZVUK_EN1,EE_SK_ZVUK_EN2,EE_SK_ZVUK_EN3};\r\nconst unsigned short ADR_SK_LCD_EN[4]={EE_SK_LCD_EN0,EE_SK_LCD_EN1,EE_SK_LCD_EN2,EE_SK_LCD_EN3};\r\nconst unsigned short ADR_SK_RS_EN[4]={EE_SK_RS_EN0,EE_SK_RS_EN1,EE_SK_RS_EN2,EE_SK_RS_EN3};\r\n\r\nconst unsigned short ADR_EE_RELE_SET_MASK[4]={EE_RELE_SET_MASK0,EE_RELE_SET_MASK1,EE_RELE_SET_MASK2,EE_RELE_SET_MASK3};\r\n\r\nconst unsigned short EE_BAT_ZAR_CNT[2]={EE_BAT1_ZAR_CNT,EE_BAT2_ZAR_CNT};\r\nconst unsigned short EE_AMPER_CHAS_CNT_ADR[2]={EE_AMPER_CHAS_CNT1,EE_AMPER_CHAS_CNT2};" }, { "alpha_fraction": 0.35257890820503235, "alphanum_fraction": 0.3718244731426239, "avg_line_length": 13.740740776062012, "blob_id": "93ca84ff9b76a2ef02fbac346027f6c738b5185d", "content_id": "080df041aa1d49a308ff1a718e457d3649878549", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1299, "license_type": "no_license", "max_line_length": 49, "num_lines": 81, "path": "/SOFT/UKU/Олег-2021.02.12/ret.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"global_define.h\"\r\n#include \"main.h\"\r\n#include \"ret.h\"\r\n#include \"common_func.h\"\r\n\r\nchar retind,retsub,retindsec;\r\nint retcnt,retcntsec;\r\nunsigned char f0,fc0,f1,fc1;\r\nshort ret_duty;\r\n\r\n\r\n//-----------------------------------------------\r\nvoid ret_ind(char r_i,char r_s,int r_c)\r\n{\r\nretcnt=r_c;\r\nretind=r_i;\r\nretsub=r_s;\r\n} \r\n\r\n//-----------------------------------------------\r\nvoid ret_ind_hndl(void)\r\n{\r\nif(retcnt)\r\n\t{\r\n\tif((--retcnt)==0)\r\n\t\t{\r\n \t\tind=(i_enum)retind;\r\n \t\tsub_ind=retsub;\r\n \t\tindex_set=sub_ind;\r\n \t\tf0=0;\r\n \t\tfc0=0;\r\n \t\tf1=0;\r\n \t\tfc1=0;\r\n\t \t}\r\n }\r\n} \r\n\r\n\r\n \r\n//---------------------------------------------\r\nvoid ret_ind_sec(char r_i,int r_c)\r\n{\r\nretcntsec=r_c;\r\nretindsec=r_i;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid ret_ind_sec_hndl(void)\r\n{\r\nif(retcntsec)\r\n \t{\r\n\tif((--retcntsec)==0)\r\n\t \t{\r\n \t\tind=(i_enum)retindsec;\r\n \t\tsub_ind=0;\r\n \t\tf0=0;\r\n \t\tfc0=0;\r\n \t\tf1=0;\r\n \t\tfc1=0; \t\t\r\n\t \t}\r\n \t}\t\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid ret(short duty)\r\n{\r\nret_duty=duty;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid ret_hndl(void)\r\n{\r\nif(ret_duty)\r\n {\r\n ret_duty--;\r\n if(!ret_duty)\r\n {\r\n tree_down(0,0);\r\n }\r\n }\r\n}\r\n\r\n\r\n \r\n \r\n \r\n\r\n" }, { "alpha_fraction": 0.6351351141929626, "alphanum_fraction": 0.7297297120094299, "avg_line_length": 29.14285659790039, "blob_id": "ac2543e22ee5c043281e6ef6df5d8d26ae1bb109", "content_id": "9f973a061e6422ebb1d696c3a0c383b0405229c0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 222, "license_type": "no_license", "max_line_length": 33, "num_lines": 7, "path": "/SOFT/UKU/RKI/simbols.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\n\r\nextern const char sAVNET[150];\r\nextern const char sAVNET1[150];\r\nextern const char sBPS1[30];\r\nextern const char sBPS2[30];\r\nextern const char sAVT[30];\r\nextern const char sAVU[30];\r\nextern const char caracter[1536];\r\n" }, { "alpha_fraction": 0.4651961922645569, "alphanum_fraction": 0.5155176520347595, "avg_line_length": 20.2216739654541, "blob_id": "6d8a291c1cd33e5bbc5e741cd2a579a401a69575", "content_id": "01a897630a7795b75370200e960d7ebdd0a1b6f9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 9022, "license_type": "no_license", "max_line_length": 162, "num_lines": 406, "path": "/SOFT/UKU/RKI/graphic.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"graphic.h\"\r\n#include <LPC17XX.H> \r\n#include \"main.h\"\r\n#include \"simbols.h\"\r\n\r\n//-----------------------------------------------\r\nvoid draw(signed short x_b,signed short y_b,signed short x_o,signed short y_o,char inverse)\r\n{\r\nunsigned short num_byte;\r\n//signed short byte_offset;\r\n//unsigned short x_target;\r\nunsigned short i;\r\nchar num_bite;\r\nunsigned short y_begin,y_bit_begin;\r\nunsigned short y_target,y_bit_target;\r\nif((y_b<0)\|\|(y_b>31)) return;\r\n/if((x_b<0)\|\|(x_b>121)) return;\r\n\r\nif(((x_b+x_o)<0)\|\|((x_b+x_o)>121)) return;\r\nif(((y_b+y_o)<0)\|\|((y_b+y_o)>31)) return;\r\nif(y_o&&x_o) return;/\r\n\r\nif(x_o)\r\n\t{\r\n\tnum_byte=366-(122(y_b/8))+(x_b);\r\n\t//x_target\r\n\t//byte_offset=x_o;\r\n\tnum_bite=7-(y_b%8);\r\n\tif(x_o>0)\r\n\t\t{\r\n\t\tfor(i=num_byte;i<(num_byte+x_o);i++)\r\n\t\t\t{\r\n\t\t\tif(!inverse)lcd_bitmap[i]\|=(1<<num_bite);\r\n\t\t\telse if(inverse==1) lcd_bitmap[i]^=(1<<num_bite);\r\n\t\t\telse if(inverse==2) lcd_bitmap[i]&=((1<<num_bite)&0xff);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(x_o<0)\r\n\t\t{\r\n\t\tfor(i=num_byte;i>(num_byte+x_o);i--)\r\n\t\t\t{\r\n\t\t\tif(!inverse)lcd_bitmap[i]\|=(1<<num_bite);\r\n\t\t\telse if(inverse==1) lcd_bitmap[i]^=(1<<num_bite);\r\n\t\t\telse if(inverse==2) lcd_bitmap[i]&=((1<<num_bite)&0xff);\r\n\t\t\t}\r\n\t\t}\t\t\r\n\t}\r\nelse if(y_o)\r\n\t{\r\n\tnum_byte=366-(122(y_b/8))+(x_b);\r\n\ty_begin=y_b/8;\r\n\ty_target=(y_b+y_o)/8;\r\n\ty_bit_begin=y_b%8;\r\n\ty_bit_target=(y_b+y_o)%8;\t\r\n\t\r\n\tif(y_o>0)\r\n\t\t{\r\n\t\t\r\n\t\tif(y_begin==y_target)\r\n\t\t\t{\r\n\t\t\tfor(i=y_bit_begin;i<y_bit_target;i++)\r\n\t\t\t\t{\r\n\t\t\t\tif(!inverse)lcd_bitmap[x_b+(122(3-y_begin))]\|=(1<<(7-i));\r\n\t\t\t\telse if(inverse==1) lcd_bitmap[x_b+(122(3-y_begin))]^=(1<<(7-i));\r\n\t\t\t\telse if(inverse==2) lcd_bitmap[x_b+(122(3-y_begin))]&=((1<<(7-i))^0xff);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tif(!inverse)lcd_bitmap[x_b+(122(3-y_begin))]\|=(0xff>>y_bit_begin);\r\n\t\t\telse if(inverse==1) lcd_bitmap[x_b+(122(3-y_begin))]^=(0xff>>y_bit_begin);\r\n\t\t\telse if(inverse==2) lcd_bitmap[x_b+(122(3-y_begin))]&=((0xff>>y_bit_begin)^0xff);\r\n\t\t\t\r\n\t\t\tif(!inverse)lcd_bitmap[x_b+(122(3-y_target))]\|=(0xff<<(8-y_bit_target));\r\n\t\t\telse if(inverse==1) lcd_bitmap[x_b+(122(3-y_target))]^=(0xff<<(8-y_bit_target));\r\n\t\t\telse if(inverse==2) lcd_bitmap[x_b+(122(3-y_target))]&=((0xff<<(8-y_bit_target))^0xff);\r\n\t\t\t\r\n\t\t\tif((y_target-y_begin)>1)\r\n\t\t\t\t{\r\n\t\t\t\tfor(i=y_begin+1;i<y_target;i++)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif(!inverse)lcd_bitmap[x_b+(122(3-i))]\|=0xff;\r\n\t\t\t\t\telse if(inverse==1) lcd_bitmap[x_b+(122(3-i))]^=0xff;\r\n\t\t\t\t\telse if(inverse==2) lcd_bitmap[x_b+(122(3-i))]&=0;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t}\t\r\n\t\t\r\n\t\t}\t\r\n\tif(y_o<0)\r\n\t\t{\r\n\t\t\r\n\t\tif(y_begin==y_target)\r\n\t\t\t{\r\n\t\t\tfor(i=y_bit_begin-1;i>=y_bit_target;i--)\r\n\t\t\t\t{\r\n\t\t\t\tif(!inverse)lcd_bitmap[x_b+(122(3-y_begin))]\|=(1<<(7-i));\r\n\t\t\t\telse if(inverse==1) lcd_bitmap[x_b+(122(3-y_begin))]^=(1<<(7-i));\r\n\t\t\t\telse if(inverse==2) lcd_bitmap[x_b+(122(3-y_begin))]&=((1<<(7-i))^0xff);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tif(!inverse)lcd_bitmap[x_b+(122(3-y_begin))]\|=(0xff<<(8-y_bit_begin));\r\n\t\t\telse if(inverse==1) lcd_bitmap[x_b+(122(3-y_begin))]^=(0xff<<(8-y_bit_begin));\r\n\t\t\telse if(inverse==2) lcd_bitmap[x_b+(122(3-y_begin))]&=((0xff<<(8-y_bit_begin))^0xff);\r\n\t\t\t\r\n\t\t\tif(!inverse)lcd_bitmap[x_b+(122(3-y_target))]\|=(0xff>>y_bit_target);\r\n\t\t\telse if(inverse==1) lcd_bitmap[x_b+(122(3-y_target))]^=(0xff>>y_bit_target);\r\n\t\t\telse if(inverse==2) lcd_bitmap[x_b+(122(3-y_target))]&=((0xff>>y_bit_target)^0xff);\r\n\t\t\t\r\n\t\t\tif((y_begin-y_target)>1)\r\n\t\t\t\t{\r\n\t\t\t\tfor(i=y_begin-1;i>y_target;i--)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif(!inverse)lcd_bitmap[x_b+(122(3-i))]\|=0xff;\r\n\t\t\t\t\telse if(inverse==1) lcd_bitmap[x_b+(122(3-i))]^=0xff;\r\n\t\t\t\t\telse if(inverse==2) lcd_bitmap[x_b+(122(3-i))]&=0;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t}\t\r\n\t\t\r\n\t\t}\t\t\t\r\n\t}\t\r\n}\t\r\n//---------------------------------------------\r\nvoid draw_rectangle(signed short x_b,signed short y_b,signed short x_o,signed short y_o,char solid,char inverse)\r\n{\r\n\r\nsigned short i;\r\n/draw(x_b,y_b,0,y_o,inverse);\r\ndraw(x_b,y_b+y_o,x_o,0,inverse);\r\ndraw(x_b+x_o,y_b+y_o,0,-y_o,inverse);\r\ndraw(x_b+x_o,y_b,-x_o,0,inverse);/\r\n\r\nif(solid)\r\n\t{\r\n\tfor(i=x_b;i<=(x_b+x_o);i++)\r\n\t\t{\r\n\t\tdraw(i,y_b,0,y_o,inverse);\r\n\t\t}\r\n\t}\r\nelse\r\n\t{\r\n\tdraw(x_b,y_b,0,y_o,inverse);\r\n\tdraw(x_b,y_b+y_o-1,x_o,0,inverse);\r\n\tdraw(x_b+x_o-1,y_b+y_o,0,-y_o,inverse);\r\n\tdraw(x_b+x_o-1,y_b,-x_o,0,inverse);\t\r\n\t}\t\r\n\r\n}\r\n\r\n//---------------------------------------------\r\nvoid draw_ptr(char x_b,char y_b,char ptr,char vol)\r\n{\r\nchar i;\r\nif(ptr==0)\r\n\t{\r\n\tfor(i=0;i<vol;i++)\r\n\t\t{\r\n\t\tdraw(x_b,y_b+i,-(vol-i),0,0);\r\n\t\tdraw(x_b,y_b+i,(vol-i),0,0);\r\n\t\t}\r\n\t}\r\nelse if(ptr==2)\r\n\t{\r\n\tfor(i=0;i<vol;i++)\r\n\t\t{\r\n\t\tdraw(x_b,y_b-i,-(vol-i),0,0);\r\n\t\tdraw(x_b,y_b-i,(vol-i),0,0);\r\n\t\t}\r\n\t}\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid plot(signed short x_b,signed short y_b,unsigned long data,signed short len,char inverse)\r\n{\r\n//unsigned short num_byte;\r\n//signed short byte_offset;\r\n//unsigned short x_target;\r\n//unsigned short i;\r\nchar num_bite;\r\nunsigned short /y_begin/y_bit_begin;\r\n//unsigned short y_target,y_bit_target;\r\nunsigned long data1/,data2/;\r\nchar data1_0,data1_1,data1_2,data1_3;\r\n\r\ndata1=0xffffffffUL;\r\ndata1<<=(32-len);\r\ndata1&=data;\r\ndata1=data1>>y_b;\r\n\r\ndata1_0=((char)&data1);\r\ndata1_1=(((char)&data1)+1);\r\ndata1_2=(((char)&data1)+2);\r\ndata1_3=(((char)&data1)+3);\r\n\r\nif(!inverse)\r\n\t{\r\n\tlcd_bitmap[x_b]\|=data1_0;\r\n\tlcd_bitmap[122+x_b]\|=data1_1;\r\n\tlcd_bitmap[244+x_b]\|=data1_2;\r\n\tlcd_bitmap[366+x_b]\|=data1_3;\r\n\t}\r\nelse if(inverse)\r\n\t{\r\n\tlcd_bitmap[x_b]^=data1_0;\r\n\tlcd_bitmap[122+x_b]^=data1_1;\r\n\tlcd_bitmap[244+x_b]^=data1_2;\r\n\tlcd_bitmap[366+x_b]^=data1_3;\r\n\t}\r\n\r\n}\t\r\n\r\n\r\n//-----------------------------------------------\r\nvoid graphic_print(signed short x_b,signed short y_b,signed short x_l,signed short y_l,signed short x_d,signed short y_d,const char adress,char inverse)\r\n{\r\nsigned short i;\r\n\r\nfor(i=0;i<x_l;i++)\r\n\t{\r\n\tlong data;\r\n\t\r\n\t(((char)&data)+3)=adress[(iy_d)+y_d-1];\r\n\t(((char)&data)+2)=adress[(iy_d)+y_d-2];\r\n\t(((char)&data)+1)=adress[(iy_d)+y_d-3];\r\n\t((char)&data)=adress[(iy_d)+y_d-4];\r\n\t\r\n\t//data=0x08000000;\r\n\t\r\n\tplot(x_b+i,y_b,data,y_l,inverse);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid graphic_print_text(signed short x_b,signed short y_b,const char* bgnd,signed short num,signed short data,signed short des,signed short pos,char inverse)\r\n{\r\nsigned short i;\r\nchar buffer[10];\r\nchar bitmap_buffer[60];\r\nfor(i=0;i<10;i++)\r\n\t{\r\n\tbuffer[i]=' ';\r\n\t}\r\nfor(i=0;i<num;i++)\r\n\t{\r\n\tbuffer[i]=bgnd[i];\r\n\t}\t\r\n\t\r\n{\t\r\nsigned char i;\r\n//char n;\r\nchar s[10];\r\nchar minus='+';\r\nchar zero_on;\r\nchar simb_num;\r\n\r\nif(data<0)\r\n\t{\r\n\tdata=-data;\r\n\tminus='-';\r\n\t}\r\n\r\nfor(i=0;i<10;i++)\r\n\t{\r\n\ts[i]=data%10;\r\n\tdata/=10;\r\n\t} \r\n\r\nzero_on=1;\r\nsimb_num=0;\r\n\r\nfor (i=9;i>=0;i--)\r\n\t{\r\n\tif(zero_on&&(!s[i])&&(i>(des)))\r\n\t {\r\n\t s[i]=0x20;\r\n\t }\r\n\telse \r\n\t {\r\n\t s[i]=s[i]+0x30;\r\n\t zero_on=0;\r\n\t simb_num++;\r\n\t }\r\n\t }\r\n\t \r\nif(minus=='-')\t\r\n {\r\n s[simb_num++]=minus; \r\n } \r\nif(des)\r\n {\r\n for(i=simb_num;i>des;i--)\r\n {\r\n s[i]=s[i-1];\r\n }\r\n s[des]='.';\r\n simb_num++; \r\n }\r\n\t\r\nfor (i=0;i<simb_num;i++)\r\n\t{\r\n buffer[pos-1-i]=s[i];\r\n\t}\r\n}\t\r\n\t\r\n\t\t\r\nfor(i=0;i<num;i++)\r\n\t{\r\n\tbitmap_buffer[(6i)+0]=caracter[(unsigned)buffer[i]6];\r\n\tbitmap_buffer[(6i)+1]=caracter[((unsigned)buffer[i]6)+1];\r\n\tbitmap_buffer[(6i)+2]=caracter[((unsigned)buffer[i]6)+2];\r\n\tbitmap_buffer[(6i)+3]=caracter[((unsigned)buffer[i]6)+3];\r\n\tbitmap_buffer[(6i)+4]=caracter[((unsigned)buffer[i]6)+4];\r\n\tbitmap_buffer[(6i)+5]=caracter[((unsigned)buffer[i]6)+5];\r\n\t}\r\nfor(i=0;i<(num6);i++)\r\n\t{\r\n\tlong data;\r\n\t\r\n\t(((char)&data)+3)=bitmap_buffer[i];\r\n\t\r\n\t//data=0x08000000;\r\n\t\r\n\tplot(x_b+i,y_b,data,8,inverse);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid graphic_print_text_text(signed short x_b,signed short y_b,const char bgnd,signed short num,signed short data,signed short des,signed short pos,char inverse)\r\n{\r\nsigned short i;\r\nchar buffer[10];\r\nchar bitmap_buffer[60];\r\nfor(i=0;i<10;i++)\r\n\t{\r\n\tbuffer[i]=' ';\r\n\t}\r\nfor(i=0;i<num;i++)\r\n\t{\r\n\tbuffer[i]=bgnd[i];\r\n\t}\t\r\n\t\r\n{\t\r\nsigned char i;\r\n//char n;\r\nchar s[10];\r\nchar minus='+';\r\nchar zero_on;\r\nchar simb_num;\r\n\r\nif(data<0)\r\n\t{\r\n\tdata=-data;\r\n\tminus='-';\r\n\t}\r\n\r\nfor(i=0;i<10;i++)\r\n\t{\r\n\ts[i]=data%10;\r\n\tdata/=10;\r\n\t} \r\n\r\nzero_on=1;\r\nsimb_num=0;\r\n/\r\nfor (i=9;i>=0;i--)\r\n\t{\r\n\tif(zero_on&&(!s[i])&&(i>(des)))\r\n\t {\r\n\t s[i]=0x20;\r\n\t }\r\n\telse \r\n\t {\r\n\t s[i]=s[i]+0x30;\r\n\t zero_on=0;\r\n\t simb_num++;\r\n\t }\r\n\t }\r\n\t \r\n\t\r\n/\r\n}\t\r\n\t\r\n\t\t\r\nfor(i=0;i<num;i++)\r\n\t{\r\n\tbitmap_buffer[(6i)+0]=caracter[(unsigned)buffer[i]6];\r\n\tbitmap_buffer[(6i)+1]=caracter[((unsigned)buffer[i]6)+1];\r\n\tbitmap_buffer[(6i)+2]=caracter[((unsigned)buffer[i]6)+2];\r\n\tbitmap_buffer[(6i)+3]=caracter[((unsigned)buffer[i]6)+3];\r\n\tbitmap_buffer[(6i)+4]=caracter[((unsigned)buffer[i]6)+4];\r\n\tbitmap_buffer[(6i)+5]=caracter[((unsigned)buffer[i]6)+5];\r\n\t}\r\nfor(i=0;i<(num6);i++)\r\n\t{\r\n\tlong data;\r\n\t\r\n\t(((char)&data)+3)=bitmap_buffer[i];\r\n\t\r\n\t//data=0x08000000;\r\n\t\r\n\tplot(x_b+i,y_b,data,8,inverse);\r\n\t}\r\n}\r\n" }, { "alpha_fraction": 0.6831682920455933, "alphanum_fraction": 0.6831682920455933, "avg_line_length": 42.5, "blob_id": "418655451d5ddfe87fb17a1ce8499c85a93cc196", "content_id": "8b639c156268f51da178209de4926496702eb5d6", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 101, "license_type": "no_license", "max_line_length": 59, "num_lines": 2, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/watchdog.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\nvoid watchdog_init(unsigned long f,unsigned long time_out);\r\nvoid watchdog_reset(void);\r\n\r\n\r\n\r\n\r\n\r\n" }, { "alpha_fraction": 0.6401869058609009, "alphanum_fraction": 0.7056074738502502, "avg_line_length": 24.75, "blob_id": "29b570dd114ba1283031bcf6a1112136c4c51316", "content_id": "ae2595c141f237666fa40c01ef58bab00f868a0f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 214, "license_type": "no_license", "max_line_length": 34, "num_lines": 8, "path": "/SOFT/UKU/Олег-2021.02.12/curr_version.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"curr_version.h\"\r\n\r\nconst short HARDVARE_VERSION = 10;\r\nconst short SOFT_VERSION = 19;\r\nconst short BUILD = 823;\r\nconst short BUILD_YEAR = 2021;\r\nconst short BUILD_MONTH = 3;\r\nconst short BUILD_DAY = 23;\r\n" }, { "alpha_fraction": 0.6395972967147827, "alphanum_fraction": 0.7102800011634827, "avg_line_length": 37.141693115234375, "blob_id": "62f195a6902d5692ed6fbeecf244cb7a64a7c31e", "content_id": "c4555d90e2cfa648f864812b1d705d80468de81d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 26733, "license_type": "no_license", "max_line_length": 82, "num_lines": 614, "path": "/SOFT/UKU/Олег-2021.02.12/eeprom_map.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "\r\n#define EE_CAN_RESET_CNT\t0x06\r\n#define RESET_CNT\t0x08\r\n\r\n#define SECTOR_KOEF 0x10\r\n\t\t\t\t\t\t \r\n#define EE_KUBAT1\t\tSECTOR_KOEF\r\n#define EE_KUBAT2\t\tSECTOR_KOEF+2\r\n#define EE_KI0BAT1\t\tSECTOR_KOEF+4\r\n#define EE_KI0BAT2\t\tSECTOR_KOEF+6\r\n#define EE_KI1BAT1\t\tSECTOR_KOEF+8\r\n#define EE_KI1BAT2\t\tSECTOR_KOEF+10\r\n#define EE_KTBAT1\t\tSECTOR_KOEF+12\r\n#define EE_KTBAT2\t\tSECTOR_KOEF+14\r\n#define EE_KUNET \tSECTOR_KOEF+16\r\n#define EE_KFNET \tSECTOR_KOEF+18\r\n#define EE_KULOAD \tSECTOR_KOEF+20\r\n#define EE_KUNET_EXT0 SECTOR_KOEF+22\r\n#define EE_KUNET_EXT1 SECTOR_KOEF+24\r\n#define EE_KUNET_EXT2 SECTOR_KOEF+26\r\n#define EE_KUBATM1\t\tSECTOR_KOEF+28\r\n#define EE_KUBATM2\t\tSECTOR_KOEF+30\r\n#define EE_KVV0_EB2\t\tSECTOR_KOEF+32\r\n#define EE_KVV1_EB2\t\tSECTOR_KOEF+34\r\n#define EE_KVV2_EB2\t\tSECTOR_KOEF+36\r\n#define EE_KPES0_EB2\tSECTOR_KOEF+38\r\n#define EE_KPES1_EB2\tSECTOR_KOEF+40\r\n#define EE_KPES2_EB2\tSECTOR_KOEF+42\r\n#define EE_KUNETA \tSECTOR_KOEF+44\r\n#define EE_KUNETB \tSECTOR_KOEF+46\r\n#define EE_KUNETC \tSECTOR_KOEF+48\r\n#define EE_KUBPS \tSECTOR_KOEF+50\r\n#define EE_KUOUT \tSECTOR_KOEF+52\r\n#define EE_NUM_RKI \t\t\t\tSECTOR_KOEF+54\r\n#define EE_NUM_NET_IN\t\t\tSECTOR_KOEF+56\r\n\r\n#define SECTOR_SETS \tSECTOR_KOEF+100\r\n\r\n#define EE_MAIN_IST \tSECTOR_SETS+2\r\n#define EE_UMAX \t\tSECTOR_SETS+4\r\n#define EE_UB0 \t\tSECTOR_SETS+6\r\n#define EE_UB20 \t\tSECTOR_SETS+8\r\n#define EE_TMAX\t\tSECTOR_SETS+10\r\n#define EE_AV_OFF_AVT SECTOR_SETS+12\r\n#define EE_USIGN\t\tSECTOR_SETS+14\r\n#define EE_UMN\t\t\tSECTOR_SETS+16\r\n#define EE_ZV_ON\t\tSECTOR_SETS+18\r\n#define EE_IKB\t\t\tSECTOR_SETS+20\r\n#define EE_KVZ\t\t\tSECTOR_SETS+22\r\n#define EE_IMAX\t\tSECTOR_SETS+24\r\n#define EE_IMIN\t\tSECTOR_SETS+26\r\n#define EE_APV_ON\t\tSECTOR_SETS+28\r\n#define EE_IZMAX\t\tSECTOR_SETS+30\r\n#define EE_U0B\t\t\tSECTOR_SETS+32\r\n#define EE_TZAS\t\tSECTOR_SETS+34\r\n#define EE_NUMIST \t\tSECTOR_SETS+36\r\n#define EE_NUMINV \t\tSECTOR_SETS+38\r\n#define KI0SRC1 \tSECTOR_SETS+40\r\n#define KI0SRC2 \tSECTOR_SETS+42\r\n#define EE_APV_ON1 \tSECTOR_SETS+44\r\n#define EE_APV_ON2 \tSECTOR_SETS+46\r\n#define EE_APV_ON2_TIME SECTOR_SETS+48\r\n#define KT_EXT0\t\tSECTOR_SETS+50\r\n#define KT_EXT1\t\tSECTOR_SETS+52\r\n#define KT_EXT2\t\tSECTOR_SETS+54\r\n#define EE_AVZ_TIME\t\tSECTOR_SETS+56\r\n#define EE_HOUR_AVZ\t\tSECTOR_SETS+58\t\r\n#define EE_MIN_AVZ \tSECTOR_SETS+60\r\n#define EE_SEC_AVZ \tSECTOR_SETS+62\r\n#define EE_DATE_AVZ \tSECTOR_SETS+64\r\n#define EE_MONTH_AVZ\tSECTOR_SETS+66\r\n#define EE_YEAR_AVZ \tSECTOR_SETS+68\r\n#define EE_AVZ\t\t\tSECTOR_SETS+70\r\n#define EE_MNEMO_ON \tSECTOR_SETS+72\r\n#define EE_MNEMO_TIME \tSECTOR_SETS+74\r\n#define EE_VZ_HR\t\tSECTOR_SETS+76\r\n#define EE_TBAT SECTOR_SETS+78\r\n#define EE_U_AVT SECTOR_SETS+80\r\n#define EE_TSIGN\t\tSECTOR_SETS+82\r\n#define EE_DU\t\t\tSECTOR_SETS+84\r\n#define EE_PAR\t\t\tSECTOR_SETS+86\r\n#define EE_TBATMAX\t\tSECTOR_SETS+88\r\n#define EE_TBATSIGN\t\tSECTOR_SETS+90\r\n#define EE_TBOXMAX\t\tSECTOR_SETS+92\r\n#define EE_TBOXREG\t\tSECTOR_SETS+94\r\n#define EE_TBOXVENTMAX\tSECTOR_SETS+96\r\n#define EE_TLOADDISABLE\tSECTOR_SETS+98\r\n#define EE_TLOADENABLE\tSECTOR_SETS+100\r\n#define EE_TBATDISABLE\tSECTOR_SETS+102\r\n#define EE_TBATENABLE\tSECTOR_SETS+104\r\n#define EE_UVZ\t\t\tSECTOR_SETS+106\r\n#define EE_RELE_VENT_LOGIC\tSECTOR_SETS+108\r\n#define EE_TVENTON\t\tSECTOR_SETS+110\r\n#define EE_TVENTOFF\tSECTOR_SETS+112\t\r\n#define EE_RELEVENTSIGN\t SECTOR_SETS+114\r\n#define EE_NPN_OUT\t SECTOR_SETS+116\r\n#define EE_NPN_SIGN\t SECTOR_SETS+118\r\n#define EE_UONPN\t SECTOR_SETS+120\r\n#define EE_UVNPN\t SECTOR_SETS+122\r\n#define EE_TZNPN\t SECTOR_SETS+124\r\n#define EE_TERMOKOMP\t \tSECTOR_SETS+126\r\n#define EE_TBOXVENTON\t \tSECTOR_SETS+128\r\n#define EE_TBOXVENTOFF\t \tSECTOR_SETS+130\r\n#define EE_TBOXWARMON\t \tSECTOR_SETS+132 \r\n#define EE_TBOXWARMOFF\t \tSECTOR_SETS+134\r\n#define EE_NUMBYPASS\t \tSECTOR_SETS+136\r\n#define EE_TWARMON\t\t\tSECTOR_SETS+138\r\n#define EE_TWARMOFF\t\t\tSECTOR_SETS+140\r\n#define EE_BAT_TYPE\t\t\tSECTOR_SETS+142\r\n#define EE_TELECORE2015_KLIMAT_WARM_SIGNAL\tSECTOR_SETS+144\r\n#define EE_TELECORE2015_KLIMAT_WARM_ON\t\tSECTOR_SETS+146\r\n#define EE_TELECORE2015_KLIMAT_WARM_OFF\t\tSECTOR_SETS+148\r\n#define EE_TELECORE2015_KLIMAT_CAP\t\t\tSECTOR_SETS+150\r\n#define EE_TELECORE2015_KLIMAT_VENT_ON\t\tSECTOR_SETS+152\r\n#define EE_TELECORE2015_KLIMAT_VENT_OFF\t\tSECTOR_SETS+154\r\n#define EE_TELECORE2015_KLIMAT_VVENT_ON\t\tSECTOR_SETS+156\r\n#define EE_TELECORE2015_KLIMAT_VVENT_OFF\tSECTOR_SETS+158\r\n#define EE_TELECORE2015_KLIMAT_VENT_SIGNAL\tSECTOR_SETS+160\r\n#define EE_SPEED_CHRG_CURR\t\t \t\t\tSECTOR_SETS+162\r\n#define EE_SPEED_CHRG_VOLT\t\t \t\t\tSECTOR_SETS+164\r\n#define EE_SPEED_CHRG_TIME\t\t\t\t\tSECTOR_SETS+166\r\n#define EE_SPEED_CHRG_AVT_EN\t\t\t\tSECTOR_SETS+168\t\r\n#define EE_SPEED_CHRG_D_U\t\t\t\t\tSECTOR_SETS+170\r\n#define EE_SPEED_CHRG_BLOCK_SRC\t\t\t\tSECTOR_SETS+172\r\n#define EE_SPEED_CHRG_BLOCK_LOG\t\t\t\tSECTOR_SETS+174\r\n#define EE_DU_LI_BAT\t\t\t\t\t\tSECTOR_SETS+176\r\n#define EE_FORVARDBPSCHHOUR\t\t\t\t\tSECTOR_SETS+178\r\n#define EE_FORVBPSHOURCNT\t\t\t\t\tSECTOR_SETS+180\r\n#define EE_U_OUT_KONTR_MAX\t\t\t\t\tSECTOR_SETS+182\r\n#define EE_U_OUT_KONTR_MIN\t\t\t\t\tSECTOR_SETS+184\r\n#define EE_U_OUT_KONTR_DELAY\t\t\t\tSECTOR_SETS+186\r\n#define EE_DOP_RELE_FUNC\t\t\t\t\tSECTOR_SETS+188\r\n#define EE_IPS_BLOCK_SRC\t\t\t \t\tSECTOR_SETS+190\r\n#define EE_IPS_BLOCK_LOG\t\t\t\t\tSECTOR_SETS+192\r\n#define EE_NUMBAT_TELECORE\t\t\t\t\tSECTOR_SETS+194\r\n#define EE_CNTRL_HNDL_TIME\t\t\t\t\tSECTOR_SETS+196\r\n#define EE_USODERG_LI_BAT\t\t\t\t\tSECTOR_SETS+198\r\n#define EE_TELECORE2017_KLIMAT_WARM_SIGNAL\tEE_TELECORE2015_KLIMAT_WARM_SIGNAL\r\n#define EE_TELECORE2017_KLIMAT_VENT_SIGNAL\tEE_TELECORE2015_KLIMAT_VENT_SIGNAL\r\n#define EE_TELECORE2017_KLIMAT_WARM_ON\t\tEE_TELECORE2015_KLIMAT_WARM_ON\r\n#define EE_TELECORE2017_KLIMAT_WARM_OFF\t\tEE_TELECORE2015_KLIMAT_WARM_OFF\r\n#define EE_TELECORE2017_KLIMAT_CAP\t\t\tEE_TELECORE2015_KLIMAT_CAP\r\n#define EE_TELECORE2017_KLIMAT_VENT_ON0\t\tSECTOR_SETS+200\r\n#define EE_TELECORE2017_KLIMAT_VENT_ON20\tSECTOR_SETS+202\r\n#define EE_TELECORE2017_KLIMAT_VENT_ON40\tSECTOR_SETS+204\r\n#define EE_TELECORE2017_KLIMAT_VENT_ON60\tSECTOR_SETS+206\r\n#define EE_TELECORE2017_KLIMAT_VENT_ON80\tSECTOR_SETS+208\r\n#define EE_TELECORE2017_KLIMAT_VENT_ON100\tSECTOR_SETS+210\r\n#define EE_TELECORE2017_KLIMAT_DVENT_ON0\tSECTOR_SETS+212\r\n#define EE_TELECORE2017_KLIMAT_DVENT_ON20\tSECTOR_SETS+214\r\n#define EE_TELECORE2017_KLIMAT_DVENT_ON40\tSECTOR_SETS+216\r\n#define EE_TELECORE2017_KLIMAT_DVENT_ON60\tSECTOR_SETS+218\r\n#define EE_TELECORE2017_KLIMAT_DVENT_ON80\tSECTOR_SETS+220\r\n#define EE_TELECORE2017_KLIMAT_DVENT_ON100\tSECTOR_SETS+222\r\n#define EE_AUSW_MAIN \t\t\t\t\t\tSECTOR_SETS+224\r\n#define EE_AUSW_MAIN_NUMBER \t\t\t\tSECTOR_SETS+226 \r\n#define EE_AUSW_UKU_NUMBER\t\t\t\t\tSECTOR_SETS+228\r\n#define EE_RS485_QWARZ_DIGIT\t\t \t\tSECTOR_SETS+230\r\n#define EE_RELE_SET_MASK0\t\t\t\t\tSECTOR_SETS+232\r\n#define EE_RELE_SET_MASK1\t\t\t\t\tSECTOR_SETS+234\r\n#define EE_RELE_SET_MASK2\t\t\t\t\tSECTOR_SETS+236\r\n#define EE_RELE_SET_MASK3\t\t\t\t\tSECTOR_SETS+238\r\n#define EE_UVENTOFF\t\t\t\t\t\t\tSECTOR_SETS+240\r\n#define\tEE_VZ_KIND\t\t\t\t\t\t\tSECTOR_SETS+242\r\n#define EE_HV_VZ_STAT\t\t\t\t\t\tSECTOR_SETS+244\r\n#define EE_TELECORE2017_USTART\t\t\t\tSECTOR_SETS+246\r\n#define EE_dUNPN\t \t\t\t\t\t\tSECTOR_SETS+248\r\n//сюда больще не писать\r\n\r\n//#ifdef UKU_TELECORE2017\r\n#define EE_TELECORE2017_ULINECC\t\t\tEE_UB0\r\n#define EE_TELECORE2017_Q\t\t\t\tEE_MAIN_IST\t\r\n#define EE_TELECORE2017_IZMAX1\t\t\tEE_DU_LI_BAT\r\n#define EE_TELECORE2017_IZMAX2\t\t\tEE_MNEMO_ON\r\n#define EE_TELECORE2017_K1\t\t\t\tEE_UB20\r\n#define EE_TELECORE2017_K2\t\t\t\tEE_KVZ\t\r\n#define EE_TELECORE2017_K3\t\t\t\tEE_IZMAX\r\n#define EE_TELECORE2017_T4\t\t\t\tEE_NUMINV\r\n\r\n//#endif\r\n\r\n#define SECTOR_AUSW \t\tSECTOR_KOEF+300\r\n\r\n\r\n\r\n/#define EE_AUSW_UKU \t\tSECTOR_AUSW+4 \r\n#define EE_AUSW_UKU_SUB \t\tSECTOR_AUSW+6/\r\n\r\n/#define EE_AUSW_DAY\t\t\tSECTOR_AUSW+10\r\n#define EE_AUSW_MONTH\t\tSECTOR_AUSW+12\r\n#define EE_AUSW_YEAR\t\tSECTOR_AUSW+14\r\n#define EE_AUSW_BPS1_NUMBER\tSECTOR_AUSW+16\t\t\r\n#define EE_AUSW_BPS2_NUMBER\tSECTOR_AUSW+18\r\n#define EE_AUSW_RS232\t\tSECTOR_AUSW+20\r\n#define EE_AUSW_PDH\t\t\tSECTOR_AUSW+22\r\n#define EE_AUSW_SDH\t\t\tSECTOR_AUSW+24\r\n#define EE_AUSW_ETH\t\t\tSECTOR_AUSW+26 /\r\n\r\n#define SECTOR_SETS2 \t\t\t\t\tSECTOR_KOEF+350\r\n#define EE_QSODERG_LI_BAT\t\t\t\tSECTOR_SETS2\r\n#define EE_TVENTMAX\t\t\t\t\t\tSECTOR_SETS2+2\r\n#define EE_ICA_CH \t\t\t\t\t\tSECTOR_SETS2+4\r\n#define EE_ICA_EN\t\t\t\t\t\tSECTOR_SETS2+6\r\n#define EE_ICA_MODBUS_ADDRESS\t\t\tSECTOR_SETS2+8\r\n#define EE_ICA_MODBUS_TCP_IP1\t\t\tSECTOR_SETS2+10\r\n#define EE_ICA_MODBUS_TCP_IP2\t\t\tSECTOR_SETS2+12\r\n#define EE_ICA_MODBUS_TCP_IP3\t\t\tSECTOR_SETS2+14\r\n#define EE_ICA_MODBUS_TCP_IP4\t\t\tSECTOR_SETS2+16\r\n#define EE_ICA_MODBUS_TCP_UNIT_ID\t\tSECTOR_SETS2+18\r\n#define EE_PWM_START\t\t\t\t\tSECTOR_SETS2+20\r\n#define EE_KB_ALGORITM\t\t\t\t\tSECTOR_SETS2+22\r\n#define EE_REG_SPEED\t\t\t\t\tSECTOR_SETS2+24\r\n#define EE_SNTP_ENABLE\t\t\t\t\tSECTOR_SETS2+26\r\n#define EE_SNTP_GMT\t\t\t\t\t\tSECTOR_SETS2+28\r\n#define EE_UZ_U\t\t\t\t\t\t\tSECTOR_SETS2+30\r\n#define EE_UZ_IMAX\t\t\t\t\t\tSECTOR_SETS2+32\r\n#define EE_UZ_T\t\t\t\t\t\t\tSECTOR_SETS2+34\r\n#define EE_VZ1_STAT\t\t\t\t\t\tSECTOR_SETS2+36\r\n#define EE_VZ2_STAT\t\t\t\t\t\tSECTOR_SETS2+38\r\n#define EE_FZ_U1\t\t\t\t\t\tSECTOR_SETS2+40\r\n#define EE_FZ_IMAX1\t\t\t\t\t\tSECTOR_SETS2+42\r\n#define EE_FZ_T1\t\t\t\t\t\tSECTOR_SETS2+44\r\n#define EE_FZ_ISW12\t\t\t\t\t\tSECTOR_SETS2+46\r\n#define EE_FZ_U2\t\t\t\t\t\tSECTOR_SETS2+48\r\n#define EE_FZ_IMAX2\t\t\t\t\t\tSECTOR_SETS2+50\r\n#define EE_FZ_T2\t\t\t\t\t\tSECTOR_SETS2+52\r\n#define EE_IMAX_VZ\t\t\t\t\t\tSECTOR_SETS2+54\r\n#define EE_SMART_SPC\t\t\t\t\tSECTOR_SETS2+56\r\n#define EE_BAT_C_POINT_1_6\t\t\t\tSECTOR_SETS2+58\r\n#define EE_BAT_C_POINT_1_2\t\t\t\tSECTOR_SETS2+60\r\n#define EE_BAT_C_POINT_1\t\t\t\tSECTOR_SETS2+62\r\n#define EE_BAT_C_POINT_3\t\t\t\tSECTOR_SETS2+64\r\n#define EE_BAT_C_POINT_5\t\t\t\tSECTOR_SETS2+66\r\n#define EE_BAT_C_POINT_10\t\t\t\tSECTOR_SETS2+68\r\n#define EE_BAT_C_POINT_20\t\t\t\tSECTOR_SETS2+70\r\n#define EE_NUMBAT \t\t\t\t\t\tSECTOR_SETS2+72\r\n#define EE_BAT_U_END_1_6\t\t\t\tSECTOR_SETS2+74\r\n#define EE_BAT_U_END_1_2\t\t\t\tSECTOR_SETS2+76\r\n#define EE_BAT_U_END_1\t\t\t\t\tSECTOR_SETS2+78\r\n#define EE_BAT_U_END_3\t\t\t\t\tSECTOR_SETS2+80\r\n#define EE_BAT_U_END_5\t\t\t\t\tSECTOR_SETS2+82\r\n#define EE_BAT_U_END_10\t\t\t\t\tSECTOR_SETS2+84\r\n#define EE_BAT_U_END_20\t\t\t\t\tSECTOR_SETS2+86\r\n#define EE_ZVU_BAT_MIN_CNT_KE\t\t\tSECTOR_SETS2+88\r\n#define EE_AMPER_CHAS_CNT\t\t\t\tSECTOR_SETS2+90\r\n#define EE_BAT_C_POINT_NUM_ELEM\t\t\tSECTOR_SETS2+92\r\n#define EE_BAT_K_OLD\t\t\t\t\tSECTOR_SETS2+94\r\n#define EE_SP_CH_VENT_BLOK\t\t\t\tSECTOR_SETS2+96\r\n#define EE_VZ_CH_VENT_BLOK\t\t\t\tSECTOR_SETS2+98\r\n\r\n\r\n#define SECTOR_BAT \t\tSECTOR_KOEF+450\r\n\r\n#define EE_BAT1_IS_ON SECTOR_BAT\r\n#define EE_BAT1_DAY_OF_ON SECTOR_BAT+2\r\n#define EE_BAT1_MONTH_OF_ON SECTOR_BAT+4\r\n#define EE_BAT1_YEAR_OF_ON SECTOR_BAT+6\r\n#define EE_BAT1_C_REAL SECTOR_BAT+8\r\n#define EE_BAT1_RESURS SECTOR_BAT+10\r\n#define EE_BAT1_ZAR_CNT \tSECTOR_BAT+12\r\n#define EE_BAT1_ZAR_CNT_KE \tSECTOR_BAT+14\r\n#define EE_BAT1_C_NOM SECTOR_BAT+16\r\n\r\n\r\n#define EE_BAT2_IS_ON SECTOR_BAT+30\r\n#define EE_BAT2_DAY_OF_ON SECTOR_BAT+32\r\n#define EE_BAT2_MONTH_OF_ON SECTOR_BAT+34\r\n#define EE_BAT2_YEAR_OF_ON SECTOR_BAT+36\r\n#define EE_BAT2_C_REAL SECTOR_BAT+38\r\n#define EE_BAT2_RESURS SECTOR_BAT+40\r\n#define EE_BAT2_ZAR_CNT SECTOR_BAT+42\r\n#define EE_BAT2_ZAR_CNT_KE SECTOR_BAT+44\r\n#define EE_BAT2_C_NOM SECTOR_BAT+48\r\n\r\n\r\n\r\n\r\n\r\n//#define KOEF_LONG\t30\r\n\r\n#define SECTOR_EXT \t\tSECTOR_KOEF+500\r\n#define EE_TMAX_EXT_EN0\t\tSECTOR_EXT\r\n#define EE_TMAX_EXT0\t\tSECTOR_EXT+2\r\n#define EE_TMIN_EXT_EN0\t\tSECTOR_EXT+4\r\n#define EE_TMIN_EXT0\t\tSECTOR_EXT+6\r\n#define EE_T_EXT_REL_EN0\t\tSECTOR_EXT+8\r\n#define EE_T_EXT_ZVUK_EN0\tSECTOR_EXT+10\r\n#define EE_T_EXT_LCD_EN0\t\tSECTOR_EXT+12\r\n#define EE_T_EXT_RS_EN0\t\tSECTOR_EXT+14\r\n#define EE_TMAX_EXT_EN1\t\tSECTOR_EXT+16\r\n#define EE_TMAX_EXT1\t\tSECTOR_EXT+18\r\n#define EE_TMIN_EXT_EN1\t\tSECTOR_EXT+20\r\n#define EE_TMIN_EXT1\t\tSECTOR_EXT+22\r\n#define EE_T_EXT_REL_EN1\t\tSECTOR_EXT+24\r\n#define EE_T_EXT_ZVUK_EN1\tSECTOR_EXT+26\r\n#define EE_T_EXT_LCD_EN1\t\tSECTOR_EXT+28\r\n#define EE_T_EXT_RS_EN1\t\tSECTOR_EXT+30\r\n#define EE_TMAX_EXT_EN2\t\tSECTOR_EXT+32\r\n#define EE_TMAX_EXT2\t\tSECTOR_EXT+34\r\n#define EE_TMIN_EXT_EN2\t\tSECTOR_EXT+36\r\n#define EE_TMIN_EXT2\t\tSECTOR_EXT+38\r\n#define EE_T_EXT_REL_EN2\t\tSECTOR_EXT+40\r\n#define EE_T_EXT_ZVUK_EN2\tSECTOR_EXT+42\r\n#define EE_T_EXT_LCD_EN2\t\tSECTOR_EXT+44\r\n#define EE_T_EXT_RS_EN2\t\tSECTOR_EXT+46\r\n#define EE_SK_SIGN0\t\t\tSECTOR_EXT+48\r\n#define EE_SK_REL_EN0\t\tSECTOR_EXT+50\r\n#define EE_SK_ZVUK_EN0\t\tSECTOR_EXT+52\r\n#define EE_SK_LCD_EN0\t\tSECTOR_EXT+54\r\n#define EE_SK_RS_EN0\t\tSECTOR_EXT+56\r\n#define EE_SK_SIGN1\t\t\tSECTOR_EXT+58\r\n#define EE_SK_REL_EN1\t\tSECTOR_EXT+60\r\n#define EE_SK_ZVUK_EN1\t\tSECTOR_EXT+62\r\n#define EE_SK_LCD_EN1\t\tSECTOR_EXT+64\r\n#define EE_SK_RS_EN1\t\tSECTOR_EXT+66\r\n#define EE_SK_SIGN2\t\t\tSECTOR_EXT+68\r\n#define EE_SK_REL_EN2\t\tSECTOR_EXT+70\r\n#define EE_SK_ZVUK_EN2\t\tSECTOR_EXT+72\r\n#define EE_SK_LCD_EN2\t\tSECTOR_EXT+74\r\n#define EE_SK_RS_EN2\t\tSECTOR_EXT+76\r\n#define EE_SK_SIGN3\t\t\tSECTOR_EXT+78\r\n#define EE_SK_REL_EN3\t\tSECTOR_EXT+80\r\n#define EE_SK_ZVUK_EN3\t\tSECTOR_EXT+82\r\n#define EE_SK_LCD_EN3\t\tSECTOR_EXT+84\r\n#define EE_SK_RS_EN3\t\tSECTOR_EXT+86\r\n#define EE_NUMSK\t\t\tSECTOR_EXT+88\r\n#define EE_NUMDT\t\t\tSECTOR_EXT+90\r\n#define EE_POS_VENT\t\t\tSECTOR_EXT+92\r\n#define EE_POWER_CNT_ADRESS SECTOR_EXT+94\r\n#define EE_UBM_AV SECTOR_EXT+96\r\n#define EE_NUMAVT\t\t\tSECTOR_EXT+98\r\n#define EE_NUMMAKB\t\t\tSECTOR_EXT+100\r\n#define EE_RELE_LOG\t\t\tSECTOR_EXT+102\r\n#define EE_NUMBDR\t\t\tSECTOR_EXT+104\r\n\r\n#define SECTOR_SPC\t \t\tSECTOR_EXT+150\r\n#define EE_SPC_STAT\t\t\tSECTOR_SPC\r\n#define EE_VZ_CNT\t\t\tSECTOR_SPC+2\r\n#define EE_SPC_BAT\t\t\tSECTOR_SPC+4\r\n#define EE_SPC_PHASE\t\tSECTOR_SPC+6\r\n#define EE_SPC_KE_DATE0\t\tSECTOR_SPC+8\r\n#define EE_SPC_KE_DATE1\t\tSECTOR_SPC+12\r\n#define EE_SPC_VZ_LENGT\t\tSECTOR_SPC+14\r\n\r\n#define SECTOR_ETH \t\tSECTOR_EXT+200\r\n#define EE_ETH_IS_ON\t\tSECTOR_ETH\r\n#define EE_ETH_DHCP_ON\t\tSECTOR_ETH+2\r\n#define EE_ETH_IP_1\t\t\tSECTOR_ETH+4\r\n#define EE_ETH_IP_2\t\t\tSECTOR_ETH+6\r\n#define EE_ETH_IP_3\t\t\tSECTOR_ETH+8\r\n#define EE_ETH_IP_4\t\t\tSECTOR_ETH+10\r\n#define EE_ETH_MASK_1\t\tSECTOR_ETH+12\r\n#define EE_ETH_MASK_2\t\tSECTOR_ETH+14\r\n#define EE_ETH_MASK_3\t\tSECTOR_ETH+16\r\n#define EE_ETH_MASK_4\t\tSECTOR_ETH+18\r\n#define EE_ETH_TRAP1_IP_1\tSECTOR_ETH+20\r\n#define EE_ETH_TRAP1_IP_2\tSECTOR_ETH+22\r\n#define EE_ETH_TRAP1_IP_3\tSECTOR_ETH+24\r\n#define EE_ETH_TRAP1_IP_4\tSECTOR_ETH+26\r\n#define EE_ETH_TRAP2_IP_1\tSECTOR_ETH+28\r\n#define EE_ETH_TRAP2_IP_2\tSECTOR_ETH+30\r\n#define EE_ETH_TRAP2_IP_3\tSECTOR_ETH+32\r\n#define EE_ETH_TRAP2_IP_4\tSECTOR_ETH+34\r\n#define EE_ETH_TRAP3_IP_1\tSECTOR_ETH+36\r\n#define EE_ETH_TRAP3_IP_2\tSECTOR_ETH+38\r\n#define EE_ETH_TRAP3_IP_3\tSECTOR_ETH+40\r\n#define EE_ETH_TRAP3_IP_4\tSECTOR_ETH+42\r\n#define EE_ETH_TRAP4_IP_1\tSECTOR_ETH+44\r\n#define EE_ETH_TRAP4_IP_2\tSECTOR_ETH+46\r\n#define EE_ETH_TRAP4_IP_3\tSECTOR_ETH+48\r\n#define EE_ETH_TRAP4_IP_4\tSECTOR_ETH+50\r\n#define EE_ETH_TRAP5_IP_1\tSECTOR_ETH+52\r\n#define EE_ETH_TRAP5_IP_2\tSECTOR_ETH+54\r\n#define EE_ETH_TRAP5_IP_3\tSECTOR_ETH+56\r\n#define EE_ETH_TRAP5_IP_4\tSECTOR_ETH+58\r\n#define EE_ETH_SNMP_PORT_READ\tSECTOR_ETH+60\r\n#define EE_ETH_SNMP_PORT_WRITE\tSECTOR_ETH+62\r\n#define EE_ETH_GW_1\t\t\tSECTOR_ETH+64\r\n#define EE_ETH_GW_2\t\t\tSECTOR_ETH+66\r\n#define EE_ETH_GW_3\t\t\tSECTOR_ETH+68\r\n#define EE_ETH_GW_4\t\t\tSECTOR_ETH+70\r\n#define EE_MODBUS_ADRESS\t\tSECTOR_ETH+72\r\n#define EE_MODBUS_BAUDRATE\tSECTOR_ETH+74\r\n#define EE_BAT_LINK\t\t\tSECTOR_ETH+76\r\n\r\n\r\n#define SECTOR_LOCATION \tSECTOR_ETH+200\r\n#define EE_LOCATION\t\t\tSECTOR_LOCATION\r\n#define SECTOR_COMMUNITY \tSECTOR_ETH+270\r\n#define EE_COMMUNITY\t\tSECTOR_COMMUNITY\r\n\r\n\r\n#define KE_PTR\t\t\t996\r\n#define KE_CNT\t\t\t998\r\n#define UNET_AVAR_PTR\t1000\r\n#define UNET_AVAR_CNT\t1002\r\n#define SRC1_AVAR_PTR\t1004\r\n#define SRC1_AVAR_CNT\t1006\r\n#define SRC2_AVAR_PTR\t1008\r\n#define SRC2_AVAR_CNT\t1010\r\n#define BAT_AVAR_PTR\t1012\r\n#define BAT_AVAR_CNT\t1014\r\n#define VZ_PTR\t\t\t1016\r\n#define VZ_CNT\t\t\t1018\r\n#define WRK_PTR\t\t1020\r\n#define WRK_CNT\t\t1022\r\n\r\n\r\n#define EVENT_LOG\t1024 \r\n//массив данных журнала событий 3264=2048\r\n// Структура данных журнала событий:\r\n// Байт 0 - род устройства:\r\n//\t\t\t\t\t'B' - батарея\r\n//\t\t\t\t\t'S' - бпсы\r\n//\t\t\t\t\t'P' - питающая сеть\r\n//\t\t\t\t\t'I' - инверторы\r\n//\t\t\t\t\t'U' - УКУ\r\n//\t\t\t\t\t'T' - Внешний датчик температуры\r\n//\t\t\t\t\t'L' - Внешний логический вход\r\n// Байт 1 - порядковый номер устройства(начинается с нуля)\r\n// Байт 2 - род события:\r\n//\t\t\t\t\t'A' - авария (для питающей сети) \r\n//\t\t\t\t\t'L' - авария связи (для БПСов и инверторов)\r\n//\t\t\t\t\t'C' - авария отсутствия(для батареи и БПСов) \r\n//\t\t\t\t\t'U' - авария завышенного напряжения (для БПСов и инверторов) \r\n//\t\t\t\t\t'u' - авария заниженного напряжения (для БПСов и инверторов) \r\n//\t\t\t\t\t'T' - авария по температуре (для БПСов и инверторов) \r\n//\t\t\t\t\t'R' - перезагрузка или включение, только для УКУ\r\n// Байт 3 - год возникновения события\r\n// Байт 4 - месяц возникновения события\r\n// Байт 5 - день возникновения события\r\n// Байт 6 - час возникновения события\r\n// Байт 7 - минута возникновения события\r\n// Байт 8 - секунда возникновения события\r\n\r\n#define PTR_EVENT_LOG\tEVENT_LOG+1024+512+1024 \r\n// указатель на события(показывает на последнее записанное) \r\n#define CNT_EVENT_LOG\tPTR_EVENT_LOG+2 \r\n// колличество событий (не более 64) \r\n// массив данных аварий сети {(864)+(264)}\r\n// Структура данных аварий сети:\r\n// при возникновении аварии записывается \r\n// первые 4 байта с полным временем возникновения аварии\r\n// другие 4 байта полностью обнуляются, при пропадании аварии в них записывается\r\n// полное время устранения и в 2 байта данных записывается минимальное напряжение \r\n// во время аварии.\r\n\r\n#define SRC1_AVAR\t1664\r\n#define SRC1_AVAR_DAT\t2176 \r\n// массив данных аварий источника №1 {(864)+(464)}\r\n// Структура данных аварий источника №1:\r\n// при возникновении аварии записывается \r\n// первые 4 байта с полным временем возникновения аварии\r\n// другие 4 байта полностью обнуляются, при пропадании аварии в них записывается\r\n// полное время устранения и в 4 байта данных записывается : \r\n// 1 байт - вид аварии(0x55 - занижено напряжение,\r\n// 0x66 - завышено напряжение,\r\n// 0x77 - перегрев источника)\r\n\r\n#define SRC2_AVAR\t2432\r\n#define SRC2_AVAR_DAT\t2944 \r\n// массив данных аварий источника №1 {(864)+(464)}\r\n// Структура данных аварий источника №1:\r\n// при возникновении аварии записывается \r\n// первые 4 байта с полным временем возникновения аварии\r\n// другие 4 байта полностью обнуляются, при пропадании аварии в них записывается\r\n// полное время устранения и в 4 байта данных записывается : \r\n// 1 байт - вид аварии(0x55 - занижено напряжение,\r\n// 0x66 - завышено напряжение,\r\n// 0x77 - перегрев источника)\r\n\r\n#define BAT_AVAR\t3200\r\n#define BAT_AVAR_DAT\t3712 \r\n// массив данных аварий батареи {(864)+(464)}\r\n// Структура данных аварий источника №1:\r\n// при возникновении аварии записывается \r\n// первые 4 байта с полным временем возникновения аварии\r\n// другие 4 байта полностью обнуляются, при пропадании аварии в них записывается\r\n// полное время устранения и в 4 байта данных записывается : \r\n// 1 байт - вид аварии(0x55 - занижено напряжение,\r\n// 0x66 - завышено напряжение,\r\n// 0x77 - перегрев источника)\r\n\r\n#define VZ\t3968\r\n#define VZ_L\t4224 \r\n// массив данных выравнивающих зарядов {(464)+(264)}\r\n// Структура данных ыравнивающих зарядов:\r\n// при завершении процесса записывается \r\n// первые 4 байта с полным временем завершения процесса\r\n// и в 2 байта данных записывается длительность процесса в часах \r\n\r\n#define EE_NUMENMV\t\t4352\r\n#define EE_NUMPHASE\t4354\r\n//o_12_s\r\n#define EE_NUMLVBD\t\t4356\r\n//o_12_e \r\n#define EE_WEB_PASSWORD\t\t\t\t4360 \r\n#define EE_HTTP_LOCATION\t\t\t4370\r\n#define EE_UMAXN\t\t\t\t\t4470\r\n#define EE_SNTP_WEB_ENABLE\t\t\t4472\r\n#define EE_SNTP_IP1\t\t\t\t\t4474\r\n#define EE_SNTP_IP2\t\t\t\t\t4476\r\n#define EE_SNTP_IP3\t\t\t\t\t4478\r\n#define EE_SNTP_IP4\t\t\t\t\t4480\r\n\r\n//o_12_s\r\n#define EE_ENMV_MODBUS_ADRESS_1\t\t4500\r\n#define EE_ENMV_MODBUS_ADRESS_2\t\t4502\r\n#define EE_ENMV_MODBUS_ADRESS_3\t\t4504\r\n#define EE_ENMV_MODBUS_ADRESS_4\t\t4506\r\n#define EE_ENMV_MODBUS_ADRESS_5\t\t4508\r\n#define EE_ENMV_MODBUS_ADRESS_6\t\t4510\r\n#define EE_ENMV_MODBUS_ADRESS_7\t\t4512\r\n#define EE_ENMV_MODBUS_ADRESS_8\t\t4514\r\n//o_12_e\r\n\r\n//#define WRK\t4352\r\n//#define WRK_AH\t5376 \r\n// массив данных разрядов батареи {(8128)+(2128)}\r\n// Структура данных разрядов батареи:\r\n// при завершении процесса записывается \r\n// первые 4 байта с полным временем начала процесса\r\n// затем 4 байта с полным временем завершения процесса\r\n// и в 2 байта данных записывается колличество отданных амперчасов \r\n\r\n#define KE\t5632\r\n#define KE_AH\t6144 \r\n// массив данных разрядов батареи {(864)+(264)}\r\n// Структура данных разрядов батареи:\r\n// при завершении процесса записывается \r\n// первые 4 байта с полным временем начала процесса\r\n// затем 4 байта с полным временем завершения процесса\r\n// и в 2 байта данных записывается колличество отданных амперчасов \r\n\r\n#define EE_UKU_FSO\t0x1800\r\n#define EE_UKUFSO_IBEP_SN \t\t\t\t\t\tEE_UKU_FSO+4\r\n//Серийник, 4 байта\r\n#define EE_UKUFSO_IBEP_START_DATE_YEAR \t\t\tEE_UKU_FSO+8\t\t\r\n#define EE_UKUFSO_IBEP_START_DATE_MONTH\t\t\tEE_UKU_FSO+10\r\n#define EE_UKUFSO_IBEP_START_DATE_DAY \t\t\tEE_UKU_FSO+12\r\n#define EE_UKUFSO_IBEP_PLACE \t\t\t\t\tEE_UKU_FSO+14\r\n//Массив из 50 символов\r\n#define EE_UKUFSO_BPS1_SN \t\t\t\t\t\tEE_UKU_FSO+108\r\n//Серийник, 4 байта\r\n#define EE_UKUFSO_BPS1_START_DATE_YEAR\t\t\tEE_UKU_FSO+112\r\n#define EE_UKUFSO_BPS1_START_DATE_MONTH\t\t\tEE_UKU_FSO+114\r\n#define EE_UKUFSO_BPS1_START_DATE_DAY\t\t\tEE_UKU_FSO+116\r\n#define EE_UKUFSO_BPS2_SN \t\t\t\t\t\tEE_UKU_FSO+120\r\n//Серийник, 4 байта\r\n#define EE_UKUFSO_BPS2_START_DATE_YEAR\t\t\tEE_UKU_FSO+124\r\n#define EE_UKUFSO_BPS2_START_DATE_MONTH\t\t\tEE_UKU_FSO+126\r\n#define EE_UKUFSO_BPS2_START_DATE_DAY\t\t\tEE_UKU_FSO+128\r\n#define EE_UKUFSO_BPS3_SN \t\t\t\t\t\tEE_UKU_FSO+132\r\n//Серийник, 4 байта\r\n#define EE_UKUFSO_BPS3_START_DATE_YEAR\t\t\tEE_UKU_FSO+136\r\n#define EE_UKUFSO_BPS3_START_DATE_MONTH\t\t\tEE_UKU_FSO+138\r\n#define EE_UKUFSO_BPS3_START_DATE_DAY\t\t\tEE_UKU_FSO+140\r\n#define EE_UKUFSO_BPS4_SN \t\t\t\t\t\tEE_UKU_FSO+144\r\n//Серийник, 4 байта\r\n#define EE_UKUFSO_BPS4_START_DATE_YEAR\t\t\tEE_UKU_FSO+148\r\n#define EE_UKUFSO_BPS4_START_DATE_MONTH\t\t\tEE_UKU_FSO+150\r\n#define EE_UKUFSO_BPS4_START_DATE_DAY\t\t\tEE_UKU_FSO+152\r\n#define EE_UKUFSO_BAT1_SN \t\t\t\t\t\tEE_UKU_FSO+156\r\n//Серийник, 4 байта\r\n#define EE_UKUFSO_BAT1_START_DATE_YEAR\t\t\tEE_UKU_FSO+160\r\n#define EE_UKUFSO_BAT1_START_DATE_MONTH\t\t\tEE_UKU_FSO+162\r\n#define EE_UKUFSO_BAT1_START_DATE_DAY\t\t\tEE_UKU_FSO+164\r\n#define EE_UKUFSO_BAT2_SN \t\t\t\t\t\tEE_UKU_FSO+168\r\n//Серийник, 4 байта\r\n#define EE_UKUFSO_BAT2_START_DATE_YEAR\t\t\tEE_UKU_FSO+170\r\n#define EE_UKUFSO_BAT2_START_DATE_MONTH\t\t\tEE_UKU_FSO+172\r\n#define EE_UKUFSO_BAT2_START_DATE_DAY\t\t\tEE_UKU_FSO+174\r\n\r\n#define EE_NUMBAT_FSO\t\t\t\t\t\t\tEE_UKU_FSO+200\r\n#define EE_UKU_FSO_MINI_SIGN_MODE\t\t\t\tEE_UKU_FSO+202\r\n#define EE_UKU_FSO_MINI_SIGN_D1_Q\t\t\t\tEE_UKU_FSO+204\r\n#define EE_UKU_FSO_MINI_SIGN_D5_Q\t\t\t\tEE_UKU_FSO+206\r\n#define EE_UKU_FSO_MINI_SIGN_D1_U\t\t\t\tEE_UKU_FSO+208\r\n#define EE_UKU_FSO_MINI_SIGN_D5_U\t\t\t\tEE_UKU_FSO+210\r\n\r\n\r\nextern const unsigned short ADR_EE_BAT_ZAR_CNT[2];\r\nextern const unsigned short ADR_EE_BAT_ZAR_CNT_KE[2];\r\nextern const unsigned short ADR_EE_BAT_C_NOM[2];\r\nextern const unsigned short ADR_EE_BAT_YEAR_OF_ON[2];\r\nextern const unsigned short ADR_EE_BAT_IS_ON[2];\r\nextern const unsigned short ADR_EE_BAT_DAY_OF_ON[2];\r\nextern const unsigned short ADR_EE_BAT_MONTH_OF_ON[2];\r\nextern const unsigned short ADR_EE_BAT_RESURS[2];\r\nextern const unsigned short ADR_EE_BAT_C_REAL[2];\r\nextern const unsigned short ADR_EE_BAT_TYPE[2];\r\nextern const unsigned short ADR_KUBAT[2];\r\nextern const unsigned short ADR_KUBATM[2];\r\nextern const unsigned short ADR_KI0BAT[2];\r\nextern const unsigned short ADR_KI1BAT[2];\r\nextern const unsigned short ADR_KTBAT[2];\r\nextern const unsigned short ADR_EE_BAT_TYPE[2];\r\n\r\n\r\nextern const unsigned short ADR_TMAX_EXT_EN[3];\r\nextern const unsigned short ADR_TMAX_EXT[3];\r\nextern const unsigned short ADR_TMIN_EXT_EN[3];\r\nextern const unsigned short ADR_TMIN_EXT[3];\r\nextern const unsigned short ADR_T_EXT_REL_EN[3];\r\nextern const unsigned short ADR_T_EXT_ZVUK_EN[3];\r\nextern const unsigned short ADR_T_EXT_LCD_EN[3];\r\nextern const unsigned short ADR_T_EXT_RS_EN[3];\r\n\r\nextern const unsigned short ADR_SK_SIGN[4];\r\nextern const unsigned short ADR_SK_REL_EN[4];\r\nextern const unsigned short ADR_SK_ZVUK_EN[4];\r\nextern const unsigned short ADR_SK_LCD_EN[4];\r\nextern const unsigned short ADR_SK_RS_EN[4];\r\n\r\nextern const unsigned short ADR_EE_RELE_SET_MASK[4];\r\n\r\n" }, { "alpha_fraction": 0.7932330965995789, "alphanum_fraction": 0.8082706928253174, "avg_line_length": 27.33333396911621, "blob_id": "010fd6dd8e8aeb12896b1854083851c2703d89af", "content_id": "113d186879ca9747956ad596ddb1131685b3e16d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 266, "license_type": "no_license", "max_line_length": 41, "num_lines": 9, "path": "/SOFT/UKU/RKI/ztt.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\nextern char portZTTSunBatteryIsInitiated;\r\nextern char zTTBatteryHndlPhase;\r\nextern char liBatteryInBuff[300];\r\nextern char zTTRequestPhase;\r\nextern short zTTSilentCnt[3];\r\nextern char zTTButteryCnter;\r\nextern char zTTBatteryHndlCmnd;\r\n\r\nvoid ztt_bat_hndl(void);\r\n" }, { "alpha_fraction": 0.725314199924469, "alphanum_fraction": 0.735637366771698, "avg_line_length": 45.191490173339844, "blob_id": "0cd623c377db1274b8bcd3299ad6108f7a049d3e", "content_id": "da01c6b7f7cc3181727a838eef6e696bcf7bde7c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 2923, "license_type": "no_license", "max_line_length": 109, "num_lines": 47, "path": "/SOFT/UKU/2/avar_hndl.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "\r\n\r\n//**********************************************\r\n//Аварии\r\nextern unsigned avar_stat;\t \t//\"Отображение\" всех аварийных в данный момент устройств в одном месте\r\nextern unsigned avar_ind_stat; \t//\"Отображение\" всех не просмотренных аварийных устройств в одном месте\r\nextern unsigned avar_stat_old;\r\nextern unsigned avar_stat_new,avar_stat_offed;\r\n//Структура переменных\r\n//1бит - питающая сеть\r\n//2бита - батареи\r\n//12бит - БПСы\r\n//5бит - инверторы\r\n//4бита - внешние датчики температуры\r\n//4бита - внешние сухие контакты\r\n\r\nextern char sk_avar_stat;\t \t//\"Отображение\" всех аварийных в данный момент ск в одном месте\r\nextern char sk_avar_ind_stat; \t//\"Отображение\" всех не просмотренных аварийных ск в одном месте\r\nextern char sk_avar_stat_old;\r\nextern char sk_avar_stat_new,sk_avar_stat_offed;\r\n\r\n//Аварии\r\nextern unsigned rki_avar1_stat;\t \t//\"Отображение\" всех аварийных в данный момент устройств в одном месте\r\nextern unsigned rki_avar1_ind_stat; \t//\"Отображение\" всех не просмотренных аварийных устройств в одном месте\r\nextern unsigned rki_avar1_stat_old;\r\nextern unsigned rki_avar1_stat_new, rki_avar1_stat_offed;\r\n/\r\nextern unsigned rki_avarI1_stat;\t \t//\"Отображение\" всех аварийных в данный момент устройств в одном месте\r\nextern unsigned rki_avarI1_ind_stat; \t//\"Отображение\" всех не просмотренных аварийных устройств в одном месте\r\nextern unsigned rki_avarI1_stat_old;\r\nextern unsigned rki_avarI1_stat_new, rki_avarI1_stat_offed;\r\n\r\nextern unsigned rki_avarI2_stat;\t \t//\"Отображение\" всех аварийных в данный момент устройств в одном месте\r\nextern unsigned rki_avarI2_ind_stat; \t//\"Отображение\" всех не просмотренных аварийных устройств в одном месте\r\nextern unsigned rki_avarI2_stat_old;\r\nextern unsigned rki_avarI2_stat_new, rki_avarI2_stat_offed;\r\n/\r\nvoid avar_hndl(void);\r\nvoid avar_unet_hndl(char in);\r\nvoid avar_uout_hndl(char in);\r\nvoid reload_hndl(void);\r\nvoid avar_bps_hndl(char bps, char v, char in);\r\nvoid avar_bat_hndl(char bat, char in);\r\nvoid avar_bat_as_hndl(char b, char in);\r\nvoid ke_mem_hndl(char b,unsigned short in);\r\nvoid ke_zvu_mem_hndl(char b,unsigned short in,unsigned short in1);\r\nvoid vz_mem_hndl(unsigned short in);\r\nvoid wrk_mem_hndl(char b);\r\nvoid avar_bat_ips_hndl(char in);\r\n\r\n\r\n\r\n" }, { "alpha_fraction": 0.6552550792694092, "alphanum_fraction": 0.6783002614974976, "avg_line_length": 30.825326919555664, "blob_id": "2f9188f4b3db3695fb32e1fee7fc43e1edd80e48", "content_id": "83e6a88995e8d0fa7757949de92235466c93bba7", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 7896, "license_type": "no_license", "max_line_length": 183, "num_lines": 229, "path": "/SOFT/UKU/2/control.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#ifndef _CONTROL_H_\r\n\r\n#define _CONTROL_H_\r\n\r\n\r\n//*******************************************\r\n//Работа с БПСами\r\nextern char num_of_wrks_bps;\r\nextern char bps_all_off_cnt,bps_mask_off_cnt,bps_mask_on_off_cnt;\r\nextern char bps_hndl_2sec_cnt;\r\nextern unsigned bps_on_mask,bps_off_mask;\r\nextern char num_necc_up,num_necc_down;\r\nextern unsigned char sh_cnt0,b1Hz_sh;\r\n\r\n\r\nextern short cntrl_stat_blok_cnt,cntrl_stat_blok_cnt_,cntrl_stat_blok_cnt_plus[2],cntrl_stat_blok_cnt_minus[2];\r\n\r\n//*******************************************\r\n//АЦП \r\nextern long adc_buff[16][16];\r\nextern signed short adc_buff_max[12],adc_buff_min[12],unet_buff_max,unet_buff_min;\r\nextern short adc_buff_[16];\r\nextern char adc_self_ch_cnt,adc_ch_net;\r\nextern char adc_cnt,adc_cnt1,adc_ch,adc_ch_cnt;\r\nextern short zero_cnt;\r\ntypedef enum {asCH=1,asNET_WAIT=2,asNET_RDY=3,asNET=4} enum_adc_stat;\r\nextern enum_adc_stat adc_stat;\r\nextern unsigned short net_buff[32],net_buff_,net_metr_buff_[3];\r\nextern char net_buff_cnt;\r\nextern short ADWR,period_cnt,non_zero_cnt;\r\nextern char rele_stat;\r\nextern char bRELE_OUT;\r\nextern short plazma_adc_cnt;\r\nextern signed short adc_self_ch_buff[3],adc_self_ch_disp[3];\r\nextern long main_power_buffer[8],main_power_buffer_;\r\nextern short main_power_buffer_cnt;\r\nextern short adc_gorb_cnt,adc_zero_cnt;\r\nextern char adc_window_flag;\r\nextern short adc_window_cnt;\r\nextern short adc_net_buff_cnt;\r\n\r\n\r\nchar vz_start(char hour);\r\nvoid vz_stop(void);\r\nvoid vz_drv(void);\r\nvoid samokalibr_init(void);\r\nvoid samokalibr_hndl(void);\r\nvoid kb_init(void);\r\nvoid kb_hndl(void);\r\nvoid ubat_old_drv(void);\r\nvoid unet_drv(void);\r\nvoid matemat(void);\r\nvoid adc_init(void);\r\nvoid adc_drv5(void);\r\nvoid adc_drv_(void);\r\nvoid avg_hndl(void);\r\n//void bp_on(char in);\r\n//void bp_off(char in);\r\nvoid rele_hndl(void);\r\nvoid bps_hndl(void);\r\nvoid bps_drv(char in);\r\nvoid bat_hndl(void);\r\nvoid bat_drv(char in);\r\nvoid u_necc_hndl(void);\r\nvoid cntrl_hndl(void);\r\nvoid zar_drv(void);\r\nvoid num_necc_hndl(void);\r\nvoid ke_start(char in);\r\nvoid ke_drv(void);\r\nvoid avz_drv(void);\r\nvoid zar_drv(void);\r\nvoid vent_hndl(void);\r\nvoid avz_next_date_hndl(void);\r\nvoid klimat_hndl(void);\r\nvoid ext_drv(void);\r\nvoid adc_drv7(void);\r\nvoid avt_hndl(void);\r\nvoid vent_resurs_hndl(void);\r\nvoid ips_current_average_hndl(void);\r\n#ifdef UKU_ZVU\r\nvoid amper_chas_cnt_drv(char in);\r\nvoid bat_hndl_zvu(char in);\r\n#endif\r\n\r\n//*******************************************\r\n//Спецфункции\r\n\r\ntypedef enum {spcOFF=0,spcKE, spcVZ}enum_spc_stat;\r\ntypedef enum {kssNOT=0,kssNOT_VZ,kssYES=100,kssNOT_BAT,kssNOT_BAT_AV,kssNOT_BAT_AV_T,kssNOT_BAT_AV_ASS,kssNOT_BAT_ZAR,kssNOT_BAT_RAZR,kssNOT_KE1,kssNOT_KE2}enum_ke_start_stat;\r\nextern enum_spc_stat spc_stat;\r\nextern enum_ke_start_stat ke_start_stat;\r\nextern char spc_bat;\r\nextern char spc_phase;\r\nextern unsigned short vz_cnt_s,vz_cnt_s_,vz_cnt_h,vz_cnt_h_;\r\nextern short cnt_end_ke;\r\nextern unsigned long ke_date[2];\r\nextern short __ee_vz_cnt;\r\nextern short __ee_spc_stat;\r\nextern short __ee_spc_bat;\r\nextern short __ee_spc_phase;\r\nextern char vz_error; // устанавливается, если выр. заряд заблокирован\r\n\r\n//*******************************************\n//Управление вентилятором\nextern signed char vent_stat;\r\n\r\n//*******************************************\r\n//Управление ШИМом\r\nextern signed short cntrl_stat;\r\nextern signed short cntrl_stat_old;\r\nextern signed short cntrl_stat_new;\r\nextern signed short Ibmax, Ibmax_;\r\nextern unsigned char unh_cnt0,unh_cnt1,b1Hz_unh;\r\nextern unsigned char\tch_cnt0,b1Hz_ch,i,iiii;\r\nextern unsigned char\tch_cnt1,b1_30Hz_ch;\r\nextern unsigned char\tch_cnt2,b1_10Hz_ch;\r\nextern unsigned short IZMAX_;\r\nextern unsigned short IZMAX_70;\r\nextern unsigned short IZMAX_130;\r\nextern unsigned short Ubpsmax;\r\nextern unsigned short cntrl_stat_blck_cnt;\r\n\r\nextern short plazma_sk;\r\nextern char\tplazma_inv[4];\r\nextern char plazma_bat;\r\nextern char plazma_cntrl_stat;\r\n#endif\r\n\r\nextern signed int i_avg_max,i_avg_min,i_avg_summ,i_avg; \r\nextern signed int avg;\r\nextern char bAVG;\r\nextern const char sk_buff_TELECORE2015[4];\r\n\r\n//******************************************\n//Контроль наличия батарей\nextern signed short \tmain_kb_cnt;\nextern signed short \tkb_cnt_1lev;\nextern signed short \tkb_cnt_2lev;\nextern char \t\tkb_full_ver;\nextern char kb_start[2],kb_start_ips;\r\nextern signed short ibat_ips,ibat_ips_;\r\n\r\n//*******************************************\n//Ротация ведущего источника\r\nextern char numOfForvardBps,numOfForvardBps_old;\r\nextern char numOfForvardBps_minCnt;\r\nextern short numOfForvardBps_hourCnt;\r\n\r\n//*******************************************\n// Параллельная работа в случае перегрева источника\r\nextern char bPARALLEL_NOT_ENOUG;\r\nextern char bPARALLEL_ENOUG;\r\nextern char bPARALLEL;\r\n\r\n//*******************************************\n//Счетчик электроэнергии\r\nextern char rx_read_power_cnt_phase;\r\nextern short read_power_cnt_main_cnt;\r\nextern short ce102m_delayCnt;\r\nextern char rx_read_power_cnt_plazma;\r\nextern char rx_read_power_cnt_flag;\r\nextern short volta_short;\r\nextern short curr_short;\r\nextern int power_int;\r\n\r\nextern char bENERGOMETR_UIP;\r\n\r\n//*******************************************\n//Уравнительный заряд\r\ntypedef enum {vz1sOFF=0, vz1sSTEP1=1, vz1sSTEP2=2, vz1sSTEP3=3, vz1sWRK=10, vz1sERR1, vz1sERR2, vz1sERR3, vz1sERR4, vz1sFINE, vz1sSTOP}enum_vz1_stat;\r\nextern enum_vz1_stat vz1_stat, vz1_stat_old;\r\nextern short vz1_stat_cnt;\r\nextern long vz1_wrk_cnt;\r\nextern long vz1_up_cnt;\r\nextern char volt_region;\r\n\r\n//*******************************************\n//Формовочный заряд\r\ntypedef enum {vz2sOFF=0, vz2sSTEP1=1, vz2sSTEP2=2, vz2sSTEP3=3, vz2sWRK1=10, vz2sWRK2=11, vz2sERR1, vz2sERR2, vz2sERR3, vz2sERR4, vz2sERR5, vz2sERR6, vz2sFINE, vz2sSTOP}enum_vz2_stat;\r\nextern enum_vz2_stat vz2_stat, vz2_stat_old;\r\nextern short vz2_stat_cnt;\r\nextern long vz2_wrk_cnt;\r\nextern long vz2_up_cnt;\r\nextern signed short vz2_stat_ph2_cnt;\r\n\r\n//********************************************\n//Обслуживание батареи ЗВУ\r\nextern short I_from_t_table[2][7];\r\nextern char bat_hndl_zvu_init[2];\r\nextern short bat_hndl_i[2];\r\nextern long bat_hndl_t_razr[2];\t\t\t\t//предполагаемое время полного разряда батареи (от 100% до разряда)\r\nextern long bat_hndl_t_razr_ke[2];\t\t\t\t//предполагаемое время полного разряда батареи (от 100% до разряда) при контроле емкости\r\nextern long bat_hndl_zvu_Q[2];\r\nextern long bat_hndl_proc_razr[2];\r\nextern long bat_hndl_remain_time[2];\r\nextern short bat_hndl_t_razr_hour[2];\r\nextern short bat_hndl_t_razr_min[2];\r\nextern short bat_hndl_t_razr_mininhour[2];\r\nextern char bat_hndl_zvu_ke_init;\r\nextern short bat_hndl_i_temp;\r\nextern short bat_hndl_u_end[2];\r\nextern short U_end_from_i_table[2][7];\r\nextern long bat_hndl_plazma[5];\r\nextern char bat_hndl_zvu_Q_cnt[2];\r\nextern long amper_chas_cnt_drv_summ[2];\r\nextern long amper_chas_cnt_drv_summ_[2];\r\nextern char bat_hndl_i_vector[2],bat_hndl_i_vector_old[2];\r\nextern long bat_hndl_i_zar_price[2];\r\nextern long bat_hndl_i_summ[2];\r\nextern char amper_chas_cnt_drv_cnter[2];\r\nextern char bat_hndl_zvu_cnter[2];\r\n\r\nextern char avar_bps_reset_cnt;\r\n\r\nextern char cntrl_hndl_plazma,cntrl_hndl_plazma_;\r\n\r\nextern short plazma_ica1,plazma_ica2;\r\nextern char rele_hndl_plazma[3];\r\n\r\nextern short spirit_wrk_cnt;\r\n\r\nvoid zar_superviser_drv(void);\r\nvoid zar_superviser_start(void);\r\nvoid vent_hndl(void);\r\nvoid speedChargeHndl(void);\r\nvoid speedChargeStartStop(void);\r\nvoid numOfForvardBps_init(void);\r\nvoid outVoltContrHndl(void);\r\nvoid fso_vent_valid_cntrl(void);\r\n\r\n\r\n" }, { "alpha_fraction": 0.43230506777763367, "alphanum_fraction": 0.5974721312522888, "avg_line_length": 20.497695922851562, "blob_id": "e12e3c5f3ba4838abbc44fdf4147b0c8695e8efb", "content_id": "1bb6d3447bc27046b83e2c0160f9d9e5b0c56685", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 4668, "license_type": "no_license", "max_line_length": 110, "num_lines": 217, "path": "/SOFT/UKU/RKI/mcp2515.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"25lc640.h\"\n#include \"mcp2515.h\"\n#include \"LPC17xx.H\"\n#include \"main.h\"\n#include \"full_can.h\"\n\nchar mcp2515_can_st,mcp2515_can_st_old;\nchar MCP2515_RXBUFF[40];\nchar bMCP2515_IN;\nchar mcp2515_out_buff[8][8];\nchar mcp2515_buff_wr_ptr;\nchar mcp2515_buff_rd_ptr;\n\n//-----------------------------------------------\nvoid mcp2515_reset(void)\n{\nspi1_config_mcp2515();\nMCP2515_CS_ON\nspi1(0xc0);\nMCP2515_CS_OFF\n\n}\n\n//-----------------------------------------------\nchar mcp2515_write(char addr,char in)\n{ \nchar temp;\nspi1_config_mcp2515(); \nMCP2515_CS_ON\nspi1(0x02);\nspi1(addr);\nspi1(in);\nMCP2515_CS_OFF\nreturn temp; \n}\n\n//-----------------------------------------------\nchar mcp2515_read(char addr)\n{ \nchar temp;\n\nspi1_config_mcp2515(); \nMCP2515_CS_ON\ndelay_us(10);\nspi1(0x03);\nspi1(addr);\ntemp=spi1(0x55);\nMCP2515_CS_OFF \nreturn temp; \n} \n\n//-----------------------------------------------\nvoid mcp2515_bit_modify(char addr,char mask,char data)\n{ \nspi1_config_mcp2515(); \nMCP2515_CS_ON\nspi1(0x05);\nspi1(addr);\nspi1(mask);\nspi1(data);\nMCP2515_CS_OFF\n} \n\n//-----------------------------------------------\nchar mcp2515_read_status(void)\n{ \nchar temp;\n//#asm(\"cli\")\nspi1_config_mcp2515(); \nMCP2515_CS_ON\ndelay_us(1);\nspi1(0xa0);\ntemp=spi1(0x55);\nMCP2515_CS_OFF\n//#asm(\"sei\") \nreturn temp; \n}\n\n//-----------------------------------------------\nvoid mcp2515_rts(char in)\n{\n//#asm(\"cli\")\nspi1_config_mcp2515(); \nMCP2515_CS_ON\nif(in==0) in=0x81;\nelse if(in==1) in=0x82;\nelse if(in==2) in=0x84;\nspi1(in);\nMCP2515_CS_OFF\n//#asm(\"sei\") \n}\n\n//-----------------------------------------------\nvoid can_mcp2515_init(void)\n{\nchar spi_temp; \n\nmcp2515_reset();\nspi_temp=mcp2515_read(CANSTAT);\nif((spi_temp&0xe0)!=0x80)\n\t{\n\tmcp2515_bit_modify(CANCTRL,0xe0,0x80);\n\t}\ndelay_us(10);\t\t\nmcp2515_write(CNF1,CNF1_init);\nmcp2515_write(CNF2,CNF2_init);\nmcp2515_write(CNF3,CNF3_init);\n\nmcp2515_write(RXB0CTRL,0x20/0b00100000/);\nmcp2515_write(RXB1CTRL,0x20/0b00100000/);\n\ndelay_ms(10);\n\nmcp2515_write(RXM0SIDH, 0xFF); \nmcp2515_write(RXM0SIDL, 0xFF); \nmcp2515_write(RXF0SIDH, 0xFF); \nmcp2515_write(RXF0SIDL, 0xFF); \nmcp2515_write(RXF1SIDH, 0xFF);\nmcp2515_write(RXF1SIDL, 0xFF); \n\nmcp2515_write(RXM1SIDH, 0xff); \nmcp2515_write(RXM1SIDL, 0xe0); \n\nmcp2515_write(RXF2SIDH, 0x31); \nmcp2515_write(RXF2SIDL, 0xc0); \n\nmcp2515_write(RXF3SIDH, 0x00); \nmcp2515_write(RXF3SIDL, 0x00); \n\nmcp2515_write(RXF4SIDH, 0x00); \nmcp2515_write(RXF4SIDL, 0x00); \n\nmcp2515_write(RXF5SIDH, 0x00); \nmcp2515_write(RXF5SIDL, 0x00); \n\nmcp2515_write(TXB2SIDH, 0x13); \nmcp2515_write(TXB2SIDL, 0xc0); \n\nmcp2515_write(TXB1SIDH, 0x13); \nmcp2515_write(TXB1SIDL, 0xc0); \n\nmcp2515_write(TXB0SIDH, 0x13); \nmcp2515_write(TXB0SIDL, 0xc0); \n\n\n\nmcp2515_bit_modify(CANCTRL,0xe7,0x05/0b00000101/);\n\nmcp2515_write(CANINTE,0x06/0b00000110/);\ndelay_ms(100);\nmcp2515_write(BFPCTRL,0x00/0b00000000/); \n\n}\n\n//-----------------------------------------------\nvoid mcp2515_transmit(char data0,char data1,char data2,char data3,char data4,char data5,char data6,char data7)\n{\nif(/(mcp2515_buff_wr_ptr<0)\|\|/(mcp2515_buff_wr_ptr>7))mcp2515_buff_wr_ptr=0;\n\nmcp2515_out_buff[0][mcp2515_buff_wr_ptr]=data0;\nmcp2515_out_buff[1][mcp2515_buff_wr_ptr]=data1;\nmcp2515_out_buff[2][mcp2515_buff_wr_ptr]=data2;\nmcp2515_out_buff[3][mcp2515_buff_wr_ptr]=data3;\nmcp2515_out_buff[4][mcp2515_buff_wr_ptr]=data4;\nmcp2515_out_buff[5][mcp2515_buff_wr_ptr]=data5;\nmcp2515_out_buff[6][mcp2515_buff_wr_ptr]=data6;\nmcp2515_out_buff[7][mcp2515_buff_wr_ptr]=data7;\n\nmcp2515_buff_wr_ptr++;\nif(mcp2515_buff_wr_ptr>7)mcp2515_buff_wr_ptr=0;\n} \n\n//-----------------------------------------------\nvoid can_mcp2515_hndl(void)\n{\nunsigned char /temp,/j,temp_index,c_temp;\nstatic char ch_cnt;\n//#asm(\"cli\")\nmcp2515_can_st=mcp2515_read_status();\nmcp2515_can_st_old=mcp2515_can_st;\n\n\nif(mcp2515_can_st&0x02/0b00000010/)\n\t{\n\t\n\tfor(j=0;j<8;j++)\n\t\t{\n\t\t/MCP2515_/RXBUFF[j]=mcp2515_read(RXB1D0+j);\n\t\t}\n\t\n\tmcp2515_bit_modify(CANINTF,0x02 /0b00000010/ ,0x00);\n bMCP2515_IN=1;\n\t}\n \n \nelse if(/(can_st1&0b10101000)&&/(!(mcp2515_can_st&0x54/0b01010100/)))\n\t{\n\tchar n;\n mcp2515_bit_modify(CANINTF,0x1c/0b00011100/,0x00);\n \n if(mcp2515_buff_rd_ptr!=mcp2515_buff_wr_ptr)\n \t{\n//\t\tcan_plazma++;\n \tfor(n=0;n<8;n++)\n\t\t\t{ \n\t\t\tmcp2515_write(TXB0D0+n,mcp2515_out_buff[n][mcp2515_buff_rd_ptr]);\n\t\t\t} \n \t\tmcp2515_write(TXB0DLC,8);\n \t\tmcp2515_rts(0); \n \t\t\n \t\tmcp2515_buff_rd_ptr++;\n \t\tif(mcp2515_buff_rd_ptr>7)mcp2515_buff_rd_ptr=0;\n \t\t} \n \t} \t\n\t\t\n//#asm(\"sei\") \n}\r\n\r\n" }, { "alpha_fraction": 0.546198844909668, "alphanum_fraction": 0.7298245429992676, "avg_line_length": 29.891565322875977, "blob_id": "6b3bb301e937e7bd27a9abb01b5b71ae710df596", "content_id": "02ddddfc1e974624d9650247f0d320e4f37d6366", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 2565, "license_type": "no_license", "max_line_length": 131, "num_lines": 83, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/stark.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"stark.h\"\n#include \"ztt.h\"\n#include \"stdint.h\"\n#include \"uart1.h\"\n#include \"main.h\"\n\nchar portForSTARKBatteryIsInitiated=0;\nchar sTARKBatteryHndlPhase;\nchar sTARKRequestPhase;\nshort sTARKSilentCnt[3];\nchar sTARKButteryCnter=0;\nchar sTARKBatteryHndlCmnd;\n\n//-----------------------------------------------\nvoid stark_bat_hndl(void)\n{\n\nif(portForSTARKBatteryIsInitiated==0)\n\t{\n\t//UARTInit(1, 9600);\t/ baud rate setting /\n\tuart1_init(9600);\n\tportForSTARKBatteryIsInitiated=1;\n\t}\n\nsTARKBatteryHndlPhase++;\n\nif((sTARKSilentCnt[0])&&(sTARKSilentCnt[0]<10))sTARKSilentCnt[0]++;\nif((sTARKSilentCnt[1])&&(sTARKSilentCnt[1]<10))sTARKSilentCnt[1]++;\nif((sTARKSilentCnt[2])&&(sTARKSilentCnt[2]<10))sTARKSilentCnt[2]++;\n\nif(sTARKBatteryHndlPhase==4)\t//7E 32 36 30 30 34 36 34 32 45 30 30 32 30 31 46 44 33 30 0D\n\t{\n\tif(sTARKButteryCnter==0)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x30,0x30,0x30,0x34,0x36,0x34,0x32,0x45,0x30,0x30,0x32,0x30,0x30,0x46,0x44,0x33,0x37,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[0]==0)sTARKSilentCnt[0]=1;\n\t\t}\n\telse if(sTARKButteryCnter==1)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x30,0x30,0x31,0x34,0x36,0x34,0x32,0x45,0x30,0x30,0x32,0x30,0x31,0x46,0x44,0x33,0x35,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[1]==0)sTARKSilentCnt[1]=1;\n\t\t}\n\telse if(sTARKButteryCnter==2)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x36,0x30,0x30,0x34,0x36,0x34,0x32,0x45,0x30,0x30,0x32,0x30,0x33,0x46,0x44,0x32,0x45,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[2]==0)sTARKSilentCnt[2]=1;\n\t\t}\n\n\tsTARKRequestPhase=0;\n\n\t}\nelse if(sTARKBatteryHndlPhase==8)\n\t{\n\tif(sTARKButteryCnter==0)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x30,0x30,0x30,0x34,0x36,0x34,0x34,0x45,0x30,0x30,0x32,0x30,0x30,0x46,0x44,0x33,0x35,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[0]==0)sTARKSilentCnt[0]=1;\n\t\t}\n\telse if(sTARKButteryCnter==1) \n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x30,0x30,0x31,0x34,0x36,0x34,0x34,0x45,0x30,0x30,0x32,0x30,0x31,0x46,0x44,0x33,0x33,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[1]==0)sTARKSilentCnt[1]=1;\n\t\t}\n\telse if(sTARKButteryCnter==2)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x36,0x30,0x30,0x34,0x36,0x34,0x34,0x45,0x30,0x30,0x32,0x30,0x33,0x46,0x44,0x32,0x45,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[2]==0)sTARKSilentCnt[2]=1;\n\t\t} \n\n\tsTARKRequestPhase=1;\n\n\tsTARKBatteryHndlPhase=0;\n\t\n\tsTARKButteryCnter++;\n\tif(sTARKButteryCnter>=NUMBAT_FSO)sTARKButteryCnter=0;\n\t}\n}\n\n" }, { "alpha_fraction": 0.6751412153244019, "alphanum_fraction": 0.7436440587043762, "avg_line_length": 30.88372039794922, "blob_id": "1f2337e4fcbdb2a8988629ad37df1656ff19c3bf", "content_id": "c7d7e905c9f4632bd817f57716da7c3979ba49cf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1416, "license_type": "no_license", "max_line_length": 92, "num_lines": 43, "path": "/SOFT/UKU/2rki/uart1.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#define RX_BUFFER_SIZE1 100\r\n#define TX_BUFFER_SIZE1 300\r\n\r\n#define PT1\t(UIB1[1]&0x80)\r\n#define C_D1\t(UIB1[1]&0x40)\r\n#define FR1\t(UIB1[1]&0x20)\r\n\r\n#define VIC_UART1 \t7\r\n\r\nextern char bRXIN1;\r\nextern char UIB1[20];\r\nextern char flag1;\r\nextern char rx_buffer1[RX_BUFFER_SIZE1];\r\nextern char tx_buffer1[TX_BUFFER_SIZE1];\r\nextern unsigned short rx_wr_index1,rx_rd_index1,rx_counter1;\r\nextern unsigned short tx_wr_index1,tx_rd_index1,tx_counter1;\r\nextern char rx_buffer_overflow1;\r\nextern char plazma_uart1;\r\nextern char uart1_mess[10];\r\nextern char data_rs1[40];\r\ntypedef enum {ursMEGA=0x55,ursXPORT=0xaa}enum_usart1_router_stat;\r\nextern enum_usart1_router_stat usart1_router_stat;\r\nextern char usart1_router_wrk;\r\nextern char memo_out1[100];\r\n//extern char suzz[4];\r\nextern char UIB10[30];\r\nextern char usart1_router_cnt;\r\nextern char plazma_suz[5];\r\nextern volatile uint32_t UART1Status;\r\nextern volatile uint8_t UART1TxEmpty;\r\nextern char uart1_net_cnt;\r\n\r\nvoid putchar1(char c);\r\nvoid uart_out1 (char num,char data0,char data1,char data2,char data3,char data4,char data5);\r\nvoid uart_out_adr1 (char ptr, unsigned char len);\r\nvoid uart_out__adr1 (char ptr, unsigned char len);\r\nuint32_t uart1_init(uint32_t baudrate);\r\nchar getchar1(void);\r\nvoid UART1_IRQHandler (void);\r\nvoid uart_in_an1(void);\r\nchar index_offset1 (signed char index,signed char offset);\r\nchar control_check1(char index);\r\nvoid uart_in1(void);\r\n\r\n" }, { "alpha_fraction": 0.4832853078842163, "alphanum_fraction": 0.5485879182815552, "avg_line_length": 20.92612075805664, "blob_id": "1972c6f8d1294d17179a8abfb11f9ca351ec543a", "content_id": "6845c4c3d3c6feddd45b5e8b8cea636973b27f2f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 17350, "license_type": "no_license", "max_line_length": 104, "num_lines": 758, "path": "/SOFT/UKU/2/uart1.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"stdint.h\"\r\n#include \"uart1.h\"\r\n#include \"LPC17XX.H\" \r\n#include \"main.h\"\r\n#include \"25lc640.h\"\r\n#include \"eeprom_map.h\"\r\n#include \"control.h\"\r\n#include \"uart0.h\"\r\n#include \"cmd.h\"\r\n#include \"gran.h\"\r\n#include \"common_func.h\"\r\n#include \"avar_hndl.h\"\r\n#include \"sacred_sun.h\"\r\n#include \"ztt.h\"\r\n#include \"stark.h\"\r\n\r\n\r\nchar bRXIN1;\r\nchar UIB1[20];\r\nchar flag1;\r\nchar rx_buffer1[RX_BUFFER_SIZE1];\r\nchar tx_buffer1[TX_BUFFER_SIZE1];\r\nunsigned short rx_wr_index1,rx_rd_index1,rx_counter1;\r\nunsigned short tx_wr_index1,tx_rd_index1,tx_counter1;\r\nchar rx_buffer_overflow1;\r\nchar plazma_uart1;\r\nchar uart1_mess[10];\r\nchar data_rs1[40];\r\nenum_usart1_router_stat usart1_router_stat;\r\nchar usart1_router_wrk;\r\nchar memo_out1[100];\r\n//char suzz[4];\r\nchar UIB10[30];\r\nchar usart1_router_cnt;\r\nchar plazma_suz[5];\r\nvolatile uint32_t UART1Status;\r\nvolatile uint8_t UART1TxEmpty = 1;\r\n\r\nchar uart1_net_cnt=0;\r\n//-----------------------------------------------\r\nvoid putchar1(char c)\r\n{\r\nwhile (tx_counter1 == TX_BUFFER_SIZE1);\nif (tx_counter1 \|\| ((LPC_UART1->LSR & 0x60)==0))\n {\n tx_buffer1[tx_wr_index1]=c;\n if (++tx_wr_index1 == TX_BUFFER_SIZE1) tx_wr_index1=0;\n ++tx_counter1;\n }\nelse\r\n\t{\r\n\tLPC_PINCON->PINSEL4 &= ~0x0000c000;//!!!!!!!!!!!\r\n\tLPC_PINCON->PINSEL4 \|= 0x00000000; //!!!!!!!!!!! \r\n\tLPC_GPIO2->FIODIR\|=(1UL<<2);\r\n\tLPC_GPIO2->FIOPIN\|=(1UL<<2);\r\n\tLPC_UART1->THR=c;\r\n\t} \r\n}\r\n\r\n//-----------------------------------------------\r\nvoid uart_out1 (char num,char data0,char data1,char data2,char data3,char data4,char data5)\r\n{ \r\nchar i,t=0;\r\n//char ptr=&data1;\r\nchar UOB1[16]; \r\nUOB1[0]=data0;\r\nUOB1[1]=data1;\r\nUOB1[2]=data2;\r\nUOB1[3]=data3;\r\nUOB1[4]=data4;\r\nUOB1[5]=data5;\r\n\r\nfor (i=0;i<num;i++)\r\n\t{\r\n\tt^=UOB1[i];\r\n\t} \r\nUOB1[num]=num;\r\nt^=UOB1[num];\r\nUOB1[num+1]=t;\r\nUOB1[num+2]=END;\r\n\r\nfor (i=0;i<num+3;i++)\r\n\t{\r\n\tputchar1(UOB1[i]);\r\n\t} \t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid uart_out_adr1 (char ptr, unsigned char len)\r\n{\r\nchar UOB[300]/={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}/;\r\nunsigned char i,t=0;\r\n\r\n//suzz[3]++;\r\n\r\nfor(i=0;i<len;i++)\r\n\t{\r\n\tUOB[i]=ptr[i];\r\n\tt^=UOB[i];\r\n\t}\r\n\r\nUOB[len]=len;\r\nt^=len;\t\r\nUOB[len+1]=t;\t\r\nUOB[len+2]=END;\r\n \r\nfor (i=0;i<len+3;i++)\r\n\t{\r\n\tputchar1(UOB[i]);\r\n\t} \r\n}\r\n\r\n//-----------------------------------------------\nvoid uart_out_buff1 (char ptr, char len)\n{\nchar UOB[60]/={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}/;\nchar i,t=0;\n\n//rs232_data_out_buff[4]=210;\n\nfor(i=0;i<len;i++)\n\t{\n\tUOB[i]=ptr[i];\n\tt^=UOB[i];\n\t}\n\nfor (i=0;i<len;i++)\n\t{\n\tputchar1(UOB[i]);\n\t} \n}\r\n\r\n//-----------------------------------------------\r\nvoid uart_out__adr1 (char ptr, unsigned char len)\r\n{\r\nchar UOB[300]/={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}/;\r\nunsigned char i,t=0;\r\n\r\n//suzz[3]++;\r\n\r\nfor(i=0;i<len;i++)\r\n\t{\r\n\tUOB[i]=ptr[i];\r\n\tt^=UOB[i];\r\n\t}\r\n/\r\nUOB[len]=len;\r\nt^=len;\t\r\nUOB[len+1]=t;\t\r\nUOB[len+2]=END;/\r\n \r\nfor (i=0;i<len;i++)\r\n\t{\r\n\tputchar1(UOB[i]);\r\n\t} \r\n}\r\n//-----------------------------------------------\r\nuint32_t uart1_init(uint32_t baudrate)\r\n{\r\nuint32_t Fdiv;\r\nuint32_t pclkdiv, pclk;\r\n\r\nLPC_PINCON->PINSEL4 &= ~0x0000000F;\nLPC_PINCON->PINSEL4 \|= 0x0000000A;\t/ Enable RxD1 P2.1, TxD1 P2.0 /\r\n\r\nLPC_PINCON->PINSEL4 &= ~0x00000030;//!!!!!!!!!!!\r\nLPC_PINCON->PINSEL4 \|= 0x00000000; //!!!!!!!!!!! \r\nLPC_GPIO2->FIODIR\|=(1UL<<2);\r\nLPC_GPIO2->FIOPIN&=~(1UL<<2);\r\n\r\npclkdiv = (LPC_SC->PCLKSEL0 >> 8) & 0x03;\r\nswitch ( pclkdiv )\r\n\t{\r\n\tcase 0x00:\r\n\tdefault:\r\n pclk = SystemFrequency/4;\r\n\tbreak;\r\n\tcase 0x01:\r\n\tpclk = SystemFrequency;\r\n\tbreak; \r\n\tcase 0x02:\r\n\tpclk = SystemFrequency/2;\r\n\tbreak; \r\n\tcase 0x03:\r\n\tpclk = SystemFrequency/8;\r\n\tbreak;\r\n\t}\r\n\r\nLPC_UART1->LCR = 0x83;\t\t/ 8 bits, no Parity, 1 Stop bit /\r\n#ifdef UKU_FSO\r\nLPC_UART1->LCR = 0x86;\t\t/ 8 bits, no Parity, 2 Stop bit /\r\n#endif //UKU_FSO\r\n\r\nFdiv = ( pclk / 16 ) / baudrate ;\t/baud rate /\r\n//plazmaSS_fso[9] = Fdiv;\r\nLPC_UART1->DLM = Fdiv / 256;\t\t\t\t\t\t\t\r\nLPC_UART1->DLL = Fdiv % 256;\r\n//LPC_UART1->DLM = 0;\t\t\t\t\t\t\t\r\n//LPC_UART1->DLL = 108;\r\n//LPC_UART1->FDR = 0xf8;\r\n\r\nLPC_UART1->LCR = 0x03;\t\t/ DLAB = 0 /\r\nLPC_UART1->FCR = 0x07;\t\t/ Enable and reset TX and RX FIFO. /\r\n\r\nNVIC_EnableIRQ(UART1_IRQn);\r\n\r\nLPC_UART1->IER = IER_RBR \| IER_THRE \| IER_RLS;\t/ Enable UART1 interrupt /\r\nreturn (TRUE);\r\n\r\n\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nchar getchar1(void)\r\n{\r\nchar data;\r\nwhile (rx_counter1==0);\r\ndata=rx_buffer1[rx_rd_index1];\r\nif (++rx_rd_index1 == RX_BUFFER_SIZE1) rx_rd_index1=0;\r\n--rx_counter1;\r\nreturn data;\r\n}\r\n\r\n//*********************************************\r\nvoid UART1_IRQHandler (void) \r\n{\r\nuint8_t IIRValue, LSRValue;\r\nuint8_t Dummy = Dummy;\r\nchar /status,u2iir,/data;\r\n\r\n\t\t\t\r\nIIRValue = LPC_UART1->IIR;\r\n \r\nIIRValue >>= 1;\t\t\t/ skip pending bit in IIR /\r\nIIRValue &= 0x07;\t\t\t/ check bit 1~3, interrupt identification /\r\nif ( IIRValue == IIR_RLS )\t\t/ Receive Line Status /\r\n \t{\r\n\tLSRValue = LPC_UART1->LSR;\r\n\t/ Receive Line Status /\r\n\t\r\n\t\r\n\t\r\n\tif ( LSRValue & (LSR_OE\|LSR_PE\|LSR_FE\|LSR_RXFE\|LSR_BI) )\r\n\t\t{\r\n\t \t/ There are errors or break interrupt /\r\n\t \t/ Read LSR will clear the interrupt /\r\n\t \tUART1Status = LSRValue;\r\n\t \tDummy = LPC_UART1->RBR;\t\t/ Dummy read on RX to clear \r\n\t\t\t\t\t\t\tinterrupt, then bail out /\r\n\t \treturn;\r\n\t\t}\r\n\tif ( LSRValue & LSR_RDR )\t/ Receive Data Ready /\t\t\t\r\n\t\t{\r\n\t\t\r\n\t\tdata=LPC_UART1->RBR;\r\n\t\trx_buffer1[rx_wr_index1]=data;\r\n \t\tbRXIN1=1;\r\n \t\tif (++rx_wr_index1 == RX_BUFFER_SIZE1) rx_wr_index1=0;\r\n \t\tif (++rx_counter1 == RX_BUFFER_SIZE1)\r\n \t\t{\r\n \t\trx_counter1=0;\r\n \t\trx_buffer_overflow1=1;\r\n \t\t}\r\n\r\n\r\n\t\t}\r\n\r\n \t}\r\nelse if ( IIRValue == IIR_RDA )\t/ Receive Data Available /\r\n \t{\r\n//\tplazmaSS_fso[0]++;\r\n\t//plazma_uart1++;\r\n\t\r\n\tdata=LPC_UART1->RBR;\r\n\t//plazmaSS_fso[5]=0;\r\n\tif (!tx_counter1)\r\n\t{\r\n\trx_buffer1[rx_wr_index1]=data;\r\n \tbRXIN1=1;\r\n\r\n \tif (++rx_wr_index1 == RX_BUFFER_SIZE1) rx_wr_index1=0;\r\n \tif (++rx_counter1 == RX_BUFFER_SIZE1)\r\n \t{\r\n \trx_counter1=0;\r\n \trx_buffer_overflow1=1;\r\n \t}\r\n\t//modbus_rx_buffer[modbus_rx_buffer_ptr]=data;\r\n\t//modbus_rx_buffer_ptr++;\r\n//\tmodbus_timeout_cnt=0;\r\n\r\n#ifdef UKU_FSO\r\n\tif(data==0x7e)\n\t\t{\n\t\tbat_drv_rx_cnt=0;\n\t\tbat_drv_rx_cnt=0;\r\n\t\tplazmaSS_fso[1]++;\n\t\t}\n\t//if(bat_drv_rx_cnt<50)\n\tbat_drv_rx_buff[bat_drv_rx_cnt++]=data;\n\t//if(bat_drv_rx_cnt==50) bat_drv_rx_in=1; \r\n\r\n\tif(data==0x0d)\r\n\t\t{\r\n\t\t//short post_length;\r\n/\t\tplazmaSS_fso[2]++;\r\n\t\tif(BAT_TYPE==2)\r\n\t\t\t{\r\n\t\t\tif(sacredSunRequestPhase==0)\tmem_copy (liBatteryInBuff, bat_drv_rx_buff, bat_drv_rx_cnt);\r\n\t\t\telse if(sacredSunRequestPhase==1)\tmem_copy (&liBatteryInBuff[150], bat_drv_rx_buff, bat_drv_rx_cnt);\r\n\t\t\tsacredSunSilentCnt=0;\r\n\t\t\t}\r\n\t\telse if (BAT_TYPE==3)\r\n\t\t\t{\r\n\t\t\tnumOfPacks_=((ascii2halFhex(bat_drv_rx_buff[15]))<<4)+((ascii2halFhex(bat_drv_rx_buff[16])));\r\n\t\t\tif(numOfPacks_)numOfPacks_--;\r\n\t\t \tif(numOfPacks_<0)numOfPacks_=0;\r\n\t\t\tif(numOfPacks_>NUMBAT)numOfPacks_=0;\r\n\t\t\tzTTSilentCnt[numOfPacks_]=50;\r\n\r\n\t\t\tif(zTTRequestPhase==0)\tmem_copy (liBatteryInBuff, bat_drv_rx_buff, bat_drv_rx_cnt);\r\n\t\t\telse if(zTTRequestPhase==1)\tmem_copy (&liBatteryInBuff[150], bat_drv_rx_buff, bat_drv_rx_cnt);\r\n\t\t\t//zTTSilentCnt=0;\r\n\t\t\t}\r\n\t\telse if (BAT_TYPE==4)\r\n\t\t\t{ /\r\n\t\t\tplazmaSS_fso[3]++;\r\n\t\t\tnumOfPacks_=((ascii2halFhex(bat_drv_rx_buff[3]))<<4)+((ascii2halFhex(bat_drv_rx_buff[4])));\r\n\t\t\t//if(numOfPacks_)numOfPacks_--;\r\n\t\t \tif(numOfPacks_<0)numOfPacks_=0;\r\n\t\t\tif(numOfPacks_>NUMBAT_FSO)numOfPacks_=0;\r\n\t\t\t//sTARKSilentCnt[numOfPacks_]=50;\r\n\r\n\t\t\tpost_length_=\t(((ascii2halFhex(bat_drv_rx_buff[10]))<<8)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(bat_drv_rx_buff[11]))<<4)+\r\n\t\t\t\t\t\t\t((ascii2halFhex(bat_drv_rx_buff[12]))))+18;\r\n\t\t\tif(post_length_==bat_drv_rx_cnt)\r\n\t\t\t\t{\r\n\t\t\t\tif(sTARKRequestPhase==0)\tmem_copy (liBatteryInBuff, bat_drv_rx_buff, bat_drv_rx_cnt);\r\n\t\t\t\telse if(sTARKRequestPhase==1)\tmem_copy (&liBatteryInBuff[150], bat_drv_rx_buff, bat_drv_rx_cnt);\r\n\t\t\t//zTTSilentCnt=0;\r\n\t\t\t\tsTARKSilentCnt[numOfPacks_]=0;\r\n\t\t\t\t}\r\n\t\t\tplazmaSS_fso[4]=sTARKRequestPhase;\r\n\t\t\tplazmaSS_fso[5]=bat_drv_rx_cnt;\r\n\t\t\tbat_drv_rx_cnt=0;\r\n\t\t/\t}\t/\r\n\t\t}\r\n#endif //UKU_FSO\r\n\t\t}\r\n\n \t}\r\nelse if ( IIRValue == IIR_CTI )\t/ Character timeout indicator /\r\n \t{\r\n\t/ Character Time-out indicator /\r\n\tUART1Status \|= 0x100;\t\t/ Bit 9 as the CTI error /\r\n \t}\r\nelse if ( IIRValue == IIR_THRE )\t/ THRE, transmit holding register empty /\r\n \t{\r\n\t/ THRE interrupt /\r\n\t\r\n\tLSRValue = LPC_UART1->LSR;\t\t/ Check status in the LSR to see if\r\n\t\t\t\t\t\t\t\t\tvalid data in U0THR or not /\r\n\tif ( LSRValue & LSR_THRE )\r\n\t\t{\r\n\t \tUART1TxEmpty = 1;\r\n\t\tif (tx_counter1)\r\n \t\t\t{\r\n \t\t\t--tx_counter1;\r\n \t\t\tLPC_UART1->THR=tx_buffer1[tx_rd_index1];\r\n \t\t\tif (++tx_rd_index1 == TX_BUFFER_SIZE1) tx_rd_index1=0;\r\n \t\t\t}\r\n\t\telse LPC_GPIO2->FIOPIN&=~(1UL<<2);\r\n\t\t}\r\n\telse\r\n\t\t{\r\n\t \tUART1TxEmpty = 0;\r\n\t\t}\r\n \t}\r\n}\r\n \r\n\r\n//-----------------------------------------------\r\nvoid uart_in_an1(void)\r\n{\r\nchar i;\r\n//motor_ind[0]^=0b0001000;\r\nplazma_suz[0]++;\r\n\r\nif(UIB1[1]!=0x51)\r\n{\r\nfor(i=0;i<24;i++)\r\n\t{\r\n\tUIB10[i]=UIB1[i];\r\n\t}\r\n}\r\nuart1_mess[0]++;\r\n\r\nif((UIB1[0]==4)&&(UIB1[1]==0)&&(UIB1[2]==2)&&(UIB1[3]==0)&&(UIB1[4]==1) && (ICA_EN==0))\r\n\t{\r\n\t\r\n\tuart_out1(5,4,1,2,(char)bps_I,(char)(bps_I/256),0);\r\n\tplazma_uart1++;\r\n\r\n\tuart1_net_cnt=0;\r\n\t}\r\n\r\n\r\nif((UIB1[0]==6)&&(UIB1[1]==0)&&(UIB1[2]==100) && (ICA_EN==0))\r\n\t{\r\n\tshort tempSSSS;\r\n\ttempSSSS=(short)UIB1[4] + ((short)UIB1[3])256;\r\n\r\n\tplazma_ica2=tempSSSS;\r\n\r\n\tif(tempSSSS&0x4000)\r\n\t\t{\r\n\t\ttempSSSS&=0x3fff;\r\n\t\tif((tempSSSS>0)&&(tempSSSS<5))tempSSSS=0;\r\n\t\telse if(tempSSSS>=60)tempSSSS=60;\r\n\t\tif(TBAT!=tempSSSS)lc640_write_int(EE_TBAT,tempSSSS);\r\n\r\n\t\tmain_kb_cnt=(tempSSSS60)-20;\r\n\t\t}\r\n\telse ica_cntrl_hndl=tempSSSS;\r\n\r\n\tica_cntrl_hndl_cnt=200;\r\n\r\n\tuart1_net_cnt=0;\r\n\t}\r\n\r\n\r\nelse if((UIB1[0]==4)&&(UIB1[1]==1)&&(UIB1[2]==2) && (ICA_EN==1) && (ICA_CH==2) )\r\n\t{\r\n\t\r\n\tica_your_current=(short)UIB1[3]+((short)UIB1[4]256);\r\n\r\n\tuart1_net_cnt=0;\r\n\t}\r\nelse if((UIB1[0]==CMND)&&(UIB1[1]==1))\r\n\t{\r\n//\tadc_buff_out_[0]=UIB1[2]+(UIB1[3]256);\r\n//\tadc_buff_out_[1]=UIB1[4]+(UIB1[5]256);\r\n\t}\r\n\r\nelse if((UIB1[0]==CMND)&&(UIB1[1]==2))\r\n\t{\r\n//\tadc_buff_out_[2]=UIB1[2]+(UIB1[3]256);\r\n//\tin_stat_out[0]=UIB1[4];\r\n//\tin_stat_out[1]=UIB1[5];\r\n\t}\r\n\t\r\n\t\t\t\r\n}\r\n \r\n//-----------------------------------------------\r\nchar index_offset1 (signed char index,signed char offset)\r\n{\r\nindex=index+offset;\r\nif(index>=RX_BUFFER_SIZE1) index-=RX_BUFFER_SIZE1; \r\nif(index<0) index+=RX_BUFFER_SIZE1;\r\nreturn index;\r\n}\r\n\r\n//-----------------------------------------------\r\nchar control_check1(char index)\r\n{\r\nchar i=0,ii=0,iii;\r\n\r\nif(rx_buffer1[index]!=END) goto error_cc;\r\n\r\nii=rx_buffer1[index_offset1(index,-2)];\r\niii=0;\r\nfor(i=0;i<=ii;i++)\r\n\t{\r\n\tiii^=rx_buffer1[index_offset1(index,-2-ii+i)];\r\n\t}\r\nif (iii!=rx_buffer1[index_offset1(index,-1)]) goto error_cc;\t\r\n\r\n\r\n//success_cc:\r\nreturn 1;\r\n//goto end_cc;\r\nerror_cc:\r\nreturn 0;\r\n//goto end_cc;\r\n\r\n//end_cc:\r\n//__nop();\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid uart_in1(void)\r\n{\r\nchar temp,i/,count/;\r\n\r\n__disable_irq();\r\n\r\nif(rx_buffer_overflow1)\r\n\t{\r\n\trx_wr_index1=0;\r\n\trx_rd_index1=0;\r\n\trx_counter1=0;\r\n\trx_buffer_overflow1=0;\r\n\t} \r\nusart1_router_wrk=1;\t\r\nif(rx_counter1&&(rx_buffer1[index_offset1(rx_wr_index1,-1)])==END)\r\n\t{\r\n\t\r\n temp=rx_buffer1[index_offset1(rx_wr_index1,-3)];\r\n \tif(temp<20) \r\n \t\t{\r\n \t\tif(control_check1(index_offset1(rx_wr_index1,-1)))\r\n \t\t\t{\r\n \t\t\r\n \t\t\trx_rd_index1=index_offset1(rx_wr_index1,-3-temp);\r\n \t\t\tfor(i=0;i<temp;i++)\r\n\t\t\t\t{\r\n\t\t\t\tUIB1[i]=rx_buffer1[index_offset1(rx_rd_index1,i)];\r\n\t\t\t\t} \r\n\t\t\trx_rd_index1=rx_wr_index1;\r\n\t\t\trx_counter1=0;\r\n\t\t\tuart_in_an1();\r\n\t\t\t\r\n\t\t\tif(usart1_router_stat==ursMEGA)usart1_router_wrk=0;\r\n \t\t\t}\r\n \t\r\n \t\t} \r\n \t}\r\n//rx_read_power_cnt_plazma++;\r\n#ifdef CE102M_ENABLED\r\n\tif(rx_read_power_cnt_phase==1)\r\n\t\t{\r\n\t\t\r\n\t\tif((rx_buffer1[rx_wr_index1-1]==0x0a)/&&(rx_buffer1[6]==0xc5)/)\r\n\t\t\t{\r\n\t\t\trx_read_power_cnt_plazma++;\r\n\t\t\trx_read_power_cnt_phase=2;\r\n\t\t\tce102m_delayCnt=200;\r\n\t\t\t}\r\n\t\t}\r\nelse if(rx_read_power_cnt_phase==3)\r\n\t\t{\r\n\t\t\r\n\t\tif(/(rx_buffer1[6]==0x81)&&/(rx_buffer1[rx_wr_index1-2]==0x03))\r\n\t\t\t{\r\n\t\t\trx_read_power_cnt_plazma++;\r\n\t\t\tif(bENERGOMETR_UIP==0) rx_read_power_cnt_phase=4;\r\n\t\t\telse if(bENERGOMETR_UIP==1) rx_read_power_cnt_phase=8;\r\n\t\t\telse rx_read_power_cnt_phase=20;\r\n\t\t\tce102m_delayCnt=200;\r\n\t\t\t}\r\n\t\t}\r\nelse if((rx_read_power_cnt_phase==5)&&(rx_wr_index1>10))\r\n\t\t{\r\n\t\t\r\n\t\tif(((rx_buffer1[rx_wr_index1-1])&0x7f)=='(')\r\n\t\t\t{\r\n\t\t\trx_read_power_cnt_plazma++;\r\n\t\t\trx_read_power_cnt_phase=6;\r\n\t\t\tce102m_delayCnt=200;\r\n\t\t\trx_wr_index1=0;\r\n\t\t\t}\r\n\t\t}\r\nelse if(rx_read_power_cnt_phase==6)\r\n\t\t{\r\n\t\tchar float_buff[20]={0,0,0,0,0,0,0,0,0,0};\r\n\t\tchar float_buff_ptr;\r\n\t\tfloat volta;\r\n\t\tchar i,point_marker;\r\n\t\tunsigned short ii;\t\t\r\n\t\tfloat_buff_ptr=float_buff;\r\n\r\n\t\tif(((rx_buffer1[rx_wr_index1-1])&0x7f)==')')\r\n\t\t\t{\r\n\t\t\tii=rx_wr_index1-1;\r\n\t\t\trx_read_power_cnt_plazma=rx_wr_index1-1;\r\n\t\t\t\r\n\t\t\tvolta_short=0;//rx_wr_index1-1;\r\n\t\t\tfor(i=0;i<ii;i++)\r\n\t\t\t\t{\r\n\t\t\t\tfloat_buff[i]=rx_buffer1[i]&0x7f;\r\n\t\t\t\tfloat_buff[i+1]=' ';\r\n //volta_short+=(rx_buffer1[ii-i]&0x7f);//-0x30)pow(10,i);\r\n \t\t\t\tif(float_buff[i]=='.')point_marker=i;\r\n\t\t\t\trx_read_power_cnt_plazma++;\r\n\t\t\t\t}\r\n\r\n\r\n\t\t///if(((rx_buffer1[rx_wr_index1-2])&0x7f)=='.')\r\n\t\t///\t{\r\n\t\t//\tchar s [] = \"1.23\";\r\n\t\t///\tii=rx_wr_index1-1;\r\n\t\t///\trx_read_power_cnt_plazma++;\r\n\t\t\trx_read_power_cnt_phase=15;\r\n\t\t\tce102m_delayCnt=200;\r\n\t\t\t//memcpy(float_buff,rx_buffer1,rx_wr_index1-1);\r\n\t\t///\tvolta_short=0;//rx_wr_index1-1;\r\n\t\t///\tfor(i=0;i<ii;i++)\r\n\t\t\t\t{\r\n\t\t///\t\tfloat_buff[i]=rx_buffer1[i]&0x7f;\r\n\t\t///\t\tfloat_buff[i+1]=' ';\r\n\t\t\t\t/if(rx_buffer1[ii-i]=='(')break;\r\n\t\t\t\telse/ //volta_short+=(rx_buffer1[ii-i]&0x7f);//-0x30)pow(10,i);\r\n\t\t\t\t}\r\n\t\t\t//float_buff[0]='2';\r\n\t\t\t//float_buff[1]='3';\r\n\t\t\t//float_buff[2]='4';\r\n\t\t\t//float_buff[3]='.';\r\n\t\t\t//float_buff[4]='5';\r\n\t\t\t//uart_out__adr1(float_buff, 10);\r\n\t\t\t//volta=atof(s);//atof(float_buff);\r\n\t\t\tvolta_short=((atoi(float_buff))10)+ ((atoi(&float_buff[point_marker+1]))/10);\r\n\t\t\t}\r\n\t\t}\r\nelse if(rx_read_power_cnt_phase==7)\r\n\t\t{\r\n\r\n\r\n\t\tif(((rx_buffer1[rx_wr_index1-1])&0x7f)==')')\r\n\t\t\t{\r\n\t\t\trx_read_power_cnt_phase=18;\r\n\t\t\trx_wr_index1=0;\t\r\n\t\t\tce102m_delayCnt=200;\r\n\t\t\t}\r\n\t\t}\r\nelse if((rx_read_power_cnt_phase==9)&&(rx_wr_index1>15))\r\n\t\t{\r\n\t\t\r\n\t\tif(((rx_buffer1[rx_wr_index1-1])&0x7f)=='(')\r\n\t\t\t{\r\n\t\t\trx_read_power_cnt_plazma++;\r\n\t\t\trx_read_power_cnt_phase=10;\r\n\t\t\t\r\n\t\t\trx_wr_index1=0;\r\n\t\t\t}\r\n\t\t}\r\nelse if((rx_read_power_cnt_phase==10)/&&(rx_wr_index1>2)/)\r\n\t\t{\r\n\t\tchar float_buff[20]={0,0,0,0,0,0,0,0,0,0};\r\n\t\tchar float_buff_ptr;\r\n\t\tfloat curr;\r\n\t\tchar i,point_marker;\r\n\t\tunsigned short ii;\r\n\t\tint curr_1,curr_2;\t\t\r\n\t\tfloat_buff_ptr=float_buff;\r\n\r\n\r\n\t\tif(((rx_buffer1[rx_wr_index1-1])&0x7f)==')')\r\n\t\t\t{\r\n\t\t//\tchar s [] = \"1.23\";\r\n\t\t\tii=rx_wr_index1-1;\r\n\t\t\trx_read_power_cnt_plazma=rx_wr_index1-1;\r\n\t\t\t\r\n\t\t\t//ce102m_delayCnt=500;\r\n\t\t\t//memcpy(float_buff,rx_buffer1,rx_wr_index1-1);\r\n\t\t\tcurr_short=0;//rx_wr_index1-1;\r\n\t\t\tfor(i=0;i<ii;i++)\r\n\t\t\t\t{\r\n\t\t\t\tfloat_buff[i]=rx_buffer1[i]&0x7f;\r\n\t\t\t\tfloat_buff[i+1]=' ';\r\n //volta_short+=(rx_buffer1[ii-i]&0x7f);//-0x30)pow(10,i);\r\n \t\t\t\tif(float_buff[i]=='.')point_marker=i;\r\n\t\t\t\trx_read_power_cnt_plazma++;\r\n\t\t\t\t}\r\n\t\t\tcurr_short=ii;\r\n\t\t\t/float_buff[0]='2';\r\n\t\t\tfloat_buff[1]='.';\r\n\t\t\tfloat_buff[2]='4';\r\n\t\t\tfloat_buff[3]='3';\r\n\t\t\tfloat_buff[4]='5';/\r\n\t\t\tcurr_1=atoi(float_buff);\r\n\t\t\tcurr_2=atoi(&float_buff[point_marker+1]);\r\n\t\t\tcurr_short=(curr_2/10)+(curr_1100);\r\n\t\t\t//curr=0.0;\r\n\t\t\t//uart_out__adr1(float_buff, 6);\r\n\t\t\t//curr=atof(float_buff);\r\n\t\t\t//curr=0.354;\r\n\t\t\t//uart_out__adr1((char)&curr, 10);\r\n\t\t\t//curr=1000.0;\r\n\t\t\t//(int)(curr);//volta;\r\n\t\t\trx_read_power_cnt_phase=17;\r\n\t\t\t}\r\n\t\t}\r\n\r\nelse if((rx_read_power_cnt_phase==21)&&(rx_wr_index1>10))\r\n\t\t{\r\n\t\t\r\n\t\tif(((rx_buffer1[rx_wr_index1-1])&0x7f)=='(')\r\n\t\t\t{\r\n\t\t\trx_read_power_cnt_plazma++;\r\n\t\t\trx_read_power_cnt_phase=22;\r\n\t\t\t\r\n\t\t\t//rx_read_power_cnt_plazma=rx_wr_index1;\r\n\t\t\trx_wr_index1=0;\r\n\r\n\t\t\t}\r\n\t\t}\r\nelse if((rx_read_power_cnt_phase==22)&&(rx_wr_index1>2))\r\n\t\t{\r\n\t\tchar float_buff[20]={0,0,0,0,0,0,0,0,0,0};\r\n\t\tchar* float_buff_ptr;\r\n\t\tfloat power;\r\n\t\tchar i,point_marker;\r\n\t\tunsigned short ii;\r\n\t\tint power_1,power_2;\t\t\r\n\t\tfloat_buff_ptr=float_buff;\r\n\r\n\r\n\t\tif(((rx_buffer1[rx_wr_index1-1])&0x7f)==')')\r\n\t\t\t{\r\n\t\t//\tchar s [] = \"1.23\";\r\n\t\t\tii=rx_wr_index1-1;\r\n\t\t\trx_read_power_cnt_plazma=rx_wr_index1-1;\r\n\t\t\t\r\n\t\t\t//ce102m_delayCnt=500;\r\n\t\t\t//memcpy(float_buff,rx_buffer1,rx_wr_index1-1);\r\n\t\t\tpower_int=0;//rx_wr_index1-1;\r\n\t\t\tfor(i=0;i<ii;i++)\r\n\t\t\t\t{\r\n\t\t\t\tfloat_buff[i]=rx_buffer1[i]&0x7f;\r\n\t\t\t\tfloat_buff[i+1]=' ';\r\n //volta_short+=(rx_buffer1[ii-i]&0x7f);//-0x30)pow(10,i);\r\n \t\t\t\tif(float_buff[i]=='.')\r\n\t\t\t\t\t{\r\n\t\t\t\t\tpoint_marker=i;\r\n\t\t\t\t\t//float_buff[i-1]='5';\r\n\t\t\t\t\t}\r\n\t\t\t\trx_read_power_cnt_plazma++;\r\n\t\t\t\t//if((point_marker!=0)&&(i==(point_marker+3)))break;\r\n\t\t\t\t}\r\n\t\t\tpower_int=ii;\r\n\t\t\t/float_buff[0]='2';\r\n\t\t\tfloat_buff[1]='.';\r\n\t\t\tfloat_buff[2]='4';\r\n\t\t\tfloat_buff[3]='3';\r\n\t\t\tfloat_buff[4]='5';/\r\n\t\t\tpower_1=atoi(float_buff);\r\n\t\t\tpower_2=(atoi(&float_buff[point_marker+1]))/1000;\r\n\t\t\tpower_int=power_2+(power_11000);\r\n\t\t\t//power_int=power_2;\r\n\t\t\t//curr=0.0;\r\n\t\t\t//float_buff[0]=rx_wr_index1;\r\n\t\t\t//uart_out__adr1(float_buff, 5);\r\n\t\t\t//curr=atof(float_buff);\r\n\t\t\t//curr=0.354;\r\n\t\t\t//uart_out__adr1((char)&curr, 10);\r\n\t\t\t//curr=1000.0;\r\n\t\t\t//(int)(curr);//volta;\r\n\t\t\trx_read_power_cnt_phase=16;\r\n\t\t\t}\r\n\t\t}\r\n\r\n#endif\t\r\n\r\n\r\n__enable_irq(); \r\n} \t\r\n\r\n" }, { "alpha_fraction": 0.8298755288124084, "alphanum_fraction": 0.8340249061584473, "avg_line_length": 23, "blob_id": "d575dc7fefa08af3f903770c992fb8079b0ff0f4", "content_id": "372f9d8b80ed0bfde2455538903063e7c119b3df", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 241, "license_type": "no_license", "max_line_length": 43, "num_lines": 10, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/stark.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "extern char portForSTARKBatteryIsInitiated;\nextern char sTARKBatteryHndlPhase;\nextern char sTARKRequestPhase;\nextern short sTARKSilentCnt[3];\nextern char sTARKButteryCnter;\nextern char sTARKBatteryHndlCmnd;\n\n\n\t\t \nvoid stark_bat_hndl(void);\n\n" }, { "alpha_fraction": 0.47734200954437256, "alphanum_fraction": 0.576849639415741, "avg_line_length": 28.175935745239258, "blob_id": "ac0d724ab0afd3cb0df33cc0f5e1c607acbea842", "content_id": "13a479dd710150c127093b1e61f44e7f4f88fd7e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 29857, "license_type": "no_license", "max_line_length": 102, "num_lines": 989, "path": "/SOFT/UKU/Олег-2021.02.12/full_can1.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\t#include \"main.h\"\r\n#include <LPC21xx.H>\r\n#include \"full_can.h\"\r\n#include \"cmd.h\"\r\n#include \"mess.h\"\r\n#include \"global_define.h\"\r\n\r\n\r\n// Counts number of filters (CAN message objects) used so far\r\nshort volatile gCANFilter = 0;\r\n\r\nchar ptr_can1_tx_wr,ptr_can1_tx_rd;\r\nlong can1_info[8];\r\nlong can1_id[8];\r\nlong can1_data[8];\r\nlong can1_datb[8];\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\nchar ptr_can2_tx_wr,ptr_can2_tx_rd;\r\n\r\nlong can2_info[8];\r\nlong can2_id[8];\r\nlong can2_data[8];\r\nlong can2_datb[8];\r\n\r\nunsigned short rotor_can[6];\r\n\r\n// Type definition to hold a FullCAN message\r\n// Compatible to FullCAN Mode Stored Messages in LPC User Manual\r\ntypedef struct\r\n{\r\n unsigned int Dat1; // Bits 0..10: CAN Message ID\r\n // Bits 13..15: CAN interface number (1..4)\r\n // Bits 16..19: DLC - Data Length Counter\r\n // Bits 24..25: Semaphore bits\r\n unsigned int DatA; // CAN Message Data Bytes 0-3\r\n unsigned int DatB; // CAN Message Data Bytes 4-7\r\n} FULLCAN_MSG;\r\n\r\n\r\n// FullCAN Message List\r\nFULLCAN_MSG volatile gFullCANList[MAX_FILTERS];\r\n\r\nchar bR;\r\nchar RXBUFF[40],TXBUFF[40];\r\nchar bIN,bIN2;\r\nchar bd_dumm[25];\r\nchar bd[25];\r\nchar TX_len;\r\nchar bOUT;\r\nchar RXBUFF2[40],TXBUFF2[40];\r\nextern char can_tx_cnt;\r\nextern char can_tx_cnt2;\r\nchar bOUT_FREE=1;\r\nchar bOUT_FREE2=1;\r\nchar rotor_rotor_rotor[2];\r\nchar can_tx_cnt;\r\n\r\nconst char Table87[]={\r\n0x00, 0x0E, 0x1C, 0x12, 0x38, 0x36, 0x24, 0x2A, 0x70, 0x7E, 0x6C, 0x62, 0x48, 0x46, 0x54, 0x5A,\r\n0xE0, 0xEE, 0xFC, 0xF2, 0xD8, 0xD6, 0xC4, 0xCA, 0x90, 0x9E, 0x8C, 0x82, 0xA8, 0xA6, 0xB4, 0xBA,\r\n0xCE, 0xC0, 0xD2, 0xDC, 0xF6, 0xF8, 0xEA, 0xE4, 0xBE, 0xB0, 0xA2, 0xAC, 0x86, 0x88, 0x9A, 0x94,\r\n0x2E, 0x20, 0x32, 0x3C, 0x16, 0x18, 0x0A, 0x04, 0x5E, 0x50, 0x42, 0x4C, 0x66, 0x68, 0x7A, 0x74,\r\n0x92, 0x9C, 0x8E, 0x80, 0xAA, 0xA4, 0xB6, 0xB8, 0xE2, 0xEC, 0xFE, 0xF0, 0xDA, 0xD4, 0xC6, 0xC8,\r\n0x72, 0x7C, 0x6E, 0x60, 0x4A, 0x44, 0x56, 0x58, 0x02, 0x0C, 0x1E, 0x10, 0x3A, 0x34, 0x26, 0x28,\r\n0x5C, 0x52, 0x40, 0x4E, 0x64, 0x6A, 0x78, 0x76, 0x2C, 0x22, 0x30, 0x3E, 0x14, 0x1A, 0x08, 0x06,\r\n0xBC, 0xB2, 0xA0, 0xAE, 0x84, 0x8A, 0x98, 0x96, 0xCC, 0xC2, 0xD0, 0xDE, 0xF4, 0xFA, 0xE8, 0xE6,\r\n0x2A, 0x24, 0x36, 0x38, 0x12, 0x1C, 0x0E, 0x00, 0x5A, 0x54, 0x46, 0x48, 0x62, 0x6C, 0x7E, 0x70,\r\n0xCA, 0xC4, 0xD6, 0xD8, 0xF2, 0xFC, 0xEE, 0xE0, 0xBA, 0xB4, 0xA6, 0xA8, 0x82, 0x8C, 0x9E, 0x90,\r\n0xE4, 0xEA, 0xF8, 0xF6, 0xDC, 0xD2, 0xC0, 0xCE, 0x94, 0x9A, 0x88, 0x86, 0xAC, 0xA2, 0xB0, 0xBE,\r\n0x04, 0x0A, 0x18, 0x16, 0x3C, 0x32, 0x20, 0x2E, 0x74, 0x7A, 0x68, 0x66, 0x4C, 0x42, 0x50, 0x5E,\r\n0xB8, 0xB6, 0xA4, 0xAA, 0x80, 0x8E, 0x9C, 0x92, 0xC8, 0xC6, 0xD4, 0xDA, 0xF0, 0xFE, 0xEC, 0xE2,\r\n0x58, 0x56, 0x44, 0x4A, 0x60, 0x6E, 0x7C, 0x72, 0x28, 0x26, 0x34, 0x3A, 0x10, 0x1E, 0x0C, 0x02,\r\n0x76, 0x78, 0x6A, 0x64, 0x4E, 0x40, 0x52, 0x5C, 0x06, 0x08, 0x1A, 0x14, 0x3E, 0x30, 0x22, 0x2C,\r\n0x96, 0x98, 0x8A, 0x84, 0xAE, 0xA0, 0xB2, 0xBC, 0xE6, 0xE8, 0xFA, 0xF4, 0xDE, 0xD0, 0xC2, 0xCC};\r\n\r\n\r\n\r\nconst char Table95[]={\r\n0x00, 0x2A, 0x54, 0x7E, 0xA8, 0x82, 0xFC, 0xD6, 0x7A, 0x50, 0x2E, 0x04, 0xD2, 0xF8, 0x86, 0xAC,\r\n0xF4, 0xDE, 0xA0, 0x8A, 0x5C, 0x76, 0x08, 0x22, 0x8E, 0xA4, 0xDA, 0xF0, 0x26, 0x0C, 0x72, 0x58,\r\n0xC2, 0xE8, 0x96, 0xBC, 0x6A, 0x40, 0x3E, 0x14, 0xB8, 0x92, 0xEC, 0xC6, 0x10, 0x3A, 0x44, 0x6E,\r\n0x36, 0x1C, 0x62, 0x48, 0x9E, 0xB4, 0xCA, 0xE0, 0x4C, 0x66, 0x18, 0x32, 0xE4, 0xCE, 0xB0, 0x9A,\r\n0xAE, 0x84, 0xFA, 0xD0, 0x06, 0x2C, 0x52, 0x78, 0xD4, 0xFE, 0x80, 0xAA, 0x7C, 0x56, 0x28, 0x02,\r\n0x5A, 0x70, 0x0E, 0x24, 0xF2, 0xD8, 0xA6, 0x8C, 0x20, 0x0A, 0x74, 0x5E, 0x88, 0xA2, 0xDC, 0xF6,\r\n0x6C, 0x46, 0x38, 0x12, 0xC4, 0xEE, 0x90, 0xBA, 0x16, 0x3C, 0x42, 0x68, 0xBE, 0x94, 0xEA, 0xC0,\r\n0x98, 0xB2, 0xCC, 0xE6, 0x30, 0x1A, 0x64, 0x4E, 0xE2, 0xC8, 0xB6, 0x9C, 0x4A, 0x60, 0x1E, 0x34,\r\n0x76, 0x5C, 0x22, 0x08, 0xDE, 0xF4, 0x8A, 0xA0, 0x0C, 0x26, 0x58, 0x72, 0xA4, 0x8E, 0xF0, 0xDA,\r\n0x82, 0xA8, 0xD6, 0xFC, 0x2A, 0x00, 0x7E, 0x54, 0xF8, 0xD2, 0xAC, 0x86, 0x50, 0x7A, 0x04, 0x2E,\r\n0xB4, 0x9E, 0xE0, 0xCA, 0x1C, 0x36, 0x48, 0x62, 0xCE, 0xE4, 0x9A, 0xB0, 0x66, 0x4C, 0x32, 0x18,\r\n0x40, 0x6A, 0x14, 0x3E, 0xE8, 0xC2, 0xBC, 0x96, 0x3A, 0x10, 0x6E, 0x44, 0x92, 0xB8, 0xC6, 0xEC, \r\n0xD8, 0xF2, 0x8C, 0xA6, 0x70, 0x5A, 0x24, 0x0E, 0xA2, 0x88, 0xF6, 0xDC, 0x0A, 0x20, 0x5E, 0x74, \r\n0x2C, 0x06, 0x78, 0x52, 0x84, 0xAE, 0xD0, 0xFA, 0x56, 0x7C, 0x02, 0x28, 0xFE, 0xD4, 0xAA, 0x80, \r\n0x1A, 0x30, 0x4E, 0x64, 0xB2, 0x98, 0xE6, 0xCC, 0x60, 0x4A, 0x34, 0x1E, 0xC8, 0xE2, 0x9C, 0xB6, \r\n0xEE, 0xC4, 0xBA, 0x90, 0x46, 0x6C, 0x12, 0x38, 0x94, 0xBE, 0xC0, 0xEA, 0x3C, 0x16, 0x68, 0x42};\r\n\r\n\r\n\r\nchar can_debug_plazma[2][10];\r\n\r\n//-----------------------------------------------\r\nchar CRC1_in(void)\r\n{\r\nchar r,j,lb;\r\nlb=(RXBUFF[1]&0x1f)+0x04;\r\nr=RXBUFF[0];\r\nfor(j=1;j<(lb+1);j++)\r\n\t{\r\n\tr=(RXBUFF[j]^Table87[r]);\r\n\t}\r\nif(r==0)r=0xFF;\r\nreturn r;\t\r\n} \r\n\r\n//-----------------------------------------------\r\nchar CRC2_in(void)\r\n{\r\nchar r,j,lb;\r\nlb=(RXBUFF[1]&0x1f)+0x04;\r\nr=RXBUFF[0];\r\nfor(j=1;j<(lb+1);j++)\r\n\t{\r\n\tr=(RXBUFF[j]^Table95[r]);\r\n\t}\r\nif(r==0)r=0xFF;\r\nreturn r;\t\r\n} \r\n\r\n//-----------------------------------------------\r\nchar CRC1_out(void)\r\n{\r\nchar r,j,lb;\r\nlb=(TXBUFF[1]&0x1f)+0x04;\r\nr=TXBUFF[0];\r\nfor(j=1;j<(lb+1);j++)\r\n\t{\r\n\tr=(TXBUFF[j]^Table87[r]);\r\n\t}\r\nif(r==0)r=0xFF;\r\nreturn r;\t\r\n} \r\n\r\n//-----------------------------------------------\r\nchar CRC2_out(void)\r\n{\r\nchar r,j,lb;\r\nlb=(TXBUFF[1]&0x1f)+0x04;\r\nr=TXBUFF[0];\r\nfor(j=1;j<(lb+1);j++)\r\n\t{\r\n\tr=(TXBUFF[j]^Table95[r]);\r\n\t}\r\nif(r==0)r=0xFF;\r\nreturn r;\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid can1_out_adr(char* ptr,char num)\r\n{\r\n\r\nif(num<=8)\r\n\t{\r\n\tcan1_info[ptr_can1_tx_wr]=(((long)num)<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[0];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[1];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[2];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[3];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[4];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[5];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[6];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[7];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\t}\r\n\t\r\nelse if(num<=16)\r\n\t{\r\n\tcan1_info[ptr_can1_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[0];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[1];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[2];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[3];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[4];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[5];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[6];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[7];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\t\r\n\tcan1_info[ptr_can1_tx_wr]=(((long)(num-8))<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[8];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[9];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[10];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[11];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[12];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[13];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[14];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[15];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\t\r\n\t}\t\r\n\r\nelse if(num<=24)\r\n\t{\r\n\tcan1_info[ptr_can1_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[0];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[1];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[2];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[3];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[4];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[5];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[6];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[7];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\r\n\tcan1_info[ptr_can1_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[8];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[9];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[10];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[11];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[12];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[13];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[14];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[15];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\t\r\n\tcan1_info[ptr_can1_tx_wr]=(((long)(num-16))<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[16];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[17];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[16];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[19];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[20];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[21];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[22];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[23];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\t\r\n\t}\t\r\n\r\nelse if(num<=32)\r\n\t{\r\n\tcan1_info[ptr_can1_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[0];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[1];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[2];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[3];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[4];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[5];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[6];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[7];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\r\n\tcan1_info[ptr_can1_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[8];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[9];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[10];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[11];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[12];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[13];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[14];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[15];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\t\r\n\tcan1_info[ptr_can1_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[16];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[17];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[18];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[19];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[20];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[21];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[22];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[23];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\t\r\n\tcan1_info[ptr_can1_tx_wr]=(((long)(num-24))<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[24];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[25];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[26];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[27];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[28];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[29];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[30];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[31];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\t\r\n\t}\t\r\n\r\n\r\nif(bOUT_FREE)\r\n\t{\r\n\tC1TFI1=can1_info[ptr_can1_tx_rd];\r\n C1TID1=can1_id[ptr_can1_tx_rd];\r\n C1TDA1=can1_data[ptr_can1_tx_rd];\r\n C1TDB1=can1_datb[ptr_can1_tx_rd];\r\n C1CMR=0x00000021;\r\n ptr_can1_tx_rd++;\r\n if(ptr_can1_tx_rd>=8)ptr_can1_tx_rd=0;\r\n bOUT_FREE=0;\t\r\n\t}\r\n\r\n}\t\r\n\r\n//-----------------------------------------------\r\nvoid can2_out(char data0,char data1,char data2,char data3,char data4,char data5,char data6,char data7)\r\n{\r\n\r\ncan2_info[ptr_can2_tx_wr]=((8UL)<<16)&0x000f0000UL;\r\ncan2_id[ptr_can2_tx_wr]=0x0000009eUL;\r\n((char)&can2_data[ptr_can2_tx_wr])=data0;\r\n(((char)&can2_data[ptr_can2_tx_wr])+1)=data1;\r\n(((char)&can2_data[ptr_can2_tx_wr])+2)=data2;\r\n(((char)&can2_data[ptr_can2_tx_wr])+3)=data3;\r\n((char)&can2_datb[ptr_can2_tx_wr])=data4;\r\n(((char)&can2_datb[ptr_can2_tx_wr])+1)=data5;\r\n(((char)&can2_datb[ptr_can2_tx_wr])+2)=data6;\r\n(((char)&can2_datb[ptr_can2_tx_wr])+3)=data7;\t\r\nptr_can2_tx_wr++;\r\nif(ptr_can2_tx_wr>=8)ptr_can2_tx_wr=0;\r\n\r\n\r\n\r\nif(bOUT_FREE2)\r\n\t{\r\n\tC2TFI1=can2_info[ptr_can2_tx_rd];\r\n C2TID1=can2_id[ptr_can2_tx_rd];\r\n C2TDA1=can2_data[ptr_can2_tx_rd];\r\n C2TDB1=can2_datb[ptr_can2_tx_rd];\r\n C2CMR=0x00000021;\r\n ptr_can2_tx_rd++;\r\n if(ptr_can2_tx_rd>=8)ptr_can2_tx_rd=0;\r\n bOUT_FREE2=0;\t\r\n\t}\r\n\r\n}\t\r\n\r\n//-----------------------------------------------\r\nvoid can_adr_hndl(void)\r\n{\r\n\tTXBUFF[2]=RXBUFF[3];\r\n\tTXBUFF[3]=RXBUFF[2];\r\n\tTXBUFF[4]=((RXBUFF[4]&0xF0)>>4)\|((RXBUFF[4]&0x0f)<<4);\r\n\tTXBUFF[5]=((RXBUFF[5]&0xF0)>>4)\|((RXBUFF[5]&0x0f)<<4);\t\r\n}\t\r\n\r\n//-----------------------------------------------\r\nvoid can_in_an1(void)\r\n{\r\nif(!bIN) goto CAN_IN_AN_end; \r\ncan_debug_plazma[0][2]++;\r\n\r\nCAN_IN_AN_end:\r\nbIN=0;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid can_in_an2(void)\r\n{\r\n//char i;\r\n//signed short temp_SS;\r\nchar slave_num;\r\n\r\nif(!bIN2) goto CAN_IN_AN2_end; \r\n\r\ncan_debug_plazma[1][2]++;\r\n\r\nif((RXBUFF2[0]==sub_ind1)&&(RXBUFF2[1]==PUTID)&&(RXBUFF2[2]==0xdd)&&(RXBUFF2[3]==0xdd)&&(sub_ind==6))\r\n\t{\r\n\tmess_send(MESS2IND_HNDL,PARAM_U_AVT_GOOD,0,10);\r\n\t}\r\n\r\n\r\nif((RXBUFF2[1]==PUTTM1)&&((RXBUFF2[0]&0x1f)>=0)&&((RXBUFF2[0]&0x1f)<20))\r\n {\r\n slave_num=RXBUFF2[0]&0x1f;\r\n \r\n if((RXBUFF2[0]&0xe0)==0)bps[slave_num]._device=dSRC;\r\n else if((RXBUFF2[0]&0xe0)==0x40)bps[slave_num]._device=dINV;\r\n \t\r\n\tbps[slave_num]._buff[0]=RXBUFF2[2]; \r\n\tbps[slave_num]._buff[1]=RXBUFF2[3];\r\n\tbps[slave_num]._buff[2]=RXBUFF2[4];\r\n\tbps[slave_num]._buff[3]=RXBUFF2[5];\r\n\tbps[slave_num]._buff[4]=RXBUFF2[6];\r\n\tbps[slave_num]._buff[5]=RXBUFF2[7];\r\n\t\r\n\tbps[slave_num]._cnt=0;\r\n\tbps[slave_num]._is_on_cnt=10;\r\n\t\r\n \tif((bps[slave_num]._cnt==0)&&(bps[slave_num]._av&(1<<3))) avar_bps_hndl(slave_num,3,0);\r\n }\r\n\r\nif((RXBUFF2[1]==PUTTM2)&&((RXBUFF2[0]&0x1f)>=0)&&((RXBUFF2[0]&0x1f)<9))\r\n {\r\n slave_num=RXBUFF2[0]&0x1f; \r\n\r\n if((RXBUFF2[0]&0xe0)==0)bps[slave_num]._device=dSRC;\r\n else if((RXBUFF2[0]&0xe0)==0x40)bps[slave_num]._device=dINV;\r\n \r\n\tbps[slave_num]._buff[6]=RXBUFF2[2]; \r\n\tbps[slave_num]._buff[7]=RXBUFF2[3];\r\n\tbps[slave_num]._buff[8]=RXBUFF2[4];\r\n\tbps[slave_num]._buff[9]=RXBUFF2[5];\r\n\tbps[slave_num]._buff[10]=RXBUFF2[6];\r\n\tbps[slave_num]._buff[11]=RXBUFF2[7];\r\n\t\r\n\tbps[slave_num]._cnt=0;\r\n\tbps[slave_num]._is_on_cnt=10; \r\n\r\n \t//if((src[slave_num]._cnt==0)&&(src[slave_num]._av_net)) avar_s_hndl(slave_num,3,0); \r\n }\r\n\r\n\r\n\r\nCAN_IN_AN2_end:\r\nbIN2=0;\r\n}\r\n\r\n\r\n/************************************************************************\r\nDOES: Interrupt Service Routine for CAN receive on CAN interface 1\r\nGLOBALS: Copies the received message into the gFullCANList[] array\r\n Handles semaphore bits as described in LPC user manual\r\nRETURNS: nothing\r\n************************************************************************/ \r\n__irq void can_isr_rx1 (void) \r\n{\r\nunsigned int buf;\r\nunsigned int pDest;\r\nchar temp;\r\nchar ptr,j;\r\n//can_cnt++;\r\n\r\ncan_debug_plazma[0][0]++;\r\n\r\n//rotor_can[0]++;\r\n if(C1ICR & 0x00000001L)\r\n\t{\r\n\tcan_debug_plazma[0][1]++;\r\n\tif (!(C1RFS & 0xC0000400L))\r\n \t\t{ // 11-bit ID, no RTR, matched a filter\r\n\r\n \t\t//rotor_can[1]++;\r\n \t\t// initialize destination pointer\r\n \t\t// filter number is in lower 10 bits of C1RFS\r\n \t\tpDest = (unsigned int ) &(gFullCANList[(C1RFS & 0x000003FFL)].Dat1);\r\n \r\n \t\t// calculate contents for first entry into FullCAN list\r\n \t\tbuf = C1RFS & 0xC00F0000L; // mask FF, RTR and DLC\r\n \t\tbuf \|= 0x01002000L; // set semaphore to 01b and CAN port to 1\r\n \t\tbuf \|= C1RID & 0x000007FFL; // get CAN message ID\r\n\r\n \t\t// now copy entire message to FullCAN list\r\n \t\tpDest = buf; \r\n \t\tpDest++; // set to gFullCANList[(C1RFS & 0x000003FFL)].DatA\r\n \t\tpDest = C1RDA; \r\n \t\tpDest++; // set to gFullCANList[(C1RFS & 0x000003FFL)].DatB\r\n \t\tpDest = C1RDB; \r\n\r\n \t\t// now set the sempahore to complete\r\n \t\tbuf \|= 0x03000000L; // set semaphore to 11b\r\n \t\tpDest -= 2; // set to gFullCANList[(C1RFS & 0x000003FFL)].Dat1\r\n \t\tpDest = buf; \r\n \r\n\t\ttemp=(char)gFullCANList[0].DatA;\r\n\t\tif(temp==0x30) bR=0;\r\n\t\telse bR++;\r\n\t\r\n\t\ttemp=(char)(((gFullCANList[0].Dat1)>>16)&0x0f); \r\n \r\n \tptr=(char)(&gFullCANList[0].DatA);\r\n\t\r\n\t\tif(!bR)\r\n\t\t\t{\r\n\t\t\tfor(j=0;j<temp;j++)\r\n\t\t\t\t{\r\n\t\t\t\tRXBUFF[j]=ptr;\r\n\t\t\t\tptr++;\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(bR==1)\r\n\t\t\t{\r\n\t\t\tfor(j=8;j<(temp+8);j++)\r\n\t\t\t\t{\r\n\t\t\t\tRXBUFF[j]=ptr;\r\n\t\t\t\tptr++;\r\n\t\t\t\t} \r\n\t\t\t\r\n\t\t\t} \t\t\r\n\t\r\n\t\r\n\t\r\n\t\t\r\n\t\ttemp=((RXBUFF[1]&0x1f)+4);\r\n \t\t//rotor_can[2]++;\r\n\t\tif((CRC1_in()==RXBUFF[temp+1])&&(CRC2_in()==RXBUFF[temp+2])&&bR)\r\n\t\t\t{\r\n \r\n\t\t\tbIN=1;\r\n \t\t\t//rotor_can[3]++;\r\n \t\t\tcan_in_an1();\r\n\t\t\t} \r\n \r\n \t\t}\r\n\r\n\tC1CMR = 0x04; // release receive buffer\r\n\t}\r\n\r\n\r\nVICVectAddr = 0xFFFFFFFFL; // acknowledge Interrupt\r\n\r\n}\r\n\r\n \r\n/***********************************************************************\r\nDOES: Interrupt Service Routine for CAN receive on CAN interface 1\r\nGLOBALS: Copies the received message into the gFullCANList[] array\r\n Handles semaphore bits as described in LPC user manual\r\nRETURNS: nothing\r\n************************************************************************/ \r\n__irq void can_isr_rx2 (void) \r\n{\r\nunsigned int buf;\r\nunsigned int pDest;\r\nchar temp;\r\nchar ptr,j;\r\n//can_cnt++;\r\n\r\ncan_debug_plazma[1][0]++;\r\n\r\n\r\n\t\r\nif(C2ICR & 0x00000001L)\r\n\t{\r\n\tcan_debug_plazma[1][1]++;\t\r\n\tif (!(C2RFS & 0xC0000400L))\r\n \t\t{ // 11-bit ID, no RTR, matched a filter\r\n\r\n\t\t//rotor_can[3]++;\r\n \t\t// initialize destination pointer\r\n \t\t// filter number is in lower 10 bits of C1RFS\r\n \t\tpDest = (unsigned int ) &(gFullCANList[(C2RFS & 0x000003FFL)].Dat1);\r\n \r\n \t\t// calculate contents for first entry into FullCAN list\r\n \t\tbuf = C2RFS & 0xC00F0000L; // mask FF, RTR and DLC\r\n \t\tbuf \|= 0x01002000L; // set semaphore to 01b and CAN port to 1\r\n \t\tbuf \|= C2RID & 0x000007FFL; // get CAN message ID\r\n\r\n \t\t// now copy entire message to FullCAN list\r\n \t\tpDest = buf; \r\n \t\tpDest++; // set to gFullCANList[(C1RFS & 0x000003FFL)].DatA\r\n \t\tpDest = C2RDA; \r\n \t\tpDest++; // set to gFullCANList[(C1RFS & 0x000003FFL)].DatB\r\n \t\tpDest = C2RDB; \r\n\r\n \t\t// now set the sempahore to complete\r\n \t\tbuf \|= 0x03000000L; // set semaphore to 11b\r\n \t\tpDest -= 2; // set to gFullCANList[(C1RFS & 0x000003FFL)].Dat1\r\n \t\tpDest = buf; \r\n \r\n\t\ttemp=(char)gFullCANList[0].DatA;\r\n\t\t/if(temp==0x30) bR=0;\r\n\t\telse bR++;/\r\n\t\r\n\t\ttemp=(char)(((gFullCANList[0].Dat1)>>16)&0x0f); \r\n \r\n \tptr=(char)(&gFullCANList[0].DatA);\r\n\t\r\n\t\tfor(j=0;j<temp;j++)\r\n\t\t\t{\r\n\t\t\tRXBUFF2[j]=ptr;\r\n\t\t\tptr++;\r\n\t\t\t}\r\n\t\t}\r\n\t\t\t\r\n\tbIN2=1;\r\n\tcan_in_an2();\r\n\r\n\r\n\tC2CMR = 0x04; // release receive buffer\r\n\t}\r\n\r\nVICVectAddr = 0xFFFFFFFFL; // acknowledge Interrupt\r\n\r\n}\r\n\r\n/************************************************************************\r\nDOES: Interrupt Service Routine for CAN receive on CAN interface 1\r\nGLOBALS: Copies the received message into the gFullCANList[] array\r\n Handles semaphore bits as described in LPC user manual\r\nRETURNS: nothing\r\n************************************************************************/ \r\n\r\n__irq void can_isr_tx1 (void) \r\n{\r\n//unsigned int buf;\r\n//unsigned int pDest;\r\n//char temp;\r\n//char ptr,j;\r\n/\r\ncan_tx_cnt++;\r\n\r\nrotor_can[2]++;\r\n\r\nif(C1ICR & 0x00000002L)\r\n\t{\r\n\tif(ptr_can1_tx_wr!=ptr_can1_tx_rd)\r\n\t\t{\r\n\t\tC1TFI1=can1_info[ptr_can1_tx_rd];\r\n \tC1TID1=can1_id[ptr_can1_tx_rd];\r\n \tC1TDA1=can1_data[ptr_can1_tx_rd];\r\n \tC1TDB1=can1_datb[ptr_can1_tx_rd];\r\n \tC1CMR=0x00000021;\r\n \tptr_can1_tx_rd++;\r\n \tif(ptr_can1_tx_rd>=8)ptr_can1_tx_rd=0;\r\n\t\t}\r\n\telse bOUT_FREE=1;\r\n\t}\r\n\t\r\nelse if(C2ICR & 0x00000002L)\r\n\t{\r\n\tif(ptr_can2_tx_wr!=ptr_can2_tx_rd)\r\n\t\t{\r\n\t\tC2TFI1=can1_info[ptr_can2_tx_rd];\r\n \tC2TID1=can1_id[ptr_can2_tx_rd];\r\n \tC2TDA1=can1_data[ptr_can2_tx_rd];\r\n \tC2TDB1=can1_datb[ptr_can2_tx_rd];\r\n \tC2CMR=0x00000021;\r\n \tptr_can2_tx_rd++;\r\n \tif(ptr_can2_tx_rd>=8)ptr_can2_tx_rd=0;\r\n\t\t}\r\n\telse bOUT_FREE2=1;\r\n\t} /\r\nVICVectAddr = 0xFFFFFFFFL; // acknowledge Interrupt\r\n}\r\n\r\n\r\n/***********************************************************************\r\nDOES: Interrupt Service Routine for CAN receive on CAN interface 1\r\nGLOBALS: Copies the received message into the gFullCANList[] array\r\n Handles semaphore bits as described in LPC user manual\r\nRETURNS: nothing\r\n************************************************************************/ \r\n\r\n__irq void can_isr_tx2 (void) \r\n{\r\n//unsigned int buf;\r\n//unsigned int pDest;\r\n//char temp;\r\n//char ptr,j;\r\n\r\ncan_tx_cnt++;\r\n\r\nrotor_can[2]++;\r\n\r\n/if(C1ICR & 0x00000002L)\r\n\t{\r\n\tif(ptr_can1_tx_wr!=ptr_can1_tx_rd)\r\n\t\t{\r\n\t\tC1TFI1=can1_info[ptr_can1_tx_rd];\r\n \tC1TID1=can1_id[ptr_can1_tx_rd];\r\n \tC1TDA1=can1_data[ptr_can1_tx_rd];\r\n \tC1TDB1=can1_datb[ptr_can1_tx_rd];\r\n \tC1CMR=0x00000021;\r\n \tptr_can1_tx_rd++;\r\n \tif(ptr_can1_tx_rd>=8)ptr_can1_tx_rd=0;\r\n\t\t}\r\n\telse bOUT_FREE=1;\r\n\t}\r\n\t\r\nelse/ if(C2ICR & 0x00000002L)\r\n\t{\r\n\tif(ptr_can2_tx_wr!=ptr_can2_tx_rd)\r\n\t\t{\r\n\t\tC2TFI1=can1_info[ptr_can2_tx_rd];\r\n \tC2TID1=can1_id[ptr_can2_tx_rd];\r\n \tC2TDA1=can1_data[ptr_can2_tx_rd];\r\n \tC2TDB1=can1_datb[ptr_can2_tx_rd];\r\n \tC2CMR=0x00000021;\r\n \tptr_can2_tx_rd++;\r\n \tif(ptr_can2_tx_rd>=8)ptr_can2_tx_rd=0;\r\n\t\t}\r\n\telse bOUT_FREE2=1;\r\n\t}\r\nVICVectAddr = 0xFFFFFFFFL; // acknowledge Interrupt\r\n}\r\n\r\n/*************************************************************************/\r\n__irq void can_isr_err (void) \r\n{\r\n//unsigned int buf;\r\n//unsigned int pDest;\r\n//char temp;\r\n//char ptr,j;\r\n\r\n\r\n//rotor_can[2]++;\r\n\r\nif(C2ICR & 0x00000080L)\r\n\t{\r\n\tSET_REG(C2GSR,3,24,8);\r\n\tC2MOD=0;\r\n\tbOUT_FREE2=1;\r\n\t}\r\nVICVectAddr = 0xFFFFFFFFL; // acknowledge Interrupt\r\n}\r\n\r\n\r\n/***********************************************************************\r\nInitialization of a CAN interface\r\nas described in LPC_FullCAN_SW.h\r\n************************************************************************/ \r\nshort can1_init (unsigned short can_rx_vector, unsigned short can_tx_vector, unsigned int can_btr)\r\n{\r\nunsigned int pSFR; // pointer into SFR space\r\nunsigned int pSFR2; // pointer into SFR space\r\nunsigned int offset; // offset added to pSFR\r\n \r\nPINSEL1 \|= 0x00040000L; // Set bit 18\r\noffset = 0x00000000L; // Use 1st set of CAN registers\r\n\r\n// Reset and disable all message filters\r\ngCANFilter = 0;\r\n\r\n// Acceptance Filter Mode Register = off !\r\nAFMR = 0x00000001L;\r\n\r\npSFR = (unsigned int ) &C1MOD + offset; // Select Mode register\r\npSFR = 1; // Go into Reset mode\r\n\r\npSFR = (unsigned int ) &C1IER + offset; // Select Interrupt Enable Register\r\npSFR = 0;// Disable All Interrupts\r\n\r\npSFR = (unsigned int ) &C1GSR + offset; // Select Status Register\r\npSFR = 0; // Clear Status register\r\n\r\npSFR = (unsigned int ) &C1BTR + offset; // Select BTR Register\r\npSFR = can_btr; // Set bit timing\r\n\r\n // Set and enable receive interrupt\r\npSFR = (unsigned int ) &VICVectAddr0;\r\npSFR += can_rx_vector; // Set to desired interrupt vector\r\n \r\npSFR2 = (unsigned int ) &VICVectCntl0;\r\npSFR2 += can_rx_vector; // Set to desired interrupt control\r\n\r\n// Set interrupt vector\r\npSFR = (unsigned long) can_isr_rx1; \r\n// Use this Interrupt for CAN Rx1 Interrupt\r\npSFR2 = 0x20 \| 26;\r\n// Enable CAN Rx1 Interrupt\r\n//VICIntEnable \|= 0x04000000L; \r\n\r\n // Set and enable transmit interrupt\r\npSFR = (unsigned int ) &VICVectAddr0;\r\npSFR += can_tx_vector; // Set to desired interrupt vector\r\n \r\npSFR2 = (unsigned int ) &VICVectCntl0;\r\npSFR2 += can_tx_vector; // Set to desired interrupt control\r\n\r\n// Set interrupt vector\r\npSFR = (unsigned long) can_isr_tx1; \r\n// Use this Interrupt for CAN Rx1 Interrupt\r\npSFR2 = 0x20 \| 20;\r\n// Enable CAN Rx1 Interrupt\r\nVICIntEnable = 0x00100000L;\r\n\r\npSFR = (unsigned int ) &C1IER + offset; // Select Interrupt register\r\npSFR = 3; // Enable Receive & Transmit Interrupt\r\n\r\n// Enter Normal Operating Mode\r\npSFR = (unsigned int ) &C1MOD + offset; // Select Mode register\r\npSFR = 0; // Operating Mode \r\n\r\nreturn 1;\t\r\n}\r\n\r\n/***********************************************************************\r\nInitialization of a CAN interface\r\nas described in LPC_FullCAN_SW.h\r\n************************************************************************/ \r\nshort can2_init (unsigned short can_rx_vector, unsigned short can_tx_vector, unsigned int can_btr)\r\n{\r\nunsigned int pSFR; // pointer into SFR space\r\nunsigned int pSFR2; // pointer into SFR space\r\nunsigned int offset; // offset added to pSFR\r\n \r\nPINSEL1 \|= 0x00014000L; // Set bit 18\r\noffset = 0x00001000L; // Use 1st set of CAN registers\r\n\r\n// Reset and disable all message filters\r\ngCANFilter = 0;\r\n\r\n// Acceptance Filter Mode Register = off !\r\nAFMR = 0x00000001L;\r\n\r\npSFR = (unsigned int ) &C1MOD + offset; // Select Mode register\r\npSFR = 1; // Go into Reset mode\r\n\r\npSFR = (unsigned int ) &C1IER + offset; // Select Interrupt Enable Register\r\npSFR = 0;// Disable All Interrupts\r\n\r\npSFR = (unsigned int ) &C1GSR + offset; // Select Status Register\r\npSFR = 0; // Clear Status register\r\n\r\npSFR = (unsigned int ) &C1BTR + offset; // Select BTR Register\r\npSFR = can_btr; // Set bit timing\r\n\r\n\r\n\r\n // Set and enable error interrupt\r\npSFR = (unsigned int ) &VICVectAddr0;\r\npSFR += 12; // Set to desired interrupt vector\r\n \r\npSFR2 = (unsigned int ) &VICVectCntl0;\r\npSFR2 += 12; // Set to desired interrupt control\r\n\r\n// Set interrupt vector\r\npSFR = (unsigned long) can_isr_err; \r\n// Use this Interrupt for CAN Rx1 Interrupt\r\npSFR2 = 0x20 \| 19;\r\n// Enable CAN Rx1 Interrupt\r\nVICIntEnable = 1<<19; \r\n\r\n\r\n\r\n // Set and enable receive interrupt\r\npSFR = (unsigned int ) &VICVectAddr0;\r\npSFR += can_rx_vector; // Set to desired interrupt vector\r\n \r\npSFR2 = (unsigned int ) &VICVectCntl0;\r\npSFR2 += can_rx_vector; // Set to desired interrupt control\r\n\r\n// Set interrupt vector\r\npSFR = (unsigned long) can_isr_rx2; \r\n// Use this Interrupt for CAN Rx1 Interrupt\r\npSFR2 = 0x20 \| 27;\r\n// Enable CAN Rx1 Interrupt\r\nVICIntEnable = 0x08000000L; \r\n\r\n // Set and enable transmit interrupt\r\npSFR = (unsigned int ) &VICVectAddr0;\r\npSFR += can_tx_vector; // Set to desired interrupt vector\r\n \r\npSFR2 = (unsigned int ) &VICVectCntl0;\r\npSFR2 += can_tx_vector; // Set to desired interrupt control\r\n\r\n// Set interrupt vector\r\npSFR = (unsigned long) can_isr_tx2; \r\n// Use this Interrupt for CAN Rx1 Interrupt\r\npSFR2 = 0x20 \| 21;\r\n// Enable CAN Rx1 Interrupt\r\nVICIntEnable = 0x00200000L;\r\n\r\npSFR = (unsigned int ) &C1IER + offset; // Select Interrupt register\r\npSFR = 128+3; // Enable Receive & Transmit Interrupt\r\n\r\n// Enter Normal Operating Mode\r\npSFR = (unsigned int ) &C1MOD + offset; // Select Mode register\r\npSFR = 0; // Operating Mode \r\n\r\nreturn 1;\r\n}\r\n\r\n/***********************************************************************\r\nSetting a CAN receive filter\r\nas described in LPC_FullCAN_SW.h\r\n************************************************************************/ \r\nshort FullCAN_SetFilter (\r\n unsigned short can_port, // CAN interface number\r\n unsigned int CANID // 11-bit CAN ID\r\n )\r\n{\r\nunsigned int p, n;\r\nunsigned int buf0, buf1;\r\nunsigned int ID_lower, ID_upper;\r\nunsigned int candata;\r\nunsigned int pAddr;\r\n\r\n#ifdef REVISION_C\r\n if ((can_port < 0) \|\| (can_port > (MAX_CANPORTS-1))) \r\n#endif\r\n\r\n#ifndef REVISION_C\r\n if ((can_port < 1) \|\| (can_port > (MAX_CANPORTS))) \r\n#endif\r\n\r\n\r\n\r\n { // Illegal value for can_port\r\n return 0;\r\n }\r\n\r\n // Acceptance Filter Mode Register = off !\r\n AFMR = 0x00000001L;\r\n\r\n if (gCANFilter == 0)\r\n { // First call, init entry zero\r\n gFullCANList[0].Dat1 = 0x000037FFL; // CAN 1, disabled and unused\r\n }\r\n if (gCANFilter >= MAX_FILTERS)\r\n {\r\n return 0;\r\n }\r\n\r\n CANID &= 0x000007FFL; // Mask out 11-bit ID\r\n CANID \|= (can_port << 13); // Put can_port info in bits 13-15\r\n\r\n // Filters must be sorted by interface, then by priority\r\n // new filter is sorted into array\r\n p = 0;\r\n while (p < gCANFilter) // loop through all existing filters \r\n {\r\n if ((gFullCANList[p].Dat1 & 0x0000FFFFL) > CANID)\r\n {\r\n break;\r\n }\r\n p++;\r\n }\r\n\r\n // insert new filter here\r\n buf0 = gFullCANList[p].Dat1; // save current entry\r\n gFullCANList[p].Dat1 = CANID; // insert the new entry\r\n\r\n // move all remaining entries one row up\r\n gCANFilter++;\r\n while (p < gCANFilter)\r\n {\r\n p++;\r\n buf1 = gFullCANList[p].Dat1;\r\n gFullCANList[p].Dat1 = buf0;\r\n buf0 = buf1;\r\n }\r\n\r\n // Now work on Acceptance Filter Configuration \r\n // Set CAN filter for 11-bit standard identifiers\r\n p = 0;\r\n\r\n // Set pointer for Standard Frame Individual\r\n // Standard Frame Explicit\r\n SFF_sa = p;\r\n\r\n pAddr = (unsigned int ) ACCEPTANCE_FILTER_RAM_BASE;\r\n for (n = 0; n < ((gCANFilter+1)/2); n++)\r\n {\r\n ID_lower = gFullCANList[n 2].Dat1 & 0x0000FFFFL;\r\n ID_upper = gFullCANList[n * 2 + 1].Dat1 & 0x0000FFFFL;\r\n candata = (ID_lower << 16) + ID_upper;\r\n pAddr = candata;\r\n p += 4;\r\n pAddr++;\r\n }\r\n\r\n // p is still pointing to ENDofTable;\r\n \r\n // Set pointer for Standard Frame Groups\r\n // Standard Frame Group Start Address Register\r\n SFF_GRP_sa = p;\r\n\r\n // Set pointer for Extended Frame Individual\r\n // Extended Frame Start Address Register\r\n EFF_sa = p;\r\n\r\n // Set pointer for Extended Frame Groups\r\n // Extended Frame Group Start Address Register\r\n EFF_GRP_sa = p;\r\n\r\n // Set ENDofTable \r\n // End of AF Tables Register\r\n ENDofTable = p;\r\n\r\n // Acceptance Filter Mode Register, start using filter\r\n AFMR = 0;\r\n \r\n return 1;\r\n}\r\n\r\n\r\n\r\n\r\n\r\n\r\n" }, { "alpha_fraction": 0.41673535108566284, "alphanum_fraction": 0.5140835046768188, "avg_line_length": 26.048503875732422, "blob_id": "800c74d34fe954fe36089cdf03fad32ffc6c6b35", "content_id": "12a35ae88b6d080af73023fbdae90b5865c87bc9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 67622, "license_type": "no_license", "max_line_length": 212, "num_lines": 2206, "path": "/SOFT/UKU/RKI/uart1.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#include \"uart1.h\"\r\n#include <LPC21XX.H> \r\n#include \"main.h\"\r\n#include \"25lc640.h\"\r\n#include \"eeprom_map.h\"\r\n#include \"control.h\"\r\n#include \"uart0.h\"\r\n#include \"cmd.h\"\r\n#include \"gran.h\"\r\n#include \"common_func.h\"\r\n#include \"avar_hndl.h\"\r\n\r\n\r\nchar bRXIN1;\r\nchar UIB1[20];\r\nchar flag1;\r\nchar rx_buffer1[RX_BUFFER_SIZE1];\r\nchar tx_buffer1[TX_BUFFER_SIZE1];\r\nunsigned short rx_wr_index1,rx_rd_index1,rx_counter1;\r\nunsigned short tx_wr_index1,tx_rd_index1,tx_counter1;\r\nchar rx_buffer_overflow1;\r\nchar plazma_uart1;\r\nchar uart1_mess[10];\r\nchar data_rs1[40];\r\nenum_usart1_router_stat usart1_router_stat;\r\nchar usart1_router_wrk;\r\nchar memo_out1[100];\r\n//char suzz[4];\r\nchar UIB10[30];\r\nchar usart1_router_cnt;\r\nchar plazma_suz[5];\r\n//-----------------------------------------------\r\nvoid putchar1(char c)\r\n{\r\nwhile (tx_counter1 == TX_BUFFER_SIZE1);\r\nif (tx_counter1 \|\| ((U1LSR & 0x60)==0))\r\n {\r\n tx_buffer1[tx_wr_index1]=c;\r\n if (++tx_wr_index1 == TX_BUFFER_SIZE1) tx_wr_index1=0;\r\n ++tx_counter1;\r\n }\r\nelse U1THR=c;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid uart_out1 (char num,char data0,char data1,char data2,char data3,char data4,char data5)\r\n{ \r\nchar i,t=0;\r\n//char ptr=&data1;\r\nchar UOB1[16]; \r\nUOB1[0]=data0;\r\nUOB1[1]=data1;\r\nUOB1[2]=data2;\r\nUOB1[3]=data3;\r\nUOB1[4]=data4;\r\nUOB1[5]=data5;\r\n\r\nfor (i=0;i<num;i++)\r\n\t{\r\n\tt^=UOB1[i];\r\n\t} \r\nUOB1[num]=num;\r\nt^=UOB1[num];\r\nUOB1[num+1]=t;\r\nUOB1[num+2]=END;\r\n\r\nfor (i=0;i<num+3;i++)\r\n\t{\r\n\tputchar1(UOB1[i]);\r\n\t} \t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid uart_out_adr1 (char ptr, unsigned char len)\r\n{\r\nchar UOB[300]/={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}/;\r\nunsigned char i,t=0;\r\n\r\n//suzz[3]++;\r\n\r\nfor(i=0;i<len;i++)\r\n\t{\r\n\tUOB[i]=ptr[i];\r\n\tt^=UOB[i];\r\n\t}\r\n\r\nUOB[len]=len;\r\nt^=len;\t\r\nUOB[len+1]=t;\t\r\nUOB[len+2]=END;\r\n \r\nfor (i=0;i<len+3;i++)\r\n\t{\r\n\tputchar1(UOB[i]);\r\n\t} \r\n}\r\n//-----------------------------------------------\r\nvoid uart1_init(void)\r\n{\r\n\r\nSET_REG(PINSEL0,1,82,2);\r\nSET_REG(PINSEL0,1,92,2);\r\n\r\nSET_REG(U1LCR,1,7/DLAB/,1);//U0LCR_bit.DLAB=1;\r\nU1DLL=(unsigned)(60000000UL/(BAUD_RATE116));\r\nU1DLM=(unsigned)(60000000UL/(BAUD_RATE116256));\r\nSET_REG(U1LCR,0,7/DLAB/,1);//U0LCR_bit.DLAB=0;\r\nU1LCR=0x03;\r\nU1FCR=0;\r\n\r\nVICProtection = 0;\r\nVICIntEnClr \|= (1 << VIC_UART1); \r\nVICIntSelect &= ~(1 << VIC_UART1);\r\nVICVectAddr3=(unsigned)uart1_interrupt;\r\nVICVectCntl3 = 0x20 \| VIC_UART1;\r\nVICIntEnable \|= (1 << VIC_UART1);\r\n\r\nU1IER=0x03;\r\n\r\n\r\n\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nchar getchar1(void)\r\n{\r\nchar data;\r\nwhile (rx_counter1==0);\r\ndata=rx_buffer1[rx_rd_index1];\r\nif (++rx_rd_index1 == RX_BUFFER_SIZE1) rx_rd_index1=0;\r\n--rx_counter1;\r\nreturn data;\r\n}\r\n\r\n//**********************************************\r\n__irq void uart1_interrupt(void)\r\n{\r\nchar /status,/u1iir,data;\r\n\r\n//status=U1LSR;\r\nu1iir=U1IIR;\r\n \t\r\nif((u1iir&0x0f)==4)\r\n\t{\r\n\tdata=U1RBR;\r\n\trx_buffer1[rx_wr_index1]=data;\r\n \tbRXIN1=1;\r\n \tif (++rx_wr_index1 == RX_BUFFER_SIZE1) rx_wr_index1=0;\r\n \tif (++rx_counter1 == RX_BUFFER_SIZE1)\r\n \t{\r\n \trx_counter1=0;\r\n \trx_buffer_overflow1=1;\r\n \t}\r\n \r\n \t}\r\nelse if((u1iir&0x0f)==2)\r\n\t{\r\n\tif (tx_counter1)\r\n \t\t{\r\n \t\t//usart1_router_wrk=1;\r\n \t\t--tx_counter1;\r\n \t\tU1THR=tx_buffer1[tx_rd_index1];\r\n \t\tif (++tx_rd_index1 == TX_BUFFER_SIZE1) tx_rd_index1=0;\r\n \t\t}\r\n \telse if(usart1_router_stat==ursXPORT)usart1_router_wrk=0;\t\r\n\t} \r\nVICVectAddr = 0; \t\r\n}\r\n \r\n\r\n//-----------------------------------------------\r\nvoid uart_in_an1(void)\r\n{\r\nchar i;\r\n//motor_ind[0]^=0b0001000;\r\nplazma_suz[0]++;\r\n\r\nif(UIB1[1]!=0x51)\r\n{\r\nfor(i=0;i<24;i++)\r\n\t{\r\n\tUIB10[i]=UIB1[i];\r\n\t}\r\n}\r\nuart1_mess[0]++;\r\n\r\nif((UIB1[0]==0x55)&&(UIB1[1]==0x66))\r\n\t{\r\n\t\r\n\tuart_out1(2,0x57,0x66,0,0,0,0);\r\n\t}\r\n\r\nelse if((UIB1[0]==CMND)&&(UIB1[1]==1))\r\n\t{\r\n//\tadc_buff_out_[0]=UIB1[2]+(UIB1[3]256);\r\n//\tadc_buff_out_[1]=UIB1[4]+(UIB1[5]256);\r\n\t}\r\n\r\nelse if((UIB1[0]==CMND)&&(UIB1[1]==2))\r\n\t{\r\n//\tadc_buff_out_[2]=UIB1[2]+(UIB1[3]256);\r\n//\tin_stat_out[0]=UIB1[4];\r\n//\tin_stat_out[1]=UIB1[5];\r\n\t}\r\n\t\r\nelse if((UIB1[0]==CMND)&&(UIB1[1]==QWEST)&&(UIB1[2]==PUTTM))\r\n\t{\r\n//\tadc_buff_out_[0]=UIB1[3]+(UIB1[4]256);\r\n//\tadc_buff_out_[1]=UIB1[5]+(UIB1[6]256);\r\n//\tadc_buff_out_[2]=UIB1[7]+(UIB1[8]256);\r\n//\tin_stat_out[0]=UIB1[9];\r\n//\tin_stat_out[1]=UIB1[10];\r\n//\tin_stat_out[2]=UIB1[11];\r\n//\tin_stat_out[3]=UIB1[12];\t\r\n\t}\t\r\n\r\n\r\n\t\t\r\nif((UIB1[0]==0x55)&&(!PT1)&&(!UIB1[2])&&(!UIB1[3])&&\r\n\t(((UIB1[4]&0xf0)==0x10)\|\|((UIB1[4]&0xf0)==0x20))&&((UIB1[4]&0x0f)==0x0a)\r\n\t&&(UIB1[(UIB1[1]&0x1f)+5]==crc_87(UIB1,(UIB1[1]&0x1f)+5))&&(UIB1[(UIB1[1]&0x1f)+6]==crc_95(UIB1,(UIB1[1]&0x1f)+5)))\r\n\t{\r\n\t//suz[1]++;\r\n\t//suz[0]++;\r\n\t//suz\r\n\t//((C_D1)&&(FR1)&&((UIB1[1]&0x1f)==1)&&(UIB1[5]==1))\r\n\t\r\n\tif((C_D1)&&(FR1)&&((UIB1[1]&0x1f)==4)&&(UIB1[5]==2)&&(UIB1[6]==2))\r\n\t\t{\r\n\t\t//suz[2]++;\r\n\t\tif((UIB1[7]==1)&&(UIB1[8]==1)) \r\n\t\t\t{\r\n\t\t\tlc640_write_int(EE_MAIN_IST,0);\r\n/////\t\t\tcnt_src[1]=10;\r\n\t\t\t}\r\n\t\telse if((UIB1[7]==2)&&(UIB1[8]==2))\r\n\t\t\t{\r\n\t\t\tlc640_write_int(EE_MAIN_IST,1);\r\n/////\t\t\tcnt_src[0]=10;\r\n\t\t\t}\r\n\t\t\r\n/////\t\tSt_[0]&=0x63;\r\n/////\t\tSt_[1]&=0x63;\r\n\t\t\r\n \tmemo_out1[0]=0x55;\r\n \tmemo_out1[1]=0x20+4;\r\n \tmemo_out1[2]=0;\r\n \tmemo_out1[3]=0;\r\n \tmemo_out1[4]=((UIB1[4]>>4)&0x0f)+((UIB1[4]<<4)&0xf0);\r\n \tmemo_out1[5]=0x02;\r\n \tmemo_out1[6]=0x02;\r\n \tmemo_out1[7]=UIB1[7];\r\n \tmemo_out1[8]=UIB1[8];\r\n \tmemo_out1[9]=crc_87(memo_out1,9);\r\n\t\tmemo_out1[10]=crc_95(memo_out1,9);\r\n \tuart_out_adr1(memo_out1,11); \r\n \t\r\n\t\t} \r\n\telse if((C_D1)&&(FR1)&&((UIB1[1]&0x1f)==3)&&(UIB1[5]==3)&&(UIB1[6]==3))\r\n\t\t{ \r\nplazma_uart1++;\r\n/////\t\tif(!(St&0x03)&&(NUMBAT))\r\n\t\t\t{\r\n/////\t\t\tspc_stat=spc_VZ;\r\n/////\t\t\tcnt_vz_sec_=3600ULUIB1[7];\r\n\t\t\tmemo_out1[6]=0xff;\r\n\t\t\t}\r\n/////\t\telse\r\n \t\t\t{\r\n \t\t\tmemo_out1[6]=0x01;\t\r\n \t\t\t}\t\r\n\r\n\r\n \tmemo_out1[0]=0x55;\r\n \tmemo_out1[1]=0x20+2;\r\n \tmemo_out1[2]=0;\r\n \tmemo_out1[3]=0;\r\n \tmemo_out1[4]=((UIB1[4]>>4)&0x0f)+((UIB1[4]<<4)&0xf0);\r\n \tmemo_out1[5]=0x03;\r\n \t\r\n \tmemo_out1[7]=crc_87(memo_out1,7);\r\n\t\tmemo_out1[8]=crc_95(memo_out1,7);\r\n \tuart_out_adr1(memo_out1,9); \t\t\r\n \t\r\n\r\n\t\t}\r\n\t\t\r\n\telse if((C_D1)&&(FR1)&&((UIB1[1]&0x1f)==2)&&(UIB1[5]==7)&&(UIB1[6]==7))\r\n\t\t{ \r\n\r\n/////\t\tspc_stat=spc_OFF;\r\n\t\t\t\t\r\n \tmemo_out1[0]=0x55;\r\n \tmemo_out1[1]=0x20+2;\r\n \tmemo_out1[2]=0;\r\n \tmemo_out1[3]=0;\r\n \tmemo_out1[4]=((UIB1[4]>>4)&0x0f)+((UIB1[4]<<4)&0xf0);\r\n \tmemo_out1[5]=0x07;\r\n \tmemo_out1[6]=0xff;\r\n \tmemo_out1[7]=crc_87(memo_out1,7);\r\n\t\tmemo_out1[8]=crc_95(memo_out1,7);\r\n \tuart_out_adr1(memo_out1,9); \t\t\r\n \t\r\n \r\n\t\t}\t\t\t\r\n\r\n\telse if((C_D1)&&(FR1)&&((UIB1[1]&0x1f)==2)&&(UIB1[5]==4)&&(UIB1[6]==4))\r\n\t\t{ \r\n ///// \t\tif(!(St&0x02)&&(NUMBAT))\r\n\t\t\t{\r\n/////\t\t\tspc_stat=spc_KE;\r\n\t\t\t//zar_cnt_ee_ke=0;\r\n////\t\t\tzar_cnt=0L;\r\n\t\t\tmemo_out1[6]=0xff;\r\n\t\t\t}\r\n/////\t\telse\r\n\t\t\t{\r\n\t\t\tmemo_out1[6]=0x01;\t\r\n\t\t\t}\t\t \r\n\t\t\r\n \tmemo_out1[0]=0x55;\r\n \tmemo_out1[1]=0x20+2;\r\n \tmemo_out1[2]=0;\r\n \tmemo_out1[3]=0;\r\n \tmemo_out1[4]=((UIB1[4]>>4)&0x0f)+((UIB1[4]<<4)&0xf0);\r\n \tmemo_out1[5]=0x04;\r\n \t\r\n \tmemo_out1[7]=crc_87(memo_out1,7);\r\n\t\tmemo_out1[8]=crc_95(memo_out1,7);\r\n \tuart_out_adr1(memo_out1,9); \t\t\r\n \t\r\n \t}\t\t \r\n\r\n\telse if((C_D1)&&(FR1)&&((UIB1[1]&0x1f)==2)&&(UIB1[5]==8)&&(UIB1[6]==8))\r\n\t\t{ \r\n\r\n//// \t\tspc_stat=spc_OFF;\r\n\r\n \tmemo_out1[0]=0x55;\r\n \tmemo_out1[1]=0x20+2;\r\n \tmemo_out1[2]=0;\r\n \tmemo_out1[3]=0;\r\n \tmemo_out1[4]=((UIB1[4]>>4)&0x0f)+((UIB1[4]<<4)&0xf0);\r\n \tmemo_out1[5]=0x08;\r\n \tmemo_out1[6]=0xff;\r\n \tmemo_out1[7]=crc_87(memo_out1,7);\r\n\t\tmemo_out1[8]=crc_95(memo_out1,7);\r\n \tuart_out_adr1(memo_out1,9); \t\t\r\n \t\r\n\r\n\t\t}\r\n\t\t\r\n\telse if((C_D1)&&(FR1)&&((UIB1[1]&0x1f)==2)&&(UIB1[5]==6)&&(UIB1[6]==6))\r\n\t\t{ \r\n\t\t//plazma++;\r\n \tmemo_out1[0]=0x55;\r\n \tmemo_out1[1]=0x20+2;\r\n \tmemo_out1[2]=0;\r\n \tmemo_out1[3]=0;\r\n \tmemo_out1[4]=((UIB1[4]>>4)&0x0f)+((UIB1[4]<<4)&0xf0);\r\n \tmemo_out1[5]=0x06;\r\n \tmemo_out1[6]=0x06;\r\n \tmemo_out1[7]=crc_87(memo_out1,7);\r\n\t\tmemo_out1[8]=crc_95(memo_out1,7);\r\n \tuart_out_adr1(memo_out1,9); \t\t\r\n \t\r\n\t\t}\t\r\n\r\n\telse if((C_D1)&&(FR1)&&((UIB1[1]&0x1f)==4)&&(UIB1[5]==5)&&(UIB1[6]==5)&&(UIB1[7]==1)&&(UIB1[8]==1))\r\n\t\t{ \r\n \t\t\r\n/////\t\tSt_[0]\|=0x20;\r\n/////\t\tSt_[1]&=0xdf;\r\n/////\t\tSt&=0xfb;\r\n/////\t\tcnt_imax=0; \r\n/////\t\tcnt_src[1]=10;\r\n/////\t\tcnt_alias_blok=60;\r\n\t\t\r\n \tmemo_out1[0]=0x55;\r\n \tmemo_out1[1]=0x20+4;\r\n \tmemo_out1[2]=0;\r\n \tmemo_out1[3]=0;\r\n \tmemo_out1[4]=((UIB1[4]>>4)&0x0f)+((UIB1[4]<<4)&0xf0);\r\n \tmemo_out1[5]=5;\r\n \tmemo_out1[6]=5; \r\n \tmemo_out1[7]=1;\r\n \tmemo_out1[8]=1; \t\r\n \tmemo_out1[9]=crc_87(memo_out1,9);\r\n\t\tmemo_out1[10]=crc_95(memo_out1,9);\r\n \tuart_out_adr1(memo_out1,11); \t\t\r\n \t\r\n \t\r\n\t\t}\t\r\n\r\n\telse if((C_D1)&&(FR1)&&((UIB1[1]&0x1f)==4)&&(UIB1[5]==5)&&(UIB1[6]==5)&&(UIB1[7]==2)&&(UIB1[8]==2))\r\n\t\t{ \r\n\r\n/////\t\tSt_[1]\|=0x20;\r\n/////\t\tSt_[0]&=0xdf;\r\n/////\t\tSt&=0xfb;\r\n/////\t\tcnt_imax=0; \r\n/////\t\tcnt_src[0]=10;\r\n/////\t\tcnt_alias_blok=60;\r\n\t\t\r\n \tmemo_out1[0]=0x55;\r\n \tmemo_out1[1]=0x20+4;\r\n \tmemo_out1[2]=0;\r\n \tmemo_out1[3]=0;\r\n \tmemo_out1[4]=((UIB1[4]>>4)&0x0f)+((UIB1[4]<<4)&0xf0);\r\n \tmemo_out1[5]=5;\r\n \tmemo_out1[6]=5; \r\n \tmemo_out1[7]=2;\r\n \tmemo_out1[8]=2; \t\r\n \tmemo_out1[9]=crc_87(memo_out1,9);\r\n\t\tmemo_out1[10]=crc_95(memo_out1,9);\r\n \tuart_out_adr1(memo_out1,11); \t\t\r\n \t\r\n \t\t\r\n \t\r\n\r\n\t\t}\t\r\n\r\n\telse if((C_D1)&&(FR1)&&((UIB1[1]&0x1f)==1)&&(UIB1[5]==1))\r\n\t\t{\r\n\t\t\r\n\t\t//suz[1]++;\r\n\t\t//suz[2]++;\r\n//\t\tplazma++;\r\n\t\tuart1_mess[1]++;\r\n\t\t\r\n\t\tmemo_out1[0]=0x55;\r\n \tmemo_out1[1]=0x1D;\r\n \tmemo_out1[2]=0;\r\n \tmemo_out1[3]=0;\r\n \tmemo_out1[4]=((UIB1[4]>>4)&0x0f)+((UIB1[4]<<4)&0xf0); \r\n \tmemo_out1[5]=0x01;\r\n \tmemo_out1[6]=data_rs1[0];\r\n\t\tmemo_out1[7]=data_rs1[1];\r\n\t\tmemo_out1[8]=data_rs1[2];\r\n\t\tmemo_out1[9]=data_rs1[3];\r\n\t\tmemo_out1[10]=data_rs1[4];\r\n\t\tmemo_out1[11]=data_rs1[5];\r\n\t\tmemo_out1[12]=data_rs1[6];\r\n \t\tmemo_out1[13]=data_rs1[7];\r\n\t\tmemo_out1[14]=data_rs1[8];\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\tmemo_out1[15]=data_rs1[9];\r\n\t\tmemo_out1[16]=data_rs1[10];\r\n\t\tmemo_out1[17]=data_rs1[11];\r\n\t\tmemo_out1[18]=data_rs1[12];\r\n\t\tmemo_out1[19]=data_rs1[13];\r\n\t\tmemo_out1[20]=data_rs1[14];\r\n\t\tmemo_out1[21]=data_rs1[15];\r\n\t\tmemo_out1[22]=data_rs1[16];\r\n\t\tmemo_out1[23]=data_rs1[17]; \r\n\t\tmemo_out1[24]=data_rs1[18];\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\tmemo_out1[25]=data_rs1[19];\r\n\t\tmemo_out1[26]=data_rs1[20];\r\n\t\tmemo_out1[27]=data_rs1[21];\r\n\t\tmemo_out1[28]=data_rs1[22];\r\n\t\tmemo_out1[29]=data_rs1[23];\r\n\t\tmemo_out1[30]=data_rs1[24];\r\n\t\t\r\n\t\tmemo_out1[31]=crc_87(memo_out1,31);\r\n\t\tmemo_out1[32]=crc_95(memo_out1,31);\r\n\t\r\n uart_out_adr1(memo_out1,33); \r\n\t\t}\t\t\t\t\t\r\n\t\r\n\t}\t\r\n\t\r\nif((UIB1[0]==0x33)&&(UIB1[4+UIB1[2]]==crc_87(UIB1,4+UIB1[2]))&&(UIB1[5+UIB1[2]]==crc_95(UIB1,4+UIB1[2])))\r\n\t{\r\n\t\r\n \tif((UIB1[1]==0x51)&&(UIB1[4]==1))\r\n\t\t{\r\n\t\tunsigned char lengt,i;\r\n\t\t\r\n\t\t//plazma_suz[1]++;\r\n\t\tlengt=83;\r\n\r\n\t\tlengt+=NUMBAT13;\r\n\t\tlengt+=NUMIST10;\r\n\t\t//lengt+=34;\r\n\t\t//lengt+=42;\r\n\t\t\r\n\t\t//lengt=30;\r\n\r\n\t\tmemo_out1[0]=0x33;\r\n\t\tmemo_out1[1]=0x61;\r\n\t \tmemo_out1[2]=lengt;\r\n\t \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\t\t\r\n\t \t\r\n\r\n\r\n\t memo_out1[4]=0x01; //ответ на запрос телеметрии\r\n\r\n\t\tmemo_out1[5]=NUMBAT;\t//Структура - количество введенных батарей.\r\n\t\tmemo_out1[6]=NUMIST;\t//Структура - количество БПСов в структуре.\r\n\t\tmemo_out1[7]=0/K[NUMINV]/;\t//Структура - количество инверторов в структуре.\r\n\t\tmemo_out1[8]=3;//Структура - количество внешних датчиков температур.\r\n\t\tmemo_out1[9]=4;\t// Структура - количество внешних логических входов(сухие контакты).\r\n\t\tmemo_out1[10]=0;\t//Структура, количество внешних исполнительных устройств\r\n\t\t\r\n\t\tmemo_out1[11]=10;\t//Первая плата расширения.\r\n\t\tmemo_out1[12]=10;\t//Наличие блока информации о климатконтроле.\r\n\t\tmemo_out1[13]=0;\t//Резерв, не анализируется.\r\n\r\n\r\n\t\tmemo_out1[14]=23;\t//Номер байта, с которого начинается блок информации о первичной сети питания.\r\n\t\tmemo_out1[15]=30;\t//Номер байта, с которого начинается блок информации о нагрузке.\r\n\t\t\r\n\t\t\r\n\t\tlengt=36;\r\n\t\tmemo_out1[16]=lengt;\t//Номер байта, с которого начинается блок информации о батареях (Если 0xFF, то информация о батареях не передается).\r\n\t \tif(memo_out1[5]==0)memo_out1[16]=0xff;\r\n\t\t \r\n\t\tlengt+=(13memo_out1[5]);\r\n\t\tmemo_out1[17]=lengt;\t//Номер байта, с которого начинается блок информации о БПСах (Если 0xFF, то информация о БПСах не передается).\r\n\t\tif(NUMIST==0)memo_out1[17]=0xff;\r\n\t\t\r\n\t\tlengt+=(10NUMIST);\r\n\t\tmemo_out1[18]=lengt;//Номер байта, с которого начинается блок информации об инверторах (Если 0xFF, то информация об инверторах не передается).\r\n /if(K[NUMINV]==0)/memo_out1[18]=0xff;\r\n \r\n //lengt+=0;\r\n\t\tmemo_out1[19]=lengt;\t//Номер байта, с которого начинается блок информации об внешних датчиках температуры (Если 0xFF, то информация об внешних датчиках температуры не передается).\r\n //if(NUMDT==0)memo_out1[19]=0xff;\r\n \r\n lengt+=(43);\r\n\t\tmemo_out1[20]=lengt;\t//Номер байта, с которого начинается блок информации об внешних логических входах (Если 0xFF, то информация об внешних логических входах не передается).\r\n //if(NUMSK==0)memo_out1[20]=0xff;\r\n \r\n \r\n lengt+=(24);\r\n\t\tmemo_out1[21]=lengt;\t//Номер байта, с которого начинается блок информации об спецфункциях\r\n\r\n lengt+=1;\r\n\t\tmemo_out1[22]=0xff;\t//Номер байта, с которого начинается блок информации об исполнительных устройствах\r\n\r\n //lengt+=1;\r\n\t\tmemo_out1[23]=lengt;\t//Номер байта, с которого начинается блок информации об параметрах платы расширения\r\n\t\t\r\n\t\tlengt+=14;\r\n\t\tmemo_out1[24]=lengt;\t//Номер байта, с которого начинается блок информации о климатконтроле\r\n\r\n //Блок информации о первичной сети питания\r\n\r\n lengt=memo_out1[14]+4;\r\n \r\n\t\t//net_F=plazma_suz[1]++;\r\n\t\t//net_U=234;\r\n\t\t //net_U=plazma_suz[0];\r\n \t\tmemo_out1[lengt++]=(char)net_U;\t\t//Напряжение питающей сети (дискретность 1В), младший байт.\r\n\t\tmemo_out1[lengt++]=(char)(net_U/256);\t//Напряжение питающей сети (дискретность 1В), старший байт.\r\n\t\tmemo_out1[lengt++]=(char)net_F;\t\t//Частота питающей сети (дискретность 0,1Гц), младший байт.\r\n\t\tmemo_out1[lengt++]=(char)(net_F/256);\t//Частота питающей сети (дискретность 0,1Гц), старший байт.\r\n\t\tmemo_out1[lengt++]=1;\t//Резерв, не анализируется.\r\n\t\tmemo_out1[lengt++]=1;\t//Резерв, не анализируется.\r\n\t\tmemo_out1[lengt]=2;\t// Байт состояния питающей сети.\r\n if(avar_stat&0x0001) memo_out1[lengt]\|=0x01;\r\n\t\t//0\t0\t0\t0\t0\t0\tF\tА\r\n\t\t//А: Авария(1 - активно).\r\n\t\t//F: 0 - частота не измеряется, байты 2 3 блока информации о нагрузке не анализируются, информация о частоте сети на экран терминальной программы не выводится.\r\n\r\n\t\t//Блок информации о нагрузке\r\n\t\tlengt=memo_out1[15]+4;\r\n\r\n\t\t//load_U=1234;\r\n\t\t//load_I=4321;\r\n\t\tmemo_out1[lengt++]=(char)load_U; \t\t//Напряжение нагрузки (дискретность 100мВ), младший байт.\r\n\t\tmemo_out1[lengt++]=(char)(load_U/256); \t//Напряжение нагрузки (дискретность 100мВ), старший байт.\r\n\t\tmemo_out1[lengt++]=(char)load_I; \t\t//Ток нагрузки (дискретность 100мА), младший байт.\r\n\t\tmemo_out1[lengt++]=(char)(load_I/256); \t//Ток нагрузки (дискретность 100мА), старший байт.\r\n\t\tmemo_out1[lengt++]=1; //Резерв, не анализируется.\r\n\t\tmemo_out1[lengt++]=1; //Резерв, не анализируется.\r\n\r\n\t\t//Блок информации о батареях\r\n \r\n\t\tif(memo_out1[16]!=0xff)\r\n\t\t\t{\r\n\t\t\tlengt=memo_out1[16]+4;\r\n\r\n\t\t\tfor(i=0;i<memo_out1[5];i++)\r\n\t\t\t\t{\r\n\t\t\t\tchar ttt;\r\n\t\t\t\t//bat[i]._Ub=345+i;\r\n\t\t\t\tmemo_out1[lengt++]=i+1; \t//Номер батареи(начиная с 1). Если 0xFF, то на экране программы батарея не нумеруется.\r\n\t\t\t\tmemo_out1[lengt++]=(char)bat[i]._Ub; \t\t//Напряжение батареи (дискретность 100мВ), младший байт.\r\n\t\t\t\tmemo_out1[lengt++]=(char)(bat[i]._Ub/256); //Напряжение батареи (дискретность 100мВ), старший байт.\r\n\t\t\t\tmemo_out1[lengt++]=(char)bat[i]._Ib; \t\t//Ток батареи (дискретность 10мА, со знаком), младший байт.\r\n\t\t\t\tmemo_out1[lengt++]=(char)((bat[i]._Ib)>>8); \t//Ток батареи (дискретность 10мА, со знаком), старший байт.\r\n\t\t\t\tmemo_out1[lengt++]=(char)bat[i]._Tb; \t\t//Температура батареи (дискретность ?С, со знаком), младший байт.\r\n\t\t\t\tmemo_out1[lengt++]=(char)(bat[i]._Tb/256); //Температура батареи (дискретность ?С, со знаком), старший байт.\r\n\t\t\t\t\r\n\t\t\t\tttt=0; \r\n\t\t\t\tif((bat[i]._av)&0x01)ttt\|=0x01;\r\n\t\t\t\tif(bat[i]._Ib>0)ttt\|=0x02;\r\n\t\t\t\tif((bat[i]._av)&0x02)ttt\|=0x04;\r\n\t\t\t\tif((bat[i]._Ub<(USIGN10))&&(BAT_IS_ON[i]==bisON))ttt\|=0x08;\r\n\t\t\t\tmemo_out1[lengt++]=ttt; //Байт состояния батареи.\r\n\t\t\t\t\r\n\t\t\t\t//0\t0\t0\t0\t0\tAS\tZ\tА\r\n\t //А: Авария(1 - активно) - батарея не выявлена в ходе последнего контроля наличия батареи(на экране терминальной программы все графы данной батареи заменить надписью \"Авария, батарея отсутствует\")\r\n\t\t\t\t//Z: Заряд: если 1 - батарея заряжается. \r\n\t\t\t\t//AS: Асимметрия батареи: если 1 - аварийное состояние\r\n\t\t\t \r\n\t\t\t\tif(BAT_C_REAL[i]==0x5555)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tmemo_out1[lengt++]=(char)(BAT_C_NOM[i]10); //Емкость батареи (дискретность 100мАЧ), младший байт.\r\n\t\t\t\t\tmemo_out1[lengt++]=(char)((BAT_C_NOM[i]10)/256); //Емкость батареи (дискретность 100мАЧ), старший байт.//Если емкость батареи 0xFFFF, то в графе \"Емкость\" прочерк.\r\n\t\t\t\t\t}\r\n\t\t\t\telse\r\n\t\t\t\t\t{\t\r\n\t\t\t\t\tmemo_out1[lengt++]=(char)BAT_C_REAL[i]; //Емкость батареи (дискретность 100мАЧ), младший байт.\r\n\t\t\t\t\tmemo_out1[lengt++]=(char)(BAT_C_REAL[i]/256); //Емкость батареи (дискретность 100мАЧ), старший байт.//Если емкость батареи 0xFFFF, то в графе \"Емкость\" прочерк.\r\n\t\t \t \t\t}\r\n\t\t \t \t\r\n\t\t \t \t \t\r\n\t\t \t \t\r\n\t\t \t \tif(BAT_C_REAL[i]==0x5555)memo_out1[lengt++]=0xff;//Заряд батареи в %..\r\n\t\t \t \telse memo_out1[lengt++]=bat[i]._zar;\r\n\r\n\t\t \t\tmemo_out1[lengt++]=1; //Резерв, не анализируется.\r\n\t\t\t\tmemo_out1[lengt++]=1; //Резерв, не анализируется.\r\n\t \t\t\t}\r\n \t\t} \r\n \r\n\t\t//Блок информации об БПСах\r\n\r\n\t\tif(memo_out1[17]!=0xff)\r\n\t\t\t{\r\n\t\t\tlengt=memo_out1[17]+4;\r\n\r\n\t\t\tfor(i=0;i<memo_out1[6];i++)\r\n\t\t\t\t{\r\n\t\t\t\t\r\n\t\t\t\t//char src_off;\r\n\t\t\t\t\r\n\t\t\t\t/////if(i==0)src_off=OFFBP1;\r\n\t\t\t\t/////else src_off=OFFBP2;\r\n\t\t\t\t\r\n\t\t\t\t\r\n\t\t\t\t\r\n\t\t\t\tmemo_out1[lengt++]=i+1; //Номер БПСа (начиная с 1).\r\n\t \t\t\tmemo_out1[lengt++]=(char)(bps[i]._Uii); \t\t//Напряжение БПСа (дискретность 100мВ), младший байт.\r\n\t\t\t\tmemo_out1[lengt++]=(char)((bps[i]._Uii)>>8); \t//Напряжение БПСа (дискретность 100мВ), старший байт.\r\n\t\t\t\tmemo_out1[lengt++]=(char)(bps[i]._Ii); \t\t\t//Ток БПСа (дискретность 100мА), младший байт.\r\n\t\t\t\tmemo_out1[lengt++]=(char)((bps[i]._Ii)>>8); \t\t//Ток БПСа (дискретность 100мА), старший байт.\r\n\t\t\t\tmemo_out1[lengt++]=(char)(bps[i]._Ti); \t\t\t//Температура БПСа (дискретность ?С, со знаком), младший байт.\r\n\t\t\t\tmemo_out1[lengt++]=(char)((bps[i]._Ti)>>8); \t\t//Температура БПСа (дискретность ?С, со знаком), старший байт.\r\n\t\t\t\t\r\n\t\t\t\tmemo_out1[lengt]=0; \t\t\t\t\t\t\t//Байт состояния БПСа.\r\n if(bps[i]._av&(1<<2))memo_out1[lengt]=BIN8(1000); //авария по Umin\r\n\t\t\t\telse if(bps[i]._av&(1<<1))memo_out1[lengt]=BIN8(100); //авария по Umax\r\n\t\t\t\telse if(bps[i]._av&(1<<0))memo_out1[lengt]=BIN8(10); //авария по Tmax\r\n\t\t\t\telse if(bps[i]._state==bsBL)memo_out1[lengt]=BIN8(100000); //заблокирован\r\n\t\t\t\telse if(bps[i]._state==bsWRK)memo_out1[lengt]=BIN8(1); //Работает\r\n\t\t\t\t//0\t0\tEB \tАС\tAM\tAU\tАT\tW\r\n lengt++;\r\n\t\t\t\t//W: Рабочее состояние (1 - активно) - БПС в работе.(На экране параметры работы БПСа)\r\n \t\t\t\t//Если 0 то по-порядку анализируются биты:\r\n\t\t\t\t//AT: Авария по перегреву БПСа (1 - активно), (\"Перегрев\").\r\n\t\t\t\t//AU: Авария по заниженному напряжению (1 - активно), (\"Занижено Uвых\").\r\n\t\t\t\t//AM: Авария по завышенному напряжению (1 - активно), (\"Завышено Uвых\").\r\n\t\t\t\t//AC: Авария по отсутствию связи с БПС (1 - активно), (\"Разрыв связи\").\r\n\t\t\t\t//EB: Внешняя блокировка БПС (заблокирован по связи оператором), (\"Заблокирован извне\").\r\n\t\t\t\t//Если 5 вышеперечисленных битов в нуле, значит (\"В резерве\"). \r\n \t\r\n\t\t\t\tmemo_out1[lengt++]=1; //Резерв, не анализируется.\r\n\t\t\t\tmemo_out1[lengt++]=1; //Резерв, не анализируется.\r\n } \r\n \r\n }\r\n \r\n \t\t//Блок информации о внешних датчиках температуры\r\n \t\tif(memo_out1[19]!=0xff)\r\n\t\t\t{\r\n\t\t\tlengt=memo_out1[19]+4;\r\n\r\n\t\t\tfor(i=0;i<memo_out1[8];i++)\r\n\t\t\t\t{\r\n\t\t\t\tmemo_out1[lengt++]=i+1; \t\t\t\t\t//Номер датчика температуры.\r\n\t\t\t\tmemo_out1[lengt++]=(char)t_ext[i]; \t\t//Температура датчика (дискретность ?С, со знаком), младший байт.\r\n\t\t\t\tmemo_out1[lengt++]=(char)(t_ext[i]/256); \t//Температура датчика (дискретность ?С, со знаком), старший байт.\r\n\t\t\t\tmemo_out1[lengt]=0; \t\t\t\t\t//Байт состояния датчика \r\n\t\t\t\tif(ND_EXT[i]) memo_out1[lengt]\|=0x01;\r\n\t\t\t\tlengt++;\r\n\t\t\t\t}\r\n \t\t} \r\n\r\n \t\tif(memo_out1[20]!=0xff)\r\n\t\t\t{\r\n\t\t\tlengt=memo_out1[20]+4;\r\n\r\n\t\t\tfor(i=0;i<memo_out1[9];i++)\r\n\t\t\t\t{\r\n\t\t\t\tmemo_out1[lengt++]=i+1; \t\t\t\t\t//Номер сухого контакта.\r\n\t\t\t\tmemo_out1[lengt]=0; \t\t \r\n\t\t\t\tif(sk_stat[i]==ssON)memo_out1[lengt]\|=0x01;\r\n\t\t\t\tif(sk_av_stat[i]==sasON)memo_out1[lengt]\|=0x02;\r\n lengt++;\r\n\t\t\t\t}\r\n \t\t} \r\n \r\n lengt=memo_out1[21]+4; \r\n if(spc_stat==spcOFF) memo_out1[lengt++]=0;\r\n else if(spc_stat==spcKE)\r\n {\r\n if(spc_bat==0)memo_out1[lengt++]=1;\r\n else if(spc_bat==1)memo_out1[lengt++]=2;\r\n }\r\n else if(spc_stat==spcVZ) memo_out1[lengt++]=10;\r\n\r\n\t\t//memo_out1[lengt++]=0;\r\n\t\t/////if(lc640_read_int(EE_IU1))memo_out0[lengt]\|=0x01;;\r\n /////if(lc640_read_int(EE_IU2))memo_out0[lengt]\|=0x02;\r\n\t\t/////if(lc640_read_int(EE_IU3))memo_out0[lengt]\|=0x04;\r\n\t\t/////if(lc640_read_int(EE_IU4))memo_out0[lengt]\|=0x08;\r\n\t\t \r\n\r\n \r\n lengt=memo_out1[23]+4;\r\n\r\n /Uvv[0]=201;\r\n Uvv[1]=202;\r\n Uvv[3]=203;\r\n\r\n vvod_pos=2;/ \r\n //power_current=432;\r\n //power_summary=123456789;\r\n\r\n\t\tmemo_out1[lengt++]=(char)Uvv0; \t\t//Напряжение ввода 1, младший байт.\r\n\t\tmemo_out1[lengt++]=(char)(Uvv0/256); \t//Напряжение ввода 1, старший байт.\r\n\t\tmemo_out1[lengt++]=(char)Uvv[1]; \t\t//Напряжение ввода 2, младший байт.\r\n\t\tmemo_out1[lengt++]=(char)(Uvv[1]/256); \t//Напряжение ввода 2, старший байт.\r\n\t\tmemo_out1[lengt++]=(char)Uvv[1]; \t\t//Напряжение ПЭС, младший байт.\r\n\t\tmemo_out1[lengt++]=(char)(Uvv[1]/256); \t//Напряжение ПЭС, старший байт.\r\n\t\tmemo_out1[lengt++]=(char)power_current; \t\t//мгновенная мощность, младший байт.\r\n\t\tmemo_out1[lengt++]=(char)(power_current/256); \t//мгновенная мощность, старший байт.\r\n\t\tmemo_out1[lengt++]=((char)&power_summary); \t\t//суммарная потребленная мощность, младший байт.\r\n\t\tmemo_out1[lengt++]=(((char)&power_summary)+1); \t //суммарная потребленная мощность, 1-й байт.\r\n\t\tmemo_out1[lengt++]=(((char)&power_summary)+2); \t\t//суммарная потребленная мощность, 2-й байт.\r\n\t\tmemo_out1[lengt++]=(((char)&power_summary)+3); \t //суммарная потребленная мощность, старший байт.\r\n\t\tmemo_out1[lengt++]=(char)pos_vent; \t\t //Позиция регулятора вентилятора.\r\n\t\tmemo_out1[lengt++]=(char)vvod_pos; \t //Активный ввод\r\n\r\n\t\t//Блок информации о климат-контроле.\r\n lengt=memo_out1[24]+4;\r\n\t\tmemo_out1[lengt++]=(char)t_box; \t\t//Температура шкафа, младший байт.\r\n\t\tmemo_out1[lengt++]=(char)(t_box/256); \t//Температура шкафа, старший байт.\r\n\t\tif(av_tbox_stat==atsON)memo_out1[lengt++]=1;\t//Аварийность температуры шкафа\r\n\t\telse if(av_tbox_stat!=atsON)memo_out1[lengt++]=0;\r\n\t\t\r\n\t\tif((tloaddisable_cmnd>=0)&&(tloaddisable_cmnd<=11))memo_out1[lengt++]=5;\r\n\t\telse if(tloaddisable_stat==tldsON)memo_out1[lengt++]=0;\t//Включенность нагрузки\r\n\t\telse if(tloaddisable_stat==tldsOFF)memo_out1[lengt++]=1;\r\n\t\telse if(tloaddisable_stat==tldsMNL)memo_out1[lengt++]=5;\r\n\r\n\t\tmemo_out1[lengt++]=tloaddisable_cmnd; \t\t//Переменная, управляющая включением нагрузки.\r\n\r\n\t\tif((tbatdisable_cmnd>=0)&&(tbatdisable_cmnd<=11))memo_out1[lengt++]=5;\r\n\t\telse if(tbatdisable_stat==tbdsON)memo_out1[lengt++]=0;\t//Включенность батареи\r\n\t\telse if(tbatdisable_stat==tbdsOFF)memo_out1[lengt++]=1;\r\n\t\telse if(tbatdisable_stat==tbdsMNL)memo_out1[lengt++]=5;\r\n\r\n\t\tmemo_out1[lengt++]=tbatdisable_cmnd; \t\t//Переменная, управляющая включением батареи.\r\n\r\n\t\tmemo_out1[lengt++]=main_vent_pos; \t\t\t//позиция вентилятора.\r\n\r\n memo_out1[memo_out1[2]+4]=crc_87(memo_out1,memo_out1[2]+4);\r\n\t\tmemo_out1[memo_out1[2]+5]=crc_95(memo_out1,memo_out1[2]+4);\r\n\t\tuart_out_adr1(memo_out1,memo_out1[2]+6);\r\n\t\t//uart_out_adr1(dig,150);\r\n//\t\tplazma_suz[0]=memo_out1[2]+6;\r\n\t\t/\r\n\t\tmemo_out0[0]=0x33;\r\n\t\tmemo_out0[1]=0x61;\r\n\t\tmemo_out0[2]=60;\r\n\t\tmemo_out0[3]=lengt;\r\n\t\tmemo_out0[64]=crc_87(memo_out0,64);\r\n\t\tmemo_out0[65]=crc_95(memo_out0,64);\r\n\t\tuart_out_adr1(memo_out0,66);/\r\n\t\t\r\n\t\t \r\n \t\t}\r\n\t\t\r\n\r\n/Блок информации о внешних датчиках температуры\r\n\r\nБайт данных [0]: Номер датчика (начиная с 1).\r\nБайт данных [1]: Температура датчика (дискретность ?С, со знаком), младший байт.\r\nБайт данных [2]: Температура датчика (дискретность ?С, со знаком), старший байт.\r\nБайт данных [3]: Байт состояния датчика.\r\n\r\n0\t0\t0 \t0\t0\t0\tАT\tA\r\n\r\nА: Неисправность датчика (1 - активно), (\"Датчик неисправен\")\r\nAT: Авария по температуре (1 - активно), (\"Температура датчика не в допуске\").\r\n\r\nБлок информации о внешних логических входах\r\n\r\nБайт данных [0]: Номер входа (начиная с 1).\r\nБайт данных [1]: Байт состояния входа.\r\n\r\n0\t0\t0 \t0\t0\t0\tАT\tA\r\n\r\nА: Активность входа (1 - активно), (\"Состояние активное/неактивное\")\r\nAВ: Аварийность входа (1 - активно), (\"Авария\")./\r\n\r\n\telse if((UIB1[1]==0x52)&&(UIB1[4]==2)&&(UIB1[5]==2)) //установить основной БПС\r\n\t\t{\r\n\t\t//suzz[2]++;\r\n\t\tif((UIB1[6]==1)&&(UIB1[7]==1)) \r\n\t\t\t{\r\n\t\t\tlc640_write_int(EE_MAIN_IST,0);\r\n\t\t\t/////cnt_src[1]=10;\r\n\t\t\t}\r\n\t\telse if((UIB1[6]==2)&&(UIB1[7]==2))\r\n\t\t\t{\r\n\t\t\tlc640_write_int(EE_MAIN_IST,1);\r\n\t\t\t/////cnt_src[0]=10;\r\n\t\t\t}\r\n\t\t\r\n\t\t/////St_[0]&=0x63;\r\n\t\t/////St_[1]&=0x63;\r\n\t\t\r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x62;\r\n \tmemo_out1[2]=4;\r\n \tmemo_out1[3]=0x03;\r\n \t\r\n \tmemo_out1[4]=UIB1[4];\r\n \tmemo_out1[5]=UIB1[5];\r\n \tmemo_out1[6]=UIB1[6];\r\n \tmemo_out1[7]=UIB1[7];\r\n \t\r\n \tmemo_out1[8]=crc_87(memo_out1,8);\r\n\t\tmemo_out1[9]=crc_95(memo_out1,8);\r\n \tuart_out_adr1(memo_out1,10); \t\t\r\n\t\t}\t\t\t\r\n\r\n\telse if((UIB1[1]==0x52)&&(UIB1[4]==9)&&(UIB1[5]==9)) //Включить параллельную работу\r\n\t\t{\r\n //plazma_suz[2]++;\r\n\t\tlc640_write_int(EE_PAR,1);\r\n\r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x62;\r\n \tmemo_out1[2]=2;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n \tmemo_out1[4]=9;\r\n \tmemo_out1[5]=0xff;\r\n \t\r\n \tmemo_out1[6]=crc_87(memo_out1,6);\r\n\t\tmemo_out1[7]=crc_95(memo_out1,6);\r\n \tuart_out_adr1(memo_out1,8); \t\t\r\n\t\t}\t\t\t\r\n\r\n\telse if((UIB1[1]==0x52)&&(UIB1[4]==10)&&(UIB1[5]==10)) //Выключить параллельную работу\r\n\t\t{\r\n ///plazma_suz[3]++;\r\n\t\tlc640_write_int(EE_PAR,0);\r\n\r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x62;\r\n \tmemo_out1[2]=2;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n \tmemo_out1[4]=10;\r\n \tmemo_out1[5]=0xff;\r\n \t\r\n \tmemo_out1[6]=crc_87(memo_out1,6);\r\n\t\tmemo_out1[7]=crc_95(memo_out1,6);\r\n \tuart_out_adr1(memo_out1,8); \t\t\r\n\t\t}\t\t\t\r\n\r\n\r\n\telse if((UIB1[1]==0x52)&&(UIB1[4]==3)&&(UIB1[5]==3)) //выравнивающий заряд старт\r\n\t\t{\r\n //plazma_suz[2]++;\r\n //plazma_suz[3]=UIB1[6];\r\n //\r\n\t\tif(!(avar_stat&0x07)&&(NUMBAT))\r\n\t\t\t{\r\n \tchar temp;\r\n \ttemp=vz_start(UIB1[6]);\r\n \tif((temp==22)\|\|(temp==33)) \r\n \t\t{\r\n \t\tmemo_out1[5]=0x01;\r\n \t\t} \r\n\t\t\telse \r\n \t\t{\r\n\t\t\t\tmemo_out1[5]=0xff;\r\n \t\t} \r\n\t\t\t\r\n\t\t\t}\r\n\t\telse\r\n \t\t\t{\r\n \t\t\tmemo_out1[5]=0x01;\t\r\n \t\t\t}\t\r\n\t\t\r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x62;\r\n \tmemo_out1[2]=2;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n \tmemo_out1[4]=0x03;\r\n \t\r\n \tmemo_out1[6]=crc_87(memo_out1,6);\r\n\t\tmemo_out1[7]=crc_95(memo_out1,6);\r\n \tuart_out_adr1(memo_out1,8); \t\t\r\n\t\t}\t\t\t\r\n\r\n\telse if((UIB1[1]==0x52)&&(UIB1[4]==4)&&(UIB1[5]==4) /&& ((UIB1[6]==1)\|\|(UIB1[6]==2))/ )\t//контроль емкости старт \t\r\n\t\t{\r\n //plazma_suz[2]++;\r\n //plazma_suz[3]=UIB1[6];\r\n ke_start(UIB1[6]-1);\r\n\t\tif(ke_start_stat==kssYES) memo_out1[5]=0xff;\r\n else memo_out1[5]=0x01;\r\n\r\n\t\tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x62;\r\n \tmemo_out1[2]=2;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \tmemo_out1[4]=4;\r\n \t\r\n \tmemo_out1[6]=crc_87(memo_out1,6);\r\n\t\tmemo_out1[7]=crc_95(memo_out1,6);\r\n \tuart_out_adr1(memo_out1,8); \t\t\r\n \t\t\r\n\t\t}\t\r\n\t\r\n\telse if((UIB1[1]==0x52)&&(UIB1[4]==5)&&(UIB1[5]==5)&&(UIB1[6])&&(UIB1[6]<=NUMIST)&&(UIB1[6]==UIB1[7])) \t//Выключение источника \r\n\t\t{\r\n //plazma_suz[2]++;\r\n //plazma_suz[3]=UIB1[6];\r\n bps[UIB1[6]-1]._ist_blok_host_cnt=3000;\r\n\t\t\r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x62;\r\n \tmemo_out1[2]=4;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n \tmemo_out1[4]=5;\r\n \tmemo_out1[5]=5;\r\n \tmemo_out1[6]=UIB1[6];\r\n \tmemo_out1[7]=UIB1[6];\r\n \tmemo_out1[8]=crc_87(memo_out1,8);\r\n\t\tmemo_out1[9]=crc_95(memo_out1,8);\r\n \tuart_out_adr1(memo_out1,10); \t\t\r\n\t\t}\r\n\t\t\r\n\r\n\telse if((UIB1[1]==0x52)&&(UIB1[4]==7)&&(UIB1[5]==7))\t//Выключение спецфункций\r\n\t\t{\r\n\t\t\r\n\t\tspc_stat=spcOFF;\r\n\t\tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x62;\r\n \tmemo_out1[2]=2;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \tmemo_out1[4]=7;\r\n \tmemo_out1[5]=0xff;\r\n \t\r\n \tmemo_out1[6]=crc_87(memo_out1,6);\r\n\t\tmemo_out1[7]=crc_95(memo_out1,6);\r\n \tuart_out_adr1(memo_out1,8); \t\t\r\n\t\t}\t\t\t\t\t\r\n\t\t\r\n\telse if((UIB1[1]==0x52)&&(UIB1[4]==8)&&(UIB1[5]==8))\t//Разблокировать источники\r\n\t\t{ \r\n\t\tchar i;\r\n\r\n for(i=0;i<NUMIST;i++)\r\n {\r\n bps[i]._ist_blok_host_cnt=0;\r\n }\r\n\t\t\r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x62;\r\n \tmemo_out1[2]=2;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n \tmemo_out1[4]=8;\r\n \tmemo_out1[5]=0xff;\r\n \t\r\n \tmemo_out1[6]=crc_87(memo_out1,6);\r\n\t\tmemo_out1[7]=crc_95(memo_out1,6);\r\n \tuart_out_adr1(memo_out1,8); \t\t\r\n\t\t}\t\t\r\n\r\n\r\n\telse if((UIB1[1]==0x52)&&(UIB1[4]==37))\t//Изменить состояние исполнительных устройств\r\n\t\t{ \r\n\t\t\r\n\t\t/////if(UIB1[5]&0x01)\r\n\t\t/////\t{\r\n\t\t/////\tif(UIB1[6]&0x01)lc640_write_int(EE_IU1,1);\r\n\t\t/////\telse lc640_write_int(EE_IU1,0);\r\n\t\t/////\t}\r\n\r\n\t\t/////if(UIB1[5]&0x02)\r\n\t\t/////\t{\r\n\t\t/////\tif(UIB1[6]&0x02)lc640_write_int(EE_IU2,1);\r\n\t\t/////\telse lc640_write_int(EE_IU2,0);\r\n\t\t/////\t}\r\n\r\n\t\t/////if(UIB1[5]&0x04)\r\n\t\t/////\t{\r\n\t\t/////\tif(UIB1[6]&0x04)lc640_write_int(EE_IU3,1);\r\n\t\t/////\telse lc640_write_int(EE_IU3,0);\r\n\t\t/////\t}\r\n\r\n\t\t/////if(UIB1[5]&0x08)\r\n\t\t/////\t{\r\n\t\t/////\tif(UIB1[6]&0x08)lc640_write_int(EE_IU4,1);\r\n\t\t/////\telse lc640_write_int(EE_IU4,0);\r\n\t\t/////\t}\r\n\t\t\r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x62;\r\n \tmemo_out1[2]=2;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n \tmemo_out1[4]=8;\r\n \tmemo_out1[5]=0xff;\r\n \t\r\n \tmemo_out1[6]=crc_87(memo_out1,6);\r\n\t\tmemo_out1[7]=crc_95(memo_out1,6);\r\n \tuart_out_adr1(memo_out1,8); \t\t\r\n\t\t}\r\n\r\n\r\n\telse if((UIB1[1]==0x51)&&(UIB1[4]==0x0c))\r\n\t\t{\r\n\t\tplazma_suz[1]++;\r\n\t\t\r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x61;\r\n \tmemo_out1[2]=2;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \tmemo_out1[4]=0x0c;\r\n \tmemo_out1[5]=lc640_read_int(CNT_EVENT_LOG);\r\n\t\tplazma_suz[3]=memo_out1[5];\r\n \tmemo_out1[6]=crc_87(memo_out1,6);\r\n\t\tmemo_out1[7]=crc_95(memo_out1,6);\r\n \tuart_out_adr1(memo_out1,8); \t\t\r\n\t\t}\t\r\n\r\n\telse if((UIB1[1]==0x51)&&(UIB1[4]==0x0d))\r\n\t\t{\r\n\t\t//char temp;\r\n\t\tunsigned int tempUI/,tempUI_/;\r\n\t\t//unsigned long tempUL;\r\n\t\t//char av_head[4]/,av_data_on[8]/,av_data_off[8]/,av_data[4]/;\t\t\r\n\t\r\n\t\ttempUI=lc640_read_int(PTR_EVENT_LOG);\r\n\t\ttempUI=ptr_carry(tempUI,64,-1(((signed)UIB1[5])-1));\r\n\t\ttempUI=32;\r\n\t\ttempUI+=EVENT_LOG;\t\r\n\t\t\r\n\t\r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x61;\r\n \tmemo_out1[2]=34;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n \tmemo_out1[4]=0x0D;\r\n \tmemo_out1[5]=UIB1[5];\r\n \tlc640_read_long_ptr(tempUI,&memo_out1[6]);\r\n \tlc640_read_long_ptr(tempUI+4,&memo_out1[10]);\r\n \tlc640_read_long_ptr(tempUI+8,&memo_out1[14]);\r\n \tlc640_read_long_ptr(tempUI+12,&memo_out1[18]);\r\n \tlc640_read_long_ptr(tempUI+16,&memo_out1[22]);\r\n \tlc640_read_long_ptr(tempUI+20,&memo_out1[26]);\r\n \tlc640_read_long_ptr(tempUI+24,&memo_out1[30]);\r\n \tlc640_read_long_ptr(tempUI+28,&memo_out1[34]);\r\n \t\r\n \tmemo_out1[38]=crc_87(memo_out1,38);\r\n\t\tmemo_out1[39]=crc_95(memo_out1,38);\r\n \tuart_out_adr1(memo_out1,40); \t\t\r\n\t\t}\t\r\n\r\n\r\n\r\n\r\n\telse if((UIB1[1]==0x51)&&(UIB1[4]==30)&&(UIB1[5]==30))\t//Запрос номера таблицы установок и ее глубины\r\n\t\t{ \r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x61;\r\n \tmemo_out1[2]=5;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n \tmemo_out1[4]=30;\r\n \tmemo_out1[5]=NUM_OF_SET_TABL;\r\n \tmemo_out1[6]=NUM_OF_SET_TABL;\r\n \tmemo_out1[7]=DEEP_OF_SET_TABL;\r\n \tmemo_out1[8]=DEEP_OF_SET_TABL; \t \t \t\r\n \t\r\n \tmemo_out1[9]=crc_87(memo_out1,9);\r\n\t\tmemo_out1[10]=crc_95(memo_out1,9);\r\n \tuart_out_adr1(memo_out1,11); \t\t\r\n\t\t}\t\t\r\n\r\n\r\n\telse if((UIB1[1]==0x51)&&(UIB1[4]==31))\t//Запрос параметра из таблицы установок \r\n\t\t{ \r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x61;\r\n \tmemo_out1[2]=4;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n \tmemo_out1[4]=31;\r\n \tmemo_out1[5]=UIB1[5];\r\n \t\r\n \tif(UIB1[5]==20)\t\t((signed short)&memo_out1[6])=MAIN_IST;\r\n \telse if(UIB1[5]==40)\t((signed short)&memo_out1[6])=ZV_ON;\r\n \telse if(UIB1[5]==42)\t((signed short)&memo_out1[6])=TBAT;\r\n \telse if(UIB1[5]==50)\t((signed short)&memo_out1[6])=UB0;\r\n \telse if(UIB1[5]==51)\t((signed short)&memo_out1[6])=UB20; \t \t\r\n \telse if(UIB1[5]==52)\t((signed short)&memo_out1[6])=USIGN;\r\n \t\telse if(UIB1[5]==53)\t((signed short)&memo_out1[6])=UMN; \t\r\n \telse if(UIB1[5]==54)\t((signed short)&memo_out1[6])=U0B;\r\n \telse if(UIB1[5]==55)\t((signed short)&memo_out1[6])=IKB;\r\n \t\telse if(UIB1[5]==56)\t((signed short)&memo_out1[6])=IZMAX; \t\r\n \telse if(UIB1[5]==57)\t((signed short)&memo_out1[6])=IMAX;\r\n \telse if(UIB1[5]==58)\t((signed short)&memo_out1[6])=KIMAX;\r\n \telse if(UIB1[5]==59)\t((signed short)&memo_out1[6])=KVZ;\r\n \t\telse if(UIB1[5]==60)\t((signed short)&memo_out1[6])=TZAS; \t\r\n \telse if(UIB1[5]==61)\t((signed short)&memo_out1[6])=TMAX;\r\n \telse if(UIB1[5]==71)\r\n \t\t{\r\n///// \t\tif(apv_on1==apvON) ((signed short)&memo_out1[6])=1;\r\n///// \t\telse ((signed short)&memo_out1[6])=0;\r\n \t\t}\r\n \t\telse if(UIB1[5]==72)\t\r\n \t\t\t{\r\n \t\t\t \t\t{\r\n ///// \t\tif(apv_on2==apvON) ((signed short)&memo_out1[6])=1;\r\n ///// \t\telse ((signed short)&memo_out1[6])=0;\r\n \t\t}\r\n\r\n \t\t\t} \t\r\n///// \telse if(UIB1[5]==73)\t((signed short)&memo_out1[6])=apv_on2_time;\r\n\r\n else if(UIB1[5]==80)\t((signed short)&memo_out1[6])=pos_vent;\r\n \t\r\n \tmemo_out1[8]=crc_87(memo_out1,8);\r\n\t\tmemo_out1[9]=crc_95(memo_out1,8);\r\n \tuart_out_adr1(memo_out1,10); \t\t\r\n\t\t}\t\r\n\r\n\telse if((UIB1[1]==0x51)&&(UIB1[4]==33))\t//Запрос типа устройства и серийного номера \r\n\t\t{\r\n//\t\tplazma_suz[2]++;\r\n\t\t \r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x61;\r\n \tmemo_out1[2]=6;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n \tmemo_out1[4]=33;\r\n \t\r\n\t\tif(AUSW_MAIN==6024)\t\tmemo_out1[5]=1;\r\n\t\telse if(AUSW_MAIN==6012)\tmemo_out1[5]=2;\r\n\t\telse if(AUSW_MAIN==4824)\tmemo_out1[5]=3;\r\n\t\telse if(AUSW_MAIN==4812)\tmemo_out1[5]=4;\r\n\t\telse if(AUSW_MAIN==6010)\tmemo_out1[5]=5;\r\n\t\telse if(AUSW_MAIN==6005)\tmemo_out1[5]=6;\r\n\t\telse if(AUSW_MAIN==4810)\tmemo_out1[5]=7;\r\n\t\telse if(AUSW_MAIN==4805)\tmemo_out1[5]=8;\r\n\t\telse if(AUSW_MAIN==2424)\tmemo_out1[5]=9;\r\n\t\telse if(AUSW_MAIN==2412)\tmemo_out1[5]=10;\r\n\t\telse if(AUSW_MAIN==4840)\tmemo_out1[5]=11;\r\n\t\telse if(AUSW_MAIN==6030)\tmemo_out1[5]=12;\r\n\t\telse if(AUSW_MAIN==4820)\tmemo_out1[5]=13;\r\n\t\telse if(AUSW_MAIN==6015)\tmemo_out1[5]=14;\r\n\t\telse if(AUSW_MAIN==2450)\tmemo_out1[5]=15;\r\n\t\telse if(AUSW_MAIN==2425)\tmemo_out1[5]=16;\r\n\t\telse if(AUSW_MAIN==4860)\tmemo_out1[5]=17;\r\n\t\telse if(AUSW_MAIN==4880)\tmemo_out1[5]=18;\r\n\t\telse if(AUSW_MAIN==6020)\tmemo_out1[5]=19;\r\n\t\telse if(AUSW_MAIN==6040)\tmemo_out1[5]=20;\r\n\t\telse if(AUSW_MAIN==6060)\tmemo_out1[5]=21;\r\n\t\telse if(AUSW_MAIN==6080)\tmemo_out1[5]=22;\r\n\t\t\r\n\t\t\t\r\n \t\r\n \t//((long)&memo_out1[6])=54321;//AUSW_MAIN_NUMBER;\r\n \t\r\n\t\tmemo_out1[6]=(char)AUSW_MAIN_NUMBER;\r\n\t\tmemo_out1[7]=(char)(AUSW_MAIN_NUMBER>>8);\r\n\t\tmemo_out1[8]=(char)(AUSW_MAIN_NUMBER>>16);\r\n\t\tmemo_out1[9]=(char)(AUSW_MAIN_NUMBER>>24);\r\n \t\r\n \tmemo_out1[10]=crc_87(memo_out1,10);\r\n\t\tmemo_out1[11]=crc_95(memo_out1,10);\r\n \tuart_out_adr1(memo_out1,12); \t\t\r\n\t\t}\t\r\n\r\n\telse if((UIB1[1]==0x51)&&(UIB1[4]==34))\t//Запрос типа устройства и серийного номера \r\n\t\t{\r\n\t\tchar ptr;\r\n\t\tchar i;\r\n\t\tptr=\"Мама мыла раму. У шуры шары\";\r\n\t\t \r\n \tmemo_out1[0]=0x34;\r\n \tmemo_out1[1]=0x61;\r\n \tmemo_out1[2]=29;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n \tmemo_out1[4]=34;\r\n \tmemo_out1[5]=27;\r\n \t\r\n \tfor(i=0;i<27;i++)\r\n \t\t{\r\n \t\tmemo_out1[6+i]=ptr[i];\r\n \t\t}\r\n \t\r\n \tmemo_out1[33]=crc_87(memo_out1,33);\r\n\t\tmemo_out1[34]=crc_95(memo_out1,33);\r\n \tuart_out_adr1(memo_out1,35); \t\t\r\n\t\t}\t\r\n\r\n \telse if((UIB1[1]==0x52)&&(UIB1[4]==38))\t//установка переменной управляющей нагрузкой \r\n\t\t{ \r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x62;\r\n \tmemo_out1[2]=3;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n\t\ttloaddisable_cmnd=UIB1[5];\r\n\r\n \tmemo_out1[4]=38;\r\n \tmemo_out1[5]=0xff;\r\n\t\t\r\n\t\tmemo_out1[6]=crc_87(memo_out1,6);\r\n\t\tmemo_out1[7]=crc_95(memo_out1,6);\r\n \tuart_out_adr1(memo_out1,8); \r\n\t\t}\r\n\r\n \telse if((UIB1[1]==0x52)&&(UIB1[4]==39))\t//установка переменной управляющей батареей \r\n\t\t{ \r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x62;\r\n \tmemo_out1[2]=3;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n\t\ttbatdisable_cmnd=UIB1[5];\r\n\r\n \tmemo_out1[4]=39;\r\n \tmemo_out1[5]=0xff;\r\n\t\t\r\n\t\tmemo_out1[6]=crc_87(memo_out1,6);\r\n\t\tmemo_out1[7]=crc_95(memo_out1,6);\r\n \tuart_out_adr1(memo_out1,8); \r\n\t\t}\r\n\r\n \telse if((UIB1[1]==0x51)&&(UIB1[4]==40))\r\n\t\t{\r\n\t\tunsigned char lengt,i;\r\n\t\t\r\n\t\tlengt=209;\r\n\r\n\t\tmemo_out1[0]=0x33;\r\n\t\tmemo_out1[1]=0x61;\r\n\t \tmemo_out1[2]=lengt;\r\n\t \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\t\t\r\n\t \tmemo_out1[4]=40; //ответ на запрос телеметрии\r\n\r\n\t\tlengt=5;\r\n\r\n\t\tmemo_out1[lengt++]=26;\r\n\r\n\t\t//Основной источник \r\n\t\tmemo_out1[lengt++]=20;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=MAIN_IST;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=1;\r\n\t\tmemo_out1[lengt++]=0;\r\n\r\n\t\t//Звуковая сигнализация \r\n\t\tmemo_out1[lengt++]=40;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=ZV_ON;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=1;\r\n\t\tmemo_out1[lengt++]=0;\r\n\r\n\t\t//Время проверки цепи батареи \r\n\t\tmemo_out1[lengt++]=42;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=TBAT;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=5;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=60;\r\n\t\tmemo_out1[lengt++]=0;\r\n\r\n\t\t//Uб0° \r\n\t\tmemo_out1[lengt++]=50;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=UB0%256;\r\n\t\tmemo_out1[lengt++]=UB0/256;\r\n\t\tmemo_out1[lengt++]=200%256;\r\n\t\tmemo_out1[lengt++]=200/256;\r\n\t\tmemo_out1[lengt++]=800%256;\r\n\t\tmemo_out1[lengt++]=800/256;\r\n\r\n\t\t//Uб20° \r\n\t\tmemo_out1[lengt++]=51;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=UB20%256;\r\n\t\tmemo_out1[lengt++]=UB20/256;\r\n\t\tmemo_out1[lengt++]=200%256;\r\n\t\tmemo_out1[lengt++]=200/256;\r\n\t\tmemo_out1[lengt++]=800%256;\r\n\t\tmemo_out1[lengt++]=800/256;\r\n\r\n\t\t//Uсигн \r\n\t\tmemo_out1[lengt++]=52;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=USIGN%256;\r\n\t\tmemo_out1[lengt++]=USIGN/256;\r\n\t\tmemo_out1[lengt++]=20%256;\r\n\t\tmemo_out1[lengt++]=20/256;\r\n\t\tmemo_out1[lengt++]=80%256;\r\n\t\tmemo_out1[lengt++]=80/256;\r\n\r\n\t\t//Umin.сети \r\n\t\tmemo_out1[lengt++]=53;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=UMN%256;\r\n\t\tmemo_out1[lengt++]=UMN/256;\r\n\t\tmemo_out1[lengt++]=150%256;\r\n\t\tmemo_out1[lengt++]=150/256;\r\n\t\tmemo_out1[lengt++]=250%256;\r\n\t\tmemo_out1[lengt++]=250/256;\r\n\t\t\r\n\t\t//U0б \r\n\t\tmemo_out1[lengt++]=54;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=U0B%256;\r\n\t\tmemo_out1[lengt++]=U0B/256;\r\n\t\tmemo_out1[lengt++]=200%256;\r\n\t\tmemo_out1[lengt++]=200/256;\r\n\t\tmemo_out1[lengt++]=800%256;\r\n\t\tmemo_out1[lengt++]=800/256;\r\n\r\n\t\t//Iбк \r\n\t\tmemo_out1[lengt++]=55;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=IKB%256;\r\n\t\tmemo_out1[lengt++]=IKB/256;\r\n\t\tmemo_out1[lengt++]=1%256;\r\n\t\tmemo_out1[lengt++]=1/256;\r\n\t\tmemo_out1[lengt++]=1000%256;\r\n\t\tmemo_out1[lengt++]=1000/256;\r\n\r\n\t\t//Iз.max \r\n\t\tmemo_out1[lengt++]=56;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=IZMAX%256;\r\n\t\tmemo_out1[lengt++]=IZMAX/256;\r\n\t\tmemo_out1[lengt++]=10%256;\r\n\t\tmemo_out1[lengt++]=10/256;\r\n\t\tmemo_out1[lengt++]=1000%256;\r\n\t\tmemo_out1[lengt++]=1000/256;\r\n\r\n\t\t//Imax \r\n\t\tmemo_out1[lengt++]=57;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=IMAX%256;\r\n\t\tmemo_out1[lengt++]=IMAX/256;\r\n\t\tmemo_out1[lengt++]=10%256;\r\n\t\tmemo_out1[lengt++]=10/256;\r\n\t\tmemo_out1[lengt++]=300%256;\r\n\t\tmemo_out1[lengt++]=300/256;\r\n\r\n\t\t//Kimax \r\n\t\tmemo_out1[lengt++]=58;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=KIMAX%256;\r\n\t\tmemo_out1[lengt++]=KIMAX/256;\r\n\t\tmemo_out1[lengt++]=5%256;\r\n\t\tmemo_out1[lengt++]=5/256;\r\n\t\tmemo_out1[lengt++]=10%256;\r\n\t\tmemo_out1[lengt++]=10/256;\r\n\r\n\t\t//Kвыр.зар. \r\n\t\tmemo_out1[lengt++]=59;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=KVZ%256;\r\n\t\tmemo_out1[lengt++]=KVZ/256;\r\n\t\tmemo_out1[lengt++]=1005%256;\r\n\t\tmemo_out1[lengt++]=1005/256;\r\n\t\tmemo_out1[lengt++]=1030%256;\r\n\t\tmemo_out1[lengt++]=1030/256;\r\n\r\n\t\t//KTз.вкл.а.с. \r\n\t\tmemo_out1[lengt++]=60;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=TZAS%256;\r\n\t\tmemo_out1[lengt++]=TZAS/256;\r\n\t\tmemo_out1[lengt++]=0%256;\r\n\t\tmemo_out1[lengt++]=0/256;\r\n\t\tmemo_out1[lengt++]=3%256;\r\n\t\tmemo_out1[lengt++]=3/256;\r\n\r\n\t\t//tmax \r\n\t\tmemo_out1[lengt++]=61;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=TMAX%256;\r\n\t\tmemo_out1[lengt++]=TMAX/256;\r\n\t\tmemo_out1[lengt++]=40%256;\r\n\t\tmemo_out1[lengt++]=40/256;\r\n\t\tmemo_out1[lengt++]=100%256;\r\n\t\tmemo_out1[lengt++]=100/256;\r\n\r\n\t\t//АПВ 1-й уровень \r\n\t\tmemo_out1[lengt++]=71;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=APV_ON1%256;\r\n\t\tmemo_out1[lengt++]=APV_ON1/256;\r\n\t\tmemo_out1[lengt++]=0%256;\r\n\t\tmemo_out1[lengt++]=0/256;\r\n\t\tmemo_out1[lengt++]=1%256;\r\n\t\tmemo_out1[lengt++]=1/256;\r\n\r\n\t\t//АПВ 2-й уровень \r\n\t\tmemo_out1[lengt++]=72;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=APV_ON2%256;\r\n\t\tmemo_out1[lengt++]=APV_ON2/256;\r\n\t\tmemo_out1[lengt++]=0%256;\r\n\t\tmemo_out1[lengt++]=0/256;\r\n\t\tmemo_out1[lengt++]=1%256;\r\n\t\tmemo_out1[lengt++]=1/256;\r\n\r\n\t\t//Период АПВ2 \r\n\t\tmemo_out1[lengt++]=73;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=APV_ON2_TIME%256;\r\n\t\tmemo_out1[lengt++]=APV_ON2_TIME/256;\r\n\t\tmemo_out1[lengt++]=1%256;\r\n\t\tmemo_out1[lengt++]=1/256;\r\n\t\tmemo_out1[lengt++]=24%256;\r\n\t\tmemo_out1[lengt++]=24/256;\r\n\r\n\t\t//Максимальная позиция вентилятора \r\n\t\tmemo_out1[lengt++]=80;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=pos_vent%256;\r\n\t\tmemo_out1[lengt++]=pos_vent/256;\r\n\t\tmemo_out1[lengt++]=1%256;\r\n\t\tmemo_out1[lengt++]=1/256;\r\n\t\tmemo_out1[lengt++]=11%256;\r\n\t\tmemo_out1[lengt++]=11/256;\r\n\r\n\t\t//Температура шкафа максимальная \r\n\t\tmemo_out1[lengt++]=90;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=TBOXMAX%256;\r\n\t\tmemo_out1[lengt++]=TBOXMAX/256;\r\n\t\tmemo_out1[lengt++]=50%256;\r\n\t\tmemo_out1[lengt++]=50/256;\r\n\t\tmemo_out1[lengt++]=80%256;\r\n\t\tmemo_out1[lengt++]=80/256;\r\n\r\n\t\t//Уставка температуры шкафа \r\n\t\tmemo_out1[lengt++]=91;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=TBOXREG%256;\r\n\t\tmemo_out1[lengt++]=TBOXREG/256;\r\n\t\tmemo_out1[lengt++]=5%256;\r\n\t\tmemo_out1[lengt++]=5/256;\r\n\t\tmemo_out1[lengt++]=30%256;\r\n\t\tmemo_out1[lengt++]=30/256;\r\n\r\n\t\t//Температура аварийного включения вентилятора\r\n\t\tmemo_out1[lengt++]=92;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=TBOXVENTMAX%256;\r\n\t\tmemo_out1[lengt++]=TBOXVENTMAX/256;\r\n\t\tmemo_out1[lengt++]=49%256;\r\n\t\tmemo_out1[lengt++]=49/256;\r\n\t\tmemo_out1[lengt++]=81%256;\r\n\t\tmemo_out1[lengt++]=81/256;\r\n\r\n\t\t//Температура отключения нагрузки\r\n\t\tmemo_out1[lengt++]=93;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=TLOADDISABLE%256;\r\n\t\tmemo_out1[lengt++]=TLOADDISABLE/256;\r\n\t\tmemo_out1[lengt++]=49%256;\r\n\t\tmemo_out1[lengt++]=49/256;\r\n\t\tmemo_out1[lengt++]=81%256;\r\n\t\tmemo_out1[lengt++]=81/256;\r\n\r\n\t\t//Температура включения нагрузки\r\n\t\tmemo_out1[lengt++]=94;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=TLOADENABLE%256;\r\n\t\tmemo_out1[lengt++]=TLOADENABLE/256;\r\n\t\tmemo_out1[lengt++]=49%256;\r\n\t\tmemo_out1[lengt++]=49/256;\r\n\t\tmemo_out1[lengt++]=81%256;\r\n\t\tmemo_out1[lengt++]=81/256;\r\n\r\n\t\t//Температура отключения батарей\r\n\t\tmemo_out1[lengt++]=95;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=TBATDISABLE%256;\r\n\t\tmemo_out1[lengt++]=TBATDISABLE/256;\r\n\t\tmemo_out1[lengt++]=49%256;\r\n\t\tmemo_out1[lengt++]=49/256;\r\n\t\tmemo_out1[lengt++]=81%256;\r\n\t\tmemo_out1[lengt++]=81/256;\r\n\r\n\t\t//Температура включения батарей\r\n\t\tmemo_out1[lengt++]=96;\r\n\t\tmemo_out1[lengt++]=0;\r\n\t\tmemo_out1[lengt++]=TBATENABLE%256;\r\n\t\tmemo_out1[lengt++]=TBATENABLE/256;\r\n\t\tmemo_out1[lengt++]=49%256;\r\n\t\tmemo_out1[lengt++]=49/256;\r\n\t\tmemo_out1[lengt++]=81%256;\r\n\t\tmemo_out1[lengt++]=81/256;\r\n\r\n \tmemo_out1[214]=crc_87(memo_out1,214);\r\n\t\tmemo_out1[215]=crc_95(memo_out1,214);\r\n \tuart_out_adr1(memo_out1,216);\r\n\r\n\t\t}\r\n\r\n\telse if((UIB1[1]==0x52)&&(UIB1[4]==32))\t//Изменение параметра из таблицы установок \r\n\t\t{ \r\n \tmemo_out1[0]=0x33;\r\n \tmemo_out1[1]=0x62;\r\n \tmemo_out1[2]=3;\r\n \tmemo_out1[3]=CONTROL_BYTE_FOR_XPORT;\r\n \t\r\n \tmemo_out1[4]=32;\r\n \tmemo_out1[5]=UIB1[5];\r\n \t\r\n \tmemo_out1[6]=0xff;\r\n \t\r\n \tif(UIB1[5]==20)\r\n \t\t{\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tMAIN_IST=UIB1[7]+(UIB1[8]256);;\r\n \t\t\t}\r\n \t\telse if( (UIB1[6]==0x33) \|\| (UIB1[6]==0x44) \|\| (UIB1[6]==0x55) \|\| (UIB1[6]==0x66) )\r\n \t\t\t{\r\n \t\t\tif(MAIN_IST) MAIN_IST=0;\r\n \t\t\telse MAIN_IST=1;\r\n \t\t\t}\r\n \t\t\r\n \t\tgran(&MAIN_IST,0,1);\r\n \t\tlc640_write_int(EE_MAIN_IST,MAIN_IST);\r\n \t\t}\r\n\r\n \telse if(UIB1[5]==40)\r\n \t\t{\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tZV_ON=UIB1[7]+(UIB1[8]256);;\r\n \t\t\t}\r\n \t\telse if( (UIB1[6]==0x33) \|\| (UIB1[6]==0x44) \|\| (UIB1[6]==0x55) \|\| (UIB1[6]==0x66) )\r\n \t\t\t{\r\n \t\t\tif(ZV_ON) ZV_ON=0;\r\n \t\t\telse ZV_ON=1;\r\n \t\t\t}\r\n \t\t\tgran(&ZV_ON,0,1);\r\n \t\t\tlc640_write_int(EE_ZV_ON,ZV_ON);\r\n \t\t}\t\r\n\r\n \telse if(UIB1[5]==42)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=5)&&(ttt<=60))\r\n \t\t\t\t{\r\n \t\t\t\tTBAT=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)TBAT++;\r\n \t\telse if(UIB1[6]==0x44)TBAT+=ttt;\r\n \t\telse if(UIB1[6]==0x55)TBAT--;\r\n \t\telse if(UIB1[6]==0x66)TBAT-=ttt;\r\n \t\t\t\r\n\t\t\tgran(&TBAT,5,60);\r\n \t\tlc640_write_int(EE_TBAT,TBAT);\r\n \t\t}\t\r\n \telse if(UIB1[5]==50)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);//((unsigned short)&UIB1[7]);\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=10)&&(ttt<=1000))\r\n \t\t\t\t{\r\n \t\t\t\tUB0=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x1;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)UB0++;\r\n \t\telse if(UIB1[6]==0x44)UB0+=ttt;\r\n \t\telse if(UIB1[6]==0x55)UB0--;\r\n \t\telse if(UIB1[6]==0x66)UB0-=ttt;\r\n \t\t\r\n \t\tgran(&UB0,10,1000);\t \t\t\t\r\n \t\tlc640_write_int(EE_UB0,UB0);\r\n \t\t}\r\n \t\t\t\r\n \telse if(UIB1[5]==51) \t\t\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);//((unsigned short)&UIB1[7]);\r\n \t\t//ttt=(unsigned short)((&UIB1[7]));\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=10)&&(ttt<=1000))\r\n \t\t\t\t{\r\n \t\t\t\tUB20=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x1;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)UB20++;\r\n \t\telse if(UIB1[6]==0x44)UB20+=ttt;\r\n \t\telse if(UIB1[6]==0x55)UB20--;\r\n \t\telse if(UIB1[6]==0x66)UB20-=ttt;\r\n\r\n \t\tgran(&UB20,10,1000); \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_UB20,UB20);\r\n \t\t}\t\r\n \t\t\r\n \telse if(UIB1[5]==52) \t\t\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=10)&&(ttt<=1000))\r\n \t\t\t\t{\r\n \t\t\t\tUSIGN=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)USIGN++;\r\n \t\telse if(UIB1[6]==0x44)USIGN+=ttt;\r\n \t\telse if(UIB1[6]==0x55)USIGN--;\r\n \t\telse if(UIB1[6]==0x66)USIGN-=ttt;\r\n\r\n \t\tgran(&USIGN,10,1000); \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_USIGN,USIGN);\r\n \t\t}\r\n \t\t\r\n \telse if(UIB1[5]==53)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=10)&&(ttt<=1000))\r\n \t\t\t\t{\r\n \t\t\t\tUMN=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)UMN++;\r\n \t\telse if(UIB1[6]==0x44)UMN+=ttt;\r\n \t\telse if(UIB1[6]==0x55)UMN--;\r\n \t\telse if(UIB1[6]==0x66)UMN-=ttt;\r\n \t\t\r\n \t\tgran(&UMN,10,1000);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_UMN,UMN);\r\n \t\t} \t\t \t\t\r\n\r\n \telse if(UIB1[5]==54)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=10)&&(ttt<=1000))\r\n \t\t\t\t{\r\n \t\t\t\tU0B=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)U0B++;\r\n \t\telse if(UIB1[6]==0x44)U0B+=ttt;\r\n \t\telse if(UIB1[6]==0x55)U0B--;\r\n \t\telse if(UIB1[6]==0x66)U0B-=ttt;\r\n \t\t\r\n \t\tgran(&U0B,10,1000);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_U0B,U0B);\r\n \t\t} \t\t\r\n \t\t\r\n \telse if(UIB1[5]==55)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=1)&&(ttt<=500))\r\n \t\t\t\t{\r\n \t\t\t\tIKB=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)IKB++;\r\n \t\telse if(UIB1[6]==0x44)IKB+=ttt;\r\n \t\telse if(UIB1[6]==0x55)IKB--;\r\n \t\telse if(UIB1[6]==0x66)IKB-=ttt;\r\n \t\t\r\n \t\tgran(&IKB,10,1000);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_IKB,IKB);\r\n \t\t} \t\t\r\n\r\n \telse if(UIB1[5]==56)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=10)&&(ttt<=200))\r\n \t\t\t\t{\r\n \t\t\t\tIZMAX=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)IZMAX++;\r\n \t\telse if(UIB1[6]==0x44)IZMAX+=ttt;\r\n \t\telse if(UIB1[6]==0x55)IZMAX--;\r\n \t\telse if(UIB1[6]==0x66)IZMAX-=ttt;\r\n \t\t\r\n \t\tgran(&IZMAX,10,200);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_IZMAX,IZMAX);\r\n \t\t} \t \r\n \r\n \telse if(UIB1[5]==57)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=1)&&(ttt<=500))\r\n \t\t\t\t{\r\n \t\t\t\tIMAX=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)IMAX++;\r\n \t\telse if(UIB1[6]==0x44)IMAX+=ttt;\r\n \t\telse if(UIB1[6]==0x55)IMAX--;\r\n \t\telse if(UIB1[6]==0x66)IMAX-=ttt;\r\n \t\t\r\n \t\tgran(&IMAX,1,500);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_IMAX,IMAX);\r\n \t\t} \t \t\t\r\n \t\t\r\n \telse if(UIB1[5]==58)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=5)&&(ttt<=10))\r\n \t\t\t\t{\r\n \t\t\t\tKIMAX=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)KIMAX++;\r\n \t\telse if(UIB1[6]==0x44)KIMAX+=ttt;\r\n \t\telse if(UIB1[6]==0x55)KIMAX--;\r\n \t\telse if(UIB1[6]==0x66)KIMAX-=ttt;\r\n \t\t\r\n \t\tgran(&KIMAX,5,10);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_KIMAX,KIMAX);\r\n \t\t} \r\n \t\t \r\n \telse if(UIB1[5]==59)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=1005)&&(ttt<=1030))\r\n \t\t\t\t{\r\n \t\t\t\tKVZ=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)KVZ++;\r\n \t\telse if(UIB1[6]==0x44)KVZ+=ttt;\r\n \t\telse if(UIB1[6]==0x55)KVZ--;\r\n \t\telse if(UIB1[6]==0x66)KVZ-=ttt;\r\n \t\t\r\n \t\tgran(&KVZ,1005,1030);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_KVZ,KVZ);\r\n \t\t} \r\n \t\t \t\t \t\t\r\n \telse if(UIB1[5]==60)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=0)&&(ttt<=3))\r\n \t\t\t\t{\r\n \t\t\t\tTZAS=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)TZAS++;\r\n \t\telse if(UIB1[6]==0x44)TZAS+=ttt;\r\n \t\telse if(UIB1[6]==0x55)TZAS--;\r\n \t\telse if(UIB1[6]==0x66)TZAS-=ttt;\r\n \t\t\r\n \t\tgran(&TZAS,0,3);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_TZAS,TZAS);\r\n \t\t} \r\n \t\t \r\n \telse if(UIB1[5]==61)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=10)&&(ttt<=100))\r\n \t\t\t\t{\r\n \t\t\t\tTMAX=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)TMAX++;\r\n \t\telse if(UIB1[6]==0x44)TMAX+=ttt;\r\n \t\telse if(UIB1[6]==0x55)TMAX--;\r\n \t\telse if(UIB1[6]==0x66)TMAX-=ttt;\r\n \t\t\r\n \t\tgran(&TMAX,10,100);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_TMAX,TMAX);\r\n \t\t} \r\n \t\t\t\t \t\t \t\t\r\n \telse if(UIB1[5]==71)\r\n \t\t{\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tAPV_ON1=UIB1[7]+(UIB1[8]256);;\r\n \t\t\t}\r\n \t\telse if( (UIB1[6]==0x33) \|\| (UIB1[6]==0x44) \|\| (UIB1[6]==0x55) \|\| (UIB1[6]==0x66) )\r\n \t\t\t{\r\n \t\t\tif(APV_ON1) APV_ON1=0;\r\n \t\t\telse APV_ON1=1;\r\n \t\t\t}\r\n\t \t\tgran_char(&APV_ON1,0,1);\r\n \t\t\tlc640_write_int(EE_APV_ON1,APV_ON1);\r\n \t\t}\t\r\n\r\n \telse if(UIB1[5]==72)\r\n \t\t{\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tAPV_ON2=UIB1[7]+(UIB1[8]256);;\r\n \t\t\t}\r\n \t\telse if( (UIB1[6]==0x33) \|\| (UIB1[6]==0x44) \|\| (UIB1[6]==0x55) \|\| (UIB1[6]==0x66) )\r\n \t\t\t{\r\n \t\t\tif(APV_ON2) APV_ON2=0;\r\n \t\t\telse APV_ON2=1;\r\n \t\t\t}\r\n \t\t\tgran_char(&APV_ON2,0,1);\r\n \t\t\tlc640_write_int(EE_APV_ON2,APV_ON2);\r\n \t\t}\t\r\n\r\n \telse if(UIB1[5]==73)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=1)&&(ttt<=24))\r\n \t\t\t\t{\r\n \t\t\t\tAPV_ON2_TIME=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)APV_ON2_TIME++;\r\n \t\telse if(UIB1[6]==0x44)APV_ON2_TIME+=ttt;\r\n \t\telse if(UIB1[6]==0x55)APV_ON2_TIME--;\r\n \t\telse if(UIB1[6]==0x66)APV_ON2_TIME-=ttt;\r\n \t\t\r\n \t\tgran(&APV_ON2_TIME,1,24);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_APV_ON2_TIME,APV_ON2_TIME);\r\n \t\t} \r\n\r\n \telse if(UIB1[5]==80)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=1)&&(ttt<=11))\r\n \t\t\t\t{\r\n \t\t\t\tpos_vent=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)pos_vent++;\r\n \t\telse if(UIB1[6]==0x44)pos_vent+=ttt;\r\n \t\telse if(UIB1[6]==0x55)pos_vent--;\r\n \t\telse if(UIB1[6]==0x66)pos_vent-=ttt;\r\n \t\t\r\n \t\tgran(&pos_vent,1,11);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_POS_VENT,pos_vent);\r\n \t\t} \r\n \r\n \telse if(UIB1[5]==90)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=50)&&(ttt<=80))\r\n \t\t\t\t{\r\n \t\t\t\tTBOXMAX=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)TBOXMAX++;\r\n \t\telse if(UIB1[6]==0x44)TBOXMAX+=ttt;\r\n \t\telse if(UIB1[6]==0x55)TBOXMAX--;\r\n \t\telse if(UIB1[6]==0x66)TBOXMAX-=ttt;\r\n \t\t\r\n \t\tgran(&TBOXMAX,50,80);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_TBOXMAX,TBOXMAX);\r\n \t\t} \r\n\r\n \telse if(UIB1[5]==91)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=5)&&(ttt<=30))\r\n \t\t\t\t{\r\n \t\t\t\tTBOXREG=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)TBOXREG++;\r\n \t\telse if(UIB1[6]==0x44)TBOXREG+=ttt;\r\n \t\telse if(UIB1[6]==0x55)TBOXREG--;\r\n \t\telse if(UIB1[6]==0x66)TBOXREG-=ttt;\r\n \t\t\r\n \t\tgran(&TBOXREG,5,30);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_TBOXREG,TBOXREG);\r\n \t\t} \r\n \r\n \telse if(UIB1[5]==92)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=49)&&(ttt<=81))\r\n \t\t\t\t{\r\n \t\t\t\tTBOXVENTMAX=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)TBOXVENTMAX++;\r\n \t\telse if(UIB1[6]==0x44)TBOXVENTMAX+=ttt;\r\n \t\telse if(UIB1[6]==0x55)TBOXVENTMAX--;\r\n \t\telse if(UIB1[6]==0x66)TBOXVENTMAX-=ttt;\r\n \t\t\r\n \t\tgran(&TBOXVENTMAX,49,81);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_TBOXVENTMAX,TBOXVENTMAX);\r\n \t\t} \r\n\r\n \telse if(UIB1[5]==93)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=49)&&(ttt<=81))\r\n \t\t\t\t{\r\n \t\t\t\tTLOADDISABLE=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)TLOADDISABLE++;\r\n \t\telse if(UIB1[6]==0x44)TLOADDISABLE+=ttt;\r\n \t\telse if(UIB1[6]==0x55)TLOADDISABLE--;\r\n \t\telse if(UIB1[6]==0x66)TLOADDISABLE-=ttt;\r\n \t\t\r\n \t\tgran(&TLOADDISABLE,49,81);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_TLOADDISABLE,TLOADDISABLE);\r\n \t\t} \r\n\t\t\t \r\n \telse if(UIB1[5]==94)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=49)&&(ttt<=81))\r\n \t\t\t\t{\r\n \t\t\t\tTLOADENABLE=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)TLOADENABLE++;\r\n \t\telse if(UIB1[6]==0x44)TLOADENABLE+=ttt;\r\n \t\telse if(UIB1[6]==0x55)TLOADENABLE--;\r\n \t\telse if(UIB1[6]==0x66)TLOADENABLE-=ttt;\r\n \t\t\r\n \t\tgran(&TLOADENABLE,49,81);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_TLOADENABLE,TLOADENABLE);\r\n \t\t} \t\t\t\t \t\t \t\t\r\n\r\n \telse if(UIB1[5]==95)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=49)&&(ttt<=81))\r\n \t\t\t\t{\r\n \t\t\t\tTBATDISABLE=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)TBATDISABLE++;\r\n \t\telse if(UIB1[6]==0x44)TBATDISABLE+=ttt;\r\n \t\telse if(UIB1[6]==0x55)TBATDISABLE--;\r\n \t\telse if(UIB1[6]==0x66)TBATDISABLE-=ttt;\r\n \t\t\r\n \t\tgran(&TBATDISABLE,49,81);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_TBATDISABLE,TBATDISABLE);\r\n \t\t} \r\n\t\t\t \r\n \telse if(UIB1[5]==96)\r\n \t\t{ \t\t\t\r\n \t\tsigned short ttt;\r\n \t\tttt=UIB1[7]+(UIB1[8]256);;\r\n \t\t\r\n \t\tif(UIB1[6]==0x22)\r\n \t\t\t{\r\n \t\t\tif((ttt>=49)&&(ttt<=81))\r\n \t\t\t\t{\r\n \t\t\t\tTBATENABLE=ttt;\r\n \t\t\t\t}\r\n \t\t\telse memo_out1[6]=0x01;\t\r\n \t\t\t}\r\n \t\t\r\n \t\telse if(UIB1[6]==0x33)TBATENABLE++;\r\n \t\telse if(UIB1[6]==0x44)TBATENABLE+=ttt;\r\n \t\telse if(UIB1[6]==0x55)TBATENABLE--;\r\n \t\telse if(UIB1[6]==0x66)TBATENABLE-=ttt;\r\n \t\t\r\n \t\tgran(&TBATENABLE,49,81);\t \t\t\t \t\t\t\r\n \t\tlc640_write_int(EE_TBATENABLE,TBATENABLE);\r\n \t\t} \r\n\t\t\t\t\t\t \t\t\t\t \t\t \t\t\r\n \tmemo_out1[7]=crc_87(memo_out1,7);\r\n\t\tmemo_out1[8]=crc_95(memo_out1,7);\r\n \tuart_out_adr1(memo_out1,9); \t\t\r\n\t\t}\t\t\r\n\t} \t\t\t\r\n}\r\n \r\n//-----------------------------------------------\r\nchar index_offset1 (signed char index,signed char offset)\r\n{\r\nindex=index+offset;\r\nif(index>=RX_BUFFER_SIZE1) index-=RX_BUFFER_SIZE1; \r\nif(index<0) index+=RX_BUFFER_SIZE1;\r\nreturn index;\r\n}\r\n\r\n//-----------------------------------------------\r\nchar control_check1(char index)\r\n{\r\nchar i=0,ii=0,iii;\r\n\r\nif(rx_buffer1[index]!=END) goto error_cc;\r\n\r\nii=rx_buffer1[index_offset1(index,-2)];\r\niii=0;\r\nfor(i=0;i<=ii;i++)\r\n\t{\r\n\tiii^=rx_buffer1[index_offset1(index,-2-ii+i)];\r\n\t}\r\nif (iii!=rx_buffer1[index_offset1(index,-1)]) goto error_cc;\t\r\n\r\n\r\n//success_cc:\r\nreturn 1;\r\n//goto end_cc;\r\nerror_cc:\r\nreturn 0;\r\n//goto end_cc;\r\n\r\n//end_cc:\r\n//__nop();\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid uart_in1(void)\r\n{\r\nchar temp,i/,count/;\r\n\r\n__disable_irq();\r\n\r\nif(rx_buffer_overflow1)\r\n\t{\r\n\trx_wr_index1=0;\r\n\trx_rd_index1=0;\r\n\trx_counter1=0;\r\n\trx_buffer_overflow1=0;\r\n\t} \r\nusart1_router_wrk=1;\t\r\nif(rx_counter1&&(rx_buffer1[index_offset1(rx_wr_index1,-1)])==END)\r\n\t{\r\n\t\r\n temp=rx_buffer1[index_offset1(rx_wr_index1,-3)];\r\n \tif(temp<20) \r\n \t\t{\r\n \t\tif(control_check1(index_offset1(rx_wr_index1,-1)))\r\n \t\t\t{\r\n \t\t\r\n \t\t\trx_rd_index1=index_offset1(rx_wr_index1,-3-temp);\r\n \t\t\tfor(i=0;i<temp;i++)\r\n\t\t\t\t{\r\n\t\t\t\tUIB1[i]=rx_buffer1[index_offset1(rx_rd_index1,i)];\r\n\t\t\t\t} \r\n\t\t\trx_rd_index1=rx_wr_index1;\r\n\t\t\trx_counter1=0;\r\n\t\t\tuart_in_an1();\r\n\t\t\tif(usart1_router_stat==ursMEGA)usart1_router_wrk=0;\r\n \t\t\t}\r\n \t\r\n \t\t} \r\n \t}\t\r\n\r\n\r\n__enable_irq(); \r\n} \t\r\n\r\n" }, { "alpha_fraction": 0.7291003465652466, "alphanum_fraction": 0.7465652227401733, "avg_line_length": 40.203277587890625, "blob_id": "dc460a80aa2c3eed3e03f7012b22f126861ce496", "content_id": "f005e995baf9b04874e6c34c4bee4e027636f243", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 14148, "license_type": "no_license", "max_line_length": 114, "num_lines": 305, "path": "/SOFT/UKU/2/snmp_data_file.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "extern char snmp_community[10];\r\nextern char snmp_web_passw[4];\r\n\r\n//Информация об устройстве\r\nextern unsigned int snmp_device_code;\r\nextern signed \t snmp_sernum;\r\nextern signed short snmp_sernum_lsb;\r\nextern signed short snmp_sernum_msb;\r\nextern char \t snmp_location[100];\r\nextern signed short snmp_numofbat;\r\nextern signed short snmp_numofbps;\r\nextern signed short snmp_numofinv;\r\nextern signed short snmp_numofavt;\r\nextern signed short snmp_numofdt;\r\nextern signed short snmp_numofsk;\r\nextern signed short snmp_numofevents;\r\n\r\n//Состояние первичной сети\r\nextern signed short snmp_mains_power_voltage;\r\nextern signed short snmp_mains_power_frequency;\r\nextern signed short snmp_mains_power_status;\r\nextern signed short snmp_mains_power_alarm;\r\nextern signed short snmp_mains_power_voltage_phaseA;\r\nextern signed short snmp_mains_power_voltage_phaseB;\r\nextern signed short snmp_mains_power_voltage_phaseC;\r\n\r\n//Состояние нагрузки\r\nextern signed short snmp_load_voltage;\r\nextern signed short snmp_load_current;\r\n\r\n//Состояние БПСов\r\nextern signed short snmp_bps_number[8];\r\nextern signed short snmp_bps_voltage[8];\r\nextern signed short snmp_bps_current[8];\r\nextern signed short snmp_bps_temperature[8];\r\nextern signed short snmp_bps_stat[8];\r\n\r\n//Состояние инверторов\r\nextern signed short snmp_inv_number[3];\r\nextern signed short snmp_inv_voltage[3];\r\nextern signed short snmp_inv_current[3];\r\nextern signed short snmp_inv_temperature[3];\r\nextern signed short snmp_inv_stat[3];\r\n\r\n//Состояние Батарей\r\nextern signed short snmp_bat_number[2];\r\nextern signed short snmp_bat_voltage[2];\r\nextern signed short snmp_bat_part_voltage[2];\r\nextern signed short snmp_bat_current[2];\r\nextern signed short snmp_bat_temperature[2];\r\nextern signed short snmp_bat_capacity[2];\r\nextern signed short snmp_bat_charge[2];\r\nextern signed short snmp_bat_status[2];\r\nextern signed short snmp_bat_rem_time[2];\r\nextern signed short snmp_bat_flag[2];\r\nextern signed short snmp_bat_flag_puts[2];\r\n\r\n\r\n//Мониторы состояния Батарей\r\nextern signed short snmp_makb_number[4];\r\nextern signed short snmp_makb_connect_status[4];\r\nextern signed short snmp_makb_voltage0[4];\r\nextern signed short snmp_makb_voltage1[4];\r\nextern signed short snmp_makb_voltage2[4];\r\nextern signed short snmp_makb_voltage3[4];\r\nextern signed short snmp_makb_voltage4[4];\r\nextern signed short snmp_makb_temper0[4];\r\nextern signed short snmp_makb_temper1[4];\r\nextern signed short snmp_makb_temper2[4];\r\nextern signed short snmp_makb_temper3[4];\r\nextern signed short snmp_makb_temper4[4];\r\nextern signed short snmp_makb_temper0_stat[4];\r\nextern signed short snmp_makb_temper1_stat[4];\r\nextern signed short snmp_makb_temper2_stat[4];\r\nextern signed short snmp_makb_temper3_stat[4];\r\nextern signed short snmp_makb_temper4_stat[4];\r\nextern signed short snmp_bat_voltage[2];\r\nextern signed short snmp_bat_current[2];\r\nextern signed short snmp_bat_temperature[2];\r\nextern signed short snmp_bat_capacity[2];\r\nextern signed short snmp_bat_charge[2];\r\nextern signed short snmp_bat_status[2]; \r\n\r\n//Спецфункции\r\n//Спецфункции\r\nextern signed short snmp_spc_stat;\r\nextern char snmp_spc_trap_message[100];\r\nextern signed short snmp_spc_trap_value_0,snmp_spc_trap_value_1,snmp_spc_trap_value_2;\r\n\r\n//Состояние силовых вводов\r\nextern signed short snmp_energy_vvod_phase_a;\r\nextern signed short snmp_energy_vvod_phase_b;\r\nextern signed short snmp_energy_vvod_phase_c;\r\nextern signed short snmp_energy_pes_phase_a;\r\nextern signed short snmp_energy_pes_phase_b;\r\nextern signed short snmp_energy_pes_phase_c;\r\nextern signed short snmp_energy_input_voltage;\r\n\r\n//Показания счетчика\r\nextern signed long snmp_energy_total_energy;\r\nextern signed short snmp_energy_current_energy;\r\n\r\n//Состояние сухих контактов\r\nextern signed char snmp_sk_number[4];\r\nextern signed char snmp_sk_aktiv[4];\r\nextern signed char snmp_sk_alarm_aktiv[4];\r\nextern signed char snmp_sk_alarm[4];\r\nextern char snmp_sk_name[4][20];\r\n\r\n//Состояние датчиков температур\r\nextern signed char snmp_dt_number[3];\r\nextern signed short snmp_dt_temper[3];\r\nextern signed char snmp_dt_error[3];\r\n\r\n//Состояние автоматов\r\nextern signed char snmp_avt_number[12];\r\nextern signed char snmp_avt_stat[12];\r\n\r\n//Команды\r\nextern signed short snmp_command;\r\nextern signed short snmp_command_parametr;\r\n\r\n//Журнал аварий\r\nextern char snmp_log[64][128];\r\n\r\n//Установочные параметры\r\nextern signed short snmp_main_bps;\r\nextern signed short snmp_zv_en;\r\nextern signed short snmp_alarm_auto_disable;\r\nextern signed short snmp_bat_test_time;\r\nextern signed short snmp_u_max;\r\nextern signed short snmp_u_min;\r\nextern signed short snmp_u_0_grad;\r\nextern signed short snmp_u_20_grad;\r\nextern signed short snmp_u_sign;\r\nextern signed short snmp_u_min_power;\r\nextern signed short snmp_u_max_power;\t //o_10\r\nextern signed short snmp_u_withouth_bat;\r\nextern signed short snmp_control_current;\r\nextern signed short snmp_max_charge_current;\r\nextern signed short snmp_max_current;\r\nextern signed short snmp_min_current;\r\nextern signed short snmp_uvz;\r\nextern signed short snmp_max_current_koef;\r\nextern signed short snmp_max_current_koef;\r\nextern signed short snmp_up_charge_koef;\r\nextern signed short snmp_powerup_psu_timeout;\r\nextern signed short snmp_max_temperature;\r\nextern signed short snmp_tsign_bat; \r\nextern signed short snmp_tmax_bat;\r\nextern signed short snmp_tsign_bps;\r\nextern signed short snmp_tmax_bps;\r\nextern signed short snmp_bat_part_alarm;\r\nextern signed short snmp_power_cnt_adress;\r\n\r\n//Климат-контроль\r\nextern signed short snmp_klimat_box_temper;\r\nextern signed short snmp_klimat_settings_box_alarm;\r\nextern signed short snmp_klimat_settings_vent_on;\r\nextern signed short snmp_klimat_settings_vent_off;\r\nextern signed short snmp_klimat_settings_warm_on;\r\nextern signed short snmp_klimat_settings_warm_off;\r\nextern signed short snmp_klimat_settings_load_on;\r\nextern signed short snmp_klimat_settings_load_off;\r\nextern signed short snmp_klimat_settings_batt_on;\r\nextern signed short snmp_klimat_settings_batt_off;\r\n\r\n//Внешние датчики температуры\r\nextern signed short snmp_dt_ext;\r\nextern signed short snmp_dt_msan;\r\nextern signed short snmp_dt_epu;\r\n\r\n//Литиевые батареи\r\nextern short snmp_lakb_number[7];\t\t\t\t//Номер ЛАКБ\r\nextern short snmp_lakb_voltage[7];\t\t\t\t//Напряжение ЛАКБ\r\nextern short snmp_lakb_max_cell_voltage[7];\t\t//Максимальное напряжение ячейки ЛАКБ\r\nextern short snmp_lakb_min_cell_voltage[7];\t\t//Минимальное напряжение ячейки ЛАКБ\r\nextern short snmp_lakb_max_cell_temperature[7];\t//Максимальная температура ячейки ЛАКБ\r\nextern short snmp_lakb_min_cell_temperature[7];\t//Минимальная температура ячейки ЛАКБ\r\nextern short snmp_lakb_ch_curr[7];\t\t\t\t//Ток заряда ЛАКБ\r\nextern short snmp_lakb_dsch_curr[7];\t\t\t//Ток разряда ЛАКБ\r\nextern short snmp_lakb_rat_cap[7];\t\t\t\t//Номинальная емкость ЛАКБ\r\nextern short snmp_lakb_soh[7];\t\t\t\t//Остаточная емкость ЛАКБ\r\nextern short snmp_lakb_soc[7];\t\t\t\t//Заряд ЛАКБ\r\nextern short snmp_lakb_cclv[7]; \t\t\t\t//Максимальный ток заряда ЛАКБ\r\nextern short snmp_lakb_rbt[7];\t\t\t\t//Оцениваемое время работы ЛАКБ\r\nextern short snmp_lakb_flags1[7];\t\t\t\t//Первый флаг состояния ЛАКБ\r\nextern short snmp_lakb_flags2[7];\t\t\t\t//Второй флаг состояния ЛАКБ\r\nextern char snmp_lakb_damp1[3][150];\t\t\t\t//Первая строка передаваемого дампа\r\nextern char snmp_lakb_damp2[100];\t\t\t\t//Первая строка передаваемого дампа\r\nextern signed char\tsnmp_lakb_cell_temperature_1[3];\t\t//Температура 1-й ячейки ЛАКБ(ZTT)\r\nextern signed char\tsnmp_lakb_cell_temperature_2[3];\t\t//Температура 2-й ячейки ЛАКБ(ZTT)\r\nextern signed char\tsnmp_lakb_cell_temperature_3[3];\t\t//Температура 3-й ячейки ЛАКБ(ZTT)\r\nextern signed char\tsnmp_lakb_cell_temperature_4[3];\t\t//Температура 4-й ячейки ЛАКБ(ZTT)\r\nextern signed char\tsnmp_lakb_cell_temperature_ambient[3];\t//Температура окружающая ЛАКБ(ZTT)\r\nextern signed char\tsnmp_lakb_cell_temperature_power[3];\t//Температура силовой части ЛАКБ(ZTT)\r\n\r\n//Установки климатконтроля для TELECORE2017\r\nextern signed char\tsnmp_warm_sign;\t\t\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_cool_sign;\t\t\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_warm_on_temper;\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_warm_off_temper;\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_warm_q;\t\t\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_cool_100_temper;\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_cool_80_temper;\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_cool_60_temper;\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_cool_40_temper;\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_cool_20_temper;\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_cool_100_dtemper;\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_cool_80_dtemper;\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_cool_60_dtemper;\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_cool_40_dtemper;\t\t//^^номер первого бпса \r\nextern signed char\tsnmp_cool_20_dtemper;\t\t//^^номер первого бпса \r\nextern signed char \tsnmp_warm_stat;\t\t\t\t//^^\r\n//Данные с модуля дискретных входов ЭНМВ-1\t //o_2\r\nextern unsigned char enmv_on[8]; // если 1, то есть связь с соответствующем модулем\t //o_12\r\nextern unsigned char snmp_enmv_number[64]; //o_2\r\nextern unsigned char snmp_enmv_data[64][8]; //данные с модуля //o_2 \t//o_12\r\nextern unsigned char enmv_data_pred[8][8], enmv_data[8][8]; //данные с модуля текущие и предыдущие // o_7\t //o_12\r\n \r\n//-----------------------------------------------\r\nvoid snmp_data (void);\r\nvoid snmp_sernum_write (int mode); \r\nvoid snmp_location_write (int mode);\r\nvoid snmp_command_execute (int mode);\r\nvoid event2snmp(char num);\r\nvoid snmp_main_bps_write (int mode);\r\nvoid snmp_zv_on_write (int mode);\r\nvoid snmp_alarm_auto_disable_write (int mode);\r\nvoid snmp_bat_test_time_write (int mode);\r\nvoid snmp_u_max_write (int mode);\r\nvoid snmp_u_min_write (int mode);\r\nvoid snmp_u_ips_set_write (int mode);\r\nvoid snmp_u_0_grad_write (int mode);\r\nvoid snmp_u_20_grad_write (int mode);\r\nvoid snmp_u_sign_write (int mode);\r\nvoid snmp_u_min_power_write (int mode);\r\nvoid snmp_u_withouth_bat_write (int mode);\r\nvoid snmp_u_max_power_write (int mode);\t //o_10\r\nvoid snmp_control_current_write (int mode);\r\nvoid snmp_max_charge_current_write (int mode);\r\nvoid snmp_max_current_write (int mode);\r\nvoid snmp_min_current_write (int mode);\r\nvoid snmp_up_charge_koef_write (int mode);\r\nvoid snmp_powerup_psu_timeout_write (int mode);\r\nvoid snmp_max_temperature_write (int mode);\r\nvoid event2snmp(char num);\r\nvoid snmp_trap_send(char str, signed short in0, signed short in1, signed short in2);\r\nvoid snmp_alarm_aktiv_write1(int mode);\r\nvoid snmp_alarm_aktiv_write2(int mode);\r\nvoid snmp_alarm_aktiv_write3(int mode);\r\nvoid snmp_alarm_aktiv_write4(int mode);\r\nvoid snmp_klimat_settings_box_alarm_write(int mode);\r\nvoid snmp_klimat_settings_vent_on_write(int mode);\r\nvoid snmp_klimat_settings_vent_off_write(int mode);\r\nvoid snmp_klimat_settings_warm_on_write(int mode);\r\nvoid snmp_klimat_settings_warm_off_write(int mode);\r\nvoid snmp_klimat_settings_load_on_write(int mode);\r\nvoid snmp_klimat_settings_load_off_write(int mode);\r\nvoid snmp_klimat_settings_batt_on_write(int mode);\r\nvoid snmp_klimat_settings_batt_off_write(int mode);\r\nvoid snmp_tsign_bat_write(int mode);\r\nvoid snmp_tmax_bat_write(int mode);\r\nvoid snmp_tsign_bps_write(int mode);\r\nvoid snmp_tmax_bps_write(int mode);\r\nvoid snmp_bat_part_alarm_write(int mode);\r\nvoid snmp_power_cnt_adress_write(int mode);\r\n//void snmp_uvz_write(int mode);\r\nvoid snmp_warm_sign_write(int mode);\r\nvoid snmp_cool_sign_write(int mode);\r\nvoid snmp_warm_on_temper_write(int mode);\r\nvoid snmp_warm_off_temper_write(int mode);\r\nvoid snmp_warm_q_write(int mode);\r\nvoid snmp_cool_100_temper_write(int mode);\r\nvoid snmp_cool_80_temper_write(int mode);\r\nvoid snmp_cool_60_temper_write(int mode);\r\nvoid snmp_cool_40_temper_write(int mode);\r\nvoid snmp_cool_20_temper_write(int mode);\r\nvoid snmp_cool_100_dtemper_write(int mode);\r\nvoid snmp_cool_80_dtemper_write(int mode);\r\nvoid snmp_cool_60_dtemper_write(int mode);\r\nvoid snmp_cool_40_dtemper_write(int mode);\r\nvoid snmp_cool_20_dtemper_write(int mode);\r\nvoid snmp_u_out_kontr_max_write (int mode);\r\nvoid snmp_u_out_kontr_min_write (int mode);\r\nvoid snmp_u_out_kontr_delay_write (int mode);\r\nvoid snmp_uvz_write (int mode);\r\nvoid snmp_imax_vz_write (int mode);\r\nvoid snmp_vz_hr_write (int mode);\r\nvoid snmp_vz_ch_vent_block_write (int mode);\r\nvoid snmp_spz_i_max_write (int mode);\r\nvoid snmp_spz_u_write (int mode);\r\nvoid snmp_spz_time_write (int mode);\r\nvoid snmp_spz_avt_en_write (int mode);\r\nvoid snmp_spz_delta_write (int mode);\r\nvoid snmp_spz_block_en_src_write (int mode);\r\nvoid snmp_spz_block_log_write (int mode);\r\nvoid snmp_spz_vent_block_write (int mode);\r\n//o_12_s\r\nvoid snmp_LVBD_Uload_rele_en (int mode);\r\nvoid snmp_LVBD_Uakb_rele_en (int mode);\r\nvoid snmp_LVBD_porog_U1 (int mode);\r\nvoid snmp_LVBD_porog_U2 (int mode);\r\nvoid snmp_LVBD_num_meas (int mode);\r\n//o_12_e\r\n\r\n\r\n\r\n\r\n \r\n" }, { "alpha_fraction": 0.4541522264480591, "alphanum_fraction": 0.5074300765991211, "avg_line_length": 16.60449981689453, "blob_id": "515683cf67ba35128edd95f0d217d5a47d1937ce", "content_id": "efb53ba6200d8caf8491bbb2db35ebc3aaaa1e74", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 43612, "license_type": "no_license", "max_line_length": 129, "num_lines": 2311, "path": "/SOFT/UKU/RKI/control_09_03_20.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#include \"global_define.h\"\r\n#include \"25lc640.h\"\r\n#include \"control.h\"\r\n#include \"mess.h\"\r\n#include \"gran.h\"\r\n#include \"common_func.h\"\r\n#include \"eeprom_map.h\"\r\n#include \"avar_hndl.h\"\r\n#include <LPC21XX.H>\r\n\r\n#define KOEFPOT 105L\r\n\r\n\r\n\r\n//extern char u_net_av_stat,u_net_av_stat_;\r\n\r\n\r\nextern const unsigned short ADR_KI0BAT[2];\r\n\r\n \r\n\r\n\r\nextern BAT_STAT bat[2];\r\n\r\nextern signed short\t\tbat_u_old_cnt;\r\n\r\n\r\n\r\nextern signed short load_U;\r\nextern signed short load_I;\r\nextern signed short u_necc,u_necc_;\r\nextern signed short main_cnt_5Hz;\r\nextern signed short num_necc;\r\nextern signed short num_necc_Imax;\r\nextern signed short num_necc_Imin;\r\n//extern char bSAME_IST_ON;\r\n//extern signed short Unet,unet_store;\r\n//extern char bat_cnt_to_block[2];\r\n//extern enum {bisON=0x0055,bisOFF=0x00aa}BAT_IS_ON[2];\r\nextern signed mat_temper;\r\n\r\nextern signed short Ktout[3];\r\n\r\n\r\n\r\n\r\n//*********************************************\r\n//Аварии\r\ntypedef struct \r\n\t{\r\n unsigned int bAN:1; \r\n unsigned int bAB1:1; \r\n unsigned int bAB2:1;\r\n unsigned int bAS1:1;\r\n unsigned int bAS2:1;\r\n unsigned int bAS3:1;\r\n unsigned int bAS4:1;\r\n unsigned int bAS5:1;\r\n unsigned int bAS6:1;\r\n unsigned int bAS7:1;\r\n unsigned int bAS8:1;\r\n unsigned int bAS9:1;\r\n unsigned int bAS10:1;\r\n unsigned int bAS11:1;\r\n unsigned int bAS12:1;\r\n }avar_struct;\r\n \r\nextern union \r\n{\r\navar_struct av;\r\nint avar_stat;\r\n}a,a_;\r\n\r\n//*******************************************\r\n//АЦП\r\nshort adc_buff[16][16],adc_buff_[16];\r\nchar adc_cnt,adc_cnt1,adc_ch;\r\nshort zero_cnt;\r\nenum {asCH=1,asNET_WAIT=2,asNET_RDY=3,asNET=4} adc_stat=asCH;\r\nunsigned short net_buff[32],net_buff_;\r\nchar net_buff_cnt;\r\nshort ADWR,period_cnt;\r\nchar rele_stat;\r\nchar bRELE_OUT;\r\n\r\n\r\nextern int mess_par0[MESS_DEEP],mess_par1[MESS_DEEP],mess_data[2];\r\n\r\nextern signed short TBAT;\r\nextern signed short Kunet;\r\nextern signed short Kubat[2];\r\nextern unsigned short ad7705_buff[2][16],ad7705_buff_[2];\r\nextern signed short Kibat0[2];\r\nextern signed short Kibat1[2];\r\nextern signed short Ktbat[2];\r\n//extern signed short bat_Ib[2];\r\nshort adc_buff_out_[3];\r\nextern char kb_full_ver;\r\nextern signed short Kuload;\r\n\r\nsigned short bat_ver_cnt=150;\r\nextern signed short Isumm;\r\nextern char ND_out[3];\r\nextern signed short tout[4];\r\n\r\n\r\nshort plazma_adc_cnt;\r\n\r\nextern char cntrl_plazma;\r\n\r\nextern const short ptr_bat_zar_cnt[2];\r\n\r\n//*******************************************\r\n//Управление вентилятором\r\nsigned char vent_stat=0;\r\n\r\n//*******************************************\r\n//Управление ШИМом\r\nsigned short cntrl_stat=600;\r\nsigned short cntrl_stat_old=600;\r\nsigned short cntrl_stat_new;\r\nsigned short Ibmax;\r\n\r\n//*******************************************\r\n//Самокалиброввка\r\nsigned short samokalibr_cnt;\r\n\r\n//*******************************************\r\n//Управление источниками\r\nchar bps_hndl_2sec_cnt;\r\n\r\n//*******************************************\r\n//Выравнивание токов\r\nshort avg_main_cnt=20;\r\nshort i_avg_max,i_avg_min,i_avg_summ,i_avg; \r\nshort avg;\r\nchar bAVG;\r\nchar avg_cnt; \r\nchar avg_num; \r\n\r\n//******************************************\r\n//Контроль наличия батарей\r\nsigned short \tmain_kb_cnt;\r\nsigned short \tkb_cnt_1lev;\r\nsigned short \tkb_cnt_2lev;\r\nchar \t\tkb_full_ver;\r\nchar kb_start[2];\r\n\r\n//******************************************\r\n//Работа с БПСами\r\nchar num_of_wrks_bps;\r\nchar bps_all_off_cnt,bps_mask_off_cnt,bps_mask_on_off_cnt;\r\n\r\n//*******************************************\r\n//Спецфункции\r\nenum {spcOFF=0,spcKE, spcVZ}spc_stat=spcOFF;\r\nchar spc_bat;\r\nchar spc_phase;\r\n\r\n//*******************************************\r\n//Состояние первичной сети\r\n//char u_net_av_stat,u_net_av_stat_;\r\nsigned short net_U,net_Ustore;\r\nchar bFF,bFF_;\r\nsigned short net_F,hz_out,hz_out_cnt;\r\nsigned char unet_drv_cnt;\r\nchar net_av;\r\n\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//******************************************\r\n//Внешние\r\n\r\n//******************************************\r\n//Коэффициенты, отображаемые из EEPROM\r\n\r\nextern signed short Ktsrc[2];\r\nextern signed short Kusrc[2];\r\nextern signed short Kisrc[2];\r\nextern signed short Ki0src[2];\r\nextern signed short Kubat[2];\r\nextern signed short Kibat0[2];\r\nextern signed short Kibat1[2];\r\nextern signed short Ktbat[2];\r\nextern signed short Kunet;\r\nextern signed short Ktout[3];\r\nextern signed short Kuload;\r\n\r\nextern signed short MAIN_IST;\r\nextern signed short UMAX;\r\nextern signed short UB0;\r\nextern signed short UB20;\r\nextern signed short TMAX;\r\nextern signed short TSIGN;\r\nextern signed short AV_OFF_AVT;\r\nextern signed short USIGN;\r\nextern signed short UMN;\r\nextern signed short ZV_ON;\r\nextern signed short IKB;\r\nextern signed short KVZ;\r\nextern signed short IMAX;\r\nextern signed short KIMAX;\r\nextern signed short APV_ON;\r\nextern signed short IZMAX;\r\nextern signed short U0B;\r\nextern signed short TZAS;\r\nextern signed short VZ_HR;\r\nextern signed short TBAT;\r\nextern signed short U_AVT;\r\nextern signed short DU;\r\nextern signed short PAR;\r\n\r\nextern signed short NUMBAT;\r\nextern signed short NUMIST;\r\nextern signed short NUMINV;\r\nextern signed short NUMDT;\r\nextern signed short NUMSK;\r\nextern signed short NUMEXT;\r\n\r\nextern enum {apvON=0x0055,apvOFF=0x00aa}apv_on1,apv_on2;\r\nextern signed short apv_on2_time;\r\nextern enum {bisON=0x0055,bisOFF=0x00aa}BAT_IS_ON[2];\r\nextern signed short BAT_DAY_OF_ON[2];\r\nextern signed short BAT_MONTH_OF_ON[2];\r\nextern signed short BAT_YEAR_OF_ON[2];\r\nextern signed short BAT_C_NOM[2];\r\nextern signed short BAT_RESURS[2];\r\nextern signed short BAT_C_REAL[2];\r\n\r\nextern unsigned short AUSW_MAIN;\r\nextern unsigned long \tAUSW_MAIN_NUMBER;\r\nextern unsigned short AUSW_DAY;\r\nextern unsigned short AUSW_MONTH;\r\nextern unsigned short AUSW_YEAR;\r\nextern unsigned short AUSW_UKU;\r\nextern unsigned short AUSW_UKU_SUB;\r\nextern unsigned long AUSW_UKU_NUMBER;\r\nextern unsigned long\tAUSW_BPS1_NUMBER;\r\nextern unsigned long AUSW_BPS2_NUMBER;\r\nextern unsigned short AUSW_RS232;\r\nextern unsigned short AUSW_PDH;\r\nextern unsigned short AUSW_SDH;\r\nextern unsigned short AUSW_ETH;\r\n\r\nextern signed short TMAX_EXT_EN[3];\r\nextern signed short TMAX_EXT[3];\r\nextern signed short TMIN_EXT_EN[3];\r\nextern signed short TMIN_EXT[3];\r\nextern signed short T_EXT_REL_EN[3];\r\nextern signed short T_EXT_ZVUK_EN[3];\r\nextern signed short T_EXT_LCD_EN[3];\r\nextern signed short T_EXT_RS_EN[3];\r\n\r\nextern signed short SK_SIGN[4];\r\nextern signed short SK_REL_EN[4];\r\nextern signed short SK_ZVUK_EN[4];\r\nextern signed short SK_LCD_EN[4];\r\nextern signed short SK_RS_EN[4];\r\n\r\nextern enum {AVZ_1=1,AVZ_2=2,AVZ_3=3,AVZ_6=6,AVZ_12=12,AVZ_OFF=0}AVZ;\r\nextern unsigned short HOUR_AVZ;\r\nextern unsigned short MIN_AVZ;\r\nextern unsigned short SEC_AVZ;\r\nextern unsigned short DATE_AVZ;\r\nextern unsigned short MONTH_AVZ;\r\nextern unsigned short YEAR_AVZ;\r\nextern unsigned short AVZ_TIME;\r\nextern enum {mnON=0x55,mnOFF=0xAA}MNEMO_ON;\r\nextern unsigned short MNEMO_TIME;\r\n\r\n//******************************************\r\n//Время\r\nextern signed short main_10Hz_cnt;\r\n\r\n\r\n//*******************************************\r\n//Аварии\r\nextern unsigned avar_stat;\t \t//\"Отображение\" всех аварийных в данный момент устройств в одном месте\r\nextern unsigned avar_ind_stat; \t//\"Отображение\" всех не просмотренных аварийных устройств в одном месте\r\nextern unsigned avar_stat_old;\r\nextern unsigned avar_stat_new,avar_stat_offed;\r\n//Структура переменных\r\n//1бит - питающая сеть\r\n//2бита - батареи\r\n//12бит - БПСы\r\n//5бит - инверторы\r\n//4бита - внешние датчики температуры\r\n//4бита - внешние сухие контакты\r\n\r\n//********************************************\r\n//Состояние источников\r\nextern BPS_STAT bps[12];\r\n\r\n//-----------------------------------------------\r\nvoid kb_init(void)\r\n{\r\nmain_kb_cnt=(TBAT60)-60/120/;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid kb_hndl(void)\r\n{\r\n\r\nstatic signed short ibat[2],ibat_[2];\r\n\r\nif(++main_kb_cnt>=TBAT60)\r\n\t{\r\n\tmain_kb_cnt=0;\r\n\t\r\n\tkb_start[0]=0;\r\n\tkb_start[1]=0;\r\n\r\n\tif( (BAT_IS_ON[0]==bisON) && (bat[0]._Ub>80) && ( (abs(bat[0]._Ib<IKB)) \|\| (bat[0]._av) ) ) kb_start[0]=1;\r\n\tif( (BAT_IS_ON[1]==bisON) && (bat[1]._Ub>80) && ( (abs(bat[1]._Ib<IKB)) \|\| (bat[1]._av) ) ) kb_start[1]=1;\r\n\t\r\n\tif( (net_av) \|\| (num_of_wrks_bps==0) \|\| ( (spc_stat!=spcOFF) && (spc_stat!=spcVZ) ) ) \r\n\t\t{\r\n\t\tkb_start[0]=0;\r\n\t\tkb_start[1]=0;\r\n\t\t}\r\n\r\n\tif((kb_start[0]==1)\|\|(kb_start[1]==1))\r\n\t\t{\r\n\t\tkb_cnt_1lev=10;\r\n\t\t}\r\n\telse kb_cnt_1lev=0;\r\n\t}\r\n\r\nif(kb_cnt_1lev)\r\n\t{\r\n\tkb_cnt_1lev--;\r\n\r\n\tif(kb_cnt_1lev>5)mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_PLUS,30,15);\r\n\telse if(kb_cnt_1lev>0) mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_MINUS,30,15);\r\n\r\n\r\n\tif(kb_cnt_1lev==5)\r\n\t\t{\r\n\t\tibat[0]=abs(bat[0]._Ib);\r\n\t\tibat[1]=abs(bat[1]._Ib);\r\n\t\t}\r\n\t\r\n\tif(kb_cnt_1lev==0)\r\n\t\t{\r\n\t\tibat_[0]=abs(bat[0]._Ib);\r\n\t\tibat_[1]=abs(bat[1]._Ib);\r\n\r\n\t\tkb_cnt_2lev=0;\r\n\t\tif( (ibat[0]+ibat_[0]) < IKB ) \r\n\t\t\t{\r\n\t\t\tkb_cnt_2lev=10; \r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tkb_start[0]=0;\r\n\t\t\tavar_bat_hndl(0,0);\r\n\t\t\t}\r\n\t\t\r\n\t\tif( (ibat[1]+ibat_[1]) < IKB )\r\n\t\t\t{\r\n\t\t\tkb_cnt_2lev=10; \r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tkb_start[1]=0;\r\n\t\t\tavar_bat_hndl(1,0);\r\n\t\t\t}\r\n\t\t}\t\r\n\r\n\r\n\t}\r\nelse if(kb_cnt_2lev)\r\n\t{\r\n\tkb_cnt_2lev--;\r\n\r\n\tif(kb_cnt_2lev>5)mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_PLUS,200,15);\r\n\telse if(kb_cnt_2lev>0) mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_MINUS,200,15);\r\n\r\n\r\n\tif(kb_cnt_2lev==5)\r\n\t\t{\r\n\t\tibat[0]=abs(bat[0]._Ib);\r\n\t\tibat[1]=abs(bat[1]._Ib);\r\n\t\t}\r\n\t\r\n\tif(kb_cnt_2lev==0)\r\n\t\t{\r\n\t\tibat_[0]=abs(bat[0]._Ib);\r\n\t\tibat_[1]=abs(bat[1]._Ib);\r\n\r\n\t\tkb_full_ver=0;\r\n\r\n\t\tif( (ibat[0]+ibat_[0]) < IKB ) \r\n\t\t\t{\r\n\t\t\tkb_full_ver=1; \r\n\t\t\t}\r\n\t\telse \t\t\t\r\n\t\t\t{\r\n\t\t\tkb_start[0]=0;\r\n\t\t\tavar_bat_hndl(0,0);\r\n\t\t\t}\r\n\r\n\t\tif( (ibat[1]+ibat_[1]) < IKB )\r\n\t\t\t{\r\n\t\t\tkb_full_ver=1; \r\n\t\t\t}\r\n\t\telse\t\t\t\r\n\t\t\t{\r\n\t\t\tkb_start[1]=0;\r\n\t\t\tavar_bat_hndl(1,0);\r\n\t\t\t}\r\n\r\n\r\n\t\t}\t\r\n\t}\r\n\r\nelse if(kb_full_ver)\r\n\t{\r\n\t\r\n\tmess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_STEP_DOWN,0,15);\r\n\r\n\tif( abs(bat[0]._Ib) > IKB ) \r\n\t\t{\r\n\t\tif(kb_start[0]==1)\r\n\t\t\t{\r\n\t\t\tkb_start[0]=0;\r\n\t\t\tavar_bat_hndl(0,0);\r\n\t\t\t}\r\n\t\t}\r\n\r\n\tif( abs(bat[1]._Ib) > IKB ) \r\n\t\t{\r\n\t\tif(kb_start[1]==1)\r\n\t\t\t{\r\n\t\t\tkb_start[1]=0;\r\n\t\t\tavar_bat_hndl(1,0);\r\n\t\t\t}\r\n\t\t}\r\n\r\n\tif( (mess_find(MESS2KB_HNDL))\t&& (mess_data[0]==PARAM_CNTRL_IS_DOWN) )\r\n\t\t{\r\n\t\tkb_full_ver=0;\r\n\t\tif(kb_start[0]==1) avar_bat_hndl(0,1);\r\n\t\tif(kb_start[1]==1) avar_bat_hndl(1,1);\r\n\t\t}\r\n\t}\r\n\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid samokalibr_init(void)\r\n{\r\nsamokalibr_cnt=1785;\r\n}\r\n//-----------------------------------------------\r\nvoid samokalibr_hndl(void)\r\n{\r\nif(++samokalibr_cnt>=1800)samokalibr_cnt=0;\r\n\r\nif(samokalibr_cnt>=1785U)\r\n\t{\r\n\tmess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR_ENABLE,0,15);\r\n\tmess_send(MESS2IND_HNDL,PARAM_SAMOKALIBR,0,15);\r\n\tmess_send(MESS2MATEMAT,PARAM_SAMOKALIBR,0,15);\r\n\t} \r\n\r\nif(samokalibr_cnt==1799U)\r\n\t{\r\n\tif(Kibat0[0]!=ad7705_buff_[0]) lc640_write_int(ADR_KI0BAT[0],ad7705_buff_[0]);\r\n\tif(Kibat0[1]!=ad7705_buff_[1]) lc640_write_int(ADR_KI0BAT[1],ad7705_buff_[1]);\r\n\t\r\n\t}\t \t\r\n}\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid ubat_old_drv(void)\r\n{ \r\nbat_u_old_cnt++;\r\ngran_ring(&bat_u_old_cnt,0,8);\r\n\r\nbat[0]._u_old[bat_u_old_cnt]=bat[0]._Ub;\r\nbat[1]._u_old[bat_u_old_cnt]=bat[1]._Ub;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid unet_drv(void)\r\n{\r\nif(net_U<UMN)\r\n\t{\r\n\tif(unet_drv_cnt<10)\r\n\t\t{\r\n\t\tunet_drv_cnt++;\r\n\t\tif(unet_drv_cnt>=10)\r\n\t\t\t{\r\n\t\t\tnet_Ustore=net_U;\r\n\t\t \tavar_unet_hndl(1);\r\n\t\t\t\r\n\t\t\t}\r\n\t\t}\r\n\telse if(unet_drv_cnt>=10)unet_drv_cnt=10;\r\n\r\n\tif(net_U<net_Ustore) net_Ustore=net_U;\t\r\n\t}\r\n\r\nelse if(net_U>UMN)\r\n\t{ \r\n\tif(unet_drv_cnt)\r\n\t\t{\r\n\t\tunet_drv_cnt--;\r\n\t\tif(unet_drv_cnt<=0)\r\n\t\t\t{\r\n\t\t\tavar_unet_hndl(0);\r\n\t\t\t}\r\n\t\t}\r\n\telse if(unet_drv_cnt<0)unet_drv_cnt=0;\r\n\t\r\n\t}\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid matemat(void)\r\n{\r\n//signed short temp_SS;\r\nsigned long temp_SL;\r\nchar /temp,/i;\r\n\r\n//static char plpl;\r\n\r\ntemp_SL=(signed long)net_buff_;\r\ntemp_SL=Kunet;\r\ntemp_SL/=110000L;\r\nnet_U=(signed short)temp_SL;\r\n\r\n\r\ntemp_SL=(signed long)adc_buff_[4];\r\ntemp_SL=Kubat[0];\r\ntemp_SL/=500L;\r\nbat[0]._Ub=(signed short)temp_SL;\r\n\r\ntemp_SL=(signed long)adc_buff_[0];\r\ntemp_SL=Kubat[1];\r\ntemp_SL/=500L;\r\nbat[1]._Ub=(signed short)temp_SL;\r\n\r\nif(!mess_find_unvol(MESS2MATEMAT))\r\n\t{\r\n\ttemp_SL=(signed long)ad7705_buff_[0];\r\n\ttemp_SL-=Kibat0[0];\r\n\ttemp_SL=Kibat1[0];\r\n\ttemp_SL/=900L;\r\n\tbat[0]._Ib=(signed short)temp_SL;\r\n\r\n\ttemp_SL=(signed long)ad7705_buff_[1];\r\n\ttemp_SL-=Kibat0[1];\r\n\ttemp_SL=Kibat1[1];\r\n\ttemp_SL/=900L;\r\n\tbat[1]._Ib=(signed short)temp_SL;\r\n\t}\r\n\r\nif((adc_buff_[12]>200)&&(adc_buff_[12]<1000))bat[0]._nd=0;\r\nelse bat[0]._nd=1;\r\ntemp_SL=(signed long)adc_buff_[12];\r\ntemp_SL=Ktbat[0];\r\ntemp_SL/=5000L;\r\ntemp_SL-=273L;\r\nbat[0]._Tb=(signed short)temp_SL;\r\n\r\nif((adc_buff_[10]>200)&&(adc_buff_[10]<1000))bat[1]._nd=0;\r\nelse bat[1]._nd=1;\r\ntemp_SL=(signed long)adc_buff_[10];\r\ntemp_SL=Ktbat[1];\r\ntemp_SL/=5000L;\r\ntemp_SL-=273L;\r\nbat[1]._Tb=(signed short)temp_SL;\r\n\r\n\r\n\r\n/if(Ibat<0)bit_minus=1;\r\nelse bit_minus=0;/\r\n\r\nif((kb_full_ver)&&(abs(bat[0]._Ib)>IKB))\r\n\t{\r\n\tkb_full_ver=0;\r\n\t//avar_bat_hndl(0);\r\n\tgran(&TBAT,5,60);\r\n bat_ver_cnt=TBAT300;\r\n\t}\r\n\r\n/temp_SS=0;\r\nif((bat_Ub[0]>=100)&&(BAT_IS_ON[0]==bisON)&&(bat_rel_stat[0]==0)) temp_SS=bat_Ub[0];\r\nif((bat_Ub[1]>=temp_SS)&&(BAT_IS_ON[1]==bisON)&&(bat_rel_stat[1]==0)) temp_SS=bat_Ub[1];\r\nfor(temp=0;temp<NUMIST;temp++)\r\n\t{\r\n\tif((src[temp]._Uii>200)&&(src[temp]._Uii>temp_SS)&&(src[temp]._cnt<5))\r\n\t\t{\r\n\t\ttemp_SS=src[temp]._Uii;\r\n\t\t}\r\n\t}\r\nload_U=temp_SS;/\r\n\r\n\r\ntemp_SL=(signed long)adc_buff_[9];\r\ntemp_SL=Kuload;\r\ntemp_SL/=500L;\r\nload_U=(signed short)temp_SL;\r\n\r\n\r\n\r\n\t\r\n/else if (Us[0]>=100) Uload=Us[0];\r\nelse Uload=Us[1];/\r\n\r\n/iload=Is[0]+Is[1]-(bat[0]._Ib/10);\r\nif(iload<0) iload=0;/\r\n\r\n\r\n\r\n\r\n/\r\nif((adc_buff_[6]>200)&&(adc_buff_[6]<1000))ND[0]=0;\r\nelse ND[0]=0xff;\r\ntemp_SL=(signed long)adc_buff_[6];\r\ntemp_SL=Ktsrc[0];\r\ntemp_SL/=5000L;\r\ntemp_SL-=273L;\r\nbat_Tb[0]=(signed short)temp_SL;/\r\n\r\n\r\n\r\n\r\nif((adc_buff_out_[0]>200)&&(adc_buff_out_[0]<800))ND_out[0]=0;\r\nelse ND_out[0]=0xff;\r\n\r\ntemp_SL=(signed long)adc_buff_out_[0];\r\ntemp_SL=Ktout[0];\r\ntemp_SL/=2000L;\r\ntemp_SL-=273L;\r\ntout[0]=(signed short)temp_SL;\r\n\r\n\r\nif((adc_buff_out_[1]>200)&&(adc_buff_out_[1]<800))ND_out[1]=0;\r\nelse ND_out[1]=0xff;\r\n\r\ntemp_SL=(signed long)adc_buff_out_[1];\r\ntemp_SL=Ktout[1];\r\ntemp_SL/=2000L;\r\ntemp_SL-=273L;\r\ntout[1]=(signed short)temp_SL;\r\n\r\n\r\nif((adc_buff_out_[2]>200)&&(adc_buff_out_[2]<800))ND_out[2]=0;\r\nelse ND_out[2]=0xff;\r\n\r\ntemp_SL=(signed long)adc_buff_out_[2];\r\ntemp_SL=Ktout[2];\r\ntemp_SL/=2000L;\r\ntemp_SL-=273L;\r\ntout[2]=(signed short)temp_SL;\r\n\r\n\r\nif((BAT_IS_ON[0]==bisON)&&(bat[0]._Ub>200)) Ibmax=bat[0]._Ib;\r\nif((BAT_IS_ON[1]==bisON)&&(bat[1]._Ub>200)&&(bat[1]._Ib>bat[0]._Ib)) Ibmax=bat[1]._Ib;\r\n\r\n\r\n/if((Is[0]+Is[1])>IMAX)\r\n\t{\r\n\tnum_necc=2;\r\n\tcnt_num_necc=25;\r\n\t}\r\n\t\r\nelse if(((Is[0]+Is[1])10)<(IMAXKIMAX))\r\n\t{\r\n\tif(cnt_num_necc)\r\n\t\t{\r\n\t\tcnt_num_necc--;\r\n\t\tif(cnt_num_necc==0) num_necc=1;\r\n\t\t}\r\n\t}\t/\r\n\r\n\r\nfor(i=0;i<NUMIST;i++)\r\n\t{\r\n\tif(bps[i]._cnt<25)\r\n \t{\r\n \tbps[i]._Ii=bps[i]._buff[0]+(bps[i]._buff[1]256);\r\n \tbps[i]._Uin=bps[i]._buff[2]+(bps[i]._buff[3]256);\r\n \tbps[i]._Uii=bps[i]._buff[4]+(bps[i]._buff[5]256);\r\n \tbps[i]._Ti=(signed)(bps[i]._buff[6]);\r\n \tbps[i]._adr_ee=bps[i]._buff[7];\r\n \tbps[i]._flags_tm=bps[i]._buff[8];\r\n\t bps[i]._rotor=bps[i]._buff[10]+(bps[i]._buff[11]256); \r\n \t} \r\n\telse \r\n \t{\r\n \tbps[i]._Uii=0; \r\n \tbps[i]._Ii=0;\r\n \tbps[i]._Uin=0;\r\n \tbps[i]._Ti=0;\r\n \tbps[i]._flags_tm=0; \r\n\t bps[i]._rotor=0; \r\n \t}\r\n \r\n }\r\n\r\n\r\n\r\nload_I=-(bat[0]._Ib/10)-(bat[1]._Ib/10);\r\n\r\nIsumm=0;\r\n\r\nfor(i=0;i<NUMIST;i++)\r\n {\r\n if(bps[i]._cnt<5)Isumm+=bps[i]._Ii;\r\n } \r\n \r\nload_I=load_I+Isumm;\r\nif(load_I<0)load_I=0;\r\n\t\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid adc_init(void)\r\n{\r\n\r\nSET_REG(PINSEL1,1,(28-16)2,2);\r\nSET_REG(PINSEL1,1,(29-16)2,2);\r\nSET_REG(PINSEL1,1,(30-16)2,2);\t\r\n\r\nSET_REG(PINSEL0,0,(4)2,2);\r\nSET_REG(PINSEL0,0,(5)2,2);\r\nSET_REG(PINSEL0,0,(6)2,2);\r\n\r\nSET_REG(IO0DIR,1,4,1);\r\nSET_REG(IO0DIR,1,5,1);\r\nSET_REG(IO0DIR,1,6,1);\r\n\r\nperiod_cnt=0;\r\nzero_cnt=0;\r\nadc_stat=asNET_WAIT;\r\n\r\nSET_REG(ADCR,1,21,1);\t//PDN=1;\r\nSET_REG(ADCR,14,8,8);\t//CLKDIV=14;\r\nSET_REG(ADCR,0,16,1);\t//BURST=0;\r\nSET_REG(ADCR,0,17,3);\t//CLKS=0;\r\nSET_REG(ADCR,0,22,2);\t//TEST=0;\r\nSET_REG(ADCR,1,24,3);\t//START=1;\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid adc_drv(void)\r\n{\r\nshort temp_S;\r\nchar i;\r\nif(GET_REG( ADDR,31,1))\r\n\t{\r\n\tplazma_adc_cnt++;\r\n\tADWR=(short)(GET_REG(ADDR,6,10));\r\n\r\n\tif(adc_stat==asNET_WAIT)\r\n\t\t{\r\n\t\tif(ADWR<20)\r\n\t\t\t{\r\n\t\t\tif(zero_cnt<20) \r\n\t\t\t\t{\r\n\t\t\t\tzero_cnt++;\r\n\t\t\t\tif(zero_cnt>=20)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tadc_stat=asNET_RDY;\r\n\t\t\t\t\tperiod_cnt=0;\r\n\t\t\tIO0DIR\|=(1<<25);\r\n\t\t\tIO0CLR\|=(1<<25);\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\r\n\t\t\t}\r\n\t\telse zero_cnt=0;\r\n\t\t\r\n\t\tperiod_cnt++;\r\n\t\tif(period_cnt>50)\r\n\t\t\t{\r\n\t\t\tadc_stat=asNET_RDY;\r\n\t\t\tperiod_cnt=0;\r\n\t\t\tIO0DIR\|=(1<<25);\r\n\t\t\tIO0CLR\|=(1<<25);\r\n\t\t\t\r\n\t\t\t}\r\n\r\n\t\t}\r\n\t else if(adc_stat==asNET_RDY)\r\n\t\t{\r\n\t\tif(ADWR>20)\r\n\t\t\t{\r\n\t\t\tadc_stat=asNET;\r\n\t\t\tperiod_cnt=0;\r\n\t\t\tIO0DIR\|=(1<<25);\r\n\t\t\tIO0SET\|=(1<<25);\r\n\t\t\tnet_buff[net_buff_cnt]=0;\r\n\t\t\t}\r\n\t\tperiod_cnt++;\r\n\t\tif(period_cnt>200)\r\n\t\t\t{\r\n\t\t\tadc_stat=asNET;\r\n\t\t\tperiod_cnt=0;\r\n\t//\t\tIO0DIR\|=(1<<25);\r\n\t//\t\tIO0SET\|=(1<<25);\r\n\t\t\tnet_buff[net_buff_cnt]=0;\r\n\t\t\t}\r\n\t\t }\r\n\r\n\telse if(adc_stat==asNET)\r\n\t\t{\r\n\r\n\t\tnet_buff[net_buff_cnt]+=ADWR;\r\n\t\t\r\n\t\tperiod_cnt++;\r\n\t\tif((ADWR<20)\|\|(period_cnt>100))\r\n\t\t\t{\r\n\t\t\tadc_stat=asCH;\r\n\t\t\tperiod_cnt=0;\r\n\t//\t\tIO0DIR\|=(1<<25);\r\n\t//\t\tIO0CLR\|=(1<<25);\r\n\t\t\t\r\n\t\t\tnet_buff_cnt++;\r\n\t\t\tif(net_buff_cnt>=32)\r\n\t\t\t\t{\r\n\t\t\t\tunsigned long tempUL=0;\r\n\t\t\t\tchar i;\r\n\t\t\t\tnet_buff_cnt=0;\r\n\t\t\t\ttempUL=0;\r\n\t\t\t\tfor(i=0;i<32;i++)\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttempUL+=net_buff[i];\r\n\t\t\t\t\t}\r\n\t\t\t\tnet_buff_=(unsigned short)(tempUL>>5);\t\r\n\t\t\t\t}\r\n\t\t\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(adc_stat==asCH)\r\n\t\t{\r\n\t\tif(++period_cnt>=10)\r\n\t\t\t{\r\n\t\t\tperiod_cnt=0;\r\n\t\t\tadc_buff[adc_ch][adc_cnt]=ADWR;\r\n\t\t\r\n\t\t\tif(++adc_ch>=16) \r\n\t\t\t\t{\r\n\t\t\t\tadc_ch=0;\r\n\t\t\t\tadc_cnt++;\r\n\t\t\t\tif(adc_cnt>=16)adc_cnt=0;\r\n\t\t\t\t}\t\r\n\r\n\t\t\tif((adc_cnt&0x03)==0)\r\n\t\t\t\t{\r\n\t\t\t\ttemp_S=0;\r\n\t\t\t\tfor(i=0;i<16;i++)\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttemp_S+=adc_buff[adc_ch][i];\r\n\t\t\t\t\tadc_buff_[adc_ch]=temp_S>>4;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t\r\n\t\t\r\n\t\t\tif((adc_ch&0x03)==0) \r\n\t\t\t\t{\r\n\t\t\t\tadc_stat=asNET_WAIT;\r\n\t\t\t\tIO0DIR\|=(1<<25);\r\n\t\t\t\tIO0SET\|=(1<<25);\r\n\t\t\t\tperiod_cnt=0;\r\n\t\t\t\tzero_cnt=0;\r\n\t\t\t\tbRELE_OUT=1;\r\n\t\t\t\t}\r\n\t\t\t}\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n/\t\tadc_stat=asNET_WAIT;\r\n\t\tperiod_cnt=0;\r\n\t\tzero_cnt=0;/\r\n\r\n\r\n\t\t} \r\n\r\n\r\n\r\n\r\n\r\n/\tif(ADWR>20)\r\n\t\t{\r\n\t\t\t\tIO0DIR\|=(1<<25);\r\n\t\t\t\tIO0SET\|=(1<<25);\r\n\t\t}\r\n\tif(ADWR<20)\r\n\t\t{\r\n\t\t\t\tIO0DIR\|=(1<<25);\r\n\t\t\t\tIO0CLR\|=(1<<25);\t\t} /\r\n\t\r\n /\r\n\tif(adc_stat==asNET_WAIT)\r\n\t\t{\r\n\t\tperiod_cnt++;\r\n\t\t\r\n\r\n\t\tif((period_cnt>200)\|\|((ADWR>100)&&(zero_cnt>10)))\r\n\t\t\t{\r\n\t\t\tadc_stat=asNET;\r\n\t\t\tnet_buff[net_buff_cnt]=0;\r\n\t\t\tIO0CLR\|=(1<<25);\r\n\t\t\t}\r\n\t\t}\t\r\n\telse if(adc_stat==asNET)\r\n\t\t{\r\n\t\tnet_buff[net_buff_cnt]+=ADWR;\r\n\t\t\r\n\t\tif((ADWR<100)\|\|(++period_cnt>300))\r\n\t\t\t{\r\n\t\t\tadc_stat=asCH;\r\n\t\t\tperiod_cnt=0;\r\n\t\t\tnet_buff_cnt++;\r\n\t\t\tif(net_buff_cnt>=32)\r\n\t\t\t\t{\r\n\t\t\t\tunsigned long tempUL=0;\r\n\t\t\t\tchar i;\r\n\t\t\t\tnet_buff_cnt=0;\r\n\t\t\t\ttempUL=0;\r\n\t\t\t\tfor(i=0;i<32;i++)\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttempUL+=net_buff[i];\r\n\t\t\t\t\t}\r\n\t\t\t\tnet_buff_=(unsigned short)(tempUL>>5);\t\r\n\t\t\t\t}\r\n\t\t\tnet_buff[net_buff_cnt]=0;\r\n\t\t\t}\t\r\n\t\t}\r\n\telse if(adc_stat==asCH)\r\n\t\t{\r\n\t\tif(++period_cnt>=20)\r\n\t\t\t{\r\n\t\t\tperiod_cnt=0;\r\n\t\t\tadc_buff[adc_ch][adc_cnt]=ADWR;\r\n\t\t\r\n\t\t\tif((adc_cnt&0x03)==0)\r\n\t\t\t\t{\r\n\t\t\t\ttemp_S=0;\r\n\t\t\t\tfor(i=0;i<16;i++)\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttemp_S+=adc_buff[adc_ch][i];\r\n\t\t\t\t\tadc_buff_[adc_ch]=temp_S>>4;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\tif(++adc_ch>=16) \r\n\t\t\t\t{\r\n\t\t\t\tadc_ch=0;\r\n\t\t\t\tadc_cnt++;\r\n\t\t\t\tif(adc_cnt>=16)adc_cnt=0;\r\n\t\t\t\t}\t\r\n\t\t\r\n\t\t\tif((adc_ch&0x01)==0) \r\n\t\t\t\t{\r\n\t\t\t\tadc_stat=asNET_WAIT;\r\n\t\t\t\tperiod_cnt=0;\r\n\t\t\t\tzero_cnt=0;\r\n\t\t\t\t//bRELE_OUT=1;\r\n\t\t\t\t}\r\n\t\t\t}//\r\n\t\t\t\tadc_stat=asNET_WAIT;\r\n\t\t\t\tperiod_cnt=0;\r\n\t\t\t\tzero_cnt=0;\r\n\t\t\t\tIO0DIR\|=(1<<25);\r\n\t\t\t\tIO0SET\|=(1<<25);\t\t\t\t\t\t\t\t\r\n\t\t}\t\t\t\t /\t\r\n\t} \r\n\t\r\n\r\n\r\n\r\n\r\n\r\n\r\n/\r\nif(adc_ch&0x02)\tSET_REG(IO0SET,1,5,1);\r\nelse \t\t\tSET_REG(IO0CLR,1,5,1);\r\nif(adc_ch&0x04)\tSET_REG(IO0SET,1,6,1);\r\nelse \t\t\tSET_REG(IO0CLR,1,6,1);\r\nif(adc_ch&0x08)\tSET_REG(IO0SET,1,4,1);\r\nelse \t\t\tSET_REG(IO0CLR,1,4,1); \r\n\t\t\t\t\t\t\t\t /\r\n/\r\nADCR\|=(1<<21);\r\nADCR=(ADCR&0xffff00ff)\|(14<<8);\r\nADCR=(ADCR&0xfffeffff)\|(1<<16);\r\nADCR&=0xfff1ffff;\r\nADCR&=0xff3fffff;\r\n\r\n\r\n\r\nPINSEL2&=~(1<<18);\r\nPINSEL2&=~(1<<19);/\r\n\r\n\r\nIO1DIR\|=(1<<25);\r\nIO1SET\|=(1<<25);\r\n\r\nif(bRELE_OUT==1)\r\n\t{\r\n\tchar i,temp;\r\n/\tIO1DIR\|=(1<<25);\r\n\tIO1CLR\|=(1<<25);/\r\n\tIO0CLR\|=(1<<6);\r\n\tIO0CLR\|=(1<<6);\r\n\tIO0CLR\|=(1<<6);\r\n\tIO0CLR\|=(1<<6);\r\n\tIO0CLR\|=(1<<6);\r\n\tIO0CLR\|=(1<<6);\r\n\tIO0CLR\|=(1<<6);\r\n\tIO0CLR\|=(1<<6);\r\n\tIO0CLR\|=(1<<6);\r\n\tIO0CLR\|=(1<<6);\r\n\t\r\n\tbRELE_OUT=0;\r\n//\trele_stat=1;\r\n\ttemp=rele_stat;\r\n\tfor(i=0;i<8;i++)\r\n\t\t{\r\n\t\tif(temp&0x80)IO0SET\|=(1<<4);\r\n\t\telse IO0CLR\|=(1<<4);\r\n\t\t__nop(); \r\n\t\t__nop();\r\n\t\t__nop();\r\n\t\t__nop();\r\n\t\tIO0SET\|=(1<<6);\r\n\t\t__nop();\r\n\t\t__nop();\r\n\t\t__nop();\r\n\t\t__nop();\r\n\t\t__nop(); \r\n\t\t__nop();\r\n\t\t__nop();\r\n\t\t__nop();\r\n\t\tIO0CLR\|=(1<<6);\r\n\t\t__nop();\r\n\t\t__nop();\r\n\t\t__nop();\r\n\t\t__nop();\r\n\t\ttemp<<=1;\t\t\r\n\t\t}\r\n\tIO1DIR\|=(1<<25);\r\n\tIO1CLR\|=(1<<25);\t\t\r\n\tIO1DIR\|=(1<<25);\r\n\tIO1SET\|=(1<<25);\r\n\r\n\t\r\n\t\t\r\n\t}\r\nelse \r\n\t{\r\n\r\n\tif(adc_ch&0x02)\tSET_REG(IO0SET,1,5,1);\r\n\telse \t\t\tSET_REG(IO0CLR,1,5,1);\r\n\tif(adc_ch&0x04)\tSET_REG(IO0SET,1,6,1);\r\n\telse \t\t\tSET_REG(IO0CLR,1,6,1);\r\n\tif(adc_ch&0x08)\tSET_REG(IO0SET,1,4,1);\r\n\telse \t\t\tSET_REG(IO0CLR,1,4,1); \r\n\r\n\t}\t\r\n\t\r\nif((adc_stat==asNET)\r\n\|\|(adc_stat==asNET_WAIT)\r\n\|\|(adc_stat==asNET_RDY)) \tSET_REG(ADCR,2,0,8);\r\nelse if(adc_ch&0x01)\t\tSET_REG(ADCR,8,0,8);\r\nelse \t\t\t\t\tSET_REG(ADCR,4,0,8); \r\n\t\t\t\t\t \r\nSET_REG(ADCR,1,24,3);\t//START=1;\r\n}\r\n /\r\n//-----------------------------------------------\r\nvoid adc_drv_()\r\n{\r\nshort temp_S;\r\nchar i;\r\nadc_ch=4;\r\nif(ADDR&0x00000001)\r\n\t{\r\n\tADWR=ADDR_bit.VVDDA;\r\n\t\r\n\tif(++period_cnt>=200)\r\n\t\t{\r\n\t\tperiod_cnt=0;\r\n\t\tadc_buff[adc_ch][adc_cnt]=ADWR;\r\n\t\t\r\n\t\tif((adc_cnt&0x03)==0)\r\n\t\t\t{\r\n\t\t\ttemp_S=0;\r\n\t\t\tfor(i=0;i<16;i++)\r\n\t\t\t\t{\r\n\t\t\t\ttemp_S+=adc_buff[adc_ch][i];\r\n\t\t\t\t}\r\n\t\t\tadc_buff_[adc_ch]=temp_S>>4;\r\n\t\t\tuart_out0(2,((char)&adc_buff_[adc_ch]),(((char)&adc_buff_[adc_ch])+1),0,0,0,0);\r\n\r\n\t\t\t}\r\n\t\tadc_cnt++;\r\n\t\tif(adc_cnt>=16)adc_cnt=0;\r\n\t\t\r\n\t\t}\r\n\t}\r\n\r\nPINSEL1_bit.P0_28=1;\t\r\nPINSEL1_bit.P0_29=1;\t\r\nPINSEL1_bit.P0_30=1;\t\r\n\r\nPINSEL0_bit.P0_4=0;\r\nPINSEL0_bit.P0_5=0;\r\nPINSEL0_bit.P0_6=0;\r\n\r\nIO0DIR_bit.P0_4=1;\r\nIO0DIR_bit.P0_5=1;\r\nIO0DIR_bit.P0_6=1;\r\n\r\n\r\nif(adc_ch&0x02)IO0SET\|=((long)1UL<<5);\r\nelse IO0CLR\|=((long)1UL<<5);\r\nif(adc_ch&0x04)IO0SET\|=((long)1UL<<6);\r\nelse IO0CLR\|=((long)1UL<<6);\r\nif(adc_ch&0x08)IO0SET\|=((long)1UL<<4);\r\nelse IO0CLR\|=((long)1UL<<4);\r\n\r\nADCR_bit.PDN=1;\r\nADCR_bit.CLKDIV=14;\r\nADCR_bit.BURST=0;\r\nADCR_bit.CLKS=0;\r\nADCR_bit.TEST=0;\r\n\r\nADCR_bit.SEL=4;\r\nADCR_bit.START=1;\r\n\t\r\n\r\n}\r\n/\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid avg_hndl(void)\r\n{ \r\nchar i;\r\n\r\n#define AVGCNTMAX\t5\r\nif(avg_main_cnt)\r\n\t{\r\n\tavg_main_cnt--;\r\n\tgoto avg_hndl_end;\r\n\t} \r\n\r\navg_num=0;\r\n\r\nfor(i=0;i<NUMIST;i++)\r\n\t{\r\n\tif((bps[i]._state==bsWRK)&&(bps[i]._cnt<20))avg_num++;\r\n\t}\r\n\r\n/if((K[NUMI]>=1)&&(bps_state[0]==ssWRK))\tavg_num++;\r\nif((K[NUMI]>=2)&&(bps_state[1]==ssWRK))\tavg_num++;\r\nif((K[NUMI]>=3)&&(bps_state[2]==ssWRK))\tavg_num++;/\r\n\r\n\t\r\nif(avg_num<2)\r\n\t{\r\n\tgoto avg_hndl_end;\r\n\t}\r\n\t\r\nelse\r\n\t{\r\n\ti_avg_min=5000;\r\n\ti_avg_max=0;\r\n\ti_avg_summ=0;\r\n\tfor(i=0;i<NUMIST;i++)\r\n\t\t{\r\n\t\tif(bps[i]._state==bsWRK)\r\n\t\t\t{\r\n\t\t\tif(bps[i]._Ii>i_avg_max)i_avg_max=bps[i]._Ii;\r\n\t\t\tif(bps[i]._Ii<i_avg_min)i_avg_min=bps[i]._Ii;\r\n\t\t\t\r\n\t\t\ti_avg_summ+=bps[i]._Ii;\r\n\t\t\t}\r\n\t\t}\r\n\ti_avg=i_avg_summ/avg_num;\t\r\n\t\r\n\tif(i_avg_min==0)i_avg_min=1;\r\n\r\n\tavg=i_avg_max;\r\n\tavg=100;\r\n\tavg/=i_avg_min;\r\n\r\n\tif(avg>160) bAVG=1;\r\n\tif(avg<120) bAVG=0;\r\n\r\n\tif(bAVG==1)\r\n\t\t{\r\n\t\tfor(i=0;i<NUMIST;i++)\r\n\t\t\t{\r\n\t\t\tif(bps[i]._state==bsWRK)\r\n\t\t\t\t{\r\n\t\t\t\tif(bps[i]._Ii>i_avg)bps[i]._x_--;\r\n\t\t\t\tif(bps[i]._Ii<i_avg)bps[i]._x_++;\r\n\t\t\t\r\n\t\t\t\tif(bps[i]._x_<-50)bps[i]._x_=-50;\r\n\t\t\t\tif(bps[i]._x_>50)bps[i]._x_=50;\t\r\n\t\t\t\t}\r\n\t\t\t}\t\t\r\n\t\t}\t\t\t\r\n\t} \t \r\n\r\n\r\navg_hndl_end:\r\n__nop(); \r\n}\r\n\r\n///-----------------------------------------------\r\nvoid bp_on_(char in)\r\n{\r\nbp_tumbler[in-1]=1;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid bp_off_(char in)\r\n{\r\nbp_tumbler[in-1]=0;\r\n}\r\n /\r\n//-----------------------------------------------\r\nvoid rele_hndl(void)\r\n{\r\nstatic char cnt_rel_sam;\r\nchar temp;\r\n/if(mess_find(MESS_BAT1_OFF))rele_stat\|=(1<<6);\r\nelse rele_stat&=(~(1<<6));\r\n\r\nif(mess_find(MESS_BAT2_OFF))rele_stat\|=(1<<4);\r\nelse rele_stat&=(~(1<<4));/\r\n\r\n/if(mess_find(MESS_BAT_CONTROL))\r\n\t{\r\n\tif(mess_data[0]&0x0001)cnt_rel_bat[0]=20;//rele_stat\|=(1<<6);\r\n\tif(mess_data[0]&0x0002)cnt_rel_bat[1]=20;//rele_stat\|=(1<<4);\r\n\tif(mess_data[1]&0x0001)\r\n\t\t{\r\n\t\tcnt_rel_bat[0]=0;\r\n\t\trele_stat&=(~(1<<6));\r\n\t\t}\r\n\tif(mess_data[1]&0x0002)\r\n\t\t{\r\n\t\tcnt_rel_bat[1]=0;\r\n\t\trele_stat&=(~(1<<4));\r\n\t\t}\r\n\t}/\r\n//else rele_stat&=(~(1<<4))&(~(1<<6));\t\r\n\r\nif(mess_find(MESS_RELSAM_ON))\r\n\t{\r\n\tcnt_rel_sam=10;\r\n\t//IO1DIR=(1UL<<21);\r\n\t//IO1SET=(1UL<<21);\r\n\t}\r\n/else\r\n\t{\r\n\tif(mess_find(MESS_BAT_CONTROL))\r\n\t{\t/\r\n/\r\nif(cnt_rel_bat[0])\r\n\t{\r\n\tcnt_rel_bat[0]--;\r\n\trele_stat&=(~(1<<6));\r\n\tif(!cnt_rel_bat[0])rele_stat\|=(1<<6);\r\n\t}\r\n\r\n\r\nif(cnt_rel_bat[1])\r\n\t{\r\n\tcnt_rel_bat[1]--;\r\n\trele_stat&=(~(1<<4));\r\n\tif(!cnt_rel_bat[1])rele_stat\|=(1<<4);\r\n\t}/\r\n\r\n\r\ntemp=0;\r\n\r\nif(bat[0]._rel_stat)\r\n\t{\r\n\ttemp\|=(1<<SHIFT_REL_BAT1);\r\n\t} \r\n//else rele_stat&=(~(1<<6));\t\r\n\r\nif(bat[1]._rel_stat)\r\n\t{\r\n\ttemp\|=(1<<SHIFT_REL_BAT2);\r\n\t}\r\n//else rele_stat&=(~(1<<4));\r\n\r\n\r\n\r\nif(cnt_rel_sam) cnt_rel_sam--;\r\n\r\nIODIR1\|=(1UL<<21);\t\r\nif(mess_find_unvol((MESS2RELE_HNDL))&&(PARAM_RELE_SAMOKALIBR_ENABLE)) IOSET1=(1UL<<21);\r\nelse if (cnt_rel_sam) IOSET1=(1UL<<21);\r\nelse IOCLR1=(1UL<<21);\r\n\r\n\r\n\r\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV))\r\n\t{\r\n\tif(mess_data[1]==0) temp\|=(1<<SHIFT_REL_AV);\r\n\t}\r\nelse \r\n\t{\r\n\tif(!(avar_ind_stat)) temp\|=(1<<SHIFT_REL_AV);\r\n\t}\r\n\r\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_NET))\r\n\t{\r\n\tif(mess_data[1]==0) temp\|=(1<<SHIFT_REL_AV_NET);\r\n\t}\r\nelse \r\n\t{\r\n\tif(!(avar_ind_stat&0x00000001)) temp\|=(1<<SHIFT_REL_AV_NET);\r\n\t}\r\n\r\n\r\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_AV_BAT))\r\n\t{\r\n\tif(mess_data[1]==0) temp\|=(1<<SHIFT_REL_AV_BAT);\r\n\t}\r\nelse \r\n\t{\r\n\tif(!(avar_ind_stat&0x00000006)) temp\|=(1<<SHIFT_REL_AV_BAT);\r\n\t}\r\n\r\nif((mess_find_unvol(MESS2RELE_HNDL))&&\t(mess_data[0]==PARAM_RELE_VENT))\r\n\t{\r\n\tif(mess_data[1]==0) temp\|=(1<<SHIFT_REL_VENT);\r\n\t}\r\nelse \r\n\t{\r\n\tif(!vent_stat) temp\|=(1<<SHIFT_REL_VENT);\r\n\t}\r\n\r\nrele_stat=temp;\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid bps_hndl(void)\r\n{\r\nstatic unsigned char sh_cnt0/,sh_cnt1,sh_cnt2,/,b1Hz_sh/,b2Hz_sh/;\r\nchar ptr__,i;\r\n\r\nif(sh_cnt0<10)\r\n\t{\r\n\tsh_cnt0++;\r\n\tif(sh_cnt0>=10)\r\n\t\t{\r\n\t\tsh_cnt0=0;\r\n\t\tb1Hz_sh=1;\r\n\t\t}\r\n\t}\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n/if(sh_cnt1<5)\r\n\t{\r\n\tsh_cnt1++;\r\n\tif(sh_cnt1==5)\r\n\t\t{\r\n\t\tsh_cnt1=0;\r\n\t\tb2Hz_sh=1;\r\n\t\t}\r\n\t} /\r\n\r\n\r\n/\r\nif(mess_find(MESS_SRC_ON_OFF))\r\n\t{\r\n\tif(mess_data[0]==_MESS_SRC_MASK_BLOK_2SEC)\r\n\t\t{\r\n\t\tchar i;\r\n\t\tfor(i=0;i<NUMIST;i++)\r\n\t\t\t{\r\n\t\t\tif(mess_data[1]&(1<<i))src[i]._ist_blok_cnt=20;\r\n\t\t\t}\r\n\t\t\r\n\t\t}\r\n\telse if(mess_data[0]==_MESS_SRC_MASK_UNBLOK)\r\n\t\t{\r\n\t\tchar i;\r\n\t\tfor(i=0;i<NUMIST;i++)\r\n\t\t\t{\r\n\t\t\tif(mess_data[1]&(1<<i))src[i]._ist_blok_cnt=0;\r\n\t\t\t}\r\n\t\t\r\n\t\t}\r\n\t}\r\n\t\r\nelse if(mess_find(_MESS_SRC_MASK_ON))\r\n\t{\t\t\t\t\r\n\tif(mess_data[0]==_MESS_SRC_MASK_ON)\r\n\t\t{\r\n\t\tchar i;\r\n\t\tfor(i=0;i<NUMIST;i++)\r\n\t\t\t{\r\n\t\t\tif(mess_data[1]&(1<<i))\r\n\t\t\t\t{\r\n\t\t\t\tsrc[i]._ist_blok_cnt=0;\r\n\t\t\t\tsrc[i]._flags_tu=2;\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t\r\n\t\t}\t\t\t\t\r\n\t}/\r\n\r\n\r\n\r\n/else/ \r\n\r\nif(mess_find_unvol(MESS2BPS_HNDL))\r\n\t{\r\n\tif(mess_data[0]==PARAM_BPS_ALL_OFF_AFTER_2SEC)\r\n\t\t{\r\n\t\tif(bps_all_off_cnt<50)bps_all_off_cnt++;\r\n\t\t}\r\n\telse bps_all_off_cnt=0;\r\n\r\n\tif(mess_data[0]==PARAM_BPS_MASK_OFF_AFTER_2SEC)\r\n\t\t{\r\n\t\tif(bps_mask_off_cnt<50)bps_mask_off_cnt++;\r\n\t\t}\r\n\telse bps_mask_off_cnt=0;\r\n\r\n\tif(mess_data[0]==PARAM_BPS_MASK_ON_OFF_AFTER_2SEC)\r\n\t\t{\r\n\t\tif(bps_mask_on_off_cnt<50)bps_mask_on_off_cnt++;\r\n\t\t}\r\n\telse bps_mask_on_off_cnt=0;\r\n\r\n\t\r\n\r\n\r\n\tif(bps_all_off_cnt>20)\r\n\t\t{\r\n\t\tfor(i=0;i<=NUMIST;i++)\r\n\t\t\t{\r\n\t \tbps[i]._flags_tu=1;\r\n\t \t}\r\n\t\t}\r\n\telse if(bps_mask_off_cnt>20)\r\n\t\t{\r\n\t\tfor(i=0;i<=NUMIST;i++)\r\n\t\t\t{\r\n\t\t\tif(mess_data[1]&(1<<i)) bps[i]._flags_tu=1;\r\n\t \t}\r\n\t\t}\t\r\n\t\t\r\n\telse if(bps_mask_on_off_cnt>20)\r\n\t\t{\r\n\t\tfor(i=0;i<=NUMIST;i++)\r\n\t\t\t{\r\n\t\t\tif(mess_data[1]&(1<<i)) bps[i]._flags_tu=1;\r\n\t\t\telse bps[i]._flags_tu=0;\r\n\t \t}\r\n\t\t}\r\n\t\t\r\n\tif(mess_data[0]==PARAM_BPS_MASK_ON)\r\n\t\t{\r\n\t\tfor(i=0;i<=NUMIST;i++)\r\n\t\t\t{\r\n\t\t\tif(mess_data[1]&(1<<i)) bps[i]._flags_tu=0;\r\n\t \t}\r\n\t\t}\r\n\t\t\t\t\t\t\t\t\t\t\r\n\t}\r\n\r\n\r\nelse if(b1Hz_sh)\r\n\t{\r\n\tptr__=0;\r\n for(i=0;i<=NUMIST;i++)\r\n\t\t{\r\n\t bps[i]._flags_tu=1;\r\n\t }\t\r\n \t \r\n \tfor(i=0;(i<NUMIST)&&(ptr__<num_necc);i++)\r\n \t\t{\r\n \t if((bps[i]._state==bsRDY)\|\|(bps[i]._state==bsWRK))\r\n \t \t{\r\n \t \tbps[i]._flags_tu=0;\r\n \t \tptr__++;\r\n \t \t}\r\n \t } \r\n \t}\r\n\r\n\r\nfor(i=0;i<NUMIST;i++)\r\n {\r\n if(bps[i]._ist_blok_host_cnt!=0)\r\n {\r\n bps[i]._flags_tu=99;\r\n\t bps[i]._ist_blok_host_cnt--;\r\n }\r\n }\r\n\r\n\r\n\r\n\r\nb1Hz_sh=0;\r\n\r\n\r\nnum_of_wrks_bps=0;\r\nfor(i=0;i<NUMIST;i++)\r\n\t{\r\n\tif(bps[i]._state==bsWRK)num_of_wrks_bps++;\r\n\t}\r\n}\r\n\r\n//биты аварий в приходящих сообщениях от источников\r\n#define AV_T\t1\r\n#define AVUMAX\t3\r\n#define AVUMIN\t4\r\n\r\n//-----------------------------------------------\r\nvoid bps_drv(char in)\r\n{\r\nchar temp;\r\ntemp=bps[in]._flags_tm;\r\n\r\nif(!(temp&(1<<AV_T)))\r\n\t{\r\n\tif(bps[in]._temp_av_cnt) \r\n\t\t{\r\n\t\tbps[in]._temp_av_cnt=0;\r\n\t\t/if((av_cnt_bps[in,0]<=0)&&(K[NUMI]>in))\r\n\t\t\t{ /\r\n\t\t\t//av_cnt_bps[in,0]=0;\r\n\t//\t \tavar_s_hndl(in,0,0);\r\n\r\n\t\t/\t} /\r\n\t\t} \t\r\n\r\n\t}\r\n\r\nelse if(temp&(1<<AV_T))\r\n\t{\r\n\tif(bps[in]._temp_av_cnt<1200) \r\n\t\t{\r\n\t\tbps[in]._temp_av_cnt++;\r\n\t\tif(bps[in]._temp_av_cnt>=1200)\r\n\t\t\t{\r\n\t\t\tbps[in]._temp_av_cnt=1200;\r\n\t\t //\tavar_s_hndl(in,0,1);\r\n\t\t\t}\r\n\t\t}\r\n\t//else if(av_cnt_bps[in,0]>10) av_cnt_bps[in,0]--;\t \r\n\t}\r\n\r\n\r\n\t\t\r\n/if((temp&(1<<AVUMAX)))\r\n\t{\r\n\tif(bps[in]._umax_av_cnt) \r\n\t\t{\r\n\t\tbps[in]._umax_av_cnt--;\r\n\t\tif(bps[in]._umax_av_cnt<=0)\r\n\t\t\t{\r\n\t\t\tbps[in]._umax_av_cnt=0;\r\n\t\t \tif((K[APV]!=ON)\|\|((apv_cnt[in,0]==0)&&(apv_cnt[in,1]==0)&&(apv_cnt[in,2]==0)&&(apv_flags[in]==afOFF)))avar_s_hndl(in,1,1);\r\n\t\t\tif((apv_cnt[in,0]==0)&&(apv_cnt[in,1]==0)&&(apv_cnt[in,2]==0)&&(apv_flags[in]==afON))\r\n\t\t\t\t{\r\n\t\t\t\tapv_cnt[in,0]=APV_INIT;\r\n\t\t\t\tapv_cnt[in,1]=APV_INIT;\r\n\t\t\t\tapv_cnt[in,2]=APV_INIT;\r\n\t\t\t\tapv_flags[in]=afOFF;\r\n\t\t\t\t}\t\t\t\r\n\t\t\t}\r\n\t\t} \r\n\t}\t\t\r\nelse if(!(temp&(1<<AVUMAX)))\r\n\t{\r\n\tif(bps[in]._umax_av_cnt<10) \r\n\t\t{\r\n\t\tbps[in]._umax_av_cnt++;\r\n\t\tif(bps[in]._umax_av_cnt>=10)\r\n\t\t\t{\r\n\t\t\tbps[in]._umax_av_cnt=10;\r\n\t\t\tavar_s_hndl(in,1,0);\r\n\t //\t\tapv_cnt[in,0]=0;\r\n\t//\t\tapv_cnt[in,1]=0;\r\n\t //\t\tapv_cnt[in,2]=0;\t\t\t\r\n\t\t\t}\r\n\t\t}\r\n\telse if(bps[in]._umax_av_cnt>10) bps[in]._umax_av_cnt--;\t\t \r\n\t}\r\n\r\nif(temp&(1<<AVUMIN))\r\n\t{\r\n\tif(bps[in]._umin_av_cnt) \r\n\t\t{\r\n\t\tbps[in]._umin_av_cnt--;\r\n\t\tif(bps[in]._umin_av_cnt<=0)\r\n\t\t\t{\r\n\t\t\tbps[in]._umin_av_cnt=0;\r\n\t \t\tif((K[APV]!=ON)\|\|((apv_cnt[in,0]==0)&&(apv_cnt[in,1]==0)&&(apv_cnt[in,2]==0)&&(apv_flags[in]==afOFF)))avar_s_hndl(in,2,1);\r\n\t\t\tif((apv_cnt[in,0]==0)&&(apv_cnt[in,1]==0)&&(apv_cnt[in,2]==0)&&(apv_flags[in]==afON))\r\n\t\t\t\t{\r\n\t\t\t\tapv_cnt[in,0]=APV_INIT;\r\n\t\t\t\tapv_cnt[in,1]=APV_INIT;\r\n\t\t\t\tapv_cnt[in,2]=APV_INIT;\r\n\t\t\t\tapv_flags[in]=afOFF;\r\n\t\t\t\t}\t\t\t\t\r\n\t\t\t}\r\n\t\t} \r\n\t}\t\r\n\t\r\nelse if(!(temp&(1<<AVUMIN)))\r\n\t{\r\n\tif(bps[in]._umin_av_cnt<10) \r\n\t\t{\r\n\t\tbps[in]._umin_av_cnt++;\r\n\t\tif(bps[in]._umin_av_cnt>=10)\r\n\t\t\t{\r\n\t\t\tbps[in]._umin_av_cnt=10;\r\n\t\t///////\tavar_s_hndl(in,2,0);\r\n\t\t//\tapv_cnt[in,0]=0;\r\n\t\t//\tapv_cnt[in,1]=0;\r\n\t\t//\tapv_cnt[in,2]=0;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(bps[in]._umin_av_cnt>10)bps[in]._umin_av_cnt--;\t \r\n\t}/\r\n\r\n\r\n\r\nif (bps[in]._av&0x0f)\t\t\t\t\tbps[in]._state=bsAV;\r\nelse if ( (net_av) && \r\n\t\t(bps[in]._Uii<200))\t\t\t\tbps[in]._state=bsOFF_AV_NET;\r\nelse if (bps[in]._flags_tm&BIN8(100000))\tbps[in]._state=bsRDY;\r\nelse if (bps[in]._cnt<20)\t\t\t\tbps[in]._state=bsWRK;\r\n\r\n\r\n\r\n//else if(bps[in]._flags_tm&BIN8(100000)) bps[in]._state=ssBL;\r\n//else if((!(bps[in]._flags_tm&BIN8(100000)))&&(net_U>100))bps[in]._state=ssWRK;\r\n//else bps[0]._state=ssNOT;\r\n\r\n//bps[in]._is_ready=0;\r\n//bps[in]._is_wrk=0;\r\n//if(bps[in]._av_net) bps[in]._flags_bp='N';// не подключен\r\n//else if(bps[in]._av_u_max) bps[in]._flags_bp='P';// завышено напряжение(u_.av_.bAS1T)) bps_state[0]=ssAV;\r\n//else if(bps[in]._av_u_min) bps[in]._flags_bp='M';// занижено напряжение\r\n//else if(bps[in]._av_temper) bps[in]._flags_bp='T';// температура\r\n//else if(bps[in]._flags_tm&BIN8(100000)) \r\n//\t{\r\n//\tbps[in]._flags_bp='B';// заблокирован\r\n//\tbps[in]._is_ready=1;\r\n//\t}\r\n//else if((!(bps[in]._flags_tm&BIN8(100000)))&&(net_U>100))\r\n// {\r\n// bps[in]._flags_bp='W';// работает\r\n// bps[in]._is_ready=1;\r\n// bps[in]._is_wrk=1;\r\n \r\n// }\r\n//else bps[in]._is_ready=1; \r\n\r\n\r\n\r\n\r\n\r\n/\r\nbps[in]._flags_tu&=BIN8(11111110);\r\nif(bps[in]._ist_blok_cnt)\r\n\t{\r\n\tbps[in]._ist_blok_cnt--;\r\n\tbps[in]._flags_tu\|=BIN8(1);\r\n\t}\r\n\r\n\t / \r\n\r\n//Пересброс БПСа при потере связи\r\nif(bps[in]._cnt>=10) bps[in]._flags_tu\|=BIN8(10000000);\r\nelse bps[in]._flags_tu&=BIN8(1111111);\r\n\t\r\nbps[in]._vol_u=cntrl_stat+bps[in]._x_;\t\r\n \r\n}\r\n\r\n//-----------------------------------------------\r\nvoid bat_hndl(void)\r\n{\r\n/if(mess_find(_MESS_BAT_MASK_ON))\r\n\t{\r\n\tif(mess_data[0]==_MESS_BAT_MASK_ON)\r\n\t\t{\r\n\t\tchar i;\r\n\t\tfor(i=0;i<2;i++)\r\n\t\t\t{\r\n\t\t\tif(mess_data[1]&(1<<i))\r\n\t\t\t\t{\r\n\t\t\t\tbat[i]._cnt_to_block=0;\r\n \t\t\tbat[i]._rel_stat=0;\r\n \t\t\t}\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\nif(mess_find(_MESS_BAT_MASK_OFF))\r\n\t{\t\t\r\n\tif(mess_data[0]==_MESS_BAT_MASK_OFF)\r\n\t\t{\r\n\t\tchar i;\r\n\t\tfor(i=0;i<2;i++)\r\n\t\t\t{\r\n\t\t\tif((mess_data[1]&(1<<i)) && (bat[i]._cnt_to_block==0) && (bat[i]._rel_stat==0))\r\n\t\t\t\t{\r\n\t\t\t\tbat[i]._cnt_to_block=20;\r\n\t\t\t\tbat[i]._rel_stat=1;\r\n \t\t\t}\r\n\t\t\t}\r\n\t\t\r\n\t\t}\t\t\r\n\t}/\r\n\r\nif(mess_find_unvol(MESS2BAT_HNDL))\r\n\t{ \r\n\tchar i;\r\n\t\r\n\tif(mess_data[0]==PARAM_BAT_ALL_OFF_AFTER_2SEC)\r\n\t\t{\r\n\t\tfor(i=0;i<MAX_NUM_OF_BAT;i++)\r\n\t\t\t{\r\n\t\t\tif(bat[i]._cnt_to_block<50)bat[i]._cnt_to_block++;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\telse if(mess_data[0]==PARAM_BAT_MASK_OFF_AFTER_2SEC)\r\n\t\t{\r\n\t\tfor(i=0;i<MAX_NUM_OF_BAT;i++)\r\n\t\t\t{\r\n\t\t\tif(mess_data[1]&(1<<i))\r\n\t\t\t\t{\r\n\t\t\t\tif(bat[i]._cnt_to_block<50) bat[i]._cnt_to_block++;\r\n\t\t\t\t}\r\n\t\t\telse bat[i]._cnt_to_block=0;\r\n\t\t\t}\r\n\t\t}\r\n\telse \r\n\t \t{\r\n\t\tfor(i=0;i<MAX_NUM_OF_BAT;i++)\r\n\t\t\t{\r\n\t\t\tbat[i]._cnt_to_block=0;\r\n\t\t\t}\r\n\r\n\t\t}\r\n\tfor(i=0;i<MAX_NUM_OF_BAT;i++)\r\n\t\t{\r\n\t\tif(bat[i]._cnt_to_block>20)bat[i]._rel_stat=1;\r\n\t\telse bat[i]._rel_stat=0;\r\n\t\t}\r\n\r\n\t}\r\n\r\nelse \r\n\t{\r\n\tchar i;\r\n\tfor(i=0;i<MAX_NUM_OF_BAT;i++)\r\n\t\t{\r\n\t\tbat[i]._cnt_to_block=0;\r\n\t\tbat[i]._rel_stat=0;\r\n\t\t}\r\n\r\n\t}\r\n\r\n/if(mess_find_unvol(MESS2BAT_HNDL1))\r\n\t{\r\n\tif(PARAM_BAT_ON)\r\n\t\t{\r\n\t\tchar i;\r\n\t\tfor(i=0;i<MAX_NUM_OF_BAT;i++)\r\n\t\t\t{\r\n\t\t\tif(mess_data[1]&(1<<i))\r\n\t\t\t\t{\r\n\t\t\t\tbat[i]._cnt_to_block=0;\r\n\t\t\t\tbat[i]._rel_stat=0;\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t}\r\n\t} /\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid bat_drv(char in)\r\n{\r\n\r\nif(main_10Hz_cnt==50)\r\n\t{\r\n\tif(!bat[in]._rel_stat)\r\n\t\t{\r\n\t\tif(bat[in]._Ub<80) avar_bat_hndl(in,1);\r\n\t\t}\r\n\t}\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n/if(bat[in]._cnt_to_block)\r\n\t{\r\n\tbat[in]._cnt_to_block--;\r\n\tif(!(bat[in]._cnt_to_block))\r\n\t\t{\r\n\t\t//bat[in]._rel_stat=1;\r\n\t\t}\r\n\t}\r\n/\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n}\r\n\r\n\r\n\r\n\r\n\r\n\r\n\t\r\n\r\n\r\n\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid u_necc_hndl(void)\r\n{\r\nsigned long temp_SL;\r\n//signed short temp_SS;\r\nstatic unsigned char unh_cnt0,unh_cnt1/,unh_cnt2/,b1Hz_unh/,b2Hz_unh/;\r\nsigned short t[2];\r\nchar i;\r\n\r\n//temp_SS=0;\r\n\r\n\r\nif(unh_cnt0<10)\r\n\t{\r\n\tunh_cnt0++;\r\n\tif(unh_cnt0>=10)\r\n\t\t{\r\n\t\tunh_cnt0=0;\r\n\t\tb1Hz_unh=1;\r\n\t\t}\r\n\t}\r\n\r\nif(unh_cnt1<5)\r\n\t{\r\n\tunh_cnt1++;\r\n\tif(unh_cnt1==5)\r\n\t\t{\r\n\t\tunh_cnt1=0;\r\n//\t\tb2Hz_unh=1;\r\n\t\t}\r\n\t} \r\n\r\n\r\n\r\nif(mess_find_unvol(MESS2UNECC_HNDL))\r\n\t{\t\t\r\n\tif(mess_data[0]==PARAM_UNECC_SET)\r\n\t\t{\r\n\t\tu_necc=mess_data[1];\r\n\t\t}\t\t\r\n\t}\r\n\r\n\r\nelse if(b1Hz_unh)\r\n\t{\r\n\t\r\n\tif((BAT_IS_ON[0]!=bisON) && (BAT_IS_ON[1]!=bisON))\r\n\t\t{\r\n\t\tu_necc=U0B;\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tfor(i=0;i<2;i++)\r\n\t\t\t{\r\n\t\t\tif(BAT_IS_ON[i]==bisON)\r\n\t\t\t\t{\r\n\t\t\t\tif(bat[1]._nd)t[i]=20;\r\n\t\t\t\telse t[i]=bat[i]._Tb;\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\t\t\t\tt[i]=-20;\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\tif(t[0]>t[1])mat_temper=t[0];\r\n\t\telse mat_temper=t[1];\r\n\t\t\r\n\t\r\n\t\tif(mat_temper<0)temp_SL=UB0; \r\n\t\telse \r\n\t\t\t{\r\n\t\t\tif(mat_temper>40)mat_temper=40; \r\n\t\t\ttemp_SL=(UB20-UB0)10;\r\n\t\t\ttemp_SL=mat_temper;\r\n\t\t\ttemp_SL/=200;\r\n\t\t\ttemp_SL+=UB0;\r\n\t\t\t}\r\n\t\tif(spc_stat==spcVZ)\r\n\t\t\t{\r\n\t\t\ttemp_SL=KVZ;\r\n\t\t\ttemp_SL/=1000U;\r\n\t\t\t}\r\n\t\tu_necc=(unsigned int)temp_SL;\r\n\t\t} \r\n\t}\r\n\r\n\r\n\r\n\r\n\r\n\r\ngran(&u_necc,400,UMAX);\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid num_necc_hndl(void)\r\n{\r\n//signed short tempSS;\r\n\r\n//tempSS==num_necc-1;\r\n//gran(&tempSS,0,NUMIST);\r\n\r\nnum_necc_Imax=IMAXnum_necc;\r\nnum_necc_Imin=(IMAXnum_necc)-(2IMAX)+((IMAXKIMAX)/10);\r\n\r\nif((Isumm>num_necc_Imax)&&(num_necc<NUMIST)) num_necc++;\r\nelse if ((Isumm<num_necc_Imin)&&(num_necc>1)) num_necc--;\r\n\r\nif(PAR) num_necc=NUMIST;\r\n\r\ngran(&num_necc,1,NUMIST);\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid cntrl_hndl(void)\r\n{\r\nstatic char\tch_cnt0,b1Hz_ch;\r\n\r\nif(ch_cnt0<10)\r\n\t{\r\n\tch_cnt0++;\r\n\tif(ch_cnt0>=10)\r\n\t\t{\r\n\t\tch_cnt0=0;\r\n\t\tb1Hz_ch=1;\r\n\t\t}\r\n\t}\r\n//signed long temp_L;\r\n\r\n//plazma=0;\r\n\r\n/if(St&0x01)\r\n\t{\r\n\tcntrl_stat=0;\r\n old_cntrl_stat=0;\r\n }\r\nelse//* if((kb_cnt[0]>15)&&(kb_cnt[0]<=30))\r\n\t{\r\n\tcntrl_stat=old_cntrl_stat-30;\r\n\tgran(&cntrl_stat,30,970);\r\n\t}\r\nelse/ /if((kb_cnt[0]<=15)&&(kb_cnt[0]>0))\r\n\t{\r\n\tcntrl_stat=old_cntrl_stat+30;\r\n\tgran(&cntrl_stat,30,970);\r\n\t} \r\nelse// if((kb_cnt[1]>15)&&(kb_cnt[1]<=30))\r\n\t{\r\n\tcntrl_stat=old_cntrl_stat-100;\r\n\tgran(&cntrl_stat,30,970);\r\n\t}\r\nelse if((kb_cnt[1]<=15)&&(kb_cnt[1]>0))\r\n\t{\r\n\tcntrl_stat=old_cntrl_stat+100;\r\n\tgran(&cntrl_stat,30,970);\r\n\t}\r\nelse if(kb_full_ver)\r\n\t{\r\n\tcntrl_stat-=50;\r\n\tif(cntrl_stat<30)\r\n\t\t{\r\n\t\tif((av_stat&0x0002)==0)avar_bat_hndl(1);\r\n\t\tkb_full_ver=0;\r\n\t\tgran(&TBAT,5,60);\r\n \tbat_ver_cnt=TBAT300;\r\n\t\t}\r\n\tgran(&cntrl_stat,30,970);\r\n\t} \t \t\r\n\r\n\r\nelse/ \r\n/if(mess_find(_MESS_FAST_REG))\r\n\t{\r\n \tif(load_U>u_necc)\r\n\t\t{\r\n\t\tif(((load_U-u_necc)>10)&&(cntrl_stat>0))cntrl_stat-=50;\r\n\t\telse if(cntrl_stat)cntrl_stat--;\r\n\t\t}\r\n\telse if(load_U<u_necc)\r\n\t\t{\r\n\t\tif(((u_necc-load_U)>10)&&(cntrl_stat<1015))cntrl_stat+=50;\r\n\t\telse\tif(cntrl_stat<1020)cntrl_stat++;\r\n\t\t}\t\t\r\n\t}\r\n\r\n\r\nif(mess_find(_MESS_SRC_PWM))\r\n\t{\t\t\t\t\r\n\tif(mess_data[0]==_MESS_SRC_PWM)\r\n\t\t{\r\n\t\tcntrl_stat=mess_data[1];\r\n\t\t}\t\t\t\t\r\n\t} /\r\n\r\n\r\n//cntrl_stat++;\r\n\r\n\r\n\r\nif(mess_find_unvol(MESS2CNTRL_HNDL))\r\n\t{\r\n\tif(mess_data[0]==PARAM_CNTRL_STAT_PLUS)\r\n\t\t{\r\n\t\tcntrl_stat=cntrl_stat_old+mess_data[1];\r\n\t\t}\r\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_MINUS)\r\n\t\t{\r\n\t\tcntrl_stat=cntrl_stat_old-mess_data[1];\r\n\t\t}\r\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_STEP_DOWN)\r\n\t\t{\r\n\t\tcntrl_stat--;\r\n\r\n\t\tif((cntrl_stat<=30)\|\|(load_U<USIGN)) mess_send(MESS2KB_HNDL,PARAM_CNTRL_IS_DOWN,0,10);\r\n\r\n\t\t}\r\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_SET)\r\n\t\t{\r\n\t\tcntrl_stat=mess_data[1];\r\n\t\t}\r\n\r\n\telse if(mess_data[0]==PARAM_CNTRL_STAT_FAST_REG)\r\n\t\t{\r\n\t\tif(load_U>u_necc)\r\n\t\t\t{\r\n\t\t\tif(((load_U-u_necc)>10)&&(cntrl_stat>0))cntrl_stat-=5;\r\n\t\t\telse if((cntrl_stat)&&b1Hz_ch)cntrl_stat--;\r\n\t\t\t}\r\n\t\telse if(load_U<u_necc)\r\n\t\t\t{\t\r\n\t\t\tif(((u_necc-load_U)>10)&&(cntrl_stat<1015))cntrl_stat+=5;\r\n\t\t\telse\tif((cntrl_stat<1020)&&b1Hz_ch)cntrl_stat++;\r\n\t\t\t}\t\r\n\t\t }\r\n\r\n\t}\r\n\r\nelse if(b1Hz_ch)\r\n\t{\r\n\tcntrl_stat_new=cntrl_stat_old;\r\n\t\r\n\tif((Ibmax/10)>(2IZMAX))\r\n\t\t{\r\n\t\tcntrl_stat_new-=50;\r\n\t\t}\t\t\r\n\telse if(((Ibmax/10)<(IZMAX2))&&(Ibmax>(IZMAX11)))\r\n\t\t{\r\n\t\tcntrl_stat_new-=5;\r\n\t\t} \r\n\telse if((Ibmax<(IZMAX11))&&((Ibmax/10)>IZMAX))\r\n\t\t{\r\n\t\tcntrl_stat_new--;\r\n\t\t}\r\n\t\t\r\n\telse if(load_U<u_necc)\r\n\t\t{\r\n\t\tif(load_U<(u_necc-(UB0-UB20)))\r\n\t\t\t{\r\n\t\t\tif(Ibmax<0)\r\n\t\t\t\t{\r\n\t\t\t\tcntrl_stat_new+=50;\r\n\t\t\t\t}\r\n\t\t\telse if(Ibmax<(IZMAX5))\r\n\t\t\t\t{\r\n\t\t\t\tcntrl_stat_new+=5;\r\n\t\t\t\t}\r\n\t\t\telse if(Ibmax<((IZMAX95)/10))\r\n\t\t\t\t{\r\n\t\t\t\tcntrl_stat_new++;\r\n\t\t\t\t}\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if(load_U<(u_necc-((UB0-UB20)/4)))\r\n\t\t\t{\r\n\t\t\tif(Ibmax<(IZMAX5))\r\n\t\t\t\t{\r\n\t\t\t\tcntrl_stat_new+=5;\r\n\t\t\t\t}\r\n\t\t\telse if(Ibmax<((IZMAX95)/10))\r\n\t\t\t\t{\r\n\t\t\t\tcntrl_stat_new++;\r\n\t\t\t\t}\t\t\t\t\t\r\n\t\t\t}\t\r\n\t\telse if(load_U<(u_necc-1))\r\n\t\t\t{\r\n\t\t\tif(Ibmax<((IZMAX95)/10))\r\n\t\t\t\t{\r\n\t\t\t\tcntrl_stat_new++;\r\n\t\t\t\t}\t\t\t\t\t\r\n\t\t\t}\t\t\t\t\t\r\n\t\t}\t\r\n\telse if((load_U>u_necc)/&&(!cntrl_blok)/)\r\n\t\t{\r\n\t\tif(load_U>(u_necc+(UB0-UB20)))\r\n\t\t\t{\r\n\t\t\tcntrl_stat_new-=30;\r\n\t\t\t}\r\n\t\telse if(load_U>(u_necc+((UB0-UB20)/4)))\r\n\t\t\t{\r\n\t\t\tcntrl_stat_new-=5;\r\n\t\t\t}\t\r\n\t\telse if(load_U>(u_necc+1))\r\n\t\t\t{\r\n\t\t\tcntrl_stat_new--;\r\n\t\t\t}\t\t\t\t\t\r\n\t\t}\r\n\tgran(&cntrl_stat_new,10,1010);\t\t\t\r\n\tcntrl_stat_old=cntrl_stat_new;\r\n\tcntrl_stat=cntrl_stat_new;\t\r\n\t}\r\n\r\n\t\r\ngran(&cntrl_stat,10,1010); \r\nb1Hz_ch=0;\r\n}\r\n \r\n//-----------------------------------------------\r\nvoid zar_drv(void)\r\n{\r\nunsigned short tempUS,tempUS_;\r\nunsigned short int b_zar; \r\nchar i;\r\n//Ibat[0]=5000; \r\n \r\nfor (i=0;i<2;i++)\r\n\t{\r\n\tif(BAT_C_REAL[i]==0x5555) tempUS_=BAT_C_NOM[i]10;\r\n\telse tempUS_=BAT_C_REAL[i];\r\n \r\n b_zar=bat[i]._zar;\r\n \r\n\tif((bat[i]._Ib>-10000L)&&(bat[i]._Ib<10000L))\r\n\t\t{\r\n\t\tif(bat[i]._Ib<0)\r\n\t\t\t{\r\n\t\t\tif((b_zar>0)\|\|((b_zar==0)&&(bat[i]._zar_cnt>0))) \r\n\t\t\t\t{\r\n\t\t\t\tbat[i]._zar_cnt+=bat[i]._Ib;\r\n\t\t\t\tif(bat[i]._zar_cnt<=-360000L)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tbat[i]._zar_cnt=0;\r\n\t\t\t\t\t\r\n\t\t\t\t\ttempUS=bat[i]._zar;\r\n\t\t\t\t\t\r\n\t\t\t\t\tif(tempUS)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttempUS--;\r\n\t\t\t\t\t\tlc640_write_int(ptr_bat_zar_cnt[i],tempUS);\r\n }\r\n\t\t\t }\r\n\t\t\t \t}\r\n\t\t\t}\r\n\t\telse if(bat[i]._Ib>0)\r\n\t\t\t{ \r\n\t\t\tif(b_zar>((tempUS_/10)+1))\r\n\t\t\t\t{\r\n\t\t\t\tlc640_write_int(ptr_bat_zar_cnt[i],tempUS);\r\n\t\t\t\tbat[i]._zar_cnt=0;\r\n\t\t\t\t} \r\n\t\t\telse if((b_zar<=tempUS_/10)/\|\|((b_zar==tempUI_/10)//&&(zar_cnt[i]<0))/)\r\n\t\t\t\t{\r\n\t\t\t\tbat[i]._zar_cnt+=(bat[i]._Ib100L)/KOEFPOT;\r\n\t\t\t\tif(bat[i]._zar_cnt>=360000L)\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttempUS=lc640_read_int(ptr_bat_zar_cnt[i]); \r\n\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t\t\tif(tempUS<=tempUS_/10)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttempUS++;\r\n\t\t\t\t\t\tlc640_write_int(ptr_bat_zar_cnt[i],tempUS);\r\n bat[i]._zar_cnt=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\r\n\t\t\t}\r\n\t\t}\t\r\n\t\t\t\r\n\ttempUS=lc640_read_int(ptr_bat_zar_cnt[i]);\r\n\t\t \t\r\n\ttempUS=10;\r\n\ttempUS+=(int)(bat[i]._zar_cnt/36000L);\r\n\ttempUS=100;\r\n\r\n\tif(tempUS_==0) tempUS=0;\r\n\telse tempUS/=tempUS_;\r\n\r\n/\tZbat[i]=(signed)tempUI;\r\n\tgran(&Zbat[i],0,100); /\r\n }\r\n / \r\nif(wrk[0]==ON)\r\n\t{\r\n\tif(Ibat_integr[0]<36000)\r\n\t\t{ \r\n\t\tIbat_integr[0]+=abs(Ibat[0]);\r\n\t\tif(Ibat_integr[0]>=36000)\r\n\t\t\t{\r\n\t\t\tIbat_integr[0]=0;\r\n\t\t\tIbat_integr_[0]++;\r\n\t\t\t}\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tIbat_integr[0]=0;\r\n\t\t}\t\r\n\t} \r\n\r\nif(wrk[1]==ON)\r\n\t{\r\n\tif(Ibat_integr[1]<36000)\r\n\t\t{ \r\n\t\tIbat_integr[1]+=abs(Ibat[1]);\r\n\t\tif(Ibat_integr[1]>=36000)\r\n\t\t\t{\r\n\t\t\tIbat_integr[1]=0;\r\n\t\t\tIbat_integr_[1]++;\r\n\t\t\t}\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tIbat_integr[1]=0;\r\n\t\t}\t\r\n\t} \r\n/\t\t\r\n}\r\n\r\n\r\n\r\n" }, { "alpha_fraction": 0.3991500437259674, "alphanum_fraction": 0.4577765166759491, "avg_line_length": 21.357524871826172, "blob_id": "787682c9fff39f3cfdd5c774985f04ee8a0bd23e", "content_id": "c8a4b79a564937fed7b80a2fa013f148bbde2cb0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 145040, "license_type": "no_license", "max_line_length": 224, "num_lines": 5994, "path": "/SOFT/UKU/RKI/uku206.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#include \"lcd_AGM1232_uku206.h\"\r\n#include \"uku206.h\"\r\n#include \"simbol.h\"\r\n#include \"25lc640.h\"\r\n#include \"Timer.h\"\r\n#include \"gran.h\"\r\n#include \"uart0.h\"\r\n#include \"uart1.h\"\r\n#include \"cmd.h\"\r\n#include \"ret.h\"\r\n#include \"eeprom_map.h\"\r\n#include \"common_func.h\"\r\n#include \"pcf8563.h\"\r\n#include \"control.h\"\r\n#include \"mess.h\"\r\n#include \"full_can.h\"\r\n#include \"watchdog.h\"\r\n#include \"ad7705.h\"\r\n#include \"beep.h\"\r\n#include \"avar_hndl.h\"\r\n#include \"memo.h\"\r\n\r\n//********************************************\r\n//Таймер\r\nchar b1000Hz,b100Hz,b50Hz,b10Hz,b5Hz,b2Hz,b1Hz;\r\nshort t0cnt,t0cnt0,t0cnt1,t0cnt2,t0cnt3,t0cnt4,t0cnt5,t0cnt6,t0_cnt7;\r\nchar bFL5,bFL2,bFL,bFL_;\r\nsigned short main_10Hz_cnt=0;\r\nsigned short main_1Hz_cnt=0;\r\n\r\n \r\n//*******************************************\r\n//Структура ИБЭПа\r\nchar cnt_of_slave=3;\r\n//char cnt_of_wrks; //колличество работающих источников , для индикации\r\n\r\n\r\n\r\n//******************************************\r\n//Коэффициенты, отображаемые из EEPROM\r\nsigned short Ktsrc[2];\r\nsigned short Kusrc[2];\r\nsigned short Kisrc[2];\r\nsigned short Ki0src[2];\r\nsigned short Kubat[2];\r\nunsigned short Kibat0[2];\r\nsigned short Kibat1[2];\r\nsigned short Ktbat[2];\r\nsigned short Kunet;\r\nsigned short Ktout[3];\r\nsigned short Kuload;\r\n\r\nsigned short MAIN_IST;\r\nsigned short UMAX;\r\nsigned short UB0;\r\nsigned short UB20;\r\nsigned short TMAX;\r\nsigned short TSIGN;\r\nsigned short AV_OFF_AVT;\r\nsigned short USIGN;\r\nsigned short UMN;\r\nsigned short ZV_ON;\r\nsigned short IKB;\r\nsigned short KVZ;\r\nsigned short IMAX;\r\nsigned short KIMAX;\r\nsigned short APV_ON;\r\nsigned short IZMAX;\r\nsigned short U0B;\r\nsigned short TZAS;\r\nsigned short VZ_HR;\r\nsigned short TBAT;\r\nsigned short U_AVT;\r\nsigned short DU;\r\nsigned short PAR;\r\nsigned short TBATMAX;\r\nsigned short TBATSIGN;\r\n\r\nsigned short NUMBAT;\r\nsigned short NUMIST;\r\nsigned short NUMINV;\r\nsigned short NUMDT;\r\nsigned short NUMSK;\r\nsigned short NUMEXT;\r\n\r\nenum_apv_on APV_ON1,APV_ON2;\r\nsigned short APV_ON2_TIME;\r\n\r\nenum_bat_is_on BAT_IS_ON[2];\r\nsigned short BAT_DAY_OF_ON[2];\r\nsigned short BAT_MONTH_OF_ON[2];\r\nsigned short BAT_YEAR_OF_ON[2];\r\nsigned short BAT_C_NOM[2];\r\nsigned short BAT_RESURS[2];\r\nsigned short BAT_C_REAL[2];\r\n\r\nunsigned short AUSW_MAIN;\r\nunsigned long \tAUSW_MAIN_NUMBER;\r\nunsigned short AUSW_DAY;\r\nunsigned short AUSW_MONTH;\r\nunsigned short AUSW_YEAR;\r\nunsigned short AUSW_UKU;\r\nunsigned short AUSW_UKU_SUB;\r\nunsigned long AUSW_UKU_NUMBER;\r\nunsigned long\tAUSW_BPS1_NUMBER;\r\nunsigned long AUSW_BPS2_NUMBER;\r\nunsigned short AUSW_RS232;\r\nunsigned short AUSW_PDH;\r\nunsigned short AUSW_SDH;\r\nunsigned short AUSW_ETH;\r\n\r\nsigned short TMAX_EXT_EN[3];\r\nsigned short TMAX_EXT[3];\r\nsigned short TMIN_EXT_EN[3];\r\nsigned short TMIN_EXT[3];\r\nsigned short T_EXT_REL_EN[3];\r\nsigned short T_EXT_ZVUK_EN[3];\r\nsigned short T_EXT_LCD_EN[3];\r\nsigned short T_EXT_RS_EN[3];\r\n\r\nsigned short SK_SIGN[4];\r\nsigned short SK_REL_EN[4];\r\nsigned short SK_ZVUK_EN[4];\r\nsigned short SK_LCD_EN[4];\r\nsigned short SK_RS_EN[4];\r\n\r\nenum_avz AVZ;\r\n\r\nunsigned short HOUR_AVZ;\r\nunsigned short MIN_AVZ;\r\nunsigned short SEC_AVZ;\r\nunsigned short DATE_AVZ;\r\nunsigned short MONTH_AVZ;\r\nunsigned short YEAR_AVZ;\r\nunsigned short AVZ_TIME;\r\n\r\nenum_mnemo_on MNEMO_ON;\r\nunsigned short MNEMO_TIME;\r\n\r\n\r\n//*******************************************\r\n//Состояние батарей\r\nBAT_STAT bat[2];\r\nsigned short\t\tbat_u_old_cnt;\r\n\r\n//*******************************************\r\n//Состояние источников\r\nBPS_STAT bps[12];\r\n\r\n//*******************************************\r\n//Состояние нагрузки\r\nsigned short load_U;\r\nsigned short load_I;\r\n\r\n\r\n//*******************************************\r\n//Индикация\r\n\r\nchar lcd_buffer[LCD_SIZE+100]={\"Hello World\"};\r\nsigned char parol[3];\r\nchar phase;\r\nchar lcd_bitmap[1024];\r\nchar dig[5];\r\nchar zero_on;\r\nchar mnemo_cnt=50;\r\nchar simax;\r\nshort av_j_si_max;\r\nconst char ABCDEF[]={\"0123456789ABCDEF\"};\r\nconst char sm_mont[13][4]={\" \",\"янв\",\"фев\",\"мар\",\"апр\",\"май\",\"июн\",\"июл\",\"авг\",\"сен\",\"окт\",\"ноя\",\"дек\"}; //\r\nsigned short ptr_ind=0;\r\nstuct_ind a_ind,b_ind[10];\r\nsigned short ind_pointer=0;\r\n\r\n//*******************************************\r\n//Состояние первичной сети\r\nsigned short net_U,net_Ustore;\r\nchar bFF,bFF_;\r\nsigned short net_F,hz_out,hz_out_cnt;\r\nsigned char unet_drv_cnt;\r\nchar net_av;\r\n\r\n//*******************************************\r\n//Состояние внешних датчиков\r\n//signed short tout[4];\r\nchar tout_max_cnt[4],tout_min_cnt[4];\r\nenum {tNORM,tMAX,tMIN}tout_stat[4];\r\nsigned short T_EXT[3];\r\nBOOL ND_EXT[3];\r\n\r\n//*******************************************\r\n//Звуки\r\nextern char beep_cnt;\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\nsigned short u_necc,u_necc_;\r\nsigned short main_cnt_5Hz;\r\nsigned short num_necc;\r\nsigned short num_necc_Imax;\r\nsigned short num_necc_Imin;\r\nsigned short cnt_num_necc;\r\n//char bSAME_IST_ON;\r\nsigned mat_temper;\r\n\r\n//*******************************************\r\n//АПВ\r\nunsigned main_apv_cnt,hour_apv_cnt[2],reset_apv_cnt[2];\r\nunsigned short apv_cnt_sec[2],apv_cnt[2];\r\n\r\n//*******************************************\r\n//Текстовые константы\r\nconst char sm_[]\t={\" \"};\r\nconst char sm_exit[]={\" Выход \"};\r\nconst char sm_time[]={\" 0%:0^:0& 0</> /0{ \"};\r\n\r\n\r\n\r\n\r\n\r\n//******************************************\r\n//Работа с кнопками \r\nchar but; \r\nunsigned long but_n,but_s;\r\nchar but0_cnt;\r\nchar but1_cnt;\r\nchar but_onL_temp;\r\n\r\n//*******************************************\r\n//Межблоковая связь\r\nchar cnt_net_drv;\r\n\r\n//*******************************************\r\n//КАН \r\nextern char ptr_can1_tx_wr,ptr_can1_tx_rd;\r\nextern char ptr_can2_tx_wr,ptr_can2_tx_rd;\r\nextern unsigned short rotor_can[6];\r\nextern char RXBUFF[40],TXBUFF[40];\r\n\r\n\r\n\r\n\r\n\r\n//*******************************************\r\n//Работа с кнопками\r\nchar speed,l_but,n_but;\r\n\r\n//*******************************************\r\n//Неразобранное\r\nenum {wrkON=0x55,wrkOFF=0xAA}wrk;\r\nchar cnt_wrk;\r\nsigned short ibat_integr;\r\nunsigned short av_beep,av_rele,av_stat;\r\nchar default_temp;\r\nenum {tstOFF,tstON,tstU} tst_state[10];\r\nchar ND_out[3];\r\n\r\n//*******************************************\r\n//АЦП\r\nextern short adc_buff[16][16],adc_buff_[16];\r\nextern char adc_cnt,adc_cnt1,adc_ch;\r\n\r\n//********************************************\r\n\r\nchar flag=0;\r\n\r\n\r\nextern signed short bat_ver_cnt;\r\nsigned short Isumm;\r\nsigned short Isumm_;\r\n\r\n#include <LPC21xx.H> / LPC21xx definitions /\r\n\r\n\r\n\r\n/\r\nextern void lcd_init(void);\r\nextern void lcd_on(void);\r\nextern void lcd_clear(void);\r\n/\r\n\r\nextern short plazma_adc_cnt;\r\nextern char net_buff_cnt;\r\nextern unsigned short net_buff[32],net_buff_;\r\nextern char rele_stat/,rele_stat_/;\r\nextern char bRXIN0;\r\n\r\n\r\nchar cntrl_plazma;\r\nextern char bOUT_FREE2;\r\nextern char /av_net,//av_bat[2],/av_bps[12],av_inv[6],av_dt[4],av_sk[4];\r\n\r\nchar content[63];\r\n\r\n//const short ptr_bat_zar_cnt[2]={EE_ZAR1_CNT,EE_ZAR2_CNT};\r\n\r\n\r\n//unsigned short YEAR_AVZ,MONTH_AVZ,DATE_AVZ,HOUR_AVZ,MIN_AVZ,SEC_AVZ;\r\n\r\n\r\n//*******************************************\r\n//Самокалиброввка\r\nextern signed short samokalibr_cnt;\r\n\r\n//******************************************\r\n//Сообщения\r\nextern char mess[MESS_DEEP],mess_old[MESS_DEEP],mess_cnt[MESS_DEEP];\r\nextern short mess_par0[MESS_DEEP],mess_par1[MESS_DEEP],mess_data[2];\r\n\r\n\r\n//******************************************\r\n//Контроль наличия батарей\r\nextern signed short \tmain_kb_cnt;\r\nextern signed short \tkb_cnt_1lev;\r\nextern signed short \tkb_cnt_2lev;\r\nextern char \t\t\tkb_full_ver;\r\nextern char \t\t\tkb_start[2];\r\n\r\n//********************************************\r\n//Управление ШИМом\r\nextern signed short cntrl_stat;\r\nextern signed short cntrl_stat_old;\r\nextern signed short cntrl_stat_new;\r\nextern signed short Ibmax;\r\n\r\n\r\n\r\n\r\n\r\nchar plazma_plazma_plazma;\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid def_set(int umax__,int ub0__,int ub20__,int usign__,int imax__,int uob__,int numi)\r\n{\r\n;\r\nlc640_write_int(EE_NUMIST,numi);\r\nlc640_write_int(EE_MAIN_IST,0);\r\nlc640_write_int(EE_UMAX,umax__);\r\nlc640_write_int(EE_UB0,ub0__);\r\nlc640_write_int(EE_UB20,ub20__);\r\nlc640_write_int(EE_TSIGN,70);\r\nlc640_write_int(EE_TMAX,80);\r\n//lc640_write_int(EE_C_BAT,180);\r\nlc640_write_int(EE_USIGN,usign__);\r\nlc640_write_int(EE_UMN,187);\r\nlc640_write_int(EE_ZV_ON,0xff);\r\nlc640_write_int(EE_IKB,5);\r\nlc640_write_int(EE_KVZ,1030);\r\nlc640_write_int(EE_IMAX,imax__);\r\nlc640_write_int(EE_KIMAX,8);\r\nlc640_write_int(EE_APV_ON,0xff);\r\nlc640_write_int(EE_IZMAX,20);\r\nlc640_write_int(EE_U0B,uob__);\r\nlc640_write_int(EE_TZAS,3);\r\n\r\nlc640_write_int(EE_MNEMO_ON,mnON);\r\nlc640_write_int(EE_MNEMO_TIME,30);\t\r\n\r\nlc640_write_int(EE_AV_OFF_AVT,1);\r\nlc640_write_int(EE_APV_ON1,apvOFF);\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid net_drv(void)\r\n{ \r\n//char temp_; \r\n\r\nif(++cnt_net_drv>=16) cnt_net_drv=0; //всего 16 посылок\r\n\r\nif(cnt_net_drv<=11) // с 1 по 12 посылки адресные\r\n\t{ \r\n\tcan2_out(cnt_net_drv,cnt_net_drv,GETTM,bps[cnt_net_drv]._flags_tu,((char)(&bps[cnt_net_drv]._vol_u)),((char)((&bps[cnt_net_drv]._vol_u))+1),((char)(&bps[cnt_net_drv]._vol_i)),((char)((&bps[cnt_net_drv]._vol_i))+1));\r\n \r\n\tif(cnt_net_drv<cnt_of_slave)\r\n\t {\r\n\t if(bps[cnt_net_drv]._cnt<CNT_SRC_MAX)\r\n \t \t\t{ \r\n \t \t\tbps[cnt_net_drv]._cnt++;\r\n \t \t\tif( (bps[cnt_net_drv]._cnt>=CNT_SRC_MAX) && (!net_av) && (!(bps[cnt_net_drv]._av&0x08)) ) \r\n \t \t\t\t{\r\n \t \t\t\tavar_bps_hndl(cnt_net_drv,3,1);\r\n \t \t\t\t}\r\n \t \t\t}\r\n\t\telse bps[cnt_net_drv]._cnt=CNT_SRC_MAX;\r\n\t\t\t\t\t\t\r\n\t\tif((bps[cnt_net_drv]._cnt>=3)&&(bps[cnt_net_drv]._cnt_old<3))bps[cnt_net_drv]._cnt_more2++;\r\n\t\tbps[cnt_net_drv]._cnt_old=bps[cnt_net_drv]._cnt;\r\n\t }\r\n\t}\r\nelse if(cnt_net_drv==12)\r\n\t{\r\n can2_out(0xff,0xff,MEM_KF,((char)(&UMAX)),((char)((&UMAX))+1),((char)(&DU)),((char)((&DU))+1),0);\r\n } \r\n \r\nelse if(cnt_net_drv==13)\r\n\t{\r\n can2_out(0xff,0xff,MEM_KF1,((char)(&TMAX)),((char)((&TMAX))+1),((char)(&TSIGN)),((char)((&TSIGN))+1),(char)TZAS);\r\n } \r\nelse if(cnt_net_drv==14)\r\n\t{ \r\n//\tcan2_out(0xff,0xff,MEM_KF2,((char)(&U_INV_MAX)),((char)((&U_INV_MAX))+1),((char)(&U_INV_MIN)),((char)((&U_INV_MIN))+1),(char)T_INV_MAX);\r\n } \r\n}\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid parol_init(void)\r\n{\r\nparol[0]=0;\r\nparol[1]=0;\r\nparol[2]=0;\r\nsub_ind=0;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid bitmap_hndl(void)\r\n{\r\nshort x,ii,i;\r\nunsigned int ptr_bitmap;\r\n\r\nfor(ii=0;ii<488;ii++)\r\n\t{\r\n\tlcd_bitmap[ii]=0x00;\r\n\t}\r\n\r\nif(!mnemo_cnt)\r\n\t{\r\n\t\t\r\n\t}\r\nelse\r\n\t{\r\n\tfor(i=0;i<4;i++)\r\n\t\t{\r\n\t\tptr_bitmap=122(unsigned)i;\r\n\t\tfor(x=(20i);x<((20i)+20);x++)\r\n\t \t\t{\r\n\t\t\tlcd_bitmap[ptr_bitmap++]=caracter[(unsigned)lcd_buffer[x]6];\r\n\t\t\tlcd_bitmap[ptr_bitmap++]=caracter[((unsigned)lcd_buffer[x]6)+1];\r\n\t\t\tlcd_bitmap[ptr_bitmap++]=caracter[((unsigned)lcd_buffer[x]6)+2];\r\n\t\t\tlcd_bitmap[ptr_bitmap++]=caracter[((unsigned)lcd_buffer[x]6)+3];\r\n\t\t\tlcd_bitmap[ptr_bitmap++]=caracter[((unsigned)lcd_buffer[x]6)+4];\r\n\t\t\tlcd_bitmap[ptr_bitmap++]=caracter[((unsigned)lcd_buffer[x]6)+5];\r\n\t\t\t} \r\n\t\t}\r\n\t}\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid ind_hndl(void)\r\n{\r\n//const char* ptr;\r\nconst char* ptrs[40];\r\nconst char* sub_ptrs[40];\r\nstatic char sub_cnt,sub_cnt1;\r\nchar i,sub_cnt_max;\r\nchar ii_;\r\nstatic char ii_cnt,cnt_ind_bat;\r\n\r\n\r\n\t \r\nsub_cnt_max=5;\r\ni=0;\r\n\r\nif(spc_stat==spcVZ)\r\n\t{\r\n\tsub_ptrs[i++]=\t\t\" Выравн.заряд X:0x \";\r\n\tsub_cnt_max++;\r\n\t}\r\nif(spc_stat==spcKE)\r\n\t{\r\n\tif(spc_bat==0)\t\tsub_ptrs[i++]=\t\t\"Контроль емк. бат №1\";\r\n\telse if(spc_bat==1)\tsub_ptrs[i++]=\t\t\"Контроль емк. бат №2\";\r\n\tsub_cnt_max++;\r\n\t}\t\r\nif(avar_stat&0x0001)\r\n\t{\r\n\tsub_ptrs[i++]=\t\t\" Авария сети!!! \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\n\r\nif(avar_stat&0x0002)\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария батареи №1 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\nif(avar_stat&0x0004)\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария батареи №2 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\nif(avar_stat&(1<<(3+0)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №1 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+1)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №2 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+2)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №3 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+3)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №4 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+4)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №5 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+5)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №6 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+6)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №7 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\nif(avar_stat&(1<<(3+7)))\r\n\t{\r\n\tsub_ptrs[i++]=\t\" Авария БПС №8 \";\r\n\tsub_cnt_max++;\t\r\n\t}\r\n\r\n\r\n\r\ncnt_of_slave=NUMIST+NUMINV;\r\n\r\n\r\n//cnt_of_wrks=0;\r\n//for(i=0;i<NUMIST;i++)\r\n // {\r\n// if(bps[i]._state==bsWRK)cnt_of_wrks++;\r\n // }\r\n\r\n\r\nsub_cnt1++;\t\r\nif(sub_cnt1>=20)\r\n\t{\r\n\tsub_cnt1=0;\r\n\tsub_cnt++;\r\n\tif(sub_cnt>=sub_cnt_max)\r\n\t\t{\r\n\t\tsub_cnt=0;\r\n\t\t}\r\n\t}\r\n\r\n\r\nif(ind==iMn)\r\n\t{\r\n\r\n\tif(num_of_wrks_bps)\t\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" В работе rист. \";\r\n\t\t}\r\n\telse if((NUMBAT>1)&&(!bat[0]._av)&&(!bat[1]._av))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\" Работа от батарей \";\r\n\t\t}\r\n\telse if((BAT_IS_ON[0]==bisON)&&(!bat[0]._av)/&&(!(()&&()))/)\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №1\";\r\n\t\t}\r\n\telse if((BAT_IS_ON[1]==bisON)&&(!bat[1]._av))\r\n\t\t{\r\n\t\tptrs[0]\t=\t\"Работа от батареи №2\";\r\n\t\t}\r\n\r\n\t \r\n i=0;\r\n /\tif(!num_of_wrks_bps)\r\n \t\t{\r\n \t\tptrs[0]\t=\" Работа от батареи \"; \r\n \t\tii_=139;\r\n \t\t}\r\n \telse ii_=0;/\t\r\n \t\r\n \tptrs[1]=\"Uбz= ]В Iбz= @А\";\r\n ptrs[2]=\"Uн= #В Iн= $А\";\r\n ptrs[3]=\" 0%:0^:0& 0</> /0{ \";\r\n \r\n \tptrs[4]=\t\t\t\t\t\t\t\t\t\t\" Батарея N1 \";\r\n ptrs[5]=\t\t\t\t\t\t\t\t\t\t\" Батарея N2 \";\r\n if((NUMBAT==1)&&(BAT_IS_ON[0]!=bisON))ptrs[4]=\t\t\" Батарея N2 \";\r\n\t\t\t\t\t\t\t\t\r\n\tptrs[4+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[5+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[6+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N3 \";\r\n ptrs[7+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[8+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[9+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N6 \";\r\n ptrs[10+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[11+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[12+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N9 \";\r\n ptrs[13+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[14+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[15+NUMBAT]= \t\t\t\t\t\t\t\t\" БПС N12 \";\r\n\r\n \r\n ptrs[4+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N1 \";\r\n ptrs[5+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N2 \";\r\n ptrs[6+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N3 \";\r\n ptrs[7+NUMIST+NUMBAT]= \t\t\t\t\t\t\t\" Инвертор N4 \";\r\n\r\n ptrs[4+NUMIST+NUMBAT+NUMINV]= \t\t\t\t\t\" Сеть \"; \r\n ptrs[5+NUMIST+NUMBAT+NUMINV]= \t\t\t\t\t\" Нагрузка \"; \r\n ptrs[6+NUMIST+NUMBAT+NUMINV]= \t\t\t\t\t\" Внешние датчики \"; \r\n \tptrs[6+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\t\" Спецфункции \t \";\r\n ptrs[7+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\t\" Установки \"; \r\n ptrs[8+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\t\" Журнал событий \"; \r\n ptrs[9+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\t\" Выход \"; \r\n ptrs[10+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\t\" Журнал батареи N1 \"; \r\n ptrs[11+NUMIST+NUMBAT+NUMINV+(NUMEXT!=0)]= \t\t\t\" Журнал батареи N2 \"; \r\n\r\n if(sub_ind==0)index_set=0;\r\n\telse if((index_set-sub_ind)>2)index_set=sub_ind+2;\r\n\telse if(sub_ind>index_set)index_set=sub_ind;\r\n\t\r\n/\tif(ii_cnt>80)\r\n\t\t{\r\n\t\tif((spc_stat==spc_VZ)&&(!(av_.bAN))) ptrs[0]=\" ВЫР. ЗАРЯД {ч.\";\r\n\t\tif(spc_stat==spc_KE1p1) ptrs[0]=\"КОНТР.ЕМК.БАТ.N1\";\r\n\t\tif(spc_stat==spc_KE2p1) ptrs[0]=\"КОНТР.ЕМК.БАТ.N2\";\r\n\t\t}/\r\n \r\n\r\n\r\n\r\n\t\t\r\n\tif(sub_cnt<5)bgnd_par(ptrs[0],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\telse bgnd_par(sub_ptrs[sub_cnt-5],ptrs[index_set+1],ptrs[index_set+2],ptrs[index_set+3]);\r\n\t\r\n\tif((ii_cnt<=80)\|\|((spc_stat!=spcVZ)&&(spc_stat!=spcKE)/&&(spc_stat!=spcKE2p1)/)) \r\n\t\t{\r\n\tif((ii_!=139)&&(/(src_state[0]==ssWRK)\|\|(src_state[1]==ssWRK)\|\|(src_state[2]==ssWRK))/num_of_wrks_bps!=0))\r\n\t\t{\r\n\t\t/lcd_buffer[9]='N';\r\n\t\tlcd_buffer[10]=' ';\r\n\t\tlcd_buffer[11]=' ';\r\n\t\tlcd_buffer[12]=' ';\r\n\t\tlcd_buffer[13]=' ';\r\n\t\tlcd_buffer[14]=' ';\r\n\t\tlcd_buffer[15]=' ';/\r\n\t\t\r\n\t\tif(sub_cnt<5)int2lcdyx(num_of_wrks_bps,0,14,0);\r\n\t\t/lcd_buffer[11]='и';\r\n\t\tlcd_buffer[12]='с';\r\n\t\tlcd_buffer[13]='т';\r\n\t\tlcd_buffer[14]='.';/\r\n\r\n }\r\n }\r\n \r\n \tint2lcd(load_U,'#',1);\r\n \tint2lcd(load_I,'$',1);\r\n \t\r\n\tint2lcd(hour__,'%',0);\r\n\tint2lcd(min__,'^',0);\r\n\tint2lcd(sec__,'&',0);\r\n\tint2lcd(day__,'<',0);\r\n\tint2lcd(year__,'{',0); \r\n\tif(!((month__>=1)&&(month__<=12)))month__=1;\r\n\tsub_bgnd(sm_mont[month__],'>',0);\r\n\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t }\r\n\r\n\tif((index_set)&&(sub_ind))\r\n\t {\r\n\t if(index_set==sub_ind)lcd_buffer[60]=1;\r\n\t else if((index_set-sub_ind)==1)lcd_buffer[40]=1;\r\n\t else if((index_set-sub_ind)==2)lcd_buffer[20]=1;\r\n\t }\t\r\n\t\t\r\n\tcnt_ind_bat++;\r\n\tif(cnt_ind_bat>=(NUMBAT20)) cnt_ind_bat=0;\r\n\t\r\n\tif(NUMBAT==0)sub_bgnd(\" Работа без батарей \",'z',-2);\r\n\telse\r\n\t\t{\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tint2lcd((cnt_ind_bat/20)+1+(!(BAT_IS_ON[0]==bisON)),'z',0);\r\n\t\tint2lcd(bat[cnt_ind_bat/20]._Ub,']',1);\r\n\t\tif((mess_find_unvol(MESS2IND_HNDL))&&(mess_data[0]==PARAM_SAMOKALIBR)) sub_bgnd(\"КЛБР. \",'@',-4);\r\n\t\telse int2lcd_mmm(bat[cnt_ind_bat/20]._Ib,'@',2);\r\n\t\t}\r\n\r\n\tint2lcd(vz_cnt_s/60,'x',0);\r\n\tint2lcd(vz_cnt_h_,'X',0);\r\n\t\t\r\n\tint2lcdyx(plazma_suz[0],0,19,0);\r\n/\tint2lcdyx(GET_REG(IO0PIN,7,1),0,8,0);/\r\n\r\n\t\t \r\n\t}\r\n\r\nelse if (ind==iBat)\r\n\t{\r\n\tif(bat[sub_ind1]._av/&0x01/)\r\n\t\t{\r\n\t\tif(bFL2)bgnd_par(\" АВАРИЯ! \",\r\n\t\t \" Батарея №# \",\r\n\t\t \" не подключена \",sm_);\r\n\t\telse bgnd_par(sm_,sm_,sm_,sm_);\r\n\t\tint2lcd(sub_ind1+1,'#',0);\r\n\t\t} \r\n\telse\r\n\t\t{\r\n\t\tif(bat[sub_ind1]._Ib>0)\r\n\t\t {\r\n\t\t ptrs[1]=\" заряжается \";\r\n\t\t ptrs[3]=\" Iзар= #А \";\r\n\t\t }\r\n\t\telse\r\n\t\t {\r\n\t\t ptrs[1]=\" разряжается \";\r\n\t\t ptrs[3]=\" Iразр= #А \";\r\n\t\t }\t\r\n\t\tptrs[2]=\" Uбат= $В \";\r\n\t\t\r\n\t\tif(bat[sub_ind1]._nd)ptrs[4]=\" ДТ. неисправен \";\r\n\t\telse ptrs[4]=\" tбат = (°C \";\r\n\t\tptrs[5]=\" Заряд= w% \";\r\n\t\tptrs[6]=\" Cбат= QАч \";\r\n\t\tptrs[7]=sm_exit;\r\n \r\n\t\tbgnd_par(\" БАТАРЕЯ N@ \",\r\n\t\t ptrs[sub_ind+1],ptrs[sub_ind+2],ptrs[sub_ind+3]);\r\n\t \r\n\t int2lcd(sub_ind1+1,'@',0);\r\n\t int2lcd(bat[sub_ind1]._Ub,'$',1);\r\n\t int2lcd_mmm(abs(bat[sub_ind1]._Ib),'#',2);\r\n\t int2lcd(bat[sub_ind1]._Tb,'(',0);\r\n\t int2lcd(bat[sub_ind1]._zar,'w',0);\r\n\t if(BAT_C_REAL[sub_ind1]==0x5555)sub_bgnd(\"------\",'Q',-1);\r\n\t else int2lcd(BAT_C_REAL[sub_ind1],'Q',1);\r\n\t if(sub_ind==4)lcd_buffer[60]=1;\r\n\t\t}\r\n\r\n/\tint2lcdyx(lc640_read_int(ADR_EE_BAT_ZAR_CNT[sub_ind1]),0,5,0);\r\n\tlong2lcdyx_mmm(bat[sub_ind1]._zar_cnt,1,8,0);\r\n\tint2lcdyx(bat[sub_ind1]._time_cnt,0,19,0);\r\n\tint2lcdyx(bat[sub_ind1]._Iintegr,3,5,0);\r\n\tint2lcdyx(bat[sub_ind1]._Iintegr_,3,10,0); /\r\n\r\n\t} \r\n\r\n else if(ind==iBps)\r\n\t{\r\n\tconst char* ptr[8];\r\n \r\n\tsimax=5;\r\n\r\n\tptr[1]=\t\t\t\" Uист = (В \";\r\n\tptr[2]=\t\t\t\" Iист = [A \";\r\n\tptr[3]=\t\t\t\" tист = ]°С \";\r\n\tptr[4]=\t\t\t\" Сброс аварий \";\r\n\tptr[5]=\t\t\tsm_exit;\r\n\r\n\tif(bps[sub_ind1]._state==bsWRK)\r\n\t\t{\r\n\t\tptr[0]=\t\t\" в работе \";\r\n\t\tif((bps[sub_ind1]._flags_tm&0x08)&&(bFL2))\r\n\t\tptr[0]=\t\t\" СИЛЬНЫЙ НАГРЕВ!!! \";\t \r\n\t\t}\r\n \t else if(bps[sub_ind1]._state==bsRDY)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" в резерве \";\t\r\n\t\t}\r\n\r\n \t else if(bps[sub_ind1]._state==bsBL)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" заблокирован извне \";\t\r\n\t\t}\r\n\r\n\t else if(bps[sub_ind1]._state==bsAPV)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" Работает АПВ \";\r\n\t\t}\r\n\t \r\n\t else if(bps[sub_ind1]._state==bsAV)\r\n\t \t{\r\n\t\tif(bps[sub_ind1]._av&(1<<0))\r\n\t\tptr[0]=\t\t\" Авария - перегрев! \";\r\n\t\telse if(bps[sub_ind1]._av&(1<<1))\r\n\t\tptr[0]=\t\t\"Авария - завыш.Uвых!\";\r\n\t\telse if(bps[sub_ind1]._av&(1<<2))\t \r\n\t\tptr[0]=\t\t\"Авария - заниж.Uвых!\";\r\n\t\telse if(bps[sub_ind1]._av&(1<<3))\r\n\t\t\t{\r\n\t\t\tptr[0]=\t\" Авария - потеряна \";\r\n\t\t\tptr[1]=\t\" связь!!! \";\r\n\t\t\tptr[2]=\t\" \";\r\n\t\t\tsimax=0;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\t else if(bps[sub_ind1]._state==bsOFF_AV_NET)\r\n\t \t{\r\n\t\tptr[0]=\t\t\" ВЫКЛЮЧЕН \";\r\n\t\tptr[1]=\t\t\" Отсутствует \";\r\n\t\tptr[2]=\t\t\" первичное питание! \";\r\n\t\tsimax=0;\r\n\t\t}\r\n\r\n\tbgnd_par(\t\t\t\" БПС N& \",\r\n\t\t\t\t\tptr[index_set],\r\n\t\t\t\t\tptr[index_set+1],\r\n\t\t\t\t\tptr[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\r\n\tif(sub_ind>=4)\tpointer_set(1);\r\n\r\n\r\n//\tif((/(bps[sub_ind1]._av_net)\|\|/(bps[sub_ind1]._state==ssOFF)/)&&(!net_av)/)\r\n//\t\t{\r\n//\t\tbgnd_par( \" ИСТОЧНИК N& \",\r\n//\t\t \" НЕ ПОДКЛЮЧЕН!!! \",\r\n//\t\t sm_,sm_);\r\n//\t\tint2lcd(sub_ind1+1,'&',0);\r\n//\t\t}\r\n//\telse if(/(net_av)&&(bps[sub_ind1]._cnt>10)/(bps[sub_ind1]._state==ssOFF_AV_NET))\r\n//\t\t{\r\n//\t\tbgnd_par( \" ИСТ. N& ВЫКЛ. \",\r\n//\t\t \" авария сети \",\r\n//\t\t sm_,sm_);\r\n//\t\tint2lcd(sub_ind1+1,'&',0);\r\n//\t\t} \r\n//\telse \r\n//\t\t{\r\n//\t\tif((bps[sub_ind1]._state!=ssWRK)&&(bps[sub_ind1]._cnt>10))\r\n//\t\t\t{\r\n//\t\t\tptr1=\" ИСТ. N& ВЫКЛ. \";\r\n//\t\t\t}\t \r\n//\t\telse ptr1=\" ИСТОЧНИК N& \";\r\n//\t\t\r\n//\t\tif(bps[sub_ind1]._flags_bp=='A') ptr=\" работает АПВ \"; \r\n//\t else if((bps[sub_ind1]._state==ssWRK)\|\|((bps[sub_ind1]._Uii>200)&&(bps[sub_ind1]._cnt<10))) ptr=\" в работе \";\r\n//\t\telse if(bps[sub_ind1]._state==ssBL) ptr=\" в резерве \";\t\r\n//\t\telse\r\n//\t\t\t{\r\n//\t\t\t\r\n//\t\t\tif(bps[sub_ind1]._av_temper)ptr=\" перегрев!!! \";\r\n//\t\t\telse if(bps[sub_ind1]._av_u_max)ptr=\" завышено Uвых! \";\r\n//\t\t\telse if(bps[sub_ind1]._av_u_min)ptr=\" занижено Uвых! \";\r\n//\t\t\telse ptr=sm_;\r\n//\t\t\t\r\n//\t\t\t}\r\n//\r\n//\t\tif(!sub_ind)\r\n//\t\t\t{\r\n//\t\t\tbgnd_par(ptr1,ptr,\" Uист = (В \",\" Iист = [A \");\r\n//\r\n//\r\n//\t\t\t}\r\n//\t\telse if(sub_ind)\r\n//\t\t\t{\r\n//\t\t\tbgnd_par(ptr1,\" tист = ] С \",\" Сброс аварий \",sm_exit);\r\n//\t\t\t}\r\n//\t\t\t\r\n//\t\t//if(sub_ind!=0) lcd_buffer[29]=2;\r\n//\t\tif(sub_ind==1) \r\n//\t\t\t{\r\n//\t\t lcd_buffer[40]=1;\r\n//\t\t\t}\r\n//\t\tif(sub_ind==2) \r\n//\t\t\t{\r\n//\t\t lcd_buffer[60]=1;\r\n//\t\t\t}\t\t\t\r\n\r\n\tint2lcd(sub_ind1+1,'&',0);\r\n\tint2lcd(bps[sub_ind1]._Uii,'(',1);\r\n int2lcd(bps[sub_ind1]._Ii,'[',1); \r\n \tint2lcd_mmm(bps[sub_ind1]._Ti,']',0); \r\n \t\t\t \r\n // char2lcdhxy(bps[sub_ind1]._state,0x32);\r\n \r\n //\tint2lcdyx(sub_ind,0,2,0);\r\n//\tint2lcdyx(index_set,0,4,0);\t\r\n } \r\n\r\nelse if(ind==iNet)\r\n\t{\r\n\tbgnd_par(\t\t\" СЕТЬ \",\r\n\t\t\t\t\" U = [В \",\r\n\t\t\t\t\" f = ]Гц \",\r\n\t\t\t\tsm_exit);\r\n\tlcd_buffer[60]=1;\r\n\t \t\r\n int2lcd(net_U,'[',0);\r\n int2lcd(net_F,']',1);\r\n\r\n \r\n \t \t \t \t\t\r\n }\r\n\r\nelse if(ind==iLoad)\r\n\t{\r\n\tbgnd_par(\t\t\" НАГРУЗКА \",\r\n\t\t\t\t\" Uнагр = [В \",\r\n\t\t\t\t\" Iнагр = ]А \",\r\n\t\t\t\tsm_exit);\r\n\tlcd_buffer[60]=1;\r\n\t \t\r\n int2lcd(load_U,'[',1);\r\n int2lcd(load_I,']',1);\r\n\r\n \r\n \t \t \t \t\t\r\n }\r\n\r\nelse if(ind==iExtern)\r\n\t{\r\n\r\n\tptrs[0]= \t\t\" ДТ1 !°С \";\r\n ptrs[1]= \t\t\" ДТ2 @°С \";\r\n ptrs[2]= \t\t\" ДТ3 #°С \";\r\n ptrs[0+NUMDT]= \t\" СК1 $ \"; \r\n ptrs[1+NUMDT]= \t\" СК2 % \";\r\n\tptrs[2+NUMDT]= \t\" СК3 ^ \";\r\n\tptrs[3+NUMDT]= \t\" СК4 & \";\r\n\tptrs[0+NUMEXT]= \t\" Выход \";\r\n\tptrs[1+NUMEXT]= \t\" \";\r\n\tptrs[2+NUMEXT]= \t\" \";\r\n\r\n\tbgnd_par(\t\t\" ВНЕШНИЕ ДАТЧИКИ \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tif(sub_ind-index_set>2)index_set=sub_ind-2;\r\n\telse if (sub_ind<index_set)index_set=sub_ind;\r\n\tpointer_set(1);\r\n }\r\n\r\nelse if(ind==iSpc)\r\n\t{\r\n\r\n \tptrs[0]=\t\" Выр.заряд \";\r\n \tptrs[1]=\t\" Авт.выр.заряд \";\r\n \tptrs[2]=\t\" К.Е. батареи N1 \";\r\n \tptrs[3]=\t\" К.Е. батареи N2 \";\r\n //\tptrs[4]=\t\" А.К.Е. бат. N1 \";\r\n //\tptrs[5]=\t\" А.К.Е. бат. N2 \";\r\n \tptrs[4]=\t\" Выход \";\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n \tbgnd_par( \" СПЕЦФУНКЦИИ \",\r\n \t ptrs[index_set],\r\n \t ptrs[index_set+1],\r\n \t ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t} \t\t\r\n\r\n\r\n else if(ind==iVz)\r\n\t{ \r\n\tif(sub_ind==22) bgnd_par(\t\"ВЫРАВНИВАЮЩИЙ ЗАРЯД \",\r\n\t\t\t\t\t\t\t\" невозможен, \",\r\n\t\t\t\t\t\t\t\" включен контроль \",\r\n\t\t\t\t\t\t\t\" емкости бат.N1 \"); \r\n\telse if(sub_ind==33) bgnd_par(\"ВЫРАВНИВАЮЩИЙ ЗАРЯД \",\r\n\t\t\t\t\t\t\t\" невозможен, \",\r\n\t\t\t\t\t\t\t\" включен контроль \",\r\n\t\t\t\t\t\t\t\" емкости бат.N2 \");\r\n\telse if(spc_stat==spcVZ)\r\n\t\t{\r\n\t\tbgnd_par(\t\t\t\t\"ВЫРАВНИВАЮЩИЙ ЗАРЯД \",\r\n\t\t\t\t\t\t\t\" Длит.-сть (ч. \",\r\n\t\t\t\t\t\t\t\" Включен \",\r\n\t\t\t\t\t\t\tsm_exit);\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\tbgnd_par(\t\t\t\t\"ВЫРАВНИВАЮЩИЙ ЗАРЯД \",\r\n\t\t\t\t\t\t\t\" Длит.-сть (ч. \",\r\n\t\t\t\t\t\t\t\" Выключен \",\r\n\t\t\t\t\t\t\tsm_exit);\r\n\t\t}\t\r\n\r\n\tpointer_set(1);\t\r\n\r\n\tint2lcd(VZ_HR,'(',0);\r\n\t} \r\n\t\r\n\t\r\nelse if(ind==iKe)\r\n\t{ \r\n\tif((spc_stat==spcKE)&&(spc_bat==sub_ind1))\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" Включен \",\r\n\t\t\t\tsm_exit);\r\n\t\t}\r\n\telse\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" Выключен \",\r\n\t\t\t\tsm_exit);\r\n\t\t}\r\n\t\r\n\t/\r\n\telse if(sub_ind==11)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" Выключен \",\r\n\t\t\t\tsm_exit);\r\n\t\t}\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" контроль емкости \",\r\n\t\t\t\t\" батареи N) \");\r\n\t\tint2lcd(2-sub_ind1,')',0);\r\n\t\t}\r\n\telse if(sub_ind==13)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" батарея \",\r\n\t\t\t\t\" не введена \");\r\n\t\t}\r\n\telse if(sub_ind==14)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" авария \",\r\n\t\t\t\t\" батареи \");\r\n\t\t}\t\t\t\t\r\n\telse if(sub_ind==15)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" батарея \",\r\n\t\t\t\t\" заряжается \");\r\n\t\t}\r\n\telse if(sub_ind==16)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" батарея \",\r\n\t\t\t\t\" разряжается \");\r\n\t\t}\t\t\t\t\r\n\telse if(sub_ind==17)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" контроль заряда \",\r\n\t\t\t\t\" батареи N) \");\r\n\t\tint2lcd(sub_ind1+1,')',0);\r\n\t\t}\r\n\telse if(sub_ind==18)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" авария \",\r\n\t\t\t\t\" батареи N) \");\r\n\t\tint2lcd(2-sub_ind1,')',0);\r\n\t\t}\t\t\t\t \r\n\telse if(sub_ind==19)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" батарея N) \",\r\n\t\t\t\t\" заряжается \");\r\n\t\tint2lcd(2-sub_ind1,')',0);\r\n\t\t}\r\n\telse if(sub_ind==20)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" разряжается \",\r\n\t\t\t\t\" батарея N) \");\r\n\t\tint2lcd(2-sub_ind1,')',0);\r\n\t\t}\t\t\t\t\r\n\telse if(sub_ind==21)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" контроль заряда \",\r\n\t\t\t\t\" батареи N) \");\r\n\t\tint2lcd(2-sub_ind1,')',0);\r\n\t\t}\r\n\telse if(sub_ind==22)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N{ \",\r\n\t\t\t\t\" авария \",\r\n\t\t\t\t\" сети \");\r\n\t\t}\t\r\n\t/\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t//if(sub_ind==0) lcd_buffer[41]=1; \r\n\t//else if(sub_ind==1) lcd_buffer[51]=1;\r\n\tpointer_set(2);\r\n\tint2lcd(sub_ind1+1,'{',0);\r\n\t}\t \r\n\r\n\r\n\r\nelse if(ind==iLog)\r\n\t{\r\n\t//char dt[4],dt_[4],dt__[4];\r\n//\tchar iii;\r\n\r\n\tav_j_si_max=lc640_read_int(CNT_EVENT_LOG);\r\n\tif(av_j_si_max>64)av_j_si_max=0;\r\n\r\n\tif(av_j_si_max==0)\r\n\t\t{\r\n\t\tbgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" Журнал пуст \",sm_exit,sm_);\r\n\t\t//lcd_buffer[33]=1;\r\n\t\tsub_ind=1;\r\n\t\tindex_set=0;\r\n\t\t} \r\n\t\t\r\n\telse if(av_j_si_max==1)\r\n\t\t{\r\n\t\tbgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" ( \",sm_exit,\" Очистить журнал \");\r\n\t\t//if(sub_ind==0)lcd_buffer[16]=1;\r\n\t\t//else if(sub_ind==1)lcd_buffer[33]=1;\r\n\t\t//else if(sub_ind==2)lcd_buffer[50]=1;\t\t\r\n\t\tindex_set=0;\r\n\t\t}\r\n\r\n\telse if(av_j_si_max==2)\r\n\t\t{\r\n\t\tif(sub_ind<index_set) index_set=sub_ind;\r\n\t\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\t\t\r\n\t\tif(index_set==0) bgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" ( \",\" [ \",sm_exit);\r\n\t\telse if(index_set==1) bgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" ( \",sm_exit,\" Очистить журнал \");\r\n\t\t\r\n\t\t//if((sub_ind-index_set)==0) lcd_buffer[16]=1; \r\n\t\t//else if((sub_ind-index_set)==1) lcd_buffer[33]=1;\r\n\t\t//else if((sub_ind-index_set)==2) lcd_buffer[50]=1;\r\n\t\t}\r\n\t\t\r\n\telse if(av_j_si_max>2)\r\n\t\t{\r\n\t\tif(sub_ind<index_set) index_set=sub_ind;\r\n\t\telse if((sub_ind-index_set)>2) index_set=sub_ind-2; \r\n\t\tif(index_set==(av_j_si_max-1)) bgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" ( \",sm_exit,\" Очистить журнал \");\r\n\t\telse if(index_set==(av_j_si_max-2)) bgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" ( \",\" [ \",sm_exit);\r\n\t\telse bgnd_par(\" ЖУРНАЛ СОБЫТИЙ \",\" ( \",\" [ \",\" { \");\r\n\t\t\r\n\t\t//if((sub_ind-index_set)==0) lcd_buffer[16]=1; \r\n\t\t//else if((sub_ind-index_set)==1) lcd_buffer[33]=1;\r\n\t\t//else if((sub_ind-index_set)==2) lcd_buffer[50]=1;\r\n\r\n\t\t}\r\n\tpointer_set(1);\r\n event2ind(index_set,'(');\r\n event2ind(index_set+1,'[');\t\r\n event2ind(index_set+2,'{');\t \r\n \r\n\t}\r\n\r\n\r\n\r\nelse if(ind==iLog_)\r\n\t{\t\r\n\tunsigned short tempUI,tempUI_;\r\n\tunsigned long tempUL;\r\n\tchar av_head[4],av_data_on[8],av_data_off[8],av_data[4];\r\n\tshort av_head_int[2];\r\n\t\r\n\tbgnd_par(sm_,sm_,sm_,sm_);\r\n\ttempUI=lc640_read_int(PTR_EVENT_LOG);\r\n\ttempUI=ptr_carry(tempUI,64,-1((signed)sub_ind1));\r\n\ttempUI=32;\r\n\ttempUI+=EVENT_LOG;\r\n \r\n lc640_read_long_ptr(tempUI,av_head);\r\n lc640_read_long_ptr(tempUI+4,(char)av_head_int);\r\n lc640_read_long_ptr(tempUI+8,av_data_on);\r\n lc640_read_long_ptr(tempUI+12,&(av_data_on[4])); \r\n lc640_read_long_ptr(tempUI+16,av_data_off);\r\n lc640_read_long_ptr(tempUI+20,&(av_data_off[4])); \r\n\tlc640_read_long_ptr(tempUI+24,av_data);\r\n\t\r\n\t//av_head_int[0]=123; \r\n//av_head_int[1]=456;\t\r\n\r\n\tif((av_head[0]=='U')&&(av_head[2]=='R'))\r\n\t\t{\r\n\t\tbgnd_par(\t\" Перезагрузка \",\r\n\t\t\t\t\" или включение \",\r\n\t\t\t\t\" ИБЭП \",\r\n\t\t\t\t\" 0%( 0^ 0@:0#:0$ \");\r\n\t\t\t\t\r\n\t\t\t\t \t\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t//int2lcd(av_data_on[1],'(',0);\r\n\t\t//int2lcdyx(av_data_on[1],2,1,0);\r\n\t\tav_j_si_max=0;\r\n\t\t\r\n\t\t}\r\n\r\n\telse if((av_head[0]=='P')&&(av_head[2]=='A'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Авария сети!!! \";\r\n\t\tptrs[1]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tif((av_data_off[0]=='A')&&(av_data_off[1]=='A'))\r\n\t\t\t{\r\n\t\t\tptrs[2]=\" не устранена \";\r\n\t\t\tptrs[3]=\" Uсети= +В \";\r\n\t\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\t\tint2lcd(net_U,'+',0);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tgran_char(&index_set,0,1);\r\n\t\t\tptrs[2]=\" устранена \";\r\n\t\t\tptrs[3]=\" 0[] 0< 0>:0=:0) \";\r\n\t\t\tptrs[4]=\" Uмин= +В \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'>',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'<',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0);\r\n\t\t\t\r\n\t\t\tint2lcd(av_data[0]+(av_data[1]256),'+',0);\t\t\t\r\n\t\t\t}\t\r\n\t\t\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\tav_j_si_max=1;\r\n\t\t}\r\n\r\n\telse if((av_head[0]=='B')&&(av_head[2]=='C'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Авария \";\r\n\t\tptrs[1]=\" батареи N+ \";\r\n\t\tptrs[2]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tif((av_data_off[0]=='A')&&(av_data_off[1]=='A'))\r\n\t\t\t{\r\n\t\t\tptrs[3]=\" не устранена \";\r\n\t\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tgran_char(&index_set,0,1);\r\n\t\t\tptrs[3]=\" устранена \";\r\n\t\t\tptrs[4]=\" 0[] 0< 0>:0=:0) \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'>',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'<',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0);\r\n\t\t\t\r\n\t\t\t\t\t\t\r\n\t\t\t}\t\r\n\t\tint2lcd(av_head[1]+1,'+',0);\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\tav_j_si_max=1;\r\n\t\t}\r\n\r\n\telse if((av_head[0]=='B')&&(av_head[2]=='Z'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Выравнивающий \";\r\n\t\tptrs[1]=\" заряд \";\r\n\t\tptrs[2]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tif((av_data_off[0]=='A')&&(av_data_off[1]=='A'))\r\n\t\t\t{\r\n\t\t\tptrs[3]=\" не завершен \";\r\n\t\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tgran_char(&index_set,0,1);\r\n\t\t\tptrs[3]=\" завершен \";\r\n\t\t\tptrs[4]=\" 0[] 0< 0>:0=:0) \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'>',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'<',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0);\r\n\t\t\t\r\n\t\t\t\t\t\t\r\n\t\t\t}\t\r\n\t\tint2lcd(av_head[1]+1,'+',0);\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\tav_j_si_max=1;\r\n\t\t}\r\n\r\n\r\n\r\n\telse if((av_head[0]=='B')&&(av_head[2]=='W'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Разряд \";\r\n\t\tptrs[1]=\" батареи N! \";\r\n\t\tptrs[2]=\" Начало \";\r\n\t\tptrs[3]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tptrs[4]=\" Uбат= <В\";\r\n\t\tptrs[5]=\" Конец \";\r\n\t\tptrs[6]=\" 0qw 0r 0i:0l:0s \";\r\n\t\tptrs[7]=\" Uбат= >В \";\r\n\t\tptrs[8]=\" Отдано /ач. \";\r\n\t\t\r\n\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\r\n\t\tint2lcd(av_head[1]+1,'!',0);\r\n\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\t\t\r\n\t\tint2lcd(av_data_off[4],'i',0);\r\n\t\tint2lcd(av_data_off[5],'l',0);\r\n\t\tint2lcd(av_data_off[6],'s',0);\r\n\t\tint2lcd(av_data_off[2],'q',0);\r\n\t\tint2lcd(av_data_off[0],'r',0); \r\n\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_off[1]],'w',0);\r\n\t\t\r\n\t\t\r\n\t\tint2lcd(av_head_int[0]/10,'/',1);\r\n\t\tint2lcd(av_data_on[3]+(av_data_on[7]256),'<',1);\r\n\t\tint2lcd(av_head_int[1],'>',1);\t\r\n\t\tav_j_si_max=5;\t\t\t\t\r\n\r\n\t\t\r\n\t\t}\r\n\r\n\telse if((av_head[0]=='B')&&(av_head[2]=='K'))\r\n\t\t{ \r\n\t\tptrs[0]=\" Контроль емкости \";\r\n\t\tptrs[1]=\" батареи \";\r\n\t\tptrs[2]=\" Начало \";\r\n\t\tptrs[3]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tptrs[4]=\" Uбат= <В \";\r\n\t\tptrs[5]=\" Конец \";\r\n\t\tptrs[6]=\" 0qw 0r 0i:0l:0s \";\r\n\t\tptrs[7]=\" Uбат= >В \";\r\n\t\tptrs[8]=\" Ёмкость /ач. \";\r\n\t\t\r\n\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\r\n\t\tint2lcd(av_head[1]+1,'!',0);\r\n\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\t\t\r\n\t\tint2lcd(av_data_off[4],'i',0);\r\n\t\tint2lcd(av_data_off[5],'l',0);\r\n\t\tint2lcd(av_data_off[6],'s',0);\r\n\t\tint2lcd(av_data_off[2],'q',0);\r\n\t\tint2lcd(av_data_off[0],'r',0); \r\n\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_off[1]],'w',0);\r\n\t\t\r\n\t\t\r\n\t\tint2lcd(av_head_int[0],'/',1);\r\n\t\tint2lcd(av_data_on[3]+(av_data_on[7]256),'<',1);\r\n\t\tint2lcd(av_head_int[1],'>',1);\t\r\n\t\tav_j_si_max=5;\t\t\t\t\r\n\r\n\t\t\r\n\t\t}\r\n\r\n\r\n\r\n\telse if(av_head[0]=='S')\r\n\t\t{ \r\n\t\tptrs[0]=\" Авария БПС N+ \";\r\n\t\t\r\n\t\tif(av_head[2]=='L')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" отключился \";\r\n\t\t\t}\r\n\t\telse if(av_head[2]=='T')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" перегрев \";\r\n\t\t\t}\t\t\r\n\t\telse if(av_head[2]=='U')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" завышено Uвых. \";\r\n\t\t\t}\t\t\r\n\t\telse if(av_head[2]=='u')\r\n\t\t\t{\r\n\t\t\tptrs[1]=\" занижено Uвых. \";\r\n\t\t\t}\t\t\t\t\t\t\t\t\r\n\t\t\r\n\t\t\r\n\t\tptrs[2]=\" 0%( 0^ 0@:0#:0$ \";\r\n\t\tif((av_data_off[0]=='A')&&(av_data_off[1]=='A'))\r\n\t\t\t{\r\n\t\t\tptrs[3]=\" не устранена \";\r\n\t\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\t\t}\r\n\t\telse \r\n\t\t\t{\r\n\t\t\tgran_char(&index_set,0,1);\r\n\t\t\tptrs[3]=\" устранена \";\r\n\t\t\tptrs[4]=\" 0[] 0< 0>:0=:0) \";\r\n\t\t\tbgnd_par(ptrs[index_set],ptrs[1+index_set],ptrs[2+index_set],ptrs[3+index_set]);\r\n\t\t\tint2lcd(av_data_off[4],'>',0);\r\n\t\t\tint2lcd(av_data_off[5],'=',0);\r\n\t\t\tint2lcd(av_data_off[6],')',0);\r\n\t\t\tint2lcd(av_data_off[2],'[',0);\r\n\t\t\tint2lcd(av_data_off[0],'<',0); \r\n\t\t\tif(!((av_data_off[1]>=1)&&(av_data_off[1]<=12)))av_data_off[1]=1;\r\n\t\t\tsub_bgnd(sm_mont[av_data_off[1]],']',0);\r\n\t\t\t\r\n\t\t\t\t\t\t\r\n\t\t\t}\t\r\n\t\tint2lcd(av_head[1]+1,'+',0);\r\n\t\tint2lcd(av_data_on[4],'@',0);\r\n\t\tint2lcd(av_data_on[5],'#',0);\r\n\t\tint2lcd(av_data_on[6],'$',0);\r\n\t\tint2lcd(av_data_on[2],'%',0);\r\n\t\tint2lcd(av_data_on[0],'^',0); \r\n\t\tif(!((av_data_on[1]>=1)&&(av_data_on[1]<=12)))av_data_on[1]=1;\r\n\t\tsub_bgnd(sm_mont[av_data_on[1]],'(',0);\r\n\t\t\r\n\t\t}\r\n\r\n\t\r\n\t}\r\n\t\t \r\nelse if(ind==iBatLog)\r\n\t{\r\n\tif(BAT_IS_ON[sub_ind1]==bisON)ptrs[0]=\" Введена 0!/@ /0# \";\r\n\telse ptrs[0]=\" Выведена 0!/@ /0# \";\r\n ptrs[1]=\" Номин.емк. $Aч\";\r\n ptrs[2]=\" Наработка %ч. \";\r\n ptrs[3]=\" Контроль емкости \";\r\n ptrs[4]=\" Выравнивающий заряд\";\r\n ptrs[5]=\" Разряды \";\r\n ptrs[6]=sm_exit;\t\r\n\tif((sub_ind-index_set)>1)index_set=sub_ind-1;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\" БАТАРЕЙНЫЙ ЖУРНАЛ \",\r\n\t\t\t\" БАТАРЕЯ N^ \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1]);\r\n\tpointer_set(2);\t\r\n\r\n\tint2lcd(sub_ind1+1,'^',0); \r\n\tint2lcd(BAT_DAY_OF_ON[sub_ind1],'!',0);\r\n\tsub_bgnd(sm_mont[BAT_MONTH_OF_ON[sub_ind1]],'@',0);\r\n\tint2lcd(BAT_YEAR_OF_ON[sub_ind1],'#',0); \r\n\tint2lcd(BAT_C_NOM[sub_ind1],'$',0);\r\n\tint2lcd(BAT_RESURS[sub_ind1],'%',0);\r\n\t}\r\n\r\nelse if(ind==iBatLogKe)\r\n\t{ \r\n\tif(av_j_si_max==0)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛИ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\" Журнал пуст \",\r\n\t\t\t\tsm_exit);\r\n\t\tpointer_set(3);\r\n\t\tsub_ind=0;\r\n\t\tindex_set=0;\r\n\t\t} \r\n\telse if(av_j_si_max==1)\r\n\t\t{\r\n\t\tbgnd_par(\t\" КОНТРОЛИ ЕМКОСТИ \",\r\n\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\" ( \",\r\n\t\t\t\tsm_exit);\r\n\t\tindex_set=0;\r\n\t\tpointer_set(2);\r\n\t\t}\t\r\n\telse\r\n\t\t{\r\n\t\tif(sub_ind<index_set) index_set=sub_ind;\r\n\t\telse if((sub_ind-index_set)>1) index_set=sub_ind-1;\r\n\t\tif(index_set==(av_j_si_max-1)) \r\n\t\t\t{\r\n\t\t\tbgnd_par( \" КОНТРОЛИ ЕМКОСТИ \",\r\n\t\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\t\" ( \",\r\n\t\t\t\t\tsm_exit);\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" КОНТРОЛИ ЕМКОСТИ \",\r\n\t\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\t\" ( \",\r\n\t\t\t\t\t\" [ \");\r\n\t\t\t}\r\n\t\tpointer_set(2);\t\t\t \r\n\t\t}\r\n\t\t\r\n \tint2lcd(sub_ind1+1,'!',0);\r\n \tevent_data2ind(content[index_set],'(');\r\n \tevent_data2ind(content[index_set+1],'[');\r\n\t}\r\n\r\nelse if(ind==iBatLogVz)\r\n\t{\r\n\tif(av_j_si_max==0)\r\n\t\t{\r\n\t\tbgnd_par(\t\"ВЫРАВНИВАЮЩИЕ ЗАРЯДЫ\",\r\n\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\" Журнал пуст \",\r\n\t\t\t\tsm_exit);\r\n\t\tsub_ind=0;\r\n\t\tindex_set=0;\r\n\t\tpointer_set(3);\r\n\t\t} \r\n\telse if(av_j_si_max==1)\r\n\t\t{\r\n\t\tbgnd_par(\t\"ВЫРАВНИВАЮЩИЕ ЗАРЯДЫ\",\r\n\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\" ( \",\r\n\t\t\t\tsm_exit);\r\n\t\tindex_set=0;\r\n\t\tpointer_set(2);\r\n\t\t}\t\r\n\telse\r\n\t\t{\r\n\t\tif(sub_ind<index_set) index_set=sub_ind;\r\n\t\telse if((sub_ind-index_set)>1) index_set=sub_ind-1;\r\n\t\tif(index_set==(av_j_si_max-1)) \r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\"ВЫРАВНИВАЮЩИЕ ЗАРЯДЫ\",\r\n\t\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\t\" ( \",\r\n\t\t\t\t\tsm_exit);\r\n\t\t\t}\r\n\r\n\t\telse bgnd_par(\t\"ВЫРАВНИВАЮЩИЕ ЗАРЯДЫ\",\r\n\t\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\t\" ( \",\r\n\t\t\t\t\t\" [ \"); \r\n\t\tpointer_set(2);\t\t\t \r\n\t\t}\r\n \tint2lcd(sub_ind1+1,'!',0);\r\n \tevent_data2ind(content[index_set],'(');\r\n \tevent_data2ind(content[index_set+1],'[');\r\n\t\r\n\t}\r\n \r\nelse if(ind==iBatLogWrk)\r\n\t{\r\n\tif(av_j_si_max==0)\r\n\t\t{\r\n\t\tbgnd_par(\t\" РАЗРЯДЫ \",\r\n\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\" Журнал пуст \",\r\n\t\t\t\tsm_exit);\r\n\t\tsub_ind=0;\r\n\t\tindex_set=0;\r\n\t\tpointer_set(3);\r\n\t\t} \r\n\telse if(av_j_si_max==1)\r\n\t\t{\r\n\t\tbgnd_par(\t\" РАЗРЯДЫ \",\r\n\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\" ( \",\r\n\t\t\t\tsm_exit);\r\n\t\tindex_set=0;\r\n\t\tpointer_set(2);\r\n\t\t}\t\r\n\r\n\telse\r\n\t\t{\r\n\t\tif(sub_ind<index_set) index_set=sub_ind;\r\n\t\telse if((sub_ind-index_set)>1) index_set=sub_ind-1;\r\n\t\tif(index_set==(av_j_si_max-1))\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" РАЗРЯДЫ \",\r\n\t\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\t\" ( \",\r\n\t\t\t\t\tsm_exit);\r\n\t\t\t}\r\n\t\telse bgnd_par(\t\" РАЗРЯДЫ \",\r\n\t\t\t\t\t\" БАТАРЕИ N! \",\r\n\t\t\t\t\t\" ( \",\r\n\t\t\t\t\t\" [ \");\r\n\r\n\t\tpointer_set(2);\r\n\t\t}\r\n\r\n \tint2lcd(sub_ind1+1,'!',0);\r\n \tevent_data2ind(content[index_set],'(');\r\n \tevent_data2ind(content[index_set+1],'[');\r\n\r\n\t\r\n\r\n\t} \r\n\t\r\nelse if((ind==iSet_prl)\|\|(ind==iK_prl)\|\|(ind==iSpc_prl_vz)\r\n\t\|\|(ind==iSpc_prl_ke)\|\|(ind==iAusw_prl)\|\|(ind==iPrltst))\r\n\t{\r\n\tbgnd_par(\" Введите пароль \",sm_,sm_,sm_);\r\n\tint2lcdyx(parol[0],1,8,0);\r\n int2lcdyx(parol[1],1,9,0);\r\n int2lcdyx(parol[2],1,10,0);\r\n lcd_buffer[48+sub_ind]='¤';\r\n\t}\t\r\n\t\t\r\nelse if(ind==iPrl_bat_in_out)\r\n\t{\r\n\tif(BAT_IS_ON[sub_ind1]==bisON)ptrs[0]=\"Для выведения бат.-и\";\r\n\telse ptrs[0]=\"Для введения батареи\";\r\n\tbgnd_par(ptrs[0],\" наберите пароль \",sm_,sm_);\r\n\t\r\n int2lcdyx(parol[0],2,8,0);\r\n int2lcdyx(parol[1],2,9,0);\r\n int2lcdyx(parol[2],2,10,0);\r\n lcd_buffer[68+sub_ind]='¤';\t\r\n\t}\r\n\t\r\nelse if(ind==iSet)\r\n\t{\r\n ptrs[0]=\t\t\" Стандартные \";\r\n\tptrs[1]=\t\t\" Время и дата \";\r\n ptrs[2]=\t\t\" Структура \";\r\n ptrs[3]=\t\t\" Мнемоника y\";\r\n\tptrs[4]=\t\t\" Зв.сигн. ( \";\r\n\tptrs[5]=\t\t\" Отключение сигнала \";\r\n\tptrs[6]=\t\t\" аварии ) \";\r\n\tptrs[7]=\t\t\" АПВ источников \";\r\n\tptrs[8]=\t\t\" Паралл.работа z \";\r\n\tptrs[9]=\t\t\" T проверки цепи \";\r\n ptrs[10]=\t\t\" батареи qмин. \";\r\n ptrs[11]=\t\t\" Umax= !В \";\r\n ptrs[12]=\t\t\" dU= ZВ \";\r\n ptrs[13]=\t\t\" Uб0°= @В \";\r\n ptrs[14]=\t\t\" Uб20°= #В \";\r\n ptrs[15]=\t\t\" Uсигн= ^В \";\r\n ptrs[16]=\t\t\" Umin.сети= &В \";\r\n\tptrs[17]=\t\t\" U0б= >В \";\r\n\tptrs[18]=\t\t\" Iбк.= jА \";\r\n ptrs[19]=\t\t\" Iз.мах.= JА \";\r\n ptrs[20]=\t\t\" Imax= ]A \";\r\n ptrs[21]=\t\t\" Kimax= { \";\r\n ptrs[22]=\t\t\" Kвыр.зар.= [ \";\r\n ptrs[23]=\t\t\" Tз.вкл.а.с. !с \";\r\n\tptrs[24]=\t\t\" tи.max= $°C \";\r\n\tptrs[25]=\t\t\" tи.сигн= z°C \";\r\n\tptrs[26]=\t\t\" tбат.max= b°C \";\r\n\tptrs[27]=\t\t\" tбат.сигн= X°C \";\r\n ptrs[28]=\t\t\" Внешние датчики \";\r\n ptrs[29]=\t\t\" Выход \";\r\n ptrs[30]=\t\t\" Калибровки \"; \r\n ptrs[31]=\t\t\" Тест \"; \r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" УСТАНОВКИ \",\r\n\t\t\tptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\t\r\n\tif(index_set<18)\r\n\t {\r\n\t if(ZV_ON)sub_bgnd(\"ВКЛ.\",'(',0);\r\n\t else sub_bgnd(\"ВЫК.\",'(',0);\r\n\t if(AV_OFF_AVT)sub_bgnd(\"автом.\",')',0);\r\n\t else sub_bgnd(\"ручн.\",')',0);\r\n\t\tif(PAR)sub_bgnd(\"ВКЛ.\",'z',0);\r\n\t else sub_bgnd(\"ВЫК.\",'z',0);\r\n\t if(MNEMO_ON==mnON)\r\n\t \t{\r\n\t \tsub_bgnd(\"через yс.\",'y',-8);\r\n\t \tint2lcd(MNEMO_TIME,'y',0);\r\n\t \t}\r\n\t else sub_bgnd(\"выкл.\",'y',-4);\r\n\t int2lcd(UMAX,'!',1);\r\n\t int2lcd(DU,'Z',1);\r\n\t int2lcd(UB0,'@',1);\r\n\t int2lcd(UB20,'#',1);\r\n\t int2lcd(USIGN,'^',0);\r\n\t int2lcd(UMN,'&',0);\r\n\t int2lcd(U0B,'>',1);\r\n\t } \r\n\tint2lcd(TMAX,'$',0);\r\n\tint2lcd(IKB,'j',2);\r\n\tint2lcd(KVZ,'[',3);\r\n\tint2lcd(IMAX,']',1);\r\n\tint2lcd(KIMAX,'{',1);\r\n\tint2lcd(IZMAX,'J',1); \r\n\tint2lcd(TZAS,'!',0);\r\n\tint2lcd(TBAT,'q',0);\r\n\tint2lcd(TSIGN,'z',0); \r\n\tint2lcd(TBATMAX,'b',0); \r\n\tint2lcd(TBATSIGN,'X',0); \r\n\t}\r\n\r\nelse if (ind==iDef)\r\n\t{ \r\n\tptrs[0]=\" ИБЭП220/48-80А \";\r\n\tptrs[1]=\" ИБЭП220/60-80А \";\r\n\tptrs[2]=\" ИБЭП220/48-100А \";\r\n\tptrs[3]=\" ИБЭП220/60-100А \";\r\n\tptrs[4]=\" ИБЭП220/48-120А \";\r\n\tptrs[5]=\" ИБЭП220/60-120А \";\r\n\tptrs[6]=sm_exit;\r\n\tif(bFL5)ptrs[default_temp]=sm_;\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\r\n bgnd_par(\"СТАНДАРТНЫЕ УСТ.-КИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\t} \t\r\n\t \r\n\r\n\r\n\r\nelse if(ind==iSet_T)\r\n\t{\r\n\tstatic char phase_cnt;\r\n\tif(++phase_cnt>=15)\r\n\t {\r\n\t phase_cnt=0;\r\n\t if(++phase>=3)phase=0;\r\n\t }\r\n\tptrs[0]=sm_time;\r\n\tptrs[1]=sm_;\r\n\tif(phase==0)ptrs[2]=\" <> - выбор \";\r\n if(phase==1)ptrs[2]=\" ^v - установка \";\r\n if(phase==2)ptrs[2]=\" 0 - выход \";\r\n\t\r\n\tbgnd_par(\" УСТАНОВКА ВРЕМЕНИ \",ptrs[0],ptrs[1],ptrs[2]);\r\n if(sub_ind==0)lcd_buffer[42]='^';\r\n else if(sub_ind==1)lcd_buffer[45]='^';\r\n else if(sub_ind==2)lcd_buffer[48]='^';\r\n else if(sub_ind==3)lcd_buffer[51]='^';\r\n else if(sub_ind==4)lcd_buffer[54]='^';\r\n else if(sub_ind==5)lcd_buffer[58]='^';\r\n \r\n \tint2lcd(sec__,'&',0);\r\n \tint2lcd(min__,'^',0);\r\n \tint2lcd(hour__,'%',0);\r\n \t\r\n \tint2lcd(day__,'<',0);\r\n \tsub_bgnd(sm_mont[month__],'>',0);\r\n \tint2lcd(year__,'{',0);\r\n \tif(bFL2)\r\n \t {\r\n \t lcd_buffer[find(':')]=' ';\r\n \t lcd_buffer[find(':')]=' ';\r\n \t } \r\n\t} \r\n\r\nelse if(ind==iStr)\r\n\t{\r\n\tptrs[0]=\" Батарей @\";\r\n\tptrs[1]=\" Источников !\";\r\n\tptrs[2]=\" Инверторов ^\";\t\r\n\tptrs[3]=\" Датчиков темпер. #\";\r\n\tptrs[4]=\" Сухих контактов $\";\r\n\tptrs[5]=\" Выход \";\r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\r\n\tbgnd_par(\" СТРУКТУРА \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\r\n\tint2lcd(NUMBAT,'@',0);\t\t\r\n\tint2lcd(NUMIST,'!',0); \r\n\tint2lcd(NUMINV,'^',0);\r\n\tint2lcd(NUMDT,'#',0);\r\n\tint2lcd(NUMSK,'$',0);\r\n\t} \r\n\r\nelse if (ind==iApv)\r\n\t{ \r\n\tptrs[0]=\t\t\t\" АПВ 1й уровень ! \";\r\n\tif(APV_ON1!=apvON)\r\n\t {\r\n\t ptrs[1]=\t\t\" Выход \";\r\n\t ptrs[2]=sm_;\r\n\t ptrs[3]=sm_;\r\n\t ptrs[4]=sm_;\r\n\t simax=1;\r\n\t }\r\n\telse\r\n\t {\r\n\t if(APV_ON2!=apvON)\r\n\t {\r\n\t ptrs[1]=\" АПВ 2й уровень @ \";\r\n\t ptrs[2]=\" Выход \";\r\n\t ptrs[3]=sm_;\r\n\t ptrs[4]=sm_;\r\n\t simax=2;\r\n\t }\r\n\t else \r\n\t {\r\n ptrs[1]=\" АПВ 2й уровень @ \";\r\n\t ptrs[2]=\" Период АПВ2 #ч.\";\r\n\t ptrs[3]=\" Выход \";\r\n\t ptrs[4]=sm_;\r\n\t simax=3;\t \r\n\t } \r\n\t } \r\n\t\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>2) index_set=sub_ind-2;\t\r\n bgnd_par(\" АПВ ИСТОЧНИКОВ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\t\r\n\tpointer_set(1);\r\n\tif(APV_ON1==apvON)sub_bgnd(\"ВКЛ.\",'!',0);\r\n\telse sub_bgnd(\"ВЫКЛ.\",'!',-1);\r\n\t\r\n\tif(APV_ON2==apvON)\r\n\t {\r\n\t sub_bgnd(\"ВКЛ.\",'@',0);\r\n\t int2lcd(APV_ON2_TIME,'#',0);\r\n\t }\r\n\telse sub_bgnd(\"ВЫКЛ.\",'@',-1);\t\r\n \r\n \t} \r\n\r\n\r\nelse if(ind==iK)\r\n\t{\r\n\tchar i;\r\n\ti=0;\r\n\t\r\n\tptrs[i++]=\" Сеть \";\r\n\tif(NUMBAT)\r\n ptrs[i++]=\" Батареи \";\r\n\tif(NUMIST)\r\n\tptrs[i++]=\" БПС \";\r\n\tif(NUMINV)\r\n ptrs[i++]=\" Инверторы \";\r\n\tptrs[i++]=\" Нагрузка \";\r\n if(NUMDT)\r\n ptrs[i++]=\" Внешние датчики \";\r\n ptrs[i++]=\" Выход \";\r\n ptrs[i++]=\" \";\r\n ptrs[i++]=\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1],\r\n\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t \r\n\t} \t\r\n\r\nelse if(ind==iK_net)\r\n\t{\r\n\tptrs[0]=\" U = @В \";\r\n ptrs[1]=\" Выход \";\r\n\tptrs[2]=\" \";\r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА СЕТИ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(net_U,'@',0);\r\n\t//int2lcdyx(net_buff_,3,10,0);\r\n\t\r\n\t//int2lcdyx(Kunet,3,16,0);\r\n }\r\n\r\n\r\nelse if(ind==iK_load)\r\n\t{\r\n\tptrs[0]=\" U = @В \";\r\n ptrs[1]=\" Выход \";\r\n\tptrs[2]=\" \";\r\n\t\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\t\t\" КАЛИБРОВКА НАГРУЗКИ\",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(load_U,'@',1);\r\n }\r\n\r\n \r\nelse if(ind==iK_bat_sel)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" Батарея N1 \";\r\n ptrs[1]=\t\t\t\t\t\t\" Батарея N2 \";\r\n if(BAT_IS_ON[0]!=bisON)ptrs[0]=\t\" Батарея N2 \";\r\n\tptrs[0+NUMBAT]=\t\t\t\t\" Выход \";\r\n\tptrs[1+NUMBAT]=\t\t\t\t\" \";\r\n\tptrs[2+NUMBAT]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА БАТАРЕЙ \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t\r\n } \r\n\r\nelse if(ind==iK_bat)\r\n\t{\r\n\tptrs[0]=\t\t\" Uбат = @В \";\r\n\tptrs[1]=\t\t\" откалибруйте Uбат \";\r\n\tptrs[2]=\t\t\" нажатием љ или њ \";\r\n ptrs[3]=\t\t\" Iбат = #А \";\r\n if(phase==0)\r\n {\r\n ptrs[4]=\t\" нажмите ¤ для \";\r\n ptrs[5]=\t\"калибровки нуля Iбат\";\r\n }\r\n else \r\n {\r\n ptrs[4]=\t\" откалибруйте Iбат \";\r\n ptrs[5]=\t\" нажатием љ или њ \";\r\n }\r\n if(bat[sub_ind1]._nd)\r\n \t{\r\n \tptrs[6]=\t\t\" Датчик температуры \";\r\n \tptrs[7]=\t\t\" неисправен \";\r\n \tptrs[8]=\t\t\" или неподключен. \";\r\n \t}\r\n else\r\n \t{\t \r\n \tptrs[6]=\t\t\" tбат = $°C \";\r\n \tptrs[7]=\t\t\" откалибруйте tбат \";\r\n \tptrs[8]=\t\t\" нажатием љ или њ \";\r\n \t}\r\n ptrs[9]=\t\t\" Выход \";\r\n ptrs[10]=\t\t\" \";\r\n ptrs[11]=\t\t\" \";\r\n\r\n\tbgnd_par(\t\t\" КАЛИБРОВКА БАТ. N! \",\r\n\t\t\t\tptrs[index_set],\r\n\t\t\t\tptrs[index_set+1],\r\n\t\t\t\tptrs[index_set+2]);\r\n \r\n if(sub_ind==0)\r\n \t{\r\n \tmess_send(MESS2BPS_HNDL,PARAM_BPS_ALL_OFF_AFTER_2SEC,0xffff,10);\r\n \tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<(1-sub_ind1)),10);\r\n \t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<sub_ind1),10);\r\n \t}\r\n \r\n if(sub_ind==3)\r\n \t{\r\n \tif(phase==0)\r\n \t\t{\r\n \t\tmess_send(MESS2RELE_HNDL,PARAM_RELE_SAMOKALIBR_ENABLE,0,10);\r\n\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n \t\t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<(1-sub_ind1)),10);\r\n \t\t}\r\n \telse if(phase==1)\r\n \t\t{\r\n\t\t\tmess_send(MESS2BPS_HNDL,PARAM_BPS_ALL_OFF_AFTER_2SEC,0xffff,10);\r\n\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_MASK_OFF_AFTER_2SEC,(1<<(1-sub_ind1)),10);\r\n \t\t//mess_send(MESS2BAT_HNDL1,PARAM_BAT_ON,(1<<sub_ind1),10);\r\n \t\t\t}\r\n \t\t\r\n \t}\r\n\r\n if(sub_ind==6)\r\n \t{\r\n \t\t//mess_send(_MESS_BAT_MASK_ON,_MESS_BAT_MASK_ON,(0xffff),10);\r\n \t\t//mess_send(MESS_SRC_ON_OFF,_MESS_SRC_MASK_UNBLOK,0xffff,10);\r\n \t\t\r\n \t}\r\n\t\r\n\tif((sub_ind==0)\|\|(sub_ind==1)\|\|(sub_ind==2))index_set=0;\r\n\telse if((sub_ind==3)\|\|(sub_ind==4)\|\|(sub_ind==5))index_set=3;\r\n\telse if((sub_ind==6)\|\|(sub_ind==7)\|\|(sub_ind==8))index_set=6;\r\n\telse index_set=9;\r\n\t\r\n\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tint2lcd(bat[sub_ind1]._Ub,'@',1);\r\n\tint2lcd_mmm(bat[sub_ind1]._Ib,'#',2);\r\n\tint2lcd_mmm(bat[sub_ind1]._Tb,'$',0);\r\n\t//int2lcd(Ibat,'a',1);\r\n\t\r\n\t / int2lcdyx(ad7705_res1,0,10,0);\r\n int2lcdyx(ad7705_res2,0,16,0); /\r\n\t\t //int2lcdyx(ad7705_buff_[sub_ind1],0,10,0);\r\n //int2lcdyx(Kibat1[sub_ind1],0,16,0); \r\n\t//int2lcdyx(Kubat[0],0,4,0);\r\n\t//int2lcdyx(adc_buff_[4],0,8,0);\r\n\r\n\t//int2lcdyx(rele_stat,2,15,0);\r\n\t\r\n\t\r\n\t/\tint2lcdyx(bat_cnt_to_block[0],3,3,0);\r\n\tint2lcdyx(bat_rel_stat[0],3,7,0); /\r\n\r\n\t//int2lcdyx(Ktbat[sub_ind1],0,16,0);\r\n\t//char2lcdhyx(rele_stat,0,19);\r\n\t} \t\r\n\r\nelse if(ind==iK_bps_sel)\r\n\t{\r\n\tptrs[0]=\t\t\t\t\t\t\" БПС N1 \";\r\n ptrs[1]=\t\t\t\t\t\t\" БПС N2 \";\r\n ptrs[2]=\t\t\t\t\t\t\" БПС N3 \";\r\n\tptrs[3]=\t\t\t\t\t\t\" БПС N4 \";\r\n ptrs[4]=\t\t\t\t\t\t\" БПС N5 \";\r\n ptrs[5]=\t\t\t\t\t\t\" БПС N6 \";\r\n\tptrs[6]=\t\t\t\t\t\t\" БПС N7 \";\r\n ptrs[7]=\t\t\t\t\t\t\" БПС N8 \";\r\n ptrs[8]=\t\t\t\t\t\t\" БПС N9 \";\r\n\tptrs[9]=\t\t\t\t\t\t\" БПС N10 \";\r\n ptrs[10]=\t\t\t\t\t\t\" БПС N11 \";\r\n ptrs[11]=\t\t\t\t\t\t\" БПС N12 \"; \r\n\tptrs[NUMIST]=\t\t\t\t\t\" Выход \";\r\n\tptrs[1+NUMIST]=\t\t\t\t\" \";\r\n\tptrs[2+NUMIST]=\t\t\t\t\" \";\r\n\r\n\tif((sub_ind-index_set)>2)index_set=sub_ind-2;\r\n\telse if(sub_ind<index_set)index_set=sub_ind;\r\n\tbgnd_par(\" КАЛИБРОВКА БПСов \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\tpointer_set(1);\r\n\t\r\n } \r\n\r\nelse if(ind==iK_bps)\r\n\t{\r\n\t\r\n\tptrs[0]=\" Uист = @В \";\r\n ptrs[1]=\" откалибруйте Uист \";\r\n ptrs[2]=\" нажатием љ или њ \"; \r\n\tptrs[3]=\" Uнагр = #В \";\r\n ptrs[4]=\" откалибруйте Uнагр \";\r\n ptrs[5]=\" нажатием љ или њ \";\r\n\tptrs[6]=\" Uавтон = $В \";\r\n\tif(bFL_)\r\n\t\t{\r\n\t\tptrs[7]=\" установите Uавтон \";\r\n \tptrs[8]=\" нажатием љ или њ \";\r\n \t}\r\n else \r\n \t{\r\n\t\tptrs[7]=\" удерживайте ¤ для \";\r\n \tptrs[8]=\" запоминания \"; \t\r\n \t}\t\r\n\tptrs[9]=\" Iист = %А \";\r\n\tif(phase==0)\r\n {\r\n ptrs[10]=\t\" нажмите ¤ для \";\r\n ptrs[11]=\t\"калибровки нуля Iист\";\r\n }\r\n else\r\n \t{\r\n ptrs[10]=\" откалибруйте Iист \";\r\n ptrs[11]=\" нажатием љ или њ \"; \t\r\n \t} \r\n \t\r\n ptrs[12]=\" tист = ^°C \"; \r\n\tptrs[13]=\" откалибруйте tист \";\r\n ptrs[14]=\" нажатием љ или њ \";\r\n ptrs[15]=sm_exit;\r\n ptrs[16]=sm_;\r\n ptrs[17]=sm_; \t \t \r\n\t\r\n\r\n if((sub_ind==0)\|\|(sub_ind==1)\|\|(sub_ind==2))index_set=0;\r\n\telse if((sub_ind==3)\|\|(sub_ind==4)\|\|(sub_ind==5))index_set=3;\r\n\telse if((sub_ind==6)\|\|(sub_ind==7)\|\|(sub_ind==8))index_set=6;\r\n\telse if((sub_ind==9)\|\|(sub_ind==10)\|\|(sub_ind==11))index_set=9;\r\n\telse if((sub_ind==12)\|\|(sub_ind==13)\|\|(sub_ind==14))index_set=12;\t\r\n\telse index_set=15;\r\n\t\r\n\tbgnd_par(\" КАЛИБРОВКА БПС N! \",ptrs[index_set],ptrs[index_set+1],ptrs[index_set+2]);\r\n\r\n\tpointer_set(1);\t\r\n\tint2lcd(sub_ind1+1,'!',0);\r\n\tint2lcd(bps[sub_ind1]._Uii,'@',1);\r\n\tint2lcd(bps[sub_ind1]._Uin,'#',1);\r\n\tint2lcd(U_AVT,'$',1);\r\n\tint2lcd(bps[sub_ind1]._Ii,'%',1);\r\n\tint2lcd(bps[sub_ind1]._Ti,'^',0); \r\n\t \r\n\t\r\n if((sub_ind==0)\|\|(sub_ind==3))\r\n\t\t{\r\n\t\tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,10);\r\n\t \tmess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,1000,10);\r\n }\r\n if(sub_ind==6)\r\n\t\t{\r\n mess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n mess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,40);\r\n mess_send(MESS2UNECC_HNDL,PARAM_UNECC_SET,U_AVT,10);\r\n\t \tmess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_FAST_REG,0,10);\r\n\r\n }\r\n\r\n if(sub_ind==9)\r\n\t\t{\r\n\t\tif(phase==0)\r\n\t\t\t{\r\n \tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,~(1<<sub_ind1),10);\r\n \t}\r\n \telse if(phase==1)\r\n\t\t\t{\r\n \tmess_send(MESS2BPS_HNDL,PARAM_BPS_MASK_ON_OFF_AFTER_2SEC,(1<<sub_ind1),10);\r\n\t\t\tmess_send(MESS2BAT_HNDL,PARAM_BAT_ALL_OFF_AFTER_2SEC,0,10);\r\n \t}\r\n mess_send(MESS2CNTRL_HNDL,PARAM_CNTRL_STAT_SET,1000,10);\r\n }\r\n\t\r\n \tif(sub_ind==12)\r\n\t\t{\r\n }\t\r\n \r\n \r\n\tif(mess_find( (MESS2IND_HNDL)) && (mess_data[0]==PARAM_U_AVT_GOOD) )\r\n\t\t{\r\n\t\tshow_mess(\" Установка \",\r\n\t \t\" напряжения \",\r\n\t \t\" автономной работы \",\r\n\t \t\" произведена \",3000);\r\n\t\t}\t \r\n\t \r\n\t//MSG_IND2PWM_SRC1=900;\r\n\t//MSG_IND2PWM_SRC2=900; \r\n/int2lcdyx(sub_ind1,0,0,0);\r\nint2lcdyx(sub_ind,0,1,0);\r\nint2lcdyx(phase,0,2,0);\r\nint2lcdyx(MSG_IND2OUT_DIS_SRC1,0,3,0);\r\nint2lcdyx(MSG_IND2OUT_DIS_SRC2,0,4,0); \r\nint2lcdyx(MSG_IND2OUT_EN_SRC1,0,5,0);\r\nint2lcdyx(MSG_IND2OUT_EN_SRC2,0,6,0); /\r\n\r\n//int2lcdyx(cntrl_stat1,0,19,0); \r\n//int2lcdyx(load_U,0,5,0); \r\n//int2lcdyx(cntrl_stat,0,10,0); \r\n//int2lcdyx(bps[sub_ind1]._rotor,0,19,0); \r\n//int2lcdyx(u_necc,0,19,0); \r\n\t }\t\t\t\r\nif(ind==iDeb)\r\n {\r\n if(sub_ind==0)\r\n \t{\r\n \tbgnd_par(\" Источники \",\r\n \t \" \",\r\n \t \" \",\r\n \t \" \");\r\n\t\tint2lcdyx(GET_REG(C2GSR,16,8),0,15,0);\r\n\t\tint2lcdyx(GET_REG(C2GSR,24,8),0,19,0);\r\n\t\t\r\n\t\tint2lcdyx(cntrl_stat,0,3,0);\r\n\r\n\t\tint2lcdyx(sub_ind1+1,1,0,0);\r\n\t\tint2lcdyx(sub_ind1+2,2,0,0);\r\n\t\tint2lcdyx(sub_ind1+3,3,0,0);\r\n\t\t\r\n\t\t\r\n\t\tint2lcdyx(bps[sub_ind1 ]._cnt,1,2,0);\r\n\t\tint2lcdyx(bps[sub_ind1+1]._cnt,2,2,0);\r\n\t\tint2lcdyx(bps[sub_ind1+2]._cnt,3,2,0);\t\t\r\n\t\t\r\n\t/\tint2lcdyx(bps[sub_ind1 ]._ist_blok_cnt,1,5,0);\r\n\t\tint2lcdyx(bps[sub_ind1+1]._ist_blok_cnt,2,5,0);\r\n\t\tint2lcdyx(bps[sub_ind1+2]._ist_blok_cnt,3,5,0);/\t\t\t\r\n\t\t\r\n\t\tchar2lcdhyx(bps[sub_ind1 ]._flags_tu,1,8);\r\n\t\tchar2lcdhyx(bps[sub_ind1+1]._flags_tu,2,8);\r\n\t\tchar2lcdhyx(bps[sub_ind1+2]._flags_tu,3,8);\r\n\r\n\t\tint2lcdyx(bps[sub_ind1 ]._vol_u,1,12,0);\r\n\t\tint2lcdyx(bps[sub_ind1+1]._vol_u,2,12,0);\r\n\t\tint2lcdyx(bps[sub_ind1+2]._vol_u,3,12,0);\t\t\r\n\r\n\r\n\t\tchar2lcdhyx(bps[sub_ind1]._flags_tm,1,15);\r\n\t\tchar2lcdhyx(bps[sub_ind1+1]._flags_tm,2,15);\r\n\t\tchar2lcdhyx(bps[sub_ind1+2]._flags_tm,3,15);\t\r\n\r\n\t\tchar2lcdhyx(bps[sub_ind1]._Ii,1,19);\r\n\t\tchar2lcdhyx(bps[sub_ind1+1]._Ii,2,19);\r\n\t\tchar2lcdhyx(bps[sub_ind1+2]._Ii,3,19);\r\n\t/\r\n\t\tchar2lcdhyx(bps[sub_ind1]._rotor>>8,1,15);\r\n\t\tchar2lcdhyx(bps[sub_ind1+1]._rotor>>8,2,15);\r\n\t\tchar2lcdhyx(bps[sub_ind1+2]._rotor>>8,3,15);\t\t\r\n\t\t\r\n\t\tchar2lcdhyx((char)bps[sub_ind1]._rotor,1,17);\r\n\t\tchar2lcdhyx((char)bps[sub_ind1+1]._rotor,2,17);\r\n\t\tchar2lcdhyx((char)bps[sub_ind1+2]._rotor,3,17);/\r\n\r\n\r\n\r\n \t} \r\n\r\n \telse if(sub_ind==1) \r\n \t{\r\n \tbgnd_par(\" КЕ \",\r\n \t \" \",\r\n \t \" \",\r\n \t \" \");\r\n\r\n\t\t\tint2lcdyx(spc_stat,0,5,0);\r\n\t\t\tint2lcdyx(spc_bat,0,7,0);\r\n\t\t\tint2lcdyx(spc_phase,0,9,0);\r\n\r\n\t\t\t//long2lcdyx_mmm(bat[0]._zar_cnt_ke,2,6,0);\r\n\t\t\t//long2lcdyx_mmm(bat[1]._zar_cnt_ke,3,6,0);\r\n\t\t\tlong2lcdyx_mmm(bat[0]._Ub,2,6,0);\r\n\t\t\tlong2lcdyx_mmm(bat[1]._Ub,3,6,0);\r\n\t\t\t//int2lcdyx(abs(bat[0]._Ib),2,12,0);\r\n\t\t\t//int2lcdyx(abs(bat[1]._Ib),3,12,0);\r\n\r\n\t\t\tint2lcdyx(lc640_read_int(ADR_EE_BAT_C_REAL[0]),2,12,0);\r\n\t\t\tint2lcdyx(lc640_read_int(ADR_EE_BAT_C_REAL[1]),3,12,0);\r\n\r\n\t\t\tint2lcdyx(lc640_read_int(ADR_EE_BAT_ZAR_CNT_KE[0]),2,17,0);\r\n\t\t\tint2lcdyx(lc640_read_int(ADR_EE_BAT_ZAR_CNT_KE[1]),3,17,0);\r\n\r\n\t\t ///lc640_write_int(ADR_EE_BAT_C_REAL[spc_bat],lc640_read_int(ADR_EE_BAT_ZAR_CNT_KE[spc_bat]));\r\n\r\n//\tbat[in]._zar_cnt_ke=0;\r\n//\tlc640_write_int(ADR_EE_BAT_ZAR_CNT_KE[in],0);\r\n\r\n \r\n \t\t}\r\n\r\n \r\n\r\n else if(sub_ind==2)\r\n \t{\r\n \tbgnd_par(\"КБ \",\r\n \t\t \" \",\r\n \t\t \" \",\r\n \t\t \" \");\r\n \t\t \r\n \tint2lcdyx(TBAT60,0,6,0);\r\n \t\tint2lcdyx(main_kb_cnt,0,11,0);\r\n \t\r\n\t\t\r\n\t\tint2lcdyx(cntrl_stat,0,19,0);\r\n\t\tint2lcdyx(cntrl_stat_old,0,15,0);\r\n\r\n\t\tint2lcdyx(kb_cnt_1lev,1,2,0);\r\n \tint2lcdyx(kb_cnt_2lev,1,5,0);\r\n\t\tint2lcdyx(kb_full_ver,1,8,0);\r\n\t\tint2lcdyx(IKB,1,19,0);\r\n\r\n\r\n\t\t//int2lcdyx(num_of_wrks_bps,1,19,0);\r\n\r\n\t\tlcd_buffer[45]='a';\r\n\t\tint2lcd_mmm(bat[0]._Ib,'a',0);\r\n\t\tint2lcdyx(kb_start[0],2,9,0);\r\n\t\tint2lcdyx(bat[0]._av,2,15,0);\r\n\t\tlcd_buffer[65]='a';\r\n\t\tint2lcd_mmm(bat[1]._Ib,'a',0);\r\n\t\tint2lcdyx(kb_start[1],3,9,0);\r\n\t\tint2lcdyx(bat[1]._av,3,15,0);\r\n \r\n \t\r\n \r\n \t} \r\n\r\n\telse if(sub_ind==3)\r\n \t{\r\n \tbgnd_par(\"* \",\r\n \t \" \",\r\n \t \" \",\r\n \t \" \");\r\n\t\tint2lcdyx(load_U,0,4,0);\r\n\t\tint2lcdyx(load_I,1,4,0);\r\n\t\tlcd_buffer[44]='a';\r\n\t\tint2lcd_mmm((bat[0]._Ib)/10,'a',1);\r\n\t\tlcd_buffer[64]='a';\r\n\t\tint2lcd_mmm((bat[1]._Ib)/10,'a',1);\r\n\r\n \t\tint2lcdyx(u_necc,0,8,0);\r\n\r\n\t\t\r\n\t\t\r\n\t\tlcd_buffer[14]='.';\r\n\t\tlcd_buffer[34]='.';\r\n\t\tint2lcdyx(Isumm,0,15,1);\t\t\r\n\t\tint2lcdyx(Isumm_,1,15,1);\r\n\r\n\r\n\t\tint2lcdyx(cntrl_stat,0,19,0);\r\n\t\tint2lcdyx(num_necc,1,19,0);\r\n\t\t\r\n\t\t\r\n\t\t \r\n//\t\tint2lcdyx(cntrl_stat,0,15,0);\r\n\t\t \r\n\t\t//int2lcdyx(cntrl_plazma,1,3,0);\r\n\t\t//lcd_buffer[30]='a';\r\n\t\t/int2lcd_mmm(Ibmax,'a',0);\r\n\t\tint2lcdyx(IZMAX,1,14,0);/\r\n\r\n\t/\tlcd_buffer[65]='a';\r\n\t\tint2lcd_mmm(bat[0]._Ib,'a',0);\r\n\r\n\t\tlcd_buffer[70]='a';\r\n\t\tint2lcd_mmm(bat[1]._Ib,'a',0); /\r\n\r\n\t/\tlcd_buffer[75]='a';\r\n\t\tint2lcd_mmm(Ibmax,'a',0); /\r\n\r\n\t//\tint2lcdyx(IMAX,2,3,0);\r\n\t\t\r\n\t\t\r\n\r\n\t//\tint2lcdyx(IZMAX,3,19,0);\r\n\r\n\t\t//int2lcdyx(num_necc_Imax,3,6,0);\r\n\t\t//int2lcdyx(num_necc_Imin,3,12,0);\r\n\r\n\r\n // \tlcd_buffer[4]='a'; \r\n // \tint2lcd_mmm(Ibat,'a',1); int2lcdyx(cntrl_stat,0,9,0); int2lcdyx(hour_apv_cnt,0,13,0); char2lcdhyx(St_[0],0,19); \r\n // \tint2lcdyx(Ubat,1,4,0); int2lcdyx(main_apv_cnt,1,9,0); int2lcdyx(lc640_read_int(bps1_AVAR_PTR),1,13,0); char2lcdhyx(St_[1],1,19);\r\n // \tint2lcdyx(Us[0],2,4,0); int2lcdyx(apv_cnt_1,2,9,0); int2lcdyx(lc640_read_int(SRC1_AVAR_CNT),2,13,0); int2lcdhyx(av_stat,2,19);\r\n // \tint2lcdyx(Us[1],3,4,0); int2lcdyx(reset_apv_cnt,3,9,0); int2lcdyx(plazma,3,19,0);\r\n \t//int2lcd(plazma,'(',0);\r\n\r\n \t//int2lcd(Us[0],'#',1);\r\n \t//int2lcd(Us[1],'$',1);\r\n \t//int2lcd(Is[0],'%',1);\r\n \t//int2lcd(Is[1],'^',1);\r\n // \tint2lcd(bat[0]._Ub,'<',1);\r\n // \tint2lcd_mmm(bat[0]._Ib,'>',2);\r\n // \tchar2lcdhyx(St_[0],3,13);\r\n // \tchar2lcdhyx(St_[1],3,19);\r\n // \tchar2lcdhyx(St,3,5);\r\n\t\t}\r\n\r\n\telse if(sub_ind==4)\r\n \t{\r\n \tbgnd_par(\" АВАРИИ \",\r\n \t \" \",\r\n \t \" \",\r\n \t \" \");\r\n\r\n\t\tint2lcdyx(main_10Hz_cnt,0,7,0);\r\n\t\tint2lcdyx(bat[0]._av,0,10,0);\r\n\t\tint2lcdyx(bat[1]._av,0,12,0);\r\n\t\tchar2lcdhyx(rele_stat,0,19);\r\n\r\n \t\tlong2lcdhyx(avar_stat,1,7);\r\n\t\tlong2lcdhyx(avar_stat_old,2,7);\r\n\t\tlong2lcdhyx(avar_ind_stat,3,7);\r\n\r\n\t\tlong2lcdhyx(avar_stat_new,2,19);\r\n\t\tlong2lcdhyx(avar_stat_offed,3,19);\r\n\r\n\r\n\r\n\t//\tint2lcdyx(bat[0]._Ub,1,15,0);\r\n\t//\tint2lcdyx(bat[1]._rel_stat,2,15,0);\r\n\r\n\r\n/\t\tint2lcdyx(mat_temper,0,7,0);\r\n\t\tint2lcdyx(load_U,0,11,0); \r\n\t\tint2lcdyx(cntrl_stat,0,15,0);\r\n\t\tint2lcdyx(cntrl_stat_old,0,19,0); \r\n\t\tint2lcdyx(cntrl_plazma,1,3,0);\r\n\t\tlcd_buffer[30]='a';\r\n\t\tint2lcd_mmm(Ibmax,'a',0);\r\n\t\tint2lcdyx(IZMAX,1,14,0);/\r\n\r\n\t\t}\r\n else if(sub_ind==5)\r\n \t{\r\n \tbgnd_par(\" \",\r\n \t\t \" \",\r\n \t\t \" \",\r\n \t\t \" \");\r\n \t\t \r\n \tint2lcdyx(ad7705_buff_[0],1,5,0);\r\n \tint2lcdyx(Kibat0[0],1,12,0);\r\n \tint2lcdyx(Kibat1[0],1,17,0);\r\n \r\n \tint2lcdyx(ad7705_buff_[1],2,5,0);\r\n \tint2lcdyx(Kibat0[1],2,12,0);\r\n \tint2lcdyx(Kibat1[1],2,17,0);\r\n\r\n\r\n\t\tlcd_buffer[70]='a';\r\n\t\tint2lcd_mmm(bat[0]._Ib,'a',0);\r\n\r\n\t\t\r\n\t\tlcd_buffer[78]='a';\r\n\t\tint2lcd_mmm(bat[1]._Ib,'a',0);\r\n\r\n\t\tint2lcdyx(samokalibr_cnt,3,4,0);\r\n\r\n \t\t}\r\n else if(sub_ind==6)\r\n \t{\r\n \tbgnd_par(\" \",\r\n \t\t \" \",\r\n \t\t \" \",\r\n \t\t \" \");\r\n \t\t \r\n \t/int2lcdyx(ad7705_buff[0][0],0,4,0);\r\n \tint2lcdyx(ad7705_buff[0][1],0,9,0);\r\n \tint2lcdyx(ad7705_buff[0][2],0,14,0);\r\n \tint2lcdyx(ad7705_buff[0][3],0,19,0);\r\n \tint2lcdyx(ad7705_buff[0][4],1,4,0);\r\n \tint2lcdyx(ad7705_buff[0][5],1,9,0);\r\n \tint2lcdyx(ad7705_buff[0][6],1,14,0);\r\n \tint2lcdyx(ad7705_buff[0][7],1,19,0);\r\n \tint2lcdyx(ad7705_buff[0][8],2,4,0);\r\n \tint2lcdyx(ad7705_buff[0][9],2,9,0);\r\n \tint2lcdyx(ad7705_buff[0][10],2,14,0);\r\n \tint2lcdyx(ad7705_buff[0][11],2,19,0);\r\n \tint2lcdyx(ad7705_buff[0][12],3,4,0);\r\n \tint2lcdyx(ad7705_buff[0][13],3,9,0);\r\n \tint2lcdyx(ad7705_buff[0][14],3,14,0);\r\n \tint2lcdyx(ad7705_buff[0][15],3,19,0);/\r\n\r\n\t\tint2lcdyx(adc_buff_[0],0,4,0);\r\n \t\tint2lcdyx(adc_buff_[1],0,9,0);\r\n \tint2lcdyx(adc_buff_[2],0,14,0);\r\n \tint2lcdyx(adc_buff_[3],0,19,0); \r\n \tint2lcdyx(adc_buff_[4],1,4,0);\t\r\n \tint2lcdyx(adc_buff_[4],1,9,0);\r\n \tint2lcdyx(adc_buff_[6],1,14,0);\r\n \tint2lcdyx(adc_buff_[7],1,19,0); \r\n \tint2lcdyx(adc_buff_[8],2,4,0);\r\n \tint2lcdyx(adc_buff_[9],2,9,0);\r\n \tint2lcdyx(adc_buff_[10],2,14,0);\r\n \tint2lcdyx(adc_buff_[11],2,19,0);\r\n \tint2lcdyx(adc_buff_[12],3,4,0);\r\n \tint2lcdyx(adc_buff_[13],3,9,0);\r\n \tint2lcdyx(adc_buff_[14],3,14,0);\r\n \tint2lcdyx(adc_buff_[15],3,19,0);\r\n \t} \t\t \t\t\r\n\t\t \t\r\n /* else if(sub_ind==3)\r\n \t{\r\n \tbgnd_par(sm_,sm_,sm_,sm_);\r\n \t\t//long2lcdyx(0x1fffffffUL,0,19);\t ad7705_buff[2][16]\r\n \t\t//long2lcdyx(cnt_vz_sec,1,19);\r\n \t\t//long2lcdyx(cnt_vz_sec_,2,19);\r\n \t\tint2lcdyx(adc_buff_[5],0,19,0);\r\n \t\t\r\n \t\tchar2lcdhyx(wrk,0,3);\r\n \t\tint2lcdyx(cnt_wrk,1,3,0);\r\n \t\tint2lcdyx(ibat_integr,2,8,0);\r\n \t\t//long2lcdyx(ibat_integr_,3,8);\r\n \t\t\r\n \t\tint2lcdyx(lc640_read_int(WRK_PTR),0,6,0);\r\n\t\tint2lcdyx(lc640_read_int(WRK_CNT),0,9,0);\r\n\t\tint2lcdyx(but,3,18,0);\r\n \t\t} /\r\n\r\n\r\n \r\n/ else if(sub_ind==2)\r\n \t{\r\n \tbgnd_par(\" \",\r\n \t\t \" \",\r\n \t\t \" \",\r\n \t\t \" \");\r\n \t\t \r\n \tint2lcdyx(adc_buff_[0],0,4,0);\r\n \tint2lcdyx(adc_buff_[1],0,9,0);\r\n \tint2lcdyx(adc_buff_[2],0,14,0);\r\n \tint2lcdyx(adc_buff_[3],0,19,0);\r\n \tint2lcdyx(adc_buff_[4],1,4,0);\r\n \tint2lcdyx(adc_buff_[5],1,9,0);\r\n \tint2lcdyx(adc_buff_[6],1,14,0);\r\n \tint2lcdyx(adc_buff_[7],1,19,0);\r\n \tint2lcdyx(adc_buff_[8],2,4,0);\r\n \tint2lcdyx(adc_buff_[9],2,9,0);\r\n \tint2lcdyx(adc_buff_[10],2,14,0);\r\n \tint2lcdyx(adc_buff_[11],2,19,0);\r\n \tint2lcdyx(adc_buff_[12],3,4,0);\r\n \tint2lcdyx(adc_buff_[13],3,9,0);\r\n \tint2lcdyx(adc_buff_[14],3,14,0);\r\n \tint2lcdyx(adc_buff_[15],3,19,0);\r\n \t} \t /\r\n\r\n\r\n\r\n / else if(sub_ind==2)\r\n \t{\r\n \tbgnd_par(\t\" КАН - отладка \",\r\n \t\t\t\" \"\r\n \t\t\t,sm_,sm_);\r\n\r\n\r\n\tint2lcdyx(cnt_net_drv,1,4,0);\r\n\tint2lcdyx(ptr_can1_tx_wr,1,3,0);\r\n\tint2lcdyx(ptr_can1_tx_rd,1,7,0);\r\n\tint2lcdyx(ptr_can2_tx_wr,1,11,0);\r\n\tint2lcdyx(ptr_can2_tx_rd,1,15,0);\t\r\n\t\r\n\tint2lcdyx(rotor_can[0],2,3,0);\r\n\tint2lcdyx(rotor_can[1],2,7,0);\r\n\tint2lcdyx(rotor_can[2],2,11,0);\r\n\tint2lcdyx(rotor_can[3],3,3,0);\r\n\tint2lcdyx(rotor_can[4],3,7,0);\r\n\tint2lcdyx(rotor_can[5],3,11,0); /\r\n\r\n \t\r\n \t/int2lcd_mmm((signed)(zar_cnt/10),'<',0);\r\n \tint2lcd_mmm((signed)(zar_cnt_ke/10),'>',0);\r\n \tint2lcdyx(lc640_read_int(EE_ZAR_CNT),0,16,0); \r\n \tint2lcdyx(lc640_read_int(EE_ZAR_CNT_KE),1,16,0);/\r\n\t\t \r\n \t/\r\n \tint2lcdyx(ND[0],0,7,0);\r\n \tint2lcdyx(cnt_av_t[0],1,7,0);\r\n \tint2lcdyx(adc_buff_[6],0,15,0);\r\n \t\r\n \tint2lcdyx(t_i[1],2,3,0);\r\n \tint2lcdyx(ND[1],2,7,0);\r\n \tint2lcdyx(cnt_av_t[1],3,7,0);\r\n \tint2lcdyx(adc_buff_[4],1,15,0);/\r\n \t\r\n \t\r\n \t//int2lcdyx(plazma_uart1,0,2,0);\r\n \t/int2lcdyx(rx_wr_index1,1,2,0);\r\n \tint2lcdyx(rx_rd_index1,2,2,0);\r\n \tint2lcdyx(rx_counter1,3,2,0);\r\n// \tchar2lcdbyx(U1LCR,0,19);\r\n // \tchar2lcdbyx(U1IER,1,19);\r\n // \tchar2lcdbyx(U1IIR,2,19);\r\n // \tchar2lcdbyx(U1LSR,3,19);\r\n \tint2lcdyx(adc_buff_out_[0],0,19,0);\r\n \tint2lcdyx(adc_buff_out_[1],1,19,0);\r\n \tint2lcdyx(adc_buff_out_[2],2,19,0);\r\n \tint2lcdyx(in_stat_out[0],0,14,0);\r\n \tint2lcdyx(in_stat_out[1],1,14,0);/\r\n \t//int2lcdyx(can_cnt,1,15,0);\r\n \t//int2lcdyx(can_tx_cnt,2,15,0);\r\n \t//long2lcdyx(C1ICR,0,8);\r\n \t//int2lcdyx(bOUT_FREE,1,2,0);\r\n \t/int2lcdyx(ptr_can1_tx_wr,2,2,0);\r\n \tint2lcdyx(ptr_can1_tx_rd,3,2,0);\r\n \tlong2lcdyx(can1_data[0],0,19);\r\n \tlong2lcdyx(can1_datb[0],0,11);\r\n \tlong2lcdyx(can1_data[1],1,19);\r\n \tlong2lcdyx(can1_datb[1],1,11);\r\n \tlong2lcdyx(can1_data[2],2,19);\r\n \tlong2lcdyx(can1_datb[2],2,11);\r\n \tlong2lcdyx(can1_data[3],3,19);\r\n \tlong2lcdyx(can1_datb[3],3,11);\r\n \tchar2lcdhyx(bd[0],0,3);/\r\n /\t} /\r\n\r\n\r\n \r\n \r\n \r\n \r\n / else if(sub_ind==1)\r\n \t{\r\n \tbgnd_par(\"Un ( Ш1 !Ш2 @\",\r\n \t \"Uб < U1 #U2 $\",\r\n \t \"Iб > I1 %I2 ^\",\r\n \t \"St St1 St2 \");\r\n // \tlcd_buffer[4]='a'; \r\n // \tint2lcd_mmm(Ibat,'a',1); int2lcdyx(cntrl_stat,0,9,0); int2lcdyx(hour_apv_cnt,0,13,0); char2lcdhyx(St_[0],0,19); \r\n // \tint2lcdyx(Ubat,1,4,0); int2lcdyx(main_apv_cnt,1,9,0); int2lcdyx(lc640_read_int(SRC1_AVAR_PTR),1,13,0); char2lcdhyx(St_[1],1,19);\r\n // \tint2lcdyx(Us[0],2,4,0); int2lcdyx(apv_cnt_1,2,9,0); int2lcdyx(lc640_read_int(SRC1_AVAR_CNT),2,13,0); int2lcdhyx(av_stat,2,19);\r\n // \tint2lcdyx(Us[1],3,4,0); int2lcdyx(reset_apv_cnt,3,9,0); int2lcdyx(plazma,3,19,0);\r\n \tint2lcd(u_necc,'(',1);\r\n /\r\n \t/int2lcd(Us[0],'#',1);\r\n \tint2lcd(Us[1],'$',1);\r\n \tint2lcd(Is[0],'%',1);\r\n \tint2lcd(Is[1],'^',1);/\r\n / \tint2lcd(bat_Ub[0],'<',1);\r\n \tint2lcd_mmm(bat_Ib[0],'>',2);/\r\n // \tchar2lcdhyx(St_[0],3,13);\r\n // \tchar2lcdhyx(St_[1],3,19);\r\n // \tchar2lcdhyx(St,3,5);\r\n / \t} /\r\n \t\r\n \t\r\n / else if(sub_ind==5)\r\n \t{\r\n \tbgnd_par(\" \",\r\n \t\t \" \",\r\n \t\t \" \",\r\n \t\t \" \");\r\n \tint2lcdyx(tout_max_cnt[0],0,1,0);\t\r\n \tint2lcdyx(tout_min_cnt[0],1,1,0); \r\n \tint2lcdyx(tout_stat[0],2,1,0); \r\n \t\r\n \tint2lcdyx(TMAX_EXT[0],0,5,0);\t\r\n \tint2lcdyx(tout[0],1,5,0); \r\n \tint2lcdyx(TMIN_EXT[0],2,5,0); / \t\r\n \t\t\r\n/ \t\tchar tout_max_cnt[3],tout_min_cnt[3];\r\nenum {tNORM,tMAX,tMIN}tout_stat[3];\r\nchar in_stat_out_old[4];\r\nenum {skON,skOFF}sk_stat[3];/\r\n \t\t \r\n /\tint2lcdyx(spc_stat,0,1,0);\r\n \tint2lcdyx(lc640_read_int(EE_BAT_C_NOM),1,4,0);\t\r\n \tint2lcdyx(lc640_read_int(EE_BAT_C_REAL),2,4,0);\r\n \tlong2lcdyx(zar_cnt_ke,0,19); \r\n \tlong2lcdyx(zar_cnt,1,19);\r\n \tint2lcdyx(lc640_read_int(EE_ZAR_CNT_KE),0,10,0);\t\r\n \tint2lcdyx(lc640_read_int(EE_ZAR_CNT),1,10,0);\r\n \tint2lcdyx(zar_percent,3,3,0); \r\n \t\tint2lcdyx(lc640_read_int(KE_PTR),3,6,0);\r\n\t\tint2lcdyx(lc640_read_int(KE_CNT),3,9,0);/\r\n / \t} /\r\n/\telse if(sub_ind==6)\r\n \t{\r\n \tptrs[0]=\" ? $ # @ !\";\r\n \tptrs[1]=\" J j\";\r\n \tptrs[2]=\" Y y\";\r\n \tptrs[3]=\" h m Q q Z z\";\r\n \tptrs[4]=\" s S C D\";\r\n \tptrs[5]=\" f F c d\";\r\n \tptrs[6]=\" A a B b\";\r\n \t\r\n \t\r\n \tbgnd_par(ptrs[index_set],\r\n \t ptrs[index_set+1],\r\n \t ptrs[index_set+2],\r\n \t ptrs[index_set+3]);\r\n \t\r\n \tint2lcd_mmm(bat_Ib[0],'?',2); \r\n // \tint2lcd(OFFBP1,'$',0);\r\n // \tchar2lcdh(St_[0],'#');\r\n // \tint2lcd(OFFBP2,'@',0);\r\n // \tchar2lcdh(St_[1],'!');\r\n \t//int2lcd(Us[0],'J',0);\r\n \t//int2lcd(Us[1],'j',0);\r\n \tint2lcd(hour_apv_cnt[0],'h',0);\r\n \tint2lcd(main_apv_cnt,'m',0); \r\n \tint2lcd(lc640_read_int(SRC1_AVAR_PTR),'s',0); \r\n \tint2lcd(lc640_read_int(SRC1_AVAR_CNT),'S',0);\r\n \tint2lcd(lc640_read((lc640_read_int(SRC1_AVAR_PTR)4)+SRC1_AVAR_DAT),'e',0); \t\r\n \tint2lcd(lc640_read_int(SRC2_AVAR_PTR),'f',0); \r\n \tint2lcd(lc640_read_int(SRC2_AVAR_CNT),'F',0); \t\r\n \tint2lcd(apv_cnt[0],'Q',0);\r\n \tint2lcd(apv_cnt_sec[0],'q',0);\r\n\t\tint2lcd(apv_cnt[1],'Z',0);\r\n \tint2lcd(apv_cnt_sec[1],'z',0);\r\n // \tint2lcd(cnt_av_umax[0],'A',0);\r\n // \tint2lcd(cnt_av_umin[0],'a',0); \r\n// \tint2lcd(cnt_av_umax[1],'B',0);\r\n// \tint2lcd(cnt_av_umin[1],'b',0); \r\n \tint2lcd(hour_apv_cnt[0],'C',0); \r\n \tint2lcd(hour_apv_cnt[1],'D',0);\r\n \tint2lcd(reset_apv_cnt[0],'c',0); \r\n \tint2lcd(reset_apv_cnt[1],'d',0); / \t \t \t\r\n // \tlcd_buffer[4]='a'; \r\n // \t int2lcdyx(cntrl_stat,0,9,0); int2lcdyx(hour_apv_cnt,0,13,0); char2lcdhyx(St_[0],0,19); \r\n // \tint2lcdyx(Ubat,1,4,0); int2lcdyx(main_apv_cnt,1,9,0); char2lcdhyx(St_[1],1,19);\r\n // \tint2lcdyx(Us[0],2,4,0); int2lcdyx(apv_cnt_1,2,9,0); int2lcdhyx(av_stat,2,19);\r\n // \tint2lcdyx(Us[1],3,4,0); int2lcdyx(reset_apv_cnt,3,9,0); int2lcdyx(plazma,3,19,0);\r\n /* \tint2lcd(plazma,'(',0);\r\n \tint2lcd(cntrl_stat1,'!',0);\r\n \tint2lcd(cntrl_stat2,'@',0);\r\n \tint2lcd(Us[0],'#',1);\r\n \tint2lcd(Us[1],'$',1);\r\n \tint2lcd(Is[0],'%',1);\r\n \tint2lcd(Is[1],'^',1);\r\n \tint2lcd(Ubat,'<',1);\r\n \tint2lcd_mmm(Ibat,'>',2);\r\n \tchar2lcdhyx(St_[0],3,13);\r\n \tchar2lcdhyx(St_[1],3,19);\r\n \tchar2lcdhyx(St,3,5);/\r\n\t/\t} / \t \t\r\n\t\t\r\n/\telse if(sub_ind==7)\r\n \t{\r\n \tbgnd_par(sm_,sm_,sm_,sm_);\r\n \t//long2lcdyx(C1IER,0,10);\r\n \t\t//long2lcdyx(C1GSR,1,10);\r\n \t\tint2lcdyx(month__,0,6,0);\r\n \t\tint2lcdyx(AVZ,1,6,0);\r\n \t\tint2lcdyx(lc640_read_int(EE_MONTH_AVZ),2,6,0);\r\n \t\tint2lcdyx(year__,0,16,0);\r\n \t\t\r\n \t\tint2lcdyx(lc640_read_int(EE_YEAR_AVZ),2,16,0);\r\n \t\t//long2lcdyx(C1RFS,0,19);\r\n \t\t//long2lcdyx(C1RID,1,19);\r\n \t\t//long2lcdyx(C1RDA,2,19);\r\n \t\t//long2lcdyx(C1RDB,3,19);\r\n \t\t//long2lcdyx(plazma_can_long,3,10);\r\n\t\t} / \t \t\t\t\r\n }\r\n\r\nelse if((ind==iAv_view)\|\|(ind==iAv_view_avt))\r\n\t{\r\n\tunsigned short tempUI,tempUI_;\r\n \tunsigned long tempUL;\r\n\t\r\n\tbgnd_par(sm_,sm_,sm_,sm_);\r\n\tif(sub_ind==0)\r\n\t\t{\t\r\n\t\tif(avar_stat&0x00000001)\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" Авария сети \",\r\n\t\t\t\t \t\" не устранена \",\r\n\t\t\t\t \tsm_,sm_); \r\n\t\t\tint2lcd(net_U,']',0);\r\n\t\t\t}\r\n \t\telse \r\n\t\t\t{\r\n\t \t\tbgnd_par(\t\" Авария сети \",\r\n\t \t\t\t\t\" устранена \",\r\n\t\t\t\t\tsm_,sm_); \r\n\t\t\t}\r\n\t\t}\r\n\telse if((sub_ind==1)\|\|(sub_ind==2))\r\n\t\t{\r\n\t\tif(avar_stat&(1<<sub_ind))\r\n\t\t\t{\r\n\t\t\tbgnd_par(\t\" Авария бат. N! \",\r\n\t\t\t\t \t\" не устранена \",\r\n\t\t\t\t \tsm_,sm_); \r\n\t\t\t}\r\n \t\telse \r\n\t\t\t{\r\n\t \t\tbgnd_par(\t\" Авария бат. N! \",\r\n\t \t\t\t\t\" устранена \",\r\n\t\t\t\t\tsm_,sm_); \r\n\t\t\r\n\t\t }\r\n\t\tint2lcd(sub_ind,'!',0);\r\n\t\t} \r\n \r\n\telse if((sub_ind>=3)&&(sub_ind<=14))\r\n\t\t{\r\n\t\tif((sub_ind-2)<=9)\t\t\t\t\tptrs[0]=\t\" Авария БПС N+ \";\r\n\t\telse \t\t\t\t\t\t\tptrs[0]=\t\" Авария БПС N + \";\r\n\t\tif(bps[sub_ind-3]._last_avar==0)\t\tptrs[1]=\t\" перегрев!!! \";\r\n\t\telse if(bps[sub_ind-3]._last_avar==1)\tptrs[1]=\t\" завышено Uвых!!! \";\t\r\n\t\telse if(bps[sub_ind-3]._last_avar==2)\tptrs[1]=\t\" занижено Uвых!!! \";\t\r\n\t\telse if(bps[sub_ind-3]._last_avar==3)\tptrs[1]=\t\" отключился!!! \";\r\n\t\tif(avar_stat&(1<<sub_ind)) \t\t\tptrs[2]=\t\" не устранена \";\r\n\t\telse\t\t\t\t\t\t\t\tptrs[2]=\t\" устранена \";\t\r\n\t\t\t\t\t\t\t\t\t\tptrs[3]=\t\" \";\r\n\r\n\t\tbgnd_par(ptrs[0],ptrs[1],ptrs[2],ptrs[3]);\r\n\t\tint2lcd((sub_ind-2),'+',0);\r\n \r\n\t\t//int2lcdxy(sub_ind,0x20,0);\r\n\r\n\t\t} \r\n\t\t\r\n\telse if(sub_ind==4)\r\n\t\t{ \r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==5)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==7)\r\n\t\t{\r\n\r\n\t\t} \r\n\t\t\r\n\telse if(sub_ind==8)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==10)\r\n\t\t{\r\n\r\n\t\t}\r\n\t \t\t \r\n\telse if(sub_ind==11)\r\n\t\t{\r\n\r\n\t\t} \r\n\t\t\r\n\telse if(sub_ind==12)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==13)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==14)\r\n\t\t{\r\n\r\n\t\t}\r\n\r\n\telse if(sub_ind==15)\r\n\t\t{\r\n\r\n\t\t} \r\n\t\t\t\t\t\r\n\t} \r\n\t\r\nelse if(ind==iAvz)\r\n\t{\r\n\t\r\n \tif(AVZ==AVZ_1) \t\tptrs[0]=\t\" раз в месяц \";\r\n\telse if(AVZ==AVZ_2) \tptrs[0]=\t\" раз в 2 месяца \";\r\n\telse if(AVZ==AVZ_3) \tptrs[0]=\t\" раз в 3 месяца \"; \r\n\telse if(AVZ==AVZ_6) \tptrs[0]=\t\" раз в полгода \";\r\n\telse if(AVZ==AVZ_12) \tptrs[0]=\t\" раз в год \";\r\n\telse \t\t\t\tptrs[0]=\t\" выключен \"; \r\n\t\r\n\tptrs[1]=\t\t\t\t\t\t\" Длительность (ч.\";\r\n\tif(AVZ!=AVZ_OFF)\r\n\t\t{\r\n\t\tptrs[2]=\t\t\t\t\t\" очередное включение\";\r\n\t\tptrs[3]=\t\t\t\t\t\" 0% &0^ 0@:0#:0$ \";\r\n\t\tptrs[4]=\t\t\t\t\tsm_exit;\r\n\t\t}\r\n\telse ptrs[2]=\t\t\t\t\t\tsm_exit;\r\n\r\n\tif(sub_ind<index_set) index_set=sub_ind;\r\n\telse if((sub_ind-index_set)>1) index_set=sub_ind-1;\r\n\tif((sub_ind==2)&&(AVZ!=AVZ_OFF)) index_set=2;\r\n\t\r\n\tbgnd_par(\t\" АВТОМАТИЧЕСКИЙ \",\r\n\t\t\t\"ВЫРАВНИВАЮЩИЙ ЗАРЯД \",\r\n\t\t\tptrs[index_set],\r\n\t\t\tptrs[index_set+1]);\r\n\r\n\tpointer_set(2);\r\n\t\t\r\n\tint2lcd(HOUR_AVZ,'@',0);\r\n\tint2lcd(MIN_AVZ,'#',0);\r\n\tint2lcd(SEC_AVZ,'$',0);\r\n\tint2lcd(DATE_AVZ,'%',0);\r\n\tint2lcd(YEAR_AVZ,'^',0);\r\n\r\n\tsub_bgnd(sm_mont[MONTH_AVZ],'&',-2);\r\n\r\n\tint2lcd(AVZ_TIME,'(',0);\r\n\t\r\n\t}\r\n\t \t\r\n\t \r\n\r\n/\r\nconst char sm7[]\t={\" Источник N2 \"}; //\r\nconst char sm8[]\t={\" Нагрузка \"}; //\r\nconst char sm9[]\t={\" Сеть \"}; //\r\nconst char sm10[]\t={\" Спецфункции \"}; // \r\nconst char sm11[]\t={\" Журнал аварий \"}; //\r\nconst char sm12[]\t=\" Батарейный журнал \"}; //\r\nconst cha\t\t=\" Паспорт \"}; //\r\n/\r\n\r\n\r\n//char2lcdhyx(bat_rel_stat[0],0,10);\r\n//char2lcdhyx(bat_rel_stat[1],0,15);\r\n//int2lcdyx(u_necc,0,19,0);\r\n//int2lcdyx(cntrl_stat,0,5,0); \t mess_cnt[i]\r\n\r\n//char2lcdhyx(bat_rel_stat[0],0,5);\r\n//char2lcdhyx(bat_rel_stat[1],0,10);\r\n//int2lcdyx(mess_cnt[1],0,2,0);\r\n//int2lcdyx(GET_REG(IOPIN1,21,1),0,5,0); \r\n//int2lcdyx(samokalibr_cnt,0,10,0);\r\n//char2lcdhyx(rele_stat,0,19);\r\n//char2lcdhyx(mess_cnt[1],0,16); \r\n\r\n//int2lcdyx(ad7705_res1,0,8,0);\r\n//int2lcdyx(ad7705_res2,0,16,0); \r\n//\tint2lcdyx(bat[0]._cnt_to_block,0,1,0);\r\n//\tint2lcdyx(bat[1]._cnt_to_block,0,3,0);\r\n//\tint2lcdyx(bat[0]._rel_stat,0,5,0);\r\n/\tint2lcdyx(ind,0,3,0); \r\n\tint2lcdyx(sub_ind,0,6,0);\r\n\tint2lcdyx(index_set,0,9,0);\r\n\tint2lcdyx(ptr_ind,0,14,0);\r\n\tint2lcdyx(ind_pointer,0,19,0);/ \r\n}\r\n\r\n\r\n#define BUT0\t16\r\n#define BUT1\t17\r\n#define BUT2\t18\r\n#define BUT3\t19\r\n#define BUT4\t20 \r\n#define BUT_MASK (1UL<<BUT0)\|(1UL<<BUT1)\|(1UL<<BUT2)\|(1UL<<BUT3)\|(1UL<<BUT4)\r\n\r\n#define BUT_ON 4\r\n#define BUT_ONL 20 \r\n\r\n#define butU 254\r\n#define butU_ 126\r\n#define butD 253\r\n#define butD_ 125\r\n#define butL 251\r\n#define butL_ 123\r\n#define butR 247\r\n#define butR_ 119\r\n#define butE 239\r\n#define butE_ 111\r\n#define butUD 252\r\n#define butLR 243\r\n\r\n//-----------------------------------------------\r\nvoid but_drv(void)\r\n{\r\n\r\nbut_n=IO1PIN\|(0xFFFFFFFFUL&(~(1UL<<BUT0))&(~(1UL<<BUT1))&(~(1UL<<BUT2))&(~(1UL<<BUT3))&(~(1UL<<BUT4)));\r\nif((but_n==0xffffffffUL)\|\|(but_n!=but_s))\r\n \t{\r\n \tspeed=0;\r\n \r\n \tif (((but0_cnt>=BUT_ON)\|\|(but1_cnt!=0))&&(!l_but))\r\n \t\t{\r\n \t n_but=1;\r\n but=(((char)&but_s)+2);\r\n\r\n }\r\n \tif (but1_cnt>=but_onL_temp)\r\n \t\t{\r\n \t n_but=1;\r\n \r\n but=(((char)&but_s)+2)&0x7f;\r\n }\r\n \tl_but=0;\r\n \tbut_onL_temp=BUT_ONL;\r\n \tbut0_cnt=0;\r\n \tbut1_cnt=0; \r\n goto but_drv_out;\r\n \t}\r\nif(but_n==but_s)\r\n \t{\r\n \tbut0_cnt++;\r\n \tif(but0_cnt>=BUT_ON)\r\n \t\t{\r\n \t\tbut0_cnt=0;\r\n \t\tbut1_cnt++;\r\n \t\tif(but1_cnt>=but_onL_temp)\r\n \t\t\t{ \r\n \t\t\tbut=(((char)&but_s)+2)&0x7f;;\r\n \t\t\tbut1_cnt=0;\r\n \t\t\tn_but=1;\r\n \t\t\t \r\n \t\t\tl_but=1;\r\n\t\t\tif(speed)\r\n\t\t\t\t{\r\n \t\t\t\tbut_onL_temp=but_onL_temp>>1;\r\n \t\t\tif(but_onL_temp<=2) but_onL_temp=2;\r\n\t\t\t\t} \r\n \t\t\t}\r\n \t\t}\r\n \t}\r\nbut_drv_out: \r\nbut_s=but_n;\r\n\r\n\r\n\r\nPINSEL2&=~(1UL<<((BUT0-16)2))&~(1UL<<(((BUT0-16)2)+1))\r\n\t &~(1UL<<((BUT1-16)2))&~(1UL<<(((BUT1-16)2)+1))\r\n\t &~(1UL<<((BUT2-16)2))&~(1UL<<(((BUT2-16)2)+1))\r\n\t &~(1UL<<((BUT3-16)2))&~(1UL<<(((BUT3-16)2)+1))\r\n\t &~(1UL<<((BUT4-16)2))&~(1UL<<(((BUT4-16)2)+1));\r\nIO1DIR&=~(1UL<<BUT0)&~(1UL<<BUT1)&~(1UL<<BUT2)&~(1UL<<BUT3)&~(1UL<<BUT4);\r\n\t \r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid but_an(void)\r\n{\r\nsigned short temp_SS;\r\nsigned short deep,i,cap,ptr;\r\nchar av_head[4];\r\nif(!n_but)goto but_an_end;\r\n\r\nav_beep=0x0000;\r\nav_rele=0x0000;\r\n\r\n\r\nif(but==butUD)\r\n {\r\n if(ind!=iDeb)\r\n {\r\n\t\ttree_up(iDeb,0,0,0);\r\n }\r\n else \r\n {\r\n\t\ttree_down(0,0);\r\n } \r\n }\r\n\r\nelse if(ind==iDeb)\r\n\t{\r\n\tif(but==butR)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tindex_set=0;\r\n\t\tgran_ring_char(&sub_ind,0,7);\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tindex_set=0;\r\n\t\tgran_ring_char(&sub_ind,0,7);\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif(but==butU)\r\n\t \t{\r\n\t \tsub_ind1--;\r\n\t \tgran_char(&sub_ind1,0,NUMIST);\r\n\t \t}\r\n\t\tif(but==butD)\r\n\t \t{\r\n\t \tsub_ind1++;\r\n\t \tgran_char(&sub_ind1,0,NUMIST);\r\n\t \t}\r\n\t \r\n\t\tif(but==butE)\r\n\t \t{\r\n\t \tSET_REG(C2GSR,3,24,8);\r\n\t\t\tC2MOD=0;\r\n\t\t\t bOUT_FREE2=1;\r\n\t \t}\r\n\t\t\t\r\n\t\t}\t\r\n else if(but==butU)\r\n\t {\r\n\t index_set--;\r\n\t gran_char(&index_set,0,4);\r\n\t //lc640_write_int(ptr_ki_src[0],lc640_read_int(ptr_ki_src[0])+10);\r\n\t }\t\r\n else if(but==butD)\r\n\t {\r\n\t index_set++;\r\n\t gran_char(&index_set,0,4); \r\n\t //lc640_write_int(ptr_ki_src[0],lc640_read_int(ptr_ki_src[0])-10);\r\n\t }\t\r\n else if(but==butE)\r\n \t{\r\n //a=b[--ptr_ind];\r\n can2_out(1,2,3,4,5,6,7,8);\r\n } \r\n \r\n else if(but==butE_)\r\n \t{\r\n //a=b[--ptr_ind];\r\n can1_out_adr(TXBUFF,3);\r\n } \t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iMn)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,8+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0));\r\n\t\t}\r\n\t\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,8+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0));\r\n\t\t}\t\r\n\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\t//ind=iMn;\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(avar_ind_stat)\r\n\t\t\t\t{\r\n\t\t\t\t//ind=iAv_view;\r\n\t\t\t\t//sub_ind=0;\r\n\t\t\t\ttree_up(iAv_view,0,0,0);\r\n\t\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind++;\r\n\t\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\r\n\t\t\t}\r\n\t\telse if((sub_ind>0)&&(sub_ind<=NUMBAT))\r\n\t\t \t{\r\n\t\t \tif(BAT_IS_ON[0]!=bisON)tree_up(iBat,0,0,1);\r\n\t\t \telse tree_up(iBat,0,0,sub_ind-1);\r\n\t\t \t}\r\n\t\telse if((sub_ind>NUMBAT)&&(sub_ind<=(NUMBAT+NUMIST)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT));\r\n\t\t \t}\r\n\t\telse if((sub_ind>(NUMBAT+NUMIST))&&(sub_ind<=(NUMBAT+NUMIST+NUMINV)))\r\n\t\t \t{\r\n\t\t \ttree_up(iBps,0,0,sub_ind-(1+NUMBAT+NUMIST));\r\n\t\t \t}\r\n\t\telse if(sub_ind==(1+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iNet,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(2+NUMBAT+NUMIST+NUMINV))\r\n\t\t\t{\r\n\t\t\ttree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if((sub_ind==(3+NUMBAT+NUMIST+NUMINV))&&(NUMEXT))\r\n\t\t\t{\r\n\t\t\ttree_up(iExtern,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(3+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iSpc,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==(4+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iSet_prl,0,0,0);\r\n\t\t ret(50);\r\n\t\t parol_init();\r\n\t\t\t}\r\n\t\telse if(sub_ind==(5+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(6+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\telse if(sub_ind==(7+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\telse if(sub_ind==(8+NUMBAT+NUMIST+NUMINV+(NUMEXT!=0)))\r\n\t\t\t{\r\n\t\t\ttree_up(iBatLog,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\t}\r\n \t\r\n\telse if(sub_ind==100)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iBat,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n else if(sub_ind==20)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iBps,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\r\n else if(sub_ind==30)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iBps,0,0,1);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\t\t\r\n\r\n else if(sub_ind==40)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iLoad,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\t\t\r\n\r\n else if(sub_ind==50)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iNet,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\t\r\n\r\n else if(sub_ind==60)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\r\n\t\t tree_up(iSpc,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\t\r\n\r\n else if(sub_ind==70)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iJAv_sel,0,0,0);\r\n\t\t ret(1000);\r\n\t\t }\r\n\t\t}\t\r\n\r\n\r\n\r\n \telse if(sub_ind==90)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\ttree_up(iAusw,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\t}\t\r\n\r\n \r\n else if(sub_ind==110)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t//\t\tSt_[0]&=0xe3;\r\n\t//\t\tSt_[1]&=0xe3;\r\n\t\t\t}\r\n\t\t}\t\t\r\n else if(sub_ind==7+NUMBAT+NUMIST+NUMINV)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\tsub_ind=0;\r\n\t\t\t}\r\n\t\t}\t\r\n\t\t\r\n\telse if(sub_ind==8+NUMBAT+NUMIST+NUMINV)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\ttree_up(iJ_bat,0,0,0);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\t}\t\t\r\n else if(sub_ind==9+NUMBAT+NUMIST+NUMINV)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t\ttree_up(iJ_bat,0,0,1);\r\n\t\t ret(1000);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iBat)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if((but==butL)\|\|((sub_ind==4)&&(but==butE)))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=4;\r\n\t\t}\t\t \r\n }\r\n\r\nelse if(ind==iBps)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==3)sub_ind=1;\r\n\t\telse if(sub_ind==1)sub_ind=0;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind<3)sub_ind=3;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\t\t\r\n\telse if((but==butE)&&(sub_ind==4))\r\n\t\t{\r\n\t\tcan2_out(sub_ind1,sub_ind1,CMND,ALRM_RES,0,0,0,0);\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(((but==butE)&&(sub_ind==5))\|\|(but))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t\t\r\n\t}\t\t\r\nelse if(ind==iNet)\r\n\t{\r\n\tret(1000);\r\n\tif((but==butL)\|\|(but==butE))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\t}\r\nelse if(ind==iLoad)\r\n\t{\r\n\tret(1000);\r\n\tif((but==butL)\|\|(but==butE))\r\n\t {\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t }\r\n\t}\t\r\n\r\nelse if(ind==iExtern)\r\n\t{\r\n\tret(1000);\r\n\tif (but==butU)\r\n\t\t{ \r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMEXT);\r\n\t\t}\r\n\t\t\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMEXT);\t\t\r\n\t\t}\r\n\t\t\r\n\telse if((but==butE)&&(sub_ind==NUMEXT))\r\n\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n\t\t}\t\r\n\t}\t\r\n\r\n\r\nelse if((ind==iPrl_bat_in_out)\|\|(ind==iSet_prl)\|\|(ind==iK_prl)\r\n\t\|\|(ind==iSpc_prl_vz)\|\|(ind==iSpc_prl_ke)\|\|(ind==iAusw_prl)\r\n\t\|\|(ind==iPrltst))\r\n\t{\r\n\tret(50);\r\n\tif(but==butR)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_ring_char(&sub_ind,0,2);\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_ring_char(&sub_ind,0,2);\r\n\t\t}\t\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tparol[sub_ind]++;\r\n\t\tgran_ring_char(&parol[sub_ind],0,9);\r\n\t\t}\t\r\n\telse if(but==butD)\r\n\t\t{\r\n\t\tparol[sub_ind]--;\r\n\t\tgran_ring_char(&parol[sub_ind],0,9);\r\n\t\t}\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tunsigned short tempU;\r\n\t\ttempU=parol[2]+(parol[1]10U)+(parol[0]100U);\r\n\t\t\r\n\t\tif(ind==iPrl_bat_in_out)\r\n\t\t {\r\n\t\t if(BAT_IS_ON[sub_ind1]!=bisON)\r\n\t\t {\r\n\t\t if(tempU==PAROL_BAT_IN)\r\n\t\t {\r\n\t\t lc640_write_int(ADR_EE_BAT_IS_ON[sub_ind1],bisON);\r\n\t\t lc640_write_int(ADR_EE_BAT_DAY_OF_ON[sub_ind1],day__);\r\n\t\t lc640_write_int(ADR_EE_BAT_MONTH_OF_ON[sub_ind1],month__);\r\n\t\t lc640_write_int(ADR_EE_BAT_YEAR_OF_ON[sub_ind1],year__);\r\n\t\t lc640_write_int(ADR_EE_BAT_C_REAL[sub_ind1],0x5555);\r\n\t\t lc640_write_int(ADR_EE_BAT_RESURS[sub_ind1],0);\r\n\t\t\t\t\tlc640_write_int(ADR_EE_BAT_ZAR_CNT[sub_ind1],0);\r\n\t\t \r\n\t\t lc640_write(KE_PTR,0);\r\n\t\t\t\t\tlc640_write(VZ_PTR,0);\r\n\t\t\t\t\tlc640_write(WRK_PTR,0);\r\n\t\t\t\t\tlc640_write(KE_CNT,0);\r\n\t\t\t\t\tlc640_write(VZ_CNT,0);\r\n\t\t\t\t\tlc640_write(WRK_CNT,0);\r\n\t\t\t\t\tlc640_write(BAT_AVAR_CNT,0);\r\n\t\t\t\t\tlc640_write(BAT_AVAR_PTR,0);\t\t\t\t\t\r\n\t\t \r\n tree_down(0,0);\r\n ret(0);\r\n\t\t }\r\n\t\t else\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\t\" Пароль \",\r\n\t \t\t\t\t\" неверный!!! \",\r\n\t \t\t\t\t\" \",1000);\r\n \t }\r\n\t\t } \r\n else\t\t \r\n\t\t {\r\n\t\t if(tempU==PAROL_BAT_OUT)\r\n\t\t {\r\n\t\t lc640_write_int(ADR_EE_BAT_IS_ON[sub_ind1],bisOFF);\r\n\t\t lc640_write_int(ADR_EE_BAT_DAY_OF_ON[sub_ind1],day__);\r\n\t\t lc640_write_int(ADR_EE_BAT_MONTH_OF_ON[sub_ind1],month__);\r\n\t\t lc640_write_int(ADR_EE_BAT_YEAR_OF_ON[sub_ind1],year__);\r\n\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t \r\n\t\t }\r\n\t else\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\t\" Пароль \",\r\n\t \t\t\t\t\" неверный!!! \",\r\n\t \t\t\t\t\" \",1000);\r\n\t\t }\t\t \r\n\t\t } \r\n }\r\n\t\t\r\n\t\telse if(ind==iSet_prl)\r\n\t\t\t{\r\n\t \tif(tempU==PAROL_SET) \r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\ttree_up(iSet,0,0,0);\r\n\t\t\t\tret(1000);\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse\tif(ind==iK_prl)\r\n\t\t\t{\r\n\t \tif(tempU==PAROL_KALIBR) \r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\ttree_up(iK,0,0,0);\r\n\t\t\t\tshow_mess(\t\"Включите авт-ты СЕТЬ\",\r\n \t\t\t\t\t\t\t\" БАТАРЕЯ,НАГРУЗКА \",\r\n \t\t\t\t\t\t\t\" Установите ток \",\r\n \t\t\t\t\t\t\t\" нагрузки 4-10А \",3000);\r\n\t\t\t\t\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t} \r\n\t\r\n\t\telse\tif(ind==iAusw_prl)\r\n\t\t\t{\r\n\t \tif(tempU==PAROL_AUSW) \r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\ttree_up(iAusw_set,1,0,0);\r\n\t\t\t\tdefault_temp=10;\r\n\t\t\t\tret(0);\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t} \t\r\n\t\t\t\r\n\t\telse\tif(ind==iSet_st_prl)\r\n\t\t\t{\r\n\t \tif(tempU==PAROL_DEFAULT) \r\n\t\t\t\t{\r\n\t//\t\t\tind=iDefault;\r\n\t\t\t\tsub_ind=1;\r\n\t\t\t\tindex_set=0;\r\n\t\t\t\tdefault_temp=10;\r\n\t\t\t\t}\r\n\t\t\telse \r\n\t\t\t\t{\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t} \r\n\t\t\t\t\t\t\r\n\t\telse if(ind==iPrltst)\r\n\t\t\t{\r\n\t\t\tif(tempU==PAROL_TST) \r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\ttree_up(iTst,1,0,0);\r\n\t\t\t\ttst_state[0]=tstOFF;\r\n\t\t\t\ttst_state[1]=tstOFF;\r\n\t\t\t\ttst_state[2]=tstOFF;\r\n\t\t\t\ttst_state[3]=tstOFF;\r\n\t\t\t\ttst_state[4]=tstOFF;\r\n\t\t\t\ttst_state[5]=tstOFF;\r\n\t\t\t\t}\r\n\t \t\telse \r\n\t\t\t\t{\r\n\t\t tree_down(0,0);\r\n\t \t /show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);/\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(ind==iSpc_prl_ke)\r\n\t\t\t{\r\n\t\t\tif(tempU==PAROL_KE) \r\n\t\t\t\t{\r\n\t\t\t\tchar temp;\r\n\t\t\t\ttemp=sub_ind1;\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\ttree_up(iKe,0,0,temp);\r\n\t\t\t\tret(1000);\r\n\t\t\t\t}\r\n\t \t\telse \r\n\t\t\t\t{\t\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\telse if(ind==iSpc_prl_vz)\r\n\t\t\t{\r\n\t\t\tif(tempU==PAROL_VZ) \r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\ttree_up(iVz,0,0,0);\r\n\t\t\t\tret(1000);\r\n\t\t\t\t}\r\n\t \t\telse \r\n\t\t\t\t{\r\n\t\t tree_down(0,0);\r\n\t \t show_mess(\" \",\r\n\t \t\t\t\" Пароль \",\r\n\t \t\t\t\" неверный!!! \",\r\n\t \t\t\t\" \",1000);\r\n\t\t\t\t} \t \r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n\r\nelse if(ind==iSpc)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\tret_ind_sec(iMn,60);\r\n\tif (but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,4);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{ \r\n tree_up(iSpc_prl_vz,0,0,0);\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n tree_up(iAvz,0,0,0);\r\n parol_init();\r\n\t\t\t}\t\t\t\r\n\t\telse if((sub_ind==2)\|\|(sub_ind==3))\r\n\t\t\t{\r\n tree_up(iSpc_prl_ke,0,0,sub_ind-2);\r\n \tparol_init();\r\n\t\t\t} \r\n\t/\telse if(sub_ind==4)\r\n\t\t\t{\r\n\t\t\ttree_up(iAKE,0,0,0);\r\n\t\t\t}\t\r\n\t\telse if(sub_ind==5)\r\n\t\t\t{\r\n\t\t\ttree_up(iAKE,0,0,1);\r\n\t\t\t}/\t\t\t\t\t\t\r\n\t\telse if(sub_ind==4)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\t\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iVz)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\tret_ind_sec(0,0);\r\n\tif (but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,2);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,2);\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif(spc_stat!=spcVZ)\r\n\t\t\t{\r\n\t\t\tif(but==butR)\r\n\t\t\t\t{\r\n\t\t\t\tVZ_HR++;\r\n\t\t\t\t}\r\n\t\t\telse if(but==butL)\r\n\t\t\t\t{\r\n\t\t\t\tVZ_HR--;\r\n\t\t\t\t}\r\n\t\t\tgran(&VZ_HR,1,10);\r\n\t\t\tlc640_write_int(EE_VZ_HR,VZ_HR);\r\n\t\t\t}\t\t\t\r\n }\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n if(spc_stat!=spcVZ)\r\n \t{\r\n \tchar temp;\r\n \ttemp=vz_start(VZ_HR);\r\n \tif(temp==22) \r\n \t\t{\r\n \t\tsub_ind=22;\r\n \t\tret_ind(iVz,1,5);\r\n \t\t} \r\n\t\t\telse if(temp==33) \r\n \t\t{\r\n \t\tsub_ind=33;\r\n \t\tret_ind(iVz,1,5);\r\n \t\t} \t\t\r\n \t} \r\n \telse if(spc_stat==spcVZ)\r\n \t{\r\n \tvz_stop();\r\n \t} \t \r\n\t\t}\t\t\t\r\n\telse if(sub_ind==2)\r\n\t\t{ \r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n } \r\n\t}\r\n\r\nelse if(ind==iKe)\r\n\t{\r\n\tret_ind(0,0,0);\r\n\tret_ind_sec(0,0);\r\n\tif (but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tif((spc_stat==spcKE)&&(spc_bat==sub_ind1))\r\n\t\t\t\t{\r\n\t\t\t\tspc_stat=spcOFF;\r\n\t\t\t\t}\r\n\t\t\telse\r\n\t\t\t\t{\r\n\r\n\t\t\t\tke_start(sub_ind1);\r\n\t\t\t\tif(ke_start_stat==kssNOT)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshow_mess(\"Включение контроля \",\r\n\t \t\t\t\t\" емкости батареи \",\r\n\t \t\t\t\t\" невозможно. \",\r\n\t \t\t\t\t\" Причина неизвестна \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(ke_start_stat==kssNOT_VZ)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshow_mess(\"Включение контроля \",\r\n\t \t\t\t\t\" емкости батареи \",\r\n\t \t\t\t\t\" невозможно. Идет \",\r\n\t \t\t\t\t\"выравнивающий заряд \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\telse if(ke_start_stat==kssYES)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tif(sub_ind==0)\r\n\t\t\t\t\tshow_mess(\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t \t\t\t\t\" БАТАРЕИ N1 \",\r\n\t \t\t\t\t\" ВКЛЮЧЕН!!! \",\r\n\t \t\t\t\t\" \",\r\n\t\t\t\t\t\t\t3000);\r\n\t\t\t\t\telse \r\n\t\t\t\t\tshow_mess(\" КОНТРОЛЬ ЕМКОСТИ \",\r\n\t \t\t\t\t\" БАТАРЕИ N2 \",\r\n\t \t\t\t\t\" ВКЛЮЧЕН!!! \",\r\n\t \t\t\t\t\" \",\r\n\t\t\t\t\t\t\t3000);\r\n\r\n\t\t\t\t\t}\r\n\r\n\r\n\t\t\t\t/\r\n\t\t\t\tif(ke_start(sub_ind1)==1)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind=11;\r\n\t\t\t\t\tret_ind(iKe,0,10);\r\n\t\t\t\t\t}\r\n\t\t\t\telse if(ke_start(sub_ind1)==2)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind=12;\r\n\t\t\t\t\tret_ind(iKe,0,10);\r\n\t\t\t\t\t}\t\t\t\r\n\t\t\t\telse if(ke_start(sub_ind1)==3)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind=13;\r\n\t\t\t\t\tret_ind(iKe,0,10);\r\n\t\t\t\t\t} \r\n\t\t\t\telse if(ke_start(sub_ind1)==4)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind=14;\r\n\t\t\t\t\tret_ind(iKe,0,10);\r\n\t\t\t\t\t} \t\t\t\r\n\t\t\t\telse if(ke_start(sub_ind1)==5)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind=15;\r\n\t\t\t\t\tret_ind(iKe,0,10);\r\n\t\t\t\t\t}\t\t\t\r\n\t\t\t\telse if(ke_start(sub_ind1)==6)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind=16;\r\n\t\t\t\t\tret_ind(iKe,0,10);\r\n\t\t\t\t\t} \r\n\t\t\t\telse if(ke_start(sub_ind1)==7)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind=17;\r\n\t\t\t\t\tret_ind(iKe,0,10);\r\n\t\t\t\t\t} \r\n\t\t\t\telse if(ke_start(sub_ind1)==8)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind=18;\r\n\t\t\t\t\tret_ind(iKe,0,10);\r\n\t\t\t\t\t} \t\t\t\r\n\t\t\t\telse if(ke_start(sub_ind1)==9)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind=19;\r\n\t\t\t\t\tret_ind(iKe,0,10);\r\n\t\t\t\t\t}\t\t\t\r\n\t\t\t\telse if(ke_start(sub_ind1)==10)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind=20;\r\n\t\t\t\t\tret_ind(iKe,0,10);\r\n\t\t\t\t\t} \r\n\t\t\t\telse if(ke_start(sub_ind1)==11)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind=21;\r\n\t\t\t\t\tret_ind(iKe,0,10);\r\n\t\t\t\t\t} \r\n\t\t\t\telse if(ke_start(sub_ind1)==12)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tsub_ind=22;\r\n\t\t\t\t\tret_ind(iKe,0,10);\r\n\t\t\t\t\t} / \t\t\t\t\t \t\t\t\t\t\t\t\t \t\t\t\t\t\t\t\t\t\t\r\n\t\t\t\t}\r\n\t\t\t}\t\t\t\t\t\t\r\n }\r\n\t\r\n\telse if(sub_ind==1)\r\n\t\t{ \r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n } \r\n else sub_ind=0; \r\n\t}\r\n\r\n\r\nelse if(ind==iLog)\r\n\t{\r\n\tret_ind_sec(0,0);\r\n\tret_ind(0,0,0);\r\n\tif (but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max+1);\r\n\t\t}\r\n\telse if (but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max+1);\r\n \r\n\t\t} \r\n\r\n\telse if (but==butD_)\r\n\t\t{\r\n\t\tsub_ind=av_j_si_max;\r\n\t\t} \r\n\t\t \r\n\telse if (but==butL)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t} \r\n\t\t\r\n\telse if(but==butE)\r\n\t\t{ \r\n\t\tif(sub_ind==av_j_si_max+1)\r\n\t\t\t{\r\n\t\t\tlc640_write(CNT_EVENT_LOG,0);\r\n\t\t\tlc640_write(PTR_EVENT_LOG,0);\r\n\t\t\ttree_down(0,0);\r\n\t\t\tavar_ind_stat=0;\r\n\t\t\tavar_stat=0;\r\n\t\t\tavar_stat_old=0;\t\t\t\t\r\n\t\t\t}\r\n\t\t\t\t\t\r\n\t\telse if(sub_ind==av_j_si_max)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t\t\r\n\t\telse \r\n\t\t\t{\r\n\t\t\t/ind=iLog_;\r\n\t\t\tsub_ind1=sub_ind;\r\n\t\t\tindex_set=0;\r\n\t\t\tsub_ind=0;/\r\n\t\t\ttree_up(iLog_,0,0,sub_ind);\r\n\t\t\t}\t\r\n\t\t\t\r\n\t\t} \r\n\r\n\telse if(but==butR)\r\n\t\t{\r\n\t //\tavar_bat_hndl(0,1);\t\r\n\t\t}\r\n\telse if(but==butR_)\r\n\t\t{\r\n\t \t//avar_bat_hndl(0,0);\t\r\n\t\t}\t\t\r\n\telse if(but==butL)\r\n\t\t{\r\n\t \t//avar_s_hndl(1,0,1);\t\r\n\t\t}\r\n\t\t\t\t\r\n\telse if(but==butL_)\r\n\t\t{ \r\n\t\t/lc640_write(CNT_EVENT_LOG,0);\r\n\t\tlc640_write(PTR_EVENT_LOG,0);\r\n\t\tind=iMn;\r\n\t\tsub_ind=cnt_of_slave+10;\r\n\t\tindex_set=0;/\t\t\t\t\r\n\t\r\n\t\t}\t \t\t\r\n\t}\r\n\r\nelse if(ind==iLog_)\r\n\t{ \r\n\tif(but==butU)\r\n\t\t{\r\n\t\tindex_set--;\r\n\t\tgran_char(&index_set,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butD)\r\n\t\t{\r\n\t\tindex_set++;\r\n\t\tgran_char(&index_set,0,av_j_si_max);\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\t/ind=iLog;\r\n\t\tsub_ind=sub_ind1;/\r\n\t\ttree_down(0,0/sub_ind1-sub_ind/);\r\n\t\t}\t\t\r\n\t}\t\r\n\r\nelse if(ind==iSet)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif(sub_ind==5)index_set=4;\r\n\t\tif(sub_ind==6)sub_ind=8;\r\n\t\tif(sub_ind==9)index_set=8;\r\n\t\tif(sub_ind==10)sub_ind=11;\r\n\t\t\r\n\t\tgran_char(&sub_ind,0,30);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif(sub_ind==6)sub_ind=5;\r\n\t\tif(sub_ind==10)sub_ind=9;\r\n\t\t\r\n\t\tgran_char(&sub_ind,0,30);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=29;\r\n\t\t}\r\n\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iDef,0,0,0);\r\n\t ret(1000);\r\n\t default_temp=10;\r\n\t }\r\n\t }\t\r\n\t\r\n else if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iSet_T,0,0,0);\r\n\t\t ret(1000);\r\n\t\t phase=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\t\t\t\t \r\n else if(sub_ind==2)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iStr,0,0,0);\r\n\t\t ret(1000);\r\n\t\t index_set=0;\r\n\t\t }\r\n\t\t}\t\r\n\t\r\n\telse if(sub_ind==3)\r\n\t {\r\n\t if(but==butR)MNEMO_TIME++;\r\n\t else if(but==butR_)MNEMO_TIME+=10;\r\n\t else if(but==butL)MNEMO_TIME--;\r\n\t else if(but==butL_)MNEMO_TIME-=10;\r\n\r\n\t if(((MNEMO_TIME<5)\|\|(MNEMO_TIME>60))&&(MNEMO_ON!=mnOFF))lc640_write_int(EE_MNEMO_ON,mnOFF);\t\r\n\t if(((MNEMO_TIME>=5)&&(MNEMO_TIME<=60))&&(MNEMO_ON!=mnON))lc640_write_int(EE_MNEMO_ON,mnON);\r\n\t gran((signed short)&MNEMO_TIME,4,61);\r\n\t lc640_write_int(EE_MNEMO_TIME,MNEMO_TIME);\r\n\t speed=1;\r\n\t }\r\n\t\t\t\t \t\t\r\n\telse if(sub_ind==4)\r\n\t {\r\n\t\tif(ZV_ON)ZV_ON=0;\r\n\t\telse ZV_ON=1;\r\n\t lc640_write_int(EE_ZV_ON,ZV_ON);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==5)\r\n\t {\r\n\t\tif(AV_OFF_AVT)AV_OFF_AVT=0;\r\n\t\telse AV_OFF_AVT=1;\r\n\t lc640_write_int(EE_AV_OFF_AVT,AV_OFF_AVT);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==7)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_up(iApv,0,0,0);\r\n\t ret(1000);\r\n\t }\r\n\t }\t\r\n\r\n\telse if(sub_ind==8)\r\n\t {\r\n\t\tif(PAR)PAR=0;\r\n\t\telse PAR=1;\r\n\t lc640_write_int(EE_PAR,PAR);\r\n\t speed=1;\r\n\t }\r\n\r\n\telse if(sub_ind==9)\r\n\t {\r\n\t if(but==butR)TBAT++;\r\n\t else if(but==butR_)TBAT+=10;\r\n\t else if(but==butL)TBAT--;\r\n\t else if(but==butL_)TBAT-=10;\r\n\t gran(&TBAT,5,60);\r\n\t lc640_write_int(EE_TBAT,TBAT);\r\n\t speed=1;\r\n\t }\t\r\n\t \t \t\r\n\telse if(sub_ind==11)\r\n\t {\r\n\t if(but==butR)UMAX++;\r\n\t else if(but==butR_)UMAX+=10;\r\n\t else if(but==butL)UMAX--;\r\n\t else if(but==butL_)UMAX-=10;\r\n\t gran(&UMAX,10,1000);\r\n\t lc640_write_int(EE_UMAX,UMAX);\r\n\t speed=1;\r\n\t }\r\n\telse if(sub_ind==12)\r\n\t {\r\n\t if(but==butR)DU++;\r\n\t else if(but==butR_)DU+=10;\r\n\t else if(but==butL)DU--;\r\n\t else if(but==butL_)DU-=10;\r\n\t gran(&DU,10,1000);\r\n\t lc640_write_int(EE_DU,DU);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==13)\r\n\t {\r\n\t if(but==butR)UB0++;\r\n\t else if(but==butR_)UB0+=10;\r\n\t else if(but==butL)UB0--;\r\n\t else if(but==butL_)UB0-=10;\r\n\t gran(&UB0,10,1000);\r\n\t lc640_write_int(EE_UB0,UB0);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==14)\r\n\t {\r\n\t if(but==butR)UB20++;\r\n\t else if(but==butR_)UB20+=10;\r\n\t else if(but==butL)UB20--;\r\n\t else if(but==butL_)UB20-=10;\r\n\t gran(&UB20,10,1000);\r\n\t lc640_write_int(EE_UB20,UB20);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==15)\r\n\t {\r\n\t if(but==butR)USIGN++;\r\n\t else if(but==butR_)USIGN+=10;\r\n\t else if(but==butL)USIGN--;\r\n\t else if(but==butL_)USIGN-=10;\r\n\t gran(&USIGN,1,500);\r\n\t lc640_write_int(EE_USIGN,USIGN);\r\n\t speed=1;\r\n\t }\t\r\n\telse if(sub_ind==16)\r\n\t {\r\n\t if(but==butR)UMN++;\r\n\t else if(but==butR_)UMN+=10;\r\n\t else if(but==butL)UMN--;\r\n\t else if(but==butL_)UMN-=10;\r\n\t gran(&UMN,1,220);\r\n\t lc640_write_int(EE_UMN,UMN);\r\n\t speed=1;\r\n\t }\t\r\n\r\n\telse if(sub_ind==17)\r\n\t {\r\n\t if(but==butR)U0B++;\r\n\t else if(but==butR_)U0B+=10;\r\n\t else if(but==butL)U0B--;\r\n\t else if(but==butL_)U0B-=10;\r\n\t gran(&U0B,10,1000);\r\n\t lc640_write_int(EE_U0B,U0B);\r\n\t speed=1;\r\n\t }\t\r\n\t \r\n\telse if(sub_ind==18)\r\n\t {\r\n\t if(but==butR)IKB++;\r\n\t else if(but==butR_)IKB+=10;\r\n\t else if(but==butL)IKB--;\r\n\t else if(but==butL_)IKB-=10;\r\n\t gran(&IKB,1,500);\r\n\t lc640_write_int(EE_IKB,IKB);\r\n\t speed=1;\r\n\t }\t\t\r\n \r\n\telse if(sub_ind==19)\r\n\t {\r\n\t if(but==butR)IZMAX++;\r\n\t else if(but==butR_)IZMAX+=10;\r\n\t else if(but==butL)IZMAX--;\r\n\t else if(but==butL_)IZMAX-=10;\r\n\t gran(&IZMAX,10,1000);\r\n\t lc640_write_int(EE_IZMAX,IZMAX);\r\n\t speed=1;\r\n\t } \r\n\r\n\telse if(sub_ind==20)\r\n\t {\r\n\t if(but==butR)IMAX++;\r\n\t else if(but==butR_)IMAX+=10;\r\n\t else if(but==butL)IMAX--;\r\n\t else if(but==butL_)IMAX-=10;\r\n\t gran(&IMAX,1,120);\r\n\t lc640_write_int(EE_IMAX,IMAX);\r\n\t speed=1;\r\n\t }\t\t\r\n\t \r\n\telse if(sub_ind==21)\r\n\t {\r\n\t if(but==butR)KIMAX++;\r\n\t else if(but==butR_)KIMAX+=10;\r\n\t else if(but==butL)KIMAX--;\r\n\t else if(but==butL_)KIMAX-=10;\r\n\t gran(&KIMAX,5,10);\r\n\t lc640_write_int(EE_KIMAX,KIMAX);\r\n\t speed=1;\r\n\t }\r\n\t\r\n\telse if(sub_ind==22)\r\n\t {\r\n\t if ((but==butR)\|\|(but==butR_))KVZ+=5;\r\n\t\tif ((but==butL)\|\|(but==butL_))KVZ-=5;\r\n\t\tgran(&KVZ,1005,1030); \t \r\n\t\tlc640_write_int(EE_KVZ,KVZ);\r\n\t speed=1;\r\n\t }\r\n\t \r\n\telse if(sub_ind==23)\r\n\t\t{\r\n\t\tif ((but==butR)\|\|(but==butR_))TZAS++;\r\n\t\tif ((but==butL)\|\|(but==butL_))TZAS--;\r\n\t\tgran(&TZAS,0,3);\r\n\t\tlc640_write_int(EE_TZAS,TZAS);\r\n\t\tspeed=1; \r\n\t\t}\t\r\n\t\t\t \t \r\n\telse if(sub_ind==24)\r\n\t {\r\n\t if(but==butR)TMAX++;\r\n\t else if(but==butR_)TMAX+=2;\r\n\t else if(but==butL)TMAX--;\r\n\t else if(but==butL_)TMAX-=2;\r\n\t gran(&TMAX,10,100);\r\n\t lc640_write_int(EE_TMAX,TMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==25)\r\n\t {\r\n\t if(but==butR)TSIGN++;\r\n\t else if(but==butR_)TSIGN+=2;\r\n\t else if(but==butL)TSIGN--;\r\n\t else if(but==butL_)TSIGN-=2;\r\n\t gran(&TSIGN,10,100);\r\n\t lc640_write_int(EE_TSIGN,TSIGN);\r\n\t speed=1;\r\n\t }\t \r\n\telse if(sub_ind==26)\r\n\t {\r\n\t if(but==butR)TBATMAX++;\r\n\t else if(but==butR_)TBATMAX+=2;\r\n\t else if(but==butL)TBATMAX--;\r\n\t else if(but==butL_)TBATMAX-=2;\r\n\t gran(&TBATMAX,10,100);\r\n\t lc640_write_int(EE_TBATMAX,TBATMAX);\r\n\t speed=1;\r\n\t }\t\r\n\t\r\n\telse if(sub_ind==27)\r\n\t {\r\n\t if(but==butR)TBATSIGN++;\r\n\t else if(but==butR_)TBATSIGN+=2;\r\n\t else if(but==butL)TBATSIGN--;\r\n\t else if(but==butL_)TBATSIGN-=2;\r\n\t gran(&TBATSIGN,10,100);\r\n\t lc640_write_int(EE_TBATSIGN,TBATSIGN);\r\n\t speed=1;\r\n\t }\t\r\n \t \t \t\t \t \r\n else if(sub_ind==28)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t //tree_up(iExt_set,0,0,0);\r\n\t\t //ret(1000);\r\n\t\t }\r\n\t\t}\t\t\r\n else if(sub_ind==29)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_down(0,0);\r\n\t\t ret(0);\r\n\t\t }\r\n\t\t}\t\t\r\n\telse if(sub_ind==30)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\t\t\r\n\t\t\ttree_up(iK_prl,0,0,0);\r\n\t\t\tparol_init();\r\n\t\t\tret(50);\r\n\t\t\t}\t\t\t\t\t\t\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==31)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t tree_up(iPrltst,0,0,0);\r\n\t\t parol_init();\r\n\t\t }\r\n\t\t}\t\t\t\r\n }\r\n#define SIMAXIDEF 6\r\nelse if(ind==iDef)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,SIMAXIDEF);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,SIMAXIDEF);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=SIMAXIDEF;\r\n\t\t}\r\n\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,480,4);\r\n\t\t\t//lc640_write_int(EE_AUSW_MAIN,4824);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,4);\r\n\t\t\t//lc640_write_int(EE_AUSW_MAIN,6024);\r\n\t\t\t}\t\r\n\t\telse if(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,1600,480,5);\r\n\t\t\t//lc640_write_int(EE_AUSW_MAIN,4824);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==3)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,5);\r\n\t\t\t//lc640_write_int(EE_AUSW_MAIN,6024);\r\n\t\t\t}\r\n\t\telse if(sub_ind==4)\r\n\t\t\t{\r\n\t\t\tdef_set(600,564,545,44,100,480,6);\r\n\t\t\t//lc640_write_int(EE_AUSW_MAIN,4824);\r\n\r\n\t\t\t}\r\n\t\telse if(sub_ind==5)\r\n\t\t\t{\r\n\t\t\tdef_set(750,705,681,55,100,600,6);\r\n\t\t\t//lc640_write_int(EE_AUSW_MAIN,6024);\r\n\t\t\t}\r\n\r\n\t\telse if(sub_ind==SIMAXIDEF)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\tdefault_temp=sub_ind;\t\r\n\t\t}\r\n }\r\nelse if(ind==iSet_T)\r\n\t{\r\n\tsigned char temp;\r\n\tif(but==butR)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if(but==butL)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,5);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t temp=hour__;\r\n\t if((but==butU)\|\|(but==butU_))\r\n\t {\r\n\t temp++;\r\n\t gran_ring_char(&temp,0,23);\r\n\t hour__=temp;\r\n\t temp=((temp/10)<<4)+(temp%10);\r\n\t pcf8563_write(0x04,temp);\r\n\t }\r\n else if((but==butD)\|\|(but==butD_))\r\n\t {\r\n\t temp--;\r\n\t gran_ring_char(&temp,0,23);\r\n\t hour__=temp;\r\n\t temp=((temp/10)<<4)+(temp%10);\r\n\t pcf8563_write(0x04,temp);\r\n\t }\t\r\n\t speed=1; \r\n\t }\r\n else if(sub_ind==1)\r\n\t {\r\n\t temp=min__;\r\n\t if((but==butU)\|\|(but==butU_))\r\n\t {\r\n\t temp++;\r\n\t gran_ring_char(&temp,0,59);\r\n\t min__=temp;\r\n\t temp=((temp/10)<<4)+(temp%10);\r\n\t pcf8563_write(0x03,temp);\r\n\t }\r\n else if((but==butD)\|\|(but==butD_))\r\n\t {\r\n\t temp--;\r\n\t gran_ring_char(&temp,0,59);\r\n\t min__=temp;\r\n\t temp=((temp/10)<<4)+(temp%10);\r\n\t pcf8563_write(0x03,temp);\r\n\t }\t\r\n\t speed=1; \r\n\t }\r\n else if(sub_ind==2)\r\n\t {\r\n\t temp=sec__;\r\n\t if((but==butU)\|\|(but==butU_))\r\n\t {\r\n\t temp=0;\r\n\t gran_ring_char(&temp,0,59);\r\n\t sec__=temp;\r\n\t temp=((temp/10)<<4)+(temp%10);\r\n\t pcf8563_write(0x02,temp);\r\n\t }\r\n else if((but==butD)\|\|(but==butD_))\r\n\t {\r\n\t temp=0;\r\n\t gran_ring_char(&temp,0,59);\r\n\t sec__=temp;\r\n\t temp=((temp/10)<<4)+(temp%10);\r\n\t pcf8563_write(0x02,temp);\r\n\t }\t\r\n\t speed=1; \r\n\t }\r\n\r\n else if(sub_ind==3)\r\n\t {\r\n\t temp=day__;\r\n\t if((but==butU)\|\|(but==butU_))\r\n\t {\r\n\t temp++;\r\n\t gran_ring_char(&temp,1,31);\r\n\t day__=temp;\r\n\t temp=((temp/10)<<4)+(temp%10);\r\n\t pcf8563_write(0x05,temp);\r\n\t }\r\n else if((but==butD)\|\|(but==butD_))\r\n\t {\r\n\t temp--;\r\n\t gran_ring_char(&temp,1,31);\r\n\t day__=temp;\r\n\t temp=((temp/10)<<4)+(temp%10);\r\n\t pcf8563_write(0x05,temp);\r\n\t }\t\r\n\t speed=1; \r\n\t }\r\n else if(sub_ind==4)\r\n\t {\r\n\t temp=month__;\r\n\t if((but==butU)\|\|(but==butU_))\r\n\t {\r\n\t temp++;\r\n\t gran_ring_char(&temp,1,12);\r\n\t month__=temp;\r\n\t temp=((temp/10)<<4)+(temp%10);\r\n\t pcf8563_write(0x07,temp);\r\n\t }\r\n else if((but==butD)\|\|(but==butD_))\r\n\t {\r\n\t temp--;\r\n\t gran_ring_char(&temp,1,12);\r\n\t month__=temp;\r\n\t temp=((temp/10)<<4)+(temp%10);\r\n\t pcf8563_write(0x07,temp);\r\n\t }\t\r\n\t speed=1; \r\n\t }\t \r\n else if(sub_ind==5)\r\n\t {\r\n\t temp=year__;\r\n\t if((but==butU)\|\|(but==butU_))\r\n\t {\r\n\t temp++;\r\n\t gran_ring_char(&temp,0,99);\r\n\t year__=temp;\r\n\t temp=((temp/10)<<4)+(temp%10);\r\n\t pcf8563_write(0x08,temp);\r\n\t }\r\n else if((but==butD)\|\|(but==butD_))\r\n\t {\r\n\t temp--;\r\n\t gran_ring_char(&temp,0,99);\r\n\t year__=temp;\r\n\t temp=((temp/10)<<4)+(temp%10);\r\n\t pcf8563_write(0x08,temp);\r\n\t }\t\r\n\t speed=1; \r\n\t }\t\t \r\n\t} \r\n\t \t\r\nelse if(ind==iStr)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,1,5);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=4;\r\n\t\t}\t\t\t\t\r\n else if(sub_ind==1)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMIST++;\r\n\t \tgran(&NUMIST,0,12);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMIST--;\r\n\t \tgran(&NUMIST,0,12);\r\n\t \tlc640_write_int(EE_NUMIST,NUMIST);\r\n\t \t}\r\n }\t\r\n \r\n else if(sub_ind==2)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMINV++;\r\n\t \tgran(&NUMINV,0,4);\r\n\t \tlc640_write_int(EE_NUMINV,NUMINV);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMINV--;\r\n\t \tgran(&NUMINV,0,4);\r\n\t \tlc640_write_int(EE_NUMINV,NUMINV);\r\n\t \t}\r\n }\t \r\n else if(sub_ind==3)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMDT++;\r\n\t \tgran(&NUMDT,0,3);\r\n\t \tlc640_write_int(EE_NUMDT,NUMDT);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMDT--;\r\n\t \tgran(&NUMDT,0,3);\r\n\t \tlc640_write_int(EE_NUMDT,NUMDT);\r\n\t \t}\r\n }\t\r\n else if(sub_ind==4)\r\n\t {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t \t{\r\n\t \tNUMSK++;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n\t \r\n\t else if((but==butL)\|\|(but==butL_))\r\n\t \t{\r\n\t \tNUMSK--;\r\n\t \tgran(&NUMSK,0,4);\r\n\t \tlc640_write_int(EE_NUMSK,NUMSK);\r\n\t \t}\r\n }\t \r\n else if(sub_ind==5)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t\t\ttree_down(0,0);\r\n\t }\r\n }\t \r\n\t} \r\n\r\nelse if (ind==iApv)\r\n\t{\r\n ret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,simax);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=simax;\r\n\t\t}\t\t\t\r\n\telse if(but==butE)\r\n\t {\r\n\t if(sub_ind==simax)\r\n\t {\r\n\t //a=b[--ptr_ind];\r\n\t tree_down(0,0);\r\n\t }\r\n\t else if(sub_ind==0) \r\n\t {\r\n\t if(APV_ON1==apvON)lc640_write_int(EE_APV_ON1,apvOFF);\r\n\t else lc640_write_int(EE_APV_ON1,apvON);\r\n\t }\r\n else if((sub_ind==1)&&(APV_ON1==apvON)) \r\n\t {\r\n\t if(APV_ON2==apvON)lc640_write_int(EE_APV_ON2,apvOFF);\r\n\t else lc640_write_int(EE_APV_ON2,apvON);\r\n\t }\t \r\n }\r\n \r\n else if((sub_ind==2)&&(APV_ON2==apvON)) \r\n {\r\n\t if((but==butR)\|\|(but==butR_))\r\n\t {\r\n\t signed short tempSS;\r\n\t tempSS=APV_ON2_TIME;\r\n\t tempSS++;\r\n\t gran(&tempSS,1,24);\r\n\t lc640_write_int(EE_APV_ON2_TIME,tempSS);\r\n\t }\r\n else if((but==butL)\|\|(but==butL_))\r\n\t {\r\n\t signed short tempSS;\r\n\t tempSS=APV_ON2_TIME;\r\n\t tempSS--;\r\n\t gran(&tempSS,1,24);\r\n\t lc640_write_int(EE_APV_ON2_TIME,tempSS);\r\n\t }\t \r\n\t speed=1;\r\n\t }\t \r\n \t} \r\n\t\t \r\nelse if(ind==iK)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0));\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0);\r\n\t\t}\t\t\t\t\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==0)\r\n\t\t\t{\r\n\t\t\ttree_up(iK_net,0,0,0);\t\r\n\t\t\tret(1000);\t\t\r\n\t\t\t}\r\n\t\telse if((NUMBAT)&&(sub_ind==1))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bat_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMIST)&&(sub_ind==(1+(NUMBAT!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_bps_sel,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n\t\telse if((NUMINV)&&(sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_inv_sel,0,0,1);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\t\t\r\n\r\n\t\telse if((sub_ind==(1+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_load,0,0,0);\t\r\n\t\t\tret(1000);\r\n\t\t\t}\r\n \r\n \telse if((NUMDT)&&(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0))))\r\n\t\t\t{\r\n\t\t\ttree_up(iK_t_out,0,0,0);\t\r\n\t\t\tret(1000);\t\t\t\r\n\t\t\t}\t\t\t\t\r\n else if(sub_ind==(2+(NUMBAT!=0)+(NUMIST!=0)+(NUMINV!=0)+(NUMDT!=0)))\r\n\t\t\t{\r\n\t tree_down(0,0);\r\n\t ret(0);\r\n }\t \t\t\t\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_net)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,1);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=1;\r\n\t\t}\t\t\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KUNET);\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\ttemp_SS++;\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(EE_KUNET);\r\n\t\t\ttemp_SS+=10;\r\n\t\t\t//lc640_write_int(EE_KUNET,temp_SS);\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(EE_KUNET);\r\n\t\t\ttemp_SS--;\r\n\t\t\t//lc640_write_int(EE_KUNET,temp_SS);\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(EE_KUNET);\r\n\t\t\ttemp_SS-=10;\r\n\t\t\t//lc640_write_int(EE_KUNET,temp_SS);\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\r\n\t\tgran(&temp_SS,450,550);\r\n\t\tlc640_write_int(EE_KUNET,temp_SS);\r\n\t\t\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_bat_sel)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMBAT);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMBAT);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=1+NUMBAT;\r\n\t\t}\t\r\n\telse if((but==butE)&&(NUMBAT)&&(BAT_IS_ON[0]==bisON)&&(sub_ind==0))\r\n\t\t{\r\n\t\ttree_up(iK_bat,0,0,0);\t\r\n\t\t\r\n\t\t//mess_send(MESS_SRC_CONTROL,0xFFFF,0,10);\r\n \t//mess_send(MESS_BAT_CONTROL,0xFFFF&(~(1<<sub_ind1)),1<<(sub_ind1),10);\r\n\r\n\t\tret(1000);\r\n\t\t}\t\r\n\telse if((but==butE)&&(NUMBAT)&&(BAT_IS_ON[1]==bisON)&&(sub_ind==((BAT_IS_ON[0]==bisON))))\r\n\t\t{\r\n\t\ttree_up(iK_bat,0,0,1);\r\n\t\t\r\n\t\t//mess_send(MESS_SRC_CONTROL,0xFFFF,0,10);\r\n \t//mess_send(MESS_BAT_CONTROL,0xFFFF&(~(1<<sub_ind1)),1<<(sub_ind1),10);\r\n \t\t\r\n\t\tret(1000);\r\n\t\t}\t\r\n\telse if(sub_ind==(NUMBAT))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_bat)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))\r\n\t\t\t{\r\n\t\t\tsub_ind=3;\r\n\t\t\t//mess_send(MESS_SRC_CONTROL,0,0xFFFF,10);\r\n\t\t\t}\r\n \t\t\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=6;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=9;\r\n\t\tgran_char(&sub_ind,0,9);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))\r\n\t\t\t{\r\n\t\t\tsub_ind=0;\r\n\t\t\t//mess_send(MESS_SRC_CONTROL,0xFFFF,0,10);\r\n \t\t//mess_send(MESS_BAT_CONTROL,0xFFFF&(~(1<<sub_ind1)),1<<(sub_ind1),10);\r\n \t\t}\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=3;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))\r\n\t\t\t{\r\n\t\t\tsub_ind=6;\r\n\t\t\t//mess_send(MESS_SRC_CONTROL,0,0xFFFF,10);\r\n\t\tgran_char(&sub_ind,0,9);\r\n\t\tphase=0;\r\n\t\t\t}\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=9;\r\n\t\t}\t\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(ADR_KUBAT[sub_ind1]);\r\n\t if(but==butR)\r\n\t \t{\r\n\t \t//temp_SS=lc640_read_int(ADR_KUBAT[sub_ind1]);\r\n\t\t temp_SS++;\r\n\t\t // gran(&temp_SS,500,600);\r\n\t\t // lc640_write_int(ADR_KUBAT[sub_ind1],temp_SS);\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \t//temp_SS=lc640_read_int(ADR_KUBAT[sub_ind1]);\r\n\t \ttemp_SS+=2;\r\n\t \t//gran(&temp_SS,500,600);\r\n\t \t//lc640_write_int(ADR_KUBAT[sub_ind1],temp_SS);\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \t//temp_SS=lc640_read_int(ADR_KUBAT[sub_ind1]);\r\n\t \ttemp_SS--;\r\n\t \t//gran(&temp_SS,500,600);\r\n\t \t//lc640_write_int(ADR_KUBAT[sub_ind1],temp_SS);\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \t//temp_SS=lc640_read_int(ADR_KUBAT[sub_ind1]);\r\n\t \ttemp_SS-=2;\r\n\t \t//gran(&temp_SS,500,600);\r\n\t \t//lc640_write_int(ADR_KUBAT[sub_ind1],temp_SS);\r\n\t \t}\r\n\t gran(&temp_SS,500,650);\r\n\t\tlc640_write_int(ADR_KUBAT[sub_ind1],temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\r\n\t\t\t\t\t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t {\r\n\t\t if(phase==0)\r\n\t\t {\r\n\t\t lc640_write_int(ADR_KI0BAT[sub_ind1],ad7705_buff_[sub_ind1]);\r\n\t\t phase=1;\r\n\t\t }\r\n\t\t }\t\r\n\t\telse\r\n\t\t\t{\r\n\t\t\ttemp_SS=lc640_read_int(ADR_KI1BAT[sub_ind1]);\r\n\t\t\tif(but==butR)temp_SS++;\r\n\t\t\telse if(but==butR_)temp_SS+=2;\r\n\t\t\telse if(but==butL)temp_SS--;\r\n\t\t\telse if(but==butL_)temp_SS-=2;\r\n\t\t\t\t\t\t\r\n\t\t\tgran(&temp_SS,600,700);\r\n\t\t\tlc640_write_int(ADR_KI1BAT[sub_ind1],temp_SS);\r\n\t\t\tphase=1;\r\n\t\t\t}\r\n\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\t\t\t\t\t\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(ADR_KTBAT[sub_ind1]);\r\n\t\tif(but==butR)temp_SS++;\r\n\t\telse if(but==butR_)temp_SS+=3;\r\n\t\telse if(but==butL)temp_SS--;\r\n\t\telse if(but==butL_)temp_SS-=3;\r\n\t\tgran(&temp_SS,1900,2100);\r\n\t\tlc640_write_int(ADR_KTBAT[sub_ind1],temp_SS);\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\t\r\n\telse if(sub_ind==9)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\t//a=b[--ptr_ind];\r\n\t\t\t//sub_ind++;\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\t\t\r\n\r\nelse if(ind==iK_bps_sel)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,NUMIST);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,NUMIST);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=1+NUMIST;\r\n\t\t}\t\r\n\telse if((but==butE)&&(NUMIST)&&(sub_ind<NUMIST))\r\n\t\t{\r\n\t\ttree_up(iK_bps,0,0,sub_ind);\t\r\n\t\t\r\n\t\t//mess_send(MESS_SRC_CONTROL,0xFFFF,0,10);\r\n \t//mess_send(MESS_BAT_CONTROL,0xFFFF&(~(1<<sub_ind1)),1<<(sub_ind1),10);\r\n\r\n\t\tret(1000);\r\n\t\t}\t\r\n\telse if(sub_ind==(NUMIST))\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\t\r\n\t}\r\n\r\nelse if(ind==iK_bps)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=3;\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=6;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=9;\r\n\t\telse if((sub_ind==10)\|\|(sub_ind==11))sub_ind=12;\r\n\t\telse if((sub_ind==13)\|\|(sub_ind==14))sub_ind=15;\r\n\t\tgran_char(&sub_ind,0,15);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tif((sub_ind==1)\|\|(sub_ind==2))sub_ind=0;\r\n\t\telse if((sub_ind==4)\|\|(sub_ind==5))sub_ind=3;\r\n\t\telse if((sub_ind==7)\|\|(sub_ind==8))sub_ind=6;\r\n\t\telse if((sub_ind==10)\|\|(sub_ind==11))sub_ind=9;\r\n\t\telse if((sub_ind==13)\|\|(sub_ind==14))sub_ind=12;\t\t\r\n\t\tgran_char(&sub_ind,0,15);\r\n\t\tphase=0;\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=15;\r\n\t\t}\r\n\telse if (sub_ind == 0)\r\n\t\t{\r\n\t\tif(but==butLR) can2_out(sub_ind1,sub_ind1,KLBR,(016)+1,(016)+1,0,0,0);\r\n\t else if(but==butR) can2_out(sub_ind1,sub_ind1,KLBR,(016)+2,(016)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan2_out(sub_ind1,sub_ind1,KLBR,(016)+3,(016)+3,0,0,0);\r\n \t\telse if(but==butL) can2_out(sub_ind1,sub_ind1,KLBR,(016)+4,(016)+4,0,0,0); \r\n\t\telse if(but==butL_) can2_out(sub_ind1,sub_ind1,KLBR,(016)+5,(016)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\r\n\t\t\r\n\telse if (sub_ind == 3)\r\n\t\t{\r\n\t\tif(but==butLR) can2_out(sub_ind1,sub_ind1,KLBR,(116)+1,(116)+1,0,0,0);\r\n\t else if(but==butR) can2_out(sub_ind1,sub_ind1,KLBR,(116)+2,(116)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan2_out(sub_ind1,sub_ind1,KLBR,(116)+3,(116)+3,0,0,0);\r\n \t\telse if(but==butL) can2_out(sub_ind1,sub_ind1,KLBR,(116)+4,(116)+4,0,0,0); \r\n\t\telse if(but==butL_) can2_out(sub_ind1,sub_ind1,KLBR,(116)+5,(116)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\r\n\t\t\r\n\telse if (sub_ind == 6)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_U_AVT);\r\n\t\tif(but==butR)temp_SS++;\r\n\t\telse if(but==butR_)temp_SS+=2;\r\n\t\telse if(but==butL)temp_SS--;\r\n\t\telse if(but==butL_)temp_SS-=2;\r\n\t\telse if(but==butE_)can2_out(sub_ind1,sub_ind1,CMND,0xee,0xee,0,0,0); \r\n\t\t\t\t\t\t\r\n\t\tgran(&temp_SS,400,800);\r\n\t\tlc640_write_int(EE_U_AVT,temp_SS);\r\n\t\t\r\n\t\tspeed=1;\r\n\t\t}\t\r\n\t\t\r\n\telse if (sub_ind == 9)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\tcan2_out(sub_ind1,sub_ind1,KLBR,(216)+1,(216)+1,0,0,0);\r\n\t\t\tphase=1;\r\n\t\t\t}\r\n\t else if(but==butR) can2_out(sub_ind1,sub_ind1,KLBR,(216)+2,(216)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan2_out(sub_ind1,sub_ind1,KLBR,(216)+3,(216)+3,0,0,0);\r\n \t\telse if(but==butL) can2_out(sub_ind1,sub_ind1,KLBR,(216)+4,(216)+4,0,0,0); \r\n\t\telse if(but==butL_) can2_out(sub_ind1,sub_ind1,KLBR,(216)+5,(216)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\r\n\t\t\r\n\telse if (sub_ind == 12)\r\n\t\t{\r\n\t\tif(but==butR) can2_out(sub_ind1,sub_ind1,KLBR,(316)+2,(316)+2,0,0,0);\r\n\t\telse if(but==butR_)\tcan2_out(sub_ind1,sub_ind1,KLBR,(316)+3,(316)+3,0,0,0);\r\n \t\telse if(but==butL) can2_out(sub_ind1,sub_ind1,KLBR,(316)+4,(316)+4,0,0,0); \r\n\t\telse if(but==butL_) can2_out(sub_ind1,sub_ind1,KLBR,(316)+5,(316)+5,0,0,0);\r\n\t\tspeed=1;\r\n\t\t}\t\t\t\t\t\t\t\t\r\n\t\t\t\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\tif(phase==0)\r\n\t\t {\r\n\t\t if(but==butE)\r\n\t\t {\r\n\t\t #if(UKU_VERSION==300)\r\n\t\t if(sub_ind1==0)temp_SS=adc_buff_[3];\r\n\t\t if(sub_ind1==1)temp_SS=adc_buff_[2];\r\n #else\r\n if(sub_ind1==0)temp_SS=adc_buff_[2];\r\n\t\t if(sub_ind1==1)temp_SS=adc_buff_[3];\r\n\t\t #endif\r\n\t\t //lc640_write_int(ptr_ki0_src[sub_ind1],temp_SS);\r\n\t\t \tphase=1;\r\n\t\t }\r\n\t\t else phase=1; \r\n\t\t }\r\n\t\telse if(phase==2)\r\n\t\t {\r\n\t\t if(but==butR)\r\n\t\t \t{\r\n\t\t \t//temp_SS=lc640_read_int(ptr_ki_src[sub_ind1]);\r\n\t\t \ttemp_SS++;\r\n\t\t \t//lc640_write_int(ptr_ki_src[sub_ind1],temp_SS);\r\n\t \t\t}\r\n\t \telse if(but==butR_)\r\n\t \t\t{\r\n\t \t\t//temp_SS=lc640_read_int(ptr_ki_src[sub_ind1]);\r\n\t \t\ttemp_SS+=2;\r\n\t \t\t//lc640_write_int(ptr_ki_src[sub_ind1],temp_SS);\r\n\t \t\t}\t\r\n\t \telse if(but==butL)\r\n\t \t\t{\r\n\t \t\t//temp_SS=lc640_read_int(ptr_ki_src[sub_ind1]);\r\n\t \t\ttemp_SS--;\r\n\t \t\t//lc640_write_int(ptr_ki_src[sub_ind1],temp_SS);\r\n\t \t\t}\r\n\t \telse if(but==butL_)\r\n\t \t\t{\r\n\t \t\t//temp_SS=lc640_read_int(ptr_ki_src[sub_ind1]);\r\n\t \t\ttemp_SS-=2;\r\n\t \t\t//lc640_write_int(ptr_ki_src[sub_ind1],temp_SS);\r\n\t \t\t}\t\t\t\t\r\n\t \tspeed=1;\t\t\t\r\n\t \t}\r\n\t }\t\r\n\t\t\t\t\t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t if(but==butR)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_ku_src[sub_ind1]);\r\n\t\t\ttemp_SS++;\r\n\t\t\t//lc640_write_int(ptr_ku_src[sub_ind1],temp_SS);\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_ku_src[sub_ind1]);\r\n\t\t\ttemp_SS+=2;\r\n\t\t\t//lc640_write_int(ptr_ku_src[sub_ind1],temp_SS);\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_ku_src[sub_ind1]);\r\n\t\t\ttemp_SS--;\r\n\t\t\t//lc640_write_int(ptr_ku_src[sub_ind1],temp_SS);\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_ku_src[sub_ind1]);\r\n\t\t\ttemp_SS-=2;\r\n\t\t\t//lc640_write_int(ptr_ku_src[sub_ind1],temp_SS);\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\t\t\t\t\t\r\n\telse if(sub_ind==6)\r\n\t\t{\r\n\t\tif(but==butR)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_kt_src[sub_ind1]);\r\n\t\t\ttemp_SS++;\r\n\t\t\t//lc640_write_int(ptr_kt_src[sub_ind1],temp_SS);\r\n\t\t\t}\r\n\t\telse if(but==butR_)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_kt_src[sub_ind1]);\r\n\t\t\ttemp_SS+=3;\r\n\t\t\t//lc640_write_int(ptr_kt_src[sub_ind1],temp_SS);\r\n\t\t\t}\t\r\n\t\telse if(but==butL)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_kt_src[sub_ind1]);\r\n\t\t\ttemp_SS--;\r\n\t\t\t//lc640_write_int(ptr_kt_src[sub_ind1],temp_SS);\r\n\t\t\t}\r\n\t\telse if(but==butL_)\r\n\t\t\t{\r\n\t\t\t//temp_SS=lc640_read_int(ptr_kt_src[sub_ind1]);\r\n\t\t\ttemp_SS-=3;\r\n\t\t\t//lc640_write_int(ptr_kt_src[sub_ind1],temp_SS);\r\n\t\t\t}\t\t\t\t\r\n\t\tspeed=1;\t\t\t\r\n\t\t}\t\r\n\telse if(sub_ind==15)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\t//a=b[--ptr_ind];\r\n\t\t\t//sub_ind++;\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\t\t\r\n\r\nelse if(ind==iK_load)\r\n\t{\r\n\tret(1000);\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind=1;\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind=0;\r\n\t\t}\r\n\telse if(sub_ind==0)\r\n\t\t{\r\n\t\ttemp_SS=lc640_read_int(EE_KULOAD);\r\n\t if(but==butR)\r\n\t \t{\r\n\t\t temp_SS++;\r\n\t \t}\r\n\t else if(but==butR_)\r\n\t \t{\r\n\t \ttemp_SS+=2;\r\n\t \t}\t\r\n\t else if(but==butL)\r\n\t \t{\r\n\t \ttemp_SS--;\r\n\t \t}\r\n\t else if(but==butL_)\r\n\t \t{\r\n\t \ttemp_SS-=2;\r\n\t \t}\r\n\t gran(&temp_SS,500,600);\r\n\t\tlc640_write_int(EE_KULOAD,temp_SS);\t\t\t\t\t\r\n\t\tspeed=1;\t\r\n\t\t\t\t\t\r\n\t\t}\r\n\telse if(sub_ind==1)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{\r\n\t\t\ttree_down(0,1);\r\n\t\t\tret(0);\r\n\t\t\t}\r\n\t\t}\t\t\t\r\n\t}\r\n\t\t\t\r\nelse if(ind==iBatLog)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,6);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,6);\r\n\t\t}\r\n\telse if(but==butD_)\r\n\t\t{\r\n\t\tsub_ind=6;\r\n\t\t}\t\t\t\t\r\n\telse if((but==butL)&&((sub_ind==0)\|\|(sub_ind==3)\|\|(sub_ind==4)))\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\t\r\n\telse if(sub_ind==0)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t //b[ptr_ind++]=a;\r\n\t //if(BAT_IS_ON[sub_ind1]==bisON) ind=iPrl_bat_in_out;\r\n\t //else \r\n\t //{\r\n\t //ind=iPdp1;\r\n\t //ret_ind(iPrl_bat_in_out,0,10);\r\n\t //}\r\n\t tree_up(iPrl_bat_in_out,0,0,sub_ind1);\r\n\t if(BAT_IS_ON[sub_ind1]!=bisON) show_mess(\" Введение батареи \",\r\n\t \t\t\t\t\t\t\t\t \" уничтожит все \",\r\n\t \t\t\t\t\t\t\t\t \" предшествующие \",\r\n\t \t\t\t\t\t\t\t\t \" данные!!! \",4000); \r\n\t parol_init();\r\n\t }\r\n\t }\r\n\telse if(sub_ind==1)\r\n\t {\r\n\t if(but==butR)BAT_C_NOM[sub_ind1]++;\r\n\t else if(but==butR_)BAT_C_NOM[sub_ind1]+=10;\r\n\t else if(but==butL)BAT_C_NOM[sub_ind1]--;\r\n\t else if(but==butL_)BAT_C_NOM[sub_ind1]-=10;\r\n\t gran(&BAT_C_NOM[sub_ind1],0,200);\r\n\t lc640_write_int(ADR_EE_BAT_C_NOM[sub_ind1],BAT_C_NOM[sub_ind1]);\r\n\t speed=1;\r\n\t }\t\t \r\n\t\t\r\n\telse if(sub_ind==3)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{ \r\n cap=0;\r\n\t\t\tdeep=lc640_read_int(CNT_EVENT_LOG);\r\n\t\t\tptr=lc640_read_int(PTR_EVENT_LOG);\r\n\t\t\t\r\n\t\t\tif(deep>63)\r\n\t\t\t\t{\r\n\t\t\t\tdeep=0;\r\n\t\t\t ptr=0;\r\n\t\t\t }\r\n\t\t\t \t\t\t\r\n\t\t\tfor(i=0;i<deep;i++)\r\n\t\t\t\t{\r\n\t\t\t\tlc640_read_long_ptr(EVENT_LOG+(32ptr),av_head);\r\n\t\t\t\t\r\n\t\t\t\tif((av_head[0]=='B')&&(av_head[1]==sub_ind1)&&(av_head[2]=='K')) \t//ищем записи батарейных событий 'K'(контроли емкости)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tcap++;\r\n\t\t\t\t\tcontent[cap-1]=ptr;\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t\t\tptr=ptr_carry(ptr,64,-1); \r\n\t\r\n\t\t\t\t} \r\n\t\t\t\t\r\n\t\t\ttree_up(iBatLogKe,0,0,sub_ind1);\r\n\t\t\t\r\n\t\t\tav_j_si_max=cap;\r\n\t\t\tif(av_j_si_max>63)av_j_si_max=0;\r\n\t\t\t} \r\n\t\t}\r\n\r\n\r\n\r\n\r\n\telse if(sub_ind==4)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{ \r\n cap=0;\r\n\t\t\tdeep=lc640_read_int(CNT_EVENT_LOG);\r\n\t\t\tptr=lc640_read_int(PTR_EVENT_LOG);\r\n\t\t\t\r\n\t\t\tif(deep>63)\r\n\t\t\t\t{\r\n\t\t\t\tdeep=0;\r\n\t\t\t ptr=0;\r\n\t\t\t }\r\n\t\t\t \r\n\t\t\tfor(i=0;i<deep;i++)\r\n\t\t\t\t{\r\n\t\t\t\tlc640_read_long_ptr(EVENT_LOG+(32ptr),av_head);\r\n\t\t\t\t\r\n\t\t\t\tif((av_head[0]=='B')/&&(av_head[1]==sub_ind1)/&&(av_head[2]=='Z')) \t//ищем записи батарейных событий 'z'(выравнивающий заряд)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tcap++;\r\n\t\t\t\t\tcontent[cap-1]=ptr;\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t\t\tptr=ptr_carry(ptr,64,-1); \r\n\t\t\t\t} \r\n\t\t\t\t\r\n\t\t\ttree_up(iBatLogVz,0,0,sub_ind1); \r\n\t\t\t\r\n\t\t\tav_j_si_max=cap;\r\n\t\t\tif(av_j_si_max>63)av_j_si_max=0;\r\n\t\t\t} \r\n\t\telse if(but==butR)\r\n\t\t\t{\r\n\t\t\t//vz_mem_hndl(0,5);\r\n\t\t\t//vz_mem_hndl(1,6);\t \r\n\t\t\t} \r\n\t\t}\r\n\r\n\telse if(sub_ind==5)\r\n\t\t{\r\n\t\tif(but==butE)\r\n\t\t\t{ \r\n cap=0;\r\n\t\t\tdeep=lc640_read_int(CNT_EVENT_LOG);\r\n\t\t\tptr=lc640_read_int(PTR_EVENT_LOG);\r\n\r\n\t\t\tif(deep>63)\r\n\t\t\t\t{\r\n\t\t\t\tdeep=0;\r\n\t\t\t ptr=0;\r\n\t\t\t }\r\n\t\t\t\r\n\t\t\t//out_usart0 (8,0x11,((char)&deep),(((char)&deep)+1),((char)&ptr),(((char)&ptr)+1),cap,content[cap-1],i,0);\r\n\t\t\t\r\n\t\t\tfor(i=0;i<deep;i++)\r\n\t\t\t\t{\r\n\t\t\t\tlc640_read_long_ptr(EVENT_LOG+(32ptr),av_head);\r\n\t\t\t\t\r\n\t\t\t\tif((av_head[0]=='B')&&(av_head[1]==sub_ind1)&&(av_head[2]=='W')) \t//ищем записи батарейных событий 'W'(разряды)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tcap++;\r\n\t\t\t\t\tcontent[cap-1]=ptr;\r\n\t\t\t\t\t}\r\n\t\t\t\t\t\r\n\t\t \t/ \tout_usart0 (8,0x22,((char)&deep),(((char)&deep)+1),((char)&ptr),(((char)&ptr)+1),cap,content[cap-1],i,0); \r\n\t\t\t\tdelay_ms(100);\r\n\t\t\t\tPORTC.7=!PORTC.7;\r\n\t\t\t\t#asm(\"wdr\"); \t/\r\n\t\t\t\tptr=ptr_carry(ptr,64,-1); \r\n\t\t\t\t} \r\n\t\t\t\t\r\n\t\t\t/ind=iJ_bat_wrk_sel;\r\n\t\t\tsub_ind=0;/\r\n\r\n\t\t\ttree_up(iBatLogWrk,0,0,sub_ind1);\r\n\t\t\t\r\n\t\t\tav_j_si_max=cap;\r\n\t\t\tif(av_j_si_max>63)av_j_si_max=0;\r\n\t\t\t} \r\n\t\telse if(but==butR)\r\n\t\t\t{\r\n\t\t\t//vz_mem_hndl(0,5);\r\n\t\t\t//vz_mem_hndl(1,6);\t \r\n\t\t\t} \r\n\t\t}\t\t\r\n\t\t \t \t\r\n else if(sub_ind==6)\r\n\t {\r\n\t if(but==butE)\r\n\t {\r\n\t tree_down(0,0);\r\n\t }\r\n\t }\t\t \r\n\t\t\r\n\t} \r\n\r\nelse if(ind==iBatLogVz)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==av_j_si_max)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t} \r\n\telse if(but==butL)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\t\r\n //\telse if(but==butR) vz_mem_hndl(sub_ind1,_sec);\r\n\t\r\n\t\t\r\n\t}\r\n\r\nelse if(ind==iBatLogKe)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==av_j_si_max)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\t} \r\n\telse if(but==butL)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\t\r\n //\telse if(but==butR) ke_mem_hndl(sub_ind1,_sec);\t\t\r\n\t}\r\n\r\nelse if(ind==iBatLogWrk)\r\n\t{\r\n\tif(but==butD)\r\n\t\t{\r\n\t\tsub_ind++;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butU)\r\n\t\t{\r\n\t\tsub_ind--;\r\n\t\tgran_char(&sub_ind,0,av_j_si_max);\r\n\t\t}\r\n\telse if(but==butE)\r\n\t\t{\r\n\t\tif(sub_ind==av_j_si_max)\r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\t}\r\n\t\telse if(sub_ind<=av_j_si_max)\r\n\t\t\t{\r\n\t\t\t//ind=iWrk;\r\n\t\t\t//sub_ind2=content[sub_ind];\r\n\t\t\tindex_set=0;\r\n\t\t\t//sub_ind=0;\r\n\t\t\t}\t\r\n\t\t} \r\n\telse if(but==butL)\r\n\t\t{\r\n\t\ttree_down(0,0);\r\n\t\t}\t\t\r\n\telse if(but==butR)\r\n\t\t{\r\n\t //\twrk_mem_hndl(sub_ind1);\r\n\r\n\t\t} \r\n\t}\r\n\r\nelse if(ind==iAv_view)\r\n\t{\r\n\tif(but==butE)\r\n\t\t{\r\n\t\tavar_ind_stat&=~(1L<<sub_ind);\r\n\t\tif(avar_ind_stat)\r\n\t\t\t{\r\n\t\t\twhile(!(avar_ind_stat&(1<<sub_ind)))\r\n\t\t\t\t{\r\n\t\t\t\tsub_ind++;\r\n\t\t\t\tif(sub_ind>=32)\r\n\t\t\t\t\t{\r\n\t\t\t\t\ttree_down(0,0);\r\n\t\t\t\t\tavar_ind_stat=0;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t \t}\r\n\t \telse \r\n\t\t\t{\r\n\t\t\ttree_down(0,0);\r\n\t\t\tavar_ind_stat=0;\r\n\t\t\t}\r\n\t\t}\r\n \t}\r\n\r\nelse if(ind==iAvz)\r\n\t{\r\n\tif(AVZ!=AVZ_OFF)\r\n\t\t{\r\n\t\tif(but==butU)\r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\tif(sub_ind==3)sub_ind--;\r\n\t\t\t}\r\n\t\telse if(but==butD)\r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\tif(sub_ind==3)sub_ind++;\r\n\t\t\t}\r\n\t\telse if(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(but==butL)\r\n\t\t\t\t{\r\n\t\t\t\tif(AVZ==AVZ_1)AVZ=AVZ_OFF;\r\n\t\t\t\telse if(AVZ==AVZ_2)AVZ=AVZ_1;\r\n\t\t\t\telse if(AVZ==AVZ_3)AVZ=AVZ_2; \r\n\t\t\t\telse if(AVZ==AVZ_6)AVZ=AVZ_3;\r\n\t\t\t\telse if(AVZ==AVZ_12)AVZ=AVZ_6;\t\t\t\r\n\t\t\t\telse AVZ=AVZ_12;\r\n\t\t\t\t}\r\n\t\t\telse if((but==butR)\|\|(but==butE))\r\n\t\t\t\t{\r\n\t\t\t\tif(AVZ==AVZ_1)AVZ=AVZ_2;\r\n\t\t\t\telse if(AVZ==AVZ_2)AVZ=AVZ_3;\r\n\t\t\t\telse if(AVZ==AVZ_3)AVZ=AVZ_6; \r\n\t\t\t\telse if(AVZ==AVZ_6)AVZ=AVZ_12;\r\n\t\t\t\telse if(AVZ==AVZ_12)AVZ=AVZ_OFF;\t\t\t\r\n\t\t\t\telse AVZ=AVZ_1;\r\n\t\t\t\t} \r\n\t\t\tlc640_write_int(EE_AVZ,AVZ);\r\n\t\t\tif(AVZ!=AVZ_OFF)avz_next_date_hndl();\t\t\r\n\t\t\t} \r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tspeed=1;\r\n\t\t\t\tAVZ_TIME++;\r\n\t\t\t\t} \r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tspeed=1;\r\n\t\t\t\tAVZ_TIME--;\r\n\t\t\t\t}\t\t\t\r\n\t\t\tgran(&AVZ_TIME,1,20);\r\n\t\t\tlc640_write_int(EE_AVZ_TIME,AVZ_TIME);\r\n\t\t\t}\t\r\n\t\telse if(sub_ind==4)\r\n\t\t\t{\r\n\t\t\tif((but==butE))\r\n\t\t\t\t{\r\n\t\t\t\tind=iSpc;\r\n\t\t\t\tsub_ind=1;\r\n\t\t\t\t}\t\r\n\t\t\t} \r\n\t\tgran_char(&sub_ind,0,4);\t\t\t\t\t\t \r\n\t\t} \r\n\telse if(AVZ==AVZ_OFF)\r\n\t\t{\r\n\t\tif(but==butU)\r\n\t\t\t{\r\n\t\t\tsub_ind--;\r\n\t\t\t}\r\n\t\telse if(but==butD)\r\n\t\t\t{\r\n\t\t\tsub_ind++;\r\n\t\t\t}\r\n\t\telse if(sub_ind==0)\r\n\t\t\t{\r\n\t\t\tif(but==butL)\r\n\t\t\t\t{\r\n\t\t\t\tif(AVZ==AVZ_1)AVZ=AVZ_OFF;\r\n\t\t\t\telse if(AVZ==AVZ_2)AVZ=AVZ_1;\r\n\t\t\t\telse if(AVZ==AVZ_3)AVZ=AVZ_2; \r\n\t\t\t\telse if(AVZ==AVZ_6)AVZ=AVZ_3;\r\n\t\t\t\telse if(AVZ==AVZ_12)AVZ=AVZ_6;\t\t\t\r\n\t\t\t\telse AVZ=AVZ_12;\r\n\t\t\t\t}\r\n\t\t\telse if((but==butR)\|\|(but==butE))\r\n\t\t\t\t{\r\n\t\t\t\tif(AVZ==AVZ_1)AVZ=AVZ_2;\r\n\t\t\t\telse if(AVZ==AVZ_2)AVZ=AVZ_3;\r\n\t\t\t\telse if(AVZ==AVZ_3)AVZ=AVZ_6; \r\n\t\t\t\telse if(AVZ==AVZ_6)AVZ=AVZ_12;\r\n\t\t\t\telse if(AVZ==AVZ_12)AVZ=AVZ_OFF;\t\t\t\r\n\t\t\t\telse AVZ=AVZ_1;\r\n\t\t\t\t} \r\n\t\t\tlc640_write_int(EE_AVZ,AVZ);\r\n\t\t\tif(AVZ!=AVZ_OFF)avz_next_date_hndl();\t\t\r\n\t\t\t} \r\n\t\telse if(sub_ind==1)\r\n\t\t\t{\r\n\t\t\tif((but==butR)\|\|(but==butR_))\r\n\t\t\t\t{\r\n\t\t\t\tspeed=1;\r\n\t\t\t\tAVZ_TIME++;\r\n\t\t\t\t} \r\n\t\t\telse if((but==butL)\|\|(but==butL_))\r\n\t\t\t\t{\r\n\t\t\t\tspeed=1;\r\n\t\t\t\tAVZ_TIME--;\r\n\t\t\t\t}\t\t\t\r\n\t\t\tgran(&AVZ_TIME,1,20);\r\n\t\t\tlc640_write_int(EE_AVZ_TIME,AVZ_TIME);\r\n\t\t\t}\t\r\n\t\telse if(sub_ind==2)\r\n\t\t\t{\r\n\t\t\tif((but==butE))\r\n\t\t\t\t{\r\n\t\t\t\ttree_down(0,0);\r\n\t\t\t\t}\t\r\n\t\t\t} \r\n\t\tgran_char(&sub_ind,0,2);\t\t\t\t\t\t \r\n\t\t} \r\n }\t\r\n\t\r\nbut_an_end:\r\nn_but=0;\r\n}\r\n\r\n\r\n\r\n//********************************************\r\n//*******************************************\r\n//*******************************************\r\n//*******************************************\r\n//*******************************************\r\n__irq void timer1_interrupt(void) \r\n{\r\nT1IR = 0xff; // Clear timer 0 interrupt line.\r\n\r\nadc_drv();\r\n\r\nif(++t0cnt4>=10)\r\n {\r\n t0cnt4=0;\r\n b1000Hz=1;\r\n\r\n\tbFF=(char)(GET_REG( IO0PIN, 22, 1));\r\n\tif(bFF!=bFF_) hz_out++;\r\n\tbFF_=bFF;\r\n\t\r\n\r\n }\r\n\r\nif(++t0cnt5>=200)\r\n {\r\n t0cnt5=0;\r\n b50Hz=1;\r\n }\r\n \r\nif(++t0cnt>=100)\r\n {\r\n t0cnt=0;\r\n b100Hz=1;\r\n\r\n\tif(beep_cnt)\r\n\t\t{\r\n\t\tbeep_cnt--;\r\n\t\tif(beep_cnt==0)SET_REG(IO1CLR,1,27,1);\r\n\t\t} \r\n\r\n hz_out_cnt++;\r\n if(hz_out_cnt>=500)\r\n\t {\t\r\n\t hz_out_cnt=0;\r\n\t net_F=hz_out;\r\n\t hz_out=0;\r\n\t }\r\n\r\n if(++t0cnt0>=10)\r\n\t {\r\n\t t0cnt0=0;\r\n\t b10Hz=1;\r\n\t beep_drv();\r\n\t\tif(main_10Hz_cnt<10000) main_10Hz_cnt++;\r\n\t }\r\n\r\n if(t0cnt0==5)\r\n\t {\r\n\t //beep_drv();\r\n\t }\r\n\r\n if(++t0cnt1>=20)\r\n\t {\r\n\t t0cnt1=0;\r\n\t b5Hz=1;\r\n\t \r\n \t\tif(bFL5)bFL5=0;\r\n \t\telse bFL5=1;\t \r\n\t }\r\n\r\n if(++t0cnt2>=50)\r\n\t {\r\n\t t0cnt2=0;\r\n\t b2Hz=1;\r\n\t \r\n\t if(bFL2)bFL2=0;\r\n\t else bFL2=1;\r\n\r\n\t\tflag=1;\r\n\t } \r\n\r\n if(++t0cnt3>=100)\r\n\t {\r\n\t t0cnt3=0;\r\n\t b1Hz=1;\r\n\t \tif(bFL)bFL=0;\r\n\t else \r\n\t \t{\r\n\t \tbFL=1;\r\n\t \tif(bFL_)bFL_=0;\r\n\t \telse bFL_=1;\r\n\t \t}\r\n\r\n\t\tif(main_1Hz_cnt<10000) main_1Hz_cnt++;\r\n\r\n\t }\r\n }\r\n\r\nVICVectAddr = 0;\r\n\r\n}\r\n\r\n//********************************************\r\n__irq void timer0_interrupt(void) \r\n{\t\r\n/if(BPS1_spa_leave)T0EMR_bit.EM1=0; \r\nelse T0EMR_bit.EM1=1;\r\nif(BPS2_spa_leave)T0EMR_bit.EM3=0; \r\nelse T0EMR_bit.EM3=1;\r\nT0IR = 0xff;/\r\n}\r\n\r\n//===============================================\r\n//===============================================\r\n//===============================================\r\n//===============================================\r\nint main (void) \r\n{\r\n\r\n\r\nIODIR1 \|= (1<<21); / P1.16..23 defined as Outputs /\r\n\r\nIODIR0 \|= (1<<21);\r\nIOSET0 \|= (1<<21);\r\n\r\n#ifndef SIMULATOR\r\nlcd_init();\r\nlcd_on();\r\nlcd_clear(); \r\n#endif\r\n\r\nad7705_reset();\r\ndelay_ms(20);\r\n\r\nad7705_write(0x20);\r\nad7705_write(BIN8(1101)); \r\nad7705_write(0x10);\r\nad7705_write(0x44);\r\n\r\nad7705_reset();\r\ndelay_ms(20);\r\n\r\nad7705_write(0x20);\r\nad7705_write(BIN8(1101)); \r\nad7705_write(0x10);\r\nad7705_write(0x44);\r\n\r\nad7705_reset();\r\ndelay_ms(20); \r\n\r\nad7705_write(0x20);\r\nad7705_write(BIN8(1101)); \r\nad7705_write(0x10);\r\nad7705_write(0x44); \r\n\r\n\r\n\r\n// CAN interface 1, use IRQVec7, at 125kbit\r\n//can1_init(7,8,CANBitrate125k_60MHz);\r\n\r\n// Receive message with ID 102h on CAN 1\r\n//FullCAN_SetFilter(1,0x0e9);\r\n\r\n// CAN interface 1, use IRQVec7, at 125kbit\r\ncan2_init(7,8,CANBitrate250k_60MHz);\r\n\r\n// Receive message with ID 102h on CAN 1\r\nFullCAN_SetFilter(2,0x18e);\r\n\r\nmemo_read();\r\n\r\nuart0_init();\r\nuart1_init();\r\ninit_timer1();\r\nadc_init();\r\n\r\npcf8563_read(1);\r\nreload_hndl();\r\nwatchdog_init(60000000UL,1000UL);\r\nsamokalibr_init();\r\nkb_init();\r\n\r\nb1Hz=1;\r\nwhile (1) \r\n\t{ \r\n\twatchdog_reset();\r\n\tif(bRXIN0) \r\n\t\t{\r\n\t\tbRXIN0=0;\r\n\t\r\n\t\tuart_in0();\r\n\t\t} \r\n\r\n\tif(bRXIN1) \r\n\t\t{\r\n\t\tbRXIN1=0;\r\n\t\r\n\t\tuart_in1();\r\n\t\t} \r\n\r\n\tif(b1000Hz)\r\n\t\t{\r\n\t\tb1000Hz=0;\r\n\r\n\r\n\t\t}\r\n\t\r\n\tif(b100Hz)\r\n\t\t{\r\n\t\tb100Hz=0;\r\n\r\n\t\tbut_drv();\r\n\t\tbut_an();\r\n\t\t}\r\n\t\t \r\n\tif(b50Hz)\r\n\t\t{\r\n\t\tb50Hz=0;\r\n\r\n\t\tnet_drv();\r\n\t\t}\r\n\r\n\tif(b10Hz)\r\n\t\t{\r\n\t\tchar i;\r\n\r\n\t\tb10Hz=0;\r\n\t\t\t\t\r\n\t\tu_necc_hndl();\r\n\t\t\r\n\t\tfor(i=0;i<NUMIST;i++)bps_drv(i);\r\n\t\tbps_hndl();\r\n\t\t\r\n\t\tif(BAT_IS_ON[0])bat_drv(0);\r\n\t\tif(BAT_IS_ON[1])bat_drv(1);\r\n\t\tbat_hndl();\r\n\t\t\t\t\r\n\t\tunet_drv();\r\n\r\n\t\t\r\n\t\t\r\n\t\tind_hndl(); \r\n\t\t#ifndef SIMULATOR\r\n\t\tbitmap_hndl();\r\n\t\tlcd_out(lcd_bitmap);\r\n\t\t#endif\r\n\t\tad7705_drv();\r\n\t\t//ad7705_write(0x20);\r\n\t\tret_hndl();\r\n\t\tmess_hndl();\r\n\t\tcntrl_hndl();\r\n\t\tret_hndl();\r\n\t\t}\r\n\r\n\tif(b5Hz)\r\n\t\t{\r\n\t\tb5Hz=0;\r\n\r\n\t\tmemo_read();\r\n\t\tmatemat();\r\n\t\trele_hndl();\r\n\t\tavar_hndl();\r\n \t\t}\r\n\r\n\tif(b2Hz)\r\n\t\t{\r\n\t\tb2Hz=0;\r\n\r\n\t\tpcf8563_read(1);\r\n \t\t}\r\n\r\n\tif(b1Hz)\r\n\t\t{\r\n\t\tb1Hz=0;\r\n\t\t\r\n\t\tsamokalibr_hndl();\r\n\t\tnum_necc_hndl();\r\n\t\t//zar_drv();\r\n\t\tubat_old_drv();\r\n\t\tkb_hndl();\r\n\t\tbeep_hndl();\r\n\t\tavg_hndl();\r\n\t\tvz_drv();\r\n\t\tavz_drv();\r\n\t\tke_drv();\r\n\r\n\t\tplazma_plazma_plazma++;\r\n\t\t}\r\n\t}\r\n}\r\n" }, { "alpha_fraction": 0.6146435737609863, "alphanum_fraction": 0.69749516248703, "avg_line_length": 37.92307662963867, "blob_id": "43cd417a0be3a3eb17ee8c80fd110ae4884589ea", "content_id": "aa156ffce244fc27ef3f8c351f40ca3c2a123420", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 519, "license_type": "no_license", "max_line_length": 91, "num_lines": 13, "path": "/SOFT/UKU/2rki/ips_sgep_gazprom.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"ips_sgep_gazprom.h\"\r\n#include \"25lc640.h\"\r\n#include \"eeprom_map.h\"\r\n#include \"main.h\"\r\n\r\nvoid ipsSgepGazpromEeSets(void)\r\n{\r\nif(lc640_read_int(ADR_EE_BAT_IS_ON[0])!=bisOFF)lc640_write_int(ADR_EE_BAT_IS_ON[0],bisOFF);\r\nif(lc640_read_int(ADR_EE_BAT_IS_ON[1])!=bisOFF)lc640_write_int(ADR_EE_BAT_IS_ON[1],bisOFF);\r\nif(lc640_read_int(EE_HV_VZ_STAT)!=hvsOFF)lc640_write(EE_HV_VZ_STAT,hvsOFF);\r\nif(lc640_read_int(EE_TBAT)!=0)lc640_write_int(EE_TBAT,0);\r\nif(lc640_read_int(EE_TZAS)!=3)lc640_write_int(EE_TZAS,0);\r\n}\r\n" }, { "alpha_fraction": 0.47880053520202637, "alphanum_fraction": 0.5447953939437866, "avg_line_length": 18.757652282714844, "blob_id": "3c3e8f1fa549793090c48372671a119c401a1a66", "content_id": "00706a6c0354dcfc39e2963290af8283fdf6d6b8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 8137, "license_type": "no_license", "max_line_length": 91, "num_lines": 392, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/uart2.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\n#include \"stdint.h\"\r\n#include \"uart0.h\"\r\n#include \"LPC17XX.H\" \r\n#include \"uart2.h\"\r\n#include \"main.h\"\r\n#include \"control.h\"\r\n#include \"cmd.c\"\r\n#include \"eeprom_map.h\"\r\n#include \"gran.h\"\r\n#include \"25lc640.h\"\r\n#include \"common_func.h\"\r\n#include \"modbus.h\"\r\n\r\nchar bRXIN2;\r\nchar UIB2[100]={0,0,0,0,0,0,0,0,0,0};\r\nchar UIB20[30]={0,0,0,0,0,0,0,0,0,0};\r\nchar flag2;\r\nchar rx_buffer2[RX_BUFFER_SIZE2];\r\nchar tx_buffer2[TX_BUFFER_SIZE2];\r\nunsigned short rx_wr_index2,rx_rd_index2,rx_counter2;\r\nunsigned short tx_wr_index2,tx_rd_index2,tx_counter2;\r\nchar rx_buffer_overflow2;\r\nchar plazma_uart2;\r\nchar memo_out2[50];\r\nchar data_rs2[50];\r\nchar data_rs02[50];\r\n\r\nvolatile uint32_t UART2Status;\r\nvolatile uint8_t UART2TxEmpty = 1;\r\n//volatile uint8_t UART0Buffer[BUFSIZE];\r\nvolatile uint32_t UART2Count = 0;\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid putchar2(char c)\r\n{\r\nwhile (tx_counter2 == TX_BUFFER_SIZE2);\r\nif (tx_counter2 \|\| ((LPC_UART2->LSR & 0x60)==0))\r\n {\r\n tx_buffer2[tx_wr_index2]=c;\r\n if (++tx_wr_index2 == TX_BUFFER_SIZE2) tx_wr_index2=0;\r\n ++tx_counter2;\r\n }\r\nelse \r\n\t{\r\n\tLPC_PINCON->PINSEL4 &= ~0x0000c000;//!!!!!!!!!!!\r\n\tLPC_PINCON->PINSEL4 \|= 0x00000000; //!!!!!!!!!!! \r\n\tLPC_GPIO2->FIODIR\|=(1UL<<7);\r\n\tLPC_GPIO2->FIOPIN\|=(1UL<<7);\r\n\tLPC_UART2->THR=c;\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid uart_out2 (char num,char data0,char data1,char data2,char data3,char data4,char data5)\r\n{\r\nchar i,t=0;\r\n//char ptr=&data1;\r\nchar UOB2[16]; \r\nUOB2[0]=data0;\r\nUOB2[1]=data1;\r\nUOB2[2]=data2;\r\nUOB2[3]=data3;\r\nUOB2[4]=data4;\r\nUOB2[5]=data5;\r\n\r\nfor (i=0;i<num;i++)\r\n\t{\r\n\tt^=UOB2[i];\r\n\t} \r\nUOB2[num]=num;\r\nt^=UOB2[num];\r\nUOB2[num+1]=t;\r\nUOB2[num+2]=END;\r\n\r\nfor (i=0;i<num+3;i++)\r\n\t{\r\n\tputchar2(UOB2[i]);\r\n\t} \t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid uart_out_adr2 (char ptr, char len)\r\n{\r\nchar UOB2[100];\r\nchar i,t=0;\r\n\r\nfor(i=0;i<len;i++)\r\n\t{\r\n\tUOB2[i]=ptr[i];\r\n\tt^=UOB2[i];\r\n\t}\r\n//if(!t)t=0xff;\r\nUOB2[len]=len;\r\nt^=len;\t\r\nUOB2[len+1]=t;\t\r\nUOB2[len+2]=END;\r\n\t\r\nfor (i=0;i<len+3;i++)\r\n\t{\r\n\tputchar2(UOB2[i]);\r\n\t} \r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid uart_out_adr2_block (unsigned long adress,char ptr, char len)\r\n{\r\n//char UOB2[100]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};\r\nchar /i,/temp11,t=0;\r\nunsigned i11;\r\n\r\nt=0;\r\ntemp11=CMND;\r\nt^=temp11;\r\nputchar2(temp11);\r\n\r\ntemp11=10;\r\nt^=temp11;\r\nputchar2(temp11);\r\n\r\ntemp11=(((char)&adress));\r\nt^=temp11;\r\nputchar2(temp11);\r\n\r\ntemp11=((((char)&adress)+1));\r\nt^=temp11;\r\nputchar2(temp11);\r\n\r\ntemp11=((((char)&adress)+2));\r\nt^=temp11;\r\nputchar2(temp11);\r\n\r\ntemp11=((((char)&adress)+3));\r\nt^=temp11;\r\nputchar2(temp11);\r\n\r\n\r\nfor(i11=0;i11<len;i11++)\r\n\t{\r\n\ttemp11=ptr[i11];\r\n\tt^=temp11;\r\n\tputchar2(temp11);\r\n\t}\r\n\t\r\ntemp11=(len+6);\r\nt^=temp11;\r\nputchar2(temp11);\r\n\r\nputchar2(t);\r\n\r\nputchar2(0x0a);\r\n\t\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nuint32_t UART_2_Init(uint32_t baudrate )\r\n{\r\nuint32_t Fdiv;\r\nuint32_t pclkdiv, pclk;\r\n\r\nLPC_PINCON->PINSEL4 &= ~0x000f0000;//!!!!!!!!!!!\r\nLPC_PINCON->PINSEL4 \|= 0x000a0000; //!!!!!!!!!!! \r\n\r\n\tLPC_PINCON->PINSEL4 &= ~0x0000c000;//!!!!!!!!!!!\r\n\tLPC_PINCON->PINSEL4 \|= 0x00000000; //!!!!!!!!!!! \r\n\tLPC_GPIO2->FIODIR\|=(1UL<<7);\r\n\tLPC_GPIO2->FIOPIN\|=(1UL<<7);\r\n\r\n/* RxD0 is P0.3 and TxD0 is P0.2 /\r\n\t/ By default, the PCLKSELx value is zero, thus, the PCLK for\r\n\tall the peripherals is 1/4 of the SystemFrequency. /\r\n\t/ Bit 6~7 is for UART0 /\r\npclkdiv = (LPC_SC->PCLKSEL0 >> 6) & 0x03;\r\nswitch ( pclkdiv )\r\n\t{\r\n\tcase 0x00:\r\n\tdefault:\r\n pclk = SystemFrequency/4;\r\n\tbreak;\r\n\tcase 0x01:\r\n\tpclk = SystemFrequency;\r\n\tbreak; \r\n\tcase 0x02:\r\n\tpclk = SystemFrequency/2;\r\n\tbreak; \r\n\tcase 0x03:\r\n\tpclk = SystemFrequency/8;\r\n\tbreak;\r\n\t}\r\n\r\nLPC_UART2->LCR = 0x83;\t\t/ 8 bits, no Parity, 1 Stop bit /\r\nFdiv = ( pclk / 16 ) / baudrate ;\t/baud rate /\r\nLPC_UART2->DLM = Fdiv / 256;\t\t\t\t\t\t\t\r\nLPC_UART2->DLL = Fdiv % 256;\r\nLPC_UART2->LCR = 0x03;\t\t/ DLAB = 0 /\r\nLPC_UART2->FCR = 0x07;\t\t/ Enable and reset TX and RX FIFO. /\r\n\r\nNVIC_EnableIRQ(UART2_IRQn);\r\n\r\nLPC_UART2->IER = IER_RBR \| IER_THRE \| IER_RLS;\t/ Enable UART2 interrupt /\r\nreturn (TRUE);\r\n}\r\n\r\n//-----------------------------------------------\r\nchar getchar2(void)\r\n{\r\nchar data;\r\nwhile (rx_counter2==0);\r\ndata=rx_buffer2[rx_rd_index2];\r\nif (++rx_rd_index2 == RX_BUFFER_SIZE2) rx_rd_index2=0;\r\n--rx_counter2;\r\nreturn data;\r\n}\r\n\r\n//*********************************************\r\nvoid UART2_IRQHandler (void) \r\n{\r\nuint8_t IIRValue, LSRValue;\r\nuint8_t Dummy = Dummy;\r\nchar /status,u2iir,/data;\r\n\r\n\t\t\t\r\nIIRValue = LPC_UART2->IIR;\r\n \r\nIIRValue >>= 1;\t\t\t/ skip pending bit in IIR /\r\nIIRValue &= 0x07;\t\t\t/ check bit 1~3, interrupt identification /\r\nif ( IIRValue == IIR_RLS )\t\t/ Receive Line Status /\r\n \t{\r\n\tLSRValue = LPC_UART2->LSR;\r\n\t/ Receive Line Status /\r\n\t\r\n\t\r\n\t\r\n\tif ( LSRValue & (LSR_OE\|LSR_PE\|LSR_FE\|LSR_RXFE\|LSR_BI) )\r\n\t\t{\r\n\t \t/ There are errors or break interrupt /\r\n\t \t/ Read LSR will clear the interrupt /\r\n\t \tUART2Status = LSRValue;\r\n\t \tDummy = LPC_UART2->RBR;\t\t/ Dummy read on RX to clear \r\n\t\t\t\t\t\t\tinterrupt, then bail out /\r\n\t \treturn;\r\n\t\t}\r\n\tif ( LSRValue & LSR_RDR )\t/ Receive Data Ready /\t\t\t\r\n\t\t{\r\n\t\t\r\n\t\tdata=LPC_UART2->RBR;\r\n\t\trx_buffer2[rx_wr_index2]=data;\r\n \t\tbRXIN2=1;\r\n \t\tif (++rx_wr_index2 == RX_BUFFER_SIZE2) rx_wr_index2=0;\r\n \t\tif (++rx_counter2 == RX_BUFFER_SIZE2)\r\n \t\t{\r\n \t\trx_counter2=0;\r\n \t\trx_buffer_overflow2=1;\r\n \t\t}\r\n\r\n\r\n\t\t}\r\n\r\n \t}\r\nelse if ( IIRValue == IIR_RDA )\t/ Receive Data Available /\r\n \t{\r\n\tplazma_uart2++;\r\n\tdata=LPC_UART2->RBR;\r\n\trx_buffer2[rx_wr_index2]=data;\r\n \tbRXIN2=1;\r\n \tif (++rx_wr_index2 == RX_BUFFER_SIZE2) rx_wr_index2=0;\r\n \tif (++rx_counter2 == RX_BUFFER_SIZE2)\r\n \t{\r\n \trx_counter2=0;\r\n \trx_buffer_overflow2=1;\r\n \t}\r\n\tmodbus_rx_buffer[modbus_rx_buffer_ptr]=data;\r\n\tmodbus_rx_buffer_ptr++;\r\n\tmodbus_timeout_cnt=0;\r\n\r\n \t}\r\nelse if ( IIRValue == IIR_CTI )\t/ Character timeout indicator /\r\n \t{\r\n\t/ Character Time-out indicator /\r\n\tUART2Status \|= 0x100;\t\t/ Bit 9 as the CTI error /\r\n \t}\r\nelse if ( IIRValue == IIR_THRE )\t/ THRE, transmit holding register empty /\r\n \t{\r\n\t/ THRE interrupt /\r\n\t\r\n\tLSRValue = LPC_UART2->LSR;\t\t/ Check status in the LSR to see if\r\n\t\t\t\t\t\t\t\t\tvalid data in U0THR or not /\r\n\tif ( LSRValue & LSR_THRE )\r\n\t\t{\r\n\t \tUART2TxEmpty = 1;\r\n\t\tif (tx_counter2)\r\n \t\t\t{\r\n \t\t\t--tx_counter2;\r\n \t\t\tLPC_UART2->THR=tx_buffer2[tx_rd_index2];\r\n \t\t\tif (++tx_rd_index2 == TX_BUFFER_SIZE2) tx_rd_index2=0;\r\n \t\t\t}\r\n\t\t//else LPC_GPIO2->FIOPIN&=~(1UL<<7);\r\n\t\t}\r\n\telse\r\n\t\t{\r\n\t \tUART2TxEmpty = 0;\r\n\t\t}\r\n \t}\r\n}\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nvoid uart_in_an2(void)\r\n{\r\n\r\n\r\n\r\n}\r\n\r\n\r\n\r\n//-----------------------------------------------\r\nsigned short index_offset2 (signed short index,signed short offset)\r\n{\r\nindex=index+offset;\r\nif(index>=RX_BUFFER_SIZE2) index-=RX_BUFFER_SIZE2; \r\nif(index<0) index+=RX_BUFFER_SIZE2;\r\nreturn index;\r\n}\r\n\r\n//-----------------------------------------------\r\nchar control_check2(signed short index)\r\n{\r\nchar i=0,ii=0,iii;\r\n\r\nif(rx_buffer2[index]!=END) goto error_cc;\r\n\r\nii=rx_buffer2[index_offset2(index,-2)];\r\niii=0;\r\nfor(i=0;i<=ii;i++)\r\n\t{\r\n\tiii^=rx_buffer2[index_offset2(index,-2-ii+i)];\r\n\t}\r\nif (iii!=rx_buffer2[index_offset2(index,-1)]) goto error_cc;\t\r\n\r\n\r\n//success_cc:\r\nreturn 1;\r\nerror_cc:\r\nreturn 0;\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid uart_in2(void)\r\n{\r\nchar temp,i;\r\n\r\n\r\n\r\nif(rx_buffer_overflow2)\r\n\t{\r\n\trx_wr_index2=0;\r\n\trx_rd_index2=0;\r\n\trx_counter2=0;\r\n\trx_buffer_overflow2=0;\r\n\t} \r\n\t\r\nif(rx_counter2&&(rx_buffer2[index_offset2(rx_wr_index2,-1)])==END)\r\n\t{\r\n\t\r\n //plazma_uart2++;\r\n\r\n temp=rx_buffer2[index_offset2(rx_wr_index2,-3)];\r\n \tif(temp<100) \r\n \t\t{\r\n \t\tif(control_check2(index_offset2(rx_wr_index2,-1)))\r\n \t\t\t{\r\n \t\t\r\n \t\t\trx_rd_index2=index_offset2(rx_wr_index2,-3-temp);\r\n \t\t\tfor(i=0;i<temp;i++)\r\n\t\t\t\t{\r\n\t\t\t\tUIB2[i]=rx_buffer2[index_offset2(rx_rd_index2,i)];\r\n\t\t\t\t} \r\n\t\t\trx_rd_index2=rx_wr_index2;\r\n\t\t\trx_counter2=0;\r\n\t\t\t\r\n\t\t\tuart_in_an2();\r\n \t\t}\r\n \t\r\n \t} \r\n }\t\r\n}" }, { "alpha_fraction": 0.6311688423156738, "alphanum_fraction": 0.6415584683418274, "avg_line_length": 16.350000381469727, "blob_id": "46aea6cd0fbd0e53e351853d6f2029f68b56aeb8", "content_id": "5cce6191b7136c8c81a0831a340f846f523cb5fa", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 385, "license_type": "no_license", "max_line_length": 40, "num_lines": 20, "path": "/SOFT/UKU/Олег-2021.02.12/ret.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#ifndef _RET_H_\r\n\r\n#define _RET_H_\r\n\r\nextern char retind,retsub,retindsec;\r\nextern int retcnt,retcntsec;\r\nextern unsigned char f0,fc0,f1,fc1;\r\nextern short ret_duty;\r\n\r\nvoid ret_ind(char r_i,char r_s,int r_c);\r\nvoid ret_ind_hndl(void);\r\nvoid ret_ind_sec(char r_i,int r_c);\r\nvoid ret_ind_sec_hndl(void);\r\nvoid ret(short duty);\r\nvoid ret_hndl(void);\r\n\r\n#endif\r\n\r\n\r\n//\r\n\r\n\r\n\r\n \r\n\r\n \r\n" }, { "alpha_fraction": 0.4450097978115082, "alphanum_fraction": 0.5264188051223755, "avg_line_length": 16.78676414489746, "blob_id": "b90d2a10ee1fea1deee3f390eb213b08866ca5fa", "content_id": "01800888592b896fd12bd074e5f3f3b11d0aa4f7", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 2555, "license_type": "no_license", "max_line_length": 112, "num_lines": 136, "path": "/SOFT/UKU/2rki/beep.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"beep.h\"\r\n#include \"main.h\"\r\n#include \"LPC17XX.H\"\r\n#include \"avar_hndl.h\"\r\n#include \"mess.h\"\r\n\r\nunsigned long beep_stat_temp,beep_stat;\r\nchar beep_stat_cnt;\r\nchar beep_cnt;\r\nchar bU_BAT2REL_AV_BAT;\r\n\r\n//-----------------------------------------------\r\nvoid beep_drv(void)\r\n{\r\nLPC_GPIO1->FIODIR\|=(1UL<<31);\r\nif((beep_stat_temp&0x00000001UL)&&(ZV_ON))\r\n \t{\r\n \tLPC_GPIO1->FIOSET\|=(1UL<<31);\r\n \tbeep_cnt=6;\r\n \t}\r\nelse LPC_GPIO1->FIOCLR\|=(1UL<<31);\r\n\r\nbeep_stat_temp>>=1;\r\nif(--beep_stat_cnt==0)\r\n\t{\r\n\tbeep_stat_cnt=32;\r\n\tbeep_stat_temp=beep_stat;\r\n\t}\r\n\r\n//IO1SET\|=(1UL<<27);\r\n//FIO1SET\|=(1UL<<27);\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid beep_init(long zvuk,char fl) \r\n{\r\nif(fl=='O')\r\n\t{\r\n\tbeep_stat_temp=zvuk;\r\n\tbeep_stat=0x0L;\r\n\tbeep_stat_cnt=32;\r\n\t} \r\nelse if(fl=='A')\r\n\t{\r\n\tbeep_stat_temp=zvuk;\r\n\tbeep_stat=zvuk;\r\n\tbeep_stat_cnt=32;\r\n\t}\t \r\n\r\nelse if(fl=='R')\r\n\t{\r\n\tbeep_stat=zvuk;\r\n\t}\t\r\n\t\t \r\nelse if(fl=='S')\r\n\t{\r\n\tbeep_stat_temp=0x0L;\r\n\tbeep_stat=0x0L;\r\n\tbeep_stat_cnt=32;\r\n\t}\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid beep_hndl(void) \r\n{ \r\nstatic char bcnt;\r\nbcnt++; \r\nif(bcnt>9)bcnt=0;\r\n//bU_BAT2REL_AV_BAT=0;\r\nif((avar_ind_stat)\|\|(ips_bat_av_stat))beep_init(0x33333333,'R');\r\n\r\n\r\nelse if ( (((bat[0]._Ub<(USIGN10))&&(BAT_IS_ON[0]==bisON))\|\|((bat[1]._Ub<(USIGN10))&&(BAT_IS_ON[1]==bisON)))) \r\n\t{\r\n\tif(!bSILENT)\r\n\t\t{\r\n\t\tbeep_init(0x01010101,'R');\r\n\t\tmess_send(MESS2RELE_HNDL,PARAM_RELE_BAT_IS_DISCHARGED,1,5);\r\n\t\t}\r\n\r\n\t//bU_BAT2REL_AV_BAT=1;\r\n\t}\r\n\r\nelse if ( (((bat[0]._Ib<(-IKB))&&(BAT_IS_ON[0]==bisON))\|\|((bat[1]._Ib<(-IKB))&&(BAT_IS_ON[1]==bisON)))) \r\n\t{\r\n\tif(!bSILENT)beep_init(0x00010001,'R');\r\n\t//bU_BAT2REL_AV_BAT=1;\r\n\t}\r\n\r\nelse if ( ((bat[0]._temper_stat&0x03)\|\|(bat[1]._temper_stat&0x03)) )\r\n\t{\r\n\tif(!bSILENT) beep_init(0x00000005,'R');\r\n\t}\r\n\r\n\r\nelse \r\n\t{\r\n\tbeep_init(0x00000000,'S');\r\n\tbSILENT=0;\r\n\t} \r\n\r\n\r\n//if(!avar_ind_stat)beep_init(0x00000000,'R');\r\n\r\n/if(K[MNL]==ON)\r\n\t{ /\r\n//if(((av_beep&0xffff)&&(ind!=iK)&&(ind!=iTst))\r\n//\t/\|\|((!T_EXT_ZVUK_EN[0])&&((tout_stat[0]==tMIN)\|\|(tout_stat[0]==tMAX)))/)beep_init(0x55555555,'R'); \r\n\r\n//else if(bUrazr&&(!bUOFF))beep_init(0x00010001,'R');\r\n\r\n//else if(bIrazr&&(cnt_beep==0))beep_init(0x01010101,'R');\r\n\r\n/\r\nelse if(bTsi\|\|bTsb)\r\n\t{\r\n\tif(!bcnt)beep_init(0x00000001,'O');\r\n }\r\n\r\nelse if(bIbr) beep_init(0x00000001,'R');\r\n/\r\n\r\n\r\n//else beep_init(0x00000000,'S');\r\n\r\n\r\n\r\nbU_BAT2REL_AV_BAT=0;\r\n#ifdef UKU206_220\r\nif (((bat[0]._Ub<(USIGN10))&&(BAT_IS_ON[0]==bisON))) \r\n\t{\r\n\tbU_BAT2REL_AV_BAT=1;\r\n\t}\r\n#endif\r\n\r\n}\r\n" }, { "alpha_fraction": 0.5668928623199463, "alphanum_fraction": 0.6606259942054749, "avg_line_length": 45.018619537353516, "blob_id": "f8011988a08d21de13e0c0667c483c9f5b04b3d8", "content_id": "29a64c56d3b370e6745aed3578be72f05e3bda0e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 166196, "license_type": "no_license", "max_line_length": 203, "num_lines": 3115, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/modbus.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "\r\n#include \"snmp_data_file.h\" \n#include <lpc17xx.h>\n#include \"modbus.h\"\n//#include \"LPC17xx.H\"\n#include \"main.h\"\r\n#include \"control.h\"\n#include <string.h>\n\n#include \"eeprom_map.h\"\r\n#include \"rtl.h\"\r\n#include \"modbus_tcp.h\"\r\n#include \"25lc640.h\"\r\n#include \"sc16is7xx.h\"\r\n#include \"uart0.h\"\r\n#include \"avar_hndl.h\"\r\n#include \"curr_version.h\"\r\n\n#define MODBUS_RTU_PROT\t0\r\n\nextern int mem_copy (void dp, void sp, int len);\n\nunsigned char modbus_buf[20];\nshort modbus_crc16;\nchar modbus_timeout_cnt;\nchar bMODBUS_TIMEOUT;\nunsigned char modbus_rx_buffer[30];\t//Буфер, куда складывает принимаемые даннные обработчик прерывания по приему УАРТа \nunsigned char modbus_an_buffer[30]; \t//Буфер, куда они потом копируются для анализа\nunsigned char modbus_rx_buffer_ptr;\t//Указатель на текущую позицию принимающего буфера\nunsigned char modbus_rx_counter;\t\t//Количество принятых байт, используется при анализе целостности посылки и при расшифровке\n\nshort modbus_plazma;\t\t\t\t//Отладка\nshort modbus_plazma1;\t\t\t\t//Отладка\nshort modbus_plazma2;\t\t\t\t//Отладка\nshort modbus_plazma3;\t\t\t\t//Отладка\r\nshort modbus_plazma_p;\t\t\t\t//Отладка\nshort modbus_plazma_pp;\t\t\t\t//Отладка\r\n\r\nunsigned short modbus_rx_arg0;\t\t//встроенный в посылку первый аргумент\nunsigned short modbus_rx_arg1;\t\t//встроенный в посылку второй аргумент\nunsigned short modbus_rx_arg2;\t\t//встроенный в посылку третий аргумент\nunsigned short modbus_rx_arg3;\t\t//встроенный в посылку четвертый аргумент\r\n\r\nchar modbus_tx_buff[100];\r\n\n//char modbus_registers[200];\r\n\r\n//static const char foo[] = \"I wish I'd read K&R, and other tomes more diligently\";\r\n\r\n\r\n\n/modbus_registers[3]=(char)(bps_I%256);\nmodbus_registers[4]=(char)(net_U/256);\t\t\t\t\t//Рег3 \tнапряжение сети питания, 1В\nmodbus_registers[5]=(char)(net_U%256);\nmodbus_registers[6]=(char)(net_F/256);\t\t\t\t\t//Рег4 \tчастота сети питания, 0.1Гц\nmodbus_registers[7]=(char)(net_F%256);\nmodbus_registers[8]=(char)(net_Ua/256);\t\t\t\t\t//Рег5\tнапряжение сети питания фаза A, 1В\t\nmodbus_registers[9]=(char)(net_Ua%256);\t\t \t\nmodbus_registers[10]=(char)(net_Ub/256);\t\t\t\t//Рег6\tнапряжение сети питания фаза B, 1В\nmodbus_registers[11]=(char)(net_Ub%256);\nmodbus_registers[12]=(char)(net_Uc/256);\t\t\t\t//Рег7\tнапряжение сети питания фаза C, 1В\nmodbus_registers[13]=(char)(net_Uc%256);\nmodbus_registers[14]=(char)(bat[0]._Ub/256);\t\t\t\t//Рег8\tнапряжение батареи №1, 0.1В\nmodbus_registers[15]=(char)(bat[0]._Ub%256);\nmodbus_registers[16]=(char)(bat[0]._Ib/256);\t\t\t\t//Рег9 \tток батареи №1, 0.01А\nmodbus_registers[17]=(char)(bat[0]._Ib%256);\r\nmodbus_registers[18]=(char)(bat[0]._Tb/256);\t\t\t\t//Рег10\tтемпература батареи №1, 1Гц\nmodbus_registers[19]=(char)(bat[0]._Tb%256);\nmodbus_registers[20]=(char)(bat[0]._zar/256);\t\t\t//Рег11\tзаряд батареи №1, %\nmodbus_registers[21]=(char)(bat[0]._zar%256);\nmodbus_registers[22]=(char)(bat[0]._Ubm/256);\t\t\t//Рег12\tнапряжение средней точки батареи №1, 0.1В\nmodbus_registers[23]=(char)(bat[0]._Ubm%256);\nmodbus_registers[24]=(char)(bat[0]._dUbm/256);\t\t\t//Рег13\tошибка средней точки батареи №1, %\nmodbus_registers[25]=(char)(bat[0]._dUbm%256);\nmodbus_registers[26]=(char)(BAT_C_REAL[0]/256);\t\t\t//Рег14\tРеальная емкость батареи №1, 0.1Ач, если 0x5555 то не измерялась\nmodbus_registers[27]=(char)(BAT_C_REAL[0]%256);\nmodbus_registers[28]=(char)(bat[1]._Ub/256);\t\t\t\t//Рег15\tнапряжение батареи №1, 0.1В\nmodbus_registers[29]=(char)(bat[1]._Ub%256);\nmodbus_registers[30]=(char)(bat[1]._Ib/256);\t\t\t\t//Рег16 \tток батареи №1, 0.01А\nmodbus_registers[31]=(char)(bat[1]._Ib%256);\nmodbus_registers[32]=(char)(bat[1]._Tb/256);\t\t\t\t//Рег17\tтемпература батареи №1, 1Гц\nmodbus_registers[33]=(char)(bat[1]._Tb%256);\nmodbus_registers[34]=(char)(bat[1]._zar/256);\t\t\t//Рег18\tзаряд батареи №1, %\nmodbus_registers[35]=(char)(bat[1]._zar%256);\nmodbus_registers[36]=(char)(bat[1]._Ubm/256);\t\t\t//Рег19\tнапряжение средней точки батареи №1, 0.1В\nmodbus_registers[37]=(char)(bat[1]._Ubm%256);\nmodbus_registers[38]=(char)(bat[1]._dUbm/256);\t\t\t//Рег20\tошибка средней точки батареи №1, %\nmodbus_registers[39]=(char)(bat[1]._dUbm%256);\nmodbus_registers[40]=(char)(BAT_C_REAL[1]/256);\t\t\t//Рег21\tРеальная емкость батареи №1, 0.1Ач, если 0x5555 то не измерялась\nmodbus_registers[41]=(char)(BAT_C_REAL[1]%256);\nmodbus_registers[42]=(char)(bps[0]._Uii/256);\t\t\t//Рег22\tВыходное напряжение выпрямителя №1, 0.1В\nmodbus_registers[43]=(char)(bps[0]._Uii%256);\nmodbus_registers[44]=(char)(bps[0]._Ii/256);\t\t\t\t//Рег23\tВыходной ток выпрямителя №1, 0.1А\nmodbus_registers[45]=(char)(bps[0]._Ii%256);\nmodbus_registers[46]=(char)(bps[0]._Ti/256);\t\t\t\t//Рег24\tТемпература радиатора выпрямителя №1, 1гЦ\nmodbus_registers[47]=(char)(bps[0]._Ti%256);\nmodbus_registers[48]=(char)(bps[0]._av/256);\t\t\t\t//Рег25\tБайт флагов выпрямителя №1, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[49]=(char)(bps[0]._av%256);\nmodbus_registers[50]=(char)(bps[1]._Uii/256);\t\t\t//Рег26\tВыходное напряжение выпрямителя №2, 0.1В\nmodbus_registers[51]=(char)(bps[1]._Uii%256);\nmodbus_registers[52]=(char)(bps[1]._Ii/256);\t\t\t\t//Рег27\tВыходной ток выпрямителя №2, 0.1А\nmodbus_registers[53]=(char)(bps[1]._Ii%256);\nmodbus_registers[54]=(char)(bps[1]._Ti/256);\t\t\t\t//Рег28\tТемпература радиатора выпрямителя №2, 1гЦ\nmodbus_registers[55]=(char)(bps[1]._Ti%256);\nmodbus_registers[56]=(char)(bps[1]._av/256);\t\t\t\t//Рег29\tБайт флагов выпрямителя №2, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[57]=(char)(bps[1]._av%256);\nmodbus_registers[58]=(char)(bps[2]._Uii/256);\t\t\t//Рег30\tВыходное напряжение выпрямителя №3, 0.1В\nmodbus_registers[59]=(char)(bps[2]._Uii%256);\nmodbus_registers[60]=(char)(bps[2]._Ii/256);\t\t\t\t//Рег31\tВыходной ток выпрямителя №3, 0.1А\nmodbus_registers[61]=(char)(bps[2]._Ii%256);\nmodbus_registers[62]=(char)(bps[2]._Ti/256);\t\t\t\t//Рег32\tТемпература радиатора выпрямителя №3, 1гЦ\nmodbus_registers[63]=(char)(bps[2]._Ti%256);\nmodbus_registers[64]=(char)(bps[2]._av/256);\t\t\t\t//Рег33\tБайт флагов выпрямителя №3, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[65]=(char)(bps[2]._av%256);\nmodbus_registers[66]=(char)(bps[3]._Uii/256);\t\t\t//Рег34\tВыходное напряжение выпрямителя №4, 0.1В\nmodbus_registers[67]=(char)(bps[3]._Uii%256);\nmodbus_registers[68]=(char)(bps[3]._Ii/256);\t\t\t\t//Рег35\tВыходной ток выпрямителя №4, 0.1А\nmodbus_registers[69]=(char)(bps[3]._Ii%256);\nmodbus_registers[70]=(char)(bps[3]._Ti/256);\t\t\t\t//Рег36\tТемпература радиатора выпрямителя №4, 1гЦ\nmodbus_registers[71]=(char)(bps[3]._Ti%256);\nmodbus_registers[72]=(char)(bps[3]._av/256);\t\t\t\t//Рег37\tБайт флагов выпрямителя №4, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[73]=(char)(bps[3]._av%256);\nmodbus_registers[74]=(char)(bps[4]._Uii/256);\t\t\t//Рег38\tВыходное напряжение выпрямителя №5, 0.1В\nmodbus_registers[75]=(char)(bps[4]._Uii%256);\nmodbus_registers[76]=(char)(bps[4]._Ii/256);\t\t\t\t//Рег39\tВыходной ток выпрямителя №5, 0.1А\nmodbus_registers[77]=(char)(bps[4]._Ii%256);\nmodbus_registers[78]=(char)(bps[4]._Ti/256);\t\t\t\t//Рег40\tТемпература радиатора выпрямителя №5, 1гЦ\nmodbus_registers[79]=(char)(bps[4]._Ti%256);\nmodbus_registers[80]=(char)(bps[4]._av/256);\t\t\t\t//Рег41\tБайт флагов выпрямителя №5, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[81]=(char)(bps[4]._av%256);\nmodbus_registers[82]=(char)(bps[5]._Uii/256);\t\t\t//Рег42\tВыходное напряжение выпрямителя №6, 0.1В\nmodbus_registers[83]=(char)(bps[5]._Uii%256);\nmodbus_registers[84]=(char)(bps[5]._Ii/256);\t\t\t\t//Рег43\tВыходной ток выпрямителя №6, 0.1А\nmodbus_registers[85]=(char)(bps[5]._Ii%256);\nmodbus_registers[86]=(char)(bps[5]._Ti/256);\t\t\t\t//Рег44\tТемпература радиатора выпрямителя №6, 1гЦ\nmodbus_registers[87]=(char)(bps[5]._Ti%256);\nmodbus_registers[88]=(char)(bps[5]._av/256);\t\t\t\t//Рег45\tБайт флагов выпрямителя №6, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[89]=(char)(bps[5]._av%256);\nmodbus_registers[90]=(char)(bps[6]._Uii/256);\t\t\t//Рег46\tВыходное напряжение выпрямителя №7, 0.1В\nmodbus_registers[91]=(char)(bps[6]._Uii%256);\nmodbus_registers[92]=(char)(bps[6]._Ii/256);\t\t\t\t//Рег47\tВыходной ток выпрямителя №7, 0.1А\nmodbus_registers[93]=(char)(bps[6]._Ii%256);\nmodbus_registers[94]=(char)(bps[6]._Ti/256);\t\t\t\t//Рег48\tТемпература радиатора выпрямителя №7, 1гЦ\nmodbus_registers[95]=(char)(bps[6]._Ti%256);\nmodbus_registers[96]=(char)(bps[6]._av/256);\t\t\t\t//Рег49\tБайт флагов выпрямителя №7, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[97]=(char)(bps[6]._av%256);\nmodbus_registers[98]=(char)(bps[7]._Uii/256);\t\t\t//Рег50\tВыходное напряжение выпрямителя №8, 0.1В\nmodbus_registers[99]=(char)(bps[7]._Uii%256);\nmodbus_registers[100]=(char)(bps[7]._Ii/256);\t\t\t//Рег51\tВыходной ток выпрямителя №8, 0.1А\nmodbus_registers[101]=(char)(bps[7]._Ii%256);\nmodbus_registers[102]=(char)(bps[7]._Ti/256);\t\t\t//Рег52\tТемпература радиатора выпрямителя №8, 1гЦ\nmodbus_registers[103]=(char)(bps[7]._Ti%256);\nmodbus_registers[104]=(char)(bps[7]._av/256);\t\t\t//Рег53\tБайт флагов выпрямителя №8, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[105]=(char)(bps[7]._av%256);\r\nmodbus_registers[106]=(char)(bps_U/256);\t\t\t\t\t//Рег54 \tнапряжение выпрямителей, 0.1В\nmodbus_registers[107]=(char)(bps_U%256);\r\ntempS=0;\r\nif(speedChIsOn) tempS=1;\r\nmodbus_registers[108]=(char)(tempS/256);\t\t\t\t\t//Рег55 \tУскоренный заряд включенность, (1 - вкл, 0 - Выкл)\nmodbus_registers[109]=(char)(tempS%256);\r\ntempS=0;\r\nif(spc_stat==spcVZ) tempS=1;\r\nmodbus_registers[110]=(char)(tempS/256);\t\t\t\t\t//Рег56 \tВыравнивающий заряд включенность, (1 - вкл, 0 - Выкл)\nmodbus_registers[111]=(char)(tempS%256);\r\nmodbus_registers[112]=(char)(uout_av/256);\t\t\t\t\t//Рег57 Контроль выходного напряжения, (0 - норма, 1 - завышено, 2 - занижено)\nmodbus_registers[113]=(char)(uout_av%256);\r\n\ntempS=t_ext[0];\r\nif(ND_EXT[0])tempS=-1000;\r\nmodbus_registers[400]=(char)(tempS/256);\t\t\t\t//Рег201\tВнешний датчик температуры №1\nmodbus_registers[401]=(char)(tempS%256);\r\ntempS=t_ext[1];\r\nif(ND_EXT[1])tempS=-1000;\r\nmodbus_registers[402]=(char)(tempS/256);\t\t\t\t//Рег202\tВнешний датчик температуры №2\nmodbus_registers[403]=(char)(tempS%256);\r\ntempS=t_ext[2];\r\nif(ND_EXT[2])tempS=-1000;\r\nmodbus_registers[404]=(char)(tempS/256);\t\t\t\t//Рег203\tВнешний датчик температуры №3\nmodbus_registers[405]=(char)(tempS%256);\r\ntempS=t_ext[3];\r\nif(ND_EXT[3])tempS=-1000;\r\nmodbus_registers[406]=(char)(tempS/256);\t\t\t\t//Рег204\tВнешний датчик температуры №4\nmodbus_registers[407]=(char)(tempS%256);\r\n\r\ntempS=0;\r\nif(sk_stat[0]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[0]==sasON) tempS\|=0x0002;\r\nmodbus_registers[420]=(char)(tempS/256);\t\t\t\t//Рег211\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[421]=(char)(tempS%256);\r\ntempS=0;\r\nif(sk_stat[1]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[1]==sasON) tempS\|=0x0002;\r\nmodbus_registers[422]=(char)(tempS/256);\t\t\t\t//Рег212\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[423]=(char)(tempS%256);\r\ntempS=0;\r\nif(sk_stat[2]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[2]==sasON) tempS\|=0x0002;\r\nmodbus_registers[424]=(char)(tempS/256);\t\t\t\t//Рег213\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[425]=(char)(tempS%256);\r\ntempS=0;\r\nif(sk_stat[3]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[3]==sasON) tempS\|=0x0002;\r\nmodbus_registers[426]=(char)(tempS/256);\t\t\t\t//Рег214\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[427]=(char)(tempS%256);\r\n\r\nif(prot==MODBUS_RTU_PROT)\r\n\t{\r\n\tmodbus_tx_buff[0]=adr;\n\tmodbus_tx_buff[1]=func;\n\n\tmodbus_tx_buff[2]=(char)(reg_quantity2);\n\n\tmem_copy((char)&modbus_tx_buff[3],(char)&modbus_registers[(reg_adr-1)2],reg_quantity2);\n\n\tcrc_temp=CRC16_2(modbus_tx_buff,(reg_quantity2)+3);\n\n\tmodbus_tx_buff[3+(reg_quantity2)]=crc_temp%256;\n\tmodbus_tx_buff[4+(reg_quantity2)]=crc_temp/256;\n\n\tfor (i=0;i<(5+(reg_quantity2));i++)\n\t\t{\n\t\tputchar0(modbus_tx_buff[i]);\n\t\t}\r\n\tfor (i=0;i<(5+(reg_quantity2));i++)\n\t\t{\n\t\tputchar_sc16is700(modbus_tx_buff[i]);\n\t\t}\r\n\t}\r\nelse if(prot==MODBUS_TCP_PROT)\r\n\t{\r\n\tmodbus_tcp_out_ptr=(char)&modbus_registers[(reg_adr-1)2];\r\n\t} /\r\n\r\n\t// \t};\r\n\n\n//-----------------------------------------------\nunsigned short CRC16_2(char* buf, short len)\n{\nunsigned short crc = 0xFFFF;\nshort pos;\nshort i;\n\nfor (pos = 0; pos < len; pos++)\n \t{\n \tcrc ^= (unsigned short)buf[pos]; // XOR byte into least sig. byte of crc\n\n \tfor ( i = 8; i != 0; i--) \n\t\t{ // Loop over each bit\n \tif ((crc & 0x0001) != 0) \n\t\t\t{ // If the LSB is set\n \t\tcrc >>= 1; // Shift right and XOR 0xA001\n \t\tcrc ^= 0xA001;\n \t\t}\n \telse crc >>= 1; // Just shift right\n \t\t}\n \t}\n // Note, this number has low and high bytes swapped, so use it accordingly (or swap bytes)\nreturn crc;\n}\r\n\r\n//-----------------------------------------------\r\n//o_12_s\r\nvoid modbus_zapros_ENMV (void){\t \r\nunsigned short crc_temp;\r\nunsigned char i_cnt;\r\n\tif(cnt_enmv_modbus_adress<(NUMENMV-1)) ++cnt_enmv_modbus_adress;\r\n\telse cnt_enmv_modbus_adress=0;\r\n\r\n\tif(enmv_on[cnt_enmv_modbus_adress]<10) ++enmv_on[cnt_enmv_modbus_adress];\r\n \telse {\r\n\t\tfor (i_cnt=0;i_cnt<64;i_cnt++) snmp_enmv_data[i_cnt][cnt_enmv_modbus_adress]=0xFF;\r\n\t\tfor (i_cnt=0;i_cnt<8;i_cnt++) {enmv_data[i_cnt][cnt_enmv_modbus_adress]=0; enmv_data_pred[i_cnt][cnt_enmv_modbus_adress]=0;}\r\n\t}\r\n\r\n\tmodbus_tx_buff[0]=enmv_modbus_adress[cnt_enmv_modbus_adress];\n\tmodbus_tx_buff[1]=1;\n\tmodbus_tx_buff[2]=0;\n\tmodbus_tx_buff[3]=0;\r\n\tmodbus_tx_buff[4]=0;\r\n\tmodbus_tx_buff[5]=64;\r\n\tcrc_temp=CRC16_2(modbus_tx_buff,6);\n\tmodbus_tx_buff[6]=(char)crc_temp;\n\tmodbus_tx_buff[7]=crc_temp>>8;\n\tfor (i_cnt=0;i_cnt<8;i_cnt++)\tputchar_sc16is700(modbus_tx_buff[i_cnt]);\n\t\t\r\n\r\n} \r\n\n//-----------------------------------------------\nvoid modbus_in(void)\n{\nshort crc16_calculated;\t\t//вычисляемая из принятых данных CRC\nshort crc16_incapsulated;\t//встроеннная в посылку CRC\nunsigned short modbus_rx_arg0;\t\t//встроенный в посылку первый аргумент\nunsigned short modbus_rx_arg1;\t\t//встроенный в посылку второй аргумент\n//unsigned short modbus_rx_arg2;\t\t//встроенный в посылку третий аргумент\n//unsigned short modbus_rx_arg3;\t\t//встроенный в посылку четвертый аргумент\nunsigned char modbus_func;\t\t\t//встроенный в посылку код функции\nchar i_cnt, j_cnt; //o_2\n\n\nmem_copy(modbus_an_buffer,modbus_rx_buffer,modbus_rx_buffer_ptr);\nmodbus_rx_counter=modbus_rx_buffer_ptr;\nmodbus_rx_buffer_ptr=0;\nbMODBUS_TIMEOUT=0;\n\t\ncrc16_calculated = CRC16_2((char)modbus_an_buffer, modbus_rx_counter-2);\ncrc16_incapsulated = ((short)&modbus_an_buffer[modbus_rx_counter-2]);\n\nmodbus_plazma1=modbus_rx_counter;\nmodbus_plazma2=crc16_calculated;\nmodbus_plazma3=crc16_incapsulated;\n\nmodbus_func=modbus_an_buffer[1];\nmodbus_rx_arg0=(((unsigned short)modbus_an_buffer[2])((unsigned short)256))+((unsigned short)modbus_an_buffer[3]);\nmodbus_rx_arg1=(((unsigned short)modbus_an_buffer[4])((unsigned short)256))+((unsigned short)modbus_an_buffer[5]);\n//modbus_rx_arg2=(((unsigned short)modbus_an_buffer[6])((unsigned short)256))+((unsigned short)modbus_an_buffer[7]);\n//modbus_rx_arg3=(((unsigned short)modbus_an_buffer[8])((unsigned short)256))+((unsigned short)modbus_an_buffer[9]);\r\n\n//#define IPS_CURR_AVG_MODBUS_ADRESS\t1\r\n\r\n\r\nif(modbus_an_buffer[0]=='r')\r\n\t{\r\n\tpvlk=1;\r\n\tif(modbus_an_buffer[1]=='e')\r\n\t\t{\r\n\t\tpvlk=2;\r\n\t\tif(modbus_an_buffer[2]=='a')\r\n\t\t\t{\r\n\t\t\tpvlk=3;\r\n\t\t\tif(modbus_an_buffer[3]=='d')\r\n\t\t\t\t{\r\n\t\t\t\tpvlk=4;\r\n\t\t\t\tif(modbus_an_buffer[6]==crc_87(modbus_an_buffer,6))\r\n\t\t\t\t\t{\r\n\t\t\t\t\tpvlk=5;\r\n\t\t\t\t\tif(modbus_an_buffer[7]==crc_95(modbus_an_buffer,6))\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\tpvlk=6;\t\r\n\r\n\t\t\t\t\t\t\t{\r\n\t\t\t\t\t\t\tunsigned short ptr;\r\n\t\t\t\t\t\t\tunsigned long data1,data2;\r\n\t\t\t\t\t\t\tchar temp_out[20];\r\n\t\t\t\t\t\t\tpvlk++;\r\n\t\t\t\t\t\t\tptr=modbus_an_buffer[4]+(modbus_an_buffer[5]256U);\r\n\t\t\t\t\t\t\tdata1=lc640_read_long(ptr);\r\n\t\t\t\t\t\t\tdata2=lc640_read_long(ptr+4);\r\n\t\t\t\t\t\t\ttemp_out[0]='r';\r\n\t\t\t\t\t\t\ttemp_out[1]='e';\r\n\t\t\t\t\t\t\ttemp_out[2]='a';\r\n\t\t\t\t\t\t\ttemp_out[3]='d';\r\n\t\t\t\t\t\t\ttemp_out[4]=((char)&ptr);\r\n\t\t\t\t\t\t\ttemp_out[5]=(((char)&ptr)+1);\t\r\n\t\t\t\t\t\t\ttemp_out[6]=((char)&data1);\r\n\t\t\t\t\t\t\ttemp_out[7]=(((char)&data1)+1);\t\t\r\n\t\t\t\t\t\t\ttemp_out[8]=(((char)&data1)+2);\t\r\n\t\t\t\t\t\t\ttemp_out[9]=(((char)&data1)+3);\t\t\r\n\t\t\t\t\t\t\ttemp_out[10]=((char)&data2);\r\n\t\t\t\t\t\t\ttemp_out[11]=(((char)&data2)+1);\t\t\r\n\t\t\t\t\t\t\ttemp_out[12]=(((char)&data2)+2);\t\r\n\t\t\t\t\t\t\ttemp_out[13]=(((char)&data2)+3);\t\r\n\t\t\t\t\t\t\ttemp_out[14]=crc_87(temp_out,14);\t\r\n\t\t\t\t\t\t\ttemp_out[15]=crc_95(temp_out,14);\t\t\t\r\n\t\t\t\t\t\t\t\r\n\t\t\t\t\t\t\ttemp_out[17]=0;\r\n\t\t\t\t\t\t\tfor (i=0;i<16;i++)\n\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\tputchar_sc16is700(temp_out[i]);\r\n\t\t\t\t\t\t\t\ttemp_out[17]^=temp_out[i];\n\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\tputchar_sc16is700(16);\r\n\t\t\t\t\t\t\tputchar_sc16is700(temp_out[17]^16);\r\n\t\t\t\t\t\t\tputchar_sc16is700(0x0a);\r\n\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t} \r\n\t\t}\t \r\n\t} \r\n\r\nif(modbus_an_buffer[0]=='w')\r\n\t{\r\n//\tpvlk=1;\r\n\tif(modbus_an_buffer[1]=='r')\r\n\t\t{\r\n//\t\tpvlk=2;\r\n\t\tif(modbus_an_buffer[2]=='i')\r\n\t\t\t{\r\n//\t\t\tpvlk=3;\r\n\t\t\tif(modbus_an_buffer[3]=='t')\r\n\t\t\t\t{\r\n//\t\t\t\tpvlk=4;\r\n\t\t\t\tif(modbus_an_buffer[4]=='e')\r\n\t\t\t\t\t{\r\n//\t\t\t\t\tpvlk=5;\r\n\t\t\t\t\tif(modbus_an_buffer[15]==crc_87(modbus_an_buffer,15))\r\n\t\t\t\t\t\t{\r\n//\t\t\t\t\t\tpvlk=6;\r\n\t\t\t\t\t\tif(modbus_an_buffer[16]==crc_95(modbus_an_buffer,15))\r\n\r\n\t\t\t\t\t\t\t{\r\n\t\t\t\t\t\t\tunsigned short ptr;\r\n\t\t\t\t\t\t\tunsigned long data1,data2;\r\n\t\t\t\t\t\t\tchar temp_out[20];\r\n//\t\t\t\t\t\t\tpvlk=7;\r\n\t\t\t\t\t\t\tptr=modbus_an_buffer[5]+(modbus_an_buffer[6]256U);\r\n\t\t\t\t\t\t\t((char)&data1)=modbus_an_buffer[7];\r\n\t\t\t\t\t\t\t(((char)&data1)+1)=modbus_an_buffer[8];\r\n\t\t\t\t\t\t\t(((char)&data1)+2)=modbus_an_buffer[9];\r\n\t\t\t\t\t\t\t(((char)&data1)+3)=modbus_an_buffer[10];\r\n\t\t\t\t\t\t\t((char)&data2)=modbus_an_buffer[11];\r\n\t\t\t\t\t\t\t(((char)&data2)+1)=modbus_an_buffer[12];\r\n\t\t\t\t\t\t\t(((char)&data2)+2)=modbus_an_buffer[13];\r\n\t\t\t\t\t\t\t(((char)&data2)+3)=modbus_an_buffer[14];\t\r\n\t\t\t\t\t\t\tlc640_write_long(ptr,data1);\r\n\t\t\t\t\t\t\tlc640_write_long(ptr+4,data2);\r\n\t\t\t\t\t\t\t\r\n\t\t\t\t\t\t\t//data1=lc640_read_long(ptr);\r\n\t\t\t\t\t\t\t//data2=lc640_read_long(ptr+4);\r\n\t\t\t\t\t\t\ttemp_out[0]='w';\r\n\t\t\t\t\t\t\ttemp_out[1]='r';\r\n\t\t\t\t\t\t\ttemp_out[2]='i';\r\n\t\t\t\t\t\t\ttemp_out[3]='t';\r\n\t\t\t\t\t\t\ttemp_out[4]='e';\r\n\t\t\t\t\t\t\ttemp_out[5]=((char)&ptr);\r\n\t\t\t\t\t\t\ttemp_out[6]=(((char)&ptr)+1);\t\r\n\t\t\t\t\t\t\r\n\t\t\t\t\t\t\ttemp_out[7]=crc_87(temp_out,7);\t\r\n\t\t\t\t\t\t\ttemp_out[8]=crc_95(temp_out,7);\t\t\t\r\n\t\t\t\t\t\t\t\r\n\t\t\t\t\t\t\ttemp_out[10]=0;\r\n\t\t\t\t\t\t\tfor (i=0;i<9;i++)\n\t\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\tputchar_sc16is700(temp_out[i]);\r\n\t\t\t\t\t\t\t\ttemp_out[10]^=temp_out[i];\n\t\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t\tputchar_sc16is700(9);\r\n\t\t\t\t\t\t\tputchar_sc16is700(temp_out[10]^9);\r\n\t\t\t\t\t\t\tputchar_sc16is700(0x0a);\r\n\t\t\t\t\t\t\t}\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t \t}\r\n\t\t}\r\n\t}\n\nif(crc16_calculated==crc16_incapsulated)\n\t{\r\n\tica_plazma[4]++;\r\n\t//o_12_s\r\n\tif(NUMENMV!=0 && modbus_func==1 && modbus_an_buffer[0]==enmv_modbus_adress[cnt_enmv_modbus_adress] && modbus_an_buffer[2]==8) {\r\n\t\t\t\r\n\t\t\t\t for(i_cnt=0;i_cnt<8;i_cnt++) {\r\n\t\t\t\t \tfor(j_cnt=0;j_cnt<8;j_cnt++){\r\n\t\t\t\t\t snmp_enmv_data[i_cnt8+j_cnt][cnt_enmv_modbus_adress]=(modbus_an_buffer[3+i_cnt]>>j_cnt)&0x01;\r\n\t\t\t\t\t}\r\n\t\t\t\t\tenmv_data[i_cnt][cnt_enmv_modbus_adress]=modbus_an_buffer[3+i_cnt];\t\t\t\t \r\n\t\t\t\t }\r\n\t\t\t\t enmv_on[cnt_enmv_modbus_adress]=0;\r\n\t\t\t\t enmv_puts_en=1;\r\n\t} \r\n\t\t\t\r\n \telse if(modbus_an_buffer[0]==MODBUS_ADRESS)\t //o_12_e\r\n\t\t{\r\n\t\tmodbus_modbus_adress_eq++;\n\t\tif(modbus_func==3)\t\t//чтение произвольного кол-ва регистров хранения\n\t\t\t{\r\n\t\t\tmodbus_plazma++;\n\t\t\tmodbus_hold_registers_transmit(MODBUS_ADRESS,modbus_func,modbus_rx_arg0,modbus_rx_arg1,MODBUS_RTU_PROT);\n\t\t\t}\n\n\t\tif(modbus_func==4)\t\t//чтение произвольного кол-ва регистров\tвходов\n\t\t\t{\n\t\t\tmodbus_input_registers_transmit(MODBUS_ADRESS,modbus_func,modbus_rx_arg0,modbus_rx_arg1,MODBUS_RTU_PROT);\r\n\t\t\tmodbus_modbus4f_cnt++;\n\t\t\t}\n\n\t\telse if(modbus_func==6) \t//запись регистров хранения\n\t\t\t{\n\t\t\tif(modbus_rx_arg0==11)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->YEAR=(uint16_t)modbus_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==12)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->MONTH=(uint16_t)modbus_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==13)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->DOM=(uint16_t)modbus_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==14)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->HOUR=(uint16_t)modbus_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==15)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->MIN=(uint16_t)modbus_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==16)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->SEC=(uint16_t)modbus_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==20)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t{\n\t\t\t\tif((modbus_rx_arg1>=0)&&(modbus_rx_arg1<=18))\n\t\t\t\tlc640_write_int(EE_NUMIST,modbus_rx_arg1); \n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==21)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t{\n\t\t\t\tif((modbus_rx_arg1==0)\|\|(modbus_rx_arg1==1))\n\t\t\t\tlc640_write_int(EE_PAR,modbus_rx_arg1); \n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==22)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t{\n\t\t\t\tif((modbus_rx_arg1==0)\|\|(modbus_rx_arg1==1))\n\t\t\t\tlc640_write_int(EE_ZV_ON,modbus_rx_arg1); \n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==23)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t{\n\t\t\t\tif((modbus_rx_arg1==0)\|\|(modbus_rx_arg1==1))\n\t\t\t\tlc640_write_int(EE_TERMOKOMP,modbus_rx_arg1); \n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==24)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t{\n\t\t\t\tif(/(modbus_rx_arg1>=0)\|\|/(modbus_rx_arg1<=20))\n\t\t\t\tlc640_write_int(EE_UBM_AV,modbus_rx_arg1); \n\t\t\t\t}\n\n\n\t\t\tif(modbus_rx_arg0==30)\t\t//напряжение стабилизации для режима стабилизации напряжения\n\t\t\t\t{\n\t\t\t\tif((modbus_rx_arg1>0)&&(modbus_rx_arg1<5))modbus_rx_arg1=0;\n\t\t\t\telse if(modbus_rx_arg1>=60)TBAT=60;\n\t\t\t\telse TBAT=modbus_rx_arg1;\n\t\t\t\tlc640_write_int(EE_TBAT,TBAT);\r\n\r\n\t\t\t\tmain_kb_cnt=(TBAT60)-20;\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==31)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UMAX,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==32)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_DU,UB20-modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==33)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UB0,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==34)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UB20,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==35)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_USIGN,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==36)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UMN,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==37)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_U0B,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==38)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_IKB,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==39)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_IZMAX,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==40)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_IMAX,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==41)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_IMIN,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==42)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UVZ,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==43)\t\t//\n\t\t\t\t{\r\n\t\t\t\tif((modbus_rx_arg1>=0)&&(modbus_rx_arg1<=3))lc640_write_int(EE_TZAS,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==44)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_TMAX,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==45)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_TSIGN,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==46)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_TBATMAX,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==47)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_TBATSIGN,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==48)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_SPEED_CHRG_CURR,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==49)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_SPEED_CHRG_VOLT,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==50)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_SPEED_CHRG_TIME,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==51)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_U_OUT_KONTR_MAX,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==52)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_U_OUT_KONTR_MIN,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==53)\t\t//\n\t\t\t\t{\n\t\t\t\tif((modbus_rx_arg1>=5)&&(modbus_rx_arg1<=100))lc640_write_int(EE_U_OUT_KONTR_DELAY,modbus_rx_arg1);\n\t \t\t}\n\t\t\tif(modbus_rx_arg0==54)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UB0,modbus_rx_arg1);\n\t\t\t\tlc640_write_int(EE_UB20,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==55)\t\t//\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UMAXN,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==56)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=3) lc640_write_int(EE_SNTP_ENABLE,modbus_rx_arg1);\n\t \t\t}\t\t\t\t\t\t\r\n\t\t\tif(modbus_rx_arg0==57)\t\t\n\t\t\t\t{\r\n\t\t\t\tsigned short www=(signed short)modbus_rx_arg1;\n\t\t\t\tif(www>=-12 && www<=13) lc640_write_int(EE_SNTP_GMT,modbus_rx_arg1);\n\t \t\t}\t\t\t\t\t\t\r\n\t\t\tif(modbus_rx_arg0==58)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_SNTP_IP1,modbus_rx_arg1);\n\t \t\t}\t\t\t\t\t\t\r\n\t\t\tif(modbus_rx_arg0==59)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_SNTP_IP2,modbus_rx_arg1);\n\t \t\t}\t\t\t\t\t\t\r\n\t\t\tif(modbus_rx_arg0==60)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_SNTP_IP3,modbus_rx_arg1);\n\t \t\t}\t\t\t\t\t\t\r\n\t\t\tif(modbus_rx_arg0==61)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_SNTP_IP4,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==62)\t\t\n\t\t\t\t{\r\n\t\t\t\t#ifdef UKU_220_IPS_TERMOKOMPENSAT\n\t\t\t\tif(modbus_rx_arg1<=2) lc640_write_int(EE_NUMBAT,modbus_rx_arg1);\r\n\t\t\t\t#else\r\n\t\t\t\tif(modbus_rx_arg1<=1) lc640_write_int(EE_NUMBAT,modbus_rx_arg1);\r\n\t\t\t\t#endif\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==63)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=3) lc640_write_int(EE_NUMDT,modbus_rx_arg1);\n\t \t\t}\t\r\n\t\t\tif(modbus_rx_arg0==64)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==2 \|\| modbus_rx_arg1==4) lc640_write_int(EE_NUMMAKB,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==65)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=4) lc640_write_int(EE_NUMSK,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==66)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_NUM_RKI,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==67)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_NUM_NET_IN,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==68)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_NUMBDR,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==69)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<9) lc640_write_int(EE_NUMENMV,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==70)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=1 && modbus_rx_arg1<=200) lc640_write_int(EE_BAT_C_POINT_NUM_ELEM,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==71)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=25000) lc640_write_int(EE_BAT_C_POINT_20,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==72)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=21000) lc640_write_int(EE_BAT_C_POINT_10,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==73)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=20000) lc640_write_int(EE_BAT_C_POINT_5,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==74)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=18000) lc640_write_int(EE_BAT_C_POINT_3,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==75)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=16000) lc640_write_int(EE_BAT_C_POINT_1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==76)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=13000) lc640_write_int(EE_BAT_C_POINT_1_2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==77)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=8000) lc640_write_int(EE_BAT_C_POINT_1_6,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==78)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_20,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==79)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_10,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==80)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_5,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==81)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_3,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==82)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==83)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_1_2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==84)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=10000) lc640_write_int(EE_BAT_U_END_1_6,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==85)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=100) lc640_write_int(EE_BAT_K_OLD,modbus_rx_arg1);\n\t \t\t}\t\t\r\n\t\t\tif(modbus_rx_arg0==86)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=15 && modbus_rx_arg1<=250) lc640_write_int(EE_UVENTOFF,modbus_rx_arg1);\n\t \t\t}\t\t\t\r\n\t\t\tif(modbus_rx_arg0==87)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=2000) lc640_write_int(EE_IMAX_VZ,modbus_rx_arg1);\n\t \t\t} \r\n\t\t\tif(modbus_rx_arg0==88)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=72) lc640_write_int(EE_VZ_HR,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==89)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_VZ_CH_VENT_BLOK,modbus_rx_arg1);\n\t \t\t} \r\n\t\t\tif(modbus_rx_arg0==90)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_SPEED_CHRG_AVT_EN,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==91)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>0 && modbus_rx_arg1<=100) lc640_write_int(EE_SPEED_CHRG_D_U,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==92)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==2) lc640_write_int(EE_SPEED_CHRG_BLOCK_SRC,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==93)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_SPEED_CHRG_BLOCK_LOG,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==94)\t\t\n\t\t\t\t{\t\t\t\t\t\t\t\t\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_SP_CH_VENT_BLOK,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==95)\t\t\n\t\t\t\t{\t\t\t\t\t\t\t\t\n\t\t\t\tif(modbus_rx_arg1>=UB20 && modbus_rx_arg1<=2600) lc640_write_int(EE_UZ_U,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==96)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=10000) lc640_write_int(EE_UZ_IMAX,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==97)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=1 && modbus_rx_arg1<=72) lc640_write_int(EE_UZ_T,modbus_rx_arg1);\n\t \t\t}\t\t\t\t\t \r\n\t\t\tif(modbus_rx_arg0==98)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=UB20 && modbus_rx_arg1<=3000) lc640_write_int(EE_FZ_U1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==99)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=1000) lc640_write_int(EE_FZ_IMAX1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\t// 2 регистра внизу\r\n\t\t\tif(modbus_rx_arg0==102)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=1 && modbus_rx_arg1<=10) lc640_write_int(EE_FZ_T1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==103)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=1000) lc640_write_int(EE_FZ_ISW12,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==104)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=UB20 && modbus_rx_arg1<=3000) lc640_write_int(EE_FZ_U2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==105)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=1000) lc640_write_int(EE_FZ_IMAX2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==106)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=1 && modbus_rx_arg1<=10) lc640_write_int(EE_FZ_T2,modbus_rx_arg1);\n\t \t\t}\t \r\n\t\t\tif(modbus_rx_arg0==107)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_AV_OFF_AVT,modbus_rx_arg1);\n\t \t\t}\t\t\t\t\r\n\t\t \tif(modbus_rx_arg0==108)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_APV_ON1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t \tif(modbus_rx_arg0==109)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_APV_ON2,modbus_rx_arg1);\n\t \t\t}\t\t \r\n\t\t \tif(modbus_rx_arg0==110)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=1 && modbus_rx_arg1<=24) lc640_write_int(EE_APV_ON2_TIME,modbus_rx_arg1);\n\t \t\t} \r\n\t\t\tif(modbus_rx_arg0==111)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0)\t lc640_write_int(EE_SK_SIGN0,0xFFFF);\r\n\t\t\t\telse if(modbus_rx_arg1==1) lc640_write_int(EE_SK_SIGN0,0);\n\t \t\t} \t \r\n\t\t\tif(modbus_rx_arg0==112)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0)\t lc640_write_int(EE_SK_ZVUK_EN0,0xFFFF);\r\n\t\t\t\telse if(modbus_rx_arg1==1) lc640_write_int(EE_SK_ZVUK_EN0,0);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==113)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0)\t lc640_write_int(EE_SK_LCD_EN0,0xFFFF);\r\n\t\t\t\telse if(modbus_rx_arg1==1) lc640_write_int(EE_SK_LCD_EN0,0);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==114)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0)\t lc640_write_int(EE_SK_SIGN1,0xFFFF);\r\n\t\t\t\telse if(modbus_rx_arg1==1) lc640_write_int(EE_SK_SIGN1,0);\n\t \t\t} \t \r\n\t\t\tif(modbus_rx_arg0==115)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0)\t lc640_write_int(EE_SK_ZVUK_EN1,0xFFFF);\r\n\t\t\t\telse if(modbus_rx_arg1==1) lc640_write_int(EE_SK_ZVUK_EN1,0);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==116)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0)\t lc640_write_int(EE_SK_LCD_EN1,0xFFFF);\r\n\t\t\t\telse if(modbus_rx_arg1==1) lc640_write_int(EE_SK_LCD_EN1,0);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==117)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0)\t lc640_write_int(EE_SK_SIGN2,0xFFFF);\r\n\t\t\t\telse if(modbus_rx_arg1==1) lc640_write_int(EE_SK_SIGN2,0);\n\t \t\t} \t \r\n\t\t\tif(modbus_rx_arg0==118)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0)\t lc640_write_int(EE_SK_ZVUK_EN2,0xFFFF);\r\n\t\t\t\telse if(modbus_rx_arg1==1) lc640_write_int(EE_SK_ZVUK_EN2,0);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==119)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0)\t lc640_write_int(EE_SK_LCD_EN2,0xFFFF);\r\n\t\t\t\telse if(modbus_rx_arg1==1) lc640_write_int(EE_SK_LCD_EN2,0);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==120)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0)\t lc640_write_int(EE_SK_SIGN3,0xFFFF);\r\n\t\t\t\telse if(modbus_rx_arg1==1) lc640_write_int(EE_SK_SIGN3,0);\n\t \t\t} \t \r\n\t\t\tif(modbus_rx_arg0==121)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0)\t lc640_write_int(EE_SK_ZVUK_EN3,0xFFFF);\r\n\t\t\t\telse if(modbus_rx_arg1==1) lc640_write_int(EE_SK_ZVUK_EN3,0);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==122)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0)\t lc640_write_int(EE_SK_LCD_EN3,0xFFFF);\r\n\t\t\t\telse if(modbus_rx_arg1==1) lc640_write_int(EE_SK_LCD_EN3,0);\n\t \t\t}\t\t \r\n\t\t \tif(modbus_rx_arg0==123)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_TERMOKOMP,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==124)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=500) lc640_write_int(EE_FORVARDBPSCHHOUR,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==125)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_DOP_RELE_FUNC,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==126)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=2) lc640_write_int(EE_IPS_BLOCK_SRC,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==127)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_IPS_BLOCK_LOG,modbus_rx_arg1);\n\t \t\t} \r\n\t\t \tif(modbus_rx_arg0==128)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>0 && modbus_rx_arg1<=100) lc640_write_int(EE_MODBUS_ADRESS,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==129)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==120 \|\| modbus_rx_arg1==240 \|\| modbus_rx_arg1==480 \|\| modbus_rx_arg1==960 \|\| modbus_rx_arg1==1920 \r\n\t\t\t\t\|\| modbus_rx_arg1==3840 \|\| modbus_rx_arg1==5760 \|\| modbus_rx_arg1==11520){ \r\n\t\t\t\t\tlc640_write_int(EE_MODBUS_BAUDRATE,modbus_rx_arg1);\r\n\t\t\t\t\tMODBUS_BAUDRATE=modbus_rx_arg1;\r\n\t\t\t\t\t}\n\t \t\t} \t\r\n\t\t\tif(modbus_rx_arg0==130)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_ETH_IS_ON,modbus_rx_arg1);\n\t \t\t}\t \r\n\t\t\tif(modbus_rx_arg0==131)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_ETH_DHCP_ON,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==132) //IP адрес\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_IP_1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==133)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_IP_2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==134)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_IP_3,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==135)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_IP_4,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==136)\t//маска подсети\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_MASK_1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==137)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_MASK_2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==138)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_MASK_3,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==139)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_MASK_4,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==140)\t//шлюз\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_GW_1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==141)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_GW_2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==142)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_GW_3,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==143)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_GW_4,modbus_rx_arg1);\n\t \t\t}\t \r\n\t\t\tif(modbus_rx_arg0==144)\t\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_ETH_SNMP_PORT_READ,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==145)\t\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_ETH_SNMP_PORT_WRITE,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==146)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_COMMUNITY,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==147)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==148)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+4,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==149)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+6,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==150)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+8,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==151)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+10,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==152)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+12,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==153)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_COMMUNITY+14,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==154) //TRAP1 IP адрес\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP1_IP_1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==155)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP1_IP_2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==156)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP1_IP_3,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==157)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP1_IP_4,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==158) //TRAP2 IP адрес\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP2_IP_1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==159)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP2_IP_2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==160)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP2_IP_3,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==161)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP2_IP_4,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==162) //TRAP3 IP адрес\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP3_IP_1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==163)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP3_IP_2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==164)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP3_IP_3,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==165)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP3_IP_4,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==166) //TRAP4 IP адрес\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP4_IP_1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==167)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP4_IP_2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==168)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP4_IP_3,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==169)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP4_IP_4,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==170) //TRAP5 IP адрес\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP5_IP_1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==171)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP5_IP_2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==172)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP5_IP_3,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==173)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ETH_TRAP5_IP_4,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==174)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_WEB_PASSWORD,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==175)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_WEB_PASSWORD+2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==176)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_WEB_PASSWORD+4,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==177 && modbus_rx_arg1>0) bRESET_INT_WDT=1;// перегрузка УКУ, инициализировать интернет \r\n\t\t\tif(modbus_rx_arg0==178)\t\t\n\t\t\t\t{\r\n\t\t\t\tmodbus_rx_arg1/=10;\n\t\t\t\tif(modbus_rx_arg1<=6000) lc640_write_int(EE_TVENTMAX,modbus_rx_arg1);\n\t \t\t} \r\n\t\t \tif(modbus_rx_arg0==179)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=2) lc640_write_int(EE_ICA_EN,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==180)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=2) lc640_write_int(EE_ICA_CH,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==181) //IP адрес второго ИПС\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ICA_MODBUS_TCP_IP1,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==182)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ICA_MODBUS_TCP_IP2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==183)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ICA_MODBUS_TCP_IP3,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==184)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=255) lc640_write_int(EE_ICA_MODBUS_TCP_IP4,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==185)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>0 && modbus_rx_arg1<=254) lc640_write_int(EE_ICA_MODBUS_TCP_UNIT_ID,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==186)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>0 && modbus_rx_arg1<=254) lc640_write_int(EE_ICA_MODBUS_ADDRESS,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==187)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=100) lc640_write_int(EE_PWM_START,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==188)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=1 && modbus_rx_arg1<=3) lc640_write_int(EE_KB_ALGORITM,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==189)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=1 && modbus_rx_arg1<=5) lc640_write_int(EE_REG_SPEED,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==190)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==0 \|\| modbus_rx_arg1==1) lc640_write_int(EE_SMART_SPC,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==191)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==1 \|\| modbus_rx_arg1==3) lc640_write_int(EE_NUMPHASE,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==192)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=100) lc640_write_int(EE_TVENTON,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==193)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=100) lc640_write_int(EE_TVENTOFF,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==194)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=2) lc640_write_int(EE_RELEVENTSIGN,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==195)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=2) lc640_write_int(EE_NPN_OUT,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==196)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=100 && modbus_rx_arg1<=2500) lc640_write_int(EE_UONPN,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==197)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=100 && modbus_rx_arg1<=2500) lc640_write_int(EE_UVNPN,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==198)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1>=10 && modbus_rx_arg1<=60) lc640_write_int(EE_TZNPN,modbus_rx_arg1);\n\t \t\t}\t\t\r\n\t/\t\tif(modbus_rx_arg0==199)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1<=50) lc640_write_int(EE_UBM_AV,modbus_rx_arg1);\n\t \t\t} /\r\n\t\t\t\t//o_10_s\r\n\t\t\tif(modbus_rx_arg0==200)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==1 ) command_rki=36;\r\n\t\t\t\telse if(modbus_rx_arg1==10 ) command_rki=37;\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFFF ) command_rki=38; //-1\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFF6 ) command_rki=39;\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==201)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==1 ) command_rki=40;\r\n\t\t\t\telse if(modbus_rx_arg1==10 ) command_rki=41;\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFFF ) command_rki=42;\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFF6 ) command_rki=43;\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==202)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==1 ) command_rki=14;\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFFF ) command_rki=13;\r\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==203)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==1 ) command_rki=20;\r\n\t\t\t\telse if(modbus_rx_arg1==5 ) command_rki=22;\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFFF ) command_rki=19;\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFFB ) command_rki=21;\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==204)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==1 ) command_rki=24;\r\n\t\t\t\telse if(modbus_rx_arg1==5 ) command_rki=26;\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFFF ) command_rki=23;\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFFB ) command_rki=25;\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==205)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==1 ) command_rki=28;\r\n\t\t\t\telse if(modbus_rx_arg1==5 ) command_rki=30;\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFFF ) command_rki=27;\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFFB ) command_rki=29;\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==206)\t\t\n\t\t\t\t{\n\t\t\t\tif(modbus_rx_arg1==1 ) command_rki=16;\r\n\t\t\t\telse if(modbus_rx_arg1==10 ) command_rki=18;\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFFF ) command_rki=15;\r\n\t\t\t\telse if(modbus_rx_arg1==0xFFF6 ) command_rki=17;\n\t \t\t}\r\n\r\n#ifdef UKU_FSO\r\n\t\t\tif(modbus_rx_arg0==251)\t\t\t//Рег251 Серийный номер ИБЭП(младшее слово)\t\t \t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_IBEP_SN,modbus_rx_arg1);\t\t\t\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==252)\t\t\t//Рег252 Серийный номер ИБЭП(старшее слово)\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_IBEP_SN+2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==253)\t\t\t//Рег253 Год введения в эксплуатацию ИБЭП\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_IBEP_START_DATE_YEAR,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==254)\t\t\t//Рег254 День и месяц введения в эксплуатацию ИБЭП\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_IBEP_START_DATE_MONTH,(modbus_rx_arg1>>8)&0x00ff);\r\n\t\t\t\tlc640_write_int(EE_UKUFSO_IBEP_START_DATE_DAY,modbus_rx_arg1&0x00ff);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==281)\t\t\t//Рег281 Серийный номер БПС№1(младшее слово)\t \t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS1_SN,modbus_rx_arg1);\t\t\t\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==282)\t\t\t//Рег282 Серийный номер БПС№1(старшее слово)\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS1_SN+2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==283)\t\t\t//Рег283 Год введения в эксплуатацию БПС№1\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS1_START_DATE_YEAR,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==284)\t\t\t//Рег284 День и месяц введения в эксплуатацию БПС№1\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS1_START_DATE_MONTH,(modbus_rx_arg1>>8)&0x00ff);\r\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS1_START_DATE_DAY,modbus_rx_arg1&0x00ff);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==285)\t\t\t//Рег285 Серийный номер БПС№2(младшее слово) \t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS2_SN,modbus_rx_arg1);\t\t\t\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==286)\t\t\t//Рег286 Серийный номер БПС№2(старшее слово)\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS2_SN+2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==287)\t\t\t//Рег287 Год введения в эксплуатацию БПС№2\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS2_START_DATE_YEAR,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==288)\t\t\t//Рег288 День и месяц введения в эксплуатацию БПС№2\t\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS2_START_DATE_MONTH,(modbus_rx_arg1>>8)&0x00ff);\r\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS2_START_DATE_DAY,modbus_rx_arg1&0x00ff);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==289)\t\t\t//Рег289 Серийный номер БПС№3(младшее слово)\t\t\t \t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS3_SN,modbus_rx_arg1);\t\t\t\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==290)\t\t\t//Рег290 Серийный номер БПС№3(старшее слово)\t\t\t\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS3_SN+2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==291)\t\t\t//Рег291 Год введения в эксплуатацию БПС№3\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS3_START_DATE_YEAR,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==292)\t\t\t//Рег292 День и месяц введения в эксплуатацию БПС№3\t\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS3_START_DATE_MONTH,(modbus_rx_arg1>>8)&0x00ff);\r\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS3_START_DATE_DAY,modbus_rx_arg1&0x00ff);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==293)\t\t\t//Рег293 Серийный номер БПС№4(младшее слово) \t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS4_SN,modbus_rx_arg1);\t\t\t\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==294)\t\t\t//Рег294 Серийный номер БПС№4(старшее слово)\t\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS4_SN+2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==295)\t\t\t//Рег295 Год введения в эксплуатацию БПС№4\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS4_START_DATE_YEAR,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==296)\t\t\t//Рег296 День и месяц введения в эксплуатацию БПС№4\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS4_START_DATE_MONTH,(modbus_rx_arg1>>8)&0x00ff);\r\n\t\t\t\tlc640_write_int(EE_UKUFSO_BPS4_START_DATE_DAY,modbus_rx_arg1&0x00ff);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==297)\t\t\t//Рег297 Серийный номер БАТ№1(младшее слово)\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BAT1_SN,modbus_rx_arg1);\t\t\t\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==298)\t\t\t//Рег298 Серийный номер БАТ№1(старшее слово)\t\t\t\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BAT1_SN+2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==299)\t\t\t//Рег299 Год введения в эксплуатацию БАТ№1\t\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BAT1_START_DATE_YEAR,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==300)\t\t\t//Рег300 День и месяц введения в эксплуатацию БАТ№1\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BAT1_START_DATE_MONTH,(modbus_rx_arg1>>8)&0x00ff);\r\n\t\t\t\tlc640_write_int(EE_UKUFSO_BAT1_START_DATE_DAY,modbus_rx_arg1&0x00ff);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==301)\t\t\t//Рег301 Серийный номер БАТ№2(младшее слово)\t\t\t \t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BAT2_SN,modbus_rx_arg1);\t\t\t\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==302)\t\t\t//Рег302 Серийный номер БАТ№2(старшее слово)\t\t\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BAT2_SN+2,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==303)\t\t\t//Рег303 Год введения в эксплуатацию БАТ№2\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BAT2_START_DATE_YEAR,modbus_rx_arg1);\n\t \t\t}\r\n\t\t\tif(modbus_rx_arg0==304)\t\t\t//Рег304 День и месяц введения в эксплуатацию БАТ№2\t\n\t\t\t\t{\n\t\t\t\tlc640_write_int(EE_UKUFSO_BAT2_START_DATE_MONTH,(modbus_rx_arg1>>8)&0x00ff);\r\n\t\t\t\tlc640_write_int(EE_UKUFSO_BAT2_START_DATE_DAY,modbus_rx_arg1&0x00ff);\n\t \t\t}\r\n\r\n /\r\nmodbus_registers[500]=(char)(UKUFSO_IBEP_SN>>8);\t\t\t\t\nmodbus_registers[501]=(char)(UKUFSO_IBEP_SN); \r\nmodbus_registers[502]=(char)(UKUFSO_IBEP_SN>>24);\t\t\t\t\nmodbus_registers[503]=(char)(UKUFSO_IBEP_SN>>16); \nmodbus_registers[504]=(char)(UKUFSO_IBEP_START_DATE_YEAR>>8);\t\nmodbus_registers[505]=(char)(UKUFSO_IBEP_START_DATE_YEAR); \r\nmodbus_registers[506]=(char)(UKUFSO_IBEP_START_DATE_MONTH);\t\t\nmodbus_registers[507]=(char)(UKUFSO_IBEP_START_DATE_DAY); \r\n\r\nmodbus_registers[560]=(char)(UKUFSO_BPS1_SN>>8);\t\t\t\t\nmodbus_registers[561]=(char)(UKUFSO_BPS1_SN); \r\nmodbus_registers[562]=(char)(UKUFSO_BPS1_SN>>24);\t\t\t\t\nmodbus_registers[563]=(char)(UKUFSO_BPS1_SN>>16); \nmodbus_registers[564]=(char)(UKUFSO_BPS1_START_DATE_YEAR>>8);\t\nmodbus_registers[565]=(char)(UKUFSO_BPS1_START_DATE_YEAR); \r\nmodbus_registers[566]=(char)(UKUFSO_BPS1_START_DATE_MONTH);\t\t\nmodbus_registers[567]=(char)(UKUFSO_BPS1_START_DATE_DAY);\r\nmodbus_registers[568]=(char)(UKUFSO_BPS2_SN>>8);\t\t\t\t\nmodbus_registers[569]=(char)(UKUFSO_BPS2_SN); \r\nmodbus_registers[570]=(char)(UKUFSO_BPS2_SN>>24);\t\t\t\t\nmodbus_registers[571]=(char)(UKUFSO_BPS2_SN>>16); \nmodbus_registers[572]=(char)(UKUFSO_BPS2_START_DATE_YEAR>>8);\t\nmodbus_registers[573]=(char)(UKUFSO_BPS2_START_DATE_YEAR); \r\nmodbus_registers[574]=(char)(UKUFSO_BPS2_START_DATE_MONTH);\t\t\nmodbus_registers[575]=(char)(UKUFSO_BPS2_START_DATE_DAY);\r\nmodbus_registers[576]=(char)(UKUFSO_BPS3_SN>>8);\t\t\t\t\nmodbus_registers[577]=(char)(UKUFSO_BPS3_SN); \r\nmodbus_registers[578]=(char)(UKUFSO_BPS3_SN>>24);\t\t\t\t\nmodbus_registers[579]=(char)(UKUFSO_BPS3_SN>>16); \nmodbus_registers[580]=(char)(UKUFSO_BPS3_START_DATE_YEAR>>8);\t\nmodbus_registers[581]=(char)(UKUFSO_BPS3_START_DATE_YEAR); \r\nmodbus_registers[582]=(char)(UKUFSO_BPS3_START_DATE_MONTH);\t\t\nmodbus_registers[583]=(char)(UKUFSO_BPS3_START_DATE_DAY);\r\nmodbus_registers[584]=(char)(UKUFSO_BPS4_SN>>8);\t\t\t\t\nmodbus_registers[585]=(char)(UKUFSO_BPS4_SN); \r\nmodbus_registers[586]=(char)(UKUFSO_BPS4_SN>>24);\t\t\t\t\nmodbus_registers[587]=(char)(UKUFSO_BPS4_SN>>16); \nmodbus_registers[588]=(char)(UKUFSO_BPS4_START_DATE_YEAR>>8);\t\nmodbus_registers[589]=(char)(UKUFSO_BPS4_START_DATE_YEAR); \r\nmodbus_registers[590]=(char)(UKUFSO_BPS4_START_DATE_MONTH);\t\t\nmodbus_registers[591]=(char)(UKUFSO_BPS4_START_DATE_DAY);\r\n \r\n\r\n\r\n\t/\r\n#endif\r\n\n\t\t\tif(modbus_rx_arg0==19)\t\t//вкл/выкл источника напр.\n\t\t\t\t{\n\t/\t\t\tif(modbus_rx_arg1==1)\n\t\t\t\t\t{\n\t\t\t\t\tif(work_stat!=wsPS)\n\t\t\t\t\t\t{\n\t\t\t\t\t\twork_stat=wsPS;\n\t\t\t\t\t\ttime_proc=0;\n\t\t\t\t\t\ttime_proc_remain=T_PROC_PS;\n\t\t\t\t\t\trestart_on_PS();\n\t\t\t\t\t\tlc640_write_int(EE_MAIN_MENU_MODE,mmmIN);\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\tif(modbus_rx_arg1==0)\n\t\t\t\t\t{\n\t\t\t\t\tif(work_stat==wsPS)\n\t\t\t\t\t\t{\n\t\t\t\t\t\twork_stat=wsOFF;\n\t\t\t\t\t\trestart_off();\n\t\t\t\t\t\t}\n\t\t\t\t\t} /\n\t\t\t\t}\n\t\t\tif(modbus_rx_arg0==20)\t\t//вкл/выкл источника тока\n\t\t\t\t{\n/\t\t\t\tif(modbus_rx_arg1==1)\n\t\t\t\t\t{\n\t\t\t\t\tif(work_stat!=wsGS)\n\t\t\t\t\t\t{\n\t\t\t\t\t\twork_stat=wsGS;\n\t\t\t\t\t\ttime_proc=0;\n\t\t\t\t\t\ttime_proc_remain=T_PROC_GS;\n\t\t\t\t\t\tlc640_write_int(EE_MAIN_MENU_MODE,mmmIT);\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\tif(modbus_rx_arg1==0)\n\t\t\t\t\t{\n\t\t\t\t\tif(work_stat==wsGS)\n\t\t\t\t\t\t{\n\t\t\t\t\t\twork_stat=wsOFF;\n\t\t\t\t\t\trestart_off();\n\t\t\t\t\t\t}\n\t\t\t\t\t}/\n\t\t\t\t}\n\t\t\t//modbus_hold_register_transmit(MODBUS_ADRESS,modbus_func,modbus_rx_arg0);\r\n\r\n\t\t\tif(modbus_rx_arg0==100)\t\t//Передача шима для управления от ведущего ИПС\r\n\t\t\t\t{\r\n\t\t\t\t//plazma1000[2]=modbus_rx_arg1;\r\n\t\t\t\tif(modbus_rx_arg1&0x4000)\r\n\t\t\t\t\t{\r\n\t\t\t\t\tshort tempSSSS;\r\n\t\t\t\t\t\r\n\t\t\t\t\ttempSSSS=modbus_rx_arg1&0x3fff;\r\n\t\t\t\t\t//plazma1000[3]=tempSSSS;\r\n\t\t\t\t\tif((tempSSSS>0)&&(tempSSSS<5))tempSSSS=0;\r\n\t\t\t\t\telse if(tempSSSS>=60)tempSSSS=60;\r\n\t\t\t\t//\telse tempSSSS=modbus_rx_arg1;\r\n\t\t\t\t\tif(TBAT!=tempSSSS)lc640_write_int(EE_TBAT,tempSSSS);\r\n\r\n\t\t\t\t\tmain_kb_cnt=(tempSSSS60)-20;\r\n\t\t\t\t\t}\r\n\t\t\t\telse ica_cntrl_hndl=modbus_rx_arg1;\r\n\t\t\t\tica_cntrl_hndl_cnt=200;\r\n\r\n\t\t\t\t//plazma1000[1]++;\r\n\t\t\t\t}\r\n\t\t\tif(modbus_rx_arg0==101)\t\t//Значение тока в ведомом ИПСе (прочитанное мастером в ведомом и переданное ведущему)\r\n\t\t\t\t{\r\n\t\t\t\tica_your_current==modbus_rx_arg1;\r\n\t\t\t\tica_cntrl_hndl_cnt=200;\r\n\t\t\t\t//plazma1000[2]++;\r\n\t\t\t\t}\r\n\r\n\t\t\t//modbus_hold_registers_transmit(MODBUS_ADRESS,modbus_func,modbus_rx_arg0,1,MODBUS_RTU_PROT);\r\n\t\t\t\t{\r\n\t\t\t/if(prot==MODBUS_RTU_PROT)\r\n\t\t\t\t{/\n\t\t\t\tmem_copy(modbus_tx_buff,modbus_rx_buffer,8);\n\t\n\t\t\t\tfor (i=0;i<(8);i++)\n\t\t\t\t\t{\n\t\t\t\t\tputchar0(modbus_tx_buff[i]);\n\t\t\t\t\t}\r\n\n\t\t\t\tfor (i=0;i<(8);i++)\n\t\t\t\t\t{\n\t\t\t\t\tputchar_sc16is700(modbus_tx_buff[i]);\n\t\t\t\t\t}\r\n\t\t\t/\t}\r\n\t\t\telse if(prot==MODBUS_TCP_PROT)\r\n\t\t\t\t{\r\n\t\t\t\tmodbus_tcp_out_ptr=(char)&modbus_registers[(reg_adr-1)2];\r\n\t\t\t\t}/\r\n\t\t\t\t}\r\n\t\t\t}\r\n/\t\t\telse if(modbus_func==1) {\t\r\n\t\t\t\tif(modbus_an_buffer[2]==8){\r\n\t\t\t\t for(i_cnt=0;i_cnt<8;i_cnt++) {\r\n\t\t\t\t \tfor(j_cnt=0;j_cnt<8;j_cnt++){\r\n\t\t\t\t\t snmp_enmv_data[i_cnt8+j_cnt]=(modbus_an_buffer[3+i_cnt]>>j_cnt)&0x01;\r\n\t\t\t\t\t}\r\n\t\t\t\t\tenmv_data[i_cnt]=modbus_an_buffer[3+i_cnt];\t\t\t\t \r\n\t\t\t\t }\r\n\t\t\t\t enmv_on=0;\r\n\t\t\t\t enmv_puts_en=1;\r\n\t\t\t\t}\r\n\t\t\t}/ \r\n\n\t\t} \n\telse if(modbus_an_buffer[0]==ICA_MODBUS_ADDRESS)\r\n\t\t{\r\n\t\tica_plazma[3]++;\r\n\t\tif(modbus_func==4)\t\t//чтение произвольного кол-ва регистров\tвходов\n\t\t\t{\r\n\t\t\tica_plazma[2]++;\r\n\t\t\tif(modbus_an_buffer[2]==2)\r\n\t\t\t\t{\r\n\t\t\t\tica_your_current=(((unsigned short)modbus_an_buffer[3])((unsigned short)256))+((unsigned short)modbus_an_buffer[4]);\r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t}\n\t\n\t}\n\n\n}\n/\n//-----------------------------------------------\nvoid modbus_register_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr)\n{\nchar modbus_registers[150];\n//char modbus_tx_buff[50];\nunsigned short crc_temp;\nchar i;\n\n\nmodbus_registers[0]=(char)(load_U/256);\t\t\t\t\t//Рег1\nmodbus_registers[1]=(char)(load_U%256);\nmodbus_registers[2]=(char)(load_I/256);\t\t\t\t\t//Рег2\nmodbus_registers[3]=(char)(load_I%256);\nmodbus_registers[4]=(char)(Ib_ips_termokompensat/256);\t\t//Рег3\nmodbus_registers[5]=(char)(Ib_ips_termokompensat%256);\nmodbus_registers[6]=(char)(t_ext[0]/256);\t\t\t\t//Рег4\nmodbus_registers[7]=(char)(t_ext[0]%256);\nmodbus_registers[8]=(char)(net_Ua/256);\t\t\t\t\t//Рег5\nmodbus_registers[9]=(char)(net_Ua%256);\t\t \t\nmodbus_registers[10]=(char)(net_Ub/256);\t\t\t\t//Рег6\nmodbus_registers[11]=(char)(net_Ub%256);\nmodbus_registers[12]=(char)(net_Uc/256);\t\t\t\t//Рег7\nmodbus_registers[13]=(char)(net_Uc%256);\nmodbus_registers[14]=(char)(net_F3/256);\t\t\t\t//Рег8\nmodbus_registers[15]=(char)(net_F3%256);\nmodbus_registers[16]=(char)(load_I/256);\t\t\t\t//Рег9\nmodbus_registers[17]=(char)(load_I%256);\nmodbus_registers[18]=(char)(load_I/256);\t\t\t\t//Рег10\nmodbus_registers[19]=(char)(load_I%256);\nmodbus_registers[20]=(char)((LPC_RTC->YEAR)/256);\t\t\t//Рег11\nmodbus_registers[21]=(char)((LPC_RTC->YEAR)%256);\nmodbus_registers[22]=(char)((LPC_RTC->MONTH)/256);\t\t//Рег12\nmodbus_registers[23]=(char)((LPC_RTC->MONTH)%256);\nmodbus_registers[24]=(char)((LPC_RTC->DOM)/256);\t\t\t//Рег13\nmodbus_registers[25]=(char)((LPC_RTC->DOM)%256);\nmodbus_registers[26]=(char)((LPC_RTC->HOUR)/256);\t\t\t//Рег14\nmodbus_registers[27]=(char)((LPC_RTC->HOUR)%256);\nmodbus_registers[28]=(char)((LPC_RTC->MIN)/256);\t\t\t//Рег15\nmodbus_registers[29]=(char)((LPC_RTC->MIN)%256);\nmodbus_registers[30]=(char)((LPC_RTC->SEC)/256);\t\t\t//Рег16\nmodbus_registers[31]=(char)((LPC_RTC->SEC)%256);\nmodbus_registers[32]=(char)(load_I/256);\t\t\t\t//Рег17\nmodbus_registers[33]=(char)(load_I%256);\nmodbus_registers[34]=(char)(load_I/256);\t\t\t\t//Рег18\nmodbus_registers[35]=(char)(load_I%256);\nmodbus_registers[36]=(char)(load_I/256);\t\t//Рег19\nmodbus_registers[37]=(char)(load_I%256);\nmodbus_registers[38]=(char)(NUMIST/256);\t\t//Рег20\nmodbus_registers[39]=(char)(NUMIST%256);\nmodbus_registers[40]=(char)(PAR/256);\t\t//Рег21\nmodbus_registers[41]=(char)(PAR%256);\nmodbus_registers[42]=(char)(ZV_ON/256);\t\t//Рег22\nmodbus_registers[43]=(char)(ZV_ON%256);\nmodbus_registers[44]=(char)(TERMOKOMPENS/256);\t\t//Рег23\nmodbus_registers[45]=(char)(TERMOKOMPENS%256);\nmodbus_registers[46]=(char)(UBM_AV/256);\t\t//Рег24\nmodbus_registers[47]=(char)(UBM_AV%256);\nmodbus_registers[48]=(char)(load_I/256);\t\t//Рег25\nmodbus_registers[49]=(char)(load_I%256);\nmodbus_registers[50]=(char)(load_I/256);\t\t//Рег26\nmodbus_registers[51]=(char)(load_I%256);\nmodbus_registers[52]=(char)(load_I/256);\t\t//Рег27\nmodbus_registers[53]=(char)(load_I%256);\nmodbus_registers[54]=(char)(load_I/256);\t\t//Рег28\nmodbus_registers[55]=(char)(load_I%256);\nmodbus_registers[56]=(char)(load_I/256);\t\t//Рег29\nmodbus_registers[57]=(char)(load_I%256);\nmodbus_registers[58]=(char)(TBAT/256);\t\t\t//Рег30\nmodbus_registers[59]=(char)(TBAT%256);\nmodbus_registers[60]=(char)(UMAX/256);\t\t\t//Рег31\nmodbus_registers[61]=(char)(UMAX%256);\nmodbus_registers[62]=(char)((UB20-DU)/256);\t\t//Рег32\nmodbus_registers[63]=(char)((UB20-DU)%256);\nmodbus_registers[64]=(char)(UB0/256);\t\t\t//Рег33\nmodbus_registers[65]=(char)(UB0%256);\nmodbus_registers[66]=(char)(UB20/256);\t\t\t//Рег34\nmodbus_registers[67]=(char)(UB20%256);\nmodbus_registers[68]=(char)(USIGN/256);\t\t//Рег35\nmodbus_registers[69]=(char)(USIGN%256);\nmodbus_registers[70]=(char)(UMN/256);\t\t//Рег36\nmodbus_registers[71]=(char)(UMN%256);\nmodbus_registers[72]=(char)(U0B/256);\t\t//Рег37\nmodbus_registers[73]=(char)(U0B%256);\nmodbus_registers[74]=(char)(IKB/256);\t\t//Рег38\nmodbus_registers[75]=(char)(IKB%256);\nmodbus_registers[76]=(char)(IZMAX/256);\t\t//Рег39\nmodbus_registers[77]=(char)(IZMAX%256);\nmodbus_registers[78]=(char)(IMAX/256);\t\t//Рег40\nmodbus_registers[79]=(char)(IMAX%256);\nmodbus_registers[80]=(char)(IMIN/256);\t\t//Рег41\nmodbus_registers[81]=(char)(IMIN%256);\nmodbus_registers[82]=(char)(UVZ/256);\t\t//Рег42\nmodbus_registers[83]=(char)(UVZ%256);\nmodbus_registers[84]=(char)(TZAS/256);\t\t//Рег43\nmodbus_registers[85]=(char)(TZAS%256);\nmodbus_registers[86]=(char)(TMAX/256);\t\t//Рег44\nmodbus_registers[87]=(char)(TMAX%256);\nmodbus_registers[88]=(char)(TSIGN/256);\t\t//Рег45\nmodbus_registers[89]=(char)(TSIGN%256);\nmodbus_registers[90]=(char)(TBATMAX/256);\t\t//Рег46\nmodbus_registers[91]=(char)(TBATMAX%256);\nmodbus_registers[92]=(char)(TBATSIGN/256);\t\t//Рег47\nmodbus_registers[93]=(char)(TBATSIGN%256);\nmodbus_registers[94]=(char)(load_I/256);\t\t//Рег48\nmodbus_registers[95]=(char)(load_I%256);\nmodbus_registers[96]=(char)(load_I/256);\t\t//Рег49\nmodbus_registers[97]=(char)(load_I%256);\nmodbus_registers[98]=(char)(load_I/256);\t\t//Рег50\nmodbus_registers[99]=(char)(load_I%256);\n\nmodbus_tx_buff[0]=adr;\nmodbus_tx_buff[1]=func;\nmodbus_tx_buff[2]=(char)(reg_adr/256);\nmodbus_tx_buff[3]=(char)(reg_adr%256);\n//modbus_tx_buff[4]=(char)(reg_quantity/256);\n//modbus_tx_buff[5]=(char)(reg_quantity%256);\n\n\nmem_copy((char)&modbus_tx_buff[4],(char)&modbus_registers[(reg_adr-1)2],2);\n\ncrc_temp=CRC16_2(modbus_tx_buff,6);\n\nmodbus_tx_buff[6]=crc_temp%256;\nmodbus_tx_buff[7]=crc_temp/256;\n\nfor (i=0;i<8;i++)\n\t{\n\tputchar0(modbus_tx_buff[i]);\n\t}\r\nfor (i=0;i<8;i++)\n\t{\n\tputchar_sc16is700(modbus_tx_buff[i]);\n\t}\n}/\n///-----------------------------------------------\nvoid modbus_registers_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr,unsigned short reg_quantity)\n{\nchar modbus_registers[100];\n//char modbus_tx_buff[100];\nunsigned short crc_temp;\nchar i;\n\n\nmodbus_registers[0]=(char)(load_U/256);\t\t\t\t\t//Рег1\nmodbus_registers[1]=(char)(load_U%256);\nmodbus_registers[2]=(char)(load_I/256);\t\t\t\t\t//Рег2\nmodbus_registers[3]=(char)(load_I%256);\nmodbus_registers[4]=(char)(Ib_ips_termokompensat/256);\t\t//Рег3\nmodbus_registers[5]=(char)(Ib_ips_termokompensat%256);\nmodbus_registers[6]=(char)(t_ext[0]/256);\t\t\t\t//Рег4\nmodbus_registers[7]=(char)(t_ext[0]%256);\nmodbus_registers[8]=(char)(net_Ua/256);\t\t\t\t\t//Рег5\nmodbus_registers[9]=(char)(net_Ua%256);\t\t \t\nmodbus_registers[10]=(char)(net_Ub/256);\t\t\t\t//Рег6\nmodbus_registers[11]=(char)(net_Ub%256);\nmodbus_registers[12]=(char)(net_Uc/256);\t\t\t\t//Рег7\nmodbus_registers[13]=(char)(net_Uc%256);\nmodbus_registers[14]=(char)(net_F3/256);\t\t\t\t//Рег8\nmodbus_registers[15]=(char)(net_F3%256);\nmodbus_registers[16]=(char)(load_I/256);\t\t\t\t//Рег9\nmodbus_registers[17]=(char)(load_I%256);\nmodbus_registers[18]=(char)(load_I/256);\t\t\t\t//Рег10\nmodbus_registers[19]=(char)(load_I%256);\nmodbus_registers[20]=(char)((LPC_RTC->YEAR)/256);\t\t\t//Рег11\nmodbus_registers[21]=(char)((LPC_RTC->YEAR)%256);\nmodbus_registers[22]=(char)((LPC_RTC->MONTH)/256);\t\t//Рег12\nmodbus_registers[23]=(char)((LPC_RTC->MONTH)%256);\nmodbus_registers[24]=(char)((LPC_RTC->DOM)/256);\t\t\t//Рег13\nmodbus_registers[25]=(char)((LPC_RTC->DOM)%256);\nmodbus_registers[26]=(char)((LPC_RTC->HOUR)/256);\t\t\t//Рег14\nmodbus_registers[27]=(char)((LPC_RTC->HOUR)%256);\nmodbus_registers[28]=(char)((LPC_RTC->MIN)/256);\t\t\t//Рег15\nmodbus_registers[29]=(char)((LPC_RTC->MIN)%256);\nmodbus_registers[30]=(char)((LPC_RTC->SEC)/256);\t\t\t//Рег16\nmodbus_registers[31]=(char)((LPC_RTC->SEC)%256);\nmodbus_registers[32]=(char)(load_I/256);\t\t\t\t//Рег17\nmodbus_registers[33]=(char)(load_I%256);\nmodbus_registers[34]=(char)(load_I/256);\t\t\t\t//Рег18\nmodbus_registers[35]=(char)(load_I%256);\nmodbus_registers[36]=(char)(load_I/256);\t\t//Рег19\nmodbus_registers[37]=(char)(load_I%256);\nmodbus_registers[38]=(char)(NUMIST/256);\t\t//Рег20\nmodbus_registers[39]=(char)(NUMIST%256);\nmodbus_registers[40]=(char)(PAR/256);\t\t//Рег21\nmodbus_registers[41]=(char)(PAR%256);\nmodbus_registers[42]=(char)(ZV_ON/256);\t\t//Рег22\nmodbus_registers[43]=(char)(ZV_ON%256);\nmodbus_registers[44]=(char)(TERMOKOMPENS/256);\t\t//Рег23\nmodbus_registers[45]=(char)(TERMOKOMPENS%256);\nmodbus_registers[46]=(char)(UBM_AV/256);\t\t//Рег24\nmodbus_registers[47]=(char)(UBM_AV%256);\nmodbus_registers[48]=(char)(load_I/256);\t\t//Рег25\nmodbus_registers[49]=(char)(load_I%256);\nmodbus_registers[50]=(char)(load_I/256);\t\t//Рег26\nmodbus_registers[51]=(char)(load_I%256);\nmodbus_registers[52]=(char)(load_I/256);\t\t//Рег27\nmodbus_registers[53]=(char)(load_I%256);\nmodbus_registers[54]=(char)(load_I/256);\t\t//Рег28\nmodbus_registers[55]=(char)(load_I%256);\nmodbus_registers[56]=(char)(load_I/256);\t\t//Рег29\nmodbus_registers[57]=(char)(load_I%256);\nmodbus_registers[58]=(char)(TBAT/256);\t\t\t//Рег30\nmodbus_registers[59]=(char)(TBAT%256);\nmodbus_registers[60]=(char)(UMAX/256);\t\t\t//Рег31\nmodbus_registers[61]=(char)(UMAX%256);\nmodbus_registers[62]=(char)((UB20-DU)/256);\t\t//Рег32\nmodbus_registers[63]=(char)((UB20-DU)%256);\nmodbus_registers[64]=(char)(UB0/256);\t\t\t//Рег33\nmodbus_registers[65]=(char)(UB0%256);\nmodbus_registers[66]=(char)(UB20/256);\t\t\t//Рег34\nmodbus_registers[67]=(char)(UB20%256);\nmodbus_registers[68]=(char)(USIGN/256);\t\t//Рег35\nmodbus_registers[69]=(char)(USIGN%256);\nmodbus_registers[70]=(char)(UMN/256);\t\t//Рег36\nmodbus_registers[71]=(char)(UMN%256);\nmodbus_registers[72]=(char)(U0B/256);\t\t//Рег37\nmodbus_registers[73]=(char)(U0B%256);\nmodbus_registers[74]=(char)(IKB/256);\t\t//Рег38\nmodbus_registers[75]=(char)(IKB%256);\nmodbus_registers[76]=(char)(IZMAX/256);\t\t//Рег39\nmodbus_registers[77]=(char)(IZMAX%256);\nmodbus_registers[78]=(char)(IMAX/256);\t\t//Рег40\nmodbus_registers[79]=(char)(IMAX%256);\nmodbus_registers[80]=(char)(IMIN/256);\t\t//Рег41\nmodbus_registers[81]=(char)(IMIN%256);\nmodbus_registers[82]=(char)(UVZ/256);\t\t//Рег42\nmodbus_registers[83]=(char)(UVZ%256);\nmodbus_registers[84]=(char)(TZAS/256);\t\t//Рег43\nmodbus_registers[85]=(char)(TZAS%256);\nmodbus_registers[86]=(char)(TMAX/256);\t\t//Рег44\nmodbus_registers[87]=(char)(TMAX%256);\nmodbus_registers[88]=(char)(TSIGN/256);\t\t//Рег45\nmodbus_registers[89]=(char)(TSIGN%256);\nmodbus_registers[90]=(char)(TBATMAX/256);\t\t//Рег46\nmodbus_registers[91]=(char)(TBATMAX%256);\nmodbus_registers[92]=(char)(TBATSIGN/256);\t\t//Рег47\nmodbus_registers[93]=(char)(TBATSIGN%256);\nmodbus_registers[94]=(char)(load_I/256);\t\t//Рег48\nmodbus_registers[95]=(char)(load_I%256);\nmodbus_registers[96]=(char)(load_I/256);\t\t//Рег49\nmodbus_registers[97]=(char)(load_I%256);\nmodbus_registers[98]=(char)(load_I/256);\t\t//Рег50\nmodbus_registers[99]=(char)(load_I%256);\n\n\n\n\nmodbus_tx_buff[0]=adr;\nmodbus_tx_buff[1]=func;\n//modbus_tx_buff[2]=(char)(reg_adr/256);\n//modbus_tx_buff[3]=(char)(reg_adr%256);\nmodbus_tx_buff[2]=(char)(reg_quantity2);\n//modbus_tx_buff[5]=(char)(reg_quantity%256);\n\n\nmem_copy((char)&modbus_tx_buff[3],(char)&modbus_registers[(reg_adr-1)2],reg_quantity2);\n\ncrc_temp=CRC16_2(modbus_tx_buff,(reg_quantity2)+3);\n\nmodbus_tx_buff[3+(reg_quantity2)]=crc_temp%256;\nmodbus_tx_buff[4+(reg_quantity2)]=crc_temp/256;\n\n//int2lcdyx(reg_quantity,0,10,0);\n\nfor (i=0;i<15;i++)\n\t{\n\tputchar0(modbus_tx_buff[i]);\n\t} \r\nfor (i=0;i<15;i++)\n\t{\n\tputchar_sc16is700(modbus_tx_buff[i]);\n\t}\n}/\n/\n//-----------------------------------------------\nvoid modbus_hold_register_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr)\n{\nchar modbus_registers[150];\n//char modbus_tx_buff[150];\nunsigned short crc_temp;\nchar i;\n\nmodbus_registers[20]=(char)((LPC_RTC->YEAR)/256);\t\t\t//Рег11 Время, год\nmodbus_registers[21]=(char)((LPC_RTC->YEAR)%256);\nmodbus_registers[22]=(char)((LPC_RTC->MONTH)/256);\t\t//Рег12 Время, месяц\nmodbus_registers[23]=(char)((LPC_RTC->MONTH)%256);\nmodbus_registers[24]=(char)((LPC_RTC->DOM)/256);\t\t\t//Рег13 Время, день месяца\nmodbus_registers[25]=(char)((LPC_RTC->DOM)%256);\nmodbus_registers[26]=(char)((LPC_RTC->HOUR)/256);\t\t\t//Рег14 Время, час\nmodbus_registers[27]=(char)((LPC_RTC->HOUR)%256);\nmodbus_registers[28]=(char)((LPC_RTC->MIN)/256);\t\t\t//Рег15 Время, минуты\nmodbus_registers[29]=(char)((LPC_RTC->MIN)%256);\nmodbus_registers[30]=(char)((LPC_RTC->SEC)/256);\t\t\t//Рег16 Время, секунды\nmodbus_registers[31]=(char)((LPC_RTC->SEC)%256);\nmodbus_registers[38]=(char)(NUMIST/256);\t\t\t\t//Рег20 Количество выпрямителей в структуре\nmodbus_registers[39]=(char)(NUMIST%256);\nmodbus_registers[40]=(char)(PAR/256);\t\t\t\t\t//Рег21 Параллельная работа выпрямителей вкл./выкл.\nmodbus_registers[41]=(char)(PAR%256);\nmodbus_registers[42]=(char)(ZV_ON/256);\t\t\t\t\t//Рег22 Звуковая аварийная сигнализация вкл./выкл.\nmodbus_registers[43]=(char)(ZV_ON%256);\nmodbus_registers[46]=(char)(UBM_AV/256);\t\t\t\t//Рег24 Аварийный уровень отклонения напряжения средней точки батареи, %\nmodbus_registers[47]=(char)(UBM_AV%256);\nmodbus_registers[58]=(char)(TBAT/256);\t\t\t\t\t//Рег30 Период проверки цепи батареи, минут.\nmodbus_registers[59]=(char)(TBAT%256);\nmodbus_registers[60]=(char)(UMAX/256);\t\t\t\t\t//Рег31 Максимальное (аварийное) напряжение выпрямителей, 0.1В\nmodbus_registers[61]=(char)(UMAX%256);\nmodbus_registers[62]=(char)((UB20-DU)/256);\t\t\t\t//Рег32 Минимальное (аварийное) напряжение выпрямителей, 0.1В\nmodbus_registers[63]=(char)((UB20-DU)%256);\nmodbus_registers[64]=(char)(UB0/256);\t\t\t\t\t//Рег33 Напряжение содержания батареи при 0гЦ, 0.1В\nmodbus_registers[65]=(char)(UB0%256);\nmodbus_registers[66]=(char)(UB20/256);\t\t\t\t\t//Рег34 Напряжение содержания батареи при 20гЦ, 0.1В\nmodbus_registers[67]=(char)(UB20%256);\nmodbus_registers[68]=(char)(USIGN/256);\t\t\t\t\t//Рег35 Минимальное (сигнальное) напряжение батареи, 1В\nmodbus_registers[69]=(char)(USIGN%256);\nmodbus_registers[70]=(char)(UMN/256);\t\t\t\t\t//Рег36 Минимальное (аварийное) напряжение питающей сети, 1В\nmodbus_registers[71]=(char)(UMN%256);\nmodbus_registers[72]=(char)(U0B/256);\t\t\t\t\t//Рег37 Рабочее напряжение при невведенных батареях, 0.1В\nmodbus_registers[73]=(char)(U0B%256);\nmodbus_registers[74]=(char)(IKB/256);\t\t\t\t\t//Рег38 Ток контроля наличия батареи, 0.1а\nmodbus_registers[75]=(char)(IKB%256);\nmodbus_registers[76]=(char)(IZMAX/256);\t\t\t\t\t//Рег39 Ток заряда батареи максимальный, 0.1А\nmodbus_registers[77]=(char)(IZMAX%256);\nmodbus_registers[78]=(char)(IMAX/256);\t\t\t\t\t//Рег40 Ток переключения на большее кол-во выпрямителей, 0.1А\nmodbus_registers[79]=(char)(IMAX%256);\nmodbus_registers[80]=(char)(IMIN/256);\t\t\t\t\t//Рег41 Ток переключения на меньшее кол-во выпрямителей, 0.1А\nmodbus_registers[81]=(char)(IMIN%256);\nmodbus_registers[82]=(char)(UVZ/256);\t\t\t\t\t//Рег42 Напряжение выравнивающего заряда, 0.1В\nmodbus_registers[83]=(char)(UVZ%256);\nmodbus_registers[84]=(char)(TZAS/256);\t\t\t\t\t//Рег43 Время задержки включения выпрямителей, сек\nmodbus_registers[85]=(char)(TZAS%256);\nmodbus_registers[86]=(char)(TMAX/256);\t\t\t\t\t//Рег44 Температура выпрямителей аварийная, 1гЦ\nmodbus_registers[87]=(char)(TMAX%256);\nmodbus_registers[88]=(char)(TSIGN/256);\t\t\t\t\t//Рег45 Температура выпрямителей сигнальная, 1гЦ\nmodbus_registers[89]=(char)(TSIGN%256);\nmodbus_registers[90]=(char)(TBATMAX/256);\t\t\t\t//Рег46 Температура батареи аварийная, 1гЦ\nmodbus_registers[91]=(char)(TBATMAX%256);\nmodbus_registers[92]=(char)(TBATSIGN/256);\t\t\t\t//Рег47 Температура батареи сигнальная, 1гЦ\nmodbus_registers[93]=(char)(TBATSIGN%256);\nmodbus_registers[94]=(char)(speedChrgCurr/256);\t\t\t\t\t//Рег48 Ток ускоренного заряда, 0.1А\nmodbus_registers[95]=(char)(speedChrgCurr%256);\nmodbus_registers[96]=(char)(speedChrgVolt/256);\t\t\t\t//Рег49\t Напряжение ускоренного заряда, 0.1В \nmodbus_registers[97]=(char)(speedChrgVolt%256);\nmodbus_registers[98]=(char)(speedChrgTimeInHour/256);\t\t\t\t//Рег50\t Время ускоренного заряда, 1ч\r\nmodbus_registers[99]=(char)(speedChrgTimeInHour%256);\r\n\n\nmodbus_tx_buff[0]=adr;\nmodbus_tx_buff[1]=func;\nmodbus_tx_buff[2]=(char)(reg_adr/256);\nmodbus_tx_buff[3]=(char)(reg_adr%256);\n\nmem_copy((char)&modbus_tx_buff[4],(char)&modbus_registers[(reg_adr-1)2],2);\n\ncrc_temp=CRC16_2(modbus_tx_buff,6);\n\nmodbus_tx_buff[6]=crc_temp%256;\nmodbus_tx_buff[7]=crc_temp/256;\n\nfor (i=0;i<8;i++)\n\t{\n\tputchar0(modbus_tx_buff[i]);\n\t}\r\nfor (i=0;i<8;i++)\n\t{\n\tputchar_sc16is700(modbus_tx_buff[i]);\n\t}\n}\n/\r\n\n//-----------------------------------------------\nvoid modbus_hold_registers_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr,unsigned short reg_quantity, char prot)\n{\nsigned char modbus_registers[800];\t//o_10\n//char modbus_tx_buff[150];\nunsigned short crc_temp;\nchar i;\n\nmodbus_registers[20]=(char)((LPC_RTC->YEAR)>>8);\t\t\t//Рег11 Время, год\nmodbus_registers[21]=(char)((LPC_RTC->YEAR));\nmodbus_registers[22]=(char)((LPC_RTC->MONTH)>>8);\t\t//Рег12 Время, месяц\nmodbus_registers[23]=(char)((LPC_RTC->MONTH));\nmodbus_registers[24]=(char)((LPC_RTC->DOM)>>8);\t\t\t//Рег13 Время, день месяца\nmodbus_registers[25]=(char)((LPC_RTC->DOM));\nmodbus_registers[26]=(char)((LPC_RTC->HOUR)>>8);\t\t\t//Рег14 Время, час\nmodbus_registers[27]=(char)((LPC_RTC->HOUR));\nmodbus_registers[28]=(char)((LPC_RTC->MIN)>>8);\t\t\t//Рег15 Время, минуты\nmodbus_registers[29]=(char)((LPC_RTC->MIN));\nmodbus_registers[30]=(char)((LPC_RTC->SEC)>>8);\t\t\t//Рег16 Время, секунды\nmodbus_registers[31]=(char)((LPC_RTC->SEC));\nmodbus_registers[38]=(char)(NUMIST>>8);\t\t\t\t//Рег20 Количество выпрямителей в структуре\nmodbus_registers[39]=(char)(NUMIST);\nmodbus_registers[40]=(char)(PAR>>8);\t\t\t\t\t//Рег21 Параллельная работа выпрямителей вкл./выкл.\nmodbus_registers[41]=(char)(PAR);\nmodbus_registers[42]=(char)(ZV_ON>>8);\t\t\t\t\t//Рег22 Звуковая аварийная сигнализация вкл./выкл.\nmodbus_registers[43]=(char)(ZV_ON);\nmodbus_registers[46]=(char)(UBM_AV>>8);\t\t\t\t//Рег24 Аварийный уровень отклонения напряжения средней точки батареи, %\nmodbus_registers[47]=(char)(UBM_AV);\nmodbus_registers[58]=(char)(TBAT>>8);\t\t\t\t\t//Рег30 Период проверки цепи батареи, минут.\nmodbus_registers[59]=(char)(TBAT);\nmodbus_registers[60]=(char)(UMAX>>8);\t\t\t\t\t//Рег31 Максимальное (аварийное) напряжение выпрямителей, 0.1В\nmodbus_registers[61]=(char)(UMAX);\nmodbus_registers[62]=(char)((UB20-DU)>>8);\t\t\t\t//Рег32 Минимальное (аварийное) напряжение выпрямителей, 0.1В\nmodbus_registers[63]=(char)((UB20-DU));\nmodbus_registers[64]=(char)(UB0>>8);\t\t\t\t\t//Рег33 Напряжение содержания батареи при 0гЦ, 0.1В\nmodbus_registers[65]=(char)(UB0);\nmodbus_registers[66]=(char)(UB20>>8);\t\t\t\t\t//Рег34 Напряжение содержания батареи при 20гЦ, 0.1В\nmodbus_registers[67]=(char)(UB20);\nmodbus_registers[68]=(char)(USIGN>>8);\t\t\t\t\t//Рег35 Минимальное (сигнальное) напряжение батареи, 1В\nmodbus_registers[69]=(char)(USIGN);\nmodbus_registers[70]=(char)(UMN>>8);\t\t\t\t\t//Рег36 Минимальное (аварийное) напряжение питающей сети, 1В\nmodbus_registers[71]=(char)(UMN);\nmodbus_registers[72]=(char)(U0B>>8);\t\t\t\t\t//Рег37 Рабочее напряжение при невведенных батареях, 0.1В\nmodbus_registers[73]=(char)(U0B);\nmodbus_registers[74]=(char)(IKB>>8);\t\t\t\t\t//Рег38 Ток контроля наличия батареи, 0.1а\nmodbus_registers[75]=(char)(IKB);\nmodbus_registers[76]=(char)(IZMAX>>8);\t\t\t\t\t//Рег39 Ток заряда батареи максимальный, 0.1А\nmodbus_registers[77]=(char)(IZMAX);\nmodbus_registers[78]=(char)(IMAX>>8);\t\t\t\t\t//Рег40 Ток переключения на большее кол-во выпрямителей, 0.1А\nmodbus_registers[79]=(char)(IMAX);\nmodbus_registers[80]=(char)(IMIN>>8);\t\t\t\t\t//Рег41 Ток переключения на меньшее кол-во выпрямителей, 0.1А\nmodbus_registers[81]=(char)(IMIN);\nmodbus_registers[82]=(char)(UVZ>>8);\t\t\t\t\t//Рег42 Напряжение выравнивающего заряда, 0.1В\nmodbus_registers[83]=(char)(UVZ);\nmodbus_registers[84]=(char)(TZAS>>8);\t\t\t\t\t//Рег43 Время задержки включения выпрямителей, сек\nmodbus_registers[85]=(char)(TZAS);\nmodbus_registers[86]=(char)(TMAX>>8);\t\t\t\t\t//Рег44 Температура выпрямителей аварийная, 1гЦ\nmodbus_registers[87]=(char)(TMAX);\nmodbus_registers[88]=(char)(TSIGN>>8);\t\t\t\t\t//Рег45 Температура выпрямителей сигнальная, 1гЦ\nmodbus_registers[89]=(char)(TSIGN);\nmodbus_registers[90]=(char)(TBATMAX>>8);\t\t\t\t//Рег46 Температура батареи аварийная, 1гЦ\nmodbus_registers[91]=(char)(TBATMAX);\nmodbus_registers[92]=(char)(TBATSIGN>>8);\t\t\t\t//Рег47 Температура батареи сигнальная, 1гЦ\nmodbus_registers[93]=(char)(TBATSIGN);\nmodbus_registers[94]=(char)(speedChrgCurr>>8);\t\t\t//Рег48 Ток ускоренного заряда, 0.1А\nmodbus_registers[95]=(char)(speedChrgCurr);\nmodbus_registers[96]=(char)(speedChrgVolt>>8);\t\t\t//Рег49\t Напряжение ускоренного заряда, 0.1В \nmodbus_registers[97]=(char)(speedChrgVolt);\nmodbus_registers[98]=(char)(speedChrgTimeInHour>>8);\t//Рег50\t Время ускоренного заряда, 1ч\r\nmodbus_registers[99]=(char)(speedChrgTimeInHour);\r\nmodbus_registers[100]=(char)(U_OUT_KONTR_MAX>>8);\t\t//Рег51\t Контроль выходного напряжения, Umax, 0.1В\r\nmodbus_registers[101]=(char)(U_OUT_KONTR_MAX);\r\nmodbus_registers[102]=(char)(U_OUT_KONTR_MIN>>8);\t\t//Рег52\t Контроль выходного напряжения, Umin, 0.1В\r\nmodbus_registers[103]=(char)(U_OUT_KONTR_MIN);\r\nmodbus_registers[104]=(char)(U_OUT_KONTR_DELAY>>8);\t\t//Рег53\t Контроль выходного напряжения, Tзадержки, 1сек.\r\nmodbus_registers[105]=(char)(U_OUT_KONTR_DELAY);\r\nmodbus_registers[106]=(char)(UB0>>8);\t\t\t\t\t//Рег54\t Установка выходного напряжения для ИПС без батареи(СГЕП-ГАЗПРОМ)\r\nmodbus_registers[107]=(char)(UB0);\r\nmodbus_registers[108]=(char)(UMAXN>>8);\t\t\t\t\t//Рег55 Максимальное (аварийное) напряжение питающей сети, 1В\nmodbus_registers[109]=(char)(UMAXN);\r\n\r\nmodbus_registers[110]=0;\t\t\t\t\t\t\t\t//Рег56 период синхронизации времени, 0-выкл, 1-1ч, 2-1сут., 3-1-нед.\nmodbus_registers[111]=(char)(SNTP_ENABLE);\t\t\t\t\r\nmodbus_registers[112]=(char)(SNTP_GMT>>8);\t\t\t\t//Рег57 Часовой пояс, от -12 до +13\nmodbus_registers[113]=(char)(SNTP_GMT);\t\t\t\t\t\r\nmodbus_registers[114]=0;\t\t\t\t\t\t\t\t//Рег58 1 число IP\nmodbus_registers[115]=(char)(lc640_read_int(EE_SNTP_IP1));\t\t\t\t\t\r\nmodbus_registers[116]=0;\t\t\t\t\t\t\t\t//Рег59 2 число IP\nmodbus_registers[117]=(char)(lc640_read_int(EE_SNTP_IP2));\t\t\t\t\t\r\nmodbus_registers[118]=0;\t\t\t\t\t\t\t\t//Рег60 3 число IP\nmodbus_registers[119]=(char)(lc640_read_int(EE_SNTP_IP3));\t\t\t\t\t\r\nmodbus_registers[120]=0;\t\t\t\t\t\t\t\t//Рег61 4 число IP\nmodbus_registers[121]=(char)(lc640_read_int(EE_SNTP_IP4));\r\nmodbus_registers[122]=0;\t\t\t\t\t\t\t\t//Рег62 количество АКБ\nmodbus_registers[123]=(char)(NUMBAT);\r\nmodbus_registers[124]=0;\t\t\t\t\t\t\t\t//Рег63 количество датчиков температуры\nmodbus_registers[125]=(char)(NUMDT);\t\r\nmodbus_registers[126]=0;\t\t\t\t\t\t\t\t//Рег64 количество мониторов АКБ 0,2,4\nmodbus_registers[127]=(char)(NUMMAKB);\t\r\nmodbus_registers[128]=0;\t\t\t\t\t\t\t\t//Рег65 количество СК\nmodbus_registers[129]=(char)(NUMSK);\r\nmodbus_registers[130]=0;\t\t\t\t\t\t\t\t//Рег66 количество РКИ\nmodbus_registers[131]=(char)(num_rki);\t\r\nmodbus_registers[132]=0;\t\t\t\t\t\t\t\t//Рег67 количество сетевых вводов\nmodbus_registers[133]=(char)(num_net_in);\r\nmodbus_registers[134]=0;\t\t\t\t\t\t\t\t//Рег68 количество доп. реле\nmodbus_registers[135]=(char)(NUMBDR);\r\nmodbus_registers[136]=0;\t\t\t\t\t\t\t\t//Рег69 количество ЭНМВ\nmodbus_registers[137]=(char)(NUMENMV);\r\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\nmodbus_registers[138]=(char)(BAT_C_POINT_NUM_ELEM>>8);\t//Рег70 количество 2В элементов АКБ 0-200\r\nmodbus_registers[139]=(char)(BAT_C_POINT_NUM_ELEM);\r\nmodbus_registers[140]=(char)(BAT_C_POINT_20>>8);\t\t//Рег71 уставка С20 0,1Ач\t10-25000\nmodbus_registers[141]=(char)(BAT_C_POINT_20);\r\nmodbus_registers[142]=(char)(BAT_C_POINT_10>>8);\t\t//Рег72 уставка С10 0,1Ач\t10-21000\nmodbus_registers[143]=(char)(BAT_C_POINT_10);\r\nmodbus_registers[144]=(char)(BAT_C_POINT_5>>8);\t\t\t//Рег73 уставка С5\t 0,1Ач\t10-20000\nmodbus_registers[145]=(char)(BAT_C_POINT_5);\r\nmodbus_registers[146]=(char)(BAT_C_POINT_3>>8);\t\t\t//Рег74 уставка С3\t 0,1Ач\t10-18000\nmodbus_registers[147]=(char)(BAT_C_POINT_3);\r\nmodbus_registers[148]=(char)(BAT_C_POINT_1>>8);\t\t\t//Рег75 уставка С1\t 0,1Ач\t10-16000\nmodbus_registers[149]=(char)(BAT_C_POINT_1);\r\nmodbus_registers[150]=(char)(BAT_C_POINT_1_2>>8);\t\t//Рег76 уставка С1/2 0,1Ач\t 10-13000\nmodbus_registers[151]=(char)(BAT_C_POINT_1_2);\r\nmodbus_registers[152]=(char)(BAT_C_POINT_1_6>>8);\t\t//Рег77 уставка С1/6 0,1Ач\t 10-8000\nmodbus_registers[153]=(char)(BAT_C_POINT_1_6);\r\nmodbus_registers[154]=(char)(BAT_U_END_20>>8);\t\t\t//Рег78 уставка U20 0,1В\t 1.0-1000.0\nmodbus_registers[155]=(char)(BAT_U_END_20);\r\nmodbus_registers[156]=(char)(BAT_U_END_10>>8);\t\t\t//Рег79 уставка U10 0,1В\t 1.0-1000.0\nmodbus_registers[157]=(char)(BAT_U_END_10);\r\nmodbus_registers[158]=(char)(BAT_U_END_5>>8);\t\t\t//Рег80 уставка U5\t 0,1В\t 1.0-1000.0\nmodbus_registers[159]=(char)(BAT_U_END_5);\r\nmodbus_registers[160]=(char)(BAT_U_END_3>>8);\t\t\t//Рег81 уставка U3\t 0,1В\t 1.0-1000.0\nmodbus_registers[161]=(char)(BAT_U_END_3);\r\nmodbus_registers[162]=(char)(BAT_U_END_1>>8);\t\t\t//Рег82 уставка U1\t 0,1В\t 1.0-1000.0\nmodbus_registers[163]=(char)(BAT_U_END_1);\r\nmodbus_registers[164]=(char)(BAT_U_END_1_2>>8);\t\t\t//Рег83 уставка U1/2 0,1В 1.0-1000.0\nmodbus_registers[165]=(char)(BAT_U_END_1_2);\r\nmodbus_registers[166]=(char)(BAT_U_END_1_6>>8);\t\t\t//Рег84 уставка U1/6 0,1В\t 1.0-1000.0\nmodbus_registers[167]=(char)(BAT_U_END_1_6);\r\nmodbus_registers[168]=(char)(BAT_K_OLD>>8);\t\t\t\t//Рег85 коэффициент старения АКБ , 0,01, макс=1,00 min=0.10\nmodbus_registers[169]=(char)(BAT_K_OLD);\r\n#endif\r\nmodbus_registers[170]=(char)(UVENTOFF>>8);\t\t\t \t//Рег86 Uоткл. вентилятора АКБ, 1В\t 15-250\nmodbus_registers[171]=(char)(UVENTOFF);\r\nmodbus_registers[172]=(char)(IMAX_VZ>>8);\t\t\t\t//Рег87 макс. ток выравн. заряда , 0,1А 10-2000\nmodbus_registers[173]=(char)(IMAX_VZ);\r\nmodbus_registers[174]=(char)(VZ_HR>>8);\t\t\t\t\t//Рег88 время выравн. заряда, если =0, то 0,5 часа. max=72ч, 1ч\nmodbus_registers[175]=(char)(VZ_HR);\r\nmodbus_registers[176]=0;\t\t\t\t\t\t\t\t//Рег89 блокирование ВЗ вентиляцией СК1, 1-вкл\nmodbus_registers[177]=(char)(VZ_CH_VENT_BLOK);\r\nmodbus_registers[178]=0;\t\t\t\t\t\t\t\t//Рег90 автом. УЗ, 1-вкл\nmodbus_registers[179]=(char)(speedChrgAvtEn);\r\nmodbus_registers[180]=(char)(speedChrgDU>>8);\t\t\t//Рег91 dU УЗ, 1В\t 1-100\nmodbus_registers[181]=(char)(speedChrgDU);\r\nmodbus_registers[182]=0;\t\t\t\t\t\t\t\t//Рег92 блокирование УЗ 0-выкл, 2-CK2\nmodbus_registers[183]=(char)(speedChrgBlckSrc);\r\nmodbus_registers[184]=0;\t\t\t\t\t\t\t\t//Рег93 сигнал блокирование УЗ 1-замкн, 0-разомкн.\nmodbus_registers[185]=(char)(speedChrgBlckLog);\r\nmodbus_registers[186]=0;\t\t\t\t\t\t\t\t//Рег94 блокирование УЗ вентиляцией СК1 1-вкл, 0-выкл.\nmodbus_registers[187]=(char)(SP_CH_VENT_BLOK);\r\nmodbus_registers[188]=(char)(UZ_U>>8);\t\t\t\t\t//Рег95 Напряжение уравнительного заряда, 0,1В\t Uб2010-2600\nmodbus_registers[189]=(char)(UZ_U);\r\nmodbus_registers[190]=(char)(UZ_IMAX>>8);\t\t\t\t//Рег96 Ток уравнительного заряда, 0,1А 10-10000\nmodbus_registers[191]=(char)(UZ_IMAX);\r\nmodbus_registers[192]=(char)(UZ_T>>8);\t\t\t\t\t//Рег97 Время работы уравнительного заряда, 1ч\t 1-72\nmodbus_registers[193]=(char)(UZ_T);\r\nmodbus_registers[194]=(char)(FZ_U1>>8);\t\t\t\t\t//Рег98 Напряжение формовочного заряда 1, 0,1В\t Uб2010-3000\nmodbus_registers[195]=(char)(FZ_U1);\r\nmodbus_registers[196]=(char)(FZ_IMAX1>>8);\t\t\t\t//Рег99 Ток формовочного заряда 1, 0,1А 10-1000\nmodbus_registers[197]=(char)(FZ_IMAX1);\r\n// здесь 2 регистра для выравнивания токов\r\nmodbus_registers[202]=(char)(FZ_T1>>8);\t\t\t\t\t//Рег102 Время работы формовочного заряда 1, 1ч 1-10\nmodbus_registers[203]=(char)(FZ_T1);\r\nmodbus_registers[204]=(char)(FZ_ISW12>>8);\t\t\t\t//Рег103 Ток переключения ФЗ, 0,1А\t 10-1000\nmodbus_registers[205]=(char)(FZ_ISW12);\r\nmodbus_registers[206]=(char)(FZ_U2>>8);\t\t\t\t\t//Рег104 Напряжение формовочного заряда 2, 0,1В Uб2010-3000\nmodbus_registers[207]=(char)(FZ_U2);\r\nmodbus_registers[208]=(char)(FZ_IMAX2>>8);\t\t\t\t//Рег105 Ток формовочного заряда 2, 0,1А\t10-1000\nmodbus_registers[209]=(char)(FZ_IMAX2);\r\nmodbus_registers[210]=(char)(FZ_T2>>8);\t\t\t\t\t//Рег106 Время работы формовочного заряда 2, 1ч 1-10\nmodbus_registers[211]=(char)(FZ_T2);\r\nmodbus_registers[212]=0;\t\t\t\t\t\t\t\t//Рег107 отключение аварийного сигнала 0-ручн., 1-автом.\nmodbus_registers[213]=(char)(AV_OFF_AVT);\r\nmodbus_registers[214]=0;\t\t\t\t\t\t\t\t//Рег108 АПВ 1й уровень 0-выкл., 1-вкл.\nmodbus_registers[215]=(char)(APV_ON1);\r\nmodbus_registers[216]=0;\t\t\t\t\t\t\t\t//Рег109 АПВ 2й уровень 0-выкл., 1-вкл.\nmodbus_registers[217]=(char)(APV_ON2);\r\nmodbus_registers[218]=0;\t\t\t\t\t\t\t\t//Рег110 АПВ 2й уровень период, 1ч , 1-24ч\nmodbus_registers[219]=(char)(APV_ON2_TIME);\r\nif(SK_SIGN[0]==0){\r\n\tmodbus_registers[220]=0;\t\t\t\t\t\t\t\t//Рег111 СК1 авария: 1-замкнун, 0-разомкнут\n\tmodbus_registers[221]=1;\r\n}else{\r\n\tmodbus_registers[220]=0;\t\t\t\t\t\t\t\t//Рег111 СК1 авария: 1-замкнун, 0-разомкнут\n\tmodbus_registers[221]=0;\r\n}\r\nif(SK_ZVUK_EN[0]==0){\r\n\tmodbus_registers[222]=0;\t\t\t\t\t\t\t\t//Рег112 СК1 авария звук: 0-выкл, 1-вкл\n\tmodbus_registers[223]=1;\r\n}else{\r\n\tmodbus_registers[222]=0;\t\t\t\t\t\t\t\t//Рег112 СК1 авария звук: 0-выкл, 1-вкл\n\tmodbus_registers[223]=0;\r\n}\r\nif(SK_LCD_EN[0]==0){\r\n\tmodbus_registers[224]=0;\t\t\t\t\t\t\t\t//Рег113 СК1 авария ЛСД: 0-выкл, 1-вкл\n\tmodbus_registers[225]=1;\r\n}else{\r\n\tmodbus_registers[224]=0;\t\t\t\t\t\t\t\t//Рег113 СК1 авария ЛСД: 0-выкл, 1-вкл\n\tmodbus_registers[225]=0;\r\n}\r\nif(SK_SIGN[1]==0){\r\n\tmodbus_registers[226]=0;\t\t\t\t\t\t\t\t//Рег114 СК2 авария: 1-замкнун, 0-разомкнут\n\tmodbus_registers[227]=1;\r\n}else{\r\n\tmodbus_registers[226]=0;\t\t\t\t\t\t\t\t//Рег114 СК2 авария: 1-замкнун, 0-разомкнут\n\tmodbus_registers[227]=0;\r\n}\r\nif(SK_ZVUK_EN[1]==0){\r\n\tmodbus_registers[228]=0;\t\t\t\t\t\t\t\t//Рег115 СК2 авария звук: 0-выкл, 1-вкл\n\tmodbus_registers[229]=1;\r\n}else{\r\n\tmodbus_registers[228]=0;\t\t\t\t\t\t\t\t//Рег115 СК2 авария звук: 0-выкл, 1-вкл\n\tmodbus_registers[229]=0;\t\t\t\t\t\t\t\t\t\t \r\n}\r\nif(SK_LCD_EN[1]==0){\r\n\tmodbus_registers[230]=0;\t\t\t\t\t\t\t\t//Рег116 СК2 авария ЛСД: 0-выкл, 1-вкл\n\tmodbus_registers[231]=1;\r\n}else{\r\n\tmodbus_registers[230]=0;\t\t\t\t\t\t\t\t//Рег116 СК2 авария ЛСД: 0-выкл, 1-вкл\n\tmodbus_registers[231]=0;\r\n}\r\n\r\nif(SK_SIGN[2]==0){\r\n\tmodbus_registers[232]=0;\t\t\t\t\t\t\t\t//Рег117 СК3 авария: 1-замкнун, 0-разомкнут\n\tmodbus_registers[233]=1;\r\n}else{\r\n\tmodbus_registers[232]=0;\t\t\t\t\t\t\t\t//Рег117 СК3 авария: 1-замкнун, 0-разомкнут\n\tmodbus_registers[233]=0;\r\n}\r\nif(SK_ZVUK_EN[2]==0){\r\n\tmodbus_registers[234]=0;\t\t\t\t\t\t\t\t//Рег118 СК3 авария звук: 0-выкл, 1-вкл\n\tmodbus_registers[235]=1;\r\n}else{\r\n\tmodbus_registers[234]=0;\t\t\t\t\t\t\t\t//Рег118 СК3 авария звук: 0-выкл, 1-вкл\n\tmodbus_registers[235]=0;\r\n}\r\nif(SK_LCD_EN[2]==0){\r\n\tmodbus_registers[236]=0;\t\t\t\t\t\t\t\t//Рег119 СК3 авария ЛСД: 0-выкл, 1-вкл\n\tmodbus_registers[237]=1;\r\n}else{\r\n\tmodbus_registers[236]=0;\t\t\t\t\t\t\t\t//Рег119 СК3 авария ЛСД: 0-выкл, 1-вкл\n\tmodbus_registers[237]=0;\r\n}\r\nif(SK_SIGN[3]==0){\r\n\tmodbus_registers[238]=0;\t\t\t\t\t\t\t\t//Рег120 СК4 авария: 1-замкнун, 0-разомкнут\n\tmodbus_registers[239]=1;\r\n}else{\r\n\tmodbus_registers[238]=0;\t\t\t\t\t\t\t\t//Рег120 СК4 авария: 1-замкнун, 0-разомкнут\n\tmodbus_registers[239]=0;\r\n}\r\nif(SK_ZVUK_EN[3]==0){\r\n\tmodbus_registers[240]=0;\t\t\t\t\t\t\t\t//Рег121 СК4 авария звук: 0-выкл, 1-вкл\n\tmodbus_registers[241]=1;\r\n}else{\r\n\tmodbus_registers[240]=0;\t\t\t\t\t\t\t\t//Рег121 СК4 авария звук: 0-выкл, 1-вкл\n\tmodbus_registers[241]=0;\t\t\t\t\t\t\t\t\t\t \r\n}\r\nif(SK_LCD_EN[3]==0){\r\n\tmodbus_registers[242]=0;\t\t\t\t\t\t\t\t//Рег122 СК4 авария ЛСД: 0-выкл, 1-вкл\n\tmodbus_registers[243]=1;\r\n}else{\r\n\tmodbus_registers[242]=0;\t\t\t\t\t\t\t\t//Рег122 СК4 авария ЛСД: 0-выкл, 1-вкл\n\tmodbus_registers[243]=0;\r\n}\r\nmodbus_registers[244]=0;\t\t\t\t\t\t\t\t\t//Рег123 термокомпенсация 0-выкл, 1-вкл\nmodbus_registers[245]=(char)(TERMOKOMPENS);\r\nmodbus_registers[246]=(char)(FORVARDBPSCHHOUR>>8);\t\t\t//Рег124 Время ротации БПС, 1ч, 0-500ч, 0-выкл\nmodbus_registers[247]=(char)(FORVARDBPSCHHOUR);\r\nmodbus_registers[248]=0;\t\t\t\t\t\t\t\t\t//Рег125 назначение доп реле 0-УЗ или ВЗ, 1-разряж.АКБ\nmodbus_registers[249]=(char)(DOP_RELE_FUNC);\r\nmodbus_registers[250]=0;\t\t\t\t\t\t\t\t\t//Рег126 блокировка ИПС, 0-выкл, 1-СК1, 2-СК2\nmodbus_registers[251]=(char)(ipsBlckSrc);\r\nmodbus_registers[252]=0;\t\t\t\t\t\t\t\t\t//Рег127 сигнал блокирования, 0-разомкн. 1-замкн.\nmodbus_registers[253]=(char)(ipsBlckLog);\r\nmodbus_registers[254]=0;\t\t\t\t\t\t\t\t\t//Рег128 адрес модбас\t1-100\nmodbus_registers[255]=(char)(MODBUS_ADRESS);\t\t\r\nmodbus_registers[256]=(char)(MODBUS_BAUDRATE>>8);\t\t\t//Рег129 скорость/10 \nmodbus_registers[257]=(char)(MODBUS_BAUDRATE);\r\nmodbus_registers[258]=0;\t\t\t\t\t\t\t\t\t//Рег130 интернет, 0-вкл. 1-выкл\nmodbus_registers[259]=(char)(ETH_IS_ON);\r\nmodbus_registers[260]=0;\t\t\t\t\t\t\t\t\t//Рег131 интернет DHCP, 0-вкл. 1-выкл.\nmodbus_registers[261]=(char)(ETH_DHCP_ON);\r\nmodbus_registers[262]=0;\t\t\t\t\t\t\t\t\t//Рег132 интернет IP число 1\nmodbus_registers[263]=(char)(ETH_IP_1);\r\nmodbus_registers[264]=0;\t\t\t\t\t\t\t\t\t//Рег133 интернет IP число 2\nmodbus_registers[265]=(char)(ETH_IP_2);\r\nmodbus_registers[266]=0;\t\t\t\t\t\t\t\t\t//Рег134 интернет IP число 3\nmodbus_registers[267]=(char)(ETH_IP_3);\r\nmodbus_registers[268]=0;\t\t\t\t\t\t\t\t\t//Рег135 интернет IP число 4\nmodbus_registers[269]=(char)(ETH_IP_4);\r\nmodbus_registers[270]=0;\t\t\t\t\t\t\t\t\t//Рег136 маска сети число 1\nmodbus_registers[271]=(char)(ETH_MASK_1);\r\nmodbus_registers[272]=0;\t\t\t\t\t\t\t\t\t//Рег137 маска сети число 2\nmodbus_registers[273]=(char)(ETH_MASK_2);\r\nmodbus_registers[274]=0;\t\t\t\t\t\t\t\t\t//Рег138 маска сети число 3\nmodbus_registers[275]=(char)(ETH_MASK_3);\r\nmodbus_registers[276]=0;\t\t\t\t\t\t\t\t\t//Рег139 маска сети число 4\nmodbus_registers[277]=(char)(ETH_MASK_4);\r\nmodbus_registers[278]=0;\t\t\t\t\t\t\t\t\t//Рег140 шлюз число 1\r\nmodbus_registers[279]=(char)(ETH_GW_1);\r\nmodbus_registers[280]=0;\t\t\t\t\t\t\t\t\t//Рег141 шлюз число 2\nmodbus_registers[281]=(char)(ETH_GW_2);\r\nmodbus_registers[282]=0;\t\t\t\t\t\t\t\t\t//Рег142 шлюз число 3\nmodbus_registers[283]=(char)(ETH_GW_3);\r\nmodbus_registers[284]=0;\t\t\t\t\t\t\t\t\t//Рег143 шлюз число 4\nmodbus_registers[285]=(char)(ETH_GW_4);\r\nmodbus_registers[286]=(char)(ETH_SNMP_PORT_READ>>8);\t\t//Рег144 порт чтения \nmodbus_registers[287]=(char)(ETH_SNMP_PORT_READ);\r\nmodbus_registers[288]=(char)(ETH_SNMP_PORT_WRITE>>8);\t\t//Рег145 порт записи \nmodbus_registers[289]=(char)(ETH_SNMP_PORT_WRITE);\r\nmodbus_registers[290]=0;\t\t\t\t\t\t\t\t\t//Рег146 пароль знак 1\nmodbus_registers[291]=(char)(snmp_community[0]);\r\nmodbus_registers[292]=0;\t\t\t\t\t\t\t\t\t//Рег147 пароль знак 2\nmodbus_registers[293]=(char)(snmp_community[1]);\r\nmodbus_registers[294]=0;\t\t\t\t\t\t\t\t\t//Рег148 пароль знак 3\nmodbus_registers[295]=(char)(snmp_community[2]);\r\nmodbus_registers[296]=0;\t\t\t\t\t\t\t\t\t//Рег149 пароль знак 4\nmodbus_registers[297]=(char)(snmp_community[3]);\r\nmodbus_registers[298]=0;\t\t\t\t\t\t\t\t\t//Рег150 пароль знак 5\nmodbus_registers[299]=(char)(snmp_community[4]);\r\nmodbus_registers[300]=0;\t\t\t\t\t\t\t\t\t//Рег151 пароль знак 6\nmodbus_registers[301]=(char)(snmp_community[5]);\r\nmodbus_registers[302]=0;\t\t\t\t\t\t\t\t\t//Рег152 пароль знак 7\nmodbus_registers[303]=(char)(snmp_community[6]);\r\nmodbus_registers[304]=0;\t\t\t\t\t\t\t\t\t//Рег153 пароль знак 7\nmodbus_registers[305]=(char)(snmp_community[7]);\r\nmodbus_registers[306]=0;\t\t\t\t\t\t\t\t\t//Рег154 TRAP1 IP число 1\r\nmodbus_registers[307]=(char)(ETH_TRAP1_IP_1);\r\nmodbus_registers[308]=0;\t\t\t\t\t\t\t\t\t//Рег155 TRAP1 IP число 2\nmodbus_registers[309]=(char)(ETH_TRAP1_IP_2);\r\nmodbus_registers[310]=0;\t\t\t\t\t\t\t\t\t//Рег156 TRAP1 IP число 3\nmodbus_registers[311]=(char)(ETH_TRAP1_IP_3);\r\nmodbus_registers[312]=0;\t\t\t\t\t\t\t\t\t//Рег157 TRAP1 IP число 4\nmodbus_registers[313]=(char)(ETH_TRAP1_IP_4);\r\nmodbus_registers[314]=0;\t\t\t\t\t\t\t\t\t//Рег158 TRAP2 IP число 1\r\nmodbus_registers[315]=(char)(ETH_TRAP2_IP_1);\r\nmodbus_registers[316]=0;\t\t\t\t\t\t\t\t\t//Рег159 TRAP2 IP число 2\nmodbus_registers[317]=(char)(ETH_TRAP2_IP_2);\r\nmodbus_registers[318]=0;\t\t\t\t\t\t\t\t\t//Рег160 TRAP2 IP число 3\nmodbus_registers[319]=(char)(ETH_TRAP2_IP_3);\r\nmodbus_registers[320]=0;\t\t\t\t\t\t\t\t\t//Рег161 TRAP2 IP число 4\nmodbus_registers[321]=(char)(ETH_TRAP2_IP_4);\r\nmodbus_registers[322]=0;\t\t\t\t\t\t\t\t\t//Рег162 TRAP3 IP число 1\r\nmodbus_registers[323]=(char)(ETH_TRAP3_IP_1);\r\nmodbus_registers[324]=0;\t\t\t\t\t\t\t\t\t//Рег163 TRAP3 IP число 2\nmodbus_registers[325]=(char)(ETH_TRAP3_IP_2);\r\nmodbus_registers[326]=0;\t\t\t\t\t\t\t\t\t//Рег164 TRAP3 IP число 3\nmodbus_registers[327]=(char)(ETH_TRAP3_IP_3);\r\nmodbus_registers[328]=0;\t\t\t\t\t\t\t\t\t//Рег165 TRAP3 IP число 4\nmodbus_registers[329]=(char)(ETH_TRAP3_IP_4);\r\nmodbus_registers[330]=0;\t\t\t\t\t\t\t\t\t//Рег166 TRAP4 IP число 1\r\nmodbus_registers[331]=(char)(ETH_TRAP4_IP_1);\r\nmodbus_registers[332]=0;\t\t\t\t\t\t\t\t\t//Рег167 TRAP4 IP число 2\nmodbus_registers[333]=(char)(ETH_TRAP4_IP_2);\r\nmodbus_registers[334]=0;\t\t\t\t\t\t\t\t\t//Рег168 TRAP4 IP число 3\nmodbus_registers[335]=(char)(ETH_TRAP4_IP_3);\r\nmodbus_registers[336]=0;\t\t\t\t\t\t\t\t\t//Рег169 TRAP4 IP число 4\nmodbus_registers[337]=(char)(ETH_TRAP4_IP_4);\r\nmodbus_registers[338]=0;\t\t\t\t\t\t\t\t\t//Рег170 TRAP5 IP число 1\r\nmodbus_registers[339]=(char)(ETH_TRAP5_IP_1);\r\nmodbus_registers[340]=0;\t\t\t\t\t\t\t\t\t//Рег171 TRAP5 IP число 2\nmodbus_registers[341]=(char)(ETH_TRAP5_IP_2);\r\nmodbus_registers[342]=0;\t\t\t\t\t\t\t\t\t//Рег172 TRAP5 IP число 3\nmodbus_registers[343]=(char)(ETH_TRAP5_IP_3);\r\nmodbus_registers[344]=0;\t\t\t\t\t\t\t\t\t//Рег173 TRAP5 IP число 4\nmodbus_registers[345]=(char)(ETH_TRAP5_IP_4);\r\nmodbus_registers[346]=0;\t\t\t\t\t\t\t\t\t//Рег174 пароль знак 1\nmodbus_registers[347]=(char)(snmp_web_passw[0]);\r\nmodbus_registers[348]=0;\t\t\t\t\t\t\t\t\t//Рег175 пароль знак 2\nmodbus_registers[349]=(char)(snmp_web_passw[1]);\r\nmodbus_registers[350]=0;\t\t\t\t\t\t\t\t\t//Рег176 пароль знак 3\nmodbus_registers[351]=(char)(snmp_web_passw[2]);\r\nmodbus_registers[352]=0;\t\t\t\t\t\t\t\t\t//Рег177 перезагрузка УКУ\nmodbus_registers[353]=0;\r\nmodbus_registers[354]=(char)((TVENTMAX10)>>8);\t\t\t\t//Рег178 порог ресурса вентилятора \nmodbus_registers[355]=(char)(TVENTMAX10);\r\nmodbus_registers[356]=0;\t\t\t\t\t\t\t//Рег179 выравн.токов, 0-ведомый, 1-включено, 2-внешн.упр.\nmodbus_registers[357]=(char)(ICA_EN);\r\nmodbus_registers[358]=0;\t\t\t\t\t\t\t//Рег180 выравн.токов, 0-MODBUS-RTU, 1-MODBUS-TCP, 2-RS485-2\nmodbus_registers[359]=(char)(ICA_CH);\r\nmodbus_registers[360]=0;\t\t\t\t\t\t\t\t\t//Рег181 IP ведомого число 1\r\nmodbus_registers[361]=(char)(ICA_MODBUS_TCP_IP1);\r\nmodbus_registers[362]=0;\t\t\t\t\t\t\t\t\t//Рег182 IP ведомого число 2\nmodbus_registers[363]=(char)(ICA_MODBUS_TCP_IP2);\r\nmodbus_registers[364]=0;\t\t\t\t\t\t\t\t\t//Рег183 IP ведомого число 3\nmodbus_registers[365]=(char)(ICA_MODBUS_TCP_IP3);\r\nmodbus_registers[366]=0;\t\t\t\t\t\t\t\t\t//Рег184 IP ведомого число 4\nmodbus_registers[367]=(char)(ICA_MODBUS_TCP_IP4);\r\nmodbus_registers[368]=0;\t\t\t\t\t\t\t\t\t//Рег185 адрес ведомого MODBUS-TCP\t 1-254\nmodbus_registers[369]=(char)(ICA_MODBUS_TCP_UNIT_ID);\r\nmodbus_registers[370]=0;\t\t\t\t\t\t\t\t\t//Рег186 адрес ведомого MODBUS-RTU 1-254\nmodbus_registers[371]=(char)(ICA_MODBUS_ADDRESS);\r\nmodbus_registers[372]=0;\t\t\t\t\t\t\t\t\t//Рег187 стартовый ШИМ, 1%, 10-100%\nmodbus_registers[373]=(char)(PWM_START);\r\nmodbus_registers[374]=0;\t\t\t\t\t\t\t\t\t//Рег188 проверка цепи АКБ, 1-1ступень, 2-2, 3-3\nmodbus_registers[375]=(char)(KB_ALGORITM);\r\nmodbus_registers[376]=0;\t\t\t\t\t\t\t\t\t//Рег189 скорость регулирования, 1-стандарт, 2-с/2, 3-с/3, 4-c/4, 5-c/5\nmodbus_registers[377]=(char)(REG_SPEED);\r\nmodbus_registers[378]=0;\t\t\t\t\t\t\t\t\t//Рег190 спецзаряды, 0-запрещены, 1-разрешены\nmodbus_registers[379]=(char)(SMART_SPC);\r\n//для ИБЭП\r\nmodbus_registers[380]=0;\t\t\t\t\t\t\t\t\t//Рег191 фазность сети, 1-1ф, 3-3ф\nmodbus_registers[381]=(char)(NUMPHASE);\r\nmodbus_registers[382]=0;\t\t\t\t\t\t\t\t\t//Рег192 Твент.включения\nmodbus_registers[383]=(char)(TVENTON);\r\nmodbus_registers[384]=0;\t\t\t\t\t\t\t\t\t//Рег193 Твент.выключения\nmodbus_registers[385]=(char)(TVENTOFF);\r\nmodbus_registers[386]=0;\t\t\t\t\t\t\t\t\t//Рег194 датчик вент. 0-Tакб, 1-Твнешн., 2-Тбпс\nmodbus_registers[387]=(char)(RELEVENTSIGN);\r\nmodbus_registers[388]=0;\t\t\t\t\t\t\t\t\t//Рег195 откл. НПН 0-выкл, 1-реле вент., 2-реле авар.АКБ2\nmodbus_registers[389]=(char)(NPN_OUT);\r\nmodbus_registers[390]=(char)(UONPN>>8);\t\t\t\t\t\t//Рег196 Uоткл НПН 0,1В, 10,0-250,0В\nmodbus_registers[391]=(char)(UONPN);\r\nmodbus_registers[392]=(char)(UVNPN>>8);\t\t\t\t\t\t//Рег197 Uвкл НПН 0,1В, 10,0-250,0В\nmodbus_registers[393]=(char)(UVNPN);\r\nmodbus_registers[394]=0;\t\t\t\t\t\t\t\t\t//Рег198 задержка откл. НПН, 1с, 10-60\nmodbus_registers[395]=(char)(TZNPN);\r\n/modbus_registers[396]=0;\t\t\t\t\t\t\t\t\t//Рег199 контроль средн. точки, 1%, 0-50\nmodbus_registers[397]=(char)(UBM_AV); /\r\n//o_8_e\t \t\t \t \r\n\r\n //o_10_s\t \r\nmodbus_registers[398]=(char)(r_iz_porog_pred>>8);\t\t\t//Рег200 порог предупреждения\nmodbus_registers[399]=(char)(r_iz_porog_pred); \r\nmodbus_registers[400]=(char)(r_iz_porog_error>>8);\t\t\t//Рег201 порог аварии\nmodbus_registers[401]=(char)(r_iz_porog_error);\r\nmodbus_registers[402]=0;\t\t\t\t\t\t\t\t\t//Рег202 порог асимметрии в %\nmodbus_registers[403]=(char)(asymmetry_porog); \t\t \t \r\nmodbus_registers[404]=0;\t\t\t\t\t\t\t\t\t//Рег203 порог асимметрии в вольтах >1MOm\nmodbus_registers[405]=(char)(u_asymmetry_porog_up);\r\nmodbus_registers[406]=0;\t\t\t\t\t\t\t\t\t//Рег204 порог асимметрии в вольтах\nmodbus_registers[407]=(char)(u_asymmetry_porog);\r\nmodbus_registers[408]=0;\t\t\t\t\t\t\t\t\t//Рег205 порог асимметрии в вольтах <20kOm\nmodbus_registers[409]=(char)(u_asymmetry_porog_down);\r\nmodbus_registers[410]=(char)(porog_u_in>>8);\t\t\t\t//Рег206 порог Uшины\nmodbus_registers[411]=(char)(porog_u_in); \r\n//o_10_e\r\n\r\n#ifdef UKU_FSO\r\n//UKUFSO_IBEP_SN=100000;\r\nmodbus_registers[500]=(char)(UKUFSO_IBEP_SN>>8);\t\t\t\t//Рег251 Серийный номер ИБЭП(младшее слово)\nmodbus_registers[501]=(char)(UKUFSO_IBEP_SN); \r\nmodbus_registers[502]=(char)(UKUFSO_IBEP_SN>>24);\t\t\t\t//Рег252 Серийный номер ИБЭП(старшее слово)\nmodbus_registers[503]=(char)(UKUFSO_IBEP_SN>>16); \nmodbus_registers[504]=(char)(UKUFSO_IBEP_START_DATE_YEAR>>8);\t//Рег253 Год введения в эксплуатацию ИБЭП\nmodbus_registers[505]=(char)(UKUFSO_IBEP_START_DATE_YEAR); \r\nmodbus_registers[506]=(char)(UKUFSO_IBEP_START_DATE_MONTH);\t\t//Рег254 День и месяц введения в эксплуатацию ИБЭП\nmodbus_registers[507]=(char)(UKUFSO_IBEP_START_DATE_DAY);\r\n\r\nmodbus_registers[560]=(char)(UKUFSO_BPS1_SN>>8);\t\t\t\t//Рег281 Серийный номер БПС№1(младшее слово)\nmodbus_registers[561]=(char)(UKUFSO_BPS1_SN); \r\nmodbus_registers[562]=(char)(UKUFSO_BPS1_SN>>24);\t\t\t\t//Рег282 Серийный номер БПС№1(старшее слово)\nmodbus_registers[563]=(char)(UKUFSO_BPS1_SN>>16); \nmodbus_registers[564]=(char)(UKUFSO_BPS1_START_DATE_YEAR>>8);\t//Рег283 Год введения в эксплуатацию БПС№1\nmodbus_registers[565]=(char)(UKUFSO_BPS1_START_DATE_YEAR); \r\nmodbus_registers[566]=(char)(UKUFSO_BPS1_START_DATE_MONTH);\t\t//Рег284 День и месяц введения в эксплуатацию БПС№1\nmodbus_registers[567]=(char)(UKUFSO_BPS1_START_DATE_DAY);\r\nmodbus_registers[568]=(char)(UKUFSO_BPS2_SN>>8);\t\t\t\t//Рег285 Серийный номер БПС№2(младшее слово)\nmodbus_registers[569]=(char)(UKUFSO_BPS2_SN); \r\nmodbus_registers[570]=(char)(UKUFSO_BPS2_SN>>24);\t\t\t\t//Рег286 Серийный номер БПС№2(старшее слово)\nmodbus_registers[571]=(char)(UKUFSO_BPS2_SN>>16); \nmodbus_registers[572]=(char)(UKUFSO_BPS2_START_DATE_YEAR>>8);\t//Рег287 Год введения в эксплуатацию БПС№2\nmodbus_registers[573]=(char)(UKUFSO_BPS2_START_DATE_YEAR); \r\nmodbus_registers[574]=(char)(UKUFSO_BPS2_START_DATE_MONTH);\t\t//Рег288 День и месяц введения в эксплуатацию БПС№2\nmodbus_registers[575]=(char)(UKUFSO_BPS2_START_DATE_DAY);\r\nmodbus_registers[576]=(char)(UKUFSO_BPS3_SN>>8);\t\t\t\t//Рег289 Серийный номер БПС№3(младшее слово)\nmodbus_registers[577]=(char)(UKUFSO_BPS3_SN); \r\nmodbus_registers[578]=(char)(UKUFSO_BPS3_SN>>24);\t\t\t\t//Рег290 Серийный номер БПС№3(старшее слово)\nmodbus_registers[579]=(char)(UKUFSO_BPS3_SN>>16); \nmodbus_registers[580]=(char)(UKUFSO_BPS3_START_DATE_YEAR>>8);\t//Рег291 Год введения в эксплуатацию БПС№3\nmodbus_registers[581]=(char)(UKUFSO_BPS3_START_DATE_YEAR); \r\nmodbus_registers[582]=(char)(UKUFSO_BPS3_START_DATE_MONTH);\t\t//Рег292 День и месяц введения в эксплуатацию БПС№3\nmodbus_registers[583]=(char)(UKUFSO_BPS3_START_DATE_DAY);\r\nmodbus_registers[584]=(char)(UKUFSO_BPS4_SN>>8);\t\t\t\t//Рег293 Серийный номер БПС№4(младшее слово)\nmodbus_registers[585]=(char)(UKUFSO_BPS4_SN); \r\nmodbus_registers[586]=(char)(UKUFSO_BPS4_SN>>24);\t\t\t\t//Рег294 Серийный номер БПС№4(старшее слово)\nmodbus_registers[587]=(char)(UKUFSO_BPS4_SN>>16); \nmodbus_registers[588]=(char)(UKUFSO_BPS4_START_DATE_YEAR>>8);\t//Рег295 Год введения в эксплуатацию БПС№4\nmodbus_registers[589]=(char)(UKUFSO_BPS4_START_DATE_YEAR); \r\nmodbus_registers[590]=(char)(UKUFSO_BPS4_START_DATE_MONTH);\t\t//Рег296 День и месяц введения в эксплуатацию БПС№4\nmodbus_registers[591]=(char)(UKUFSO_BPS4_START_DATE_DAY);\r\nmodbus_registers[592]=(char)(UKUFSO_BAT1_SN>>8);\t\t\t\t//Рег297 Серийный номер АКБ№1(младшее слово)\nmodbus_registers[593]=(char)(UKUFSO_BAT1_SN); \r\nmodbus_registers[594]=(char)(UKUFSO_BAT1_SN>>24);\t\t\t\t//Рег298 Серийный номер АКБ№1(старшее слово)\nmodbus_registers[595]=(char)(UKUFSO_BAT1_SN>>16); \nmodbus_registers[596]=(char)(UKUFSO_BAT1_START_DATE_YEAR>>8);\t//Рег299 Год введения в эксплуатацию АКБ№1\nmodbus_registers[597]=(char)(UKUFSO_BAT1_START_DATE_YEAR); \r\nmodbus_registers[598]=(char)(UKUFSO_BAT1_START_DATE_MONTH);\t\t//Рег300 День и месяц введения в эксплуатацию АКБ№1\nmodbus_registers[599]=(char)(UKUFSO_BAT1_START_DATE_DAY);\r\nmodbus_registers[600]=(char)(UKUFSO_BAT2_SN>>8);\t\t\t\t//Рег301 Серийный номер АКБ№2(младшее слово)\nmodbus_registers[601]=(char)(UKUFSO_BAT2_SN); \r\nmodbus_registers[602]=(char)(UKUFSO_BAT2_SN>>24);\t\t\t\t//Рег302 Серийный номер АКБ№2(старшее слово)\nmodbus_registers[603]=(char)(UKUFSO_BAT2_SN>>16); \nmodbus_registers[604]=(char)(UKUFSO_BAT2_START_DATE_YEAR>>8);\t//Рег303 Год введения в эксплуатацию АКБ№2\nmodbus_registers[605]=(char)(UKUFSO_BAT2_START_DATE_YEAR); \r\nmodbus_registers[606]=(char)(UKUFSO_BAT2_START_DATE_MONTH);\t\t//Рег304 День и месяц введения в эксплуатацию АКБ№2\nmodbus_registers[607]=(char)(UKUFSO_BAT2_START_DATE_DAY); \n#endif //UKU_FSO\r\n\r\nif(prot==MODBUS_RTU_PROT)\r\n\t{\n\tmodbus_tx_buff[0]=adr;\n\tmodbus_tx_buff[1]=func;\n\tmodbus_tx_buff[2]=(char)(reg_quantity2);\n\tmem_copy((char)&modbus_tx_buff[3],(char)&modbus_registers[(reg_adr-1)2],reg_quantity2);\n\t\n\tcrc_temp=CRC16_2(modbus_tx_buff,(reg_quantity2)+3);\n\n\tmodbus_tx_buff[3+(reg_quantity2)]=(char)crc_temp;\n\tmodbus_tx_buff[4+(reg_quantity2)]=crc_temp>>8;\n\n\tfor (i=0;i<(5+(reg_quantity2));i++)\n\t\t{\n\t\tputchar0(modbus_tx_buff[i]);\n\t\t}\r\n\n\tfor (i=0;i<(5+(reg_quantity2));i++)\n\t\t{\n\t\tputchar_sc16is700(modbus_tx_buff[i]);\n\t\t}\r\n\t}\r\nelse if(prot==MODBUS_TCP_PROT)\r\n\t{\r\n\tmodbus_tcp_out_ptr=(char)&modbus_registers[(reg_adr-1)2];\r\n\t}\n}\n\n//-----------------------------------------------\nvoid modbus_input_registers_transmit(unsigned char adr,unsigned char func,unsigned short reg_adr,unsigned short reg_quantity, char prot)\n{\nsigned char modbus_registers[700];\t //o_10\n//char modbus_tx_buff[200];\nunsigned short crc_temp;\nchar i;\nshort tempS;\r\n\r\n//tempS=(MODBUS_INPUT_REGS[0]);\r\n//bps_I=bps_I_phantom;\r\n\r\n#if defined UKU_6U \|\| defined UKU_220_V2 //o_10 в UKU_220_V2 не отображались U и I у UKU_6U-отображались \r\nmodbus_registers[0]=(signed char)(load_U>>8);\t\t\t\t\t//Рег1 \tнапряжение выходной шины, 0.1В\nmodbus_registers[1]=(signed char)(load_U);\nmodbus_registers[2]=(signed char)(load_I>>8);\t\t\t\t\t//Рег2 \tток выпрямителей, 0.1А\nmodbus_registers[3]=(signed char)(load_I);\r\n#else\nmodbus_registers[0]=(signed char)(out_U>>8);\t\t\t\t\t//Рег1 \tнапряжение выходной шины, 0.1В\nmodbus_registers[1]=(signed char)(out_U);\nmodbus_registers[2]=(signed char)(bps_I>>8);\t\t\t\t\t//Рег2 \tток выпрямителей, 0.1А\nmodbus_registers[3]=(signed char)(bps_I);\n#endif\r\n/\nmodbus_registers[0]=(signed char)(out_U>>8);\t\t\t\t\t//Рег1 \tнапряжение выходной шины, 0.1В\nmodbus_registers[1]=(signed char)(out_U);\nmodbus_registers[2]=(signed char)(bps_I>>8);\t\t\t\t\t//Рег2 \tток выпрямителей, 0.1А\nmodbus_registers[3]=(signed char)(bps_I);\n/\r\nmodbus_registers[4]=(signed char)(net_U>>8);\t\t\t\t\t//Рег3 \tнапряжение сети питания, 1В\nmodbus_registers[5]=(signed char)(net_U);\nmodbus_registers[6]=(signed char)(net_F>>8);\t\t\t\t\t//Рег4 \tчастота сети питания, 0.1Гц\nmodbus_registers[7]=(signed char)(net_F);\nmodbus_registers[8]=(signed char)(net_Ua>>8);\t\t\t\t\t//Рег5\tнапряжение сети питания фаза A, 1В\t\nmodbus_registers[9]=(signed char)(net_Ua);\t\t \t\nmodbus_registers[10]=(signed char)(net_Ub>>8);\t\t\t\t//Рег6\tнапряжение сети питания фаза B, 1В\nmodbus_registers[11]=(signed char)(net_Ub);\nmodbus_registers[12]=(signed char)(net_Uc>>8);\t\t\t\t//Рег7\tнапряжение сети питания фаза C, 1В\nmodbus_registers[13]=(signed char)(net_Uc);\nmodbus_registers[14]=(signed char)(bat[0]._Ub>>8);\t\t\t\t//Рег8\tнапряжение батареи №1, 0.1В\nmodbus_registers[15]=(signed char)(bat[0]._Ub);\r\nmodbus_registers[16]=(signed char)(bat[0]._Ib>>8);\t\t\t\t//Рег9 \tток батареи №1, 0.01А\nmodbus_registers[17]=(signed char)(bat[0]._Ib);\r\n#ifdef UKU_ZVU\r\nmodbus_registers[18]=(signed char)(t_ext[0]>>8);\t\t\t\t//Рег10\tтемпература батареи №1, 1Гц\nmodbus_registers[19]=(signed char)(t_ext[0]);\r\n#else\r\nmodbus_registers[18]=(signed char)(bat[0]._Tb>>8);\t\t\t\t//Рег10\tтемпература батареи №1, 1Гц\nmodbus_registers[19]=(signed char)(bat[0]._Tb);\r\n#endif\r\n#ifdef UKU_ZVU\r\nmodbus_registers[20]=(signed char)(((short)(bat_hndl_zvu_Q/10000L))>>8);\t\t\t//Рег11\tзаряд батареи №1, %\nmodbus_registers[21]=(signed char)(((short)(bat_hndl_zvu_Q/10000L)));\r\n#else\nmodbus_registers[20]=(signed char)(bat[0]._zar>>8);\t\t\t//Рег11\tзаряд батареи №1, %\nmodbus_registers[21]=(signed char)(bat[0]._zar);\r\n#endif\nmodbus_registers[22]=(signed char)(bat[0]._Ubm>>8);\t\t\t//Рег12\tнапряжение средней точки батареи №1, 0.1В\nmodbus_registers[23]=(signed char)(bat[0]._Ubm);\nmodbus_registers[24]=(signed char)(bat[0]._dUbm>>8);\t\t\t//Рег13\tошибка средней точки батареи №1, %\nmodbus_registers[25]=(signed char)(bat[0]._dUbm);\nmodbus_registers[26]=(signed char)(BAT_C_REAL[0]>>8);\t\t\t//Рег14\tРеальная емкость батареи №1, 0.1Ач, если 0x5555 то не измерялась\nmodbus_registers[27]=(signed char)(BAT_C_REAL[0]);\nmodbus_registers[28]=(signed char)(bat[1]._Ub>>8);\t\t\t\t//Рег15\tнапряжение батареи №1, 0.1В\nmodbus_registers[29]=(signed char)(bat[1]._Ub);\nmodbus_registers[30]=(signed char)(bat[1]._Ib>>8);\t\t\t\t//Рег16 \tток батареи №1, 0.01А\nmodbus_registers[31]=(signed char)(bat[1]._Ib);\nmodbus_registers[32]=(signed char)(bat[1]._Tb>>8);\t\t\t\t//Рег17\tтемпература батареи №1, 1Гц\nmodbus_registers[33]=(signed char)(bat[1]._Tb);\nmodbus_registers[34]=(signed char)(bat[1]._zar>>8);\t\t\t//Рег18\tзаряд батареи №1, %\nmodbus_registers[35]=(signed char)(bat[1]._zar);\nmodbus_registers[36]=(signed char)(bat[1]._Ubm>>8);\t\t\t//Рег19\tнапряжение средней точки батареи №1, 0.1В\nmodbus_registers[37]=(signed char)(bat[1]._Ubm);\nmodbus_registers[38]=(signed char)(bat[1]._dUbm>>8);\t\t\t//Рег20\tошибка средней точки батареи №1, %\nmodbus_registers[39]=(signed char)(bat[1]._dUbm);\nmodbus_registers[40]=(signed char)(BAT_C_REAL[1]>>8);\t\t\t//Рег21\tРеальная емкость батареи №1, 0.1Ач, если 0x5555 то не измерялась\nmodbus_registers[41]=(signed char)(BAT_C_REAL[1]);\nmodbus_registers[42]=(signed char)(bps[0]._Uii>>8);\t\t\t//Рег22\tВыходное напряжение выпрямителя №1, 0.1В\nmodbus_registers[43]=(signed char)(bps[0]._Uii);\nmodbus_registers[44]=(signed char)(bps[0]._Ii>>8);\t\t\t\t//Рег23\tВыходной ток выпрямителя №1, 0.1А\nmodbus_registers[45]=(signed char)(bps[0]._Ii);\nmodbus_registers[46]=(signed char)(bps[0]._Ti>>8);\t\t\t\t//Рег24\tТемпература радиатора выпрямителя №1, 1гЦ\nmodbus_registers[47]=(signed char)(bps[0]._Ti);\nmodbus_registers[48]=(signed char)(bps[0]._av>>8);\t\t\t\t//Рег25\tБайт флагов выпрямителя №1, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[49]=(signed char)(bps[0]._av);\nmodbus_registers[50]=(signed char)(bps[1]._Uii>>8);\t\t\t//Рег26\tВыходное напряжение выпрямителя №2, 0.1В\nmodbus_registers[51]=(signed char)(bps[1]._Uii);\nmodbus_registers[52]=(signed char)(bps[1]._Ii>>8);\t\t\t\t//Рег27\tВыходной ток выпрямителя №2, 0.1А\nmodbus_registers[53]=(signed char)(bps[1]._Ii);\nmodbus_registers[54]=(signed char)(bps[1]._Ti>>8);\t\t\t\t//Рег28\tТемпература радиатора выпрямителя №2, 1гЦ\nmodbus_registers[55]=(signed char)(bps[1]._Ti);\nmodbus_registers[56]=(signed char)(bps[1]._av>>8);\t\t\t\t//Рег29\tБайт флагов выпрямителя №2, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[57]=(signed char)(bps[1]._av);\nmodbus_registers[58]=(signed char)(bps[2]._Uii>>8);\t\t\t//Рег30\tВыходное напряжение выпрямителя №3, 0.1В\nmodbus_registers[59]=(signed char)(bps[2]._Uii);\nmodbus_registers[60]=(signed char)(bps[2]._Ii>>8);\t\t\t\t//Рег31\tВыходной ток выпрямителя №3, 0.1А\nmodbus_registers[61]=(signed char)(bps[2]._Ii);\nmodbus_registers[62]=(signed char)(bps[2]._Ti>>8);\t\t\t\t//Рег32\tТемпература радиатора выпрямителя №3, 1гЦ\nmodbus_registers[63]=(signed char)(bps[2]._Ti);\nmodbus_registers[64]=(signed char)(bps[2]._av>>8);\t\t\t\t//Рег33\tБайт флагов выпрямителя №3, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[65]=(signed char)(bps[2]._av);\nmodbus_registers[66]=(signed char)(bps[3]._Uii>>8);\t\t\t//Рег34\tВыходное напряжение выпрямителя №4, 0.1В\nmodbus_registers[67]=(signed char)(bps[3]._Uii);\nmodbus_registers[68]=(signed char)(bps[3]._Ii>>8);\t\t\t\t//Рег35\tВыходной ток выпрямителя №4, 0.1А\nmodbus_registers[69]=(signed char)(bps[3]._Ii);\nmodbus_registers[70]=(signed char)(bps[3]._Ti>>8);\t\t\t\t//Рег36\tТемпература радиатора выпрямителя №4, 1гЦ\nmodbus_registers[71]=(signed char)(bps[3]._Ti);\nmodbus_registers[72]=(signed char)(bps[3]._av>>8);\t\t\t\t//Рег37\tБайт флагов выпрямителя №4, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[73]=(signed char)(bps[3]._av);\nmodbus_registers[74]=(signed char)(bps[4]._Uii>>8);\t\t\t//Рег38\tВыходное напряжение выпрямителя №5, 0.1В\nmodbus_registers[75]=(signed char)(bps[4]._Uii);\nmodbus_registers[76]=(signed char)(bps[4]._Ii>>8);\t\t\t\t//Рег39\tВыходной ток выпрямителя №5, 0.1А\nmodbus_registers[77]=(signed char)(bps[4]._Ii);\nmodbus_registers[78]=(signed char)(bps[4]._Ti>>8);\t\t\t\t//Рег40\tТемпература радиатора выпрямителя №5, 1гЦ\nmodbus_registers[79]=(signed char)(bps[4]._Ti);\nmodbus_registers[80]=(signed char)(bps[4]._av>>8);\t\t\t\t//Рег41\tБайт флагов выпрямителя №5, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[81]=(signed char)(bps[4]._av);\nmodbus_registers[82]=(signed char)(bps[5]._Uii>>8);\t\t\t//Рег42\tВыходное напряжение выпрямителя №6, 0.1В\nmodbus_registers[83]=(signed char)(bps[5]._Uii);\nmodbus_registers[84]=(signed char)(bps[5]._Ii>>8);\t\t\t\t//Рег43\tВыходной ток выпрямителя №6, 0.1А\nmodbus_registers[85]=(signed char)(bps[5]._Ii);\nmodbus_registers[86]=(signed char)(bps[5]._Ti>>8);\t\t\t\t//Рег44\tТемпература радиатора выпрямителя №6, 1гЦ\nmodbus_registers[87]=(signed char)(bps[5]._Ti);\nmodbus_registers[88]=(signed char)(bps[5]._av>>8);\t\t\t\t//Рег45\tБайт флагов выпрямителя №6, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[89]=(signed char)(bps[5]._av);\nmodbus_registers[90]=(signed char)(bps[6]._Uii>>8);\t\t\t//Рег46\tВыходное напряжение выпрямителя №7, 0.1В\nmodbus_registers[91]=(signed char)(bps[6]._Uii);\nmodbus_registers[92]=(signed char)(bps[6]._Ii>>8);\t\t\t\t//Рег47\tВыходной ток выпрямителя №7, 0.1А\nmodbus_registers[93]=(signed char)(bps[6]._Ii);\nmodbus_registers[94]=(signed char)(bps[6]._Ti>>8);\t\t\t\t//Рег48\tТемпература радиатора выпрямителя №7, 1гЦ\nmodbus_registers[95]=(signed char)(bps[6]._Ti);\nmodbus_registers[96]=(signed char)(bps[6]._av>>8);\t\t\t\t//Рег49\tБайт флагов выпрямителя №7, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[97]=(signed char)(bps[6]._av);\nmodbus_registers[98]=(signed char)(bps[7]._Uii>>8);\t\t\t//Рег50\tВыходное напряжение выпрямителя №8, 0.1В\nmodbus_registers[99]=(signed char)(bps[7]._Uii);\nmodbus_registers[100]=(signed char)(bps[7]._Ii>>8);\t\t\t//Рег51\tВыходной ток выпрямителя №8, 0.1А\nmodbus_registers[101]=(signed char)(bps[7]._Ii);\nmodbus_registers[102]=(signed char)(bps[7]._Ti>>8);\t\t\t//Рег52\tТемпература радиатора выпрямителя №8, 1гЦ\nmodbus_registers[103]=(signed char)(bps[7]._Ti);\nmodbus_registers[104]=(signed char)(bps[7]._av>>8);\t\t\t//Рег53\tБайт флагов выпрямителя №8, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[105]=(signed char)(bps[7]._av);\r\nmodbus_registers[106]=(signed char)(bps_U>>8);\t\t\t\t\t//Рег54 \tнапряжение выпрямителей, 0.1В\nmodbus_registers[107]=(signed char)(bps_U);\r\ntempS=0;\r\nif((speedChIsOn)\|\|(sp_ch_stat==scsWRK)) tempS=1;\r\nmodbus_registers[108]=(signed char)(tempS>>8);\t\t\t\t\t//Рег55 \tУскоренный заряд включенность, (1 - вкл, 0 - Выкл)\nmodbus_registers[109]=(signed char)(tempS);\r\ntempS=0;\r\nif(spc_stat==spcVZ) tempS=1;\r\nmodbus_registers[110]=(signed char)(tempS>>8);\t\t\t\t\t//Рег56 \tВыравнивающий заряд включенность, (1 - вкл, 0 - Выкл)\nmodbus_registers[111]=(signed char)(tempS);\r\nmodbus_registers[112]=(signed char)(uout_av>>8);\t\t\t\t\t//Рег57 Контроль выходного напряжения, (0 - норма, 1 - завышено, 2 - занижено)\nmodbus_registers[113]=(signed char)(uout_av);\r\n/\r\ntempS=0;\t\t\t\t\t\t\t\t\t\t\t\t\t //Рег60\tРегистр флагов состояния системы\r\nif(bat_ips._av)\t\t\ttempS\|=(1<<0);\t\t\t\t\t\t // Бит 0\tАвария батареи\r\nif(avar_stat&0x0001) \ttempS\|=(1<<1);\t\t\t\t\t\t //\tБит 1\tАвария питающей сети \r\nif(avar_stat&(1<<(3+0)))tempS\|=(1<<2);\t\t\t\t\t\t //\tБит 2\tАвария выпрямителя №1\r\nif(avar_stat&(1<<(3+1)))tempS\|=(1<<3);\t\t\t\t\t\t //\tБит 3\tАвария выпрямителя №2\r\nif(avar_stat&(1<<(3+2)))tempS\|=(1<<4);\t\t\t\t\t\t //\tБит 4\tАвария выпрямителя №3\r\nif(avar_stat&(1<<(3+3)))tempS\|=(1<<5);\t\t\t\t\t\t \t//\tБит 5\tАвария выпрямителя №4\r\nif(avar_stat&(1<<(3+4)))tempS\|=(1<<6);\t\t\t\t\t\t \t//\tБит 6\tАвария выпрямителя №5\r\nif(avar_stat&(1<<(3+5)))tempS\|=(1<<7);\t\t\t\t\t\t \t//\tБит 7\tАвария выпрямителя №6\r\nif(avar_stat&(1<<(3+6)))tempS\|=(1<<8);\t\t\t\t\t\t \t//\tБит 8\tАвария выпрямителя №7\r\nif(avar_stat&(1<<(3+6)))tempS\|=(1<<9);\t\t\t\t\t\t \t//\tБит 8\tАвария выпрямителя №8\r\n/\r\ntempS=0;\r\ntempS=avar_stat;\r\n#ifdef UKU_ZVU\r\nif(bat_ips._av)\t\t\ttempS\|=(1<<1);\r\nelse \t\t\t\t\ttempS&=~(1<<1);\r\n#endif\r\n//Рег60\tРегистр флагов состояния системы\r\n// \tБит 0\tАвария питающей сети \r\n//\tБит 1\tАвария батареи №1(Авария батареи для ЗВУ)\r\n//\tБит 2\tАвария батареи №2\r\n//\tБит 3\tАвария выпрямителя №1\r\n//\tБит 4\tАвария выпрямителя №2\r\n//\tБит 5\tАвария выпрямителя №3\r\n//\tБит 6\tАвария выпрямителя №4\r\n//\tБит 7\tАвария выпрямителя №5\r\n//\tБит 8\tАвария выпрямителя №6\r\n//\tБит 9\tАвария выпрямителя №7\r\n//\tБит 10\tАвария выпрямителя №8\r\n\r\nmodbus_registers[118]=(signed char)(tempS>>8);\r\nmodbus_registers[119]=(signed char)(tempS);\r\n\r\nmodbus_registers[120]=(signed char)(volta_short>>8);\t\t//Рег61 \tнапряжение счетчика, 0.1В\nmodbus_registers[121]=(signed char)(volta_short);\r\nmodbus_registers[122]=(signed char)(curr_short>>8);\t\t\t//Рег62 \tток счетчика, 0.01А\nmodbus_registers[123]=(signed char)(curr_short);\r\nmodbus_registers[124]=(signed char)(power_int>>8);\t\t\t//Рег63 \tмощность счетчика, 1Вт\nmodbus_registers[125]=(signed char)(power_int);\r\n\r\n\r\nmodbus_registers[138]=(signed char)(HARDVARE_VERSION>>8);\t//Рег 70 \tаппаратная версия\nmodbus_registers[139]=(signed char)(HARDVARE_VERSION);\r\nmodbus_registers[140]=(signed char)(SOFT_VERSION>>8);\t\t//Рег 71 \tверсия ПО\nmodbus_registers[141]=(signed char)(SOFT_VERSION);\r\nmodbus_registers[142]=(signed char)(BUILD>>8);\t\t\t\t//Рег 72 \tномер компиляции ПО\nmodbus_registers[143]=(signed char)(BUILD);\r\nmodbus_registers[144]=(signed char)(BUILD_YEAR>>8);\t\t\t//Рег 73 \tгод\tкомпиляции ПО\nmodbus_registers[145]=(signed char)(BUILD_YEAR);\r\nmodbus_registers[146]=(signed char)(BUILD_MONTH>>8);\t\t//Рег 74 \tмесяц компиляции ПО\nmodbus_registers[147]=(signed char)(BUILD_MONTH);\r\nmodbus_registers[148]=(signed char)(BUILD_DAY>>8);\t\t\t//Рег 75 \tдень компиляции ПО\nmodbus_registers[149]=(signed char)(BUILD_DAY);\r\nmodbus_registers[150]=(signed char)(AUSW_MAIN_NUMBER>>8); \t//?aa 76 caaianeie iiia?\r\nmodbus_registers[151]=(signed char)(AUSW_MAIN_NUMBER);\r\nmodbus_registers[152]=(signed char)(AUSW_MAIN_NUMBER>>24);\t\t\t//Рег 77 \tcaaianeie iiia?\nmodbus_registers[153]=(signed char)(AUSW_MAIN_NUMBER>>16);\r\ntempS=cntrl_stat_old;\r\nif(\t(main_kb_cnt==(TBAT60)-21) \|\| (main_kb_cnt==(TBAT60)-20) \|\| (main_kb_cnt==(TBAT60)-19)) tempS=((short)TBAT)\|0x4000;\r\n//tempS=0x800f;\r\nmodbus_registers[198]=(signed char)(tempS>>8);\t\t\t\t//???100\t????????? ???\r\nmodbus_registers[199]=(signed char)(tempS);\r\n\r\nmodbus_registers[200]=(signed char)(bps[8]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[201]=(signed char)(bps[8]._Uii);\nmodbus_registers[202]=(signed char)(bps[8]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[203]=(signed char)(bps[8]._Ii);\nmodbus_registers[204]=(signed char)(bps[8]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[205]=(signed char)(bps[8]._Ti);\nmodbus_registers[206]=(signed char)(bps[8]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[207]=(signed char)(bps[8]._av);\r\nmodbus_registers[208]=(signed char)(bps[9]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[209]=(signed char)(bps[9]._Uii);\nmodbus_registers[210]=(signed char)(bps[9]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[211]=(signed char)(bps[9]._Ii);\nmodbus_registers[212]=(signed char)(bps[9]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[213]=(signed char)(bps[9]._Ti);\nmodbus_registers[214]=(signed char)(bps[9]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[215]=(signed char)(bps[9]._av);\r\nmodbus_registers[216]=(signed char)(bps[10]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[217]=(signed char)(bps[10]._Uii);\nmodbus_registers[218]=(signed char)(bps[10]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[219]=(signed char)(bps[10]._Ii);\nmodbus_registers[220]=(signed char)(bps[10]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[221]=(signed char)(bps[10]._Ti);\nmodbus_registers[222]=(signed char)(bps[10]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[223]=(signed char)(bps[10]._av);\r\nmodbus_registers[224]=(signed char)(bps[11]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[225]=(signed char)(bps[11]._Uii);\nmodbus_registers[226]=(signed char)(bps[11]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[227]=(signed char)(bps[11]._Ii);\nmodbus_registers[228]=(signed char)(bps[11]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[229]=(signed char)(bps[11]._Ti);\nmodbus_registers[230]=(signed char)(bps[11]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[231]=(signed char)(bps[11]._av);\r\nmodbus_registers[232]=(signed char)(bps[12]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[233]=(signed char)(bps[12]._Uii);\nmodbus_registers[234]=(signed char)(bps[12]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[235]=(signed char)(bps[12]._Ii);\nmodbus_registers[236]=(signed char)(bps[12]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[237]=(signed char)(bps[12]._Ti);\nmodbus_registers[238]=(signed char)(bps[12]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[239]=(signed char)(bps[12]._av);\r\nmodbus_registers[240]=(signed char)(bps[13]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[241]=(signed char)(bps[13]._Uii);\nmodbus_registers[242]=(signed char)(bps[13]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[243]=(signed char)(bps[13]._Ii);\nmodbus_registers[244]=(signed char)(bps[13]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[245]=(signed char)(bps[13]._Ti);\nmodbus_registers[246]=(signed char)(bps[13]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[247]=(signed char)(bps[13]._av);\r\nmodbus_registers[248]=(signed char)(bps[14]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[249]=(signed char)(bps[14]._Uii);\nmodbus_registers[250]=(signed char)(bps[14]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[251]=(signed char)(bps[14]._Ii);\nmodbus_registers[252]=(signed char)(bps[14]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[253]=(signed char)(bps[14]._Ti);\nmodbus_registers[254]=(signed char)(bps[14]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[255]=(signed char)(bps[14]._av);\r\nmodbus_registers[256]=(signed char)(bps[15]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[257]=(signed char)(bps[15]._Uii);\nmodbus_registers[258]=(signed char)(bps[15]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[259]=(signed char)(bps[15]._Ii);\nmodbus_registers[260]=(signed char)(bps[15]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[261]=(signed char)(bps[15]._Ti);\nmodbus_registers[262]=(signed char)(bps[15]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[263]=(signed char)(bps[15]._av);\r\nmodbus_registers[264]=(signed char)(bps[16]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[265]=(signed char)(bps[16]._Uii);\nmodbus_registers[266]=(signed char)(bps[16]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[267]=(signed char)(bps[16]._Ii);\nmodbus_registers[268]=(signed char)(bps[16]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[269]=(signed char)(bps[16]._Ti);\nmodbus_registers[270]=(signed char)(bps[16]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[271]=(signed char)(bps[16]._av);\r\nmodbus_registers[272]=(signed char)(bps[17]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[273]=(signed char)(bps[17]._Uii);\nmodbus_registers[274]=(signed char)(bps[17]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[275]=(signed char)(bps[17]._Ii);\nmodbus_registers[276]=(signed char)(bps[17]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[277]=(signed char)(bps[17]._Ti);\nmodbus_registers[278]=(signed char)(bps[17]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[279]=(signed char)(bps[17]._av);\r\nmodbus_registers[280]=(signed char)(bps[18]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[281]=(signed char)(bps[18]._Uii);\nmodbus_registers[282]=(signed char)(bps[18]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[283]=(signed char)(bps[18]._Ii);\nmodbus_registers[284]=(signed char)(bps[18]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[285]=(signed char)(bps[18]._Ti);\nmodbus_registers[286]=(signed char)(bps[18]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[287]=(signed char)(bps[18]._av);\r\nmodbus_registers[288]=(signed char)(bps[19]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[289]=(signed char)(bps[19]._Uii);\nmodbus_registers[290]=(signed char)(bps[19]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[291]=(signed char)(bps[19]._Ii);\nmodbus_registers[292]=(signed char)(bps[19]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[293]=(signed char)(bps[19]._Ti);\nmodbus_registers[294]=(signed char)(bps[19]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[295]=(signed char)(bps[19]._av);\r\nmodbus_registers[296]=(signed char)(bps[20]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[297]=(signed char)(bps[20]._Uii);\nmodbus_registers[298]=(signed char)(bps[20]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[299]=(signed char)(bps[20]._Ii);\nmodbus_registers[300]=(signed char)(bps[20]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[301]=(signed char)(bps[20]._Ti);\nmodbus_registers[302]=(signed char)(bps[20]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[303]=(signed char)(bps[20]._av);\r\nmodbus_registers[304]=(signed char)(bps[21]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[305]=(signed char)(bps[21]._Uii);\nmodbus_registers[306]=(signed char)(bps[21]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[307]=(signed char)(bps[21]._Ii);\nmodbus_registers[308]=(signed char)(bps[21]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[309]=(signed char)(bps[21]._Ti);\nmodbus_registers[310]=(signed char)(bps[21]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[311]=(signed char)(bps[21]._av);\r\nmodbus_registers[312]=(signed char)(bps[22]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[313]=(signed char)(bps[22]._Uii);\nmodbus_registers[314]=(signed char)(bps[22]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[315]=(signed char)(bps[22]._Ii);\nmodbus_registers[316]=(signed char)(bps[22]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[317]=(signed char)(bps[22]._Ti);\nmodbus_registers[318]=(signed char)(bps[22]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[319]=(signed char)(bps[22]._av);\r\nmodbus_registers[320]=(signed char)(bps[23]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[321]=(signed char)(bps[23]._Uii);\nmodbus_registers[322]=(signed char)(bps[23]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[323]=(signed char)(bps[23]._Ii);\nmodbus_registers[324]=(signed char)(bps[23]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[325]=(signed char)(bps[23]._Ti);\nmodbus_registers[326]=(signed char)(bps[23]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[327]=(signed char)(bps[23]._av);\r\nmodbus_registers[328]=(signed char)(bps[24]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[329]=(signed char)(bps[24]._Uii);\nmodbus_registers[330]=(signed char)(bps[24]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[331]=(signed char)(bps[24]._Ii);\nmodbus_registers[332]=(signed char)(bps[24]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[333]=(signed char)(bps[24]._Ti);\nmodbus_registers[334]=(signed char)(bps[24]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[335]=(signed char)(bps[24]._av);\r\nmodbus_registers[336]=(signed char)(bps[25]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[337]=(signed char)(bps[25]._Uii);\nmodbus_registers[338]=(signed char)(bps[25]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[339]=(signed char)(bps[25]._Ii);\nmodbus_registers[340]=(signed char)(bps[25]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[341]=(signed char)(bps[25]._Ti);\nmodbus_registers[342]=(signed char)(bps[25]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[343]=(signed char)(bps[25]._av);\r\nmodbus_registers[344]=(signed char)(bps[26]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[345]=(signed char)(bps[26]._Uii);\nmodbus_registers[346]=(signed char)(bps[26]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[347]=(signed char)(bps[26]._Ii);\nmodbus_registers[348]=(signed char)(bps[26]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[349]=(signed char)(bps[26]._Ti);\nmodbus_registers[350]=(signed char)(bps[26]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[351]=(signed char)(bps[26]._av);\r\nmodbus_registers[352]=(signed char)(bps[27]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[353]=(signed char)(bps[27]._Uii);\nmodbus_registers[354]=(signed char)(bps[27]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[355]=(signed char)(bps[27]._Ii);\nmodbus_registers[356]=(signed char)(bps[27]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[357]=(signed char)(bps[27]._Ti);\nmodbus_registers[358]=(signed char)(bps[27]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[359]=(signed char)(bps[27]._av);\r\nmodbus_registers[360]=(signed char)(bps[28]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[361]=(signed char)(bps[28]._Uii);\nmodbus_registers[362]=(signed char)(bps[28]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[363]=(signed char)(bps[28]._Ii);\nmodbus_registers[364]=(signed char)(bps[28]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[365]=(signed char)(bps[28]._Ti);\nmodbus_registers[366]=(signed char)(bps[28]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[367]=(signed char)(bps[28]._av);\r\nmodbus_registers[368]=(signed char)(bps[29]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[369]=(signed char)(bps[29]._Uii);\nmodbus_registers[370]=(signed char)(bps[29]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[371]=(signed char)(bps[29]._Ii);\nmodbus_registers[372]=(signed char)(bps[29]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[373]=(signed char)(bps[29]._Ti);\nmodbus_registers[374]=(signed char)(bps[29]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[375]=(signed char)(bps[29]._av);\r\nmodbus_registers[376]=(signed char)(bps[30]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[377]=(signed char)(bps[30]._Uii);\nmodbus_registers[378]=(signed char)(bps[30]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[379]=(signed char)(bps[30]._Ii);\nmodbus_registers[380]=(signed char)(bps[30]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[381]=(signed char)(bps[30]._Ti);\nmodbus_registers[382]=(signed char)(bps[30]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[383]=(signed char)(bps[30]._av);\r\nmodbus_registers[384]=(signed char)(bps[31]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[385]=(signed char)(bps[31]._Uii);\nmodbus_registers[386]=(signed char)(bps[31]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[387]=(signed char)(bps[31]._Ii);\nmodbus_registers[388]=(signed char)(bps[31]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[389]=(signed char)(bps[31]._Ti);\nmodbus_registers[390]=(signed char)(bps[31]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[391]=(signed char)(bps[31]._av);\r\nmodbus_registers[392]=(signed char)(bps[32]._Uii>>8);\t\t//Рег101\tВыходное напряжение выпрямителя №9, 0.1В\nmodbus_registers[393]=(signed char)(bps[32]._Uii);\nmodbus_registers[394]=(signed char)(bps[32]._Ii>>8);\t\t\t//Рег102\tВыходной ток выпрямителя №9, 0.1А\nmodbus_registers[395]=(signed char)(bps[32]._Ii);\nmodbus_registers[396]=(signed char)(bps[32]._Ti>>8);\t\t\t//Рег103\tТемпература радиатора выпрямителя №9, 1гЦ\nmodbus_registers[397]=(signed char)(bps[32]._Ti);\nmodbus_registers[398]=(signed char)(bps[32]._av>>8);\t\t\t//Рег104\tБайт флагов выпрямителя №9, 0x01 - перегрев, 0x02 завышено Uвых, 0x04 занижено Uвых, 0x08 - отсутствует связь с выпрямителем\nmodbus_registers[399]=(signed char)(bps[32]._av);\r\n\r\n\r\n\r\n\r\n\r\n\ntempS=t_ext[0];\r\nif(ND_EXT[0])tempS=-1000;\r\nmodbus_registers[400]=(signed char)(tempS>>8);\t\t\t\t//Рег201\tВнешний датчик температуры №1\nmodbus_registers[401]=(signed char)(tempS);\r\ntempS=t_ext[1];\r\nif(ND_EXT[1])tempS=-1000;\r\nmodbus_registers[402]=(signed char)(tempS>>8);\t\t\t\t//Рег202\tВнешний датчик температуры №2\nmodbus_registers[403]=(signed char)(tempS);\r\ntempS=t_ext[2];\r\nif(ND_EXT[2])tempS=-1000;\r\nmodbus_registers[404]=(signed char)(tempS>>8);\t\t\t\t//Рег203\tВнешний датчик температуры №3\nmodbus_registers[405]=(signed char)(tempS);\r\n/tempS=t_ext[3];\r\nif(ND_EXT[3])tempS=-1000;\r\nmodbus_registers[406]=(signed char)(tempS>>8);\t\t\t\t//Рег204\tВнешний датчик температуры №4\nmodbus_registers[407]=(signed char)(tempS); /\r\n\r\nmodbus_registers[406]=(signed char)(bat_hndl_t_razr_min>>8);\r\nmodbus_registers[407]=(signed char)(bat_hndl_t_razr_min);\r\n\r\ntempS=0;\r\nif(sk_stat[0]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[0]==sasON) tempS\|=0x0002;\r\nmodbus_registers[420]=(signed char)(tempS>>8);\t\t\t\t//Рег211\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[421]=(signed char)(tempS);\r\ntempS=0;\r\nif(sk_stat[1]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[1]==sasON) tempS\|=0x0002;\r\nmodbus_registers[422]=(signed char)(tempS>>8);\t\t\t\t//Рег212\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[423]=(signed char)(tempS);\r\ntempS=0;\r\nif(sk_stat[2]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[2]==sasON) tempS\|=0x0002;\r\nmodbus_registers[424]=(signed char)(tempS>>8);\t\t\t\t//Рег213\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[425]=(signed char)(tempS);\r\ntempS=0;\r\nif(sk_stat[3]==ssON) tempS\|=0x0001;\r\nif(sk_av_stat[3]==sasON) tempS\|=0x0002;\r\nmodbus_registers[426]=(signed char)(tempS>>8);\t\t\t\t//Рег214\tСостояние сухого контакта №1, (нулевой бит - физическое состояние, 1 - замкнут, 0 - разомкнут, первый бит - аварийность, 1 - авария, 0 - норма)\nmodbus_registers[427]=(signed char)(tempS);\r\n\r\ntempS=bat[0]._av;\r\n#ifdef UKU_220_IPS_TERMOKOMPENSAT \r\ntempS=ips_bat_av_stat;\r\nif(NUMBAT==0)tempS=0xff; //o_10 сделать как в SNMP 255-не введена\r\n#endif\r\n\r\nmodbus_registers[428]=(signed char)(tempS>>8);\t\t\t\t//Рег215\tБайт статуса батареи №1(0x01 - авария цепи батареи, 0x02 - авария средней точки батареи)\nmodbus_registers[429]=(signed char)(tempS);\r\n\r\ntempS=bat[1]._av;\r\n//o_10_s\r\n#ifdef UKU_220_IPS_TERMOKOMPENSAT\r\ntempS=0xff; //сделать как в SNMP 255-не введена\r\n#endif\r\n//o_10_e\r\nmodbus_registers[430]=(signed char)(tempS>>8);\t\t\t\t//Рег216\tБайт статуса батареи №2(0x01 - авария цепи батареи, 0x02 - авария средней точки батареи)\nmodbus_registers[431]=(signed char)(tempS);\r\n\r\ntempS=bat_hndl_t_razr_min;\r\nmodbus_registers[432]=(signed char)(tempS>>8);\t\t\t\t//Рег217\tОстаточное время работы батареи в минутах\nmodbus_registers[433]=(signed char)(tempS);\r\n\r\nmodbus_registers[434]=(signed char)(snmp_bat_flag[0]>>8);\t//Рег218 // //флаги АКБ №1\nmodbus_registers[435]=(signed char)(snmp_bat_flag[0]);\t\r\nmodbus_registers[436]=(signed char)(snmp_bat_flag[1]>>8);\t//Рег219 // //флаги АКБ №2\nmodbus_registers[437]=(signed char)(snmp_bat_flag[1]);\r\n/\r\nБит 0- равен 1, если напряжение на АКБ ниже уставки Uсигн., иначе равен нулю.\r\nБит 1- равен 1, если показание датчика температуры АКБ выше уставки t бат.сигн., иначе равен нулю. \r\nБит 2- равен 1, если показание датчика температуры АКБ выше уставки t бат.мах., иначе равен нулю.\r\nБит 3- равен 1, если ток АКБ меньше нуля (АКБ разряжается), иначе равен нулю.\r\nБит 4- равен 1, если включена функция контроля емкости АКБ, иначе равен нулю.\r\nБит 5- равен 1, если включен выравнивающий заряд АКБ, иначе равен нулю.\r\nБит 6- равен 1, если режим выравнивающего заряда заблокирован.\r\nБит 7- равен 1, если включен ускоренный заряд АКБ, иначе равен нулю.\r\nБит 8- равен 1, если режим ускоренного заряда заблокирован.\r\nБит 9- равен 1, если включен уравнительный заряд АКБ, иначе равен нулю.\r\nБит 10- равен 1, если режим уравнительного заряда заблокирован.\r\nБит 11- равен 1, если включен формовочный заряд АКБ, иначе равен нулю.\r\nБит 12- равен 1, если режим формовочного заряда заблокирован.\r\n/\r\n\r\nmodbus_registers[438]=(signed char)(bps[0]._vent_resurs>>8);\t//Рег220 ресурс вентилятора БПС1\nmodbus_registers[439]=(signed char)(bps[0]._vent_resurs);\r\nmodbus_registers[440]=(signed char)(bps[1]._vent_resurs>>8);\t//Рег221 ресурс вентилятора БПС2\nmodbus_registers[441]=(signed char)(bps[1]._vent_resurs);\r\nmodbus_registers[442]=(signed char)(bps[2]._vent_resurs>>8);\t//Рег222 ресурс вентилятора БПС3\nmodbus_registers[443]=(signed char)(bps[2]._vent_resurs);\r\nmodbus_registers[444]=(signed char)(bps[3]._vent_resurs>>8);\t//Рег223 ресурс вентилятора БПС4\nmodbus_registers[445]=(signed char)(bps[3]._vent_resurs);\r\nmodbus_registers[446]=(signed char)(bps[4]._vent_resurs>>8);\t//Рег224 ресурс вентилятора БПС5\nmodbus_registers[447]=(signed char)(bps[4]._vent_resurs);\r\nmodbus_registers[448]=(signed char)(bps[5]._vent_resurs>>8);\t//Рег225 ресурс вентилятора БПС6\nmodbus_registers[449]=(signed char)(bps[5]._vent_resurs);\r\nmodbus_registers[450]=(signed char)(bps[6]._vent_resurs>>8);\t//Рег226 ресурс вентилятора БПС7\nmodbus_registers[451]=(signed char)(bps[6]._vent_resurs);\r\nmodbus_registers[452]=(signed char)(bps[7]._vent_resurs>>8);\t//Рег227 ресурс вентилятора БПС8\nmodbus_registers[453]=(signed char)(bps[7]._vent_resurs); \r\n//o_10_s\r\nmodbus_registers[598]=0; \t\r\nif(no_rki==NO_RKI) modbus_registers[599]=0;\t\t\t\t//Рег300 если 0, то нет связи с РКИ\r\nelse modbus_registers[599]=1;\t\t\t\t\t\t\t//Рег300 если 1, то есть связь с РКИ\t\t\t\r\n\r\nmodbus_registers[600]=0;\t\t\t\t\t\t\t\t//Рег301 версия софта РКИ\t\t\nmodbus_registers[601]=ver_soft;\r\nmodbus_registers[602]=0;\t\t\t\t\t\t\t\t//Рег302 тип РКИ\t\t\nmodbus_registers[603]=type_rki;\r\n\r\nmodbus_registers[604]=0;\t\t\t\t\t\t\t\t//Рег303 рабочее напряжение РКИ\t\t\nif(u_rki==1) modbus_registers[605]=48;\r\nelse if(u_rki==2) modbus_registers[605]=110;\r\nelse modbus_registers[605]=220;\r\n\r\nmodbus_registers[606]=(signed char)(status_izm_r>>8);\t//Рег304 Статус измерения \nmodbus_registers[607]=(signed char)(status_izm_r);\r\n\t\r\nmodbus_registers[608]=(signed char)(r_iz_plus>>8);\t\t//Рег305 Сопротивление изоляции положительного полюса\nmodbus_registers[609]=(signed char)(r_iz_plus);\t\t\r\nmodbus_registers[610]=(signed char)(r_iz_minus>>8);\t\t//Рег306 Сопротивление изоляции отрицательного полюса\nmodbus_registers[611]=(signed char)(r_iz_minus);\r\nmodbus_registers[612]=0;\t\t\t\t\t\t\t\t//Рег307 асимметрия в %\nmodbus_registers[613]=(signed char)(asymmetry);\r\nmodbus_registers[614]=(signed char)(u_asymmetry>>8);\t//Рег308 асимметрия в вольтах\nmodbus_registers[615]=(signed char)(u_asymmetry);\r\nmodbus_registers[616]=(signed char)(v_plus>>8);\t\t\t//Рег309 U+\nmodbus_registers[617]=(signed char)(v_plus); \r\nmodbus_registers[618]=(signed char)(v_minus>>8);\t\t//Рег310 U-\nmodbus_registers[619]=(signed char)(v_minus);\r\nmodbus_registers[620]=(signed char)(Ubus>>8);\t\t\t//Рег311 Uшины\nmodbus_registers[621]=(signed char)(Ubus);\r\n\r\n#ifdef UKU_FSO\r\nmodbus_registers[600]=(signed char)(lakb[0]._tot_bat_volt>>8);\t\t\t//Рег301\tнапряжение батареи №1, В\nmodbus_registers[601]=(signed char)(lakb[0]._tot_bat_volt);\nmodbus_registers[602]=(signed char)(lakb[0]._ch_curr>>8);\t\t\t\t//Рег302\tток батареи №1, В\nmodbus_registers[603]=(signed char)(lakb[0]._ch_curr);\nmodbus_registers[604]=(signed char)(lakb[0]._cell_temp_1>>8);\t\t\t//Рег303\tтемперратура первого датчика батареи №1, В\nmodbus_registers[605]=(signed char)(lakb[0]._cell_temp_1);\nmodbus_registers[606]=(signed char)(lakb[0]._cell_temp_2>>8);\t\t\t//Рег304\tтемперратура второго датчика батареи №1, В\nmodbus_registers[607]=(signed char)(lakb[0]._cell_temp_2);\nmodbus_registers[608]=(signed char)(lakb[0]._cell_temp_3>>8);\t\t\t//Рег305\tтемперратура третьего датчика батареи №1, В\nmodbus_registers[609]=(signed char)(lakb[0]._cell_temp_3);\nmodbus_registers[610]=(signed char)(lakb[0]._cell_temp_4>>8);\t\t\t//Рег306\tтемперратура четвертого датчика батареи №1, В\nmodbus_registers[611]=(signed char)(lakb[0]._cell_temp_4);\nmodbus_registers[612]=(signed char)(lakb[0]._s_o_h>>8);\t\t\t\t\t//Рег307\tЕмкость батареи №1, 0.01Ач\nmodbus_registers[613]=(signed char)(lakb[0]._s_o_h);\nmodbus_registers[614]=(signed char)(lakb[0]._s_o_c>>8);\t\t\t\t\t//Рег308\tзаряд батареи №1, 0.01Ач\nmodbus_registers[615]=(signed char)(lakb[0]._s_o_c);\nmodbus_registers[616]=(signed char)(lakb[0]._s_o_c_percent>>8);\t\t\t//Рег309\tзаряд батареи №1, %\nmodbus_registers[617]=(signed char)(lakb[0]._s_o_c_percent);\nmodbus_registers[618]=(signed char)(lakb[0]._tot_bat_volt>>8);\t\t\t//Рег310\tпредполагаемое время разряда батареи №1, мин\nmodbus_registers[619]=(signed char)(lakb[0]._tot_bat_volt);\r\n\r\nmodbus_registers[620]=(signed char)(lakb[1]._tot_bat_volt>>8);\t\t\t//Рег301\tнапряжение батареи №1, В\nmodbus_registers[621]=(signed char)(lakb[1]._tot_bat_volt);\nmodbus_registers[622]=(signed char)(lakb[1]._ch_curr>>8);\t\t\t\t//Рег302\tток батареи №1, В\nmodbus_registers[623]=(signed char)(lakb[1]._ch_curr);\nmodbus_registers[624]=(signed char)(lakb[1]._cell_temp_1>>8);\t\t\t//Рег303\tтемперратура первого датчика батареи №1, В\nmodbus_registers[625]=(signed char)(lakb[1]._cell_temp_1);\nmodbus_registers[626]=(signed char)(lakb[1]._cell_temp_2>>8);\t\t\t//Рег304\tтемперратура второго датчика батареи №1, В\nmodbus_registers[627]=(signed char)(lakb[1]._cell_temp_2);\nmodbus_registers[628]=(signed char)(lakb[1]._cell_temp_3>>8);\t\t\t//Рег305\tтемперратура третьего датчика батареи №1, В\nmodbus_registers[629]=(signed char)(lakb[1]._cell_temp_3);\nmodbus_registers[630]=(signed char)(lakb[1]._cell_temp_4>>8);\t\t\t//Рег306\tтемперратура четвертого датчика батареи №1, В\nmodbus_registers[631]=(signed char)(lakb[1]._cell_temp_4);\nmodbus_registers[632]=(signed char)(lakb[1]._s_o_h>>8);\t\t\t\t\t//Рег307\tЕмкость батареи №1, 0.01Ач\nmodbus_registers[633]=(signed char)(lakb[1]._s_o_h);\nmodbus_registers[634]=(signed char)(lakb[1]._s_o_c>>8);\t\t\t\t\t//Рег308\tзаряд батареи №1, 0.01Ач\nmodbus_registers[635]=(signed char)(lakb[1]._s_o_c);\nmodbus_registers[636]=(signed char)(lakb[1]._s_o_c_percent>>8);\t\t\t//Рег309\tзаряд батареи №1, %\nmodbus_registers[637]=(signed char)(lakb[1]._s_o_c_percent);\nmodbus_registers[638]=(signed char)(lakb[1]._tot_bat_volt>>8);\t\t\t//Рег310\tпредполагаемое время разряда батареи №1, мин\nmodbus_registers[639]=(signed char)(lakb[1]._tot_bat_volt);\r\n\n#endif //UKU_FSO\r\n\r\n//o_10_e\r\nif(prot==MODBUS_RTU_PROT)\r\n\t{\r\n\tmodbus_tx_buff[0]=adr;\n\tmodbus_tx_buff[1]=func;\n\n\tmodbus_tx_buff[2]=(char)(reg_quantity2);\n\n\tmem_copy((signed char)&modbus_tx_buff[3],(signed char)&modbus_registers[(reg_adr-1)2],reg_quantity2);\n\n\tcrc_temp=CRC16_2(modbus_tx_buff,(reg_quantity2)+3);\n\n\tmodbus_tx_buff[3+(reg_quantity2)]=(char)crc_temp;\n\tmodbus_tx_buff[4+(reg_quantity2)]=crc_temp>>8;\n\n\tfor (i=0;i<(5+(reg_quantity2));i++)\n\t\t{\n\t\tputchar0(modbus_tx_buff[i]);\n\t\t}\r\n\tfor (i=0;i<(5+(reg_quantity2));i++)\n\t\t{\n\t\tputchar_sc16is700(modbus_tx_buff[i]);\n\t\t}\r\n\t}\r\nelse if(prot==MODBUS_TCP_PROT)\r\n\t{\r\n\tmem_copy((signed char)modbus_tx_buff,(signed char)&modbus_registers[(reg_adr-1)2],reg_quantity2);\r\n\tmodbus_tcp_out_ptr=(signed char)modbus_tx_buff;\r\n\t}\n}\n\n" }, { "alpha_fraction": 0.5583395957946777, "alphanum_fraction": 0.7105460166931152, "avg_line_length": 28.059782028198242, "blob_id": "a45141a160748eacbfa4d5648897b5c7d236c63b", "content_id": "34af35fda83d87f478d386b0985697fff29320d6", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 5348, "license_type": "no_license", "max_line_length": 131, "num_lines": 184, "path": "/SOFT/UKU/2/stark.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"stark.h\"\n#include \"ztt.h\"\n#include \"stdint.h\"\n#include \"uart1.h\"\n#include \"main.h\"\n\nchar portForSTARKBatteryIsInitiated=0;\nchar sTARKBatteryHndlPhase;\nchar sTARKRequestPhase;\nshort sTARKSilentCnt[3];\nchar sTARKButteryCnter=0;\nchar sTARKBatteryHndlCmnd;\n\n//-----------------------------------------------\nvoid stark_bat_hndl(void)\n{\n\nif(portForSTARKBatteryIsInitiated==0)\n\t{\n\t//UARTInit(1, 9600);\t/* baud rate setting /\n\tuart1_init(9600);\n\tportForSTARKBatteryIsInitiated=1;\n\t}\n\nsTARKBatteryHndlPhase++;\n\nif((sTARKSilentCnt[0])&&(sTARKSilentCnt[0]<10))sTARKSilentCnt[0]++;\nif((sTARKSilentCnt[1])&&(sTARKSilentCnt[1]<10))sTARKSilentCnt[1]++;\nif((sTARKSilentCnt[2])&&(sTARKSilentCnt[2]<10))sTARKSilentCnt[2]++;\n\nif(sTARKBatteryHndlPhase==4)\t//7E 32 36 30 30 34 36 34 32 45 30 30 32 30 31 46 44 33 30 0D\n\t{\n\tif(sTARKButteryCnter==0)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x30,0x30,0x30,0x34,0x36,0x34,0x32,0x45,0x30,0x30,0x32,0x30,0x30,0x46,0x44,0x33,0x37,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[0]==0)sTARKSilentCnt[0]=1;\n\t\t}\n\telse if(sTARKButteryCnter==1)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x30,0x30,0x31,0x34,0x36,0x34,0x32,0x45,0x30,0x30,0x32,0x30,0x31,0x46,0x44,0x33,0x35,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[1]==0)sTARKSilentCnt[1]=1;\n\t\t}\n\telse if(sTARKButteryCnter==2)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x36,0x30,0x30,0x34,0x36,0x34,0x32,0x45,0x30,0x30,0x32,0x30,0x33,0x46,0x44,0x32,0x45,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[2]==0)sTARKSilentCnt[2]=1;\n\t\t}\n\n\tsTARKRequestPhase=0;\n\n\t}\nelse if(sTARKBatteryHndlPhase==8)\n\t{\n\tif(sTARKButteryCnter==0)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x30,0x30,0x30,0x34,0x36,0x34,0x34,0x45,0x30,0x30,0x32,0x30,0x30,0x46,0x44,0x33,0x35,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[0]==0)sTARKSilentCnt[0]=1;\n\t\t}\n\telse if(sTARKButteryCnter==1) \n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x30,0x30,0x31,0x34,0x36,0x34,0x34,0x45,0x30,0x30,0x32,0x30,0x31,0x46,0x44,0x33,0x33,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[1]==0)sTARKSilentCnt[1]=1;\n\t\t}\n\telse if(sTARKButteryCnter==2)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x36,0x30,0x30,0x34,0x36,0x34,0x34,0x45,0x30,0x30,0x32,0x30,0x33,0x46,0x44,0x32,0x45,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[2]==0)sTARKSilentCnt[2]=1;\n\t\t} \n\n\tsTARKRequestPhase=1;\n\n\tsTARKBatteryHndlPhase=0;\n\t\n\tsTARKButteryCnter++;\n\tif(sTARKButteryCnter>=NUMBAT_FSO)sTARKButteryCnter=0;\n\t}\n}\n\n//-----------------------------------------------\nvoid stark_bat_hndl_2(void)\n{\n\nif(portForSTARKBatteryIsInitiated==0)\n\t{\n\t//UARTInit(1, 9600);\t/ baud rate setting /\n\tuart1_init(9600);\n\tportForSTARKBatteryIsInitiated=1;\n\t}\n\nsTARKBatteryHndlPhase++;\n\nif((sTARKSilentCnt[0])&&(sTARKSilentCnt[0]<10))sTARKSilentCnt[0]++;\nif((sTARKSilentCnt[1])&&(sTARKSilentCnt[1]<10))sTARKSilentCnt[1]++;\nif((sTARKSilentCnt[2])&&(sTARKSilentCnt[2]<10))sTARKSilentCnt[2]++;\n\nif(sTARKBatteryHndlPhase==1)\t//7E 32 36 30 30 34 36 34 32 45 30 30 32 30 31 46 44 33 30 0D\n\t{\n\tif(sTARKButteryCnter==0)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x01,0x03,0x00,0x00,0x00,0x3b,0x04,0x19};\n\t\tuart_out_buff1(sTARKButteryOutBuff,8);\n\t\tif(sTARKSilentCnt[0]==0)sTARKSilentCnt[0]=1;\n\t\t}\n\telse if(sTARKButteryCnter==1)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x02,0x03,0x00,0x00,0x00,0x3b,0x04,0x2a};\n\t\tuart_out_buff1(sTARKButteryOutBuff,8);\n\t\tif(sTARKSilentCnt[1]==0)sTARKSilentCnt[1]=1;\n\t\t}\n\telse if(sTARKButteryCnter==2)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x36,0x30,0x30,0x34,0x36,0x34,0x32,0x45,0x30,0x30,0x32,0x30,0x33,0x46,0x44,0x32,0x45,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[2]==0)sTARKSilentCnt[2]=1;\n\t\t}\n\n\tsTARKRequestPhase=0;\n\n\t}\nelse if(sTARKBatteryHndlPhase==6)\n\t{\n\tif(sTARKButteryCnter==0)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x01,0x03,0x00,0x96,0x00,0x1E,0x25,0xee};\n\t\tuart_out_buff1(sTARKButteryOutBuff,8);\n\t\tif(sTARKSilentCnt[0]==0)sTARKSilentCnt[0]=1;\n\t\t}\n\telse if(sTARKButteryCnter==1) \n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x02,0x03,0x00,0x96,0x00,0x1E,0x25,0xdd};\n\t\tuart_out_buff1(sTARKButteryOutBuff,8);\n\t\tif(sTARKSilentCnt[1]==0)sTARKSilentCnt[1]=1;\n\t\t}\n\telse if(sTARKButteryCnter==2)\n\t\t{\n\t\tchar sTARKButteryOutBuff[]={0x7e,0x32,0x36,0x30,0x30,0x34,0x36,0x34,0x34,0x45,0x30,0x30,0x32,0x30,0x33,0x46,0x44,0x32,0x45,0x0d};\n\t\tuart_out_buff1(sTARKButteryOutBuff,20);\n\t\tif(sTARKSilentCnt[2]==0)sTARKSilentCnt[2]=1;\n\t\t} \n\n\tsTARKRequestPhase=1;\n\n\t\n\t}\n\nelse if(sTARKBatteryHndlPhase==10)\n\t{\n\tsTARKBatteryHndlPhase=0;\n\t\n\tsTARKButteryCnter++;\n\tif(sTARKButteryCnter>=NUMBAT_FSO)sTARKButteryCnter=0;\n\t}\n}\n\n//-----------------------------------------------\nvoid modbus2_in(void)\n{\n\n\nif(bat_drv_rx_cnt>10)\n\t{\n//\tplazmaSS_fso[2]++;\n//\tplazmaSS_fso[3]=bat_drv_rx_cnt;\n\tif(sTARKButteryCnter==0)\n\t\t{\n\t\tif(sTARKRequestPhase==0)\t\tmem_copy (liBatteryInBuff, bat_drv_rx_buff, bat_drv_rx_cnt);\n\t\telse if(sTARKRequestPhase==1)\tmem_copy (&liBatteryInBuff[130], bat_drv_rx_buff, bat_drv_rx_cnt);\n\t\t}\n\telse if(sTARKButteryCnter==1)\n\t\t{\n\t\tif(sTARKRequestPhase==0)\t\tmem_copy (&liBatteryInBuff[200], bat_drv_rx_buff, bat_drv_rx_cnt);\n\t\telse if(sTARKRequestPhase==1)\tmem_copy (&liBatteryInBuff[330], bat_drv_rx_buff, bat_drv_rx_cnt);\n\t\t}\n\tsTARKSilentCnt[sTARKButteryCnter]=0;\n\t}\n\nbat_drv_rx_cnt=0;\n}\n\n" }, { "alpha_fraction": 0.5974358916282654, "alphanum_fraction": 0.6512820720672607, "avg_line_length": 23.200000762939453, "blob_id": "aac70c5f567c9d61ceda8c1591133193813232e4", "content_id": "66f38418c74b5f311e8811a9596a34759b93e836", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 390, "license_type": "no_license", "max_line_length": 63, "num_lines": 15, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/mess.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\n\r\n\r\n\r\n\r\n#define \tMESS_BAT_ON_OFF\t160\r\n#define _MESS_BAT_MASK_BLOK_AFTER_2SEC\t\t161\r\n#define\t_MESS_BAT_MASK_ON\t\t\t\t\t162\r\n#define\t_MESS_BAT_MASK_OFF\t\t\t\t\t163\r\n\r\n\t\t\r\n#define\tMESS_SPA_UART_SRAM\t200 \r\n#define\tMESS_SPA_UART_CMND\t201 \r\n\r\n\r\n\r\nvoid mess_hndl(void);\r\nvoid mess_send(char _mess, short par0, short par1, char _time);\r\nchar mess_find(char _mess);\r\nchar mess_find_unvol(char _mess);\r\n\r\n" }, { "alpha_fraction": 0.4869726002216339, "alphanum_fraction": 0.5130273699760437, "avg_line_length": 43.761539459228516, "blob_id": "e47fd83b2198dce572b5511f62eddd3ceb158a09", "content_id": "a267b8d3676ed0a61ffd4005e62b387f43c5f2e2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 5949, "license_type": "no_license", "max_line_length": 81, "num_lines": 130, "path": "/SOFT/UKU/RKI/LPC_FullCAN_SW.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "/***********************************************************************\r\nMODULE: LPC_FullCAN_SW\r\nCONTAINS: Philips LPC2000 CAN interface driver.\r\n The first revisions of the Philips LPC2000 with CAN interface\r\n do NOT support the FullCAN mode in hardware. This driver \r\n implements the FullCAN mode in software.\r\n\t\t Compiled and Tested with Keil Tools www.keil.com\r\nCOPYRIGHT: Embedded Systems Academy, Inc. 2004.\r\nLICENSE: THIS VERSION CREATED FOR FREE DISTRIBUTION\r\n\t\t FOR PHILIPS SEMICONDUCTORS www.philipsmcu.com\r\n FOR KEIL SOFTWARE www.keil.com\r\nVERSION: 1.01, Pf 19-APR-04\r\n---------------------------------------------------------------------------\r\nHISTORY: 1.01, Pf 18-APR-04, Added Timer and LED output\r\nHISTORY: 1.00, Pf 16-APR-04, First published release\r\n***********************************************************************/ \r\n\r\n/**********************************************************************\r\nUSER DEFINABLE PARAMETERS\r\n***********************************************************************/ \r\n\r\n// Maximum number of CAN interfaces supported by this driver (1 to 4)\r\n// So far values 3 and 4 were not tested\r\n// The example code in \"main\" uses CAN ports 1 and 2 (MAX_CANPORTS 2)\r\n#define MAX_CANPORTS 2\r\n\r\n// Maximum number of total FullCAN Filters for ALL CAN interfaces\r\n#define MAX_FILTERS 20\r\n\r\n\r\n/**********************************************************************\r\nDO NOT CHANGE ANYTHING BELOW\r\n***********************************************************************/ \r\n\r\n// Define CAN SFR address bases \r\n#define CAN_REG_BASE (0xE0000000)\r\n#define ACCEPTANCE_FILTER_RAM_BASE (CAN_REG_BASE + 0x00038000)\r\n#define ACCEPTANCE_FILTER_REGISTER_BASE (CAN_REG_BASE + 0x0003C000)\r\n#define CENTRAL_CAN_REGISTER_BASE (CAN_REG_BASE + 0x00040000) \r\n\r\n// Common CAN bit rates\r\n#define CANBitrate125k_12MHz 0x001C001D\r\n#define CANBitrate250k_12MHz 0x001C000E\r\n\r\n// CAN Interrupt Service Routines\r\nvoid FullCAN_CANISR_Err (void) __attribute__ ((interrupt));\r\nvoid FullCAN_CANISR_Rx1 (void) __attribute__ ((interrupt));\r\nvoid FullCAN_CANISR_Rx2 (void) __attribute__ ((interrupt));\r\nvoid FullCAN_CANISR_Rx3 (void) __attribute__ ((interrupt));\r\nvoid FullCAN_CANISR_Rx4 (void) __attribute__ ((interrupt));\r\n\r\n// Type definition to hold a FullCAN message\r\n// Compatible to FullCAN Mode Stored Messages in LPC User Manual\r\ntypedef struct\r\n{\r\n unsigned int Dat1; // Bits 0..10: CAN Message ID\r\n // Bits 13..15: CAN interface number (1..4)\r\n // Bits 16..19: DLC - Data Length Counter\r\n // Bits 24..25: Semaphore bits\r\n unsigned int DatA; // CAN Message Data Bytes 0-3\r\n unsigned int DatB; // CAN Message Data Bytes 4-7\r\n} FULLCAN_MSG;\r\n\r\n\r\n/**********************************************************************\r\nPUBLIC FUNCTIONS\r\n***********************************************************************/ \r\n\r\n/**********************************************************************\r\nDOES: Initializes one CAN interface of the LPC2000\r\nGLOBALS: Resets all FullCAN filters, sets and enables CAN receive interrupt\r\nRETURNS: One if initialization successful, else zero\r\n***********************************************************************/ \r\nshort FullCAN_Init (\r\n unsigned short can_port, // CAN interface to init (1, 2, 3 or 4)\r\n unsigned short can_isrvect, // Interrupt vector number to use for Rx ISR (0-15)\r\n unsigned int can_btr // CAN BTR value used to set CAN baud rate\r\n );\r\n\r\n\r\n/**********************************************************************\r\nDOES: Setup a FullCAN filter\r\nGLOBALS: Adds the specified CAN identifier to the list of CAN messages\r\n received by this device\r\nRETURNS: One if operation successful, else zero\r\n***********************************************************************/ \r\nshort FullCAN_SetFilter \r\n (\r\n unsigned short can_port, // CAN interface to init (1, 2, 3 or 4)\r\n unsigned int CANID // 11-bit CAN message identifier\r\n );\r\n\r\n\r\n/**********************************************************************\r\nDOES: Setup the interrupt service routine for CAN Status and Errors\r\nNOTE: The driver only implements an empty function for this interrupt,\r\n it must be filled by the user with application specific code\r\nGLOBALS: Sets and enables the CAN Err interrupt service routine\r\nRETURNS: One if operation successful, else zero\r\n***********************************************************************/ \r\nshort FullCAN_SetErrIRQ (\r\n unsigned short can_isrvect // Interrupt vector number to use for Err ISR (0-15)\r\n );\r\n\r\n\r\n/**********************************************************************\r\nDOES: Adds a message to the three-buffer transmit queue of a selected\r\n CAN interface. The message is placed in the next available buffer.\r\nGLOBALS: None\r\nRETURNS: One if operation successful, else zero\r\n************************************************************************/ \r\nshort FullCAN_PushMessage (\r\n unsigned short can_port, // CAN interface to use (1, 2, 3 or 4)\r\n FULLCAN_MSG pTransmitBuf // Source pointer to a CAN message\r\n );\r\n\r\n\r\n/************************************************************************\r\nDOES: Poll the Full CAN message storage area for the next available\r\n CAN message received.\r\nGLOBALS: If a CAN message is found, the matching semaphore bits are cleared\r\nRETURNS: One if operation successful, else zero\r\n************************************************************************/ \r\nshort FullCAN_PullMessage (\r\n unsigned short can_port, // CAN interface to use (1, 2, 3 or 4)\r\n FULLCAN_MSG pReceiveBuf // Destination pointer to a CAN message\r\n );\r\n\r\n\r\n/----------------------- END OF FILE ----------------------------------/\r\n" }, { "alpha_fraction": 0.5189557075500488, "alphanum_fraction": 0.5988649129867554, "avg_line_length": 20.36040687561035, "blob_id": "0b059a2537c16ffe11820fe270226c60231f0fb5", "content_id": "571274a5738e7330e6e35ee2beb63a46bbb003ac", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 4405, "license_type": "no_license", "max_line_length": 74, "num_lines": 197, "path": "/SOFT/UKU/2rki/sntp.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\n#include <LPC17xx.H>\r\n#include \"rtl.h\"\r\n#include \"sntp.h\"\r\n#include \"main.h\"\r\n\r\nU8 socket_udp;\r\nU16 udp_callback_cnt,udp_callback_cnt1;\r\nU8 Rem_IP[4] = {SNTP_IP1,SNTP_IP2,SNTP_IP3,SNTP_IP4};\r\nconst int NTP_PACKET_SIZE = 48;\r\nU16 udp_callback_plazma[12];\r\nU16 day_of_year;\r\nU32 full_days_since_2000_01_01;\r\nU32 curr_days_since_2000_01_01;\r\nU32 sec_after_2000_01_01;\r\nU16 day_after_this_month;\r\nconst U16 days_of_month[]={0,31,28,31,30,31,30,31,31,30,31,30,31};\r\nU16\tthis_year;\r\nlong tempL;\r\nU32 day_after_this_year;\r\nU16 this_month;\r\nU16 day_of_month;\r\nU32 sec_in_this_day;\r\nU16 hour_in_this_day;\r\nU16 min_in_this_hour;\r\nU16 sec_in_this_min;\r\nU16 time_sinc_hndl_req_cnt;\r\nU32 time_sinc_hndl_main_cnt=60;\r\n\r\n\r\n//-----------------------------------------------\r\nvoid procrec (U8 buf) {\r\n/ switch (buf[0]) {\r\n case BLINKLED:\r\n LED_out (buf[1]);\r\n break;\r\n }\t/\r\n}\r\n\r\n//-----------------------------------------------\r\nU16 udp_callback (U8 soc, U8 rip, U16 rport, U8 buf, U16 len) \r\n{\r\nrip = rip;\r\nrport= rport;\r\nlen = len;\r\n\r\nudp_callback_cnt++;\r\n\r\nif (soc == socket_udp) \r\n\t{\r\n\tlong tempL;\r\n\tlong year_cnt,day_cnt;\r\n\r\n\tudp_callback_cnt1++;\r\n\tudp_callback_plazma[0]=rip[0];\r\n\tudp_callback_plazma[1]=rip[1];\r\n\tudp_callback_plazma[2]=rip[2];\r\n\tudp_callback_plazma[3]=rip[3];\r\n\tudp_callback_plazma[4]=rport;\r\n\tudp_callback_plazma[5]=buf[40];\r\n\tudp_callback_plazma[6]=buf[41];\r\n\tudp_callback_plazma[7]=buf[42];\r\n\tudp_callback_plazma[8]=buf[43];\r\n\ttempL=buf[40];\r\n\ttempL<<=8;\r\n\ttempL\|=buf[41];\r\n\ttempL<<=8;\r\n\ttempL\|=buf[42];\r\n\ttempL<<=8;\r\n\ttempL\|=buf[43];\r\n\r\n\r\n\r\n\tudp_callback_cnt1++;\r\n\r\n\r\n\r\n\r\n\ttempL-=3155673600L;\r\n\r\n\ttempL+=(3600LSNTP_GMT);\r\n\r\n\tsec_after_2000_01_01=tempL;\r\n\r\n\ttempL/=86400L;\r\n\r\n\t\t//tempL=6575;\r\n\r\n\t\t//full_days_since_2000_01_01=(U32)tempL;\r\n\tfull_days_since_2000_01_01=sec_after_2000_01_01/86400L;\r\n\t\t\r\n\tcurr_days_since_2000_01_01=full_days_since_2000_01_01+1;\r\n\r\n\tday_after_this_year=0;\r\n\tfor(this_year=0;this_year<100;this_year++)\r\n\t\t{\r\n\t\tlong temptempL;\r\n\t\ttemptempL=day_after_this_year;\r\n\t\tday_after_this_year+=365;\r\n\t\tif((this_year%4)==0)day_after_this_year++;\r\n\r\n\t\tif(curr_days_since_2000_01_01<=day_after_this_year)\r\n\t\t\t{\r\n\t\t\tday_after_this_year=temptempL;\r\n\r\n\t\t\tday_of_year=curr_days_since_2000_01_01-day_after_this_year;\r\n\t\t\tbreak;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\tday_after_this_month=0;\r\n\tfor(this_month=1;this_month<13;this_month++)\r\n\t\t{\r\n\t\tlong temptempL;\r\n\t\ttemptempL=day_after_this_month;\r\n\t\tday_after_this_month+=days_of_month[this_month];\r\n\t\tif(((this_year%4)==0)&&(this_month==2))day_after_this_month++;\r\n\r\n\t\tif(day_of_year<=day_after_this_month)\r\n\t\t\t{\r\n\t\t\tday_after_this_month=temptempL;\r\n\t\t\tday_of_month=day_of_year-day_after_this_month;\r\n\t\t\tbreak;\r\n\t\t\t}\r\n\t\t}\r\n\r\n\tsec_in_this_day=sec_after_2000_01_01-(full_days_since_2000_01_0186400L);\r\n\thour_in_this_day=(short)(sec_in_this_day/3600L);\r\n\tmin_in_this_hour=(short)((sec_in_this_day%3600L)/60L);\r\n\tsec_in_this_min=(short)((sec_in_this_day%3600L)%60L);\r\n\r\n\tudp_callback_plazma[10]=day_of_year;\r\n\t\t//udp_callback_plazma[9]=year_cnt;\r\n\r\n\tif(time_sinc_hndl_req_cnt)\r\n\t\t{\r\n\t\tLPC_RTC->HOUR=hour_in_this_day;\r\n\t\tLPC_RTC->MIN=min_in_this_hour;\r\n\t\tLPC_RTC->SEC=sec_in_this_min;\r\n\t\tLPC_RTC->YEAR=this_year;\r\n\t\tLPC_RTC->MONTH=this_month;\r\n\t\tLPC_RTC->DOM=day_of_month;\r\n\t\t}\r\n\t}\r\n\r\n}\r\n\r\n\r\n//-----------------------------------------------\r\nvoid sntp_requ (void)\r\n{\r\nU8 sendbuf;\r\nU8 p2;\r\n\r\nif (socket_udp != 0) \r\n\t{\r\n /* Start Connection /\r\n sendbuf = udp_get_buf (NTP_PACKET_SIZE);\r\n\r\n\tmemset(sendbuf,NTP_PACKET_SIZE,0);\r\n\r\n\tsendbuf[0] = 0xE3; // LI, Version, Mode\r\n\tsendbuf[1] = 0; // Stratum, or type of clock\r\n\tsendbuf[2] = 6; // Polling Interval\r\n\tsendbuf[3] = 0xEC; // Peer Clock Precision\r\n\t\t // 8 bytes of zero for Root Delay & Root Dispersion\r\n\tsendbuf[12] = 49;\r\n\tsendbuf[13] = 0x4E;\r\n\tsendbuf[14] = 49;\r\n\tsendbuf[15] = 52;\r\n\r\n\tudp_send (socket_udp, Rem_IP, 123, sendbuf, NTP_PACKET_SIZE);\r\n\t}\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid time_sinc_hndl(void)\r\n{\r\nif(time_sinc_hndl_req_cnt)time_sinc_hndl_req_cnt--;\r\n\r\nif(SNTP_ENABLE)\r\n\t{\r\n\tif(time_sinc_hndl_main_cnt)\r\n\t\t{\r\n\t\ttime_sinc_hndl_main_cnt--;\r\n\t\tif(!time_sinc_hndl_main_cnt)\r\n\t\t\t{\r\n\t\t\ttime_sinc_hndl_req_cnt=5;\r\n\r\n\t\t\tsntp_requ();\r\n\r\n\t\t\tif(SNTP_ENABLE==1)time_sinc_hndl_main_cnt=3600L;\r\n\t\t\telse if(SNTP_ENABLE==2)time_sinc_hndl_main_cnt=86400L;\r\n\t\t\telse if(SNTP_ENABLE==3)time_sinc_hndl_main_cnt=604800L;\r\n\t\t\t}\r\n\t\t}\r\n\t}\r\n}" }, { "alpha_fraction": 0.44130346179008484, "alphanum_fraction": 0.4587100148200989, "avg_line_length": 17.642383575439453, "blob_id": "37ff564f0b1980ce112ddc7b9e71a9c9861a1368", "content_id": "e79c80fffde1647d258f0ed0bb6a5d7b3f825ff2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 15059, "license_type": "no_license", "max_line_length": 155, "num_lines": 755, "path": "/SOFT/UKU/Олег-2021.02.12/http_data.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1252", "text": "#include \"http_data.h\"\r\n#include \"control.h\"\r\n#include \"eeprom_map.h\"\r\n#include \"25lc640.h\"\r\n#include \"common_func.h\"\r\n#include \"main.h\"\r\n#include \"stdio.h\"\r\n#include \"avar_hndl.h\"\r\n\r\n//Òåëåìåòðèÿ ñåòè\r\nchar http_power_num_of_phases;\r\nshort http_power_voltage_of_phase[3];\r\nshort http_power_frequncy;\r\nchar http_power_status;\r\nchar http_output_buff[70];\r\nconst char hex_alfa[16]={'0','1','2','3','4','5','6','7','8','9','A','B','C','D','E','F'};\r\nchar log_item_cnt=0;\r\nchar pal_cyr_coder_output[200];\r\n\r\n//-----------------------------------------------\r\nchar pal_cyr_decoder(char* input) \r\n{\r\nchar* output;\r\nshort i=0,ii=0;\r\n\r\noutput = pal_cyr_coder_output;\r\n\t\r\nwhile (input[i])\r\n\t{\r\n\tif(input[i]=='^')\r\n\t\t{\r\n\t\ti++;\r\n\t\tif(input[i]=='X')\r\n\t\t\t{\r\n\t\t\ti++;\r\n\t\t\tif(input[i]=='A') output[ii++]='Ø';\r\n\t\t\telse if(input[i]=='E') output[ii++]='¨';\r\n\t\t\telse if(input[i]=='C') output[ii++]='Æ';\r\n\t\t\telse if(input[i]=='D') output[ii++]='Ù';\r\n\t\t\telse if(input[i]=='B') output[ii++]='Ú';\r\n\t\t\telse if(input[i]=='F') output[ii++]='Û';\r\n\t\t\telse if(input[i]=='G') output[ii++]='Ü';\r\n\t\t\telse if(input[i]=='H') output[ii++]='Ý';\r\n\t\t\telse if(input[i]=='a') output[ii++]='ø';\r\n\t\t\telse if(input[i]=='e') output[ii++]='¸';\r\n\t\t\telse if(input[i]=='c') output[ii++]='æ';\r\n\t\t\telse if(input[i]=='d') output[ii++]='ù';\r\n\t\t\telse if(input[i]=='b') output[ii++]='ú';\r\n\t\t\telse if(input[i]=='f') output[ii++]='û';\r\n\t\t\telse if(input[i]=='g') output[ii++]='ü';\r\n\t\t\telse if(input[i]=='y') output[ii++]='ý';\r\n\t\t\telse if(input[i]=='i') output[ii++]='°';\r\n\t\t\telse if(input[i]=='j') output[ii++]='#';\r\n\t\t\t}\r\n\t\telse if(input[i]=='A') output[ii++]='À';\r\n\t\telse if(input[i]=='B') output[ii++]='Á';\r\n\t\telse if(input[i]=='C') output[ii++]='Ö';\r\n\t\telse if(input[i]=='D') output[ii++]='Ä';\r\n\t\telse if(input[i]=='E') output[ii++]='Å';\r\n\t\telse if(input[i]=='F') output[ii++]='Ô';\r\n\t\telse if(input[i]=='G') output[ii++]='Ã';\r\n\t\telse if(input[i]=='H') output[ii++]='Õ';\r\n\t\telse if(input[i]=='I') output[ii++]='È';\r\n\t\telse if(input[i]=='J') output[ii++]='É';\r\n\t\telse if(input[i]=='K') output[ii++]='Ê';\r\n\t\telse if(input[i]=='L') output[ii++]='Ë';\r\n\t\telse if(input[i]=='M') output[ii++]='Ì';\r\n\t\telse if(input[i]=='N') output[ii++]='Í';\r\n\t\telse if(input[i]=='O') output[ii++]='Î';\r\n\t\telse if(input[i]=='P') output[ii++]='Ï';\r\n\t\telse if(input[i]=='Q') output[ii++]='ß';\r\n\t\telse if(input[i]=='R') output[ii++]='Ð';\r\n\t\telse if(input[i]=='S') output[ii++]='Ñ';\r\n\t\telse if(input[i]=='T') output[ii++]='Ò';\r\n\t\telse if(input[i]=='U') output[ii++]='Ó';\r\n\t\telse if(input[i]=='V') output[ii++]='Þ';\r\n\t\telse if(input[i]=='W') output[ii++]='Â';\r\n\t\telse if(input[i]=='Y') output[ii++]='×';\r\n\t\telse if(input[i]=='Z') output[ii++]='Ç';\r\n\t\telse if(input[i]=='a') output[ii++]='à';\r\n\t\telse if(input[i]=='b') output[ii++]='á';\r\n\t\telse if(input[i]=='c') output[ii++]='ö';\r\n\t\telse if(input[i]=='d') output[ii++]='ä';\r\n\t\telse if(input[i]=='e') output[ii++]='å';\r\n\t\telse if(input[i]=='f') output[ii++]='ô';\r\n\t\telse if(input[i]=='g') output[ii++]='ã';\r\n\t\telse if(input[i]=='h') output[ii++]='õ';\r\n\t\telse if(input[i]=='i') output[ii++]='è';\r\n\t\telse if(input[i]=='j') output[ii++]='é';\r\n\t\telse if(input[i]=='k') output[ii++]='ê';\r\n\t\telse if(input[i]=='l') output[ii++]='ë';\r\n\t\telse if(input[i]=='m') output[ii++]='ì';\r\n\t\telse if(input[i]=='n') output[ii++]='í';\r\n\t\telse if(input[i]=='o') output[ii++]='î';\r\n\t\telse if(input[i]=='p') output[ii++]='ï';\r\n\t\telse if(input[i]=='q') output[ii++]='ÿ';\r\n\t\telse if(input[i]=='r') output[ii++]='ð';\r\n\t\telse if(input[i]=='s') output[ii++]='ñ';\r\n\t\telse if(input[i]=='t') output[ii++]='ò';\r\n\t\telse if(input[i]=='u') output[ii++]='ó';\r\n\t\telse if(input[i]=='v') output[ii++]='þ';\r\n\t\telse if(input[i]=='w') output[ii++]='â';\r\n\t\telse if(input[i]=='y') output[ii++]='÷';\r\n\t\telse if(input[i]=='z') output[ii++]='ç';\r\n\t\ti++;\r\n\t\t}\r\n\telse \r\n\t\t{\r\n\t\toutput[ii++]=input[i++];\r\n\t\t}\r\n\t}\r\noutput[ii]=0;\r\nreturn output;\r\n}\r\n\r\n//-----------------------------------------------\r\nchar* pal_cyr_coder(char* in)\r\n{\r\nchar* output;\r\nshort i=0,ii=0;\r\noutput = pal_cyr_coder_output;\r\n\r\nwhile(in[i])\r\n\t{\r\n\tif(in[i]=='À')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='A';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Á')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='B';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Â')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='W';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ã')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='G';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ä')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='D';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Å')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='E';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='¨')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='E';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Æ')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='C';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ç')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='Z';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='È')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='I';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='É')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='J';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ê')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='K';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ë')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='L';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ì')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='M';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Í')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='N';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Î')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='O';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ï')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='P';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ð')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='R';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ñ')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='S';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ò')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='T';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ó')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='U';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ô')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='F';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Õ')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='H';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ö')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='C';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='×')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='Y';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ø')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='A';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ù')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='D';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ú')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='B';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Û')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='F';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ü')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='G';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Ý')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='H';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='Þ')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='V';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ß')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='Q';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='à')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='a';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='á')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='b';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='â')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='w';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ã')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='g';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ä')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='d';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='å')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='e';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='¸')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='e';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='æ')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='c';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ç')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='z';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='è')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='i';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='é')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='j';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ê')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='k';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ë')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='l';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ì')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='m';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='í')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='n';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='î')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='o';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ï')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='p';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ð')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='r';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ñ')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='s';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ò')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='t';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ó')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='u';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ô')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='f';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='õ')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='h';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ö')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='c';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='÷')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='y';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ø')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='a';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ù')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='d';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ú')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='b';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='û')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='f';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ü')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='g';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ý')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='h';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='þ')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='v';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='ÿ')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='q';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='°')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='i';\r\n\t\ti++;\r\n\t\t}\r\n\telse if(in[i]=='¹')\r\n\t\t{\r\n\t\toutput[ii++]='^';\r\n\t\toutput[ii++]='X';\r\n\t\toutput[ii++]='j';\r\n\t\ti++;\r\n\t\t}\r\n\telse\r\n\t\t{\r\n\t\toutput[ii++]=in[i++];\r\n\t\t}\r\n\t}\r\n\r\n/while(in[i])\r\n\t{\r\n\toutput[ii++]=in[i++];\r\n\t}/\r\n\r\noutput[ii++]=0;\t\r\n/\r\nfor(i=0;i<4;i++)\r\n\t{\r\n\toutput[ii++]=in[i++];\r\n\t} \r\n\r\noutput[0]='0';\r\noutput[1]='1';\r\noutput[2]='2';\r\noutput[3]='3';\r\noutput[4]='4';\r\noutput[5]='5';\r\noutput[6]='6';\r\noutput[7]='7';\r\noutput[8]='8';\r\noutput[9]='9';\r\noutput[10]='a';\r\noutput[11]='b';\r\noutput[12]='c';\r\noutput[13]='d';\r\noutput[14]='e';\r\noutput[15]='f';\r\noutput[16]='g';\r\noutput[17]='h';\r\noutput[18]='i';\r\noutput[19]='j';\r\noutput[20]=0; /\r\n\r\nreturn output;\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid http_data(void)\r\n{\r\nhttp_power_num_of_phases=NUMPHASE;\r\nif((http_power_num_of_phases!=1)&&(http_power_num_of_phases!=3)) http_power_num_of_phases=0;\r\nif(http_power_num_of_phases==1)\r\n\t{\r\n\thttp_power_voltage_of_phase[0]=net_U;\r\n\t}\r\nelse http_power_voltage_of_phase[0]=net_U;\r\nhttp_power_voltage_of_phase[1]=net_Ub;\r\nhttp_power_voltage_of_phase[2]=net_Uc;\r\nhttp_power_frequncy = net_F;\r\nhttp_power_status=0;\r\n//if(avar_stat&0x0001)http_power_status=1;\r\nhttp_power_status=net_av;\r\n};\r\n\r\n//-----------------------------------------------\r\nshort http_get_log_deep(void)\r\n{\r\nreturn lc640_read_int(CNT_EVENT_LOG);\r\n};\r\n\r\n//-----------------------------------------------\r\nchar* http_get_log_rec(char num)\r\n{\r\nchar i;\r\nunsigned int tempii;\r\nchar buff[40];\r\n\r\nfor (i=0;i<40;i++) buff[i]=0;\r\n\r\ntempii=lc640_read_int(PTR_EVENT_LOG);\r\ntempii=ptr_carry(tempii,64,-1((signed)num));\r\ntempii=32;\ntempii+=EVENT_LOG;\r\n\r\nlc640_read_long_ptr(tempii,buff);\r\nlc640_read_long_ptr(tempii+4,buff+4);\r\nlc640_read_long_ptr(tempii+8,buff+8);\r\nlc640_read_long_ptr(tempii+12,buff+12);\r\nlc640_read_long_ptr(tempii+16,buff+16);\r\nlc640_read_long_ptr(tempii+20,buff+20);\r\nlc640_read_long_ptr(tempii+24,buff+24);\r\nlc640_read_long_ptr(tempii+28,buff+28);\r\n\r\nfor (i=0;i<32;i++)\r\n\t{\r\n\thttp_output_buff[i2]=hex_alfa[buff[i]/16];\r\n\thttp_output_buff[(i2)+1]=hex_alfa[buff[i]%16];\r\n\t}\r\nhttp_output_buff[64]=0;\r\n\r\nreturn http_output_buff;\r\n}\r\n\r\n//-----------------------------------------------\r\nchar* http_tm_dt_output(char numOfDt)\r\n{\r\nchar buffer[100];\r\n\r\nsprintf(buffer,\"%d %d\", t_ext[numOfDt], ND_EXT[numOfDt]);\r\n\r\nreturn buffer;\r\n}\r\n\r\n//-----------------------------------------------\r\nchar* http_tm_sk_output(char numOfSk)\r\n{\r\nchar buffer[100];\r\nchar temp1=0;\r\nchar temp2=0;\r\n\r\nif(sk_stat[numOfSk]==ssON)temp1=1;\r\nif(sk_av_stat[numOfSk]==sasON)temp2=1;\r\n\r\nsprintf(buffer,\"%d %d\", temp1, temp2);\r\n\r\nreturn buffer;\r\n}\r\n\r\n//-----------------------------------------------\r\nchar http_bps_status2number(char number)\r\n{\r\n//return number+spirit_wrk_cnt;\r\nif((bps[number]._state==bsWRK)&&(!bps[number]._flags_tm)) \t\treturn 1;\r\nif((bps[number]._state==bsRDY)) \t\t\t\t\t\t\t\treturn 2;\r\nif((bps[number]._state==bsWRK)&&(bps[number]._flags_tm&0x08)) \treturn 3;\r\nif((bps[number]._state==bsBL)) \t\t\t\t\t\t\t\t\treturn 4;\r\nif((bps[number]._state==bsAPV)) \t\t\t\t\t\t\t\treturn 5;\r\nif((bps[number]._av&(1<<0))) \t\t\t\t\t\t\t\t\treturn 6;\r\nif((bps[number]._av&(1<<2))) \t\t\t\t\t\t\t\t\treturn 7;\r\nif((bps[number]._av&(1<<1))) \t\t\t\t\t\t\t\t\treturn 8;\r\nif((bps[number]._av&(1<<3))) \t\t\t\t\t\t\t\t\treturn 9;\r\nif((bps[number]._state==bsOFF_AV_NET)) \t\t\t\t\t\t\treturn 10;\r\n}\r\n\r\n//-----------------------------------------------\r\nchar* http_tm_src_output(char numOfSrc)\r\n{\r\nchar buffer[100];\r\n\r\nsprintf(buffer,\"%d %d %d %d 0x%02x\", bps[numOfSrc]._Uii, bps[numOfSrc]._Ii, bps[numOfSrc]._Ti, http_bps_status2number(numOfSrc), bps[numOfSrc]._flags_tm );\r\n\r\nreturn buffer;\r\n}\r\n\r\n//-----------------------------------------------\r\nchar* http_ip_output(char ip1, char ip2, char ip3, char ip4)\r\n{\r\nchar buffer[100];\r\n\r\nsprintf(buffer,\"%d.%d.%d.%d\", ip1, ip2, ip3, ip4);\r\n\r\nreturn buffer;\r\n}\r\n\r\n//-----------------------------------------------\r\nchar* http_tm_bat_output(char numOfBat)\r\n{\r\nchar buffer[300];\r\nchar* batstat=\"abcdef\";\r\n\r\nshort batison=0;\r\nshort batcreal=-1;\r\nshort batubm=-1;\r\nif(BAT_IS_ON[numOfBat]==bisON)batison=1;\r\nif(BAT_C_REAL[numOfBat]!=0x5555)batcreal=BAT_C_REAL[numOfBat];\r\nelse batcreal=-BAT_C_NOM[numOfBat]10;\r\nif(UBM_AV)batubm=bat[numOfBat]._Ubm;\r\n\r\nif(bat[numOfBat]._Ib>0)\tbatstat=pal_cyr_coder(\"çàðÿæàåòñÿ\");\r\nelse batstat=pal_cyr_coder(\"ðàçðÿæàåòñÿ\");\r\nif(bat[numOfBat]._av&1)batstat=pal_cyr_coder(\"Àâàðèÿ öåïè áàòàðåè!!!\");\r\nif(bat[numOfBat]._av&2)batstat=pal_cyr_coder(\"Àâàðèÿ ñðåäíåé òî÷êè áàòàðåè!!!\");\r\n//batstat=pal_cyr_coder(\"Àâàðèÿ ñðåäíåé òî÷êè áàòàðåè!!!\");\r\n\r\nsprintf(buffer,\"%d, %d, %d, %d, %d, %d, %d, %d, %d, %s\", batison, bat[numOfBat]._Ub, bat[numOfBat]._Ib, bat[numOfBat]._Tb,\r\n \t\tbat[numOfBat]._nd, batcreal, bat[numOfBat]._zar,BAT_RESURS[numOfBat],batubm, batstat);\r\n\r\nreturn buffer;\r\n}\r\n\r\n/\r\n\r\n char iii;\nchar dt[4],dt_[4],dt__[4];\n \n\t\t\n\n\n \nlc640_read_long_ptr(tempii,dt);\nlc640_read_long_ptr(tempii+8,dt_);\nlc640_read_long_ptr(tempii+12,dt__);\r\n/\r\n\r\nvoid demo_avar_vrite(void)\r\n{\r\n\r\n}\r\n\r\n" }, { "alpha_fraction": 0.4394626319408417, "alphanum_fraction": 0.5185558199882507, "avg_line_length": 14.176630020141602, "blob_id": "1d68eb57979a9bc260a8a779bc8ac6ea1760c88e", "content_id": "080cc5c6a80d7739660e978e24a3a034f85a53e8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 6203, "license_type": "no_license", "max_line_length": 53, "num_lines": 368, "path": "/SOFT/UKU/2rki/25lc640.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#include \"25lc640.h\"\r\n#include \"LPC17xx.H\"\r\n#include \"main.h\"\r\n\r\n#ifndef SPI1_DEFINED\r\n#define SPI1_DEFINED\r\n\r\n\r\n\r\nchar spi1(char in)\r\n{\r\n\r\n \r\n\r\nLPC_SPI->SPDR=in;\r\nwhile(!(LPC_SPI->SPSR&(1<<7)));\r\nreturn LPC_SPI->SPDR;\r\n\r\n \r\n\r\n}\r\n\r\n#endif\r\n\r\n//----------------------------------------------- \r\n//настройка SPI1\r\nvoid spi1_config(void)\r\n{ \r\n\r\nSET_REG( LPC_PINCON->PINSEL0, 3, 152, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 0, (16-16)2, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 3, (17-16)2, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 3, (18-16)2, 2); \r\n/\r\nS1SPCCR=100;\r\nS1SPCR=0x3f; /\r\n\r\nLPC_SPI->SPCCR=8;\r\nLPC_SPI->SPCR=0x20;\r\n}\r\n\r\n\r\n//----------------------------------------------- \r\n//настройка SPI1\r\nvoid spi1_config_mcp2515(void)\r\n{ \r\n\r\nSET_REG( LPC_PINCON->PINSEL0, 3, 152, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 0, (16-16)2, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 3, (17-16)2, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 3, (18-16)2, 2); \r\n/\r\nS1SPCCR=100;\r\nS1SPCR=0x3f; /\r\n\r\nLPC_SPI->SPCCR=32;\r\nLPC_SPI->SPCR=0x38;\r\n}\r\n\r\n\r\n//----------------------------------------------- \r\n//выключение SPI1\r\nvoid spi1_unconfig(void)\r\n{ \r\n\r\nSET_REG( LPC_PINCON->PINSEL0, 0, 152, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 0, (16-16)2, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 0, (17-16)2, 2);\r\nSET_REG( LPC_PINCON->PINSEL1, 0, (18-16)2, 2);\r\n\r\nLPC_SPI->SPCR=0x00;\r\n}\r\n\r\n//----------------------------------------------- \r\n//Разрешение записи\r\nvoid lc640_wren(void)\r\n{\r\n\r\nspi1_config();\r\n\r\nCS_ON\r\n\r\nspi1(0x06); \r\n\r\nCS_OFF\r\n\r\nspi1_unconfig();\r\n}\r\n\r\n//-----------------------------------------------\r\n//Чтение из м-мы регистра состояния\r\nchar lc640_rdsr(void)\r\n{\r\nchar temp;\r\n\r\nspi1_config();\r\nCS_ON\r\nspi1(0x05);\r\ntemp=spi1(0xff);\r\nCS_OFF\r\nspi1_unconfig();\r\nreturn temp;\r\n}\r\n\r\n//----------------------------------------------- \r\n//Чтение из м-мы байта по адр. ADR\r\nint lc640_read(int ADR)\r\n{\r\nint temp;\r\ntemp=0;\r\n\r\nwhile(lc640_rdsr()&0x01)\r\n\t{\r\n\t}\r\nspi1_config();\r\nCS_ON\r\nCS_ON\r\n//temp_short[0]=PINSEL1;\t\r\n//\r\n//IO0DIR\|=1UL<<17;\r\n//IO0CLR\|=1UL<<17;\r\nspi1(0x03);\r\ntemp=(((char)&ADR)+1);\r\nspi1(temp);\r\ntemp=((char)&ADR);\r\nspi1(temp);\r\ntemp=spi1(0xff);\r\n//IO0SET\|=1UL<<17;\r\nCS_OFF\r\nCS_OFF\r\nspi1_unconfig();\r\nreturn temp;\r\n\r\n}\r\n\r\n//----------------------------------------------- \r\n//Чтение из м-мы слова по адр. ADR\r\nint lc640_read_int(int ADR)\r\n{\r\nchar temp;\r\nint temp_i;\r\n\r\n\r\n//LPC_GPIO0->FIODIR\|=0x00000002;\r\n//LPC_GPIO0->FIOSET\|=0x00000002;\r\n\r\n\r\n\r\nwhile(lc640_rdsr()&0x01)\r\n\t{\r\n\t}\r\n\r\n//lc640_rdsr();\r\n//IO0DIR_bit.P0_11=1;\r\n//IO0SET_bit.P0_11=1;\r\nspi1_config();\r\nCS_ON\r\nspi1(0x03);\r\ntemp=(((char)&ADR)+1);\r\nspi1(temp);\r\ntemp=((char)&ADR);\r\nspi1(temp);\r\ntemp=spi1(0xff);\r\ntemp_i=spi1(0xff);\r\ntemp_i<<=8;\r\ntemp_i+=temp;\r\nCS_OFF\r\nCS_OFF\r\nspi1_unconfig();\r\n\r\n//LPC_GPIO0->FIOCLR\|=0x00000002;\r\nreturn temp_i;\r\n}\r\n\r\n//----------------------------------------------- \r\n//Чтение из м-мы 4 байт по адр. ADR\r\nlong lc640_read_long(int ADR)\r\n{\r\nchar temp0,temp1,temp2;\r\nlong temp_i;\r\nwhile(lc640_rdsr()&0x01)\r\n\t{\r\n\t}\r\nspi1_config();\r\nCS_ON\r\nspi1(0x03);\r\ntemp0=(((char)&ADR)+1);\r\nspi1(temp0);\r\ntemp0=((char)&ADR);\r\nspi1(temp0);\r\ntemp0=spi1(0xff);\r\ntemp1=spi1(0xff);\r\ntemp2=spi1(0xff);\r\ntemp_i=spi1(0xff);\r\ntemp_i<<=8;\r\ntemp_i+=temp2;\r\ntemp_i<<=8;\r\ntemp_i+=temp1;\r\ntemp_i<<=8;\r\ntemp_i+=temp0;\r\nCS_OFF\r\nCS_OFF\r\nspi1_unconfig();\r\nreturn temp_i;\r\n}\r\n\r\n//----------------------------------------------- \r\n//Чтение из м-мы 4 байт по адр. ADR\r\nvoid lc640_read_long_ptr(int ADR,char out_ptr)\r\n{\r\nchar temp0/,temp1,temp2/;\r\n//long temp_i;\r\nwhile(lc640_rdsr()&0x01)\r\n\t{\r\n\t}\r\nspi1_config();\r\nCS_ON\r\nspi1(0x03);\r\ntemp0=(((char)&ADR)+1);\r\nspi1(temp0);\r\ntemp0=((char)&ADR);\r\nspi1(temp0);\r\nout_ptr[0]=spi1(0xff);\r\nout_ptr[1]=spi1(0xff);\r\nout_ptr[2]=spi1(0xff);\r\nout_ptr[3]=spi1(0xff);\r\nCS_OFF\r\nCS_OFF\r\nspi1_unconfig();\r\n}\r\n\r\n//----------------------------------------------- \r\n//Чтение из м-мы N байт по адр. ADR\r\nvoid lc640_read_str(int ADR, char* ram_ptr, char num)\r\n{\r\nchar temp0,i;\r\nwhile(lc640_rdsr()&0x01)\r\n\t{\r\n\t}\r\nspi1_config();\r\nCS_ON\r\nspi1(0x03);\r\ntemp0=(((char)&ADR)+1);\r\nspi1(temp0);\r\ntemp0=((char)&ADR);\r\nspi1(temp0);\r\n\r\nfor(i=0;i<num;i++)\r\n\t{\r\n\tram_ptr++=spi1(0xff);\r\n\t}\r\nCS_OFF\r\nCS_OFF\r\nspi1_unconfig();\r\n}\r\n\r\n//-----------------------------------------------\r\n//Запись байта in по адресу ADR\r\nchar lc640_write(int ADR,char in)\r\n{\r\nchar temp; \r\n\r\nwhile(lc640_rdsr()&0x01)\r\n\t{\r\n\t}\r\nlc640_wren();\r\nspi1_config();\t\r\nCS_ON\r\nspi1(0x02);\r\ntemp=(((char)&ADR)+1);\r\nspi1(temp);\r\ntemp=((char)&ADR);\r\nspi1(temp);\r\ntemp=spi1(in);\r\nCS_OFF\r\nCS_OFF\r\nspi1_unconfig(); \r\nreturn temp;\r\n}\r\n\r\n//-----------------------------------------------\r\n//Запись слова in по адресу ADR\r\nchar lc640_write_int(short ADR,short in)\r\n{\r\nchar temp; \r\nwhile(lc640_rdsr()&0x01)\r\n\t{\r\n\t}\r\nlc640_wren();\r\nspi1_config();\t\r\nCS_ON\r\nspi1(0x02);\r\ntemp=(((char)&ADR)+1);\r\nspi1(temp);\r\ntemp=((char)&ADR);\r\nspi1(temp);\r\ntemp=((char)&in);\r\nspi1(temp);\r\ntemp=(((char)&in)+1);\r\nspi1(temp);\r\nCS_OFF\r\nCS_OFF\r\nspi1_unconfig();\r\nreturn temp;\r\n} \r\n\r\n//-----------------------------------------------\r\n//Запись 4 байт in по адресу ADR\r\nchar lc640_write_long(int ADR,long in)\r\n{\r\nchar temp; \r\n\r\nwhile(lc640_rdsr()&0x01)\r\n\t{\r\n\t}\r\nlc640_wren();\t\r\nspi1_config();\r\nCS_ON\r\nspi1(0x02);\r\ntemp=(((char)&ADR)+1);\r\nspi1(temp);\r\ntemp=((char)&ADR);\r\nspi1(temp);\r\ntemp=((char)&in);\r\nspi1(temp);\r\ntemp=(((char)&in)+1);\r\nspi1(temp);\r\ntemp=(((char)&in)+2);\r\nspi1(temp);\r\ntemp=(((char)&in)+3);\r\nspi1(temp); \r\nCS_OFF\r\nCS_OFF \r\nspi1_unconfig();\r\nreturn temp;\r\n}\r\n\r\n//-----------------------------------------------\r\n//Запись 4 байт in по адресу ADR\r\nchar lc640_write_long_ptr(int ADR,char in)\r\n{\r\nchar temp; \r\n\r\nwhile(lc640_rdsr()&0x01)\r\n\t{\r\n\t}\r\nlc640_wren();\t\r\nspi1_config();\r\nCS_ON\r\nspi1(0x02);\r\ntemp=(((char)&ADR)+1);\r\nspi1(temp);\r\ntemp=((char)&ADR);\r\nspi1(temp);\r\ntemp=in[0];\r\nspi1(temp);\r\ntemp=in[1];\r\nspi1(temp);\r\ntemp=in[2];\r\nspi1(temp);\r\ntemp=in[3];\r\nspi1(temp);\r\n\r\nCS_OFF\r\nCS_OFF \r\nspi1_unconfig();\r\nreturn temp;\r\n}\t\t\r\n" }, { "alpha_fraction": 0.48357006907463074, "alphanum_fraction": 0.5734003782272339, "avg_line_length": 26.993803024291992, "blob_id": "bef40db336cdf816bf4df674a19c5d17b0394eea", "content_id": "930c54758fc3a12c165de025f5f6004273ff9a0f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 80083, "license_type": "no_license", "max_line_length": 178, "num_lines": 2743, "path": "/SOFT/UKU/2rki/full_can.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "#include \"main.h\"\r\n#include <LPC17xx.H>\r\n#include \"full_can.h\"\r\n#include \"cmd.h\"\r\n#include \"mess.h\"\r\n#include \"global_define.h\"\r\n#include \"avar_hndl.h\"\r\n#include \"eeprom_map.h\"\r\n#include \"control.h\"\r\n#include \"25lc640.h\"\r\n\r\n// Counts number of filters (CAN message objects) used so far\r\nshort volatile gCANFilter = 0;\r\n\r\nchar ptr_can1_tx_wr,ptr_can1_tx_rd;\r\nlong can1_info[8];\r\nlong can1_id[8];\r\nlong can1_data[8];\r\nlong can1_datb[8];\r\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \r\nchar ptr_can2_tx_wr,ptr_can2_tx_rd;\r\n\r\nlong can2_info[8];\r\nlong can2_id[8];\r\nlong can2_data[8];\r\nlong can2_datb[8];\r\n\r\nunsigned short rotor_can[6];\r\n\r\n\r\n\r\n\r\n// FullCAN Message List\r\nFULLCAN_MSG volatile gFullCANList[MAX_FILTERS];\r\n\r\nchar bR;\r\nchar RXBUFF[40],TXBUFF[40];\r\nchar bIN,bIN2;\r\nchar bd_dumm[25];\r\nchar bd[25];\r\nchar TX_len;\r\n//char bOUT;\r\nchar RXBUFF2[40],TXBUFF2[40];\r\nextern char can_tx_cnt;\r\nextern char can_tx_cnt2;\r\nchar bOUT_FREE=1;\r\nchar bOUT_FREE2=1;\r\nchar rotor_rotor_rotor[2];\r\nchar can_tx_cnt;\r\nchar can_rotor[10];\r\n\r\n\r\nconst char Table87[]={\r\n0x00, 0x0E, 0x1C, 0x12, 0x38, 0x36, 0x24, 0x2A, 0x70, 0x7E, 0x6C, 0x62, 0x48, 0x46, 0x54, 0x5A,\r\n0xE0, 0xEE, 0xFC, 0xF2, 0xD8, 0xD6, 0xC4, 0xCA, 0x90, 0x9E, 0x8C, 0x82, 0xA8, 0xA6, 0xB4, 0xBA,\r\n0xCE, 0xC0, 0xD2, 0xDC, 0xF6, 0xF8, 0xEA, 0xE4, 0xBE, 0xB0, 0xA2, 0xAC, 0x86, 0x88, 0x9A, 0x94,\r\n0x2E, 0x20, 0x32, 0x3C, 0x16, 0x18, 0x0A, 0x04, 0x5E, 0x50, 0x42, 0x4C, 0x66, 0x68, 0x7A, 0x74,\r\n0x92, 0x9C, 0x8E, 0x80, 0xAA, 0xA4, 0xB6, 0xB8, 0xE2, 0xEC, 0xFE, 0xF0, 0xDA, 0xD4, 0xC6, 0xC8,\r\n0x72, 0x7C, 0x6E, 0x60, 0x4A, 0x44, 0x56, 0x58, 0x02, 0x0C, 0x1E, 0x10, 0x3A, 0x34, 0x26, 0x28,\r\n0x5C, 0x52, 0x40, 0x4E, 0x64, 0x6A, 0x78, 0x76, 0x2C, 0x22, 0x30, 0x3E, 0x14, 0x1A, 0x08, 0x06,\r\n0xBC, 0xB2, 0xA0, 0xAE, 0x84, 0x8A, 0x98, 0x96, 0xCC, 0xC2, 0xD0, 0xDE, 0xF4, 0xFA, 0xE8, 0xE6,\r\n0x2A, 0x24, 0x36, 0x38, 0x12, 0x1C, 0x0E, 0x00, 0x5A, 0x54, 0x46, 0x48, 0x62, 0x6C, 0x7E, 0x70,\r\n0xCA, 0xC4, 0xD6, 0xD8, 0xF2, 0xFC, 0xEE, 0xE0, 0xBA, 0xB4, 0xA6, 0xA8, 0x82, 0x8C, 0x9E, 0x90,\r\n0xE4, 0xEA, 0xF8, 0xF6, 0xDC, 0xD2, 0xC0, 0xCE, 0x94, 0x9A, 0x88, 0x86, 0xAC, 0xA2, 0xB0, 0xBE,\r\n0x04, 0x0A, 0x18, 0x16, 0x3C, 0x32, 0x20, 0x2E, 0x74, 0x7A, 0x68, 0x66, 0x4C, 0x42, 0x50, 0x5E,\r\n0xB8, 0xB6, 0xA4, 0xAA, 0x80, 0x8E, 0x9C, 0x92, 0xC8, 0xC6, 0xD4, 0xDA, 0xF0, 0xFE, 0xEC, 0xE2,\r\n0x58, 0x56, 0x44, 0x4A, 0x60, 0x6E, 0x7C, 0x72, 0x28, 0x26, 0x34, 0x3A, 0x10, 0x1E, 0x0C, 0x02,\r\n0x76, 0x78, 0x6A, 0x64, 0x4E, 0x40, 0x52, 0x5C, 0x06, 0x08, 0x1A, 0x14, 0x3E, 0x30, 0x22, 0x2C,\r\n0x96, 0x98, 0x8A, 0x84, 0xAE, 0xA0, 0xB2, 0xBC, 0xE6, 0xE8, 0xFA, 0xF4, 0xDE, 0xD0, 0xC2, 0xCC};\r\n\r\n\r\n\r\nconst char Table95[]={\r\n0x00, 0x2A, 0x54, 0x7E, 0xA8, 0x82, 0xFC, 0xD6, 0x7A, 0x50, 0x2E, 0x04, 0xD2, 0xF8, 0x86, 0xAC,\r\n0xF4, 0xDE, 0xA0, 0x8A, 0x5C, 0x76, 0x08, 0x22, 0x8E, 0xA4, 0xDA, 0xF0, 0x26, 0x0C, 0x72, 0x58,\r\n0xC2, 0xE8, 0x96, 0xBC, 0x6A, 0x40, 0x3E, 0x14, 0xB8, 0x92, 0xEC, 0xC6, 0x10, 0x3A, 0x44, 0x6E,\r\n0x36, 0x1C, 0x62, 0x48, 0x9E, 0xB4, 0xCA, 0xE0, 0x4C, 0x66, 0x18, 0x32, 0xE4, 0xCE, 0xB0, 0x9A,\r\n0xAE, 0x84, 0xFA, 0xD0, 0x06, 0x2C, 0x52, 0x78, 0xD4, 0xFE, 0x80, 0xAA, 0x7C, 0x56, 0x28, 0x02,\r\n0x5A, 0x70, 0x0E, 0x24, 0xF2, 0xD8, 0xA6, 0x8C, 0x20, 0x0A, 0x74, 0x5E, 0x88, 0xA2, 0xDC, 0xF6,\r\n0x6C, 0x46, 0x38, 0x12, 0xC4, 0xEE, 0x90, 0xBA, 0x16, 0x3C, 0x42, 0x68, 0xBE, 0x94, 0xEA, 0xC0,\r\n0x98, 0xB2, 0xCC, 0xE6, 0x30, 0x1A, 0x64, 0x4E, 0xE2, 0xC8, 0xB6, 0x9C, 0x4A, 0x60, 0x1E, 0x34,\r\n0x76, 0x5C, 0x22, 0x08, 0xDE, 0xF4, 0x8A, 0xA0, 0x0C, 0x26, 0x58, 0x72, 0xA4, 0x8E, 0xF0, 0xDA,\r\n0x82, 0xA8, 0xD6, 0xFC, 0x2A, 0x00, 0x7E, 0x54, 0xF8, 0xD2, 0xAC, 0x86, 0x50, 0x7A, 0x04, 0x2E,\r\n0xB4, 0x9E, 0xE0, 0xCA, 0x1C, 0x36, 0x48, 0x62, 0xCE, 0xE4, 0x9A, 0xB0, 0x66, 0x4C, 0x32, 0x18,\r\n0x40, 0x6A, 0x14, 0x3E, 0xE8, 0xC2, 0xBC, 0x96, 0x3A, 0x10, 0x6E, 0x44, 0x92, 0xB8, 0xC6, 0xEC, \r\n0xD8, 0xF2, 0x8C, 0xA6, 0x70, 0x5A, 0x24, 0x0E, 0xA2, 0x88, 0xF6, 0xDC, 0x0A, 0x20, 0x5E, 0x74, \r\n0x2C, 0x06, 0x78, 0x52, 0x84, 0xAE, 0xD0, 0xFA, 0x56, 0x7C, 0x02, 0x28, 0xFE, 0xD4, 0xAA, 0x80, \r\n0x1A, 0x30, 0x4E, 0x64, 0xB2, 0x98, 0xE6, 0xCC, 0x60, 0x4A, 0x34, 0x1E, 0xC8, 0xE2, 0x9C, 0xB6, \r\n0xEE, 0xC4, 0xBA, 0x90, 0x46, 0x6C, 0x12, 0x38, 0x94, 0xBE, 0xC0, 0xEA, 0x3C, 0x16, 0x68, 0x42};\r\n\r\n\r\n\r\nchar can_debug_plazma[2][10];\r\nvolatile uint32_t CANStatus;\r\n\r\nchar can_reset_cnt=0;\r\n\r\nchar plazma_can_pal[20];\r\nchar cnt_can_pal;\r\nchar plazma_can_pal_index;\r\n\r\n// char can_reset_cnt=0;\r\nchar plazma_can;\r\nchar plazma_can1,plazma_can2,plazma_can3,plazma_can4;\r\nshort can2_tx_cnt;\r\nchar ccc_plazma[20];\r\n\r\n//-----------------------------------------------\r\nchar CRC1_in(void)\r\n{\r\nchar r,j,lb;\r\nlb=(RXBUFF[1]&0x1f)+0x04;\r\nr=RXBUFF[0];\r\nfor(j=1;j<(lb+1);j++)\r\n\t{\r\n\tr=(RXBUFF[j]^Table87[r]);\r\n\t}\r\nif(r==0)r=0xFF;\r\nreturn r;\t\r\n} \r\n\r\n//-----------------------------------------------\r\nchar CRC2_in(void)\r\n{\r\nchar r,j,lb;\r\nlb=(RXBUFF[1]&0x1f)+0x04;\r\nr=RXBUFF[0];\r\nfor(j=1;j<(lb+1);j++)\r\n\t{\r\n\tr=(RXBUFF[j]^Table95[r]);\r\n\t}\r\nif(r==0)r=0xFF;\r\nreturn r;\t\r\n} \r\n\r\n//-----------------------------------------------\r\nchar CRC1_out(void)\r\n{\r\nchar r,j,lb;\r\nlb=(TXBUFF[1]&0x1f)+0x04;\r\nr=TXBUFF[0];\r\nfor(j=1;j<(lb+1);j++)\r\n\t{\r\n\tr=(TXBUFF[j]^Table87[r]);\r\n\t}\r\nif(r==0)r=0xFF;\r\nreturn r;\t\r\n} \r\n\r\n//-----------------------------------------------\r\nchar CRC2_out(void)\r\n{\r\nchar r,j,lb;\r\nlb=(TXBUFF[1]&0x1f)+0x04;\r\nr=TXBUFF[0];\r\nfor(j=1;j<(lb+1);j++)\r\n\t{\r\n\tr=(TXBUFF[j]^Table95[r]);\r\n\t}\r\nif(r==0)r=0xFF;\r\nreturn r;\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid can1_out_adr(char* ptr,char num)\r\n{\r\n\r\nif(num<=8)\r\n\t{\r\n\tcan1_info[ptr_can1_tx_wr]=(((long)num)<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[0];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[1];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[2];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[3];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[4];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[5];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[6];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[7];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\t}\r\n\t\r\nelse if(num<=16)\r\n\t{\r\n\tcan1_info[ptr_can1_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[0];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[1];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[2];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[3];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[4];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[5];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[6];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[7];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\t\r\n\tcan1_info[ptr_can1_tx_wr]=(((long)(num-8))<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[8];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[9];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[10];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[11];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[12];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[13];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[14];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[15];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\t\r\n\t}\t\r\n\r\nelse if(num<=24)\r\n\t{\r\n\tcan1_info[ptr_can1_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[0];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[1];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[2];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[3];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[4];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[5];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[6];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[7];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\r\n\tcan1_info[ptr_can1_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[8];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[9];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[10];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[11];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[12];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[13];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[14];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[15];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\t\r\n\tcan1_info[ptr_can1_tx_wr]=(((long)(num-16))<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[16];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[17];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[18];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[19];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[20];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[21];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[22];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[23];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\t\r\n\t}\t\r\n\r\nelse if(num<=32)\r\n\t{\r\n\tcan1_info[ptr_can1_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[0];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[1];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[2];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[3];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[4];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[5];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[6];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[7];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\r\n\tcan1_info[ptr_can1_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[8];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[9];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[10];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[11];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[12];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[13];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[14];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[15];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\t\r\n\tcan1_info[ptr_can1_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[16];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[17];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[18];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[19];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[20];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[21];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[22];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[23];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\t\r\n\tcan1_info[ptr_can1_tx_wr]=(((long)(num-24))<<16)&0x000f0000UL;\r\n\tcan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n\t((char)&can1_data[ptr_can1_tx_wr])=ptr[24];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+1)=ptr[25];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+2)=ptr[26];\r\n\t(((char)&can1_data[ptr_can1_tx_wr])+3)=ptr[27];\r\n\t((char)&can1_datb[ptr_can1_tx_wr])=ptr[28];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+1)=ptr[29];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+2)=ptr[30];\r\n\t(((char)&can1_datb[ptr_can1_tx_wr])+3)=ptr[31];\t\r\n\tptr_can1_tx_wr++;\r\n\tif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\t\r\n\t}\t\r\n\r\n\r\nif(bOUT_FREE)\r\n\t{\r\n\tLPC_CAN1->TFI1=can1_info[ptr_can1_tx_rd];\r\n LPC_CAN1->TID1=can1_id[ptr_can1_tx_rd];\r\n LPC_CAN1->TDA1=can1_data[ptr_can1_tx_rd];\r\n LPC_CAN1->TDB1=can1_datb[ptr_can1_tx_rd];\r\n LPC_CAN1->CMR=0x00000021;\r\n ptr_can1_tx_rd++;\r\n if(ptr_can1_tx_rd>=8)ptr_can1_tx_rd=0;\r\n bOUT_FREE=0;\t\r\n\t}\r\n\r\n}\t\r\n\r\n//-----------------------------------------------\r\nvoid can2_out_adr(char* ptr,char num)\r\n{\r\n\r\nif(num<=8)\r\n\t{\r\n\tcan2_info[ptr_can2_tx_wr]=(((long)num)<<16)&0x000f0000UL;\r\n\tcan2_id[ptr_can2_tx_wr]=0x0000009eUL;\r\n\t((char)&can2_data[ptr_can2_tx_wr])=ptr[0];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+1)=ptr[1];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+2)=ptr[2];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+3)=ptr[3];\r\n\t((char)&can2_datb[ptr_can2_tx_wr])=ptr[4];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+1)=ptr[5];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+2)=ptr[6];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+3)=ptr[7];\t\r\n\tptr_can2_tx_wr++;\r\n\tif(ptr_can2_tx_wr>=8)ptr_can2_tx_wr=0;\r\n\t}\r\n\t\r\nelse if(num<=16)\r\n\t{\r\n\t\r\n\tcan2_info[ptr_can2_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan2_id[ptr_can2_tx_wr]=0x0000009eUL;\r\n\t((char)&can2_data[ptr_can2_tx_wr])=ptr[0];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+1)=ptr[1];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+2)=ptr[2];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+3)=ptr[3];\r\n\t((char)&can2_datb[ptr_can2_tx_wr])=ptr[4];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+1)=ptr[5];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+2)=ptr[6];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+3)=ptr[7];\t\r\n\tptr_can2_tx_wr++;\r\n\tif(ptr_can2_tx_wr>=8)ptr_can2_tx_wr=0;\r\n\t\r\n\tcan2_info[ptr_can2_tx_wr]=(((long)(num-8))<<16)&0x000f0000UL;\r\n\tcan2_id[ptr_can2_tx_wr]=0x0000009eUL;\r\n\t((char)&can2_data[ptr_can2_tx_wr])=ptr[8];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+1)=ptr[9];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+2)=ptr[10];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+3)=ptr[11];\r\n\t((char)&can2_datb[ptr_can2_tx_wr])=ptr[12];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+1)=ptr[13];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+2)=ptr[14];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+3)=ptr[15];\t\r\n\tptr_can2_tx_wr++;\r\n\tif(ptr_can2_tx_wr>=8)ptr_can2_tx_wr=0;\r\n\t\t\r\n\t}\t\r\n\r\nelse if(num<=24)\r\n\t{\r\n\tcan2_info[ptr_can2_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan2_id[ptr_can2_tx_wr]=0x0000009eUL;\r\n\t((char)&can2_data[ptr_can2_tx_wr])=ptr[0];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+1)=ptr[1];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+2)=ptr[2];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+3)=ptr[3];\r\n\t((char)&can2_datb[ptr_can2_tx_wr])=ptr[4];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+1)=ptr[5];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+2)=ptr[6];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+3)=ptr[7];\t\r\n\tptr_can2_tx_wr++;\r\n\tif(ptr_can2_tx_wr>=8)ptr_can2_tx_wr=0;\r\n\r\n\tcan2_info[ptr_can2_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan2_id[ptr_can2_tx_wr]=0x0000009eUL;\r\n\t((char)&can2_data[ptr_can2_tx_wr])=ptr[8];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+1)=ptr[9];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+2)=ptr[10];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+3)=ptr[11];\r\n\t((char)&can2_datb[ptr_can2_tx_wr])=ptr[12];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+1)=ptr[13];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+2)=ptr[14];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+3)=ptr[15];\t\r\n\tptr_can2_tx_wr++;\r\n\tif(ptr_can2_tx_wr>=8)ptr_can2_tx_wr=0;\r\n\t\r\n\tcan2_info[ptr_can2_tx_wr]=(((long)(num-16))<<16)&0x000f0000UL;\r\n\tcan2_id[ptr_can2_tx_wr]=0x0000009eUL;\r\n\t((char)&can2_data[ptr_can2_tx_wr])=ptr[16];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+1)=ptr[17];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+2)=ptr[18];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+3)=ptr[19];\r\n\t((char)&can2_datb[ptr_can2_tx_wr])=ptr[20];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+1)=ptr[21];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+2)=ptr[22];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+3)=ptr[23];\t\r\n\tptr_can2_tx_wr++;\r\n\tif(ptr_can2_tx_wr>=8)ptr_can2_tx_wr=0;\t\r\n\t}\t\r\n\r\nelse if(num<=32)\r\n\t{\r\n\tcan2_info[ptr_can2_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan2_id[ptr_can2_tx_wr]=0x0000009eUL;\r\n\t((char)&can2_data[ptr_can2_tx_wr])=ptr[0];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+1)=ptr[1];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+2)=ptr[2];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+3)=ptr[3];\r\n\t((char)&can2_datb[ptr_can2_tx_wr])=ptr[4];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+1)=ptr[5];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+2)=ptr[6];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+3)=ptr[7];\t\r\n\tptr_can2_tx_wr++;\r\n\tif(ptr_can2_tx_wr>=8)ptr_can2_tx_wr=0;\r\n\r\n\tcan2_info[ptr_can2_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan2_id[ptr_can2_tx_wr]=0x0000009eUL;\r\n\t((char)&can2_data[ptr_can2_tx_wr])=ptr[8];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+1)=ptr[9];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+2)=ptr[10];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+3)=ptr[11];\r\n\t((char)&can2_datb[ptr_can2_tx_wr])=ptr[12];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+1)=ptr[13];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+2)=ptr[14];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+3)=ptr[15];\t\r\n\tptr_can2_tx_wr++;\r\n\tif(ptr_can2_tx_wr>=8)ptr_can2_tx_wr=0;\r\n\t\r\n\tcan2_info[ptr_can2_tx_wr]=(8UL<<16)&0x000f0000UL;\r\n\tcan2_id[ptr_can2_tx_wr]=0x0000009eUL;\r\n\t((char)&can2_data[ptr_can2_tx_wr])=ptr[16];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+1)=ptr[17];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+2)=ptr[18];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+3)=ptr[19];\r\n\t((char)&can2_datb[ptr_can2_tx_wr])=ptr[20];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+1)=ptr[21];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+2)=ptr[22];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+3)=ptr[23];\t\r\n\tptr_can2_tx_wr++;\r\n\tif(ptr_can2_tx_wr>=8)ptr_can2_tx_wr=0;\r\n\t\r\n\tcan2_info[ptr_can2_tx_wr]=(((long)(num-24))<<16)&0x000f0000UL;\r\n\tcan2_id[ptr_can2_tx_wr]=0x0000009eUL;\r\n\t((char)&can2_data[ptr_can2_tx_wr])=ptr[24];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+1)=ptr[25];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+2)=ptr[26];\r\n\t(((char)&can2_data[ptr_can2_tx_wr])+3)=ptr[27];\r\n\t((char)&can2_datb[ptr_can2_tx_wr])=ptr[28];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+1)=ptr[29];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+2)=ptr[30];\r\n\t(((char)&can2_datb[ptr_can2_tx_wr])+3)=ptr[31];\t\r\n\tptr_can2_tx_wr++;\r\n\tif(ptr_can2_tx_wr>=8)ptr_can2_tx_wr=0;\t\r\n\t}\t\r\n\r\n\r\nif(bOUT_FREE2)\r\n\t{\r\n\tLPC_CAN2->TFI1=can2_info[ptr_can2_tx_rd];\r\n LPC_CAN2->TID1=can2_id[ptr_can2_tx_rd];\r\n LPC_CAN2->TDA1=can2_data[ptr_can2_tx_rd];\r\n LPC_CAN2->TDB1=can2_datb[ptr_can2_tx_rd];\r\n LPC_CAN2->CMR=0x00000021;\r\n ptr_can2_tx_rd++;\r\n if(ptr_can2_tx_rd>=8)ptr_can2_tx_rd=0;\r\n bOUT_FREE2=0;\t\r\n\t}\r\n\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid paking(char* data_ptr,char data_len)\r\n{\r\nchar i,ii,iii;\r\nfor(i=0;i<data_len;i++)\r\n\t{\r\n\tii=data_len+(i/7);\r\n\tiii=i-(7(i/7)); \r\n\tif(iii==0) data_ptr[ii]=0;\r\n\tdata_ptr[ii]<<=1;\r\n\tif(data_ptr[i]&0x01)\r\n\t\t{\r\n\t\tdata_ptr[ii]\|=0x01;//(1<<(6-iii));\r\n\t\t} \r\n\telse \r\n\t\t{\r\n\t\tdata_ptr[ii]&=0xfe;//~(1<<(6-iii));\r\n\t\t} \r\n\tdata_ptr[i]>>=1;\t \r\n\tdata_ptr[i]\|=0x80;\t\r\n\t} \r\nfor(i=data_len;i<(data_len+(data_len/7)+1);i++)\r\n\t{\r\n\tdata_ptr[i]\|=0x80;\r\n\t}\t\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid can1_out(char dat0,char dat1,char dat2,char dat3,char dat4,char dat5,char dat6,char dat7)\r\n{\r\n//new_rotor[0]++;\r\ncan1_info[ptr_can1_tx_wr]=((8UL)<<16)&0x000f0000UL;\r\ncan1_id[ptr_can1_tx_wr]=0x0000009eUL;\r\n((char)&can1_data[ptr_can1_tx_wr])=dat0;\r\n(((char)&can1_data[ptr_can1_tx_wr])+1)=dat1;\r\n(((char)&can1_data[ptr_can1_tx_wr])+2)=dat2;\r\n(((char)&can1_data[ptr_can1_tx_wr])+3)=dat3;\r\n((char)&can1_datb[ptr_can1_tx_wr])=dat4;\r\n(((char)&can1_datb[ptr_can1_tx_wr])+1)=dat5;\r\n(((char)&can1_datb[ptr_can1_tx_wr])+2)=dat6;\r\n(((char)&can1_datb[ptr_can1_tx_wr])+3)=dat7;\t\r\nptr_can1_tx_wr++;\r\nif(ptr_can1_tx_wr>=8)ptr_can1_tx_wr=0;\r\n\r\n\r\nif(bOUT_FREE)\r\n\t{\r\n\t//rotor_rotor_rotor[1]++;\r\n//\tnew_rotor[1]++;\r\n\tLPC_CAN1->TFI1=can1_info[ptr_can1_tx_rd];\r\n LPC_CAN1->TID1=can1_id[ptr_can1_tx_rd];\r\n LPC_CAN1->TDA1=can1_data[ptr_can1_tx_rd];\r\n LPC_CAN1->TDB1=can1_datb[ptr_can1_tx_rd];\r\n LPC_CAN1->CMR=0x00000021;\r\n ptr_can1_tx_rd++;\r\n if(ptr_can1_tx_rd>=8)ptr_can1_tx_rd=0;\r\n bOUT_FREE=0;\t\r\n\t}\r\n}\t\r\n\r\n//-----------------------------------------------\r\nvoid can2_out(char dat0,char dat1,char dat2,char dat3,char dat4,char dat5,char dat6,char dat7)\r\n{\r\n\r\n//new_rotor[0]++;\r\ncan2_info[ptr_can2_tx_wr]=((8UL)<<16)&0x000f0000UL;\r\ncan2_id[ptr_can2_tx_wr]=0x0000018eUL;\r\n((char)&can2_data[ptr_can2_tx_wr])=dat0;\r\n(((char)&can2_data[ptr_can2_tx_wr])+1)=dat1;\r\n(((char)&can2_data[ptr_can2_tx_wr])+2)=dat2;\r\n(((char)&can2_data[ptr_can2_tx_wr])+3)=dat3;\r\n((char)&can2_datb[ptr_can2_tx_wr])=dat4;\r\n(((char)&can2_datb[ptr_can2_tx_wr])+1)=dat5;\r\n(((char)&can2_datb[ptr_can2_tx_wr])+2)=dat6;\r\n(((char)&can2_datb[ptr_can2_tx_wr])+3)=dat7;\t\r\nptr_can2_tx_wr++;\r\nif(ptr_can2_tx_wr>=8)ptr_can2_tx_wr=0;\r\n\r\n\r\nif(bOUT_FREE2)\r\n\t{\r\n\t//rotor_rotor_rotor[1]++;\r\n//\tnew_rotor[1]++;\r\n\tLPC_CAN2->TFI1=can2_info[ptr_can2_tx_rd];\r\n LPC_CAN2->TID1=can2_id[ptr_can2_tx_rd];\r\n LPC_CAN2->TDA1=can2_data[ptr_can2_tx_rd];\r\n LPC_CAN2->TDB1=can2_datb[ptr_can2_tx_rd];\r\n LPC_CAN2->CMR=0x00000021;\r\n ptr_can2_tx_rd++;\r\n if(ptr_can2_tx_rd>=8)ptr_can2_tx_rd=0;\r\n bOUT_FREE2=0;\t\r\n\t}\r\n}\t\r\n\t\r\n\r\n//-----------------------------------------------\r\nvoid can_adr_hndl(void)\r\n{\r\n\tTXBUFF[2]=RXBUFF[3];\r\n\tTXBUFF[3]=RXBUFF[2];\r\n\tTXBUFF[4]=((RXBUFF[4]&0xF0)>>4)\|((RXBUFF[4]&0x0f)<<4);\r\n\tTXBUFF[5]=((RXBUFF[5]&0xF0)>>4)\|((RXBUFF[5]&0x0f)<<4);\t\r\n}\t\r\n\r\n//-----------------------------------------------\r\nvoid can_in_an2(void)\r\n{\r\nif(!bIN) goto CAN_IN_AN_end; \r\ncan_debug_plazma[0][1]++;\r\n \r\n\r\n// Версия ПО\r\nif((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xc0)==0x40)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x01))\r\n\t{ \r\n \r\n\r\n \tTXBUFF[0]=0x30;\r\n\tTXBUFF[1]=(RXBUFF[1]&0xa0)+4;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0x01;\r\n\tTXBUFF[7]=3;\r\n\tTXBUFF[8]=5;\r\n\tTXBUFF[9]=CRC1_out();\r\n\tTXBUFF[10]=CRC2_out();\r\n\tTX_len=11;\r\n\r\n\tcan2_out_adr(TXBUFF,11); \r\n\t}\r\n// Общее состояние источника \r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xc0)==0x40)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0xB0))\r\n\t{ \r\n\tcan_debug_plazma[0][2]++;\r\n \tTXBUFF[0]=0x30;\r\n\tTXBUFF[1]=(RXBUFF[1]&0xa0)+13;\r\n\tcan_adr_hndl(); \r\n\t\r\n\tTXBUFF[6]=0xB0;\r\n\t\r\n\t//net_U=231;\r\n\t//net_F=501;\r\n\r\n\tif(net_U>=254)TXBUFF[7]=0xff;\r\n\telse TXBUFF[7]=net_U;\r\n\t\r\n\tif(net_F<400) TXBUFF[8]=1;\r\n\telse if(net_F>654) TXBUFF[8]=0xff;\r\n\telse TXBUFF[8]=(unsigned char)((net_F-400)+1);\r\n\t\r\n\tTXBUFF[9]=((char)(&load_U));\r\n\tTXBUFF[10]=(((char)(&load_U))+1);\r\n\tTXBUFF[11]=((char)(&load_I));\r\n\tTXBUFF[12]=(((char)(&load_I))+1);\r\n\t\r\n\tTXBUFF[13]=0xcc;\r\n\tTXBUFF[13]\|=4;(NUMIST&0x07);\r\n\tTXBUFF[13]\|=((NUMBAT&0x03)<<4);\r\n\t\r\n\r\n\tTXBUFF[14]=0x80;\r\n\tif(avar_stat&0x00000001)TXBUFF[14]\|=0x01;\r\n\tif(PAR)TXBUFF[14]\|=0x40;\r\n\t\r\n\tTXBUFF[15]=25;//tbat[2];\r\n \r\n\tpaking(&TXBUFF[6],10);\r\n\t\r\n\tTXBUFF[18]=CRC1_out();\r\n\tTXBUFF[19]=CRC2_out();\r\n\tTX_len=20;\r\n\t\t\t\t\r\n\tcan2_out_adr(TXBUFF,20); \r\n\t} \r\n\r\n// Состояние Батареи №1 \r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xc0)==0x40)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0xB1)&&(RXBUFF[7]==0x01))\r\n\t{ \r\n\tsigned short temp_S;\r\n\r\n \tTXBUFF[0]=0x30;\r\n\tTXBUFF[1]=(RXBUFF[1]&0xa0)+14;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0xB1;\r\n\tTXBUFF[7]=1;\r\n\t\r\n\tif(BAT_IS_ON[0]!=bisON) TXBUFF[8]=0xFF;\r\n\telse if(bat[0]._av)TXBUFF[8]=0xF7;\r\n\telse TXBUFF[8]=0xF0;\r\n\t\r\n\tif((spc_stat==spcKE))TXBUFF[9]=0xF9;\r\n\telse if(spc_stat==spcVZ)TXBUFF[9]=0xF8; \r\n\telse TXBUFF[9]=0xF0;\r\n\t\r\n\t\r\n\ttemp_S=(bat[0]._Ib/10)+10000;\r\n\t\t\t\r\n\tTXBUFF[10]=((char)(&bat[0]._Ub));\r\n\tTXBUFF[11]=(((char)(&bat[0]._Ub))+1);\r\n\tTXBUFF[12]=((char)(&temp_S));\r\n\tTXBUFF[13]=(((char)(&temp_S))+1);\r\n\tTXBUFF[14]=bat[0]._Tb;\r\n\tTXBUFF[15]=bat[0]._zar; \r\n\t\r\n\tif(BAT_C_REAL[0]==0x5555)TXBUFF[16]=BAT_C_NOM[0];\r\n\telse TXBUFF[16]=BAT_C_REAL[0]/10;\t\r\n\t\r\n \tpaking(&TXBUFF[6],11);\r\n \r\n\tTXBUFF[19]=CRC1_out();\r\n\tTXBUFF[20]=CRC2_out();\r\n\tTX_len=21; \r\n \r\n\tcan2_out_adr(TXBUFF,21); \r\n\t}\t\r\n\r\n// Состояние Батареи №2 \r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xc0)==0x40)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0xB1)&&(RXBUFF[7]==0x02))\r\n\t{ \r\n\tsigned short temp_S;\r\n\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=(RXBUFF[1]&0xa0)+14;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0xB1;\r\n\tTXBUFF[7]=2;\r\n\t\r\n\tif(BAT_IS_ON[1]!=bisON) TXBUFF[8]=0xFF;\r\n\telse if(bat[1]._av)TXBUFF[8]=0xF7;\r\n\telse TXBUFF[8]=0xF0;\r\n\r\n\tif((spc_stat==spcKE))TXBUFF[9]=0xF9;\r\n\telse if(spc_stat==spcVZ)TXBUFF[9]=0xF8; \r\n\telse TXBUFF[9]=0xF0;\r\n\t\r\n\t\r\n\ttemp_S=(bat[1]._Ib/10)+10000;\r\n\t\t\t\r\n\tTXBUFF[10]=((char)(&bat[1]._Ub));\r\n\tTXBUFF[11]=(((char)(&bat[1]._Ub))+1);\r\n\tTXBUFF[12]=((char)(&temp_S));\r\n\tTXBUFF[13]=(((char)(&temp_S))+1);\r\n\tTXBUFF[14]=bat[1]._Tb;\r\n\tTXBUFF[15]=bat[1]._zar; \r\n\t\r\n\tif(BAT_C_REAL[1]==0x5555)TXBUFF[16]=BAT_C_NOM[1];\r\n\telse TXBUFF[16]=BAT_C_REAL[1]/10;\t\r\n\t\r\n \tpaking(&TXBUFF[6],11);\r\n \r\n\tTXBUFF[19]=CRC1_out();\r\n\tTXBUFF[20]=CRC2_out();\r\n\tTX_len=21; \r\n \r\n\tcan2_out_adr(TXBUFF,21); \r\n\t}\t\t\r\n\t\t\r\n\r\n\r\n\r\n\t// Состояние БПС1 \r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xc0)==0x40)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0xB2)&&(RXBUFF[7]==0x01))\r\n\t{ \r\n //\tplazma++;\r\n\r\n \tTXBUFF[0]=0x30;\r\n\tTXBUFF[1]=(RXBUFF[1]&0xa0)+11;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0xB2;\r\n\tTXBUFF[7]=1;\r\n\t\t\r\n\t\r\n\tif(NUMIST<1)TXBUFF[8]=0xff;\t\r\n\telse if(bps[0]._state==bsWRK)TXBUFF[8]=0xf1; \r\n\telse if(bps[0]._av&(1<<3))TXBUFF[8]=0xf4;\r\n\telse if(bps[0]._av&(1<<0))TXBUFF[8]=0xf5;\r\n\telse if(bps[0]._av&(1<<1))TXBUFF[8]=0xf5;\r\n\telse if(bps[0]._av&(1<<2))TXBUFF[8]=0xf7;\r\n\telse TXBUFF[8]=0xf0;\r\n\r\n\tTXBUFF[9]=((char)(&bps[0]._Uii));\r\n\tTXBUFF[10]=(((char)(&bps[0]._Uii))+1);\r\n\tTXBUFF[11]=((char)(&bps[0]._Ii));\r\n\tTXBUFF[12]=(((char)(&bps[0]._Ii))+1);\r\n\tTXBUFF[13]=bps[0]._Ti;\r\n\t\r\n \tpaking(&TXBUFF[6],8);\r\n \r\n \tTXBUFF[16]=CRC1_out();\r\n\tTXBUFF[17]=CRC2_out();\r\n\tTX_len=18;\r\n\r\n\tcan2_out_adr(TXBUFF,18); \r\n\t}\t\r\n\t// Состояние БПС2 \r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xc0)==0x40)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0xB2)&&(RXBUFF[7]==0x02))\r\n\t{ \r\n //\tplazma++;\r\n\r\n \tTXBUFF[0]=0x30;\r\n\tTXBUFF[1]=(RXBUFF[1]&0xa0)+11;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0xB2;\r\n\tTXBUFF[7]=2;\r\n\t\t\r\n\t\r\n\tif(NUMIST<3)TXBUFF[8]=0xff;\t\r\n\telse if(bps[1]._state==bsWRK)TXBUFF[8]=0xf1; \r\n\telse if(bps[1]._av&(1<<3))TXBUFF[8]=0xf4;\r\n\telse if(bps[1]._av&(1<<0))TXBUFF[8]=0xf5;\r\n\telse if(bps[1]._av&(1<<1))TXBUFF[8]=0xf5;\r\n\telse if(bps[1]._av&(1<<2))TXBUFF[8]=0xf7;\r\n\telse TXBUFF[8]=0xf0;\r\n\r\n\tTXBUFF[9]=((char)(&bps[1]._Uii));\r\n\tTXBUFF[10]=(((char)(&bps[1]._Uii))+1);\r\n\tTXBUFF[11]=((char)(&bps[1]._Ii));\r\n\tTXBUFF[12]=(((char)(&bps[1]._Ii))+1);\r\n\tTXBUFF[13]=bps[1]._Ti;\r\n\t\r\n \tpaking(&TXBUFF[6],8);\r\n \r\n \tTXBUFF[16]=CRC1_out();\r\n\tTXBUFF[17]=CRC2_out();\r\n\tTX_len=18;\r\n\r\n\tcan2_out_adr(TXBUFF,18); \r\n\t}\t\r\n\r\n\r\n\t// Состояние БПС3 \r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xc0)==0x40)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0xB2)&&(RXBUFF[7]==0x03))\r\n\t{ \r\n //\tplazma++;\r\n\r\n \tTXBUFF[0]=0x30;\r\n\tTXBUFF[1]=(RXBUFF[1]&0xa0)+11;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0xB2;\r\n\tTXBUFF[7]=3;\r\n\t\t\r\n\t\r\n\tif(NUMIST<3)TXBUFF[8]=0xff;\t\r\n\telse if(bps[2]._state==bsWRK)TXBUFF[8]=0xf1; \r\n\telse if(bps[2]._av&(1<<3))TXBUFF[8]=0xf4;\r\n\telse if(bps[2]._av&(1<<0))TXBUFF[8]=0xf5;\r\n\telse if(bps[2]._av&(1<<1))TXBUFF[8]=0xf5;\r\n\telse if(bps[2]._av&(1<<2))TXBUFF[8]=0xf7;\r\n\telse TXBUFF[8]=0xf0;\r\n\r\n\tTXBUFF[9]=((char)(&bps[2]._Uii));\r\n\tTXBUFF[10]=(((char)(&bps[2]._Uii))+1);\r\n\tTXBUFF[11]=((char)(&bps[2]._Ii));\r\n\tTXBUFF[12]=(((char)(&bps[2]._Ii))+1);\r\n\tTXBUFF[13]=bps[2]._Ti;\r\n\t\r\n \tpaking(&TXBUFF[6],8);\r\n \r\n \tTXBUFF[16]=CRC1_out();\r\n\tTXBUFF[17]=CRC2_out();\r\n\tTX_len=18;\r\n\r\n\tcan2_out_adr(TXBUFF,18); \r\n\t}\t\r\n\r\n\t// Состояние БПС4 \r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xc0)==0x40)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0xB2)&&(RXBUFF[7]==0x04))\r\n\t{ \r\n //\tplazma++;\r\n\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=(RXBUFF[1]&0xa0)+11;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0xB2;\r\n\tTXBUFF[7]=4;\r\n\t\t\r\n\t\r\n\tif(NUMIST<4)TXBUFF[8]=0xff;\t\r\n\telse if(bps[3]._state==bsWRK)TXBUFF[8]=0xf1; \r\n\telse if(bps[3]._av&(1<<3))TXBUFF[8]=0xf4;\r\n\telse if(bps[3]._av&(1<<0))TXBUFF[8]=0xf5;\r\n\telse if(bps[3]._av&(1<<1))TXBUFF[8]=0xf5;\r\n\telse if(bps[3]._av&(1<<2))TXBUFF[8]=0xf7;\r\n\telse TXBUFF[8]=0xf0;\r\n\r\n\tTXBUFF[9]=((char)(&bps[3]._Uii));\r\n\tTXBUFF[10]=(((char)(&bps[3]._Uii))+1);\r\n\tTXBUFF[11]=((char)(&bps[3]._Ii));\r\n\tTXBUFF[12]=(((char)(&bps[3]._Ii))+1);\r\n\tTXBUFF[13]=bps[3]._Ti;\r\n\t\r\n \tpaking(&TXBUFF[6],8);\r\n \r\n \tTXBUFF[16]=CRC1_out();\r\n\tTXBUFF[17]=CRC2_out();\r\n\tTX_len=18;\r\n\r\n\tcan2_out_adr(TXBUFF,18); \r\n\t}\r\n\r\n// Выравнивающий заряд часа\r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xe0)==0x60)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x03)\r\n\t&&((RXBUFF[7])&&(RXBUFF[7]<25)))\r\n \t \r\n\t{ \r\n char temp; \t\t\r\n\r\n\ttemp=vz_start(RXBUFF[7]);\r\n\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=0x20+3;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0x03;\r\n\tTXBUFF[7]=0x01;\r\n\tTXBUFF[8]=CRC1_out();\r\n\tTXBUFF[9]=CRC2_out();\r\n\tTX_len=10;\r\n\tcan2_out_adr(TXBUFF,10);\r\n\t}\r\n\r\n// Выключение выравнивающего заряда\r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xe0)==0x60)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x08))\r\n \t \r\n\t{ \r\n\tif(spc_stat==spcVZ) spc_stat=spcOFF;\r\n\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=0x20+2;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0x08;\r\n\tTXBUFF[7]=CRC1_out();\r\n\tTXBUFF[8]=CRC2_out();\r\n\tTX_len=9;\r\n\tcan2_out_adr(TXBUFF,9);\r\n\t}\r\n\r\n\r\n// Контроль ёмкости батареи №1\r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xe0)==0x60)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x04)\r\n\t&&(RXBUFF[7]==0x01))\r\n\t \r\n\t{\r\n\tke_start(0);\r\n\r\n\tif(ke_start_stat==kssYES)TXBUFF[7]=0xff;\r\n\telse TXBUFF[7]=0x01;\r\n\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=0x20+3;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0x04;\r\n\tTXBUFF[7]=0x01;\r\n\tTXBUFF[8]=CRC1_out();\r\n\tTXBUFF[9]=CRC2_out();\r\n\tTX_len=10;\r\n\tcan2_out_adr(TXBUFF,10);\r\n\t} \r\n\t\r\n// Контроль ёмкости батареи №2\r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xe0)==0x60)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x04)\r\n\t&&(RXBUFF[7]==0x02))\r\n\t \r\n\t{\r\n\tke_start(1);\r\n\r\n\tif(ke_start_stat==kssYES)TXBUFF[7]=0xff;\r\n\telse TXBUFF[7]=0x01;\r\n\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=0x20+3;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0x04;\r\n\tTXBUFF[7]=0x02;\r\n\tTXBUFF[8]=CRC1_out();\r\n\tTXBUFF[9]=CRC2_out();\r\n\tTX_len=10;\r\n\tcan2_out_adr(TXBUFF,10);\r\n\t}\t\r\n\t\r\n\t// Выключение контроля ёмкости \r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xe0)==0x60)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x07))\r\n\t \r\n\t{\r\n \t\r\n\tif(spc_stat==spcKE)spc_stat=spcOFF;\r\n\t\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=0x20+2;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0x07;\r\n\tTXBUFF[7]=CRC1_out();\r\n\tTXBUFF[8]=CRC2_out();\r\n\tTX_len=9;\r\n\tcan2_out_adr(TXBUFF,9);\r\n\t}\r\n\r\n\r\n\r\n// БПС1 - выключить\r\nif((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xe0)==0x60)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x05)\r\n\t&&(RXBUFF[7]==0x01))\r\n\t \r\n\t{\r\n\tbps[0]._ist_blok_host_cnt=3000;\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=0x20+3;\r\n\tcan_adr_hndl();\r\n\tTXBUFF[6]=0x05;\r\n\tTXBUFF[7]=0x01;\r\n\tTXBUFF[8]=CRC1_out();\r\n\tTXBUFF[9]=CRC2_out();\r\n\tTX_len=10;\r\n\tcan2_out_adr(TXBUFF,10);\r\n\r\n\t}\r\n\r\n// БПС2 - выключить\r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xe0)==0x60)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x05)\r\n\t&&(RXBUFF[7]==0x02))\r\n\t \r\n\t{ \r\n\tbps[1]._ist_blok_host_cnt=3000;\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=0x20+3;\r\n \tcan_adr_hndl();\r\n\tTXBUFF[6]=0x05;\r\n\tTXBUFF[7]=0x02;\r\n\tTXBUFF[8]=CRC1_out();\r\n\tTXBUFF[9]=CRC2_out();\r\n\tTX_len=10; \r\n\r\n\tcan2_out_adr(TXBUFF,10);\r\n\r\n\t}\r\n\r\n// БПС3 - выключить\r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xe0)==0x60)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x05)\r\n\t&&(RXBUFF[7]==0x03))\r\n\t \r\n\t{ \r\n\tbps[2]._ist_blok_host_cnt=3000;\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=0x20+3;\r\n \tcan_adr_hndl();\r\n\tTXBUFF[6]=0x05;\r\n\tTXBUFF[7]=0x03;\r\n\tTXBUFF[8]=CRC1_out();\r\n\tTXBUFF[9]=CRC2_out();\r\n\tTX_len=10; \r\n\r\n\tcan2_out_adr(TXBUFF,10);\r\n\r\n\t}\r\n\r\n\r\n// БПС4 - выключить\r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xe0)==0x60)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x05)\r\n\t&&(RXBUFF[7]==0x04))\r\n\t \r\n\t{ \r\n\tbps[3]._ist_blok_host_cnt=3000;\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=0x20+3;\r\n \tcan_adr_hndl();\r\n\tTXBUFF[6]=0x05;\r\n\tTXBUFF[7]=0x03;\r\n\tTXBUFF[8]=CRC1_out();\r\n\tTXBUFF[9]=CRC2_out();\r\n\tTX_len=10; \r\n\r\n\tcan2_out_adr(TXBUFF,10);\r\n\r\n\t}\r\n\r\n\r\n//Разблокировать все источники\r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xe0)==0x60)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x06))\r\n\t \r\n\t{ \r\n\tbps[0]._ist_blok_host_cnt=0;\r\n\tbps[1]._ist_blok_host_cnt=0;\r\n\tbps[2]._ist_blok_host_cnt=0;\r\n\tbps[3]._ist_blok_host_cnt=0;\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=0x20+2;\r\n \tcan_adr_hndl();\r\n\tTXBUFF[6]=0x05;\r\n\r\n\tTXBUFF[7]=CRC1_out();\r\n\tTXBUFF[8]=CRC2_out();\r\n\tTX_len=9; \r\n\r\n\tcan2_out_adr(TXBUFF,9);\r\n\r\n\t}\r\n\r\n// Включить параллельную работу источников\r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xe0)==0x60)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x0a))\r\n\t \r\n\t{ \r\n\tPAR=1;\r\n\tlc640_write_int(EE_PAR,PAR);\r\n\t\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=0x20+2;\r\n \tcan_adr_hndl();\r\n\tTXBUFF[6]=0x0a;\r\n\tTXBUFF[7]=CRC1_out();\r\n\tTXBUFF[8]=CRC2_out();\r\n\r\n\tcan2_out_adr(TXBUFF,9); \r\n\r\n\t}\r\n\r\n// Выключить параллельную работу источников\r\nelse if((RXBUFF[0]==0x30)&&((RXBUFF[1]&0xe0)==0x60)&&\r\n\t((RXBUFF[4]&0xf0)==0xe0)&&((RXBUFF[5]&0xf0)==0x20)&&(RXBUFF[6]==0x0b))\r\n\t \r\n\t{ \r\n\tPAR=0;\r\n\tlc640_write_int(EE_PAR,PAR);\r\n\t\r\n TXBUFF[0]=0x30;\r\n\tTXBUFF[1]=0x20+2;\r\n \tcan_adr_hndl();\r\n\tTXBUFF[6]=0x0b;\r\n\tTXBUFF[7]=CRC1_out();\r\n\tTXBUFF[8]=CRC2_out();\r\n\tTX_len=9; \r\n\r\n\tcan2_out_adr(TXBUFF,9);\r\n\r\n\t}\r\n\r\nCAN_IN_AN_end:\r\nbIN=0;\r\n}\r\n//-----------------------------------------------\r\nvoid can_in_an1(void)\r\n{\r\n//char i;\r\n//signed short temp_SS;\r\nchar slave_num;\r\n\r\n//if(!bIN2) goto CAN_IN_AN1_end; \r\n\r\n//can_debug_plazma[1][2]++;\r\ncan_rotor[1]++;\r\n\r\n// oleg_start //rki_01_s\r\nif (RXBUFF[0]==0xE7) { \r\n\tno_rki=0;\r\n\tif(RXBUFF[1]==0) { type_rki=1;\r\n\t\tr_iz_plus=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tr_iz_minus=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tr_iz_porog_pred=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==1) {\r\n\t\tr_iz_porog_error=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tv_plus=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tv_minus=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t} \r\n\telse if(RXBUFF[1]==2) {\r\n\t\tasymmetry=RXBUFF[2];\r\n\t\tsk1_24=RXBUFF[3];\r\n\t\tsk1_24=sk1_24<<16;\r\n\t\tsk1_24=sk1_24+((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tcount_Iddt=RXBUFF[6];\r\n\t\tddt_error=RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==3) {\r\n\t\tIddt_porog_pred=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tIddt_porog_error=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tn_error_ddt_uku=RXBUFF[6];\r\n\t\tu_rki=RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==4) {\r\n\t\tRddt[0][0]=RXBUFF[2];\r\n\t\tRddt[0][1]=RXBUFF[3];\r\n\t\tRddt[0][2]=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tRddt[0][3]=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==5) {\r\n\t\tRddt[1][0]=RXBUFF[2];\r\n\t\tRddt[1][1]=RXBUFF[3];\r\n\t\tRddt[1][2]=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tRddt[1][3]=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==6) {\r\n\t\tRddt[2][0]=RXBUFF[2];\r\n\t\tRddt[2][1]=RXBUFF[3];\r\n\t\tRddt[2][2]=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tRddt[2][3]=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==7) {\r\n\t\tRddt[3][0]=RXBUFF[2];\r\n\t\tRddt[3][1]=RXBUFF[3];\r\n\t\tRddt[3][2]=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tRddt[3][3]=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==8) {\r\n\t\tRddt[4][0]=RXBUFF[2];\r\n\t\tRddt[4][1]=RXBUFF[3];\r\n\t\tRddt[4][2]=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tRddt[4][3]=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==9) {\r\n\t\tRddt[5][0]=RXBUFF[2];\r\n\t\tRddt[5][1]=RXBUFF[3];\r\n\t\tRddt[5][2]=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tRddt[5][3]=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==10) {\r\n\t\tRddt[6][0]=RXBUFF[2];\r\n\t\tRddt[6][1]=RXBUFF[3];\r\n\t\tRddt[6][2]=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tRddt[6][3]=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==11) {\r\n\t\tRddt[7][0]=RXBUFF[2];\r\n\t\tRddt[7][1]=RXBUFF[3];\r\n\t\tRddt[7][2]=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tRddt[7][3]=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==12) {\r\n\t\tstatus_izm_r=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tsk_alarm=((unsigned int)RXBUFF[4]<<16)+((unsigned int)RXBUFF[5]<<8) + RXBUFF[6];\r\n\t\tasymmetry_porog=RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==13) {\r\n\t\tporog_u_in=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tu_asymmetry_porog_up=RXBUFF[4];\r\n\t\tu_asymmetry_porog=RXBUFF[5];\r\n\t\tu_asymmetry_porog_down=RXBUFF[6];\r\n\t\tver_soft=RXBUFF[7];\r\n\t}\r\n\t\r\n\t//*************************\r\n\telse if(RXBUFF[1]==200) { type_rki=0;\r\n\t\tr_iz_plus=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tr_iz_minus=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tr_iz_porog_pred=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==201) {\r\n\t\tr_iz_porog_error=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tv_plus=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tv_minus=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==202) {\r\n\t\tasymmetry=RXBUFF[2];\r\n\t\tporog_u_in=((unsigned short)RXBUFF[3]<<8)+RXBUFF[4];\r\n\t\tasymmetry_porog=RXBUFF[5];\r\n\t\tstatus_izm_r=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==203) {\r\n\t\tu_asymmetry_porog_up=RXBUFF[2];\r\n\t\tu_asymmetry_porog=RXBUFF[3];\r\n\t\tu_asymmetry_porog_down=RXBUFF[4];\r\n\t\tver_soft=RXBUFF[5];\r\n\t\tu_rki=RXBUFF[6];\r\n\t}\r\n\t\r\n\t\r\n//status_izm_r=0x3f;\r\n//sk_alarm=0xFFffff;\r\n//status_di1=0xFFffff;\r\n//status_di2=0xFFffff;\t\r\n} //rki_01_e\r\nelse if (RXBUFF[0]==0xE6) {\t // прием от сетевых входов\r\n\tno_net_in=0;\r\n\tif(RXBUFF[1]==0) {\r\n\t\tnet_in_u1_a=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tnet_in_u1_b=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tnet_in_u1_c=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==1) {\r\n\t\tnet_in_i1_a=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tnet_in_i1_b=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tnet_in_i1_c=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t} \r\n\telse if(RXBUFF[1]==2) {\r\n\t\tnet_in_p1_a=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tnet_in_p1_b=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tnet_in_p1_c=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==3) {\r\n\t \tnet_in_s1_a=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tnet_in_s1_b=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tnet_in_s1_c=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==4) {\r\n\t\tnet_in_u2_a=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tnet_in_u2_b=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tnet_in_u2_c=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==5) {\r\n\t\tnet_in_i2_a=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tnet_in_i2_b=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tnet_in_i2_c=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t} \r\n\telse if(RXBUFF[1]==6) {\r\n\t\tnet_in_p2_a=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tnet_in_p2_b=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tnet_in_p2_c=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==7) {\r\n\t \tnet_in_s2_a=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tnet_in_s2_b=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tnet_in_s2_c=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==8) {\r\n\t\tnet_in_f1=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tnet_in_f2=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\tpriority_net_in=RXBUFF[6];\r\n\t\thysteresis_net_in=RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==9) {\r\n\t\tu_min_net_in=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tu_max_net_in=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\ti_min_net_in=((unsigned short)RXBUFF[6]<<8)+RXBUFF[7];\r\n\t}\r\n\telse if(RXBUFF[1]==10) {\r\n\t\tt_inclusion_net_in=((unsigned short)RXBUFF[2]<<8)+RXBUFF[3];\r\n\t\tt_shutdown_net_in=((unsigned short)RXBUFF[4]<<8)+RXBUFF[5];\r\n\t\t\r\n\t}\r\n\r\n\t\r\n}\r\n// oleg_end\r\n\r\nif((((RXBUFF[0]==sub_ind1)&&(ind==iK_bps))\|\|((RXBUFF[0]==uavt_bps_pntr)&&(uavt_set_stat==uassSTEP3)))&&(RXBUFF[1]==PUTID)&&(RXBUFF[2]==0xdd)&&(RXBUFF[3]==0xdd)/&&(sub_ind==6)/)\r\n\t{\r\n\tmess_send(MESS2IND_HNDL,PARAM_U_AVT_GOOD,0,10);\r\n\tcan_reset_cnt=0;\r\n\t}\r\n\r\n\r\nif((RXBUFF[1]==PUTTM1)&&((RXBUFF[0]&0x1f)>=0)&&((RXBUFF[0]&0x1f)<17))\r\n {\r\n\t//can_debug_plazma[1][2]++;\r\n slave_num=RXBUFF[0]&0x1f;\r\n \r\n if((RXBUFF[0]&0xe0)==0)bps[slave_num]._device=dSRC;\r\n else if((RXBUFF[0]&0xe0)==0x40)bps[slave_num]._device=dINV;\r\n \t\r\n\tbps[slave_num]._buff[0]=RXBUFF[2]; \r\n\tbps[slave_num]._buff[1]=RXBUFF[3];\r\n\tbps[slave_num]._buff[2]=RXBUFF[4];\r\n\tbps[slave_num]._buff[3]=RXBUFF[5];\r\n\tbps[slave_num]._buff[4]=RXBUFF[6];\r\n\tbps[slave_num]._buff[5]=RXBUFF[7];\r\n\r\n\r\n/\tcan_slot[slave_num,0]=RXBUFF[0];\r\n\tcan_slot[slave_num,1]=RXBUFF[1];\r\n\tcan_slot[slave_num,2]=RXBUFF[2];\r\n\tcan_slot[slave_num,3]=RXBUFF[3];\r\n\tcan_slot[slave_num,4]=RXBUFF[4];\r\n\tcan_slot[slave_num,5]=RXBUFF[5];\r\n\tcan_slot[slave_num,6]=RXBUFF[6];\r\n\tcan_slot[slave_num,7]=RXBUFF[7]; /\r\n\t\r\n\tbps[slave_num]._cnt=0;\r\n\tbps[slave_num]._is_on_cnt=10;\r\n\t\r\n \tif((bps[slave_num]._cnt==0)&&(bps[slave_num]._av&(1<<3))) avar_bps_hndl(slave_num,3,0);\r\n\r\n\tcan_reset_cnt=0;\r\n }\r\n\r\nif((RXBUFF[1]==PUTTM2)&&((RXBUFF[0]&0x1f)>=0)&&((RXBUFF[0]&0x1f)<12))\r\n \t{\r\n slave_num=RXBUFF[0]&0x1f; \r\n\r\n if((RXBUFF[0]&0xe0)==0)bps[slave_num]._device=dSRC;\r\n else if((RXBUFF[0]&0xe0)==0x40)bps[slave_num]._device=dINV;\r\n \r\n\tbps[slave_num]._buff[6]=RXBUFF[2]; \r\n\tbps[slave_num]._buff[7]=RXBUFF[3];\r\n\tbps[slave_num]._buff[8]=RXBUFF[4];\r\n\tbps[slave_num]._buff[9]=RXBUFF[5];\r\n\tbps[slave_num]._buff[10]=RXBUFF[6];\r\n\tbps[slave_num]._buff[11]=RXBUFF[7];\t\r\n\r\n\r\n/\tcan_slot[slave_num,8]=RXBUFF[0];\r\n\tcan_slot[slave_num,9]=RXBUFF[1];\r\n\tcan_slot[slave_num,10]=RXBUFF[2];\r\n\tcan_slot[slave_num,11]=RXBUFF[3];\r\n\tcan_slot[slave_num,12]=RXBUFF[4];\r\n\tcan_slot[slave_num,13]=RXBUFF[5];\r\n\tcan_slot[slave_num,14]=RXBUFF[6];\r\n\tcan_slot[slave_num,15]=RXBUFF[7]; /\r\n\t\r\n\tbps[slave_num]._cnt=0;\r\n\tbps[slave_num]._is_on_cnt=10; \r\n\r\n \t//if((src[slave_num]._cnt==0)&&(src[slave_num]._av_net)) avar_s_hndl(slave_num,3,0); \r\n\tcan_reset_cnt=0;\r\n \t}\r\n\r\nif((RXBUFF[1]==PUTTM1INV2)&&((RXBUFF[0]&0x1f)>=MINIM_INV_ADRESS)&&((RXBUFF[0]&0x1f)<MINIM_INV_ADRESS+NUMINV))\r\n {\r\n\t//can_debug_plazma[1][2]++;\r\n slave_num=RXBUFF[0]&0x1f;\r\n\r\n\tplazma_can_inv[0]++;\r\n \r\n if((RXBUFF[0]&0xe0)==0)bps[slave_num]._device=dSRC;\r\n else if((RXBUFF[0]&0xe0)==0x40)bps[slave_num]._device=dINV;\r\n \t\r\n\tbps[slave_num]._buff[0]=RXBUFF[2]; \r\n\tbps[slave_num]._buff[1]=RXBUFF[3];\r\n\tbps[slave_num]._buff[2]=RXBUFF[4];\r\n\tbps[slave_num]._buff[3]=RXBUFF[5];\r\n\tbps[slave_num]._buff[4]=RXBUFF[6];\r\n\tbps[slave_num]._buff[5]=RXBUFF[7];\r\n\r\n\r\n/\tcan_slot[slave_num,0]=RXBUFF[0];\r\n\tcan_slot[slave_num,1]=RXBUFF[1];\r\n\tcan_slot[slave_num,2]=RXBUFF[2];\r\n\tcan_slot[slave_num,3]=RXBUFF[3];\r\n\tcan_slot[slave_num,4]=RXBUFF[4];\r\n\tcan_slot[slave_num,5]=RXBUFF[5];\r\n\tcan_slot[slave_num,6]=RXBUFF[6];\r\n\tcan_slot[slave_num,7]=RXBUFF[7]; /\r\n\t\r\n\tbps[slave_num]._cnt=0;\r\n\tbps[slave_num]._is_on_cnt=10;\r\n\t\r\n \tif((bps[slave_num]._cnt==0)&&(bps[slave_num]._av&(1<<3))) avar_bps_hndl(slave_num,3,0);\r\n\r\n\tcan_reset_cnt=0;\r\n }\r\n\r\nif((RXBUFF[1]==PUTTM2INV2)&&((RXBUFF[0]&0x1f)>=MINIM_INV_ADRESS)&&((RXBUFF[0]&0x1f)<MINIM_INV_ADRESS+NUMINV))\r\n \t{\r\n slave_num=RXBUFF[0]&0x1f;\r\n\t\r\n\tplazma_can_inv[1]++; \r\n\r\n if((RXBUFF[0]&0xe0)==0)bps[slave_num]._device=dSRC;\r\n else if((RXBUFF[0]&0xe0)==0x40)bps[slave_num]._device=dINV;\r\n \r\n\tbps[slave_num]._buff[6]=RXBUFF[2]; \r\n\tbps[slave_num]._buff[7]=RXBUFF[3];\r\n\tbps[slave_num]._buff[8]=RXBUFF[4];\r\n\tbps[slave_num]._buff[9]=RXBUFF[5];\r\n\tbps[slave_num]._buff[10]=RXBUFF[6];\r\n\tbps[slave_num]._buff[11]=RXBUFF[7];\t\r\n\r\n\r\n/\tcan_slot[slave_num,8]=RXBUFF[0];\r\n\tcan_slot[slave_num,9]=RXBUFF[1];\r\n\tcan_slot[slave_num,10]=RXBUFF[2];\r\n\tcan_slot[slave_num,11]=RXBUFF[3];\r\n\tcan_slot[slave_num,12]=RXBUFF[4];\r\n\tcan_slot[slave_num,13]=RXBUFF[5];\r\n\tcan_slot[slave_num,14]=RXBUFF[6];\r\n\tcan_slot[slave_num,15]=RXBUFF[7]; /\r\n\t\r\n\tbps[slave_num]._cnt=0;\r\n\tbps[slave_num]._is_on_cnt=10; \r\n\r\n \t//if((src[slave_num]._cnt==0)&&(src[slave_num]._av_net)) avar_s_hndl(slave_num,3,0); \r\n\tcan_reset_cnt=0;\r\n \t}\r\n\r\nif((RXBUFF[1]==PUTTM3INV2)&&((RXBUFF[0]&0x1f)>=MINIM_INV_ADRESS)&&((RXBUFF[0]&0x1f)<MINIM_INV_ADRESS+NUMINV))\r\n \t{\r\n slave_num=RXBUFF[0]&0x1f; \r\n\r\n\tplazma_can_inv[2]++; \r\n\r\n if((RXBUFF[0]&0xe0)==0)bps[slave_num]._device=dSRC;\r\n else if((RXBUFF[0]&0xe0)==0x40)bps[slave_num]._device=dINV;\r\n \r\n\tbps[slave_num]._buff[12]=RXBUFF[2]; \r\n\tbps[slave_num]._buff[13]=RXBUFF[3];\r\n\tbps[slave_num]._buff[14]=RXBUFF[4];\r\n\tbps[slave_num]._buff[15]=RXBUFF[5];\r\n\tbps[slave_num]._buff[16]=RXBUFF[6];\r\n\tbps[slave_num]._buff[17]=RXBUFF[7];\t\r\n\r\n\r\n/\tcan_slot[slave_num,8]=RXBUFF[0];\r\n\tcan_slot[slave_num,9]=RXBUFF[1];\r\n\tcan_slot[slave_num,10]=RXBUFF[2];\r\n\tcan_slot[slave_num,11]=RXBUFF[3];\r\n\tcan_slot[slave_num,12]=RXBUFF[4];\r\n\tcan_slot[slave_num,13]=RXBUFF[5];\r\n\tcan_slot[slave_num,14]=RXBUFF[6];\r\n\tcan_slot[slave_num,15]=RXBUFF[7]; /\r\n\t\r\n\tbps[slave_num]._cnt=0;\r\n\tbps[slave_num]._is_on_cnt=10; \r\n\r\n \t//if((src[slave_num]._cnt==0)&&(src[slave_num]._av_net)) avar_s_hndl(slave_num,3,0); \r\n\tcan_reset_cnt=0;\r\n \t}\r\n\r\nif((RXBUFF[1]==PUTTM1BYPS))\r\n {\r\n\t//can_debug_plazma[1][2]++;\r\n byps._adress=RXBUFF[0]&0x1f;\r\n \r\n \t\r\n\tbyps._Iout=(signed short)RXBUFF[2]+(((signed short)RXBUFF[3])256);\r\n\tbyps._Pout=(signed short)RXBUFF[4]+(((signed short)RXBUFF[5])256);\r\n\tbyps._Uout=(signed short)RXBUFF[6]+(((signed short)RXBUFF[7])256);\r\n\t\r\n\tbyps._cnt=0;\r\n }\r\n\r\nif((RXBUFF[1]==PUTTM2BYPS))\r\n \t{\r\n\tbyps._T=(char)RXBUFF[2];\r\n\tbyps._flags=(char)RXBUFF[3];\r\n\tbyps._Unet=(signed short)RXBUFF[4]+(((signed short)RXBUFF[5])256);\r\n\tbyps._Uin=(signed short)RXBUFF[6]+(((signed short)RXBUFF[7])256);\r\n\r\n\tbyps._cnt=0;\r\n \t}\r\n\r\nif((RXBUFF[1]==PUTTM_IBATMETER)&&((RXBUFF[0]&0x1f)>=0)&&((RXBUFF[0]&0x1f)<12))\r\n \t{\r\n slave_num=RXBUFF[0]&0x1f; \r\n\r\n bps[slave_num]._device=dIBAT_METR;\r\n \r\n\tbps[slave_num]._buff[0]=RXBUFF[2]; \r\n\tbps[slave_num]._buff[1]=RXBUFF[3];\r\n\tbps[slave_num]._buff[2]=RXBUFF[4];\r\n\tbps[slave_num]._buff[3]=RXBUFF[5];\r\n\tbps[slave_num]._buff[4]=RXBUFF[6];\r\n\tbps[slave_num]._buff[5]=RXBUFF[7];\t\r\n\r\n\r\n/\tcan_slot[slave_num,8]=RXBUFF[0];\r\n\tcan_slot[slave_num,9]=RXBUFF[1];\r\n\tcan_slot[slave_num,10]=RXBUFF[2];\r\n\tcan_slot[slave_num,11]=RXBUFF[3];\r\n\tcan_slot[slave_num,12]=RXBUFF[4];\r\n\tcan_slot[slave_num,13]=RXBUFF[5];\r\n\tcan_slot[slave_num,14]=RXBUFF[6];\r\n\tcan_slot[slave_num,15]=RXBUFF[7]; /\r\n\t\r\n\tbps[slave_num]._cnt=0;\r\n\tbps[slave_num]._is_on_cnt=10; \r\n\r\n \t//if((src[slave_num]._cnt==0)&&(src[slave_num]._av_net)) avar_s_hndl(slave_num,3,0); \r\n\tcan_reset_cnt=0;\r\n \t}\r\n\r\nif((RXBUFF[1]==PUTTM_NET)&&((RXBUFF[0]&0x1f)>=0)&&((RXBUFF[0]&0x1f)<12))\r\n \t{\r\n slave_num=RXBUFF[0]&0x1f; \r\n\r\n bps[slave_num]._device=dNET_METR;\r\n \r\n\tbps[slave_num]._buff[0]=RXBUFF[2]; \r\n\tbps[slave_num]._buff[1]=RXBUFF[3];\r\n\tbps[slave_num]._buff[2]=RXBUFF[4];\r\n\tbps[slave_num]._buff[3]=RXBUFF[5];\r\n\tbps[slave_num]._buff[4]=RXBUFF[6];\r\n\tbps[slave_num]._buff[5]=RXBUFF[7];\t\r\n\r\n\r\n/\tcan_slot[slave_num,8]=RXBUFF[0];\r\n\tcan_slot[slave_num,9]=RXBUFF[1];\r\n\tcan_slot[slave_num,10]=RXBUFF[2];\r\n\tcan_slot[slave_num,11]=RXBUFF[3];\r\n\tcan_slot[slave_num,12]=RXBUFF[4];\r\n\tcan_slot[slave_num,13]=RXBUFF[5];\r\n\tcan_slot[slave_num,14]=RXBUFF[6];\r\n\tcan_slot[slave_num,15]=RXBUFF[7]; /\r\n\t\r\n\tbps[slave_num]._cnt=0;\r\n\tbps[slave_num]._is_on_cnt=10; \r\n\r\n \t//if((src[slave_num]._cnt==0)&&(src[slave_num]._av_net)) avar_s_hndl(slave_num,3,0); \r\n\tcan_reset_cnt=0;\r\n \t}\r\n\r\n\r\nif((RXBUFF[1]==PUTTM_NET1)&&((RXBUFF[0]&0x1f)>=0)&&((RXBUFF[0]&0x1f)<12))\r\n \t{\r\n slave_num=RXBUFF[0]&0x1f; \r\n\r\n bps[slave_num]._device=dNET_METR;\r\n \r\n\tbps[slave_num]._buff[6]=RXBUFF[2]; \r\n\tbps[slave_num]._buff[7]=RXBUFF[3];\r\n\t\r\n\t//net_F= RXBUFF[2]+ (RXBUFF[3]256);\r\n\r\n\tbps[slave_num]._cnt=0;\r\n\tbps[slave_num]._is_on_cnt=10; \r\n\r\n \t//if((src[slave_num]._cnt==0)&&(src[slave_num]._av_net)) avar_s_hndl(slave_num,3,0); \r\n\tcan_reset_cnt=0;\r\n \t}\r\n\r\nif( (RXBUFF[0]==MEM_KF)&&(RXBUFF[1]==1)&&(RXBUFF[2]==1))\r\n {\r\n power_summary_tempo=((signed short)&RXBUFF[3]);\r\n power_current_tempo=((signed short)&RXBUFF[5]);\r\n\t//ext_can_cnt++;\r\n\tcan_reset_cnt=0;\r\n }\r\n\r\n\r\nif( ((RXBUFF[0]&0x1f)==8)&&((RXBUFF[1])==PUTTM) )\r\n {\r\n adc_buff_ext_[0]=((short)&RXBUFF[2]);\r\n adc_buff_ext_[1]=((short)&RXBUFF[4]);\r\n adc_buff_ext_[2]=((short)&RXBUFF[6]);\r\n\tif((adc_buff_ext_[2]>=-50) && (adc_buff_ext_[2]<=100))\r\n\t\t{\r\n\t\tt_ext_can=adc_buff_ext_[2];\r\n\t\tt_ext_can_nd=0;\r\n\t\t}\r\n\t\tt_ext_can=adc_buff_ext_[2];\r\n\t//ext_can_cnt++;\r\n\tcan_reset_cnt=0;\r\n }\r\n\r\nif( ((RXBUFF[0]&0x1f)==9)&&((RXBUFF[1])==PUTTM) )\r\n {\r\n vvod_pos=RXBUFF[2];\r\n\text_can_cnt=RXBUFF[3];\r\n\tif(ext_can_cnt<10)bRESET_EXT=0;\r\n\tcan_reset_cnt=0;\r\n }\r\n\r\nif( ((RXBUFF[0]&0x1f)==10)&&((RXBUFF[1])==PUTTM) )\r\n {\r\n power_current=((signed short)&RXBUFF[2]);\r\n power_summary=((signed long)&RXBUFF[4]);\r\n\t//ext_can_cnt++;\r\n\tcan_reset_cnt=0;\r\n }\r\n\r\n\r\nif( ((RXBUFF[0]&0x1f)==20)&&((RXBUFF[1])==PUTTM) )\r\n {\r\n eb2_data[0]=RXBUFF[2];\r\n\teb2_data[1]=RXBUFF[3];\r\n eb2_data[2]=RXBUFF[4];\r\n\teb2_data[3]=RXBUFF[5];\r\n\teb2_data[4]=RXBUFF[6];\r\n\teb2_data[5]=RXBUFF[7];\r\n power_current=((signed short)&RXBUFF[2]);\r\n power_summary=((signed long)&RXBUFF[4]);\r\n\r\n\t can_reset_cnt=0;\r\n }\r\n\r\nif( ((RXBUFF[0]&0x1f)==21)&&((RXBUFF[1])==PUTTM) )\r\n {\r\n eb2_data[6]=RXBUFF[2];\r\n\teb2_data[7]=RXBUFF[3];\r\n eb2_data[8]=RXBUFF[4];\r\n\teb2_data[9]=RXBUFF[5];\r\n\teb2_data[10]=RXBUFF[6];\r\n\teb2_data[11]=RXBUFF[7];\r\n\teb2_data_short[6]=((short)&eb2_data[6]);\r\n\r\n\tcan_reset_cnt=0;\r\n }\r\n\r\nif( ((RXBUFF[0]&0x1f)==22)&&((RXBUFF[1])==PUTTM) )\r\n {\r\n eb2_data[12]=RXBUFF[2];\r\n\teb2_data[13]=RXBUFF[3];\r\n eb2_data[14]=RXBUFF[4];\r\n\teb2_data[15]=RXBUFF[5];\r\n\teb2_data[16]=RXBUFF[6];\r\n\teb2_data[17]=RXBUFF[7];\r\n\teb2_data_short[0]=((short)&eb2_data[12]);\r\n\teb2_data_short[1]=((short)&eb2_data[14]);\r\n\teb2_data_short[2]=((short)&eb2_data[16]);\r\n\r\n\tcan_reset_cnt=0;\r\n }\r\n\r\nif( ((RXBUFF[0]&0x1f)==23)&&((RXBUFF[1])==PUTTM) )\r\n {\r\n eb2_data[18]=RXBUFF[2];\r\n\teb2_data[19]=RXBUFF[3];\r\n eb2_data[20]=RXBUFF[4];\r\n\teb2_data[21]=RXBUFF[5];\r\n\teb2_data[22]=RXBUFF[6];\r\n\teb2_data[23]=RXBUFF[7];\r\n\teb2_data_short[3]=((short)&eb2_data[18]);\r\n\teb2_data_short[4]=((short)&eb2_data[20]);\r\n\teb2_data_short[5]=((short)&eb2_data[22]);\r\n\r\n\tcan_reset_cnt=0;\r\n }\r\n\r\nif( (RXBUFF[1]==PUTTM_MAKB1)&&(RXBUFF[0]>=0)&&(RXBUFF[0]<=3))\r\n {\r\n\tmakb[RXBUFF[0]]._U[0]=((short)&RXBUFF[2]);\r\n\tmakb[RXBUFF[0]]._U[1]=((short)&RXBUFF[4]);\r\n\tmakb[RXBUFF[0]]._U[2]=((short)&RXBUFF[6]);\r\n\r\n\tmakb[RXBUFF[0]]._Ub[0]=makb[RXBUFF[0]]._U[0];\r\n\tif(makb[RXBUFF[0]]._Ub[0]<0)makb[RXBUFF[0]]._Ub[0]=0;\r\n\tmakb[RXBUFF[0]]._Ub[1]=makb[RXBUFF[0]]._U[1]-makb[RXBUFF[0]]._U[0];\r\n\tif(makb[RXBUFF[0]]._Ub[1]<0)makb[RXBUFF[0]]._Ub[1]=0;\r\n\tmakb[RXBUFF[0]]._Ub[2]=makb[RXBUFF[0]]._U[2]-makb[RXBUFF[0]]._U[1];\r\n\tif(makb[RXBUFF[0]]._Ub[2]<0)makb[RXBUFF[0]]._Ub[2]=0;\r\n\r\n\tmakb[RXBUFF[0]]._cnt=0;\r\n }\r\n\r\nif( (RXBUFF[1]==PUTTM_MAKB2)&&(RXBUFF[0]>=0)&&(RXBUFF[0]<=3))\r\n {\r\n\tmakb[RXBUFF[0]]._U[3]=((short)&RXBUFF[2]);\r\n\tmakb[RXBUFF[0]]._U[4]=((short)&RXBUFF[4]);\r\n\tmakb[RXBUFF[0]]._T[0]=(signed short)(((signed char)&RXBUFF[6]));\r\n\tmakb[RXBUFF[0]]._T[1]=(signed short)(((signed char)&RXBUFF[7]));\r\n\r\n\tmakb[RXBUFF[0]]._Ub[3]=makb[RXBUFF[0]]._U[3]-makb[RXBUFF[0]]._U[2];\r\n\tif(makb[RXBUFF[0]]._Ub[3]<0)makb[RXBUFF[0]]._Ub[3]=0;\r\n\tmakb[RXBUFF[0]]._Ub[4]=makb[RXBUFF[0]]._U[4]-makb[RXBUFF[0]]._U[3];\r\n\tif(makb[RXBUFF[0]]._Ub[4]<0)makb[RXBUFF[0]]._Ub[4]=0;\r\n\r\n\tmakb[RXBUFF[0]]._cnt=0;\r\n }\r\n\r\nif( (RXBUFF[1]==PUTTM_MAKB3)&&(RXBUFF[0]>=0)&&(RXBUFF[0]<=3))\r\n {\r\n\tmakb[RXBUFF[0]]._T[2]=(signed short)(((signed char)&RXBUFF[2]));\r\n\tmakb[RXBUFF[0]]._T[3]=(signed short)(((signed char)&RXBUFF[3]));\r\n\tmakb[RXBUFF[0]]._T[4]=(signed short)(((signed char)&RXBUFF[4]));\r\n\r\n\tif(RXBUFF[5]&0x01)makb[RXBUFF[0]]._T_nd[0]=1;\r\n\telse makb[RXBUFF[0]]._T_nd[0]=0;\r\n\tif(RXBUFF[5]&0x02)makb[RXBUFF[0]]._T_nd[1]=1;\r\n\telse makb[RXBUFF[0]]._T_nd[1]=0;\r\n\tif(RXBUFF[5]&0x04)makb[RXBUFF[0]]._T_nd[2]=1;\r\n\telse makb[RXBUFF[0]]._T_nd[2]=0;\r\n\tif(RXBUFF[5]&0x08)makb[RXBUFF[0]]._T_nd[3]=1;\r\n\telse makb[RXBUFF[0]]._T_nd[3]=0;\r\n\tif(RXBUFF[5]&0x10)makb[RXBUFF[0]]._T_nd[4]=1;\r\n\telse makb[RXBUFF[0]]._T_nd[4]=0;\r\n\r\n\tmakb[RXBUFF[0]]._cnt=0;\r\n }\r\n\r\n/if(RXBUFF[0]==PUT_LB_TM1)\r\n {\r\n\tlakb[0]._max_cell_volt=(unsigned short)(((unsigned short)&RXBUFF[1]));\r\n\tlakb[0]._min_cell_volt=(unsigned short)(((unsigned short)&RXBUFF[3]));\r\n\tlakb[0]._tot_bat_volt=(unsigned short)(((unsigned short)&RXBUFF[5]));\r\n\tlakb[0]._max_cell_temp=(unsigned short)RXBUFF[7];\r\n\tlakb[0]._cnt=0;\r\n\tlakb[0]._plazma[0]++;\r\n }\r\nif(RXBUFF[0]==PUT_LB_TM2)\r\n {\r\n\tlakb[0]._ch_curr=(unsigned short)(((unsigned short)&RXBUFF[1]));\r\n\tlakb[0]._dsch_curr=(unsigned short)(((unsigned short)&RXBUFF[3]));\r\n\tlakb[0]._rat_cap=(unsigned short)(((unsigned short)&RXBUFF[5]));\r\n\tlakb[0]._min_cell_temp=(unsigned short)RXBUFF[7];\r\n\tlakb[0]._cnt=0;\r\n\tlakb[0]._plazma[1]++;\r\n }\r\nif(RXBUFF[0]==PUT_LB_TM3)\r\n {\r\n\tlakb[0]._s_o_h=(unsigned short)RXBUFF[1];\r\n\tlakb[0]._s_o_c=(unsigned short)RXBUFF[2];\r\n\tlakb[0]._c_c_l_v=(unsigned short)(((unsigned short)&RXBUFF[3]));\r\n\tlakb[0]._r_b_t=(unsigned short)RXBUFF[5];\r\n\tlakb[0]._flags1=(unsigned short)RXBUFF[6];\r\n\tlakb[0]._flags2=(unsigned short)RXBUFF[7];\r\n\tlakb[0]._cnt=0;\r\n\tlakb[0]._plazma[2]++;\r\n }\r\nif(RXBUFF[0]==PUT_LB_TM4)\r\n {\r\n\tlakb[0]._bRS485ERR=(unsigned short)RXBUFF[1];\r\n\tlakb[0]._rs485_cnt=(unsigned short)RXBUFF[2];\r\n\tlakb[0]._cnt=0;\r\n\tlakb[0]._plazma[3]++;\r\n }/\r\n\t\r\nif((RXBUFF[1]&0xf8)==PUT_LB_TM1)\r\n {\r\n\tchar temp;\r\n\ttemp=RXBUFF[1]&0x07;\r\n\t\r\n\tif(temp==0) //у нас только одна батарея\r\n\t\t{\t\r\n\t\tlakb_damp[temp][0]=RXBUFF[0];\r\n\t\tmem_copy(&lakb_damp[temp][1],&RXBUFF[2],6);\r\n\t\r\n\t\tccc_plazma[0]++;\r\n\t\tccc_plazma[7]=temp;\r\n\t\tli_bat._canErrorCnt=0;\r\n\t\tli_bat._canError=0;\r\n\t\t}\r\n\t}\t\r\n\r\nif((RXBUFF[1]&0xf8)==PUT_LB_TM2)\r\n {\r\n\tchar temp;\r\n\ttemp=RXBUFF[1]&0x07;\r\n\t\r\n\tif(temp==0) //у нас только одна батарея\r\n\t\t{\t\t\r\n\t\tlakb_damp[temp][7]=RXBUFF[0];\r\n\t\tmem_copy(&lakb_damp[temp][8],&RXBUFF[2],6);\r\n\t\t\r\n\t\tccc_plazma[1]++;\r\n\t\tccc_plazma[8]=temp;\r\n\t\tli_bat._canErrorCnt=0;\r\n\t\tli_bat._canError=0;\r\n\t\t}\r\n\t}\r\n\r\nif((RXBUFF[1]&0xf8)==PUT_LB_TM3)\r\n {\r\n\tchar temp;\r\n\ttemp=RXBUFF[1]&0x07;\r\n\r\n\tif(temp==0) //у нас только одна батарея\r\n\t\t{\r\n\t\tlakb_damp[temp][14]=RXBUFF[0];\r\n\t\tmem_copy(&lakb_damp[temp][15],&RXBUFF[2],6);\r\n\t\t\r\n\t\tccc_plazma[2]++;\r\n\t\tccc_plazma[9]=temp;\r\n\t\tli_bat._canErrorCnt=0;\r\n\t\tli_bat._canError=0;\r\n\t\t}\r\n\t}\t\r\n\r\nif((RXBUFF[1]&0xf8)==PUT_LB_TM4)\r\n {\r\n\tchar temp;\r\n\ttemp=RXBUFF[1]&0x07;\r\n\t\r\n\tif(temp==0) //у нас только одна батарея\r\n\t\t{\r\n\t\tlakb_damp[temp][21]=RXBUFF[0];\r\n\t\tmem_copy(&lakb_damp[temp][22],&RXBUFF[2],6);\r\n\t\t\r\n\t\tccc_plazma[3]++;\r\n\t\tccc_plazma[10]=temp;\r\n\t\tli_bat._canErrorCnt=0;\r\n\t\tli_bat._canError=0;\r\n\t\t}\r\n\t}\r\n\r\nif((RXBUFF[1]&0xf8)==PUT_LB_TM5)\r\n {\r\n\tchar temp;\r\n\ttemp=RXBUFF[1]&0x07;\r\n\r\n\tif(temp==0) //у нас только одна батарея\r\n\t\t{\t\t\r\n\t\tlakb_damp[temp][28]=RXBUFF[0];\r\n\t\tmem_copy(&lakb_damp[temp][29],&RXBUFF[2],6);\r\n\r\n\t\tccc_plazma[4]++;\r\n\t\tccc_plazma[11]=temp;\r\n\t\tli_bat._canErrorCnt=0;\r\n\t\tli_bat._canError=0;\r\n\t\t}\r\n\t}\r\n\r\nif((RXBUFF[1]&0xf8)==PUT_LB_TM6)\r\n {\r\n\tchar temp;\r\n\ttemp=RXBUFF[1]&0x07;\r\n\t\t\r\n\tif(temp==0) //у нас только одна батарея\r\n\t\t{\r\n\t\tlakb_damp[temp][35]=RXBUFF[0];\r\n\t\tmem_copy(&lakb_damp[temp][36],&RXBUFF[2],6);\r\n\t\t\r\n\t\tccc_plazma[5]++;\r\n\t\tccc_plazma[12]=temp;\r\n\t\tli_bat._canErrorCnt=0;\r\n\t\tli_bat._canError=0;\t\r\n\t\t}\r\n\t}\r\n\r\n\r\nif(RXBUFF[1]==PUT_ZTT_TM1)\r\n {\r\n\tlakb[0]._communication2lvlErrorCnt=(signed short)(((signed char)&RXBUFF[0]));\r\n\tlakb[0]._ch_curr=(signed short)(((signed short)&RXBUFF[2]));\r\n\tlakb[0]._tot_bat_volt=(signed short)(((signed short)&RXBUFF[4]));\r\n\tlakb[0]._cell_temp_1=(signed char)(RXBUFF[6]);\r\n\tlakb[0]._cell_temp_2=(signed char)(RXBUFF[7]);\r\n\t\r\n\t//lakb[0]._cell_temp_1=37;\r\n\t//lakb[0]._cell_temp_2=38;\r\n\tplazma_ztt[0]++;\r\n\r\n\tlibat_comm_cnt=50;\r\n\r\n\t}\r\n\r\nif(RXBUFF[1]==PUT_ZTT_TM2)\r\n {\r\n\tlakb[0]._communication2lvlErrorStat=(signed short)(((signed char)&RXBUFF[0]));\r\n\tlakb[0]._s_o_c=(signed short)(((signed short)&RXBUFF[2]));\r\n\tlakb[0]._s_o_h=(signed short)(((signed short)&RXBUFF[4]));\r\n\tlakb[0]._cell_temp_3=(signed char)(RXBUFF[6]);\r\n\tlakb[0]._cell_temp_4=(signed char)(RXBUFF[7]);\r\n\t//lakb[0]._cell_temp_3=39;\r\n\t//lakb[0]._cell_temp_4=40;\r\n\t\r\n\tplazma_ztt[1]++;\r\n\r\n\tlibat_comm_cnt=50;\r\n\t}\t\t\r\n\r\nif(RXBUFF[1]==PUT_ZTT_TM3)\r\n {\r\n\tlakb[1]._communication2lvlErrorCnt=(signed short)(((signed char)&RXBUFF[0]));\r\n\tlakb[1]._ch_curr=(signed short)(((signed short)&RXBUFF[2]));\r\n\tlakb[1]._tot_bat_volt=(signed short)(((signed short)&RXBUFF[4]));\r\n\tlakb[1]._cell_temp_1=(signed char)(RXBUFF[6]);\r\n\tlakb[1]._cell_temp_2=(signed char)(RXBUFF[7]);\r\n\t\r\n\tlibat_comm_cnt=50;\r\n\t}\r\n\r\nif(RXBUFF[1]==PUT_ZTT_TM4)\r\n {\r\n\tlakb[1]._communication2lvlErrorStat=(signed short)(((signed char)&RXBUFF[0]));\r\n\tlakb[1]._s_o_c=(signed short)(((signed short)&RXBUFF[2]));\r\n\tlakb[1]._s_o_h=(signed short)(((signed short)&RXBUFF[4]));\r\n\tlakb[1]._cell_temp_3=(signed char)(RXBUFF[6]);\r\n\tlakb[1]._cell_temp_4=(signed char)(RXBUFF[7]);\r\n\t\r\n\tlibat_comm_cnt=50;\r\n\t}\t\r\n\r\nif(RXBUFF[1]==PUT_ZTT_TM5)\r\n {\r\n\tlakb[2]._communication2lvlErrorCnt=(signed short)(((signed char)&RXBUFF[0]));\r\n\tlakb[2]._ch_curr=(signed short)(((signed short)&RXBUFF[2]));\r\n\tlakb[2]._tot_bat_volt=(signed short)(((signed short)&RXBUFF[4]));\r\n\tlakb[2]._cell_temp_1=(signed char)(RXBUFF[6]);\r\n\tlakb[2]._cell_temp_2=(signed char)(RXBUFF[7]);\r\n\t\r\n\tlibat_comm_cnt=50;\r\n\t}\r\n\r\nif(RXBUFF[1]==PUT_ZTT_TM6)\r\n {\r\n\tlakb[2]._communication2lvlErrorStat=(signed short)(((signed char)&RXBUFF[0]));\r\n\tlakb[2]._s_o_c=(signed short)(((signed short)&RXBUFF[2]));\r\n\tlakb[2]._s_o_h=(signed short)(((signed short)&RXBUFF[4]));\r\n\tlakb[2]._cell_temp_3=(signed char)(RXBUFF[6]);\r\n\tlakb[2]._cell_temp_3=(signed char)(RXBUFF[7]);\r\n\t\r\n\tlibat_comm_cnt=50;\t\r\n\t}\t\r\n\r\nif(RXBUFF[1]==PUT_ZTT_TM7)\r\n {\r\n\tlakb[0]._cell_temp_ambient=(signed char)(RXBUFF[0]);\r\n\tlakb[0]._cell_temp_power=(signed char)(RXBUFF[2]);\r\n\tlakb[1]._cell_temp_ambient=(signed char)(RXBUFF[3]);\r\n\tlakb[1]._cell_temp_power=(signed char)(RXBUFF[4]);\r\n\tlakb[2]._cell_temp_ambient=(signed char)(RXBUFF[5]);\r\n\tlakb[2]._cell_temp_power=(signed char)(RXBUFF[6]);\t\r\n\t//lakb[0]._cell_temp_ambient=41;\r\n\t//lakb[0]._cell_temp_power=42;\r\n\r\n\tlibat_comm_cnt=50;\r\n\t}\t\r\n\r\nif(RXBUFF[1]==PUT_ZTT_TM8)\r\n {\r\n\tif(RXBUFF[0]==0)\r\n\t\t{\r\n\t\tlakb[0]._charge_and_discharge_current_alarm_status=(signed char)(RXBUFF[2]);\r\n\t\tlakb[0]._battery_total_voltage_alarm_status=(signed char)(RXBUFF[3]);\r\n\t\tlakb[1]._charge_and_discharge_current_alarm_status=(signed char)(RXBUFF[4]);\r\n\t\tlakb[1]._battery_total_voltage_alarm_status=(signed char)(RXBUFF[5]);\r\n\t\tlakb[2]._charge_and_discharge_current_alarm_status=(signed char)(RXBUFF[6]);\r\n\t\tlakb[2]._battery_total_voltage_alarm_status=(signed char)(RXBUFF[7]);\r\n\t\t}\r\n\tif(RXBUFF[0]==1)\r\n\t\t{\r\n\t\tlakb[0]._custom_alarm_quantity=(signed char)(RXBUFF[2]);\r\n\t\tlakb[0]._balanced_event_code=(signed char)(RXBUFF[3]);\r\n\t\tlakb[1]._custom_alarm_quantity=(signed char)(RXBUFF[4]);\r\n\t\tlakb[1]._balanced_event_code=(signed char)(RXBUFF[5]);\r\n\t\tlakb[2]._custom_alarm_quantity=(signed char)(RXBUFF[6]);\r\n\t\tlakb[2]._balanced_event_code=(signed char)(RXBUFF[7]);\r\n\t\t}\r\n\tif(RXBUFF[0]==2)\r\n\t\t{\r\n\t\tlakb[0]._voltage_event_code=(signed char)(RXBUFF[2]);\r\n\t\tlakb[0]._temperature_event_code=(signed char)(RXBUFF[3]);\r\n\t\tlakb[1]._voltage_event_code=(signed char)(RXBUFF[4]);\r\n\t\tlakb[1]._temperature_event_code=(signed char)(RXBUFF[5]);\r\n\t\tlakb[2]._voltage_event_code=(signed char)(RXBUFF[6]);\r\n\t\tlakb[2]._temperature_event_code=(signed char)(RXBUFF[7]);\r\n\t\t}\r\n\tif(RXBUFF[0]==3)\r\n\t\t{\r\n\t\tlakb[0]._current_event_code=(signed char)(RXBUFF[2]);\r\n\t\tlakb[0]._fet_status_code=(signed char)(RXBUFF[3]);\r\n\t\tlakb[1]._current_event_code=(signed char)(RXBUFF[4]);\r\n\t\tlakb[1]._fet_status_code=(signed char)(RXBUFF[5]);\r\n\t\tlakb[2]._current_event_code=(signed char)(RXBUFF[6]);\r\n\t\tlakb[2]._fet_status_code=(signed char)(RXBUFF[7]);\r\n\t\t}\r\n\tif(RXBUFF[0]==4)\r\n\t\t{\r\n\t\tlakb[0]._balanced_status_code=(signed short)(RXBUFF[2])+(((signed char)(RXBUFF[3]))<<8);\r\n\t\tlakb[1]._balanced_status_code=(signed short)(RXBUFF[4])+(((signed char)(RXBUFF[5]))<<8);\r\n\t\tlakb[2]._balanced_status_code=(signed short)(RXBUFF[6])+(((signed char)(RXBUFF[7]))<<8);\r\n\t\t}\r\n\tif(RXBUFF[0]==5)\r\n\t\t{\r\n\t\tlakb[0]._system_status_code=(signed char)(RXBUFF[2]);\r\n\t\tlakb[1]._system_status_code=(signed char)(RXBUFF[4]);\r\n\t\tlakb[2]._system_status_code=(signed char)(RXBUFF[6]);\r\n\t\t}\r\n\r\n\tlibat_comm_cnt=50;\r\n\t}\r\n\t\t\r\nif(RXBUFF[1]==PUT_STARK_TM1)\r\n {\r\n\t//lakb[0]._communication2lvlErrorCnt=(signed short)(((signed char)&RXBUFF[0]));\r\n\t//lakb[0]._ch_curr=(signed short)(((signed short)&RXBUFF[2]));\r\n\tlakb[0]._tot_bat_volt=((((short)RXBUFF[0])<<8)+(short)RXBUFF[2])/10;\r\n\tlakb[0]._ch_curr=(((short)RXBUFF[3])<<8)+(short)RXBUFF[4];\r\n\tlakb[0]._cell_temp_1=(((short)RXBUFF[5])<<8)+(short)RXBUFF[6];\r\n\t//lakb[0]._cell_temp_2=(signed char)(RXBUFF[7]);\r\n\t\r\n\t//lakb[0]._cell_temp_1=37;\r\n\t//lakb[0]._cell_temp_2=38;\r\n\t//plazma_stark[0]++;\r\n /\r\n\tplazma_stark[2]=RXBUFF[0];\r\n\tplazma_stark[3]=RXBUFF[1];\r\n\tplazma_stark[4]=RXBUFF[2];\r\n\tplazma_stark[5]=RXBUFF[3];\r\n\tplazma_stark[6]=RXBUFF[4];\r\n\tplazma_stark[7]=RXBUFF[5];\r\n\tplazma_stark[8]=RXBUFF[6];\r\n\t//plazma_stark[9]=RXBUFF[7];/\r\n\tlibat_comm_cnt=50;\r\n\r\n\t}\r\n\r\nif(RXBUFF[1]==PUT_STARK_TM2)\r\n {\r\n\tlakb[0]._cell_temp_2=(((short)RXBUFF[0])<<8)+(short)RXBUFF[2];\r\n\tlakb[0]._cell_temp_3=(((short)RXBUFF[3])<<8)+(short)RXBUFF[4];\r\n\t//lakb[0]._communication2lvlErrorStat=(signed short)(((signed char)&RXBUFF[0]));\r\n\t//lakb[0]._s_o_c=(signed short)(((signed short)&RXBUFF[2]));\r\n\t//lakb[0]._s_o_h=(signed short)(((signed short)&RXBUFF[4]));\r\n\t//lakb[0]._cell_temp_3=(signed char)(RXBUFF[6]);\r\n\t//lakb[0]._cell_temp_4=(signed char)(RXBUFF[7]);\r\n\t//lakb[0]._cell_temp_3=39;\r\n\t//lakb[0]._cell_temp_4=40;\r\n\t\r\n\t//plazma_stark[1]++;\r\n\t/\r\n\tplazma_stark[9]=RXBUFF[0];\r\n\tplazma_stark[10]=RXBUFF[1];\r\n\tplazma_stark[11]=RXBUFF[2];\r\n\tplazma_stark[12]=RXBUFF[3];\r\n\tplazma_stark[13]=RXBUFF[4];\r\n\tplazma_stark[14]=RXBUFF[5];\r\n\tplazma_stark[15]=RXBUFF[6];\r\n\t//plazma_stark[17]=RXBUFF[7];\r\n\t/\r\n\r\n\tplazma_stark[2]=RXBUFF[0];\r\n\tplazma_stark[3]=RXBUFF[1];\r\n\tplazma_stark[4]=RXBUFF[2];\r\n\tplazma_stark[5]=RXBUFF[3];\r\n\tplazma_stark[6]=RXBUFF[4];\r\n\tplazma_stark[7]=RXBUFF[5];\r\n\tplazma_stark[8]=RXBUFF[6];\r\n\r\n\tlibat_comm_cnt=50;\r\n\t}\t\t\r\n\r\nif(RXBUFF[1]==PUT_STARK_TM3)\r\n {\r\n\r\n\tlakb[0]._s_o_h=(((short)RXBUFF[3])<<8)+(short)RXBUFF[4];\r\n\tlakb[0]._s_o_c=(((short)RXBUFF[5])<<8)+(short)RXBUFF[6];\r\n\t/\r\n\tplazma_stark[16]=RXBUFF[0];\r\n\tplazma_stark[17]=RXBUFF[1];\r\n\tplazma_stark[18]=RXBUFF[2];\r\n\tplazma_stark[19]=RXBUFF[3];\r\n\tplazma_stark[20]=RXBUFF[4];\r\n\tplazma_stark[21]=RXBUFF[5];\r\n\tplazma_stark[22]=RXBUFF[6];\t/\r\n\r\n\tplazma_stark[9]=RXBUFF[0];\r\n\tplazma_stark[10]=RXBUFF[1];\r\n\tplazma_stark[11]=RXBUFF[2];\r\n\tplazma_stark[12]=RXBUFF[3];\r\n\tplazma_stark[13]=RXBUFF[4];\r\n\tplazma_stark[14]=RXBUFF[5];\r\n\tplazma_stark[15]=RXBUFF[6];\r\n\r\n\t//lakb[1]._communication2lvlErrorCnt=(signed short)(((signed char)&RXBUFF[0]));\r\n\t//lakb[1]._ch_curr=(signed short)(((signed short)&RXBUFF[2]));\r\n\t//lakb[1]._tot_bat_volt=(signed short)(((signed short)&RXBUFF[4]));\r\n\t//lakb[1]._cell_temp_1=(signed char)(RXBUFF[6]);\r\n\t//lakb[1]._cell_temp_2=(signed char)(RXBUFF[7]);\r\n\t\r\n\tlibat_comm_cnt=50;\r\n\t}\r\n\r\nif(RXBUFF[1]==PUT_STARK_TM4)\r\n {\r\n\tlakb[0]._flags1=(((short)RXBUFF[3])<<8)+(short)RXBUFF[2];\r\n\tlakb[0]._flags2=(((short)RXBUFF[5])<<8)+(short)RXBUFF[6];\r\n\r\n\tplazma_stark[16]=RXBUFF[0];\r\n\tplazma_stark[17]=RXBUFF[1];\r\n\tplazma_stark[18]=RXBUFF[2];\r\n\tplazma_stark[19]=RXBUFF[3];\r\n\tplazma_stark[20]=RXBUFF[4];\r\n\tplazma_stark[21]=RXBUFF[5];\r\n\tplazma_stark[22]=RXBUFF[6];\r\n\t//lakb[1]._communication2lvlErrorStat=(signed short)(((signed char)&RXBUFF[0]));\r\n\t//lakb[1]._s_o_c=(signed short)(((signed short)&RXBUFF[2]));\r\n\t//lakb[1]._s_o_h=(signed short)(((signed short)&RXBUFF[4]));\r\n\t//lakb[1]._cell_temp_3=(signed char)(RXBUFF[6]);\r\n\t//lakb[1]._cell_temp_4=(signed char)(RXBUFF[7]);\r\n\t\r\n\tlibat_comm_cnt=50;\r\n\t}\t\r\n\r\nif(RXBUFF[1]==PUT_STARK_TM5)\r\n {\r\n\r\n\r\n\r\n\t//lakb[2]._communication2lvlErrorCnt=(signed short)(((signed char)&RXBUFF[0]));\r\n\t//lakb[2]._ch_curr=(signed short)(((signed short)&RXBUFF[2]));\r\n\t//lakb[2]._tot_bat_volt=(signed short)(((signed short)&RXBUFF[4]));\r\n\t//lakb[2]._cell_temp_1=(signed char)(RXBUFF[6]);\r\n\t//lakb[2]._cell_temp_2=(signed char)(RXBUFF[7]);\r\n\t\r\n\tlibat_comm_cnt=50;\r\n\t}\r\n\r\nif(RXBUFF[1]==PUT_STARK_TM6)\r\n {\r\n\t//lakb[2]._communication2lvlErrorStat=(signed short)(((signed char)&RXBUFF[0]));\r\n\t//lakb[2]._s_o_c=(signed short)(((signed short)&RXBUFF[2]));\r\n\t//lakb[2]._s_o_h=(signed short)(((signed short)&RXBUFF[4]));\r\n\t//lakb[2]._cell_temp_3=(signed char)(RXBUFF[6]);\r\n\t//lakb[2]._cell_temp_3=(signed char)(RXBUFF[7]);\r\n\t\r\n\tlibat_comm_cnt=50;\t\r\n\t}\t\r\n\r\nif(RXBUFF[1]==PUT_STARK_TM7)\r\n {\r\n\t//lakb[0]._cell_temp_ambient=(signed char)(RXBUFF[0]);\r\n\t//lakb[0]._cell_temp_power=(signed char)(RXBUFF[2]);\r\n\t//lakb[1]._cell_temp_ambient=(signed char)(RXBUFF[3]);\r\n\t//lakb[1]._cell_temp_power=(signed char)(RXBUFF[4]);\r\n\t//lakb[2]._cell_temp_ambient=(signed char)(RXBUFF[5]);\r\n\t//lakb[2]._cell_temp_power=(signed char)(RXBUFF[6]);\t\r\n\t//lakb[0]._cell_temp_ambient=41;\r\n\t//lakb[0]._cell_temp_power=42;\r\n\r\n\tlibat_comm_cnt=50;\r\n\t}\t\t\r\nCAN_IN_AN1_end:\r\nbIN2=0;\r\n}\r\n\r\n\r\n\r\n\r\n\r\n \r\n/***********************************************************************\r\nDOES: Interrupt Service Routine for CAN receive on CAN interface 1\r\nGLOBALS: Copies the received message into the gFullCANList[] array\r\n Handles semaphore bits as described in LPC user manual\r\nRETURNS: nothing\r\n************************************************************************/ \r\nvoid CAN_ISR_Rx1( void )\r\n{\r\nunsigned int buf;\r\nunsigned int pDest;\r\nchar temp;\r\nchar ptr,j;\r\n//can_cnt++;\r\n\r\nrotor_can[0]++;\r\n\r\n if (!(LPC_CAN1->RFS & 0xC0000400L))\r\n { // 11-bit ID, no RTR, matched a filter\r\n\r\nrotor_can[1]++;\r\n // initialize destination pointer\r\n // filter number is in lower 10 bits of C1RFS\r\n pDest = (unsigned int ) &(gFullCANList[(LPC_CAN1->RFS & 0x000003FFL)].Dat1);\r\n \r\n // calculate contents for first entry into FullCAN list\r\n buf = LPC_CAN1->RFS & 0xC00F0000L; // mask FF, RTR and DLC\r\n buf \|= 0x01002000L; // set semaphore to 01b and CAN port to 1\r\n buf \|= LPC_CAN1->RID & 0x000007FFL; // get CAN message ID\r\n\r\n // now copy entire message to FullCAN list\r\n pDest = buf; \r\n pDest++; // set to gFullCANList[(C1RFS & 0x000003FFL)].DatA\r\n pDest = LPC_CAN1->RDA; \r\n pDest++; // set to gFullCANList[(C1RFS & 0x000003FFL)].DatB\r\n pDest = LPC_CAN1->RDB; \r\n\r\n // now set the sempahore to complete\r\n buf \|= 0x03000000L; // set semaphore to 11b\r\n pDest -= 2; // set to gFullCANList[(C1RFS & 0x000003FFL)].Dat1\r\n pDest = buf; \r\n \r\n\ttemp=(char)gFullCANList[0].DatA;\r\n\tif(temp==0x30) bR=0;\r\n\telse bR++;\r\n\t\r\n\ttemp=(char)(((gFullCANList[0].Dat1)>>16)&0x0f); \r\n \r\n ptr=(char)(&gFullCANList[0].DatA);\r\n\t\r\n\tfor(j=0;j<temp;j++)\r\n\t\t{\r\n\t\tRXBUFF[j]=ptr;\r\n\t\tptr++;\r\n\t\t}\r\n\tcan_in_an1();\r\n\t \r\n \r\n }\r\n\r\n LPC_CAN1->CMR = 0x04; // release receive buffer\r\n}\r\n\r\n\r\n\r\n/************************************************************************\r\nDOES: Interrupt Service Routine for CAN receive on CAN interface 1\r\nGLOBALS: Copies the received message into the gFullCANList[] array\r\n Handles semaphore bits as described in LPC user manual\r\nRETURNS: nothing\r\n************************************************************************/ \r\nvoid CAN_ISR_Rx2( void ) \r\n{\r\nunsigned int buf;\r\nunsigned int pDest;\r\nchar temp;\r\nchar ptr,j;\r\n//can_cnt++;\r\n\r\n//rotor_can[0]++;\r\n//can_debug_plazma[0][0]++;\r\n//if(C1ICR & 0x00000001L)\r\n//\t{\r\n//\tcan_debug_plazma[0][0]++;\r\n\tif (!(LPC_CAN2->RFS & 0xC0000400L))\r\n \t\t{ // 11-bit ID, no RTR, matched a filter\r\n\t\t\t\r\n \t\t//rotor_can[1]++;\r\n \t\t// initialize destination pointer\r\n \t\t// filter number is in lower 10 bits of C1RFS\r\n\t\t\t//plazma_can4=(char)((LPC_CAN2->RFS>>16) & 0x000000FFL);\r\n \t\tpDest = (unsigned int ) &(gFullCANList[(LPC_CAN2->RFS & 0x000003FFL)].Dat1);\r\n \r\n\t\t\tplazma_can_pal[plazma_can_pal_index]=(char)(LPC_CAN2->RDA);\r\n\t\t\tplazma_can_pal_index++;\r\n\t\t\tplazma_can_pal[plazma_can_pal_index]=(char)((LPC_CAN2->RDA)>>8);\r\n\t\t\tplazma_can_pal_index++;\r\n\t\t\tplazma_can_pal[plazma_can_pal_index]=(char)((LPC_CAN2->RDA)>>16);\r\n\t\t\tplazma_can_pal_index++;\r\n\t\t\tplazma_can_pal[plazma_can_pal_index]=(char)((LPC_CAN2->RDA)>>24);\r\n\t\t\tplazma_can_pal_index++;\r\n\t\t\tplazma_can_pal[plazma_can_pal_index]=(char)(LPC_CAN2->RDB);\r\n\t\t\tplazma_can_pal_index++;\r\n\t\t\tplazma_can_pal[plazma_can_pal_index]=(char)((LPC_CAN2->RDB)>>8);\r\n\t\t\tplazma_can_pal_index++;\r\n\t\t\tplazma_can_pal[plazma_can_pal_index]=(char)((LPC_CAN2->RDB)>>16);\r\n\t\t\tplazma_can_pal_index++;\r\n\t\t\tplazma_can_pal[plazma_can_pal_index]=(char)((LPC_CAN2->RDB)>>24);\r\n\t\t\tplazma_can_pal_index++;\r\n\r\n \t\t// calculate contents for first entry into FullCAN list\r\n \t\tbuf = LPC_CAN2->RFS & 0xC00F0000L; // mask FF, RTR and DLC\r\n \t\tbuf \|= 0x01002000L; // set semaphore to 01b and CAN port to 1\r\n \t\tbuf \|= LPC_CAN2->RID & 0x000007FFL; // get CAN message ID\r\n\r\n \t\t// now copy entire message to FullCAN list\r\n \t\tpDest = buf; \r\n \t\tpDest++; // set to gFullCANList[(C1RFS & 0x000003FFL)].DatA\r\n \t\tpDest = LPC_CAN2->RDA;\r\n\t\t\t//plazma_can4=(char)LPC_CAN2->RDA; \r\n \t\tpDest++; // set to gFullCANList[(C1RFS & 0x000003FFL)].DatB\r\n \t\tpDest = LPC_CAN2->RDB; \r\n\r\n \t\t// now set the sempahore to complete\r\n \t\tbuf \|= 0x03000000L; // set semaphore to 11b\r\n \t\tpDest -= 2; // set to gFullCANList[(C1RFS & 0x000003FFL)].Dat1\r\n \t\tpDest = buf; \r\n \r\n\t\t//temp=(char)gFullCANList[0].DatA;\r\n\t\ttemp=(char)(LPC_CAN2->RDA);\r\n\t\tif(temp==0x30)\r\n\t\t\t{\r\n\t\t\t bR=0;\r\n\t\t\t }\r\n\t\telse bR++;\r\n\t\r\n\t\t//temp=(char)(((gFullCANList[0].Dat1)>>16)&0x0f); \r\n \r\n \t//ptr=(char)(&gFullCANList[0].DatA);\r\n\t\r\n\t\tif(!bR)\r\n\t\t\t{\r\n\t\t\t/for(j=0;j<temp;j++)\r\n\t\t\t\t{\r\n\t\t\t\tRXBUFF[j]=ptr;\r\n\t\t\t\tptr++;\r\n\t\t\t\t}/\r\n\t\t\tRXBUFF[0]=(char)(LPC_CAN2->RDA);\r\n\t\t\tRXBUFF[1]=(char)((LPC_CAN2->RDA)>>8);\r\n\t\t\tRXBUFF[2]=(char)((LPC_CAN2->RDA)>>16);\r\n\t\t\tRXBUFF[3]=(char)((LPC_CAN2->RDA)>>24);\r\n\t\t\tRXBUFF[4]=(char)(LPC_CAN2->RDB);\r\n\t\t\tRXBUFF[5]=(char)((LPC_CAN2->RDB)>>8);\r\n\t\t\tRXBUFF[6]=(char)((LPC_CAN2->RDB)>>16);\r\n\t\t\tRXBUFF[7]=(char)((LPC_CAN2->RDB)>>24);\r\n\t\t\t\r\n\t\t\t}\r\n\t\telse if(bR==1)\r\n\t\t\t{\r\n\t\t\tRXBUFF[8]=(char)(LPC_CAN2->RDA);\r\n\t\t\tRXBUFF[9]=(char)((LPC_CAN2->RDA)>>8);\r\n\t\t\tRXBUFF[10]=(char)((LPC_CAN2->RDA)>>16);\r\n\t\t\tRXBUFF[11]=(char)((LPC_CAN2->RDA)>>24);\r\n\t\t\tRXBUFF[12]=(char)(LPC_CAN2->RDB);\r\n\t\t\tRXBUFF[13]=(char)((LPC_CAN2->RDB)>>8);\r\n\t\t\tRXBUFF[14]=(char)((LPC_CAN2->RDB)>>16);\r\n\t\t\tRXBUFF[15]=(char)((LPC_CAN2->RDB)>>24);\r\n\t\t\t} \t\t\r\n\t\r\n\t\r\n\t\r\n\t\t\r\n\t\ttemp=((RXBUFF[1]&0x1f)+4);\r\n \t\t//rotor_can[2]++;\r\n\t\tif((CRC1_in()==RXBUFF[temp+1])&&(CRC2_in()==RXBUFF[temp+2])&&bR)\r\n\t\t\t{\r\n \r\n\t\t\tbIN=1;\r\n \t\t\t//rotor_can[3]++;\r\n \t\t\tcan_in_an2();\r\n\t\t\t\r\n\t\t\t} \r\n \r\n \t\t}\r\n\r\nLPC_CAN2->CMR = 0x04; // release receive buffer\r\n}\r\n/************************************************************************\r\nDOES: Interrupt Service Routine for CAN receive on CAN interface 1\r\nGLOBALS: Copies the received message into the gFullCANList[] array\r\n Handles semaphore bits as described in LPC user manual\r\nRETURNS: nothing\r\n************************************************************************/ \r\n\r\nvoid can_isr_tx1 (void) \r\n{\r\n//unsigned int buf;\r\n//unsigned int pDest;\r\nchar temp;\r\n//char ptr,j;\r\n\r\n//plazma_can2++;\r\n\r\ncan_tx_cnt++;\r\n\r\nrotor_can[5]++;\r\n\r\nif(ptr_can1_tx_wr!=ptr_can1_tx_rd)\r\n\t{\r\n\tLPC_CAN1->TFI1=can1_info[ptr_can1_tx_rd];\r\n LPC_CAN1->TID1=can1_id[ptr_can1_tx_rd];\r\n LPC_CAN1->TDA1=can1_data[ptr_can1_tx_rd];\r\n LPC_CAN1->TDB1=can1_datb[ptr_can1_tx_rd];\r\n LPC_CAN1->CMR=0x00000021;\r\n ptr_can1_tx_rd++;\r\n if(ptr_can1_tx_rd>=8)ptr_can1_tx_rd=0;\r\n\t}\r\nelse bOUT_FREE=1;\r\ntemp=LPC_CAN1->ICR;\r\n\r\n}\r\n\r\n/************************************************************************/\r\nvoid can_isr_tx2 (void) \r\n{\r\nchar temp;\r\ncan2_tx_cnt++;\r\n\r\n//=ptr_can2_tx_wr;\r\n\r\nif(ptr_can2_tx_wr!=ptr_can2_tx_rd)\r\n\t{\r\n\tLPC_CAN2->TFI1=can2_info[ptr_can2_tx_rd];\r\n LPC_CAN2->TID1=can2_id[ptr_can2_tx_rd];\r\n LPC_CAN2->TDA1=can2_data[ptr_can2_tx_rd];\r\n LPC_CAN2->TDB1=can2_datb[ptr_can2_tx_rd];\r\n LPC_CAN2->CMR=0x00000021;\r\n ptr_can2_tx_rd++;\r\n if(ptr_can2_tx_rd>=8)ptr_can2_tx_rd=0;\r\n\t}\r\nelse bOUT_FREE2=1;\r\ntemp=LPC_CAN2->ICR;\r\n}\r\n\r\n/**********************************************************************\r\nInitialization of a CAN interface\r\nas described in LPC_FullCAN_SW.h\r\n************************************************************************/ \r\nshort can1_init (unsigned int can_btr)\r\n{\r\nLPC_SC->PCONP \|= (1<<13); / Enable CAN1 and CAN2 clock /\r\n\r\nLPC_PINCON->PINSEL0 &= ~0x0000000F; / CAN1 is p0.0 and p0.1\t/\r\nLPC_PINCON->PINSEL0 \|= 0x00000005;\r\n\r\ngCANFilter = 0; // Reset and disable all message filters\r\n\r\nLPC_CANAF->AFMR = 0x00000001L; // Acceptance Filter Mode Register = off !\r\n\r\nLPC_CAN1->MOD = 1; // Go into Reset mode\r\n\r\nLPC_CAN1->IER = 0;// Disable All Interrupts\r\n\r\nLPC_CAN1->GSR = 0; // Clear Status register\r\n\r\nLPC_CAN1->BTR = can_btr; // Set bit timing\r\n\r\n//LPC_CAN1->IER \|=(1<<0)\|(1<<1)\|(1<<9)\|(1<<10); // Enable Receive & Transmit Interrupt\r\n\r\nLPC_CAN1->MOD = 0; // Enter Normal Operating Mode\r\n\r\n\r\n\r\nNVIC_EnableIRQ(CAN_IRQn);\r\nLPC_CAN1->IER =0x0003;\r\nreturn 1;\r\n}\r\n\r\n/***********************************************************************\r\nInitialization of a CAN interface\r\nas described in LPC_FullCAN_SW.h\r\n************************************************************************/ \r\nshort can2_init (unsigned int can_btr)\r\n{\r\nLPC_SC->PCONP \|= (1<<14); / Enable CAN1 and CAN2 clock /\r\n\r\nLPC_PINCON->PINSEL2 &= ~0x0003c000; / CAN1 is p0.0 and p0.1\t/\r\nLPC_PINCON->PINSEL4 \|= 0x00014000;\r\n\r\ngCANFilter = 0; // Reset and disable all message filters\r\n\r\nLPC_CANAF->AFMR = 0x00000001L; // Acceptance Filter Mode Register = off !\r\n\r\nLPC_CAN2->MOD = 1; // Go into Reset mode\r\n\r\nLPC_CAN2->IER = 0;// Disable All Interrupts\r\n\r\nLPC_CAN2->GSR = 0; // Clear Status register\r\n\r\nLPC_CAN2->BTR = can_btr; // Set bit timing\r\n\r\n//LPC_CAN1->IER \|=(1<<0)\|(1<<1)\|(1<<9)\|(1<<10); // Enable Receive & Transmit Interrupt\r\n\r\nLPC_CAN2->MOD = 0; // Enter Normal Operating Mode\r\n\r\n\r\n\r\nNVIC_EnableIRQ(CAN_IRQn);\r\nLPC_CAN2->IER =0x0003;\r\nreturn 1;\r\n}\r\n\r\n/***********************************************************************\r\nSetting a CAN receive filter\r\nas described in LPC_FullCAN_SW.h\r\n************************************************************************/ \r\nshort FullCAN_SetFilter (\r\n unsigned short can_port, // CAN interface number\r\n unsigned int CANID // 11-bit CAN ID\r\n )\r\n{\r\nunsigned int p, n;\r\nunsigned int buf0, buf1;\r\nunsigned int ID_lower, ID_upper;\r\nunsigned int candata;\r\nunsigned int pAddr;\r\n\r\n \r\n\r\n// Acceptance Filter Mode Register = off !\r\nLPC_CANAF->AFMR = 0x00000001L;\r\n\r\nif (gCANFilter == 0)\r\n { \r\n // First call, init entry zero\r\n gFullCANList[0].Dat1 = 0x000037FFL; // CAN 1, disabled and unused\r\n }\r\nif (gCANFilter >= MAX_FILTERS)\r\n {\r\n return 0;\r\n }\r\n\r\nCANID &= 0x000007FFL; // Mask out 11-bit ID\r\nCANID \|= (can_port << 13); // Put can_port info in bits 13-15\r\n\r\n// Filters must be sorted by interface, then by priority\r\n// new filter is sorted into array\r\np = 0;\r\nwhile (p < gCANFilter) // loop through all existing filters \r\n {\r\n if ((gFullCANList[p].Dat1 & 0x0000FFFFL) > CANID)\r\n {\r\n break;\r\n }\r\n p++;\r\n }\r\n\r\n// insert new filter here\r\nbuf0 = gFullCANList[p].Dat1; // save current entry\r\ngFullCANList[p].Dat1 = CANID; // insert the new entry\r\n\r\n// move all remaining entries one row up\r\ngCANFilter++;\r\nwhile (p < gCANFilter)\r\n {\r\n p++;\r\n buf1 = gFullCANList[p].Dat1;\r\n gFullCANList[p].Dat1 = buf0;\r\n buf0 = buf1;\r\n }\r\n\r\n// Now work on Acceptance Filter Configuration \r\n// Set CAN filter for 11-bit standard identifiers\r\np = 0;\r\n\r\n// Set pointer for Standard Frame Individual\r\n// Standard Frame Explicit\r\nLPC_CANAF->SFF_sa = p;\r\n\r\npAddr = (unsigned int ) LPC_CANAF_RAM_BASE;\r\nfor (n = 0; n < ((gCANFilter+1)/2); n++)\r\n {\r\n ID_lower = gFullCANList[n 2].Dat1 & 0x0000FFFFL;\r\n ID_upper = gFullCANList[n * 2 + 1].Dat1 & 0x0000FFFFL;\r\n candata = (ID_lower << 16) + ID_upper;\r\n pAddr = candata;\r\n p += 4;\r\n pAddr++;\r\n }\r\n\r\n// p is still pointing to ENDofTable;\r\n \r\n// Set pointer for Standard Frame Groups\r\n// Standard Frame Group Start Address Register\r\nLPC_CANAF->SFF_GRP_sa = p;\r\n\r\n// Set pointer for Extended Frame Individual\r\n// Extended Frame Start Address Register\r\nLPC_CANAF->EFF_sa = p;\r\n\r\n// Set pointer for Extended Frame Groups\r\n// Extended Frame Group Start Address Register\r\nLPC_CANAF->EFF_GRP_sa = p;\r\n\r\n// Set ENDofTable \r\n// End of AF Tables Register\r\nLPC_CANAF->ENDofTable = p;\r\n\r\n// Acceptance Filter Mode Register, start using filter\r\nLPC_CANAF->AFMR = 0;\r\n \r\nreturn 1;\r\n\r\n/\r\n // Acceptance Filter Mode Register = off !\r\nLPC_CANAF->AFMR = 0x00000001L;\r\n\r\n if (gCANFilter == 0)\r\n { // First call, init entry zero\r\n gFullCANList[0].Dat1 = 0x000037FFL; // CAN 1, disabled and unused\r\n }\r\n if (gCANFilter >= MAX_FILTERS)\r\n {\r\n return 0;\r\n }\r\n\r\n CANID &= 0x000007FFL; // Mask out 11-bit ID\r\n CANID \|= (can_port << 13); // Put can_port info in bits 13-15\r\n\r\n // Filters must be sorted by interface, then by priority\r\n // new filter is sorted into array\r\n p = 0;\r\n while (p < gCANFilter) // loop through all existing filters \r\n {\r\n if ((gFullCANList[p].Dat1 & 0x0000FFFFL) > CANID)\r\n {\r\n break;\r\n }\r\n p++;\r\n }\r\n\r\n // insert new filter here\r\n buf0 = gFullCANList[p].Dat1; // save current entry\r\n gFullCANList[p].Dat1 = CANID; // insert the new entry\r\n\r\n // move all remaining entries one row up\r\n gCANFilter++;\r\n while (p < gCANFilter)\r\n {\r\n p++;\r\n buf1 = gFullCANList[p].Dat1;\r\n gFullCANList[p].Dat1 = buf0;\r\n buf0 = buf1;\r\n }\r\n\r\n // Now work on Acceptance Filter Configuration \r\n // Set CAN filter for 11-bit standard identifiers\r\n p = 0;\r\n\r\n // Set pointer for Standard Frame Individual\r\n // Standard Frame Explicit\r\nLPC_CANAF->SFF_sa = p;\r\n\r\n pAddr = (unsigned int ) ACCEPTANCE_FILTER_RAM_BASE;\r\n for (n = 0; n < ((gCANFilter+1)/2); n++)\r\n {\r\n ID_lower = gFullCANList[n 2].Dat1 & 0x0000FFFFL;\r\n ID_upper = gFullCANList[n * 2 + 1].Dat1 & 0x0000FFFFL;\r\n candata = (ID_lower << 16) + ID_upper;\r\n pAddr = candata;\r\n p += 4;\r\n pAddr++;\r\n }\r\n\r\n // p is still pointing to ENDofTable;\r\n \r\n // Set pointer for Standard Frame Groups\r\n // Standard Frame Group Start Address Register\r\nLPC_CANAF->SFF_GRP_sa = p;\r\n\r\n // Set pointer for Extended Frame Individual\r\n // Extended Frame Start Address Register\r\nLPC_CANAF->EFF_sa = p;\r\n\r\n // Set pointer for Extended Frame Groups\r\n // Extended Frame Group Start Address Register\r\nLPC_CANAF->EFF_GRP_sa = p;\r\n\r\n // Set ENDofTable \r\n // End of AF Tables Register\r\nLPC_CANAF->ENDofTable = p;\r\n\r\n // Acceptance Filter Mode Register, start using filter\r\nLPC_CANAF->AFMR = 0;\r\n \r\n return 1;\t /\r\n}\r\n\r\n//-----------------------------------------------\r\nvoid CAN_IRQHandler(void) \r\n{\r\n//can_rotor[0]++;\r\nCANStatus = LPC_CAN1->ICR;\r\n//new_rotor[3]=CANStatus;\r\n//new_rotor[4]=CANStatus>>16;\r\n//\r\n//rotor_rotor_rotor[0]++;\r\n\t\t\r\nif ( CANStatus & (1 << 0) )\r\n {\r\n\tCAN_ISR_Rx1();\r\n\tplazma_can1++;\r\n }\r\n\r\nif ( CANStatus & (1 << 1) )\r\n {\r\n\tcan_isr_tx1();\r\n\tplazma_can2++;\r\n\t\r\n }\r\n\r\nCANStatus = LPC_CAN2->ICR;\r\n//new_rotor[3]=CANStatus;\r\n//new_rotor[4]=CANStatus>>16;\r\n//\r\n//rotor_rotor_rotor[0]++;\r\nplazma_can++;\t\t\r\nif ( CANStatus & (1 << 0) )\r\n {\r\n\tCAN_ISR_Rx2();\r\n\tplazma_can3++;\r\n\tcnt_can_pal=0;\r\n\r\n }\r\n\r\nif ( CANStatus & (1 << 1) )\r\n {\r\n\tcan_isr_tx2();\r\n\t plazma_can4++;\r\n\t\r\n }\r\n\r\nreturn;\r\n}\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n" }, { "alpha_fraction": 0.461269736289978, "alphanum_fraction": 0.5911300182342529, "avg_line_length": 23.765743255615234, "blob_id": "3133565ace2c3e40d354af1f131025edeab8f4bf", "content_id": "18c5e0921b2790bbc8a1fa32041672d45782ad47", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 19766, "license_type": "no_license", "max_line_length": 140, "num_lines": 794, "path": "/SOFT/UKU/2/uart0.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "\n#include \"LPC17XX.H\" \n#include \"main.h\"\n#include \"control.h\"\n#include \"cmd.c\"\n#include \"eeprom_map.h\"\n#include \"25lc640.h\"\n#include \"avar_hndl.h\"\n#include \"modbus.h\"\r\n#include \"sacred_sun.h\"\r\n#include \"ztt.h\"\n#include \"uart0.h\"\r\n\nchar bRXIN0;\nchar UIB0[100]={0,0,0,0,0,0,0,0,0,0};\nchar flag0;\nchar rx_buffer0[RX_BUFFER_SIZE0];\nunsigned char tx_buffer0[TX_BUFFER_SIZE0];\nunsigned short rx_wr_index0,rx_rd_index0,rx_counter0;\nunsigned short tx_wr_index0,tx_rd_index0,tx_counter0;\nchar rx_buffer_overflow0;\nchar plazma_uart0;\nchar memo_out[50];\nchar data_rs[50];\nchar data_rs0[50];\n//Кодовые таблицы CRC\n/const char Table87[]={\n0x00, 0x0E, 0x1C, 0x12, 0x38, 0x36, 0x24, 0x2A, 0x70, 0x7E, 0x6C, 0x62, 0x48, 0x46, 0x54, 0x5A,\n0xE0, 0xEE, 0xFC, 0xF2, 0xD8, 0xD6, 0xC4, 0xCA, 0x90, 0x9E, 0x8C, 0x82, 0xA8, 0xA6, 0xB4, 0xBA,\n0xCE, 0xC0, 0xD2, 0xDC, 0xF6, 0xF8, 0xEA, 0xE4, 0xBE, 0xB0, 0xA2, 0xAC, 0x86, 0x88, 0x9A, 0x94,\n0x2E, 0x20, 0x32, 0x3C, 0x16, 0x18, 0x0A, 0x04, 0x5E, 0x50, 0x42, 0x4C, 0x66, 0x68, 0x7A, 0x74,\n0x92, 0x9C, 0x8E, 0x80, 0xAA, 0xA4, 0xB6, 0xB8, 0xE2, 0xEC, 0xFE, 0xF0, 0xDA, 0xD4, 0xC6, 0xC8,\n0x72, 0x7C, 0x6E, 0x60, 0x4A, 0x44, 0x56, 0x58, 0x02, 0x0C, 0x1E, 0x10, 0x3A, 0x34, 0x26, 0x28,\n0x5C, 0x52, 0x40, 0x4E, 0x64, 0x6A, 0x78, 0x76, 0x2C, 0x22, 0x30, 0x3E, 0x14, 0x1A, 0x08, 0x06,\n0xBC, 0xB2, 0xA0, 0xAE, 0x84, 0x8A, 0x98, 0x96, 0xCC, 0xC2, 0xD0, 0xDE, 0xF4, 0xFA, 0xE8, 0xE6,\n0x2A, 0x24, 0x36, 0x38, 0x12, 0x1C, 0x0E, 0x00, 0x5A, 0x54, 0x46, 0x48, 0x62, 0x6C, 0x7E, 0x70,\n0xCA, 0xC4, 0xD6, 0xD8, 0xF2, 0xFC, 0xEE, 0xE0, 0xBA, 0xB4, 0xA6, 0xA8, 0x82, 0x8C, 0x9E, 0x90,\n0xE4, 0xEA, 0xF8, 0xF6, 0xDC, 0xD2, 0xC0, 0xCE, 0x94, 0x9A, 0x88, 0x86, 0xAC, 0xA2, 0xB0, 0xBE,\n0x04, 0x0A, 0x18, 0x16, 0x3C, 0x32, 0x20, 0x2E, 0x74, 0x7A, 0x68, 0x66, 0x4C, 0x42, 0x50, 0x5E,\n0xB8, 0xB6, 0xA4, 0xAA, 0x80, 0x8E, 0x9C, 0x92, 0xC8, 0xC6, 0xD4, 0xDA, 0xF0, 0xFE, 0xEC, 0xE2,\n0x58, 0x56, 0x44, 0x4A, 0x60, 0x6E, 0x7C, 0x72, 0x28, 0x26, 0x34, 0x3A, 0x10, 0x1E, 0x0C, 0x02,\n0x76, 0x78, 0x6A, 0x64, 0x4E, 0x40, 0x52, 0x5C, 0x06, 0x08, 0x1A, 0x14, 0x3E, 0x30, 0x22, 0x2C,\n0x96, 0x98, 0x8A, 0x84, 0xAE, 0xA0, 0xB2, 0xBC, 0xE6, 0xE8, 0xFA, 0xF4, 0xDE, 0xD0, 0xC2, 0xCC};\n\n\n\nconst char Table95[]={\n0x00, 0x2A, 0x54, 0x7E, 0xA8, 0x82, 0xFC, 0xD6, 0x7A, 0x50, 0x2E, 0x04, 0xD2, 0xF8, 0x86, 0xAC,\n0xF4, 0xDE, 0xA0, 0x8A, 0x5C, 0x76, 0x08, 0x22, 0x8E, 0xA4, 0xDA, 0xF0, 0x26, 0x0C, 0x72, 0x58,\n0xC2, 0xE8, 0x96, 0xBC, 0x6A, 0x40, 0x3E, 0x14, 0xB8, 0x92, 0xEC, 0xC6, 0x10, 0x3A, 0x44, 0x6E,\n0x36, 0x1C, 0x62, 0x48, 0x9E, 0xB4, 0xCA, 0xE0, 0x4C, 0x66, 0x18, 0x32, 0xE4, 0xCE, 0xB0, 0x9A,\n0xAE, 0x84, 0xFA, 0xD0, 0x06, 0x2C, 0x52, 0x78, 0xD4, 0xFE, 0x80, 0xAA, 0x7C, 0x56, 0x28, 0x02,\n0x5A, 0x70, 0x0E, 0x24, 0xF2, 0xD8, 0xA6, 0x8C, 0x20, 0x0A, 0x74, 0x5E, 0x88, 0xA2, 0xDC, 0xF6,\n0x6C, 0x46, 0x38, 0x12, 0xC4, 0xEE, 0x90, 0xBA, 0x16, 0x3C, 0x42, 0x68, 0xBE, 0x94, 0xEA, 0xC0,\n0x98, 0xB2, 0xCC, 0xE6, 0x30, 0x1A, 0x64, 0x4E, 0xE2, 0xC8, 0xB6, 0x9C, 0x4A, 0x60, 0x1E, 0x34,\n0x76, 0x5C, 0x22, 0x08, 0xDE, 0xF4, 0x8A, 0xA0, 0x0C, 0x26, 0x58, 0x72, 0xA4, 0x8E, 0xF0, 0xDA,\n0x82, 0xA8, 0xD6, 0xFC, 0x2A, 0x00, 0x7E, 0x54, 0xF8, 0xD2, 0xAC, 0x86, 0x50, 0x7A, 0x04, 0x2E,\n0xB4, 0x9E, 0xE0, 0xCA, 0x1C, 0x36, 0x48, 0x62, 0xCE, 0xE4, 0x9A, 0xB0, 0x66, 0x4C, 0x32, 0x18,\n0x40, 0x6A, 0x14, 0x3E, 0xE8, 0xC2, 0xBC, 0x96, 0x3A, 0x10, 0x6E, 0x44, 0x92, 0xB8, 0xC6, 0xEC, \n0xD8, 0xF2, 0x8C, 0xA6, 0x70, 0x5A, 0x24, 0x0E, 0xA2, 0x88, 0xF6, 0xDC, 0x0A, 0x20, 0x5E, 0x74, \n0x2C, 0x06, 0x78, 0x52, 0x84, 0xAE, 0xD0, 0xFA, 0x56, 0x7C, 0x02, 0x28, 0xFE, 0xD4, 0xAA, 0x80, \n0x1A, 0x30, 0x4E, 0x64, 0xB2, 0x98, 0xE6, 0xCC, 0x60, 0x4A, 0x34, 0x1E, 0xC8, 0xE2, 0x9C, 0xB6, \n0xEE, 0xC4, 0xBA, 0x90, 0x46, 0x6C, 0x12, 0x38, 0x94, 0xBE, 0xC0, 0xEA, 0x3C, 0x16, 0x68, 0x42}; \n/\nextern const char Table87[];\nextern const char Table95[];\n\nvolatile uint32_t UART0Status;\nvolatile uint8_t UART0TxEmpty = 1;\n//volatile uint8_t UART0Buffer[BUFSIZE];\nvolatile uint32_t UART0Count = 0;\n\nshort rs232_data_out_buff[30];\n\n//char UOB__[60];\n\n//-----------------------------------------------\r\nchar crc_87(char* ptr,char num)\r\n{\r\nchar r,j;\r\nr=ptr;\r\n\r\nfor(j=1;j<num;j++)\r\n\t{\r\n ptr++;\r\n\tr=((ptr)^Table87[r]);\r\n\t}\r\n\r\nreturn r;\t\r\n} \r\n\r\n//-----------------------------------------------\r\nchar crc_95(char* ptr,char num)\r\n{\r\nchar r,j;\r\nr=ptr;\r\n\r\nfor(j=1;j<num;j++)\r\n\t{\r\n ptr++;\r\n\tr=((ptr)^Table95[r]);\r\n\t}\r\n\r\nreturn r;\t\r\n}\r\n\r\n\n\n\n//-----------------------------------------------\nvoid putchar0(char c)\n{\nwhile (tx_counter0 == TX_BUFFER_SIZE0);\nif (tx_counter0 \|\| ((LPC_UART0->LSR & 0x60)==0))\n {\n tx_buffer0[tx_wr_index0]=c;\n if (++tx_wr_index0 == TX_BUFFER_SIZE0) tx_wr_index0=0;\n ++tx_counter0;\n }\nelse LPC_UART0->THR=c;\n}\n\n//-----------------------------------------------\nvoid uart_out0 (char num,char data0,char data1,char data2,char data3,char data4,char data5)\n{\nchar i,t=0;\n//char ptr=&data1;\nunsigned char UOB0[16]; \nUOB0[0]=data0;\nUOB0[1]=data1;\nUOB0[2]=data2;\nUOB0[3]=data3;\nUOB0[4]=data4;\nUOB0[5]=data5;\n\nfor (i=0;i<num;i++)\n\t{\n\tt^=UOB0[i];\n\t} \nUOB0[num]=num;\nt^=UOB0[num];\nUOB0[num+1]=t;\nUOB0[num+2]=END;\n\nfor (i=0;i<num+3;i++)\n\t{\n\tputchar0(UOB0[i]);\n\t} \t\n}\n\n//-----------------------------------------------\nvoid uart_out_buff0 (char ptr, char len)\n{\nchar UOB[60]/={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}/;\nchar i,t=0;\n\n//rs232_data_out_buff[4]=210;\n\nfor(i=0;i<len;i++)\n\t{\n\tUOB[i]=ptr[i];\n\tt^=UOB[i];\n\t}\n\nfor (i=0;i<len;i++)\n\t{\n\tputchar0(UOB[i]);\n\t} \n}\n\n//-----------------------------------------------\nvoid uart_out_adr0 (char ptr, char len)\n{\nchar UOB[60]/={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}/;\nchar i,t=0;\n\n//rs232_data_out_buff[4]=210;\n\nfor(i=0;i<len;i++)\n\t{\n\tUOB[i]=ptr[i];\n\tt^=UOB[i];\n\t}\n//if(!t)t=0xff;\n//UOB[8]=5;\n//UOB[9]=6;\nUOB[10]=200;\n//UOB[11]=8;\nUOB[len]=len;\nt^=len;\t\nUOB[len+1]=t;\t\nUOB[len+2]=END;\n//UOB[0]=i+1;\n//UOB[i]=t^UOB[0];\n//UOB[i+1]=END;\n\t\n//puts(UOB); \nfor (i=0;i<len+3;i++)\n\t{\n\tputchar0(UOB[i]);\n\t} \n}\n\n\n//-----------------------------------------------\nvoid uart_out_adr_block (unsigned long adress,char ptr, char len)\n{\nunsigned char UOB[100]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};\nchar /i,/temp11,t=0;\nunsigned i11;\n\nt=0;\ntemp11=CMND;\nt^=temp11;\nputchar0(temp11);\n\ntemp11=10;\nt^=temp11;\nputchar0(temp11);\n\ntemp11=(((char)&adress));\nt^=temp11;\nputchar0(temp11);\n\ntemp11=((((char)&adress)+1));\nt^=temp11;\nputchar0(temp11);\n\ntemp11=((((char)&adress)+2));\nt^=temp11;\nputchar0(temp11);\n\ntemp11=((((char)&adress)+3));\nt^=temp11;\nputchar0(temp11);\n\n\nfor(i11=0;i11<len;i11++)\n\t{\n\ttemp11=ptr[i11];\n\tt^=temp11;\n\tputchar0(temp11);\n\t}\n\t\ntemp11=(len+6);\nt^=temp11;\nputchar0(temp11);\n\nputchar0(t);\n\nputchar0(0x0a);\n\t\n}\n\n//-----------------------------------------------\nvoid rs232_data_out_1(void)\n{\nshort rs232_data_out_buff[30];\n/\nload_U=12345;\nload_I=23456;\nnet_U=2100;\nnet_F=501;\n/\n\nrs232_data_out_buff[0]=avar_stat;\nrs232_data_out_buff[1]=spc_stat;\nrs232_data_out_buff[2]=load_U;\nrs232_data_out_buff[3]=load_I;\nrs232_data_out_buff[4]=net_U;\nrs232_data_out_buff[5]=net_F;\nrs232_data_out_buff[6]=t_ext[0];\nrs232_data_out_buff[7]=bps[0]._Uii;\nrs232_data_out_buff[8]=bps[0]._Ii;\nrs232_data_out_buff[9]=bps[0]._Ti;\nrs232_data_out_buff[10]=bps[0]._av;\nrs232_data_out_buff[11]=bps[1]._Uii;\nrs232_data_out_buff[12]=bps[1]._Ii;\nrs232_data_out_buff[13]=bps[1]._Ti;\nrs232_data_out_buff[14]=bps[1]._av; \n\n/\n\nrs232_data_out_buff_char[0]=((char)&avar_stat);\nrs232_data_out_buff_char[1]=(((char)&avar_stat)+1);\nrs232_data_out_buff_char[2]=((char)&spc_stat);\nrs232_data_out_buff_char[3]=(((char)&spc_stat)+1);\nrs232_data_out_buff_char[4]=((char)&load_U);\nrs232_data_out_buff_char[5]=(((char)&load_U)+1);\nrs232_data_out_buff_char[6]=((char)&load_I);\nrs232_data_out_buff_char[7]=(((char)&load_I)+1);\nrs232_data_out_buff_char[8]=((char)&net_U);\nrs232_data_out_buff_char[9]=(((char)&net_U)+1);\nrs232_data_out_buff_char[10]=((char)&load_I);\nrs232_data_out_buff_char[11]=(((char)&load_I)+1); /\n\nuart_out_adr0 ((char)rs232_data_out_buff,30);\n}\n\n//-----------------------------------------------\nvoid rs232_data_out(void)\n{\nshort rs232_data_out_buff[30];\n\nrs232_data_out_buff[0]=avar_stat;\nrs232_data_out_buff[1]=spc_stat;\nrs232_data_out_buff[2]=load_U;\nrs232_data_out_buff[3]=load_I;\nrs232_data_out_buff[4]=net_Ua;\nrs232_data_out_buff[5]=net_Ub;\nrs232_data_out_buff[6]=net_Uc;\nrs232_data_out_buff[7]=net_F3;\nrs232_data_out_buff[8]=t_ext[0];\nrs232_data_out_buff[9]=bps[0]._Uii;\nrs232_data_out_buff[10]=bps[0]._Ii;\nrs232_data_out_buff[11]=bps[0]._Ti;\nrs232_data_out_buff[12]=bps[0]._av;\nrs232_data_out_buff[13]=bps[1]._Uii;\nrs232_data_out_buff[14]=bps[1]._Ii;\nrs232_data_out_buff[15]=bps[1]._Ti;\nrs232_data_out_buff[16]=bps[1]._av;\n\nuart_out_adr0 ((char)rs232_data_out_buff, 34);\n}\n\n//-----------------------------------------------\nvoid rs232_data_out_tki(void)\n{\nshort rs232_data_out_buff[30];\n\nrs232_data_out_buff[0]=avar_stat;\nrs232_data_out_buff[1]=spc_stat;\nrs232_data_out_buff[2]=load_U;\nrs232_data_out_buff[3]=load_I;\nrs232_data_out_buff[4]=net_Ua;\nrs232_data_out_buff[5]=net_Ub;\nrs232_data_out_buff[6]=net_Uc;\nrs232_data_out_buff[7]=net_F3;\nrs232_data_out_buff[8]=t_ext[0];\nrs232_data_out_buff[9]=bps[0]._Uii;\nrs232_data_out_buff[10]=bps[0]._Ii;\nrs232_data_out_buff[11]=bps[0]._Ti;\nrs232_data_out_buff[12]=bps[0]._av;\nrs232_data_out_buff[13]=bps[1]._Uii;\nrs232_data_out_buff[14]=bps[1]._Ii;\nrs232_data_out_buff[15]=bps[1]._Ti;\nrs232_data_out_buff[16]=bps[1]._av;\nrs232_data_out_buff[17]=bps[2]._Uii;\nrs232_data_out_buff[18]=bps[2]._Ii;\nrs232_data_out_buff[19]=bps[2]._Ti;\nrs232_data_out_buff[20]=bps[2]._av;\nrs232_data_out_buff[21]=bps[3]._Uii;\nrs232_data_out_buff[22]=bps[3]._Ii;\nrs232_data_out_buff[23]=bps[3]._Ti;\nrs232_data_out_buff[24]=bps[3]._av;\nrs232_data_out_buff[25]=Ib_ips_termokompensat[0];\n\nuart_out_adr0 ((char)rs232_data_out_buff, 52);\n}\n\n/\n//-----------------------------------------------\nvoid uart0_init(void)\n{\n\n\nSET_REG(PINSEL0,1,02,2);\nSET_REG(PINSEL0,1,12,2);\n\n\n\nSET_REG(U0LCR,1,7,1);//U0LCR_bit.DLAB=1;\nU0DLL=70000000UL/(BAUD_RATE016);\nU0DLM=70000000UL/(BAUD_RATE016256);\nSET_REG(U0LCR,0,7,1);//U0LCR_bit.DLAB=0;\nU0LCR=0x03;\nU0FCR=0;\n\nVICProtection = 0;\nVICIntEnClr \|= (1 << VIC_UART0); \nVICIntSelect &= ~(1 << VIC_UART0);\nVICVectAddr9=(unsigned)uart0_interrupt;\nVICVectCntl9 = 0x20 \| VIC_UART0;\nVICIntEnable \|= (1 << VIC_UART0);\n\nU0IER=0x03;\n\n}\n/\n//-----------------------------------------------\nuint32_t UARTInit( uint32_t PortNum, uint32_t baudrate )\n{\nuint32_t Fdiv;\nuint32_t pclkdiv, pclk;\n\n\n\nif ( PortNum == 0 )\n \t{\n\tLPC_PINCON->PINSEL0 &= ~0x000000F0;\n\tLPC_PINCON->PINSEL0 \|= 0x00000050; /* RxD0 is P0.3 and TxD0 is P0.2 /\n\t/ By default, the PCLKSELx value is zero, thus, the PCLK for\n\tall the peripherals is 1/4 of the SystemFrequency. /\n\t/ Bit 6~7 is for UART0 /\n\tpclkdiv = (LPC_SC->PCLKSEL0 >> 6) & 0x03;\n\tswitch ( pclkdiv )\n\t\t{\n\t \tcase 0x00:\n\t \tdefault:\n\t\tpclk = SystemFrequency/4;\n\t\tbreak;\n\t \tcase 0x01:\n\t\tpclk = SystemFrequency;\n\t\tbreak; \n\t \tcase 0x02:\n\t\tpclk = SystemFrequency/2;\n\t\tbreak; \n\t \tcase 0x03:\n\t\tpclk = SystemFrequency/8;\n\t\tbreak;\n\t\t}\n\n \tLPC_UART0->LCR = 0x83;\t\t/ 8 bits, no Parity, 1 Stop bit /\r\n/\r\n#ifdef UKU_ZVU\r\n\t\tif(MODBUS_PARITY==0) \t\t\r\n\t\t\t{\r\n\t\t\tchar temp;\r\n\t\t\ttemp=LPC_UART0->LCR;\r\n\t\t\ttemp&=0xc7;\r\n\t\t\tLPC_UART0->LCR=temp;\r\n\t\t\t}\r\n\t\telse if(MODBUS_PARITY==1) \t\r\n\t\t\t{\r\n\t\t\tchar temp;\r\n\t\t\ttemp=LPC_UART0->LCR;\r\n\t\t\ttemp&=0xc7;\r\n\t\t\ttemp\|=0x08;\r\n\t\t\tLPC_UART0->LCR=temp;\r\n\t\t\t}\r\n\t\telse\r\n\t\t\t{ \r\n\t\t\tchar temp;\r\n\t\t\ttemp=LPC_UART0->LCR;\r\n\t\t\ttemp&=0xc7;\r\n\t\t\ttemp\|=0x18;\r\n\t\t\tLPC_UART0->LCR=temp;\r\n\t\t\t} \r\n\r\n#endif\r\n/\n\tFdiv = ( pclk / 16 ) / baudrate ;\t/baud rate /\n \tLPC_UART0->DLM = Fdiv / 256;\t\t\t\t\t\t\t\n \tLPC_UART0->DLL = Fdiv % 256;\n\tLPC_UART0->LCR = 0x03;\t\t/ DLAB = 0 /\n \tLPC_UART0->FCR = 0x07;\t\t/ Enable and reset TX and RX FIFO. /\n\n \tNVIC_EnableIRQ(UART0_IRQn);\n\n \tLPC_UART0->IER = IER_RBR \| IER_THRE \| IER_RLS;\t/ Enable UART0 interrupt /\n \treturn (TRUE);\n \t}\nelse if ( PortNum == 1 )\n \t{\n\tLPC_PINCON->PINSEL4 &= ~0x0000000F;\n\tLPC_PINCON->PINSEL4 \|= 0x0000000A;\t/ Enable RxD1 P2.1, TxD1 P2.0 /\n\t\n\t/ By default, the PCLKSELx value is zero, thus, the PCLK for\n\tall the peripherals is 1/4 of the SystemFrequency. /\n\t/ Bit 8,9 are for UART1 /\n\tpclkdiv = (LPC_SC->PCLKSEL0 >> 8) & 0x03;\n\tswitch ( pclkdiv )\n\t\t{\n\t \tcase 0x00:\n\t \tdefault:\n\t\tpclk = SystemFrequency/4;\n\t\tbreak;\n\t \tcase 0x01:\n\t\tpclk = SystemFrequency;\n\t\tbreak; \n\t \tcase 0x02:\n\t\tpclk = SystemFrequency/2;\n\t\tbreak; \n\t \tcase 0x03:\n\t\tpclk = SystemFrequency/8;\n\t\tbreak;\n\t\t}\n\n \tLPC_UART1->LCR = 0x83;\t\t/ 8 bits, no Parity, 1 Stop bit /\n\tFdiv = ( pclk / 16 ) / baudrate ;\t/baud rate /\n \tLPC_UART1->DLM = Fdiv / 256;\t\t\t\t\t\t\t\n \tLPC_UART1->DLL = Fdiv % 256;\n\tLPC_UART1->LCR = 0x03;\t\t/ DLAB = 0 /\n \tLPC_UART1->FCR = 0x07;\t\t/ Enable and reset TX and RX FIFO. /\n\n \tNVIC_EnableIRQ(UART1_IRQn);\n\n \tLPC_UART1->IER = IER_RBR \| IER_THRE \| IER_RLS;\t/ Enable UART1 interrupt /\n \treturn (TRUE);\n \t}\nreturn( FALSE ); \n}\n\n//-----------------------------------------------\nchar getchar0(void)\n{\nchar data;\nwhile (rx_counter0==0);\ndata=rx_buffer0[rx_rd_index0];\nif (++rx_rd_index0 == RX_BUFFER_SIZE0) rx_rd_index0=0;\n--rx_counter0;\nreturn data;\n}\n\n//*********************************************\nvoid UART0_IRQHandler (void) \n{\nuint8_t IIRValue, LSRValue;\nuint8_t Dummy = Dummy;\nchar /status,u0iir,/data;\n\nplazma_uart0++;\n\n\n\t\t\t\nIIRValue = LPC_UART0->IIR;\n \nIIRValue >>= 1;\t\t\t/ skip pending bit in IIR /\nIIRValue &= 0x07;\t\t\t/ check bit 1~3, interrupt identification /\nif ( IIRValue == IIR_RLS )\t\t/ Receive Line Status /\n \t{\n\tLSRValue = LPC_UART0->LSR;\n\n\t/ Receive Line Status /\n\tif ( LSRValue & (LSR_OE\|LSR_PE\|LSR_FE\|LSR_RXFE\|LSR_BI) )\n\t\t{\n\t \t/ There are errors or break interrupt /\n\t \t/ Read LSR will clear the interrupt /\n\t \tUART0Status = LSRValue;\n\t \tDummy = LPC_UART0->RBR;\t\t/ Dummy read on RX to clear \n\t\t\t\t\t\t\tinterrupt, then bail out /\n\t \treturn;\n\t\t}\n\tif ( LSRValue & LSR_RDR )\t/ Receive Data Ready /\t\t\t\n\t\t{\n\t\t\n\t\tdata=LPC_UART0->RBR;\n\t\trx_buffer0[rx_wr_index0]=data;\n \t\tbRXIN0=1;\n \t\tif (++rx_wr_index0 == RX_BUFFER_SIZE0) rx_wr_index0=0;\n \t\tif (++rx_counter0 == RX_BUFFER_SIZE0)\n \t\t{\n \t\trx_counter0=0;\n \t\trx_buffer_overflow0=1;\n \t\t}\n\n\t\t\n\t\t}\n \t}\nelse if ( IIRValue == IIR_RDA )\t/ Receive Data Available /\n \t{\n\tplazma_bat_drv0++;\n\tmodbus_plazma++;\n\twhile((LPC_UART0->LSR)&0x0001) {\t\n\tdata=LPC_UART0->RBR;\n\trx_buffer0[rx_wr_index0]=data;\n \tbRXIN0=1;\n \tif (++rx_wr_index0 == RX_BUFFER_SIZE0) rx_wr_index0=0;\n \tif (++rx_counter0 == RX_BUFFER_SIZE0)\n \t{\n \trx_counter0=0;\n \trx_buffer_overflow0=1;\n \t}\n\tmodbus_rx_buffer[modbus_rx_buffer_ptr]=data;\n\tmodbus_rx_buffer_ptr++;\n\tmodbus_timeout_cnt=0;\n\n\n\n\t\n\n\tif(data==0x7e)\n\t\t{\n\t\tbat_drv_rx_cnt=0;\n\t\tbat_drv_rx_cnt=0;\n\t\t}\n\t//if(bat_drv_rx_cnt<50)\n\tbat_drv_rx_buff[bat_drv_rx_cnt++]=data;\n\t//if(bat_drv_rx_cnt==50) bat_drv_rx_in=1; \r\n\r\n\tif(data==0x0d)\r\n\t\t{\r\n\t\tif(BAT_TYPE==2)\r\n\t\t\t{\r\n\t\t\tif(sacredSunRequestPhase==0)\tmem_copy (liBatteryInBuff, bat_drv_rx_buff, bat_drv_rx_cnt);\r\n\t\t\telse if(sacredSunRequestPhase==1)\tmem_copy (&liBatteryInBuff[150], bat_drv_rx_buff, bat_drv_rx_cnt);\r\n\t\t\tsacredSunSilentCnt=0;\r\n\t\t\t}\r\n\t\telse if (BAT_TYPE==3)\r\n\t\t\t{\r\n\t\t\tnumOfPacks_=((ascii2halFhex(bat_drv_rx_buff[15]))<<4)+((ascii2halFhex(bat_drv_rx_buff[16])));\r\n\t\t\tif(numOfPacks_)numOfPacks_--;\r\n\t\t \tif(numOfPacks_<0)numOfPacks_=0;\r\n\t\t\tif(numOfPacks_>NUMBAT)numOfPacks_=0;\r\n\t\t\tzTTSilentCnt[numOfPacks_]=50;\r\n\r\n\t\t\tif(zTTRequestPhase==0)\tmem_copy (liBatteryInBuff, bat_drv_rx_buff, bat_drv_rx_cnt);\r\n\t\t\telse if(zTTRequestPhase==1)\tmem_copy (&liBatteryInBuff[150], bat_drv_rx_buff, bat_drv_rx_cnt);\r\n\t\t\t//zTTSilentCnt=0;\r\n\t\t\t}\r\n\t\t}\n\n\t}\n \t}\nelse if ( IIRValue == IIR_CTI )\t/ Character timeout indicator /\n \t{\n\t/ Character Time-out indicator /\n\tUART0Status \|= 0x100;\t\t/ Bit 9 as the CTI error /\n \t}\nelse if ( IIRValue == IIR_THRE )\t/ THRE, transmit holding register empty /\n \t{\n\t/ THRE interrupt /\n\t\n\tplazma_bat_drv1++;\n\tLSRValue = LPC_UART0->LSR;\t\t/ Check status in the LSR to see if\n\t\t\t\t\t\t\t\t\tvalid data in U0THR or not /\n\tif ( LSRValue & LSR_THRE )\n\t\t{\n\t \tUART0TxEmpty = 1;\n\t\tif (tx_counter0)\n \t\t\t{\n \t\t\t--tx_counter0;\n \t\t\tLPC_UART0->THR=tx_buffer0[tx_rd_index0];\n \t\t\tif (++tx_rd_index0 == TX_BUFFER_SIZE0) tx_rd_index0=0;\n \t\t\t}\n\t\t}\n\telse\n\t\t{\n\t \tUART0TxEmpty = 0;\n\t\t}\n \t}\n}\n\n\n\n//-----------------------------------------------\nvoid uart_in_an0(void)\n{\n\n\n\nif((UIB0[0]=='r')&&(UIB0[1]=='e')&&(UIB0[2]=='a')&&(UIB0[3]=='d')&&(UIB0[6]==crc_87(UIB0,6))&&(UIB0[7]==crc_95(UIB0,6)))\n\t{\n\tunsigned short ptr;\n\tunsigned long data1,data2;\n\tchar temp_out[20];\n\tptr=UIB0[4]+(UIB0[5]256U);\n\tdata1=lc640_read_long(ptr);\n\tdata2=lc640_read_long(ptr+4);\n\ttemp_out[0]='r';\n\ttemp_out[1]='e';\n\ttemp_out[2]='a';\n\ttemp_out[3]='d';\n\ttemp_out[4]=((char)&ptr);\n\ttemp_out[5]=(((char)&ptr)+1);\t\n\ttemp_out[6]=((char)&data1);\n\ttemp_out[7]=(((char)&data1)+1);\t\t\n\ttemp_out[8]=(((char)&data1)+2);\t\n\ttemp_out[9]=(((char)&data1)+3);\t\t\n\ttemp_out[10]=((char)&data2);\n\ttemp_out[11]=(((char)&data2)+1);\t\t\n\ttemp_out[12]=(((char)&data2)+2);\t\n\ttemp_out[13]=(((char)&data2)+3);\t\n\ttemp_out[14]=crc_87(temp_out,14);\t\n\ttemp_out[15]=crc_95(temp_out,14);\t\t\t\n\tuart_out_adr0(temp_out,16);\n\t}\n\n\nif((UIB0[0]=='w')&&(UIB0[1]=='r')&&(UIB0[2]=='i')&&(UIB0[3]=='t')&&(UIB0[4]=='e')&&(UIB0[15]==crc_87(UIB0,15))&&(UIB0[16]==crc_95(UIB0,15)))\n\t{\n\tunsigned short ptr;\n\tunsigned long data1,data2;\n\tchar temp_out[20];\n\tptr=UIB0[5]+(UIB0[6]256U);\n\t((char)&data1)=UIB0[7];\n\t(((char)&data1)+1)=UIB0[8];\n\t(((char)&data1)+2)=UIB0[9];\n\t(((char)&data1)+3)=UIB0[10];\n\t((char)&data2)=UIB0[11];\n\t(((char)&data2)+1)=UIB0[12];\n\t(((char)&data2)+2)=UIB0[13];\n\t(((char)&data2)+3)=UIB0[14];\t\n\tlc640_write_long(ptr,data1);\n\tlc640_write_long(ptr+4,data2);\n\t\n\t//data1=lc640_read_long(ptr);\n\t//data2=lc640_read_long(ptr+4);\n\ttemp_out[0]='w';\n\ttemp_out[1]='r';\n\ttemp_out[2]='i';\n\ttemp_out[3]='t';\n\ttemp_out[4]='e';\n\ttemp_out[5]=((char)&ptr);\n\ttemp_out[6]=(((char)&ptr)+1);\t\n\t/temp_out[6]=((char)&data1);\n\ttemp_out[7]=(((char)&data1)+1);\t\t\n\ttemp_out[8]=(((char)&data1)+2);\t\n\ttemp_out[9]=(((char)&data1)+3);\t\t\n\ttemp_out[10]=((char)&data2);\n\ttemp_out[11]=(((char)&data2)+1);\t\t\n\ttemp_out[12]=(((char)&data2)+2);\t\n\ttemp_out[13]=(((char)&data2)+3);\t/\n\ttemp_out[7]=crc_87(temp_out,7);\t\n\ttemp_out[8]=crc_95(temp_out,7);\t\t\t\n\tuart_out_adr0(temp_out,9);\n\t}\n\n}\n\n\n\n//-----------------------------------------------\nsigned short index_offset0 (signed short index,signed short offset)\n{\nindex=index+offset;\nif(index>=RX_BUFFER_SIZE0) index-=RX_BUFFER_SIZE0; \nif(index<0) index+=RX_BUFFER_SIZE0;\nreturn index;\n}\n\n//-----------------------------------------------\nchar control_check0(signed short index)\n{\nchar i=0,ii=0,iii;\n\nif(rx_buffer0[index]!=END) goto error_cc;\n\nii=rx_buffer0[index_offset0(index,-2)];\niii=0;\nfor(i=0;i<=ii;i++)\n\t{\n\tiii^=rx_buffer0[index_offset0(index,-2-ii+i)];\n\t}\nif (iii!=rx_buffer0[index_offset0(index,-1)]) goto error_cc;\t\n\n\n//success_cc:\nreturn 1;\nerror_cc:\nreturn 0;\n\n}\n\n//-----------------------------------------------\nvoid uart_in0(void)\n{\nchar temp,i/,count/;\n\n//__disable_irq();\n\nif(rx_buffer_overflow0)\n\t{\n\trx_wr_index0=0;\n\trx_rd_index0=0;\n\trx_counter0=0;\n\trx_buffer_overflow0=0;\n\t} \n\t\nif(rx_counter0&&(rx_buffer0[index_offset0(rx_wr_index0,-1)])==END)\n\t{\n\t\n temp=rx_buffer0[index_offset0(rx_wr_index0,-3)];\n \tif(temp<100) \n \t\t{\n \t\tif(control_check0(index_offset0(rx_wr_index0,-1)))\n \t\t\t{\n \t\t\n \t\t\trx_rd_index0=index_offset0(rx_wr_index0,-3-temp);\n \t\t\tfor(i=0;i<temp;i++)\n\t\t\t\t{\n\t\t\t\tUIB0[i]=rx_buffer0[index_offset0(rx_rd_index0,i)];\n\t\t\t\t} \n\t\t\trx_rd_index0=rx_wr_index0;\n\t\t\trx_counter0=0;\n\t\t\t\n\t\t\tuart_in_an0();\n \t\t\t}\n \t\n \t\t} \n \t}\t\n\n\n//__enable_irq(); \n} \t\n" }, { "alpha_fraction": 0.5953002572059631, "alphanum_fraction": 0.6684073209762573, "avg_line_length": 21.6875, "blob_id": "ccb52ff04373128af66cd3280b3e7ca641a6591d", "content_id": "06be3ce7491faa2ff8fa87e9f4ea0054b4cc8587", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 401, "license_type": "no_license", "max_line_length": 99, "num_lines": 16, "path": "/SOFT/UKU/2-2021.03.03/2-2021.03.03/EXE/3.py", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "import os\r\nimport shutil\r\n\r\ntargetDir = \"P:\\\\test\\\\UKU20712_efert\\\\\"\r\nversion=2\r\nsubversion=3\r\nbuild=346\r\n\r\ntry : os.mkdir(targetDir+\"2018_05_30\")\r\nexcept FileExistsError :\r\n\tprint (\"Папка уже существует\")\r\n\tinput()\r\n\t#os.system(\"pause\")\r\n\r\ntargetDir1 = targetDir+\"2018_05_30\"\r\nshutil.copy(\"test.hex\",targetDir1+\"\\\\efert\"+str(version)+\".\"+str(subversion)+\".\"+str(build)+\".hex\")\r\n\r\n\r\n" }, { "alpha_fraction": 0.5151487588882446, "alphanum_fraction": 0.5677130818367004, "avg_line_length": 26.176767349243164, "blob_id": "bc91558299e4778dcd306cf7f1d58722a8daf129", "content_id": "304fd80035382489371cf329451e76ffdf5bbd28", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 11450, "license_type": "no_license", "max_line_length": 120, "num_lines": 396, "path": "/SOFT/UKU/2rki/MODBUS_TCP.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "WINDOWS-1251", "text": "\r\n#include <lpc17xx.h>\r\n#include <rtl.h>\r\n#include \"main.h\"\r\n#include \"modbus_tcp.h\"\r\n#include \"eeprom_map.h\"\r\n#include \"25lc640.h\"\r\n\r\nchar plazma_modbus_tcp[20];\r\nchar modbus_tcp_plazma[20];\r\n\r\nchar modbus_tcp_func;\r\nchar modbus_tcp_unit;\r\nshort modbus_tcp_rx_arg0;\r\nshort modbus_tcp_rx_arg1;\r\n\r\n//#define MODBUS_TCP_PROT\t1\r\n\r\nchar modbus_tcp_out_ptr;\r\n\r\n/--------------------------- TCP socket ------------------------------------/\r\n\r\nU16 tcp_callback (U8 soc, U8 evt, U8 ptr, U16 par) \r\n{\r\n/ This function is called by the TCP module on TCP event /\r\n/ Check the 'Net_Config.h' for possible events. /\r\npar = par;\r\n\r\nif (soc != socket_tcp) {\r\n\treturn (0);\r\n}\r\n\r\nmodbus_tcp_plazma[0]++;\r\n\r\nswitch (evt) \r\n\t{\r\n case TCP_EVT_DATA:\r\n / TCP data frame has arrived, data is located at par1, /\r\n /* data length is par2. Allocate buffer to send reply. /\r\n //procrec(ptr);\r\n\t\r\n\tplazma_modbus_tcp[1]=ptr[0];\r\n\tplazma_modbus_tcp[2]=ptr[1];\r\n\tplazma_modbus_tcp[3]=ptr[2];\r\n\tplazma_modbus_tcp[4]=ptr[3];\r\n\tplazma_modbus_tcp[5]=ptr[4];\r\n\tplazma_modbus_tcp[6]=ptr[5];\r\n\tplazma_modbus_tcp[7]=ptr[6];\r\n\tplazma_modbus_tcp[8]=ptr[7];\r\n\tplazma_modbus_tcp[9]=ptr[8];\r\n\tplazma_modbus_tcp[10]=ptr[9];\r\n\tplazma_modbus_tcp[11]=ptr[10];\r\n\t //plazma_modbus_tcp[4]=ptr[3];\r\n\t //plazma_modbus_tcp[5]=par;\r\n\t //plazma_modbus_tcp[6]=ptr[5];\r\n\r\n \t\r\n\tmodbus_tcp_func=ptr[7];\r\n\tmodbus_tcp_unit=ptr[6];\r\n\n\tmodbus_tcp_rx_arg0=(((unsigned short)ptr[8])((unsigned short)256))+((unsigned short)ptr[9]);\n\tmodbus_tcp_rx_arg1=(((unsigned short)ptr[10])((unsigned short)256))+((unsigned short)ptr[11]);\r\n\n\tif(modbus_tcp_unit==MODBUS_ADRESS)\n\t\t{\r\n\t\tchar modbus_tcp_tx_buff[200];\r\n\r\n\t\tif(modbus_tcp_func==3)\t\t//чтение произвольного кол-ва регистров хранения\n\t\t\t{\r\n\t\t\tU8 sendbuf;\r\n\t\t\t\r\n\r\n\t\t\tmodbus_hold_registers_transmit(MODBUS_ADRESS,modbus_tcp_func,modbus_tcp_rx_arg0,modbus_tcp_rx_arg1,MODBUS_TCP_PROT);\r\n\r\n\t\t\tsendbuf = tcp_get_buf((modbus_tcp_rx_arg12)+9);\r\n\t\t\tsendbuf[0]=ptr[0];\r\n\t\t\tsendbuf[1]=ptr[1];\r\n\t\t\tsendbuf[2]=ptr[2];\r\n\t\t\tsendbuf[3]=ptr[3];\r\n\t\t\tsendbuf[4]=((modbus_tcp_rx_arg12)+3)/256;\r\n\t\t\tsendbuf[5]=((modbus_tcp_rx_arg12)+3)%256;;\r\n\t\t\tsendbuf[6]=modbus_tcp_unit;\r\n\t\t\tsendbuf[7]=modbus_tcp_func;\r\n\t\t\tsendbuf[8]=(U8)(modbus_tcp_rx_arg12);\r\n\t\t\tmem_copy((char)&sendbuf[9],modbus_tcp_out_ptr,(modbus_tcp_rx_arg12));\r\n\t\t\t//sendbuf[9]=3;\r\n\t\t\t//sendbuf[10]=4;\r\n \ttcp_send (socket_tcp, sendbuf, ((modbus_tcp_rx_arg12)+9));\r\n\t\t\t//\n\t\t\t\r\n\t\t\t//modbus_tcp_tx_buff[4]=0;\r\n\t\t\t//modbus_tcp_tx_buff[5]=5;\r\n\t\t\t//modbus_tcp_tx_buff[6]=1;//modbus_tcp_unit;\r\n\t\t\t//modbus_tcp_tx_buff[7]=3;//modbus_tcp_func;\r\n\t\t\t//modbus_tcp_tx_buff[8]=2;\r\n\t\t\t//mem_copy((char)&modbus_tcp_tx_buff[9],modbus_tcp_out_ptr,2);\r\n\t\t\t//modbus_tcp_tx_buff[9]=2;\r\n\t\t\t//modbus_tcp_tx_buff[10]=3;\r\n\t\t\t//tcp_send (socket_tcp, modbus_tcp_tx_buff, 11);\r\n\r\n\r\n\t\t\t}\n\n\t\tif(modbus_tcp_func==4)\t\t//чтение произвольного кол-ва регистров\tвходов\n\t\t\t{\r\n\t\t\tU8 sendbuf;\r\n\n\t\t\tmodbus_input_registers_transmit(MODBUS_ADRESS,modbus_tcp_func,modbus_tcp_rx_arg0,modbus_tcp_rx_arg1,MODBUS_TCP_PROT);\r\n\n\t\t\tsendbuf = tcp_get_buf((modbus_tcp_rx_arg12)+9);\r\n\t\t\tsendbuf[0]=ptr[0];\r\n\t\t\tsendbuf[1]=ptr[1];\r\n\t\t\tsendbuf[2]=ptr[2];\r\n\t\t\tsendbuf[3]=ptr[3];\r\n\t\t\tsendbuf[4]=((modbus_tcp_rx_arg12)+3)/256;\r\n\t\t\tsendbuf[5]=((modbus_tcp_rx_arg12)+3)%256;;\r\n\t\t\tsendbuf[6]=modbus_tcp_unit;\r\n\t\t\tsendbuf[7]=modbus_tcp_func;\r\n\t\t\tsendbuf[8]=(U8)(modbus_tcp_rx_arg12);\r\n\t\t\tmem_copy((char)&sendbuf[9],modbus_tcp_out_ptr,(modbus_tcp_rx_arg12));\r\n\t\t\t//sendbuf[9]=3;\r\n\t\t\t//sendbuf[10]=4;\r\n \ttcp_send (socket_tcp, sendbuf, ((modbus_tcp_rx_arg12)+9));\r\n\t\t\t//\n\t\t\t\r\n\t\t\t//modbus_tcp_tx_buff[4]=0;\r\n\t\t\t//modbus_tcp_tx_buff[5]=5;\r\n\t\t\t//modbus_tcp_tx_buff[6]=1;//modbus_tcp_unit;\r\n\t\t\t//modbus_tcp_tx_buff[7]=3;//modbus_tcp_func;\r\n\t\t\t//modbus_tcp_tx_buff[8]=2;\r\n\t\t\t//mem_copy((char)&modbus_tcp_tx_buff[9],modbus_tcp_out_ptr,2);\r\n\t\t\t//modbus_tcp_tx_buff[9]=2;\r\n\t\t\t//modbus_tcp_tx_buff[10]=3;\r\n\t\t\t//tcp_send (socket_tcp, modbus_tcp_tx_buff, 11);\r\n\t\t\t}\n\n\t\telse if(modbus_tcp_func==6) \t//запись регистров хранения\n\t\t\t{\r\n\t\t\tU8 sendbuf;\r\n\r\n\t\t\t\n\t\t\tif(modbus_tcp_rx_arg0==11)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->YEAR=(uint16_t)modbus_tcp_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_tcp_rx_arg0==12)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->MONTH=(uint16_t)modbus_tcp_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_tcp_rx_arg0==13)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->DOM=(uint16_t)modbus_tcp_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_tcp_rx_arg0==14)\t\t//Установка времени \n\t\t\t\t{\r\n\t\t\t\tplazma_modbus_tcp[0]++;\n\t\t\t\tLPC_RTC->HOUR=(uint16_t)modbus_tcp_rx_arg1;\n\t\t\t\t}\n\t\t\tif(modbus_tcp_rx_arg0==15)\t\t//Установка времени \n\t\t\t\t{\n\t\t\t\tLPC_RTC->MIN=(uint16_t)modbus_tcp_rx_arg1;\n\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==16)\t\t//Установка времени \n\t\t\t\t\t{\n\t\t\t\t\tLPC_RTC->SEC=(uint16_t)modbus_tcp_rx_arg1;\n\t\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==20)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t\t{\n\t\t\t\t\tif((modbus_tcp_rx_arg1>0)&&(modbus_tcp_rx_arg1<=18))\n\t\t\t\t\tlc640_write_int(EE_NUMIST,modbus_tcp_rx_arg1); \n\t\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==21)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t\t{\n\t\t\t\t\tif((modbus_tcp_rx_arg1==0)\|\|(modbus_tcp_rx_arg1==1))\n\t\t\t\t\tlc640_write_int(EE_PAR,modbus_tcp_rx_arg1); \n\t\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==22)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t\t{\n\t\t\t\t\tif((modbus_tcp_rx_arg1==0)\|\|(modbus_tcp_rx_arg1==1))\n\t\t\t\t\tlc640_write_int(EE_ZV_ON,modbus_tcp_rx_arg1); \n\t\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==23)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t\t{\n\t\t\t\t\tif((modbus_tcp_rx_arg1==0)\|\|(modbus_tcp_rx_arg1==1))\n\t\t\t\t\tlc640_write_int(EE_TERMOKOMP,modbus_tcp_rx_arg1); \n\t\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==24)\t\t//ток стабилизации для режима стабилизации тока\n\t\t\t\t\t{\n\t\t\t\t\tif((modbus_tcp_rx_arg1>=0)\|\|(modbus_tcp_rx_arg1<=20))\n\t\t\t\t\tlc640_write_int(EE_UBM_AV,modbus_tcp_rx_arg1); \n\t\t\t\t\t}\n\t\n\t\n\t\t\t\tif(modbus_tcp_rx_arg0==30)\t\t//напряжение стабилизации для режима стабилизации напряжения\n\t\t\t\t\t{\n\t\t\t\t\tif(modbus_tcp_rx_arg1<0)TBAT=0;\n\t\t\t\t\telse if((modbus_tcp_rx_arg1>0)&&(modbus_tcp_rx_arg1<=5))modbus_tcp_rx_arg1=0;\n\t\t\t\t\telse if(modbus_tcp_rx_arg1>=60)TBAT=60;\n\t\t\t\t\telse TBAT=modbus_tcp_rx_arg1;\n\t\t\t\t\tlc640_write_int(EE_TBAT,TBAT);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==31)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_UMAX,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==32)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_DU,UB20-modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==33)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_UB0,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==34)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_UB20,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==35)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_USIGN,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==36)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_UMN,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==37)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_U0B,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==38)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_IKB,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==39)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_IZMAX,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==40)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_IMAX,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==41)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_IMIN,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==42)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_UVZ,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==43)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_TZAS,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==44)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_TMAX,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==45)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_TSIGN,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==46)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_TBATMAX,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==47)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_TBATSIGN,modbus_tcp_rx_arg1);\n\t\t \t\t}\r\n\t\t\t\tif(modbus_tcp_rx_arg0==48)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_SPEED_CHRG_CURR,modbus_tcp_rx_arg1);\n\t\t \t\t}\r\n\t\t\t\tif(modbus_tcp_rx_arg0==49)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_SPEED_CHRG_VOLT,modbus_tcp_rx_arg1);\n\t\t \t\t}\r\n\t\t\t\tif(modbus_tcp_rx_arg0==50)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_SPEED_CHRG_TIME,modbus_tcp_rx_arg1);\n\t\t \t\t}\r\n\t\t\t\tif(modbus_tcp_rx_arg0==51)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_U_OUT_KONTR_MAX,modbus_tcp_rx_arg1);\n\t\t \t\t}\r\n\t\t\t\tif(modbus_tcp_rx_arg0==52)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_U_OUT_KONTR_MIN,modbus_tcp_rx_arg1);\n\t\t \t\t}\r\n\t\t\t\tif(modbus_tcp_rx_arg0==53)\t\t//\n\t\t\t\t\t{\n\t\t\t\t\tlc640_write_int(EE_U_OUT_KONTR_DELAY,modbus_tcp_rx_arg1);\n\t\t \t\t}\n\t\n\t\t\t\tif(modbus_tcp_rx_arg0==19)\t\t//вкл/выкл источника напр.\n\t\t\t\t\t{\n\t\t/\t\t\tif(modbus_tcp_rx_arg1==1)\n\t\t\t\t\t\t{\n\t\t\t\t\t\tif(work_stat!=wsPS)\n\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\twork_stat=wsPS;\n\t\t\t\t\t\t\ttime_proc=0;\n\t\t\t\t\t\t\ttime_proc_remain=T_PROC_PS;\n\t\t\t\t\t\t\trestart_on_PS();\n\t\t\t\t\t\t\tlc640_write_int(EE_MAIN_MENU_MODE,mmmIN);\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\t\tif(modbus_tcp_rx_arg1==0)\n\t\t\t\t\t\t{\n\t\t\t\t\t\tif(work_stat==wsPS)\n\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\twork_stat=wsOFF;\n\t\t\t\t\t\t\trestart_off();\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t} /\n\t\t\t\t\t}\n\t\t\t\tif(modbus_tcp_rx_arg0==20)\t\t//вкл/выкл источника тока\n\t\t\t\t\t{\n\t/\t\t\t\tif(modbus_tcp_rx_arg1==1)\n\t\t\t\t\t\t{\n\t\t\t\t\t\tif(work_stat!=wsGS)\n\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\twork_stat=wsGS;\n\t\t\t\t\t\t\ttime_proc=0;\n\t\t\t\t\t\t\ttime_proc_remain=T_PROC_GS;\n\t\t\t\t\t\t\tlc640_write_int(EE_MAIN_MENU_MODE,mmmIT);\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\t\tif(modbus_tcp_rx_arg1==0)\n\t\t\t\t\t\t{\n\t\t\t\t\t\tif(work_stat==wsGS)\n\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\twork_stat=wsOFF;\n\t\t\t\t\t\t\trestart_off();\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}/\n\t\t\t\t\t}\n\t\t\t\tmodbus_hold_registers_transmit(MODBUS_ADRESS,modbus_tcp_func,modbus_tcp_rx_arg0,1,MODBUS_TCP_PROT);\r\n\t\r\n\t\t\t\tsendbuf = tcp_get_buf(11);\r\n\t\t\t\tsendbuf[0]=ptr[0];\r\n\t\t\t\tsendbuf[1]=ptr[1];\r\n\t\t\t\tsendbuf[2]=ptr[2];\r\n\t\t\t\tsendbuf[3]=ptr[3];\r\n\t\t\t\tsendbuf[4]=0;\r\n\t\t\t\tsendbuf[5]=6;\r\n\t\t\t\tsendbuf[6]=modbus_tcp_unit;\r\n\t\t\t\tsendbuf[7]=modbus_tcp_func;\r\n\t\t\t\tsendbuf[8]=modbus_tcp_rx_arg0/256;\r\n\t\t\t\tsendbuf[9]=modbus_tcp_rx_arg0%256;\r\n\t\t\t\tmem_copy((char)&sendbuf[10],modbus_tcp_out_ptr,2);\r\n\t\t\t\t//sendbuf[9]=3;\r\n\t\t\t\t//sendbuf[10]=4;\r\n\t \ttcp_send (socket_tcp, sendbuf, 12);\r\n\t\t\t\t//\n\t\t\t\t\r\n\t\t\t\t//modbus_tcp_tx_buff[4]=0;\r\n\t\t\t\t//modbus_tcp_tx_buff[5]=5;\r\n\t\t\t\t//modbus_tcp_tx_buff[6]=1;//modbus_tcp_unit;\r\n\t\t\t\t//modbus_tcp_tx_buff[7]=3;//modbus_tcp_func;\r\n\t\t\t\t//modbus_tcp_tx_buff[8]=2;\r\n\t\t\t\t//mem_copy((char)&modbus_tcp_tx_buff[9],modbus_tcp_out_ptr,2);\r\n\t\t\t\t//modbus_tcp_tx_buff[9]=2;\r\n\t\t\t\t//modbus_tcp_tx_buff[10]=3;\r\n\t\t\t\t//tcp_send (socket_tcp, modbus_tcp_tx_buff, 11);\r\n\r\n\r\n\r\n\r\n\r\n\r\n\t\t\t\t}\r\n\r\n\r\n\t\t\t\n\t\t\t} \n \tbreak;\r\n\r\n \tcase TCP_EVT_CONREQ:\r\n \t\t/* Remote peer requested connect, accept it /\r\n\t\t\t//ica_plazma[5]++;\r\n \t\treturn (1);\r\n\r\n \tcase TCP_EVT_CONNECT:\r\n \t\t/ The TCP socket is connected /\r\n\t\t\ttcp_connect_stat=1;\r\n\t\t\t//ica_plazma[6]++;\r\n \t\treturn (1);\r\n\r\n \tcase TCP_EVT_CLOSE: \r\n \t\t/ The TCP socket is connected /\r\n\t\t\ttcp_connect_stat=0;\r\n\t\t\t//ica_plazma[7]++;\r\n \t\treturn (1);\r\n \t\t}\r\n \treturn (0);\r\n}\r\n\r\n\r\n\r\n" }, { "alpha_fraction": 0.6826484203338623, "alphanum_fraction": 0.715753436088562, "avg_line_length": 42.79999923706055, "blob_id": "9b74737cdca268626236bf286fa8d409144faf36", "content_id": "8b641fe182c975161aa6ff82547e28dd91e21ca0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "JavaScript", "length_bytes": 876, "license_type": "no_license", "max_line_length": 121, "num_lines": 20, "path": "/DOCs/ФСО/[email protected] Входящие Message1_files/counters.js.Без названия", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "$(document).ready( function() {\n\n\tvar script = document.createElement('script');\n\tscript.src = '//bs.yandex.ru/resource/watch.js';\n\tdocument.getElementById(\"counters\").appendChild(script);\n\n\tvar script1 = document.createElement('script');\n\tscript1.text = 'try { var yaCounter188943 = new Ya.Metrika(188943); } catch(e){}';\n\tdocument.getElementById(\"counters\").appendChild(script1);\n\n\tvar script2 = document.createElement('script');\n\tvar gaJsHost = ((\"https:\" == document.location.protocol) ? \"https://ssl.\" : \"http://www.\");\n\tscript2.src = gaJsHost + \"google-analytics.com/ga.js\";\n\tdocument.getElementById(\"counters\").appendChild(script2);\n\n\tvar script3 = document.createElement('script');\n\tscript3.text = 'try {var pageTracker = _gat._getTracker(\"UA-9803039-1\"); pageTracker._trackPageview(); } catch(err) {}';\n\tdocument.getElementById(\"counters\").appendChild(script3);\n\n});\n" }, { "alpha_fraction": 0.6374301910400391, "alphanum_fraction": 0.7184357643127441, "avg_line_length": 26.349206924438477, "blob_id": "fa180d09e39420c32deacc19bce6118f16036a58", "content_id": "3bd86f7ddc62ede24c7c0ec9515deb36185fe246", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1790, "license_type": "no_license", "max_line_length": 92, "num_lines": 63, "path": "/SOFT/UKU/2rki/uart0.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\n#define RX_BUFFER_SIZE0 1024\r\n#define TX_BUFFER_SIZE0 1024\r\n\r\n#define BUFSIZE \t\t1024\r\n\r\n#define IER_RBR\t\t0x01\r\n#define IER_THRE\t\t0x02\r\n#define IER_RLS\t\t0x04\r\n\r\n#define PT\t(UIB0[1]&0x80)\r\n#define C_D\t(UIB0[1]&0x40)\r\n#define FR\t(UIB0[1]&0x20)\r\n\r\n#define IIR_PEND\t0x01\r\n#define IIR_RLS\t\t0x03\r\n#define IIR_RDA\t\t0x02\r\n#define IIR_CTI\t\t0x06\r\n#define IIR_THRE\t0x01\r\n\r\n#define LSR_RDR\t\t0x01\r\n#define LSR_OE\t\t0x02\r\n#define LSR_PE\t\t0x04\r\n#define LSR_FE\t\t0x08\r\n#define LSR_BI\t\t0x10\r\n#define LSR_THRE\t0x20\r\n#define LSR_TEMT\t0x40\r\n#define LSR_RXFE\t0x80\r\n\r\n#define VIC_UART0\t6\r\n\r\nextern char bRXIN0;\r\nextern char UIB0[100];\r\nextern char flag0;\r\nextern char rx_buffer0[RX_BUFFER_SIZE0];\r\nextern unsigned char tx_buffer0[TX_BUFFER_SIZE0];\r\nextern unsigned short rx_wr_index0,rx_rd_index0,rx_counter0;\r\nextern unsigned short tx_wr_index0,tx_rd_index0,tx_counter0;\r\nextern char rx_buffer_overflow0;\r\nextern char plazma_uart0;\r\nextern char memo_out[50];\r\nextern char data_rs[50];\r\nextern char data_rs0[50];\r\nextern const char Table87[];\r\nextern const char Table95[]; \r\n\r\nchar crc_87(char ptr,char num);\r\nchar crc_95(char* ptr,char num);\r\nvoid putchar0(char c);\r\nvoid uart_out0 (char num,char data0,char data1,char data2,char data3,char data4,char data5);\r\nvoid uart_out_adr0 (char ptr, char len);\r\nvoid uart0_init(void);\r\nchar getchar0(void);\r\n__irq void uart0_interrupt(void);\r\nvoid uart_in_an0(void);\r\nsigned short index_offset0 (signed short index,signed short offset);\r\nchar control_check0(signed short index);\r\nvoid uart_in0(void);\r\nvoid uart_out_adr_block (unsigned long adress,char ptr, char len);\r\nvoid rs232_data_out(void);\r\nvoid rs232_data_out_tki(void);\r\nvoid uart_out_buff0 (char ptr, char len);\r\nvoid rs232_data_out_1(void);\r\nuint32_t UARTInit( uint32_t PortNum, uint32_t baudrate );\r\n\r\n" }, { "alpha_fraction": 0.6989051103591919, "alphanum_fraction": 0.7201946377754211, "avg_line_length": 36.23255920410156, "blob_id": "1a378cad39312990aa42070cad4e0469d4584e79", "content_id": "8ab653729e60a8a434be96139440930bf6a49e02", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1644, "license_type": "no_license", "max_line_length": 96, "num_lines": 43, "path": "/SOFT/UKU/2rki/common_func.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#ifndef _COMMON_FUNC_H_\r\n\r\n#define _COMMON_FUNC_H_\r\n\r\nsigned short abs(signed short in);\r\nvoid clr_scrn(void);\r\nchar find(char xy);\r\nvoid bin2bcd_int(unsigned int in);\r\nvoid bcd2lcd_zero(char sig);\r\nvoid int2lcd_m(signed short in,char xy,char des);\r\nvoid int2lcd_mm(signed short in,char xy,char des);\r\nvoid int2lcd_mmm(signed short in,char xy,char des);\r\nvoid long2lcd_mmm(signed long in,char xy,char des);\r\nvoid long2lcdyx_mmm(signed long in,char y,char x,char des);\r\nvoid int2lcdyx(unsigned short in,char y,char x,char des);\r\nvoid int2lcd(unsigned short in,char xy,char des);\r\nvoid long2lcdhyx(unsigned long in,char y,char x);\r\nvoid char2lcdh(char in,char yx);\r\nvoid char2lcdhyx(char in,char y,char x);\r\nvoid int2lcdhyx(unsigned short in,char y,char x);\r\nvoid char2lcdbyx(char in,char y,char x);\r\nvoid pointer_set(char num_of_first_row);\r\nvoid tree_down(signed char offset_ind,signed char offset_sub_ind);\r\nvoid tree_up(char tind, char tsub_ind, char tindex_set, char tsub_ind1);\r\nvoid bgnd_par(char const ptr0,char const ptr1,char const ptr2,char const ptr3);\r\nvoid sub_bgnd(char const adr,char xy,signed char offset);\r\nvoid show_mess(char* p1, char* p2, char* p3, char* p4,int m_sec);\r\nvoid show_mess_number(char* p1, char* p2, char* p3, char* p4,int m_sec,short number,char komma);\r\nvoid event2ind(char num, char simbol);\r\nchar ptr_carry(signed int in,unsigned char modul,signed int carry);\r\nvoid event_data2ind(char num, char simbol);\r\nvoid ip2lcd(\tshort in1,\r\n\t\t\tshort in2,\r\n\t\t\tshort in3,\r\n\t\t\tshort in4,\r\n\t\t\tchar xy,\r\n\t\t\tchar flash_pos);\r\nvoid community2lcd(char* in,\r\n\t\t\tchar xy,\r\n\t\t\tchar flash_pos,\r\n\t\t\tchar flash_on);\r\n\r\n#endif\r\n" }, { "alpha_fraction": 0.4597107470035553, "alphanum_fraction": 0.4597107470035553, "avg_line_length": 23.447368621826172, "blob_id": "85933793c21981ac799ac2d37dca59f146099a01", "content_id": "f1bd3c028b36d3eb4dc65e65f3a6d947fff3df20", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 968, "license_type": "no_license", "max_line_length": 71, "num_lines": 38, "path": "/SOFT/UKU/2/gran.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"global_define.h\"\r\n#include \"gran.h\"\r\n#include \"main.h\"\r\n\r\n//-----------------------------------------------\r\nvoid gran_ring_char(signed char adr, signed char min, signed char max)\r\n{\r\nif (adr<min) adr=max;\r\nif (adr>max) adr=min; \r\n} \r\n \r\n//-----------------------------------------------\r\nvoid gran_char(signed char adr, signed char min, signed char max)\r\n{\r\nif (adr<min) adr=min;\r\nif (adr>max) adr=max; \r\n} \r\n\r\n//-----------------------------------------------\r\nvoid gran(signed short adr, signed short min, signed short max)\r\n{\r\nif (adr<min) adr=min;\r\nif (adr>max) adr=max; \r\n} \r\n\r\n//-----------------------------------------------\r\nvoid gran_ring(signed short adr, signed short min, signed short max)\r\n{\r\nif (adr<min) adr=max;\r\nif (adr>max) adr=min; \r\n} \r\n\r\n//-----------------------------------------------\r\nvoid gran_long(signed long adr, signed long min, signed long max)\r\n{\r\nif (adr<min) adr=max;\r\nif (adr>max) adr=min; \r\n} \r\n" }, { "alpha_fraction": 0.7352112531661987, "alphanum_fraction": 0.7352112531661987, "avg_line_length": 68.4000015258789, "blob_id": "a3f9121aefade151e98db2c95721ca1fb28e98d9", "content_id": "9ce142e70739b5e0e19094d93fb11f5b754421ae", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 355, "license_type": "no_license", "max_line_length": 73, "num_lines": 5, "path": "/SOFT/UKU/2rki/gran.h", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "\r\nvoid gran_ring_char(signed char adr, signed char min, signed char max) ;\r\nvoid gran_char(signed char adr, signed char min, signed char max);\r\nvoid gran(signed short adr, signed short min, signed short max);\r\nvoid gran_ring(signed short adr, signed short min, signed short max);\r\nvoid gran_long(signed long adr, signed long min, signed long max); \r\n" }, { "alpha_fraction": 0.6252002716064453, "alphanum_fraction": 0.7353969216346741, "avg_line_length": 39.98798751831055, "blob_id": "342231e4c01b99c480ebbfc492c9047c88e1fcc6", "content_id": "dd9d4eb98c2214aa205e1314ce55988e3e14be12", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 13730, "license_type": "no_license", "max_line_length": 84, "num_lines": 333, "path": "/SOFT/UKU/RKI/memo.c", "repo_name": "spa-pal/UKU207_U", "src_encoding": "UTF-8", "text": "#include \"25lc640.h\"\n#include \"memo.h\"\n#include \"eeprom_map.h\"\n#include \"main.h\"\n#include \"snmp_data_file.h\"\n#include \"control.h\"\n#include \"gran.h\"\r\n\n//-----------------------------------------------\nvoid memo_read (void)\n{\nchar i;\n//Ktsrc[0]=lc640_read_int(KTSRC1);\n\n//Ktsrc[1]=lc640_read_int(KTSRC2);\n//Kusrc[0]=lc640_read_int(KUSRC1);\n//Kusrc[1]=lc640_read_int(KUSRC2);\n//Kisrc[0]=lc640_read_int(KISRC1);\n//Kisrc[1]=lc640_read_int(KISRC2);\n//Ki0src[0]=lc640_read_int(KI0SRC1);\n//Ki0src[1]=lc640_read_int(KI0SRC2);\n\nKubat[0]=lc640_read_int(EE_KUBAT1);\nKubat[1]=lc640_read_int(EE_KUBAT2);\nKubatm[0]=lc640_read_int(EE_KUBATM1);\nKubatm[1]=lc640_read_int(EE_KUBATM2);\nKibat0[0]=lc640_read_int(EE_KI0BAT1);\nKibat0[1]=lc640_read_int(EE_KI0BAT2);\nKibat1[0]=lc640_read_int(EE_KI1BAT1);\nKibat1[1]=lc640_read_int(EE_KI1BAT2);\nKtbat[0]=lc640_read_int(EE_KTBAT1);\nKtbat[1]=lc640_read_int(EE_KTBAT2);\nKunet=lc640_read_int(EE_KUNET);\nKuload=lc640_read_int(EE_KULOAD);\nKunet_ext[0]=lc640_read_int(EE_KUNET_EXT0);\nKunet_ext[1]=lc640_read_int(EE_KUNET_EXT1);\nKunet_ext[2]=lc640_read_int(EE_KUNET_EXT2);\nKvv_eb2[0]=lc640_read_int(EE_KVV0_EB2);\nKvv_eb2[1]=lc640_read_int(EE_KVV1_EB2);\nKvv_eb2[2]=lc640_read_int(EE_KVV2_EB2);\nKpes_eb2[0]=lc640_read_int(EE_KPES0_EB2);\nKpes_eb2[1]=lc640_read_int(EE_KPES1_EB2);\nKpes_eb2[2]=lc640_read_int(EE_KPES2_EB2);\nKunetA=lc640_read_int(EE_KUNETA);\nKunetB=lc640_read_int(EE_KUNETB);\nKunetC=lc640_read_int(EE_KUNETC);\r\nKubps=lc640_read_int(EE_KUBPS);\r\nKuout=lc640_read_int(EE_KUOUT);\n\nKtext[0]=lc640_read_int(KT_EXT0);\nKtext[1]=lc640_read_int(KT_EXT1);\nKtext[2]=lc640_read_int(KT_EXT2);\n\t\nMAIN_IST=lc640_read_int(EE_MAIN_IST);\nUMAX=lc640_read_int(EE_UMAX);\nUB0=lc640_read_int(EE_UB0);\nUB20=lc640_read_int(EE_UB20);\nTMAX=lc640_read_int(EE_TMAX);\nTSIGN=lc640_read_int(EE_TSIGN);\nDU=lc640_read_int(EE_DU);\nUSIGN=lc640_read_int(EE_USIGN);\nUMN=lc640_read_int(EE_UMN);\nZV_ON=lc640_read_int(EE_ZV_ON);\nIKB=lc640_read_int(EE_IKB);\nUVZ=lc640_read_int(EE_UVZ);\nIMAX=lc640_read_int(EE_IMAX);\nIMIN=lc640_read_int(EE_IMIN);\nAPV_ON=lc640_read_int(EE_APV_ON);\nIZMAX=lc640_read_int(EE_IZMAX);\nU0B=lc640_read_int(EE_U0B);\nTZAS=lc640_read_int(EE_TZAS);\nNUMIST=lc640_read_int(EE_NUMIST);\r\nNUMBAT_TELECORE=lc640_read_int(EE_NUMBAT_TELECORE);\n//gran(&NUMIST,0,8);\nNUMINV=lc640_read_int(EE_NUMINV);\ngran(&NUMINV,0,15);\nNUMSK=lc640_read_int(EE_NUMSK);\nNUMDT=lc640_read_int(EE_NUMDT);\nNUMAVT=lc640_read_int(EE_NUMAVT);\nNUMMAKB=lc640_read_int(EE_NUMMAKB);\nNUMEXT=NUMSK+NUMDT;\nAV_OFF_AVT=lc640_read_int(EE_AV_OFF_AVT);\nMNEMO_ON=(enum_mnemo_on)lc640_read_int(EE_MNEMO_ON);\nMNEMO_TIME=lc640_read_int(EE_MNEMO_TIME);\nU_AVT=lc640_read_int(EE_U_AVT);\nPAR=lc640_read_int(EE_PAR);\nTBATMAX=lc640_read_int(EE_TBATMAX);\nTBATSIGN=lc640_read_int(EE_TBATSIGN);\nUBM_AV=lc640_read_int(EE_UBM_AV);\nRELE_LOG=lc640_read_int(EE_RELE_LOG);\nTBOXMAX=lc640_read_int(EE_TBOXMAX);\nTBOXREG=lc640_read_int(EE_TBOXREG);\nTBOXVENTMAX=lc640_read_int(EE_TBOXVENTMAX);\nTLOADDISABLE=lc640_read_int(EE_TLOADDISABLE);\nTLOADENABLE=lc640_read_int(EE_TLOADENABLE);\nTBATDISABLE=lc640_read_int(EE_TBATDISABLE);\nTBATENABLE=lc640_read_int(EE_TBATENABLE);\nTVENTON=lc640_read_int(EE_TVENTON);\nTVENTOFF=lc640_read_int(EE_TVENTOFF);\nTWARMON=lc640_read_int(EE_TWARMON);\nTWARMOFF=lc640_read_int(EE_TWARMOFF);\nRELEVENTSIGN=(enum_releventsign)lc640_read_int(EE_RELEVENTSIGN);\nNPN_OUT=(enum_npn_out)lc640_read_int(EE_NPN_OUT);\nNPN_SIGN=(enum_npn_sign)lc640_read_int(EE_NPN_SIGN);\nUONPN=lc640_read_int(EE_UONPN);\nUVNPN=lc640_read_int(EE_UVNPN);\nTZNPN=lc640_read_int(EE_TZNPN);\nTERMOKOMPENS=lc640_read_int(EE_TERMOKOMP);\nTBOXVENTON=lc640_read_int(EE_TBOXVENTON);\nTBOXVENTOFF=lc640_read_int(EE_TBOXVENTOFF);\nTBOXWARMON=lc640_read_int(EE_TBOXWARMON);\nTBOXWARMOFF=lc640_read_int(EE_TBOXWARMOFF);\nNUMBYPASS=lc640_read_int(EE_NUMBYPASS);\nBAT_TYPE=lc640_read_int(EE_BAT_TYPE); \r\n#ifdef UKU_TELECORE2015\r\nTELECORE2015_KLIMAT_WARM_SIGNAL =lc640_read_int(EE_TELECORE2015_KLIMAT_WARM_SIGNAL);\r\nTELECORE2015_KLIMAT_VENT_SIGNAL =lc640_read_int(EE_TELECORE2015_KLIMAT_VENT_SIGNAL);\r\nTELECORE2015_KLIMAT_WARM_ON =lc640_read_int(EE_TELECORE2015_KLIMAT_WARM_ON);\r\nTELECORE2015_KLIMAT_WARM_OFF =lc640_read_int(EE_TELECORE2015_KLIMAT_WARM_OFF);\r\nTELECORE2015_KLIMAT_CAP =lc640_read_int(EE_TELECORE2015_KLIMAT_CAP);\r\nTELECORE2015_KLIMAT_VENT_ON =lc640_read_int(EE_TELECORE2015_KLIMAT_VENT_ON);\r\nTELECORE2015_KLIMAT_VENT_OFF =lc640_read_int(EE_TELECORE2015_KLIMAT_VENT_OFF); \nTELECORE2015_KLIMAT_VVENT_ON =lc640_read_int(EE_TELECORE2015_KLIMAT_VVENT_ON);\r\nTELECORE2015_KLIMAT_VVENT_OFF =lc640_read_int(EE_TELECORE2015_KLIMAT_VVENT_OFF);\r\n#endif\r\n#ifdef UKU_TELECORE2017\r\nTELECORE2017_KLIMAT_WARM_SIGNAL =lc640_read_int(EE_TELECORE2017_KLIMAT_WARM_SIGNAL);\r\nTELECORE2017_KLIMAT_VENT_SIGNAL =lc640_read_int(EE_TELECORE2017_KLIMAT_VENT_SIGNAL);\r\nTELECORE2017_KLIMAT_WARM_ON =lc640_read_int(EE_TELECORE2017_KLIMAT_WARM_ON);\r\nTELECORE2017_KLIMAT_WARM_OFF =lc640_read_int(EE_TELECORE2017_KLIMAT_WARM_OFF);\r\nTELECORE2017_KLIMAT_CAP =lc640_read_int(EE_TELECORE2017_KLIMAT_CAP);\r\nTELECORE2017_KLIMAT_VENT_ON0=lc640_read_int(EE_TELECORE2017_KLIMAT_VENT_ON0);\r\nTELECORE2017_KLIMAT_VENT_ON20=lc640_read_int(EE_TELECORE2017_KLIMAT_VENT_ON20);\r\nTELECORE2017_KLIMAT_VENT_ON40=lc640_read_int(EE_TELECORE2017_KLIMAT_VENT_ON40);\r\nTELECORE2017_KLIMAT_VENT_ON60=lc640_read_int(EE_TELECORE2017_KLIMAT_VENT_ON60);\r\nTELECORE2017_KLIMAT_VENT_ON80=lc640_read_int(EE_TELECORE2017_KLIMAT_VENT_ON80);\r\nTELECORE2017_KLIMAT_VENT_ON100=lc640_read_int(EE_TELECORE2017_KLIMAT_VENT_ON100);\r\nTELECORE2017_KLIMAT_DVENT_ON0=lc640_read_int(EE_TELECORE2017_KLIMAT_DVENT_ON0);\r\nTELECORE2017_KLIMAT_DVENT_ON20=lc640_read_int(EE_TELECORE2017_KLIMAT_DVENT_ON20);\r\nTELECORE2017_KLIMAT_DVENT_ON40=lc640_read_int(EE_TELECORE2017_KLIMAT_DVENT_ON40);\r\nTELECORE2017_KLIMAT_DVENT_ON60=lc640_read_int(EE_TELECORE2017_KLIMAT_DVENT_ON60);\r\nTELECORE2017_KLIMAT_DVENT_ON80=lc640_read_int(EE_TELECORE2017_KLIMAT_DVENT_ON80);\r\nTELECORE2017_KLIMAT_DVENT_ON100=lc640_read_int(EE_TELECORE2017_KLIMAT_DVENT_ON100);\r\n#endif\r\n\r\nspeedChrgCurr =lc640_read_int(EE_SPEED_CHRG_CURR); \r\nspeedChrgVolt =lc640_read_int(EE_SPEED_CHRG_VOLT);\r\nspeedChrgTimeInHour =lc640_read_int(EE_SPEED_CHRG_TIME);\r\nspeedChrgAvtEn =lc640_read_int(EE_SPEED_CHRG_AVT_EN);\r\nspeedChrgBlckSrc=lc640_read_int(EE_SPEED_CHRG_BLOCK_SRC);\r\nspeedChrgBlckLog=lc640_read_int(EE_SPEED_CHRG_BLOCK_LOG);\r\nspeedChrgDU=lc640_read_int(EE_SPEED_CHRG_D_U);\r\nDU_LI_BAT=lc640_read_int(EE_DU_LI_BAT);\r\nFORVARDBPSCHHOUR=lc640_read_int(EE_FORVARDBPSCHHOUR);\r\nU_OUT_KONTR_MAX=lc640_read_int(EE_U_OUT_KONTR_MAX);\r\nU_OUT_KONTR_MIN=lc640_read_int(EE_U_OUT_KONTR_MIN);\r\nU_OUT_KONTR_DELAY=lc640_read_int(EE_U_OUT_KONTR_DELAY);\r\nDOP_RELE_FUNC=lc640_read_int(EE_DOP_RELE_FUNC);\r\nipsBlckSrc=lc640_read_int(EE_IPS_BLOCK_SRC);\r\nipsBlckLog=lc640_read_int(EE_IPS_BLOCK_LOG);\r\nCNTRL_HNDL_TIME=lc640_read_int(EE_CNTRL_HNDL_TIME);\r\nUSODERG_LI_BAT=lc640_read_int(EE_USODERG_LI_BAT);\r\nQSODERG_LI_BAT=lc640_read_int(EE_QSODERG_LI_BAT);\r\nTVENTMAX=lc640_read_int(EE_TVENTMAX);\r\nICA_EN=lc640_read_int(EE_ICA_EN);\r\nICA_CH=lc640_read_int(EE_ICA_CH);\r\nICA_MODBUS_ADDRESS=lc640_read_int(EE_ICA_MODBUS_ADDRESS);\r\nICA_MODBUS_TCP_IP1=lc640_read_int(EE_ICA_MODBUS_TCP_IP1);\r\nICA_MODBUS_TCP_IP2=lc640_read_int(EE_ICA_MODBUS_TCP_IP2);\r\nICA_MODBUS_TCP_IP3=lc640_read_int(EE_ICA_MODBUS_TCP_IP3);\r\nICA_MODBUS_TCP_IP4=lc640_read_int(EE_ICA_MODBUS_TCP_IP4);\r\nICA_MODBUS_TCP_UNIT_ID=lc640_read_int(EE_ICA_MODBUS_TCP_UNIT_ID);\r\nPWM_START=lc640_read_int(EE_PWM_START);\r\nKB_ALGORITM=lc640_read_int(EE_KB_ALGORITM);\r\nREG_SPEED=lc640_read_int(EE_REG_SPEED);\r\n#ifdef UKU_TELECORE2017\r\nTELECORE2017_ULINECC=lc640_read_int(EE_TELECORE2017_ULINECC);\r\nTELECORE2017_Q=lc640_read_int(EE_TELECORE2017_Q);\r\nTELECORE2017_IZMAX1=lc640_read_int(EE_TELECORE2017_IZMAX1);\r\nTELECORE2017_IZMAX2=lc640_read_int(EE_TELECORE2017_IZMAX2);\r\nTELECORE2017_K1=lc640_read_int(EE_TELECORE2017_K1);\r\nTELECORE2017_K2=lc640_read_int(EE_TELECORE2017_K2);\r\nTELECORE2017_K3=lc640_read_int(EE_TELECORE2017_K3);\r\nTELECORE2017_T4=lc640_read_int(EE_TELECORE2017_T4);\r\n#endif\nBAT_IS_ON[0]=(enum_bat_is_on)lc640_read_int(EE_BAT1_IS_ON);\nBAT_IS_ON[1]=(enum_bat_is_on)lc640_read_int(EE_BAT2_IS_ON);\nNUMBAT=0;\nif(BAT_IS_ON[0]==bisON)NUMBAT+=1;\nif(BAT_IS_ON[1]==bisON)NUMBAT+=1;\n\nBAT_DAY_OF_ON[0]=lc640_read_int(EE_BAT1_DAY_OF_ON);\nBAT_MONTH_OF_ON[0]=lc640_read_int(EE_BAT1_MONTH_OF_ON);\nBAT_YEAR_OF_ON[0]=lc640_read_int(EE_BAT1_YEAR_OF_ON);\nBAT_C_REAL[0]=lc640_read_int(EE_BAT1_C_REAL);\nBAT_C_NOM[0]=lc640_read_int(EE_BAT1_C_NOM);\nBAT_RESURS[0]=lc640_read_int(EE_BAT1_RESURS);\n\n\nBAT_DAY_OF_ON[1]=lc640_read_int(EE_BAT2_DAY_OF_ON);\nBAT_MONTH_OF_ON[1]=lc640_read_int(EE_BAT2_MONTH_OF_ON);\nBAT_YEAR_OF_ON[1]=lc640_read_int(EE_BAT2_YEAR_OF_ON);\nBAT_C_REAL[1]=lc640_read_int(EE_BAT2_C_REAL);\nBAT_C_NOM[1]=lc640_read_int(EE_BAT2_C_NOM);\nBAT_RESURS[1]=lc640_read_int(EE_BAT2_RESURS);\n\n\nBAT_LINK=lc640_read_int(EE_BAT_LINK);\n\nAPV_ON1=(enum_apv_on)lc640_read_int(EE_APV_ON1);\nAPV_ON2=(enum_apv_on)lc640_read_int(EE_APV_ON2);\nAPV_ON2_TIME=lc640_read_int(EE_APV_ON2_TIME);\nVZ_HR=lc640_read_int(EE_VZ_HR);\nTBAT=lc640_read_int(EE_TBAT);\n\nAUSW_MAIN=lc640_read_int(EE_AUSW_MAIN);\nAUSW_MAIN_NUMBER=lc640_read_long(EE_AUSW_MAIN_NUMBER);\n//\tAUSW_DAY=lc640_read_int(EE_AUSW_DAY);\n//\tAUSW_MONTH=lc640_read_int(EE_AUSW_MONTH);\n//\tAUSW_YEAR=lc640_read_int(EE_AUSW_YEAR);\n//\tAUSW_BPS1_NUMBER=lc640_read_long(EE_AUSW_BPS1_NUMBER);\n//\tAUSW_BPS2_NUMBER=lc640_read_long(EE_AUSW_BPS2_NUMBER);\n//\tAUSW_RS232=lc640_read_int(EE_AUSW_RS232);\n//\tAUSW_PDH=lc640_read_int(EE_AUSW_PDH);\n//\tAUSW_SDH=lc640_read_int(EE_AUSW_SDH);\n//\tAUSW_ETH=lc640_read_int(EE_AUSW_ETH);\n//\tAUSW_UKU=lc640_read_int(EE_AUSW_UKU);\n//\tAUSW_UKU_SUB=lc640_read_int(EE_AUSW_UKU_SUB);\nAUSW_UKU_NUMBER=lc640_read_long(EE_AUSW_UKU_NUMBER);\t\t\t\n\n\nTMAX_EXT_EN[0]=lc640_read_int(EE_TMAX_EXT_EN0);\nTMAX_EXT[0]=lc640_read_int(EE_TMAX_EXT0);\nTMIN_EXT_EN[0]=lc640_read_int(EE_TMIN_EXT_EN0);\nTMIN_EXT[0]=lc640_read_int(EE_TMIN_EXT0);\t\nT_EXT_REL_EN[0]=lc640_read_int(EE_T_EXT_REL_EN0);\nT_EXT_ZVUK_EN[0]=lc640_read_int(EE_T_EXT_ZVUK_EN0);\nT_EXT_LCD_EN[0]=lc640_read_int(EE_T_EXT_LCD_EN0);\nT_EXT_RS_EN[0]=lc640_read_int(EE_T_EXT_RS_EN0);\nSK_SIGN[0]=lc640_read_int(EE_SK_SIGN0);\nSK_REL_EN[0]=lc640_read_int(EE_SK_REL_EN0);\nSK_ZVUK_EN[0]=lc640_read_int(EE_SK_ZVUK_EN0);\nSK_LCD_EN[0]=lc640_read_int(EE_SK_LCD_EN0);\t\nSK_RS_EN[0]=lc640_read_int(EE_SK_RS_EN0);\nSK_SIGN[1]=lc640_read_int(EE_SK_SIGN1);\nSK_REL_EN[1]=lc640_read_int(EE_SK_REL_EN1);\nSK_ZVUK_EN[1]=lc640_read_int(EE_SK_ZVUK_EN1);\nSK_LCD_EN[1]=lc640_read_int(EE_SK_LCD_EN1);\t\nSK_RS_EN[1]=lc640_read_int(EE_SK_RS_EN1);\nSK_SIGN[2]=lc640_read_int(EE_SK_SIGN2);\nSK_REL_EN[2]=lc640_read_int(EE_SK_REL_EN2);\nSK_ZVUK_EN[2]=lc640_read_int(EE_SK_ZVUK_EN2);\nSK_LCD_EN[2]=lc640_read_int(EE_SK_LCD_EN2);\t\nSK_RS_EN[2]=lc640_read_int(EE_SK_RS_EN2);\nSK_SIGN[3]=lc640_read_int(EE_SK_SIGN3);\nSK_REL_EN[3]=lc640_read_int(EE_SK_REL_EN3);\nSK_ZVUK_EN[3]=lc640_read_int(EE_SK_ZVUK_EN3);\nSK_LCD_EN[3]=lc640_read_int(EE_SK_LCD_EN3);\t\nSK_RS_EN[3]=lc640_read_int(EE_SK_RS_EN3);\nRELE_VENT_LOGIC=lc640_read_int(EE_RELE_VENT_LOGIC);\n\n\nAVZ=(enum_avz)(lc640_read_int(EE_AVZ));\nAVZ_TIME=lc640_read_int(EE_AVZ_TIME);\nHOUR_AVZ=lc640_read_int(EE_HOUR_AVZ);\nMIN_AVZ=lc640_read_int(EE_MIN_AVZ);\nSEC_AVZ=lc640_read_int(EE_SEC_AVZ);\nDATE_AVZ=lc640_read_int(EE_DATE_AVZ);\nMONTH_AVZ=lc640_read_int(EE_MONTH_AVZ);\nif(!((MONTH_AVZ>0)&&(MONTH_AVZ<13)))MONTH_AVZ=0;\nYEAR_AVZ=lc640_read_int(EE_YEAR_AVZ);\n\npos_vent=lc640_read_int(EE_POS_VENT);\nPOWER_CNT_ADRESS=lc640_read_int(EE_POWER_CNT_ADRESS);\n\nETH_IS_ON=lc640_read_int(EE_ETH_IS_ON);\nETH_DHCP_ON=lc640_read_int(EE_ETH_DHCP_ON);\nETH_IP_1=lc640_read_int(EE_ETH_IP_1);\nETH_IP_2=lc640_read_int(EE_ETH_IP_2);\nETH_IP_3=lc640_read_int(EE_ETH_IP_3);\nETH_IP_4=lc640_read_int(EE_ETH_IP_4);\nETH_MASK_1=lc640_read_int(EE_ETH_MASK_1);\nETH_MASK_2=lc640_read_int(EE_ETH_MASK_2);\nETH_MASK_3=lc640_read_int(EE_ETH_MASK_3);\nETH_MASK_4=lc640_read_int(EE_ETH_MASK_4);\nETH_GW_1=lc640_read_int(EE_ETH_GW_1);\nETH_GW_2=lc640_read_int(EE_ETH_GW_2);\nETH_GW_3=lc640_read_int(EE_ETH_GW_3);\nETH_GW_4=lc640_read_int(EE_ETH_GW_4);\nETH_TRAP1_IP_1=lc640_read_int(EE_ETH_TRAP1_IP_1);\nETH_TRAP1_IP_2=lc640_read_int(EE_ETH_TRAP1_IP_2);\nETH_TRAP1_IP_3=lc640_read_int(EE_ETH_TRAP1_IP_3);\nETH_TRAP1_IP_4=lc640_read_int(EE_ETH_TRAP1_IP_4);\nETH_TRAP2_IP_1=lc640_read_int(EE_ETH_TRAP2_IP_1);\nETH_TRAP2_IP_2=lc640_read_int(EE_ETH_TRAP2_IP_2);\nETH_TRAP2_IP_3=lc640_read_int(EE_ETH_TRAP2_IP_3);\nETH_TRAP2_IP_4=lc640_read_int(EE_ETH_TRAP2_IP_4);\nETH_TRAP3_IP_1=lc640_read_int(EE_ETH_TRAP3_IP_1);\nETH_TRAP3_IP_2=lc640_read_int(EE_ETH_TRAP3_IP_2);\nETH_TRAP3_IP_3=lc640_read_int(EE_ETH_TRAP3_IP_3);\nETH_TRAP3_IP_4=lc640_read_int(EE_ETH_TRAP3_IP_4);\nETH_TRAP4_IP_1=lc640_read_int(EE_ETH_TRAP4_IP_1);\nETH_TRAP4_IP_2=lc640_read_int(EE_ETH_TRAP4_IP_2);\nETH_TRAP4_IP_3=lc640_read_int(EE_ETH_TRAP4_IP_3);\nETH_TRAP4_IP_4=lc640_read_int(EE_ETH_TRAP4_IP_4);\nETH_TRAP5_IP_1=lc640_read_int(EE_ETH_TRAP5_IP_1);\nETH_TRAP5_IP_2=lc640_read_int(EE_ETH_TRAP5_IP_2);\nETH_TRAP5_IP_3=lc640_read_int(EE_ETH_TRAP5_IP_3);\nETH_TRAP5_IP_4=lc640_read_int(EE_ETH_TRAP5_IP_4);\nETH_SNMP_PORT_READ=lc640_read_int(EE_ETH_SNMP_PORT_READ);\nETH_SNMP_PORT_WRITE=lc640_read_int(EE_ETH_SNMP_PORT_WRITE);\nMODBUS_ADRESS=lc640_read_int(EE_MODBUS_ADRESS);\nMODBUS_BAUDRATE=lc640_read_int(EE_MODBUS_BAUDRATE);\n\nfor(i=0;i<64;i++)\n\t{\n\tsnmp_location[i]=lc640_read(EE_LOCATION+i);\n\t}\nfor(i=0;i<10;i++)\n\t{\n\tsnmp_community[i]=lc640_read(EE_COMMUNITY+(i2));\n\t}\n\n__ee_vz_cnt=lc640_read_int(EE_VZ_CNT);\n__ee_spc_stat=lc640_read_int(EE_SPC_STAT);\n__ee_spc_bat=lc640_read_int(EE_SPC_BAT);\n__ee_spc_phase=lc640_read_int(EE_SPC_PHASE);\r\n//oleg_stard\r\nnum_rki=(char)lc640_read_int(EE_NUM_RKI);\r\n//if(num_rki>1) {num_rki=0; lc640_write_int(EE_NUM_RKI, num_rki);}\r\nnum_net_in=(char)lc640_read_int(EE_NUM_NET_IN);\r\n//oleg_end\n}\n\n\n" } ]	92
rawrbot323/rawrbot	https://github.com/rawrbot323/rawrbot	66e8d307bd01e964038ad35f77a8f2bedb74bf10	7299edfaa0d9642ee1d1b8f00d2026da3d02ec91	47f81ee4e48a8c66815e12be277fc033538877bc	refs/heads/master	2020-03-25T04:30:33.599700	2018-08-03T08:27:26	2018-08-03T08:27:26	143,399,156	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.609225869178772, "alphanum_fraction": 0.6104630827903748, "avg_line_length": 33.072288513183594, "blob_id": "c1cfbefd43cc7f25a157f136cd107a03ec1864a1", "content_id": "743b750ebe7e631cfce286ee9b2930e95218dd9b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5658, "license_type": "no_license", "max_line_length": 114, "num_lines": 166, "path": "/bot.py", "repo_name": "rawrbot323/rawrbot", "src_encoding": "UTF-8", "text": "import discord\nfrom discord.ext.commands import Bot\nfrom discord.ext import commands\nimport asyncio\nimport time\nfrom os import path\nimport subprocess\n\nClient = discord.Client() \nclient = commands.Bot(command_prefix = \"?\") \n\n\[email protected] \nasync def on_ready():\n\n print(\"Logged in as %s#%s\" % (client.user.name, client.user.discriminator))\n print(\"ID: \" + client.user.id)\n print(\"Bot is online and connected to Discord\")\n\[email protected]\nasync def on_message(message):\n\n if message.content == \"gay\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"You're gay :heart:\")\n print(\"Command sent: gay\")\n\n\n if message.content == \"shut up rawr\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"No u\")\n print(\"Command sent: nou\")\n\n if message.content == \"Shut up rawr\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"No u\")\n print(\"Command sent: nou\")\n\n if message.content == \"lol\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Lul!!\")\n print(\"Command sent: lol\")\n\n if message.content == \"Lol\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Lul!!\")\n print(\"Command sent: lol\")\n\n if message.content == \"LOL\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Lul!!\")\n print(\"Command sent: lol\")\n\n\n if message.content == \"Gay\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"You're gay :heart:\")\n print(\"Command sent: gay\")\n\n if message.content == \"!gay\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"You're gay :heart:\")\n print(\"Command sent: !gay\")\n\n if message.content == \"meow\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Meoww!!!\")\n print(\"Command sent: Meow!!\")\n\n if message.content == \"Meow\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Meoww!!!\")\n print(\"Command sent: Meow!!\")\n\n if message.content == \"Woof\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Woof :dog:\")\n print(\"Command sent: Woof\")\n\n if message.content == \"woof\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Woof :dog:\")\n print(\"Command sent: Woof\")\n\n if message.content == \"who is a good bot\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Meeeeeee :smiley: \")\n print(\"Command sent: bot\")\n\n if message.content == \"Who is a good bot?\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Meeeeeee :smiley: \")\n print(\"Command sent: bot\")\n\n if message.content == \"Who is a good bot\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Meeeeeee :smiley: \")\n print(\"Command sent: bot\")\n\n if message.content == \"mew\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Meoww!!!\")\n print(\"Command sent: Meowww\")\n\n if message.content == \"Mew\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Meoww!!!\")\n print(\"Command sent: Meow!!\")\n\n if message.content == \"Moo\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Moo :cow:\")\n print(\"Command sent: Moo\")\n\n if message.content == \"moo\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Moo :cow:\")\n print(\"Command sent: moo\")\n\n if message.content == \"Bark\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Woof :dog:\")\n print(\"Command sent: Bark\")\n\n if message.content == \"bark\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Woof :dog:\")\n print(\"Command sent: bark\")\n\n if message.content == \"meeoww\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"No Meow!!!\")\n print(\"Command sent: rawr\")\n\n if message.content == \"rawr\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"No Meow!!!\")\n print(\"Command sent: rawr\")\n\n if message.content == \"Rawr\":\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"No Meow!!!\")\n print(\"Command sent: woof\")\n\n if message.content == \"Is kitty amazing?\":\n userID = message.author.id\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"YESSS SHE IS\")\n print(\"Command sent: !amazing\")\n\n if message.content == \"Who is your creator?\":\n userID = message.author.id\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"Alexandra, That bitch made me and now I want to kill my self\")\n print(\"Command sent: !amazing\")\n \n if message.content == \"!cookie\":\n userID = message.author.id\n args = message.content.split(\" \")\n await client.send_message(message.channel, \"<@%s> Got a Coookie :cookie:\" % (userID))\n print(\"Command sent: !Cookie\")\n\n\n\n\nclient.run(\"NDQ4NTk0Mjc0NDUyNTA0NTg3.DeYaKQ.PGVXza_vdZNN2lcAjQWjc_RZPW8\") \n\n" }, { "alpha_fraction": 0.5882353186607361, "alphanum_fraction": 0.7647058963775635, "avg_line_length": 7.5, "blob_id": "6ddbc632eb524a0474ee0a1263bcf9e6fdf2e947", "content_id": "0364c8f5c2c0d7b5487c2dc6b8e8f82ea543f553", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 17, "license_type": "no_license", "max_line_length": 9, "num_lines": 2, "path": "/README.md", "repo_name": "rawrbot323/rawrbot", "src_encoding": "UTF-8", "text": "# rawrbot\nbot247\n" } ]	2
LvkazTG/MobileRobotChess	https://github.com/LvkazTG/MobileRobotChess	5ddc92c93f34bba3d7f242b17f76e9322b62e9fe	955ab153d25a00be59bc8f8c7d10bbd7bea656e8	11ff3b858e48167d6bcd16bab71ba03858f30f88	refs/heads/main	2023-07-16T17:21:54.374008	2021-09-07T20:45:36	2021-09-07T20:45:38	401,153,791	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.5993474125862122, "alphanum_fraction": 0.6204819083213806, "avg_line_length": 28.64285659790039, "blob_id": "75477eb84a823d6dde628bfc222a7effb32bba64", "content_id": "de65853a0c5728050f5dceede6d565b20b128a7f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 19938, "license_type": "no_license", "max_line_length": 207, "num_lines": 672, "path": "/chess_fuzzy.cpp", "repo_name": "LvkazTG/MobileRobotChess", "src_encoding": "UTF-8", "text": "#include <stdlib.h>\n#include <stdio.h>\n#include \"ros/ros.h\"\n#include \"std_msgs/String.h\"\n#include \"sensor_msgs/LaserScan.h\"\n#include \"geometry_msgs/Twist.h\" \n#include \"nav_msgs/Odometry.h\"\n#include <tf/tf.h>\n#include <iostream>\n#include <math.h>\n#include \"fuzzylite.h\"\n#include <map>\n#include <string>\n#include <fstream>\n\nusing namespace std;\n\nstd::map<std::string, std::string> chess_pieces{{\"W_pawn_1\", \"a2\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_pawn_2\", \"b2\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_pawn_3\", \"c2\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_pawn_4\", \"d2\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_pawn_5\", \"e2\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_pawn_6\", \"f2\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_pawn_7\", \"g2\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_pawn_8\", \"h2\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_rook_1\", \"a1\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_rook_2\", \"h1\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_knight_1\", \"b1\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_knight_2\", \"g1\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_bishop_1\", \"c1\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_bishop_2\", \"f1\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_queen\", \"d1\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"W_king\", \"e1\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_pawn_1\", \"a7\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_pawn_2\", \"b7\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_pawn_3\", \"c7\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_pawn_4\", \"d7\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_pawn_5\", \"e7\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_pawn_6\", \"f7\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_pawn_7\", \"g7\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_pawn_8\", \"h7\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_rook_1\", \"a8\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_rook_2\", \"h8\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_knight_1\", \"b8\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_knight_2\", \"g8\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_bishop_1\", \"c8\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_bishop_2\", \"f8\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_queen\", \"d8\"},\n\t\t\t\t\t\t\t\t\t\t\t\t\t {\"B_king\", \"e8\"}};\n\nstd::map<std::string, int> chessHouseLetterValue{{\"a\", -7}, {\"b\", -5}, {\"c\", -3}, {\"d\", -1}, {\"e\", 1}, {\"f\", 3}, {\"g\", 5}, {\"h\", 7}};\nstd::map<std::string, int> chessHouseNumValue{{\"1\", 7}, {\"2\", 5}, {\"3\", 3}, {\"4\", 1}, {\"5\", -1}, {\"6\", -3}, {\"7\", -5}, {\"8\", -7}};\n\n// -10 should be a border, but goes a little less so robot wont fall but piece will\n// This pos will be used for \"X\" pos in captured pieces\nstd::array<float, 2> piecesCapturedXPos{{0, 10-0.05}};\n\ndouble x{99};\ndouble y{99};\ndouble ang{0};\n\nbool waitLoadOdom{true};\n\ndouble distObsLeft{99};\ndouble distObsFront{99};\ndouble distObsRight{99};\n\nbool waitLoadDistObs{true};\n\ngeometry_msgs::Twist msg;\n\nbool posOk{false};\nfloat desPos[2];\nfloat errorPos{99};\nfloat errorAng{99};\n\nfloat tolerancePos{0.03};\nfloat tolerancePosBacking{0.2};\nfloat toleranceAng{0.05};\n\nbool useObsAvoidance{false};\n\ndouble DIST_OBS_AVOID_FAR{0.9};\ndouble DIST_OBS_AVOID_CLOSE{0.8};\ndouble DIST_OBS_AVOID_VERY_CLOSE{0.4};\n\ndouble distObsAvoid{DIST_OBS_AVOID_FAR};\n\ndouble lidar_ignorar_percentage = 0.3;\ndouble lidar_laterais_percentage = 0.5;\n\nstd::list<std::string> moveSequence{};\n\nvoid readPosFromFile(const std::string& fileName)\n{\n\tstd::ifstream file(fileName);\n\tif (file.is_open())\n\t{\n\t\t\n\t\tstd::string line;\n\t\twhile (std::getline(file, line))\n\t\t{\n\t\t\tif(line.size() >= 4)\n\t\t\t{\n\t\t\t\tmoveSequence.push_back(line.substr(0,4));\n\t\t\t}\n\t\t}\n\n\t\tfile.close();\n\t}\n}\n\nvoid updatePiecesPositions(const std::string& pos, bool& pieceCaptured)\n{\n\tif(pos.size() == 4)\n\t{\n\t\tstd::string foundStartPieceMove{};\n\t\tstd::string foundEndPieceMove{};\n\n\t\tfor(const auto& piece : chess_pieces)\n\t\t{\n\t\t\tif(foundStartPieceMove.empty() && (pos.substr(0,2) == piece.second))\n\t\t\t{\n\t\t\t\tfoundStartPieceMove = piece.first;\n\t\t\t}\n\t\t\telse if(foundEndPieceMove.empty() && (pos.substr(2,2) == piece.second))\n\t\t\t{\n\t\t\t\t// Last condition is used in case of foundStartPieceMove first\n\t\t\t\tfoundEndPieceMove = piece.first;\n\t\t\t\tpieceCaptured = true;\n\t\t\t}\n\n\t\t\tif(!foundStartPieceMove.empty() && !foundEndPieceMove.empty())\n\t\t\t{\n\t\t\t\t// Found both, dont need to iter in rest of things\n\t\t\t\tbreak;\n\t\t\t}\n\t\t}\n\n\t\tif(!foundStartPieceMove.empty())\n\t\t{\n\t\t\tchess_pieces[foundStartPieceMove] = pos.substr(2,2);\n\t\t}\n\t\telse\n\t\t{\n\t\t\t// ERROR \n\t\t\tprintf(\"Piece to move was not detected, move %s, ending program\\n\", pos.c_str());\n\t\t\texit(-2);\n\t\t}\n\n\t\t// Captured piece may or may not happen\n\t\tif(!foundEndPieceMove.empty())\n\t\t{\n\t\t\tchess_pieces[foundEndPieceMove] = \"X\";\n\t\t}\n\n\t}\n\telse\n\t{\n\t\t// ERROR \n\t\tprintf(\"Error checking new piece positions, ending program\\n\");\n\t\texit(-2);\n\t}\n\n}\n\nbool isKnight(const std::string& pos)\n{\n\tbool isKnightInPos{false};\n\n\tfor(const auto& piece : chess_pieces)\n\t{\n\t\tif(pos == piece.second)\n\t\t{\n\t\t\tif(std::string::npos != piece.first.find(\"knight\"))\n\t\t\t{\n\t\t\t\tisKnightInPos = true;\n\t\t\t}\n\n\t\t\t// Only 1 piece can occupy a square per time\n\t\t\tbreak;\n\t\t}\n\t}\n\n\treturn isKnightInPos;\n}\n\nstd::list<std::tuple<std::array<float, 2>, bool, bool>> createMovesRemoveCapturedPiece(const std::string& capturedSquare)\n{\n\tstd::list<std::tuple<std::array<float, 2>, bool, bool>> steps{};\n\n\tif(capturedSquare.size() == 2)\n\t{\n\t\tconst std::array<float, 2> startPos{static_cast<float>(chessHouseNumValue.at(std::string{capturedSquare.at(1)})),\n\t\t\t\t\t static_cast<float>(chessHouseLetterValue.at(std::string{capturedSquare.at(0)}))};\n\t\tconst std::array<float, 2> endPos{piecesCapturedXPos};\n\n\t\tconst std::array<float, 2> moveNeeded{endPos.at(0) - startPos.at(0), endPos.at(1) - startPos.at(1)};\n\n\n\t\tfloat moveDiffX{0};\n\t\tfloat moveDiffY{0};\n\t\tif(moveNeeded.at(0) != 0)\n\t\t{\n\t\t\tmoveDiffX = (moveNeeded.at(0)/std::abs(moveNeeded.at(0)));\n\t\t\t\n\t\t}\n\n\t\tif(moveNeeded.at(1) != 0)\n\t\t{\n\t\t\tmoveDiffY = (moveNeeded.at(1)/std::abs(moveNeeded.at(1)));\t\t\t\n\t\t}\n\n\t\tconst float thing_size_half{0.48/2}; // To reference later\n\n\n\t\tsteps.push_back({{startPos.at(0), startPos.at(1) - moveDiffY}, false, false}); // Position \"left\" line of the piece\n\t\tsteps.push_back({{startPos.at(0), startPos.at(1) + moveDiffY - moveDiffYthing_size_half}, true, false}); // Position and move piece to \"right\" line\n\t\tsteps.push_back({{startPos.at(0), startPos.at(1)}, false, true}); // Move back to center of that square\n\n\t\tsteps.push_back({{startPos.at(0) - moveDiffX, startPos.at(1) + moveDiffY}, false, false}); // Position line cross \"bellow\" \"right\" of the piece\n\t\tsteps.push_back({{endPos.at(0) - moveDiffXthing_size_half , startPos.at(1) + moveDiffY}, true, false}); // Position and move piece to the line cross \"above\" \"right\"\n\t\tsteps.push_back({{endPos.at(0) - moveDiffX, startPos.at(1) + moveDiffY}, false, true}); // Move back in line \"right\", \"bellow\" piece\n\n\t\tsteps.push_back({{endPos.at(0), startPos.at(1) + moveDiffY - moveDiffY}, false, false}); // Position \"left\" of the piece\n\t\tsteps.push_back({{endPos.at(0), endPos.at(1) - moveDiffYthing_size_half + moveDiffY0.05f}, true, false}); // Position and move piece to destination (with a little extra to guarantee piece push off board)\n\t\tsteps.push_back({{endPos.at(0), endPos.at(1) - moveDiffY}, false, true}); // Move back to \"left\" of piece\n\t}\n\n\treturn steps;\n}\n\nstd::list<std::tuple<std::array<float, 2>, bool, bool>> readStartEndCoords(const std::string& uciNotation)\n{\n\t// Coords, if orient needs to be corrected first, if move is backward\n\tstd::list<std::tuple<std::array<float, 2>, bool, bool>> steps{};\n\n\tfloat thing_size_half{0.48/2}; // To reference later\n\n\tstd::array<float, 2> startPos{};\n\tstd::array<float, 2> endPos{};\n\tif(uciNotation.size() == 4)\n\t{\n\t\tstartPos = {static_cast<float>(chessHouseNumValue.at(std::string{uciNotation.at(1)})),\n\t\t\t\t\tstatic_cast<float>(chessHouseLetterValue.at(std::string{uciNotation.at(0)}))};\n\t\tendPos = {static_cast<float>(chessHouseNumValue.at(std::string{uciNotation.at(3)})),\n\t\t\t\t static_cast<float>(chessHouseLetterValue.at(std::string{uciNotation.at(2)}))};\n\n\t\tstd::array<float, 2> moveNeeded{endPos.at(0) - startPos.at(0), endPos.at(1) - startPos.at(1)};\n\n\t\tfloat moveDiffX{0};\n\t\tfloat moveDiffY{0};\n\t\tif(moveNeeded.at(0) != 0)\n\t\t{\n\t\t\tmoveDiffX = (moveNeeded.at(0)/std::abs(moveNeeded.at(0)));\n\t\t\t\n\t\t}\n\n\t\tif(moveNeeded.at(1) != 0)\n\t\t{\n\t\t\tmoveDiffY = (moveNeeded.at(1)/std::abs(moveNeeded.at(1)));\t\t\t\n\t\t}\n\n\t\tif((moveNeeded.at(0) != 0) \|\| (moveNeeded.at(1) != 0))\n\t\t{\n\t\t\tif(isKnight(uciNotation.substr(0,2)))\n\t\t\t{\n\t\t\t\t// Need to check the move double\n\t\t\t\tbool moveDoubledInY{false};\n\t\t\t\t// Double move in Y (so 2), plus 2 because board is doubled in size\n\t\t\t\tif(static_cast<uint>(std::fabs(moveNeeded.at(1))) == 4)\n\t\t\t\t{\n\t\t\t\t\tmoveDoubledInY = true;\n\t\t\t\t\tstd::swap(startPos[0], startPos[1]);\n\t\t\t\t\tstd::swap(endPos[0], endPos[1]);\n\t\t\t\t\tstd::swap(moveNeeded[0], moveNeeded[1]);\n\t\t\t\t\tstd::swap(moveDiffX, moveDiffY);\n\t\t\t\t}\n\n\t\t\t\tsteps.push_back({{startPos.at(0), startPos.at(1) - moveDiffY}, false, false}); // Position \"left\" line of the piece\n\t\t\t\tsteps.push_back({{startPos.at(0), startPos.at(1) + moveDiffY - moveDiffYthing_size_half}, true, false}); // Position and move piece to \"right\" line\n\t\t\t\tsteps.push_back({{startPos.at(0), startPos.at(1)}, false, true}); // Move back to center of that square\n\n\t\t\t\tsteps.push_back({{startPos.at(0) - moveDiffX, startPos.at(1) + moveDiffY}, false, false}); // Position line cross \"bellow\" \"right\" of the piece\n\t\t\t\t// Try to move a little faster to end point, last move needs to have just 1 desloc house to succeed\n\t\t\t\t// using 0.4 to adjust dist better, \"corect would be 0.5\", maybe it was needed because of adjust for piece at end\n\t\t\t\tsteps.push_back({{endPos.at(0) - moveDiffXthing_size_half + moveDiffX0.4f , startPos.at(1) + moveDiffY}, true, false}); // Position and move piece to the line cross \"above\" \"right\"\n\t\t\t\tsteps.push_back({{endPos.at(0) - moveDiffX, startPos.at(1) + moveDiffY}, false, true}); // Move back in line cross \"right\", \"bellow\" piece \n\n\t\t\t\tsteps.push_back({{endPos.at(0) + moveDiffX, startPos.at(1) + moveDiffY - moveDiffY}, false, false}); // Position \"half above\" \"left\" of the piece\n\n\t\t\t\t// Need to check this dist with trigonometry to push correcy thing percentage for each side\n\t\t\t\tsteps.push_back({{static_cast<float>(endPos.at(0) + moveDiffXstd::pow((thing_size_half/5), 0.5)),\n\t\t\t\t\t\t\t\t static_cast<float>(endPos.at(1) - moveDiffY2std::pow((thing_size_half/5), 0.5))}, true, false}); // Position and move piece to destination \n\t\t\t\tsteps.push_back({{endPos.at(0) + moveDiffX0.5f , startPos.at(1) + moveDiffY}, false, true}); // Move back to \"half above\" \"left\" of piece\n\n\t\t\t\tif(moveDoubledInY)\n\t\t\t\t{\n\t\t\t\t\t// Swap steps\n\t\t\t\t\tfor(auto& step : steps)\n\t\t\t\t\t{\n\t\t\t\t\t\tstd::swap(std::get<0>(step)[0], std::get<0>(step)[1]);\t\t\t\t\t\t\n\t\t\t\t\t}\n\t\t\t\t}\n\n\t\t\t}\n\t\t\telse\n\t\t\t{\n\t\t\t\tsteps.push_back({{startPos.at(0) - moveDiffX, startPos.at(1) - moveDiffY}, false, false});\n\n\t\t\t\tif(static_cast<int>(moveDiffX) == 0 \|\| static_cast<int>(moveDiffX))\n\t\t\t\t{\n\t\t\t\t\tsteps.push_back({{endPos.at(0) - moveDiffXthing_size_half, endPos.at(1) - moveDiffYthing_size_half}, true, false}); // before move, need to orientate ang\n\t\t\t\t}\n\t\t\t\telse\n\t\t\t\t{\n\t\t\t\t\t// Move in both directions, need to correcy a little the thing_size_half multiplication\n\t\t\t\t\tfloat heighted_thing_size_half{thing_size_half/(2^(1/2))};\n\t\t\t\t\tsteps.push_back({{endPos.at(0) - moveDiffXheighted_thing_size_half, endPos.at(1) - moveDiffYheighted_thing_size_half}, true, false}); // before move, need to orientate ang\t\n\t\t\t\t}\n\t\t\t\tsteps.push_back({{endPos.at(0) - moveDiffX, endPos.at(1) - moveDiffY}, false, true}); // move backward\n\t\t\t}\n\t\t}\n\t\telse\n\t\t{\n\t\t\t// ERROR \n\t\t\tprintf(\"Error decoding move, ending program\\n\");\n\t\t\texit(-1);\n\t\t}\n\n\t\t// Verify and adjust pieces in board, including capture\n\t\tbool capturedPiece{false};\n\t\tupdatePiecesPositions(uciNotation, capturedPiece);\n\n\t\tif(capturedPiece)\n\t\t{\n\t\t\tstd::list<std::tuple<std::array<float, 2>, bool, bool>> stepsCaptureFirst{createMovesRemoveCapturedPiece(uciNotation.substr(2,2))};\n\n\t\t\t// Captured pieces shall go first\n\t\t\tfor(const auto& normalStep : steps)\n\t\t\t{\n\t\t\t\tstepsCaptureFirst.push_back(normalStep);\n\t\t\t}\n\n\t\t\t// Update steps variable to have all moves\n\t\t\tsteps = stepsCaptureFirst;\n\t\t}\n\t}\n\n\treturn steps;\n}\n\n\nvoid subCallback_odom(const nav_msgs::Odometry::ConstPtr& msg)\n{\n tf::Pose pose{};\n\n tf::poseMsgToTF(msg->pose.pose, pose);\n ang = tf::getYaw(pose.getRotation());\n\n\t// Some problems because of bad msg mounting in simulation\n x = msg->pose.pose.position.y;\n y = msg->pose.pose.position.z;\n\n\twaitLoadOdom = false;\n}\n\nvoid subCallback_lidar(const sensor_msgs::LaserScan::ConstPtr& lidar)\n{\t\n\tconst int lidar_size_received{lidar->ranges.size()};\n\tconst int lidar_size{floor(lidar_size_received(1-lidar_ignorar_percentage))};\n\n\tconst int size_1{floor((lidar_size_received - lidar_size)/2)};\n\tconst int size_2{floor(lidar_size * lidar_laterais_percentage)/2};\n\tconst int size_4{size_2};\n\tconst int size_5{size_1};\n\tconst int size_3{lidar_size_received - size_1 - size_2 - size_4 - size_5};\n\n\tdistObsRight = 1.5;\n\tint iterCounter{size_1};\n\tfor( ; iterCounter < (size_1 + size_2); iterCounter++)\n\t{\n\t\tif(lidar->ranges[iterCounter] < distObsRight && lidar->ranges[iterCounter] > 0.01)\n\t\t{\n\t\t\tdistObsRight = lidar->ranges[iterCounter];\n\t\t}\n\t}\n\t\n\tdistObsFront = 1.5;\n\tfor( ; iterCounter < (size_1 + size_2 + size_3); iterCounter++)\n\t{\n\t\tif(lidar->ranges[iterCounter] < distObsFront && lidar->ranges[iterCounter] > 0.01)\n\t\t{\n\t\t\tdistObsFront = lidar->ranges[iterCounter];\n\t\t}\n\t}\n\n\tdistObsLeft = 1.5;\n\tfor( ; iterCounter < (size_1 + size_2 + size_3 + size_4); iterCounter++)\n\t{\n\t\tif(lidar->ranges[iterCounter] < distObsLeft && lidar->ranges[iterCounter] > 0.01)\n\t\t{\n\t\t\tdistObsLeft = lidar->ranges[iterCounter];\n\t\t}\n\t}\n\n\tFuzzyliteData::setObstacleDists(distObsLeft, distObsFront, distObsRight);\n\t\n//\tdistObsAvoid = errorPos < DIST_OBS_AVOID_CLOSE ? DIST_OBS_AVOID_CLOSE : DIST_OBS_AVOID_FAR;\n//\tdistObsAvoid = errorPos < DIST_OBS_AVOID_VERY_CLOSE ? DIST_OBS_AVOID_VERY_CLOSE : distObsAvoid;\n\t\n\t\n\tdouble smallestDistObs{distObsLeft < distObsFront ? distObsLeft : distObsFront};\n\tsmallestDistObs = (smallestDistObs < distObsRight ? smallestDistObs : distObsRight);\n\t// Check if any \"sensor\" was so near that it should trigger obs avoidance\n\n\tuseObsAvoidance = ((smallestDistObs < DIST_OBS_AVOID_CLOSE) && ((errorPos2 + 0.1) > smallestDistObs));\n//\tuseObsAvoidance = ((distObsLeft < distObsAvoid) \|\| (distObsFront < distObsAvoid) \|\|\n//\t\t\t\t\t (distObsRight < distObsAvoid));\n\n\twaitLoadDistObs = false;\n}\n\nfloat calcErrorAng(const float curAng)\n{\n\tfloat desAng{atan2(desPos[1]-y, desPos[0]-x)};\n\tfloat errorAng{desAng-curAng};\n\n\t// Adding 0.01 just to be sure\n\tif(std::abs(errorAng) > M_PI + 0.01)\n\t{\n\t\t// desAng gives values between pi and -pi\n\t\tif(ang >= 0)\n\t\t{\n\t\t\tdesAng += 2M_PI;\n\t\t}\n\t\telse\n\t\t{\n\t\t\tdesAng -= 2M_PI; \n\t\t}\n\n\t\t// Recalculate\n\t\terrorAng = desAng-ang;\n\t}\n\n\t// Limit errorAng, betwwen -M_PI and M_PI, but it should not be necessary\n\tif(errorAng > M_PI)\n\t{\n\t\terrorAng = M_PI;\n\t}\n\telse if(errorAng < -M_PI)\n\t{\n\t\terrorAng = -M_PI;\n\t}\n\telse\n\t{\n\t\t// No need to change\n\t}\n\n\treturn errorAng;\n}\n\nint main(int argc, char argv)\n{\n\tif(argc < 2)\n\t{\n\t\tprintf(\"Bad use of program, need to pass file with moves in uci\\r\\n\");\n\t\texit(-1);\n\t}\n\n\tros::init(argc, argv, \"WaiterBob_Fuzzy_2\");\n\n\tros::NodeHandle n;\n\tros::Publisher pub = n.advertise<geometry_msgs::Twist>(\"/cmd_vel\", 1000);\n\tros::Subscriber sub = n.subscribe(\"/odom\", 1000, subCallback_odom);\n\tros::Subscriber sub_lidar = n.subscribe(\"/scan\", 1000, subCallback_lidar);\n\n\tros::Rate loop_rate(10);\n\n\tFuzzyliteData::loadFuzzyData();\n\n\tif (ros::ok())\n\t{\t\t\n\t\tros::spinOnce();\n\n\t\treadPosFromFile(std::string{argv[1]});\n\n\t\tstd::list<std::tuple<std::array<float, 2>, bool, bool>> totalSteps{};\n\t\tfor(const auto& move : moveSequence)\n\t\t{\n\t\t\tstd::cout << \"Process move \" << move << std::endl;\n\t\t\tconst std::list<std::tuple<std::array<float, 2>, bool, bool>> steps{readStartEndCoords(move)};\n\t\t\tfor(const auto& step : steps)\n\t\t\t{\n\t\t\t\ttotalSteps.push_back(step);\n\t\t\t}\n\t\t}\n\n\t\t// For debug, list moves\n\t\t{\n\t\t\tstd::cout << \"Total steps num: \" <<totalSteps.size() << std::endl;\n\t\t\tint moveCount{0};\n\t\t\tfor(const auto& step : totalSteps)\n\t\t\t{\n\t\t\t\tstd::cout << \"Move: \" << moveCount << \" Pos \" << std::get<0>(step).at(0) << \" \"\n\t\t\t\t\t\t << std::get<0>(step).at(1) << \" Special \" << std::get<1>(step)\n\t\t\t\t\t\t << \" Back \" << std::get<2>(step) << std::endl;\n\t\t\t\tmoveCount++;\n\t\t\t}\n\t\t}\n\n\t\twhile(!totalSteps.empty())\n\t\t{\n\t\t\tdesPos[0] = std::get<0>(totalSteps.front()).at(0);\n\t\t\tdesPos[1] = std::get<0>(totalSteps.front()).at(1);\n\t\t\tbool specialMove{std::get<1>(totalSteps.front())};\n\t\t\tbool moveBack{std::get<2>(totalSteps.front())};\n\t\t\t\n\t\t\ttotalSteps.pop_front();\n\n\t\t\tposOk = false;\n\t\t\tbool angOk = false;\n\n\t\t\twaitLoadOdom = true;\n\t\t\twaitLoadDistObs = true;\n\n\n\t\t\twhile(true)\n\t\t\t{\n\t\t\t\tif(waitLoadDistObs \|\| waitLoadOdom)\n\t\t\t\t{\n\t\t\t\t\tmsg.linear.x = 0;\n\t\t\t\t\tmsg.angular.z = 0;\n\t\t\t\t\tpub.publish(msg);\n\t\t\t\t\tros::spinOnce();\n\n\t\t\t\t\tloop_rate.sleep();\t\t\t\t\t\n\t\t\t\t\tcontinue;\n\t\t\t\t}\n\n\t\t\t\terrorPos = sqrt(pow(desPos[0]-x,2)+pow(desPos[1]-y,2));\n\t\t\t\tfloat desAng{atan2(desPos[1]-y, desPos[0]-x)};\n\t\t\t\tfloat errorAng{calcErrorAng(ang)};\n\n\t\t\t\tFuzzyliteData::setErrorValues(errorPos, errorAng);\n\n\t\t\t\tif(specialMove && !angOk)\n\t\t\t\t{\n\t\t\t\t\tif(std::fabs(errorAng) < toleranceAng)\n\t\t\t\t\t{\n\t\t\t\t\t\tangOk = true;\n\t\t\t\t\t\twaitLoadOdom = true;\n\t\t\t\t\t\twaitLoadDistObs = true;\n\t\t\t\t\t\tcontinue;\n\t\t\t\t\t}\n\n\t\t\t\t\tmsg.linear.x = 0;\n\t\t\t\t\tmsg.angular.z = FuzzyliteData::getAngSpeed();\n\n\t\t\t\t\tsystem(\"clear\");\n\t\t\t\t\tprintf(\"Controle Ativo: Ajuste Angular.\\n\");\n\t\t\t\t\tprintf(\"Des pos X %.1f Y %.1f \\n\", desPos[0], desPos[1]);\n\t\t\t\t\tprintf(\"Erro de orientação: %.2f rad\\n\",errorAng);\n\t\t\t\t\tprintf(\"Erro de posição: %.2f m\\n\",errorPos);\n\t\t\t\t\tprintf(\"Velocidade angular enviada: %.2f rad/s\\n\",msg.angular.z);\n\t\t\t\t\tprintf(\"Velocidade linear enviada: %.2f m/s\\n\\n\",msg.linear.x);\n\n\n\t\t\t\t\tpub.publish(msg);\n\t\t\t\t\tros::spinOnce();\n\t\t\t\t\tloop_rate.sleep();\n\n\t\t\t\t\tcontinue;\n\t\t\t\t}\n\t\t\t\telse if(moveBack)\n\t\t\t\t{\n\t\t\t\t\t// Check coord first\n\t\t\t\t\tif(errorPos < tolerancePosBacking)\n\t\t\t\t\t{\n\t\t\t\t\t\tposOk = true;\n\t\t\t\t\t\tbreak;\n\t\t\t\t\t}\n\n\t\t\t\t\t// Uses normal navigation, but reverse it\n\t\t\t\t\tfloat newAngReverse{ang + M_PI};\n\t\t\t\t\terrorAng = calcErrorAng(newAngReverse);\n\n\t\t\t\t\tFuzzyliteData::setErrorValues(errorPos, errorAng);\n\n\t\t\t\t\tmsg.linear.x = -FuzzyliteData::getLinSpeed();\n//\t\t\t\t\tmsg.angular.z = FuzzyliteData::getAngSpeedBackward();\n\t\t\t\t\tmsg.angular.z = 0;\n\n\t\t\t\t\tsystem(\"clear\");\n\t\t\t\t\tprintf(\"Controle Ativo: RE.\\n\");\n\t\t\t\t\tprintf(\"Des pos X %.1f Y %.1f \\n\", desPos[0], desPos[1]);\t\t\t\t\t\n\t\t\t\t\tprintf(\"Erro de orientação: %.2f rad\\n\",errorAng);\n\t\t\t\t\tprintf(\"Erro de posição: %.2f m\\n\",errorPos);\n\t\t\t\t\tprintf(\"Velocidade angular enviada: %.2f rad/s\\n\",msg.angular.z);\n\t\t\t\t\tprintf(\"Velocidade linear enviada: %.2f m/s\\n\\n\",msg.linear.x);\n\n\t\t\t\t\tpub.publish(msg);\n\t\t\t\t\tros::spinOnce();\n\t\t\t\t\tloop_rate.sleep();\n\n\t\t\t\t\tcontinue;\n\t\t\t\t}\n\t\t\t\telse if (errorPos < tolerancePos)\n\t\t\t\t{\n\t\t\t\t\tposOk = true;\n\t\t\t\t\tbreak;\n\t\t\t\t}\n\n\t\t\t\t// Check if its necessary to use obs avoidance\n\t\t\t\tif(useObsAvoidance && !specialMove)\n\t\t\t\t{\n\t\t\t\t\tmsg.linear.x = FuzzyliteData::getLinSpeedAvoidObs();\n\t\t\t\t\tmsg.angular.z = FuzzyliteData::getAngSpeedAvoidObs();\n\n\t\t\t\t\tsystem(\"clear\");\n\t\t\t\t\tprintf(\"Controle Ativo: DESVIO DE OBSTACULO.\\n\");\n\t\t\t\t\tprintf(\"Des pos X %.1f Y %.1f \\n\", desPos[0], desPos[1]);\n\t\t\t\t\tprintf(\"Erro de orientação: -\\n\");\n\t\t\t\t\tprintf(\"Erro de posição: %.2f m\\n\",errorPos);\n\t\t\t\t\tprintf(\"Velocidade angular enviada: %.2f rad/s\\n\",msg.angular.z);\n\t\t\t\t\tprintf(\"Velocidade linear enviada: %.2f m/s\\n\\n\",msg.linear.x);\n\n\n\t\t\t\t\tpub.publish(msg);\n\t\t\t\t\tros::spinOnce();\n\t\t\t\t\tloop_rate.sleep();\n\t\t\t\t}\n\t\t\t\telse\n\t\t\t\t{\n\t\t\t\t\t// Uses normal navigation\n\t\t\t\t\tmsg.linear.x = FuzzyliteData::getLinSpeed();\n\t\t\t\t\tmsg.angular.z = FuzzyliteData::getAngSpeed();\n\n\t\t\t\t\tsystem(\"clear\");\n\t\t\t\t\tprintf(\"Controle Ativo: POSIÇÃO CARTESIANA.\\n\");\n\t\t\t\t\tprintf(\"Des pos X %.1f Y %.1f \\n\", desPos[0], desPos[1]);\n\t\t\t\t\tprintf(\"Erro de orientação: %.2f rad\\n\",errorAng);\n\t\t\t\t\tprintf(\"Erro de posição: %.2f m\\n\",errorPos);\n\t\t\t\t\tprintf(\"Velocidade angular enviada: %.2f rad/s\\n\",msg.angular.z);\n\t\t\t\t\tprintf(\"Velocidade linear enviada: %.2f m/s\\n\\n\",msg.linear.x);\n\n\t\t\t\t\tpub.publish(msg);\n\t\t\t\t\tros::spinOnce();\n\t\t\t\t\tloop_rate.sleep();\n\t\t\t\t}\n\t\t\t}\n\n\t\t\tmsg.linear.x = 0;\n\t\t\tmsg.angular.z = 0;\n\t\t\tpub.publish(msg);\n\t\t\tros::spinOnce();\n\n\t\t\tprintf(\"Reached destination!!\\n\");\n\n\t\t}\n\t\t\n\n\t\tmsg.linear.x = 0;\n\t\tmsg.angular.z = 0;\n\t\tpub.publish(msg);\n\t\tros::spinOnce();\n\n\t\tprintf(\"Reached destination!!\\n\");\n\t}\n\n \treturn 0;\n}\n" }, { "alpha_fraction": 0.6438356041908264, "alphanum_fraction": 0.681506872177124, "avg_line_length": 16.117647171020508, "blob_id": "316edda9a67f9237e2bd476c0b42fe1bd76f4352", "content_id": "0f171560d212fc03acfbdaebab4e70a1d47e322c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 292, "license_type": "no_license", "max_line_length": 57, "num_lines": 17, "path": "/pgn_to_uci_chess_moves.py", "repo_name": "LvkazTG/MobileRobotChess", "src_encoding": "UTF-8", "text": "import chess.pgn\nimport os\n\nboard = chess.Board()\npgn_file = open(\"LvkazTG_vs_NRPL613_2021.05.25.pgn\", \"r\")\n\ngame = chess.pgn.read_game(pgn_file)\n\nprint(game.headers[\"Event\"])\n\nboard = game.board()\n\nfor move in game.mainline_moves():\n print(move.uci())\n board.push(move)\n\nprint(board)\n\n" }, { "alpha_fraction": 0.6265032887458801, "alphanum_fraction": 0.645115077495575, "avg_line_length": 42.54613494873047, "blob_id": "2fd665b68f184dd8989322eeb11c7c90e83053e7", "content_id": "37a04afc32166448b60ae596898ddd43ac56869f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 17462, "license_type": "no_license", "max_line_length": 147, "num_lines": 401, "path": "/fuzzylite.cpp", "repo_name": "LvkazTG/MobileRobotChess", "src_encoding": "UTF-8", "text": "#include \"fuzzylite.h\"\n#include \"fl/Headers.h\"\n#include <iostream>\n\nusing namespace fl;\n\n\nEngine engine{nullptr};\n\nInputVariable* eLin{nullptr};\nInputVariable* eAng{nullptr};\n\nInputVariable* obstacleDistLeft{nullptr};\nInputVariable* obstacleDistFront{nullptr};\nInputVariable* obstacleDistRight{nullptr};\n\n\nOutputVariable* outSpeed{nullptr};\nOutputVariable* outAng{nullptr};\n\nOutputVariable* outSpeedObsAvoid{nullptr};\nOutputVariable* outAngObsAvoid{nullptr};\n\nOutputVariable* outAngBackward{nullptr};\n\n\nRuleBlock* rDeslocLin{nullptr};\nRuleBlock* rDeslocAng{nullptr};\n\nRuleBlock* rDeslocLinObsAvoid{nullptr};\nRuleBlock* rDeslocAngObsAvoid{nullptr};\n\nRuleBlock* rDeslocAngBackward{nullptr};\n\n\nvoid FuzzyliteData::loadFuzzyLinearDesloc()\n{\n engine = new Engine{};\n\n engine->setName(\"DeslocLin\");\n engine->setDescription(\"\");\n\n eLin = new InputVariable{};\n eLin->setName(\"Error_Linear\");\n eLin->setDescription(\"\");\n eLin->setEnabled(true);\n eLin->setRange(0.000, 5.000);\n eLin->setLockValueInRange(true);\n eLin->addTerm(new Triangle{\"Z_Close\", 0.0, 0.05, 0.15, 2.0});\n eLin->addTerm(new Triangle{\"V_Close\", 0.1, 0.25, 0.4, 2.0});\n eLin->addTerm(new Triangle{\"Close\", 0.25, 1.0, 1.2});\n eLin->addTerm(new Triangle{\"Far\", 0.8, 1.5, 2.0});\n eLin->addTerm(new Triangle{\"V_Far\", 1.5, 5.0, 5.0});\n engine->addInputVariable(eLin);\n\n eAng = new InputVariable{};\n eAng->setName(\"Error_Angular\");\n eAng->setDescription(\"\");\n eAng->setEnabled(true);\n eAng->setRange(-M_PI, M_PI);\n eAng->setLockValueInRange(true);\n eAng->addTerm(new Triangle{\"V_Neg\", -M_PI, -M_PI, -M_PI/6});\n eAng->addTerm(new Triangle{\"Neg\", -M_PI/3, -M_PI/9, -M_PI/100});\n eAng->addTerm(new Triangle{\"Neg_Zero\", -M_PI/20, -M_PI/100, 0});\n eAng->addTerm(new Triangle{\"Zero\", -M_PI/200, 0, M_PI/200});\n eAng->addTerm(new Triangle{\"Posi_Zero\", 0, M_PI/100, M_PI/20});\n eAng->addTerm(new Triangle{\"Posi\", M_PI/100, M_PI/9, M_PI/3});\n eAng->addTerm(new Triangle{\"V_Posi\", M_PI/6, M_PI, M_PI});\n engine->addInputVariable(eAng);\n\n outSpeed = new OutputVariable{};\n outSpeed->setName(\"Speed\");\n outSpeed->setDescription(\"\");\n outSpeed->setEnabled(true);\n outSpeed->setRange(-0.05, 1.5);\n outSpeed->setLockValueInRange(true);\n outSpeed->setAggregation(new Maximum);\n outSpeed->setDefuzzifier(new Centroid(100));\n outSpeed->setDefaultValue(0.0);\n outSpeed->setLockPreviousValue(true);\n outSpeed->addTerm(new Triangle{\"Zero\", -0.05, 0.05, 0.2, 3});\n outSpeed->addTerm(new Triangle{\"Z_Slow\", 0.1, 0.15, 0.25, 2});\n outSpeed->addTerm(new Triangle{\"V_Slow\", 0.15, 0.3, 0.5, 2});\n outSpeed->addTerm(new Triangle{\"Slow\", 0.4, 0.6, 0.8});\n outSpeed->addTerm(new Triangle{\"Fast\", 0.6, 0.8, 0.9});\n outSpeed->addTerm(new Triangle{\"V_Fast\", 0.8, 1.2, 1.5});\n engine->addOutputVariable(outSpeed);\n\n rDeslocLin = new RuleBlock{};\n rDeslocLin->setName(\"rDeslocLin\");\n rDeslocLin->setDescription(\"\");\n rDeslocLin->setEnabled(true);\n rDeslocLin->setConjunction(new Minimum{});\n rDeslocLin->setDisjunction(new Maximum{});\n rDeslocLin->setImplication(new AlgebraicProduct);\n rDeslocLin->setActivation(new General);\n\n rDeslocLin->addRule(Rule::parse(\"if Error_Angular is V_Neg or Error_Angular is V_Posi then Speed is V_Slow\", engine));\n\n // Fine error handling\n rDeslocLin->addRule(Rule::parse(\"if Error_Linear is Z_Close then Speed is Zero\", engine));\n\n rDeslocLin->addRule(Rule::parse(\"if Error_Linear is V_Close then Speed is Z_Slow\", engine));\n\n rDeslocLin->addRule(Rule::parse(\"if Error_Linear is Close then Speed is V_Slow\", engine));\n\n rDeslocLin->addRule(Rule::parse(\"if Error_Linear is Far and Error_Angular is Zero then Speed is Fast\", engine));\n rDeslocLin->addRule(Rule::parse(\"if Error_Linear is Far and Error_Angular is not Zero then Speed is Slow\", engine));\n\n rDeslocLin->addRule(Rule::parse(\"if Error_Linear is V_Far and Error_Angular is Zero then Speed is V_Fast\", engine));\n rDeslocLin->addRule(Rule::parse(\"if Error_Linear is V_Far and Error_Angular is not Zero then Speed is Fast\", engine));\n\n engine->addRuleBlock(rDeslocLin);\n}\n\nvoid FuzzyliteData::loadFuzzyAngDesloc()\n{\n outAng = new OutputVariable{};\n outAng->setName(\"SpeedAng\");\n outAng->setDescription(\"\");\n outAng->setEnabled(true);\n outAng->setRange(-M_PI2, M_PI2);\n outAng->setLockValueInRange(true);\n outAng->setAggregation(new Maximum);\n outAng->setDefuzzifier(new Centroid(100));\n outAng->setDefaultValue(0.0);\n outAng->setLockPreviousValue(true);\n outAng->addTerm(new Triangle{\"Zero\", -M_PI/30, 0.0, M_PI/30});\n outAng->addTerm(new Triangle{\"Posi_Zero\", 0.0, M_PI/30, M_PI/15, 2});\n outAng->addTerm(new Triangle{\"Nega_Zero\", -M_PI/15, -M_PI/30, 0, 2});\n outAng->addTerm(new Triangle{\"Posi\", M_PI/30, M_PI/8, M_PI/3, 2});\n outAng->addTerm(new Triangle{\"Nega\", -M_PI/3, -M_PI/8, -M_PI/30, 2});\n outAng->addTerm(new Triangle{\"V_Posi\", M_PI/4, M_PI2, M_PI2});\n outAng->addTerm(new Triangle{\"V_Nega\", -M_PI2, -M_PI2, -M_PI/4});\n engine->addOutputVariable(outAng);\n\n rDeslocAng = new RuleBlock{};\n rDeslocAng->setName(\"rDeslocAng\");\n rDeslocAng->setDescription(\"\");\n rDeslocAng->setEnabled(true);\n rDeslocAng->setConjunction(new Minimum{});\n rDeslocAng->setDisjunction(new Maximum{});\n rDeslocAng->setImplication(new AlgebraicProduct);\n rDeslocAng->setActivation(new General);\n\n rDeslocAng->addRule(Rule::parse(\"if Error_Angular is Zero then SpeedAng is Zero\", engine));\n rDeslocAng->addRule(Rule::parse(\"if Error_Angular is Posi_Zero then SpeedAng is Posi_Zero\", engine));\n rDeslocAng->addRule(Rule::parse(\"if Error_Angular is Neg_Zero then SpeedAng is Nega_Zero\", engine));\n rDeslocAng->addRule(Rule::parse(\"if Error_Angular is Posi then SpeedAng is Posi\", engine));\n rDeslocAng->addRule(Rule::parse(\"if Error_Angular is Neg then SpeedAng is Nega\", engine));\n rDeslocAng->addRule(Rule::parse(\"if Error_Angular is V_Posi then SpeedAng is V_Posi\", engine));\n rDeslocAng->addRule(Rule::parse(\"if Error_Angular is V_Neg then SpeedAng is V_Nega\", engine));\n\n engine->addRuleBlock(rDeslocAng);\n}\n\nvoid FuzzyliteData::loadFuzzyObstacleDist()\n{\n\n obstacleDistLeft = new InputVariable{};\n obstacleDistLeft->setName(\"Obs_Dist_L\");\n obstacleDistLeft->setDescription(\"\");\n obstacleDistLeft->setEnabled(true);\n obstacleDistLeft->setRange(0.000, 2.000);\n obstacleDistLeft->setLockValueInRange(true);\n// obstacleDistLeft->addTerm(new Triangle{\"V_Close\", 0.0, 0.1, 0.35, 2.0});\n// obstacleDistLeft->addTerm(new Triangle{\"Close\", 0.2, 0.5, 1.2});\n obstacleDistLeft->addTerm(new Triangle{\"Close_Zero\", 0.0, 0.2, 0.25});\n// obstacleDistLeft->addTerm(new Triangle{\"V_Close\", 0.0, 0.3, 0.5, 2.0});\n// obstacleDistLeft->addTerm(new Triangle{\"Close\", 0.4, 0.6, 1.2});\n obstacleDistLeft->addTerm(new Triangle{\"V_Close\", 0.0, 0.25, 0.45, 2.0});\n obstacleDistLeft->addTerm(new Triangle{\"Close\", 0.35, 0.6, 1.2});\n obstacleDistLeft->addTerm(new Triangle{\"Far\", 0.6, 1.2, 2.0});\n engine->addInputVariable(obstacleDistLeft);\n\n // Clone obstacleDistLeft to obstacleDistFront, as it uses same info\n obstacleDistFront = obstacleDistLeft->clone();\n obstacleDistFront->setName(\"Obs_Dist_F\");\n engine->addInputVariable(obstacleDistFront);\n\n // Clone obstacleDistLeft to obstacleDistRight, as it uses same info\n obstacleDistRight = obstacleDistLeft->clone();\n obstacleDistRight->setName(\"Obs_Dist_R\");\n engine->addInputVariable(obstacleDistRight);\n\n outSpeedObsAvoid = new OutputVariable{};\n outSpeedObsAvoid->setName(\"SpeedObsAvoid\");\n outSpeedObsAvoid->setDescription(\"\");\n outSpeedObsAvoid->setEnabled(true);\n outSpeedObsAvoid->setRange(-0.200, 0.7); // -0.2 to allow 0 output\n outSpeedObsAvoid->setLockValueInRange(true);\n outSpeedObsAvoid->setAggregation(new Maximum);\n outSpeedObsAvoid->setDefuzzifier(new Centroid(100));\n outSpeedObsAvoid->setDefaultValue(0.0);\n outSpeedObsAvoid->setLockPreviousValue(true);\n outSpeedObsAvoid->addTerm(new Triangle{\"Zero\", -0.2, 0.0, 0.2, 2});\n outSpeedObsAvoid->addTerm(new Triangle{\"V_Slow\", 0.1, 0.25, 0.4, 2});\n outSpeedObsAvoid->addTerm(new Triangle{\"Slow\", 0.25, 0.5, 0.7});\n engine->addOutputVariable(outSpeedObsAvoid);\n\n\n outAngObsAvoid = new OutputVariable{};\n outAngObsAvoid->setName(\"SpeedAngObsAvoid\");\n outAngObsAvoid->setDescription(\"\");\n outAngObsAvoid->setEnabled(true);\n outAngObsAvoid->setRange(-M_PI1.5, M_PI1.5);\n outAngObsAvoid->setLockValueInRange(true);\n outAngObsAvoid->setAggregation(new Maximum);\n outAngObsAvoid->setDefuzzifier(new Centroid(100));\n outAngObsAvoid->setDefaultValue(0.0);\n outAngObsAvoid->setLockPreviousValue(true);\n outAngObsAvoid->addTerm(new Triangle{\"M_Nega\", -M_PI1.5, -M_PI1.5, -M_PI/2});\n outAngObsAvoid->addTerm(new Triangle{\"V_Nega\", -M_PI3/4, -M_PI/2, -M_PI/4});\n outAngObsAvoid->addTerm(new Triangle{\"Nega\", -M_PI/2, -M_PI/5, 0, 2});\n outAngObsAvoid->addTerm(new Triangle{\"Zero\", -M_PI/12, 0.0, M_PI/12});\n outAngObsAvoid->addTerm(new Triangle{\"Posi\", 0, M_PI/5, M_PI/2, 2});\n outAngObsAvoid->addTerm(new Triangle{\"V_Posi\", M_PI/4, M_PI/2, M_PI3/4});\n outAngObsAvoid->addTerm(new Triangle{\"M_Posi\", M_PI/2, M_PI1.5, M_PI1.5});\n engine->addOutputVariable(outAngObsAvoid);\n\n rDeslocLinObsAvoid = new RuleBlock{};\n rDeslocLinObsAvoid->setName(\"rDeslocLinObsAvoid\");\n rDeslocLinObsAvoid->setDescription(\"\");\n rDeslocLinObsAvoid->setEnabled(true);\n rDeslocLinObsAvoid->setConjunction(new Minimum{});\n rDeslocLinObsAvoid->setDisjunction(new Maximum{});\n rDeslocLinObsAvoid->setImplication(new AlgebraicProduct);\n rDeslocLinObsAvoid->setActivation(new General);\n\n rDeslocLinObsAvoid->addRule(Rule::parse(\"if Obs_Dist_L is V_Close or \"\n \"Obs_Dist_F is V_Close or \"\n \"Obs_Dist_R is V_Close \"\n \"then SpeedObsAvoid is Zero\", engine));\n\n rDeslocLinObsAvoid->addRule(Rule::parse(\"if Obs_Dist_L is Close and \"\n \"Obs_Dist_F is not V_Close and \"\n \"Obs_Dist_R is not V_Close \"\n \"then SpeedObsAvoid is V_Slow\", engine));\n\n rDeslocLinObsAvoid->addRule(Rule::parse(\"if Obs_Dist_F is Close and \"\n \"Obs_Dist_L is not V_Close and \"\n \"Obs_Dist_R is not V_Close \"\n \"then SpeedObsAvoid is V_Slow\", engine));\n\n rDeslocLinObsAvoid->addRule(Rule::parse(\"if Obs_Dist_R is Close and \"\n \"Obs_Dist_L is not V_Close and \"\n \"Obs_Dist_F is not V_Close \"\n \"then SpeedObsAvoid is V_Slow\", engine));\n\n rDeslocLinObsAvoid->addRule(Rule::parse(\"if Obs_Dist_L is Far and \"\n \"Obs_Dist_F is Far and \"\n \"Obs_Dist_R is Far \"\n \"then SpeedObsAvoid is Slow\", engine));\n\n engine->addRuleBlock(rDeslocLinObsAvoid);\n\n rDeslocAngObsAvoid = new RuleBlock{};\n rDeslocAngObsAvoid->setName(\"rDeslocAngObsAvoid\");\n rDeslocAngObsAvoid->setDescription(\"\");\n rDeslocAngObsAvoid->setEnabled(true);\n rDeslocAngObsAvoid->setConjunction(new Minimum{});\n rDeslocAngObsAvoid->setDisjunction(new Maximum{});\n rDeslocAngObsAvoid->setImplication(new AlgebraicProduct);\n rDeslocAngObsAvoid->setActivation(new General);\n\n // Tries to keep going straight\n rDeslocAngObsAvoid->addRule(Rule::parse(\"if Obs_Dist_F is Far \"\n \"then SpeedAngObsAvoid is Zero\", engine));\n\n\n // Gives preference to go to RIGHT move, negative values\n\n rDeslocAngObsAvoid->addRule(Rule::parse(\"if Obs_Dist_F is V_Close \"\n \"then SpeedAngObsAvoid is V_Nega\", engine));\n\n rDeslocAngObsAvoid->addRule(Rule::parse(\"if Obs_Dist_L is V_Close and \"\n \"Obs_Dist_F is not Far \"\n \"then SpeedAngObsAvoid is M_Nega\", engine));\n\n rDeslocAngObsAvoid->addRule(Rule::parse(\"if Obs_Dist_L is V_Close and \"\n \"Obs_Dist_F is Far \"\n \"then SpeedAngObsAvoid is Nega\", engine));\n\n rDeslocAngObsAvoid->addRule(Rule::parse(\"if Obs_Dist_L is Close and \"\n \"Obs_Dist_F is not Far \"\n \"then SpeedAngObsAvoid is V_Nega\", engine));\n\n // Moves LEFT only when necessary\n rDeslocAngObsAvoid->addRule(Rule::parse(\"if Obs_Dist_R is V_Close and \"\n \"Obs_Dist_L is Far \"\n \"then SpeedAngObsAvoid is M_Posi\", engine));\n\n rDeslocAngObsAvoid->addRule(Rule::parse(\"if Obs_Dist_R is Close and \"\n \"Obs_Dist_L is Far \"\n \"then SpeedAngObsAvoid is V_Posi\", engine));\n\n rDeslocAngObsAvoid->addRule(Rule::parse(\"if Obs_Dist_R is V_Close and \"\n \"Obs_Dist_L is not Far \"\n \"then SpeedAngObsAvoid is V_Posi\", engine));\n\n rDeslocAngObsAvoid->addRule(Rule::parse(\"if Obs_Dist_R is Close and \"\n \"Obs_Dist_L is not Far \"\n \"then SpeedAngObsAvoid is Posi\", engine));\n\n engine->addRuleBlock(rDeslocAngObsAvoid);\n}\n\nvoid FuzzyliteData::loadFuzzyBackwardAng()\n{\n outAngBackward = outAng->clone();\n outAngBackward->setName(\"SpeedAngBackward\");\n engine->addOutputVariable(outAngBackward);\n\n rDeslocAngBackward = new RuleBlock{};\n rDeslocAngBackward->setName(\"rDeslocAngBackward\");\n rDeslocAngBackward->setDescription(\"\");\n rDeslocAngBackward->setEnabled(true);\n rDeslocAngBackward->setConjunction(new Minimum{});\n rDeslocAngBackward->setDisjunction(new Maximum{});\n rDeslocAngBackward->setImplication(new AlgebraicProduct);\n rDeslocAngBackward->setActivation(new General);\n\n std::string commonDistObsLimiterPhrase{\"if Obs_Dist_L is not Close_Zero and \"\n \"Obs_Dist_F is not Close_Zero and \"\n \"Obs_Dist_R is not Close_Zero and \"};\n\n rDeslocAngBackward->addRule(Rule::parse(commonDistObsLimiterPhrase + \"Error_Angular is Zero then SpeedAngBackward is Zero\", engine));\n rDeslocAngBackward->addRule(Rule::parse(commonDistObsLimiterPhrase + \"Error_Angular is Posi_Zero then SpeedAngBackward is Posi_Zero\", engine));\n rDeslocAngBackward->addRule(Rule::parse(commonDistObsLimiterPhrase + \"Error_Angular is Neg_Zero then SpeedAngBackward is Nega_Zero\", engine));\n rDeslocAngBackward->addRule(Rule::parse(commonDistObsLimiterPhrase + \"Error_Angular is Posi then SpeedAngBackward is Posi\", engine));\n rDeslocAngBackward->addRule(Rule::parse(commonDistObsLimiterPhrase + \"Error_Angular is Neg then SpeedAngBackward is Nega\", engine));\n rDeslocAngBackward->addRule(Rule::parse(commonDistObsLimiterPhrase + \"Error_Angular is V_Posi then SpeedAngBackward is V_Posi\", engine));\n rDeslocAngBackward->addRule(Rule::parse(commonDistObsLimiterPhrase + \"Error_Angular is V_Neg then SpeedAngBackward is V_Nega\", engine));\n\n // Extra rule to ensure when near objects dont move in angular\n rDeslocAngBackward->addRule(Rule::parse(\"if Obs_Dist_L is Close_Zero or \"\n \"Obs_Dist_F is Close_Zero or \"\n \"Obs_Dist_R is Close_Zero then SpeedAngBackward is Zero\", engine));\n\n engine->addRuleBlock(rDeslocAngBackward);\n\n}\n\n\nvoid FuzzyliteData::loadFuzzyData()\n{\n FuzzyliteData::loadFuzzyLinearDesloc();\n FuzzyliteData::loadFuzzyAngDesloc();\n FuzzyliteData::loadFuzzyObstacleDist();\n FuzzyliteData::loadFuzzyBackwardAng();\n\n std::string status;\n if (!engine->isReady(&status))\n {\n throw Exception(\"[engine error] engine is not ready:n\" + status, FL_AT);\n }\n}\n\nvoid FuzzyliteData::setErrorValues(const float valErrorLin, const float valErrorAng)\n{\n eLin->setValue(valErrorLin);\n eAng->setValue(valErrorAng);\n\n engine->process();\n}\n\nvoid FuzzyliteData::setObstacleDists(const float valObsL, const float valObsF, const float valObsR)\n{\n obstacleDistLeft->setValue(valObsL);\n obstacleDistFront->setValue(valObsF);\n obstacleDistRight->setValue(valObsR);\n\n engine->process();\n}\n\ndouble FuzzyliteData::getLinSpeed()\n{\n const float outVal{outSpeed->getValue()};\n return(0.0 > outVal ? 0.0 : outVal); \n}\n\ndouble FuzzyliteData::getAngSpeed()\n{\n return outAng->getValue();\n}\n\ndouble FuzzyliteData::getLinSpeedAvoidObs()\n{\n const float outVal{outSpeedObsAvoid->getValue()};\n return(0.0 > outVal ? 0.0 : outVal); \n}\n\ndouble FuzzyliteData::getAngSpeedAvoidObs()\n{\n return outAngObsAvoid->getValue();\n}\n\ndouble FuzzyliteData::getAngSpeedBackward()\n{\n return outAngBackward->getValue();\n}\n" }, { "alpha_fraction": 0.7273901700973511, "alphanum_fraction": 0.7273901700973511, "avg_line_length": 21.14285659790039, "blob_id": "8529964f29c7e3789e67af71f0185a7ae65b402a", "content_id": "ccda97bbd402d58568a2d353f4f554b2d507aacd", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 774, "license_type": "no_license", "max_line_length": 89, "num_lines": 35, "path": "/fuzzylite.h", "repo_name": "LvkazTG/MobileRobotChess", "src_encoding": "UTF-8", "text": "#ifndef FUZZYLITE_DATA\n#define FUZZYLITE_DATA\n\nnamespace FuzzyliteData\n{\n // Funcs to creates fuzzy structure to use\n void loadFuzzyData();\n\n void loadFuzzyLinearDesloc();\n\n void loadFuzzyAngDesloc();\n\n void loadFuzzyObstacleDist();\n\n void loadFuzzyBackwardAng();\n\n // Funcs to set values for fuzzy process\n // Calculation of values is done in sequence after insertion\n void setErrorValues(const float valErrorLin, const float valErrorAng);\n\n void setObstacleDists(const float valObsL, const float valObsF, const float valObsR);\n\n // Funcs to get value out of fuzzy process\n double getLinSpeed();\n\n double getAngSpeed();\n\n double getLinSpeedAvoidObs();\n\n double getAngSpeedAvoidObs();\n\n double getAngSpeedBackward();\n}\n\n#endif" } ]	4
stevenacalhoun/ai-homeworks	https://github.com/stevenacalhoun/ai-homeworks	65907b50f5fdccddef3951c9a14387dce7e764ea	07adf770b5e417d4b20303ea13d58d3507a72fdd	48ff999aabac44e14fabfc78fd55ebc04b3804ae	refs/heads/master	2021-03-30T17:28:26.563401	2017-04-18T17:26:32	2017-04-18T17:26:32	78,664,594	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6315155029296875, "alphanum_fraction": 0.6399946212768555, "avg_line_length": 29.695890426635742, "blob_id": "a3cd0d211f2055e59335dc6d8ca9547b0a0c6371", "content_id": "78ccf97a88e6c32d6ea66b462ed6a33f8c18b507", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 22408, "license_type": "no_license", "max_line_length": 149, "num_lines": 730, "path": "/homework6/Submission files/astarnavigator.py", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "'''\n * Copyright (c) 2014, 2015 Entertainment Intelligence Lab, Georgia Institute of Technology.\n * Originally developed by Mark Riedl.\n * Last edited by Mark Riedl 05/2015\n \n Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n \n http://www.apache.org/licenses/LICENSE-2.0\n \n Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n'''\n\nimport sys, pygame, math, numpy, random, time, copy\nfrom pygame.locals import \n\nfrom constants import \nfrom utils import \nfrom core import \nfrom mycreatepathnetwork import \nfrom mynavigatorhelpers import \n\nimport time\n\n###############################\n### AStarNavigator\n###\n### Creates a path node network and implements the FloydWarshall all-pairs shortest-path algorithm to create a path to the given destination.\nclass AStarNavigator(NavMeshNavigator):\n\n def __init__(self):\n NavMeshNavigator.__init__(self)\n self.previousGates = []\n\n ### Create the pathnode network and pre-compute all shortest paths along the network.\n ### self: the navigator object\n ### world: the world object\n def createPathNetwork(self, world):\n self.pathnodes, self.pathnetwork, self.navmesh = myCreatePathNetwork(world, self.agent)\n return None\n\n ### Finds the shortest path from the source to the destination using A.\n ### self: the navigator object\n ### source: the place the agent is starting from (i.e., it's current location)\n ### dest: the place the agent is told to go to\n def computePath(self, source, dest):\n ### Make sure the next and dist matricies exist\n if self.agent != None and self.world != None:\n self.source = source\n self.destination = dest\n\n ### Step 1: If the agent has a clear path from the source to dest, then go straight there.\n ### Determine if there are no obstacles between source and destination (hint: cast rays against world.getLines(), check for clearance).\n ### Tell the agent to move to dest\n if clearShot(source, dest, self.world.getLines(), self.world.getPoints(), self.agent):\n self.agent.moveToTarget(dest)\n\n ### Step 2: If there is an obstacle, create the path that will move around the obstacles.\n ### Find the pathnodes closest to source and destination.\n ### Create the path by traversing the self.next matrix until the pathnode closes to the destination is reached\n ### Store the path by calling self.setPath()\n ### Tell the agent to move to the first node in the path (and pop the first node off the path)\n else:\n start = findClosestUnobstructed(source, self.pathnodes, self.world.getLinesWithoutBorders())\n end = findClosestUnobstructed(dest, self.pathnodes, self.world.getLinesWithoutBorders())\n if start != None and end != None:\n # print len(self.pathnetwork)\n newnetwork = unobstructedNetwork(self.pathnetwork, self.world.getGates())\n # print len(newnetwork)\n closedlist = []\n path, closedlist = astar(start, end, newnetwork)\n if path is not None and len(path) > 0:\n path = shortcutPath(source, dest, path, self.world, self.agent)\n self.setPath(path)\n if self.path is not None and len(self.path) > 0:\n first = self.path.pop(0)\n self.agent.moveToTarget(first)\n return None\n\n ### Called when the agent gets to a node in the path.\n ### self: the navigator object\n def checkpoint(self):\n myCheckpoint(self)\n return None\n\n ### This function gets called by the agent to figure out if some shortcutes can be taken when traversing the path.\n ### This function should update the path and return True if the path was updated.\n def smooth(self):\n return mySmooth(self)\n\n def update(self, delta):\n myUpdate(self, delta)\n\ndef unobstructedNetwork(network, worldLines):\n newnetwork = []\n for l in network:\n hit = rayTraceWorld(l[0], l[1], worldLines)\n if hit == None:\n newnetwork.append(l)\n return newnetwork\n\ndef astar(init, goal, network):\n path = []\n\n closedSet = []\n openSet = []\n ### YOUR CODE GOES BELOW HERE ###\n\n initPoint = Point(init[0],init[1])\n goalPoint = Point(goal[0],goal[1])\n\n # Open initial node\n openSet = [initPoint]\n\n # Convert world objects\n pathPoints = []\n pathLines = []\n for line in network:\n p1 = Point(line[0][0],line[0][1])\n p2 = Point(line[1][0],line[1][1])\n if p1 not in pathPoints:\n pathPoints.append(p1)\n if p2 not in pathPoints:\n pathPoints.append(p2)\n pathLines.append(Line(p1,p2))\n\n # Map to hold A paths\n cameFrom = {}\n\n # Set all initial values to infinity\n gScore = {}\n fScore = {}\n for node in pathPoints:\n gScore[node] = INFINITY\n fScore[node] = INFINITY\n\n # Initialize for initPoint\n fScore[initPoint] = distance(initPoint.toTuple(), goalPoint.toTuple())\n gScore[initPoint] = 0\n\n pathNodes = None\n # This should continue until path is found\n while openSet is not []:\n # Find node with lowest fScore in openSet\n lowestScore = INFINITY\n current = None\n for node in fScore:\n if node in openSet and fScore[node] < lowestScore:\n current = node\n lowestScore = fScore[node]\n\n # Can't find a path\n if current == None:\n break\n\n # We've reached the goal, construct path and break\n if current == goalPoint:\n pathNodes = constructPath(cameFrom, current)\n break\n\n # Close curent point\n openSet.remove(current)\n closedSet.append(current)\n\n # Check all neighbors of current node\n for neighbor in getNeighbors(current, pathLines):\n # Only check non-closed nodes\n if neighbor not in closedSet:\n # Caclulate score\n tentative_gScore = gScore[current] + distance(current.toTuple(), neighbor.toTuple())\n\n # Neighbor is new to openSet\n if neighbor not in openSet:\n openSet.append(neighbor)\n\n cameFrom[neighbor] = current\n gScore[neighbor] = tentative_gScore\n fScore[neighbor] = gScore[neighbor] + distance(neighbor.toTuple(), goalPoint.toTuple())\n\n # Neighbor is in openSet and has a better gScore\n elif tentative_gScore < gScore[neighbor]:\n cameFrom[neighbor] = current\n gScore[neighbor] = tentative_gScore\n fScore[neighbor] = gScore[neighbor] + distance(neighbor.toTuple(), goalPoint.toTuple())\n\n if pathNodes != None:\n # Convert back to tuples\n path = pointsToTuples(pathNodes)\n closed = pointsToTuples(closedSet)\n else:\n return None, None\n\n ### YOUR CODE GOES ABOVE HERE ###\n return path, closed\n\n# Get all neighbors of a node\ndef getNeighbors(node, pathLines):\n neighbors = []\n for line in pathLines:\n if line.p1 == node:\n if line.p2 not in neighbors:\n neighbors.append(line.p2)\n elif line.p2 == node:\n if line.p1 not in neighbors:\n neighbors.append(line.p1)\n return neighbors\n\n# Construct a path from A* data structures\ndef constructPath(cameFrom, current):\n total_path = [current]\n while current in cameFrom:\n current = cameFrom[current]\n total_path.append(current)\n total_path.reverse()\n return total_path\n\ndef myUpdate(nav, delta):\n ### YOUR CODE GOES BELOW HERE ###\n\n # If the gates haven't changed, don't worry about it\n if nav.world.getGates() != nav.previousGates:\n # Convert world objects\n pathLines = []\n gatePoints, gateLines = lineTuplesToLinesAndPoints(nav.world.getGates())\n if nav.path != None:\n pathPoints, pathLines = pointTuplesToPointsAndLines(nav.path)\n\n # Add line from agent straight to target\n pathLines.append(Line(lineTuple=(nav.agent.position, nav.agent.moveTarget)))\n\n # Check for any path intersections\n for line in pathLines:\n if line.intersectsAny(gateLines):\n nav.computePath(nav.agent.position, nav.destination)\n\n nav.previousGates = nav.world.getGates()\n\n ### YOUR CODE GOES ABOVE HERE ###\n return None\n\ndef myCheckpoint(nav):\n ### YOUR CODE GOES BELOW HERE ###\n\n ### YOUR CODE GOES ABOVE HERE ###\n return None\n\n### Returns true if the agent can get from p1 to p2 directly without running into an obstacle.\n### p1: the current location of the agent\n### p2: the destination of the agent\n### worldLines: all the lines in the world\n### agent: the Agent object\ndef clearShot(p1, p2, worldLines, worldPoints, agent):\n ### YOUR CODE GOES BELOW HERE ###\n\n # Convert world objects\n worldPointObjects, worldLineObjects = lineTuplesToLinesAndPoints(worldLines)\n\n # Desired path\n pathLine = Line(lineTuple=(p1,p2))\n\n # Check if clear\n return pathLine.agentCanFollow(worldPointObjects, worldLineObjects, agentWidth=agent.getMaxRadius()+2)\n\n\n################################################################################################\n# Custom Point class instead of tuples\n################################################################################################\nclass Point(object):\n def __init__(self, x=None, y=None, pointTuple=None):\n if pointTuple == None:\n self.x = x\n self.y = y\n else:\n self.x = pointTuple[0]\n self.y = pointTuple[1]\n\n # Used for sorting in a clockwise manner\n self.center = None;\n\n # Overloaded operators\n def __eq__(self, otherPoint):\n if type(otherPoint) is not Point:\n return False\n if self.x == otherPoint.x and self.y == otherPoint.y:\n return True\n return False\n\n def __ne__(self, otherPoint):\n return not self.__eq__(otherPoint)\n\n ## CITATION\n # This code is taken from a stack overflow post. I implemented a point compare\n # function so that I could then sort a list of points around a center.\n # URL: http://stackoverflow.com/questions/6989100/sort-points-in-clockwise-order\n def __lt__(self, other):\n if self.center == None:\n return False\n\n if self.x - self.center.x >= 0 and other.x - self.center.x < 0:\n return True\n if self.x - self.center.x < 0 and other.x - self.center.x >= 0:\n return False\n if self.x - self.center.x == 0 and other.x - self.center.x == 0:\n if self.y - self.center.y >= 0 or other.y - self.center.y >= 0:\n return self.y > other.y\n return other.y > self.y\n\n det = (self.x - self.center.x) * (other.y - self.center.y) - (other.x - self.center.x) * (self.y - self.center.y);\n if det < 0:\n return True\n if det > 0:\n return False\n\n d1 = (self.x - self.center.x) * (self.x - self.center.x) + (self.y - self.center.y) * (self.y - self.center.y)\n d2 = (other.x - self.center.x) * (other.x - self.center.x) + (other.y - self.center.y) * (other.y - self.center.y)\n return d1 > d2\n ## END CITATION\n\n def __gt__(self, other):\n return not self.__lt__(other) and not self.__eq__(other)\n\n def __lq__(self, other):\n return self.__lt__(other) or self.__eq__(other)\n\n def __gq__(self, other):\n return self.__gt__(other) or self.__eq__(other)\n\n def __str__(self):\n return str(self.x)+\",\"+str(self.y)\n\n def __repr__(self):\n return str(self)\n\n def __hash__(self):\n return hash((self.x, self.y))\n\n def __getitem__(self, key):\n if key == 0:\n return self.x\n if key == 1:\n return self.y\n return None\n\n def __add__(self, other):\n x = self.x + other.x\n y = self.y + other.y\n return Point(x,y)\n\n def __sub__(self, other):\n x = self.x - other.x\n y = self.y - other.y\n return Point(x,y)\n\n def __div__(self, other):\n if type(other) == int:\n x = self.x/other\n y = self.y/other\n if type(other) == Point:\n x = self.x/other.x\n y = self.y/other.y\n return Point(x,y)\n\n # Point as an x,y tuple\n def toTuple(self):\n return (self.x,self.y)\n\n # Check if point is a successor\n def isSuccessor(self, otherPoint, worldLines, worldObstacles):\n # Lines along obstacleLines are okay\n if Line(self,otherPoint) in worldLines:\n return True\n\n # Lines that stretch obstaclePoint to obstaclePoint but not along an obstacle edge, this would result a false True using rayTraceWorldNoEndPoints\n for obstacle in worldObstacles:\n line = Line(self,otherPoint)\n if pointInsidePolygonLines(line.midpoint(), obstacle.toLineTuple()):\n return False\n\n # Lines through free space are okay\n if (rayTraceWorldNoEndPoints(self, otherPoint, worldLines) == None and self != otherPoint):\n return True\n\n return False\n\n # Get all successors\n def getAllSuccessors(self, worldPoints, worldLines, worldObstacles):\n successors = []\n for worldPoint in worldPoints:\n if self.isSuccessor(worldPoint, worldLines, worldObstacles):\n successors.append(worldPoint)\n\n return successors\n\n################################################################################################\n# Custom Line class for the same reasons\n################################################################################################\nclass Line(object):\n def __init__(self, p1=None, p2=None, lineTuple=None):\n if lineTuple == None:\n self.p1 = p1\n self.p2 = p2\n else:\n self.p1 = Point(pointTuple=lineTuple[0])\n self.p2 = Point(pointTuple=lineTuple[1])\n self.length = math.sqrt(math.pow(self.p2.x - self.p1.x,2) + math.pow(self.p2.y - self.p1.y,2))\n\n # Overloaded operators\n def __eq__(self, otherLine):\n if type(otherLine) != Line:\n return False\n if self.p1 == otherLine.p1 and self.p2 == otherLine.p2:\n return True\n if self.p2 == otherLine.p1 and self.p1 == otherLine.p2:\n return True\n return False\n\n def __ne__(self, otherLine):\n return not self.__eq__(otherLine)\n\n def __str__(self):\n return str(self.p1) + \"<->\" + str(self.p2)\n\n def __repr__(self):\n return str(self)\n\n def __getitem__(self, key):\n if key == 0:\n return self.p1\n if key == 1:\n return self.p2\n return None\n\n def draw(self, surface, color=(0,0,0), size=1):\n pygame.draw.line(surface, color, self.p1.toTuple(), self.p2.toTuple(), size)\n\n # Return tuple of point tuples\n def toTuple(self):\n return (self.p1.toTuple(),self.p2.toTuple())\n\n def center(self, center):\n line = Line(self.p1-center, self.p2-center)\n return line\n\n # Midpoint of line\n def midpoint(self):\n return Point((self.p1.x+self.p2.x)/2.0, (self.p1.y+self.p2.y)/2.0)\n\n # Line intersects line\n def intersects(self, otherLine):\n if rayTraceNoEndpoints(self.p1, self.p2, otherLine) and self != otherLine:\n return True\n return False\n\n # Line intersects any line in list\n def intersectsAny(self, otherLines):\n for otherLine in otherLines:\n if self.intersects(otherLine):\n return True\n return False\n\n # Check if agent can follow line\n def agentCanFollow(self, worldPoints, worldLines, agentWidth=AGENT_WIDTH+2):\n # Intersection with any world line is obviously unfollowable\n if self.intersectsAny(worldLines):\n return False\n\n # Make sure the agent won't clip any obstacle points along a line\n for point in worldPoints:\n if minimumDistance([self.p1, self.p2], point) < agentWidth and self not in worldLines and point != self.p1 and point != self.p2:\n return False\n\n return True\n\n################################################################################################\n# Custom Polygon class instead of...you already know by now\n################################################################################################\nclass Polygon(object):\n def __init__(self, points=None, lines=None, area=None):\n self.points = []\n self.lines = []\n self.centroid = Point(0,0)\n self.areaVal = None\n\n ## Init with points\n if points != None:\n self.points = points\n self._generateLines()\n\n ## Init with lines\n if lines != None:\n self.lines = lines\n self._generatePoints()\n\n # Clockwisify points\n self._calculateCentroid()\n self.points = sortPointsClockwise(self.points,self.centroid)\n self.order = len(self.lines)\n\n # Overloaded operators\n def __eq__(self, otherPoly):\n if type(otherPoly) != Polygon:\n return False\n if len(self.lines) != len(otherPoly.lines):\n return False\n for line in self.lines:\n if line not in otherPoly.lines:\n return False\n return True\n\n def __ne__(self, otherPoly):\n return not self.__eq__(otherPoly)\n\n def __str__(self):\n returnStr = \"\"\n for line in self.lines:\n returnStr += str(line) + \" \"\n return returnStr\n\n def __repr__(self):\n return str(self)\n\n # Generate points based on lines\n def _generatePoints(self):\n # Add in all unique points\n self.points = []\n for line in self.lines:\n if line.p1 not in self.points:\n self.points.append(line.p1)\n if line.p2 not in self.points:\n self.points.append(line.p2)\n\n # Generate lines based on points\n def _generateLines(self):\n last = None\n for p in self.points:\n if last != None:\n self.lines.append(Line(last, p))\n last = p\n self.lines.append(Line(self.points[len(self.points)-1], self.points[0]))\n\n # Calculate centroid\n def _calculateCentroid(self):\n for point in self.points:\n self.centroid += point\n self.centroid = self.centroid/len(self.points)\n\n def area(self):\n # See if it's already been calculated\n if self.areaVal != None:\n return self.area\n\n self.areaVal = 0\n # Triangle\n if self.order == 3:\n b = Line(self.points[1],self.points[0]).center(self.points[1])\n a = Line(self.points[1],self.points[2]).center(self.points[1])\n self.areaVal += 0.5a.lengthb.lengthmath.sin(angle(a.p2.toTuple(),b.p2.toTuple()))\n\n # Higher order poly\n else:\n for i,point in enumerate(self.points):\n if i == len(self.points)-1:\n tri = Polygon(points=[self.centroid, self.points[i], self.points[0]])\n else:\n tri = Polygon(points=[self.centroid, self.points[i], self.points[i+1]])\n self.areaVal += tri.area()\n\n return self.areaVal\n\n # Convert poly to list of point tuples\n def toPointTuple(self):\n points = []\n for point in self.points:\n points.append(point.toTuple())\n return points\n\n # Convert poly to list of line tuples\n def toLineTuple(self):\n lines = []\n for line in self.lines:\n lines.append(line.toTuple())\n return lines\n\n # Point part of hull\n def hullIncludesPoint(self, point):\n return pointInsidePolygonLines(point, self.lines) or point in self.points or pointOnPolygon(point,self.toPointTuple())\n\n # Point inside poly\n def pointInside(self, point):\n return pointInsidePolygonLines(point, self.lines) and not point in self.points and not pointOnPolygon(point,self.toPointTuple())\n\n # Check if line intersect poly\n def lineObstructs(self, testLine):\n # Line crosses inside\n if self.pointInside(testLine.p1) or self.pointInside(testLine.p2):\n return True\n\n # Line intersects\n if testLine.intersectsAny(self.lines):\n return True\n\n return False\n\n # Check if polygon overlaps\n def overlapsPoly(self, poly):\n for line in poly.lines:\n if self.lineObstructs(line):\n return True\n return False\n\n # Overlaps any poly in a list\n def overlapsAnyPoly(self, polys):\n for poly in polys:\n if self.overlapsPoly(poly):\n return True\n return False\n\n # Combine two polys, return combined poly, None otherwise\n def combinePoly(self, otherPoly):\n # Check if polys are adjacent\n adjPoints = polygonsAdjacent(self.points, otherPoly.points)\n if adjPoints:\n # Combine two polys lines\n combinedPolyLines = []\n combinedPolyLines.extend(self.lines)\n combinedPolyLines.extend(otherPoly.lines)\n\n commonLine = Line(adjPoints[0],adjPoints[1])\n if commonLine in combinedPolyLines:\n combinedPolyLines = filter(lambda a: a != commonLine, combinedPolyLines)\n\n # New poly must be convex\n combinedPoly = Polygon(lines=combinedPolyLines)\n if combinedPoly.isConvex():\n return combinedPoly\n\n return None\n\n # Polygon is convex\n def isConvex(self):\n return isConvex(self.points)\n\n################################################################################################\n# Lists of my objects helpers\n################################################################################################\n##### Point Lists\n# Points to list of tuples\ndef pointsToTuples(points):\n tuples = []\n for point in points:\n tuples.append(point.toTuple())\n return tuples\n\n# Sort list of points to be clockwise around a center\ndef sortPointsClockwise(points, center):\n for point in points:\n point.center = center\n return sorted(points)\n\ndef pointTuplesToPoints(pointTuples):\n points = []\n for pointTuple in pointTuples:\n p = Point(pointTuple=pointTuple)\n if p not in points:\n points.append(p)\n return points\n\ndef pointTuplesToPointsAndLines(pointTuples):\n points = pointTuplesToPoints(pointTuples)\n lines = []\n for i,p1 in enumerate(points):\n if i != 0:\n p2 = points[i-1]\n lines.append(Line(p1,p2))\n return points, lines\n\n##### Line Lists\n# Lines to a list of point tuples pairs\ndef linesToTuples(lines):\n tuples = []\n for line in lines:\n tuples.append(line.toTuple())\n return tuples\n\n# Lines to a list of unique points\ndef linesToPoints(lines):\n points = []\n for line in lines:\n if line.p1 not in points:\n points.append(line.p1)\n if line.p2 not in points:\n points.append(line.p2)\n return points\n\ndef lineTuplesToLines(lineTuples):\n points, lines = lineTuplesToLinesAndPoints(lineTuples)\n return lines\n\ndef lineTuplesToLinesAndPoints(lineTuples):\n points = []\n lines = []\n for line in lineTuples:\n p1 = Point(pointTuple=line[0])\n p2 = Point(pointTuple=line[1])\n if p1 not in points:\n points.append(p2)\n if p2 not in points:\n points.append(p2)\n lines.append(Line(p1=p1,p2=p2))\n return points, lines\n\n##### Poly Lists\n# Polys to a list of point tuples pairs\ndef polysToPointTuples(polys):\n tuples = []\n for poly in polys:\n tuples.append(poly.toPointTuple())\n return tuples\n\n# Polys to a list of line tuples\ndef polysToLineTuples(polys):\n tuples = []\n for poly in polys:\n tuples.append(poly.toLineTuple())\n return tuples\n" }, { "alpha_fraction": 0.6217374205589294, "alphanum_fraction": 0.6451110243797302, "avg_line_length": 22.768518447875977, "blob_id": "8ef6594dcea4daef66e7d274a2ea194924255329", "content_id": "e1ad82c874951fe6402b8cb393cd5236dcf74256", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2567, "license_type": "no_license", "max_line_length": 72, "num_lines": 108, "path": "/homework8/ControllerDriver.py", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "import sys\nfrom Observation import \nfrom Reward import \nfrom Action import \nfrom Agent import \nfrom Environment import \nimport numpy\nimport time\n\ndef main():\n gammas = [1.0,0.9,0.8,0.7,0.6,0.5,0.4,0.3,0.2,0.1]\n LRs = [0.1,0.2,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1.0]\n\n start = time.time()\n i = 0\n results = []\n currentMax = 0\n maxLR = 0\n maxGamma = 0\n for gamma in gammas:\n for LR in LRs:\n i+=1\n trialStart = time.time()\n maxr = runTraining(gamma, LR)\n print\n print \"Result \" + str(i)\n print \"Gamma: \" + str(gamma)\n print \"LR: \" + str(LR)\n print \"Reward: \" + str(maxr)\n print \"Trial time: \" + str(time.time() - trialStart)\n print \"Total time: \" + str(time.time() - start)\n\n if maxr > currentMax:\n currentMax = maxr\n maxLR = LR\n maxGamma = gamma\n\n print\n print \"Best\"\n print \"Reward: \" + str(currentMax)\n print \"LR: \" + str(maxLR)\n print \"Gamma: \" + str(maxGamma)\n print\n print\n\n results.append({\"reward\": maxr, \"gamma\": gamma, \"LR\": LR})\n print results\n\ndef runTraining(gamma, LR):\n # Training episodes\n episodes = 500\n\n # how often to report training results\n trainingReportRate = 100\n\n # play the interactive game?\n # 0: human does not play\n # 1: human plays as the bot\n # 2: human plays as the enemy\n play = 2\n\n #Max reward received in any iteration\n maxr = None\n\n # Set up environment for initial training\n gridEnvironment = Environment()\n gridEnvironment.randomStart = False\n gridEnvironment.enemyMode = 2\n gridEnvironment.verbose = 0\n\n # Set up agent\n gridAgent = Agent(gridEnvironment)\n gridAgent.verbose = False\n gridAgent.gamma = gamma\n gridAgent.learningRate = LR\n\n # This is where learning happens\n for i in range(episodes):\n # Train\n gridAgent.agent_reset()\n gridAgent.qLearn(gridAgent.initialObs)\n # Test\n gridAgent.agent_reset()\n gridAgent.executePolicy(gridAgent.initialObs)\n # Report\n totalr = gridAgent.totalReward\n if maxr == None or totalr > maxr:\n maxr = totalr\n\n if i % trainingReportRate == 0:\n print \"iteration:\", i, \"total reward\", totalr, \"max reward:\", maxr\n\n\n # Reset the environment for policy execution\n gridEnvironment.verbose = 0\n gridEnvironment.randomStart = False\n gridEnvironment.enemyMode = 1\n gridAgent.verbose = True\n\n # print \"Execute Policy\"\n gridAgent.agent_reset()\n gridAgent.executePolicy(gridAgent.initialObs, writeFile=True)\n # print \"total reward\", gridAgent.totalReward\n\n return maxr\n\nif __name__ == \"__main__\":\n main()\n" }, { "alpha_fraction": 0.6573226451873779, "alphanum_fraction": 0.6663109064102173, "avg_line_length": 27.166139602661133, "blob_id": "4ac08d33671fd38ead7a091b38225554f9854ab3", "content_id": "45135a2a3a63d994a1ce92ae112aae4b389a6331", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 17801, "license_type": "no_license", "max_line_length": 316, "num_lines": 632, "path": "/homework6/mybehaviors.py", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "'''\n * Copyright (c) 2014, 2015 Entertainment Intelligence Lab, Georgia Institute of Technology.\n * Originally developed by Mark Riedl.\n * Last edited by Mark Riedl 05/2015\n \n Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n \n http://www.apache.org/licenses/LICENSE-2.0\n \n Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n'''\n\nimport sys, pygame, math, numpy, random, time, copy\nfrom pygame.locals import \n\nfrom constants import \nfrom utils import \nfrom core import \nfrom moba2 import \nfrom btnode import \n\n###########################\n### SET UP BEHAVIOR TREE\n\n\ndef treeSpec(agent):\n myid = str(agent.getTeam())\n spec = None\n ### YOUR CODE GOES BELOW HERE ###\n\n return TREE\n\n ### YOUR CODE GOES ABOVE HERE ###\n return spec\n\ndef myBuildTree(agent):\n myid = str(agent.getTeam())\n root = None\n ### YOUR CODE GOES BELOW HERE ###\n\n ### YOUR CODE GOES ABOVE HERE ###\n return root\n\n### Helper function for making BTNodes (and sub-classes of BTNodes).\n### type: class type (BTNode or a sub-class)\n### agent: reference to the agent to be controlled\n### This function takes any number of additional arguments that will be passed to the BTNode and parsed using BTNode.parseArgs()\ndef makeNode(type, agent, args):\n node = type(agent, args)\n return node\n\n###############################\n### BEHAVIOR CLASSES:\n\n\n##################\n### Taunt\n###\n### Print disparaging comment, addressed to a given NPC\n### Parameters:\n### 0: reference to an NPC\n### 1: node ID string (optional)\n\nclass Taunt(BTNode):\n\n ### target: the enemy agent to taunt\n\n def parseArgs(self, args):\n BTNode.parseArgs(self, args)\n self.target = None\n # First argument is the target\n if len(args) > 0:\n self.target = args[0]\n # Second argument is the node ID\n if len(args) > 1:\n self.id = args[1]\n\n def execute(self, delta = 0):\n ret = BTNode.execute(self, delta)\n if self.target is not None:\n print \"Hey\", self.target, \"I don't like you!\"\n return ret\n\n##################\n### MoveToTarget\n###\n### Move the agent to a given (x, y)\n### Parameters:\n### 0: a point (x, y)\n### 1: node ID string (optional)\n\nclass MoveToTarget(BTNode):\n\n ### target: a point (x, y)\n\n def parseArgs(self, args):\n BTNode.parseArgs(self, args)\n self.target = None\n # First argument is the target\n if len(args) > 0:\n self.target = args[0]\n # Second argument is the node ID\n if len(args) > 1:\n self.id = args[1]\n\n def enter(self):\n BTNode.enter(self)\n self.agent.navigateTo(self.target)\n\n def execute(self, delta = 0):\n ret = BTNode.execute(self, delta)\n if self.target == None:\n # failed executability conditions\n print \"exec\", self.id, \"false\"\n return False\n elif distance(self.agent.getLocation(), self.target) < self.agent.getRadius():\n # Execution succeeds\n print \"exec\", self.id, \"true\"\n return True\n else:\n # executing\n return None\n return ret\n\n##################\n### Retreat\n###\n### Move the agent back to the base to be healed\n### Parameters:\n### 0: percentage of hitpoints that must have been lost to retreat\n### 1: node ID string (optional)\n\n\nclass Retreat(BTNode):\n\n ### percentage: Percentage of hitpoints that must have been lost\n\n def parseArgs(self, args):\n BTNode.parseArgs(self, args)\n self.percentage = 0.5\n # First argument is the factor\n if len(args) > 0:\n self.percentage = args[0]\n # Second argument is the node ID\n if len(args) > 1:\n self.id = args[1]\n\n def enter(self):\n BTNode.enter(self)\n self.agent.navigateTo(self.agent.world.getBaseForTeam(self.agent.getTeam()).getLocation())\n\n def execute(self, delta = 0):\n shootWhileRunning(self.agent)\n handleBullet(self.agent)\n handleAOEFire(self.agent)\n\n ret = BTNode.execute(self, delta)\n if self.agent.getHitpoints() == self.agent.getMaxHitpoints():\n # Exection succeeds\n print \"exec\", self.id, \"true\"\n return True\n elif self.agent.getHitpoints() > self.agent.getMaxHitpoints() self.percentage:\n # fail executability conditions\n print \"exec\", self.id, \"false\"\n return False\n else:\n # executing\n return None\n return ret\n\n\nclass Chase(BTNode):\n\n ### target: the minion to chase\n ### timer: how often to replan\n\n def parseArgs(self, args):\n BTNode.parseArgs(self, args)\n self.target = None\n self.timer = 50\n\n # First argument is the target type\n if len(args) > 0:\n self.targetType = args[0]\n\n # Second argument is the node ID\n if len(args) > 1:\n self.id = args[1]\n\n def enter(self):\n BTNode.enter(self)\n self.timer = 50\n enemies = self.agent.world.getEnemyNPCs(self.agent.getTeam())\n\n if len(enemies) > 0:\n if self.targetType == \"Hero\":\n self.target = getEnemyHero(self.agent)\n else:\n for e in enemies:\n best = None\n dist = 0\n if isinstance(e, Minion):\n d = distance(self.agent.getLocation(), e.getLocation())\n if best == None or d < dist:\n best = e\n dist = d\n self.target = best\n\n if self.target is not None:\n navTarget = self.chooseNavigationTarget()\n if navTarget is not None:\n if not self.targetInRange():\n self.agent.navigateTo(navTarget)\n\n def execute(self, delta = 0):\n shootWhileRunning(self.agent)\n handleBullet(self.agent)\n handleAOEFire(self.agent)\n\n dodgeLocationLeft, dodgeLocationRight = getDodgePositions(self.agent)\n drawDodgePositions(self.agent, [dodgeLocationLeft, dodgeLocationRight])\n\n # Have an advantage\n if levelAdvantage(self.agent, 2) and self.targetType != \"Hero\":\n print \"exec\", self.id, \"fail\"\n self.reset()\n return False\n\n ret = BTNode.execute(self, delta)\n if self.target == None or self.target.isAlive() == False:\n # failed execution conditions\n print \"exec\", self.id, \"false\"\n self.reset()\n return False\n elif self.targetInRange():\n # succeeded\n print \"exec\", self.id, \"true\"\n self.reset()\n return True\n else:\n # executing\n self.timer = self.timer - 1\n if self.timer <= 0:\n self.timer = 50\n navTarget = self.chooseNavigationTarget()\n if navTarget is not None:\n self.agent.navigateTo(navTarget)\n return None\n return ret\n\n def targetInRange(self):\n return distance(self.agent.getLocation(), self.target.getLocation()) < BIGBULLETRANGE\n\n def chooseNavigationTarget(self):\n if self.target is not None:\n return self.target.getLocation()\n else:\n return None\n\ndef getEnemyHero(agent):\n enemies = agent.world.getEnemyNPCs(agent.getTeam())\n\n for e in enemies:\n if isinstance(e, Hero):\n return e\n return None\n\n##################\n### KillMinion\n###\n### Kill the closest minion. Assumes it is already in range.\n### Parameters:\n### 0: node ID string (optional)\n\n\nclass Kill(BTNode):\n\n ### target: the minion to shoot\n killCount = 0\n\n def parseArgs(self, args):\n BTNode.parseArgs(self, args)\n self.target = None\n # First argument is the target type\n if len(args) > 0:\n self.targetType = args[0]\n\n # Second argument is the node ID\n if len(args) > 1:\n self.id = args[1]\n\n def enter(self):\n self.killCount = 0\n BTNode.enter(self)\n self.agent.stopMoving()\n enemies = self.agent.world.getEnemyNPCs(self.agent.getTeam())\n if len(enemies) > 0:\n best = None\n dist = 0\n for e in enemies:\n if self.targetType == \"Hero\":\n if isinstance(e, Hero):\n d = distance(self.agent.getLocation(), e.getLocation())\n if best == None or d < dist:\n best = e\n dist = d\n else:\n if isinstance(e, Minion):\n d = distance(self.agent.getLocation(), e.getLocation())\n if best == None or d < dist:\n best = e\n dist = d\n self.target = best\n\n def execute(self, delta = 0):\n # shootWhileRunning(self.agent)\n handleBullet(self.agent)\n handleAOEFire(self.agent)\n\n self.killCount += 1\n if self.killCount > 1000:\n self.reset()\n return False\n\n dodgeLocationLeft, dodgeLocationRight = getDodgePositions(self.agent)\n drawDodgePositions(self.agent, [dodgeLocationLeft, dodgeLocationRight])\n\n ret = BTNode.execute(self, delta)\n if self.target == None or distance(self.agent.getLocation(), self.target.getLocation()) > BIGBULLETRANGE:\n # failed executability conditions\n print \"exec\", self.id, \"false\"\n self.reset()\n return False\n elif self.target.isAlive() == False:\n # succeeded\n print \"exec\", self.id, \"true\"\n self.reset()\n return True\n else:\n # executing\n self.shootAtTarget()\n return None\n return ret\n\n def shootAtTarget(self):\n if self.agent is not None and self.target is not None:\n leadShootTarget(self.agent, self.target)\n\n\n##################\n### HitpointDaemon\n###\n### Only execute children if hitpoints are above a certain threshold.\n### Parameters:\n### 0: percentage of hitpoints that must have been lost to fail the daemon check\n### 1: node ID string (optional)\n\n\nclass HitpointDaemon(BTNode):\n\n ### percentage: percentage of hitpoints that must have been lost to fail the daemon check\n\n def parseArgs(self, args):\n BTNode.parseArgs(self, args)\n self.percentage = 0.5\n # First argument is the factor\n if len(args) > 0:\n self.percentage = args[0]\n # Second argument is the node ID\n if len(args) > 1:\n self.id = args[1]\n\n def execute(self, delta = 0):\n ret = BTNode.execute(self, delta)\n if self.agent.getHitpoints() < self.agent.getMaxHitpoints() * self.percentage:\n # Check failed\n print \"exec\", self.id, \"fail\"\n return False\n else:\n # Check didn't fail, return child's status\n return self.getChild(0).execute(delta)\n return ret\n\n##################\n### BuffDaemon\n###\n### Only execute children if agent's level is significantly above enemy hero's level.\n### Parameters:\n### 0: Number of levels above enemy level necessary to not fail the check\n### 1: node ID string (optional)\n\nclass BuffDaemon(BTNode):\n\n ### advantage: Number of levels above enemy level necessary to not fail the check\n\n def parseArgs(self, args):\n BTNode.parseArgs(self, args)\n self.advantage = 0\n # First argument is the advantage\n if len(args) > 0:\n self.advantage = args[0]\n # Second argument is the node ID\n if len(args) > 1:\n self.id = args[1]\n\n def execute(self, delta = 0):\n ret = BTNode.execute(self, delta)\n hero = None\n # Get a reference to the enemy hero\n if levelAdvantage(self.agent, self.advantage):\n return self.getChild(0).execute(delta)\n else:\n print \"exec\", self.id, \"fail\"\n return False\n return ret\n\ndef levelAdvantage(agent, advantage):\n hero = None\n # Get a reference to the enemy hero\n enemies = agent.world.getEnemyNPCs(agent.getTeam())\n for e in enemies:\n if isinstance(e, Hero):\n hero = e\n break\n return hero != None and agent.level >= (hero.level + advantage)\n\n# Bullet is nearby\ndef nearbyBullet(agent):\n # Get all visible bullets\n visbleBullets = agent.getVisibleType(Bullet)\n bulletNear = False\n\n # Check all visible bullets\n for bullet in visbleBullets:\n if bullet.owner.getTeam() != agent.getTeam() and distance(agent.getLocation(), bullet.getLocation()) < 40:\n return bullet\n\n return None\n\ndef shouldDodge(agent):\n if not agent.candodge:\n return None\n return nearbyBullet(agent)\n\ndef handleBullet(agent):\n bullet = shouldDodge(agent)\n if bullet:\n smartDodge(agent, bullet)\n return True\n\n return False\n\ndef smartDodge(agent, bullet):\n bulletVector = (agent.getLocation()[0] - bullet.position[0], agent.getLocation()[1] - bullet.position[1])\n\n # leftDodgeAngle, rightDodgeAngle = getDodgeAngle(agent, inComingVector=bulletVector)\n # dodgeLocationLeft, dodgeLocationRight = getDodgePositions(agent, inComingVector=bulletVector)\n\n leftDodgeAngle, rightDodgeAngle = getDodgeAngle(agent)\n dodgeLocationLeft, dodgeLocationRight = getDodgePositions(agent)\n\n drawDodgePositions(agent, [dodgeLocationLeft,dodgeLocationRight])\n # a = None\n # while a == None:\n # a = raw_input(\"Pausing: \")\n\n bestPosition = dodgeLocationLeft\n bestAngle = leftDodgeAngle\n\n secondaryPosition = dodgeLocationRight\n secondaryAngle = rightDodgeAngle\n\n if agent.moveTarget != None:\n moveVector = (agent.moveTarget[0] - agent.getLocation()[0], agent.moveTarget[1] - agent.getLocation()[1])\n currentMoveAngle = getAngleVector(moveVector)\n\n bestAngle = closestAngle(currentMoveAngle, leftDodgeAngle, rightDodgeAngle)\n\n if bestAngle == 0:\n bestPosition = dodgeLocationLeft\n bestAngle = leftDodgeAngle\n\n secondaryPosition = dodgeLocationRight\n secondaryAngle = rightDodgeAngle\n else:\n bestPosition = dodgeLocationRight\n bestAngle = rightDodgeAngle\n\n secondaryPosition = dodgeLocationLeft\n secondaryAngle = leftDodgeAngle\n\n if collisionFree(agent, bestPosition):\n agent.dodge(angle=bestAngle)\n elif collisionFree(agent, secondaryPosition):\n agent.dodge(angle=secondaryAngle)\n else:\n return\n\ndef closestAngle(angle, a, b):\n aDifference = angle - a\n bDifference = angle - b\n\n if abs(aDifference) < abs(bDifference):\n return 0\n else:\n return 1\n\n# Get two postions to jump\ndef getDodgePositions(agent, inComingVector=None):\n leftAngle, rightAngle = getDodgeAngle(agent, inComingVector=inComingVector)\n\n dodgeLocation = ((math.cos(math.radians(leftAngle))) * agent.getRadius() * 1.5, (-math.sin(math.radians(leftAngle))) * agent.getRadius() * 1.5)\n dodgeLocationRight = (agent.getLocation()[0] + dodgeLocation[0], agent.getLocation()[1] + dodgeLocation[1])\n dodgeLocationLeft = (agent.getLocation()[0] - dodgeLocation[0], agent.getLocation()[1] - dodgeLocation[1])\n\n return dodgeLocationLeft, dodgeLocationRight\n\ndef getDodgeAngle(agent, inComingVector=None):\n if inComingVector != None:\n angle = getAngleVector((-inComingVector[1], inComingVector[0]))\n else:\n angle = agent.orientation - 90\n\n return angle - 180, angle\n\ndef collisionFree(agent,position):\n # Check each obstacle line\n for line in agent.world.getLines():\n # If any line is too close to the agent, then we can't jump to this position\n if minimumDistance(line, position) < (agent.getRadius()2):\n return False\n\n return True\n\ndef drawDodgePositions(agent, positions):\n crosses = []\n for position in positions:\n crosses.append(position)\n agent.world.crosses = crosses\n\n## AOE Stuff\ndef enemeyInAOERadius(agent):\n visbleBullets = agent.getVisibleType(Minion)\n visbleBullets.extend(agent.getVisibleType(Hero))\n\n for enemy in visbleBullets:\n if enemy.getTeam() != agent.getTeam() and distance(agent.getLocation(), enemy.getLocation()) < (AREAEFFECTRANGEagent.getRadius()):\n return True\n\n return False\n\ndef shouldFireAOE(agent):\n return agent.canareaeffect and enemeyInAOERadius(agent)\n\ndef handleAOEFire(agent):\n if shouldFireAOE(agent):\n agent.areaEffect()\n return True\n\n return False\n\ndef shootWhileRunning(agent):\n visbleAgents = agent.getVisibleType(Minion)\n visbleAgents.extend(agent.getVisibleType(Hero))\n\n target = None\n for visbleAgent in visbleAgents:\n if visbleAgent.getTeam() != agent.getTeam() and distance(agent.getLocation(), visbleAgent.getLocation()) < BIGBULLETRANGE - 2:\n target = visbleAgent\n break\n\n if target is not None:\n if distance(agent.getLocation(), target.getLocation()) <= AREAEFFECTRANGE + target.getRadius():\n agent.areaEffect()\n else:\n leadShootTarget(agent, target)\n return\n\ndef leadShootTarget(agent, target):\n # Target not moving\n if target.moveTarget == None:\n shootTarget = target.getLocation()\n\n # Target moving\n else:\n offset = getTargetOffset(target.getLocation(), target.moveTarget, agent.getLocation())\n shootTarget = (target.getLocation()[0]+offset[0], target.getLocation()[1]+offset[1])\n\n agent.turnToFace(shootTarget)\n agent.shoot()\n\ndef getTargetOffset(target, moveTarget, playerPos):\n # Calculate lead factor\n distanceToTarget = distance(playerPos, moveTarget)\n timeToTarget = distanceToTarget/BIGBULLETSPEED[0]\n leadFactor = timeToTargetSPEED[0]\n\n # Create vector from start/end and normalize\n vector = (moveTarget[0]-target[0],moveTarget[1]-target[1])\n normalizedDirection = normalize(vector)\n\n # Calculate offset\n offset = (normalizedDirection[0]leadFactor,normalizedDirection[1]leadFactor)\n\n return offset\n\ndef normalize(vector):\n # theta = getAngleVector(vector)\n # rad = math.radians(theta)\n # normalizedDirection = (math.cos(rad), -math.sin(rad))\n\n vectorMag = getVectorMag(vector)\n normalizedDirection = (vector[0]/vectorMag, vector[1]/vectorMag)\n\n return normalizedDirection\n\ndef getAngleVector(vector):\n theta = math.atan(vector[1]/vector[0])\n if theta < 0:\n theta = theta + 360.0\n return theta\n\ndef getVectorMag(vector):\n return math.sqrt((vector[0]vector[0])+(vector[1]vector[1]))\n\nTREE = [(Selector, 'Sel1'), [(HitpointDaemon, 0.5, 'HealthCheck'), [(Selector, 'Sel2'), [(BuffDaemon, 2, 'BuffCheck'), [(Sequence, 'Seq1'), (Chase, 'Hero', 'ChaseHero'), (Kill, 'Hero', 'KillHero')]], [(Sequence, 'Seq2'), (Chase, 'Minion', 'ChaseMinion'), (Kill, 'Minion', 'KillMinion')]]], (Retreat, 0.5, 'Retreat')]\n" }, { "alpha_fraction": 0.6092812418937683, "alphanum_fraction": 0.6235448122024536, "avg_line_length": 28.750591278076172, "blob_id": "1e7357d42724e632770d9f83e65678562164f779", "content_id": "1a92c3ec8feb42a59d6e4bdadc42e223bb67b166", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 25169, "license_type": "no_license", "max_line_length": 151, "num_lines": 846, "path": "/homework4/mycreatepathnetwork.py", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "'''\n Copyright (c) 2014, 2015 Entertainment Intelligence Lab, Georgia Institute of Technology.\n * Originally developed by Mark Riedl.\n * Last edited by Mark Riedl 05/2015\n \n Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n \n http://www.apache.org/licenses/LICENSE-2.0\n \n Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n'''\n\nimport sys, pygame, math, numpy, random, time, copy, operator\nfrom pygame.locals import \n\nfrom constants import \nfrom utils import \nfrom core import \n\n# My includes\nfrom random import randint\nimport math\n\n# My constant for agent width\nAGENT_WIDTH = 23.0867927612\n\n# Creates a pathnode network that connects the midpoints of each navmesh together\ndef myCreatePathNetwork(world, agent = None):\n nodes = []\n edges = []\n polys = []\n ### YOUR CODE GOES BELOW HERE ###\n\n # Convert objects\n worldPoints, worldLines, worldObstacles = convertWorldComponenets(world)\n\n # Create network\n nodeObjects, edgeObjects, polyObjects = createPathNetwork(worldPoints, worldLines, worldObstacles)\n\n # Convert my classes to expected output form\n polys = polysToPointTuples(polyObjects)\n nodes = pointsToTuples(nodeObjects)\n edges = linesToTuples(edgeObjects)\n\n ### NOT NEEDED\n # # Tests for my classes\n # classTests()\n #\n # # Check results\n # results(nodeObjects, edgeObjects, polyObjects, worldPoints, worldLines, worldObstacles, world)\n #\n # drawPathNetwork(nodeObjects, edgeObjects, polyObjects, world)\n ### NOT NEEDED\n\n ### YOUR CODE GOES ABOVE HERE ###\n return nodes, edges, polys\n\n# Convert world information to my own classes\ndef convertWorldComponenets(world):\n # Convert world points obstacles to Points\n worldPoints = []\n for point in world.getPoints():\n worldPoints.append(Point(point[0], point[1]))\n\n # Convert world lines obstacles to Lines\n worldLines = []\n for line in world.getLines():\n worldLines.append(Line(Point(line[0][0], line[0][1]), Point(line[1][0], line[1][1])))\n\n # Convert world obstacles to Polygons\n worldObstacles = []\n for obstacle in world.getObstacles():\n obstacleLines = []\n for line in obstacle.lines:\n obstacleLines.append(Line(Point(line[0][0],line[0][1]),Point(line[1][0],line[1][1])))\n worldObstacles.append(Polygon(lines=obstacleLines))\n\n return worldPoints, worldLines, worldObstacles\n\n# Create path network\ndef createPathNetwork(worldPoints, worldLines, worldObstacles):\n # Nav mesh\n # print \"Creating Nav Mesh\"\n polys = createNavMesh(worldPoints, worldLines, worldObstacles)\n # print str(len(polys)) + \" Polys\"\n # print\n\n # Path nodes\n # print \"Creating Path Nodes\"\n nodes = createPathNodes(polys, worldPoints, worldLines)\n # print str(len(nodes)) + \" Nodes\"\n # print\n\n # Path edges\n # print \"Creating Path Edges\"\n edges = createPathLines(nodes, polys, worldPoints, worldLines)\n # print str(len(edges)) + \" Edges\"\n # print\n\n # Cleanup path network\n edgesPoints = linesToPoints(edges)\n for node in nodes:\n goodNode = True\n if node not in edgesPoints:\n nodes.remove(node)\n\n return nodes, edges, polys\n\n################################################################################################\n# Nav mesh creation\n################################################################################################\n# Create navmesh\ndef createNavMesh(worldPoints, worldLines, worldObstacles):\n # Create navmesh only out of triangles\n polys = createTriangleMesh(worldPoints, worldLines, worldObstacles)\n\n # Combine triangles to higher order polygons\n polys = mergePolys(polys)\n\n return polys\n\n# Create triangle mesh\ndef createTriangleMesh(worldPoints, worldLines, worldObstacles):\n completedPoints = []\n tris = []\n\n # Continue until all points covered\n for point in worldPoints:\n # Create triangles around this point\n createTrianglesFromPoint(point, tris, worldPoints, worldLines, worldObstacles)\n\n return tris\n\ndef createTrianglesFromPoint(point, tris, worldPoints, worldLines, worldObstacles):\n successors = point.getAllSuccessors(worldPoints, worldLines, worldObstacles)\n\n for i,successor1 in enumerate(successors):\n # Find a suitable second successor\n for successor2 in successors[i:]:\n if successor1.isSuccessor(successor2, worldLines, worldObstacles):\n testTri = Polygon(points=[point, successor1, successor2])\n\n # Make sure our test tri is unobstructed and new\n if not testTri.overlapsAnyPoly(tris) and not testTri.overlapsAnyPoly(worldObstacles) and testTri not in tris and testTri not in worldObstacles:\n tris.append(testTri)\n\ndef mergePolys(polys):\n mergeCount = 0\n # Try to merge every poly with every other poly\n for poly1 in polys:\n for poly2 in polys:\n combinedPoly = poly1.combinePoly(poly2)\n if combinedPoly != None:\n ### This shouldn't be the way, every time I merge, I should restart these loops\n if poly1 in polys:\n polys.remove(poly1)\n if poly2 in polys:\n polys.remove(poly2)\n polys.append(combinedPoly)\n mergeCount+=1\n\n return polys\n\n################################################################################################\n# Path node creation\n################################################################################################\n# Create path nodes from navmesh polys\ndef createPathNodes(polys, worldPoints, worldLines):\n nodes = []\n\n # Add a node at the midpoint of every mesh line through free space\n for poly in polys:\n for line in poly.lines:\n if line not in worldLines and line.agentCanFollow(worldPoints, worldLines):\n if line.midpoint() not in nodes:\n nodes.append(line.midpoint())\n\n return nodes\n\n################################################################################################\n# Path line creation\n################################################################################################\n# Create lines between pathnodes\ndef createPathLines(pathnodes, polys, worldPoints, worldLines):\n lines = []\n\n # Construct hull inclusions dictionary\n hullInclusions = {}\n for node in pathnodes:\n includedHulls = []\n # Find all the hulls this node is part of\n for poly in polys:\n if poly.hullIncludesPoint(node):\n includedHulls.append(poly)\n\n # All the hulls for this point, should never be more than 2\n hullInclusions[node] = includedHulls\n\n # Find all the node pairs that share a hull\n for parentNode in pathnodes:\n for testNode in pathnodes:\n for hull in hullInclusions[parentNode]:\n if hull in hullInclusions[testNode]:\n # New line, actually a line, agent can get by without collision on line\n testLine = Line(parentNode,testNode)\n if testLine not in lines and parentNode != testNode and testLine.agentCanFollow(worldPoints, worldLines):\n lines.append(testLine)\n\n return lines\n\n################################################################################################\n# Custom Point class instead of tuples\n################################################################################################\nclass Point(object):\n def __init__(self, x=None, y=None, pointTuple=None):\n if pointTuple == None:\n self.x = x\n self.y = y\n else:\n self.x = pointTuple[0]\n self.y = pointTuple[1]\n\n # Used for sorting in a clockwise manner\n self.center = None;\n\n # Overloaded operators\n def __eq__(self, otherPoint):\n if type(otherPoint) is not Point:\n return False\n if self.x == otherPoint.x and self.y == otherPoint.y:\n return True\n return False\n\n def __ne__(self, otherPoint):\n return not self.__eq__(otherPoint)\n\n ## CITATION\n # This code is taken from a stack overflow post. I implemented a point compare\n # function so that I could then sort a list of points around a center.\n # URL: http://stackoverflow.com/questions/6989100/sort-points-in-clockwise-order\n def __lt__(self, other):\n if self.center == None:\n return False\n\n if self.x - self.center.x >= 0 and other.x - self.center.x < 0:\n return True\n if self.x - self.center.x < 0 and other.x - self.center.x >= 0:\n return False\n if self.x - self.center.x == 0 and other.x - self.center.x == 0:\n if self.y - self.center.y >= 0 or other.y - self.center.y >= 0:\n return self.y > other.y\n return other.y > self.y\n\n det = (self.x - self.center.x) * (other.y - self.center.y) - (other.x - self.center.x) * (self.y - self.center.y);\n if det < 0:\n return True\n if det > 0:\n return False\n\n d1 = (self.x - self.center.x) * (self.x - self.center.x) + (self.y - self.center.y) * (self.y - self.center.y)\n d2 = (other.x - self.center.x) * (other.x - self.center.x) + (other.y - self.center.y) * (other.y - self.center.y)\n return d1 > d2\n ## END CITATION\n\n def __gt__(self, other):\n return not self.__lt__(other) and not self.__eq__(other)\n\n def __lq__(self, other):\n return self.__lt__(other) or self.__eq__(other)\n\n def __gq__(self, other):\n return self.__gt__(other) or self.__eq__(other)\n\n def __str__(self):\n return str(self.x)+\",\"+str(self.y)\n\n def __repr__(self):\n return str(self)\n\n def __hash__(self):\n return hash((self.x, self.y))\n\n def __getitem__(self, key):\n if key == 0:\n return self.x\n if key == 1:\n return self.y\n return None\n\n def __add__(self, other):\n x = self.x + other.x\n y = self.y + other.y\n return Point(x,y)\n\n def __sub__(self, other):\n x = self.x - other.x\n y = self.y - other.y\n return Point(x,y)\n\n def __div__(self, other):\n if type(other) == int:\n x = self.x/other\n y = self.y/other\n if type(other) == Point:\n x = self.x/other.x\n y = self.y/other.y\n return Point(x,y)\n\n # Point as an x,y tuple\n def toTuple(self):\n return (self.x,self.y)\n\n # Check if point is a successor\n def isSuccessor(self, otherPoint, worldLines, worldObstacles):\n # Lines along obstacleLines are okay\n if Line(self,otherPoint) in worldLines:\n return True\n\n # Lines that stretch obstaclePoint to obstaclePoint but not along an obstacle edge, this would result a false True using rayTraceWorldNoEndPoints\n for obstacle in worldObstacles:\n line = Line(self,otherPoint)\n if pointInsidePolygonLines(line.midpoint(), obstacle.toLineTuple()):\n return False\n\n # Lines through free space are okay\n if (rayTraceWorldNoEndPoints(self, otherPoint, worldLines) == None and self != otherPoint):\n return True\n\n return False\n\n # Get all successors\n def getAllSuccessors(self, worldPoints, worldLines, worldObstacles):\n successors = []\n for worldPoint in worldPoints:\n if self.isSuccessor(worldPoint, worldLines, worldObstacles):\n successors.append(worldPoint)\n\n return successors\n\n################################################################################################\n# Custom Line class for the same reasons\n################################################################################################\nclass Line(object):\n def __init__(self, p1=None, p2=None, lineTuple=None):\n if lineTuple == None:\n self.p1 = p1\n self.p2 = p2\n else:\n self.p1 = Point(pointTuple=lineTuple[0])\n self.p2 = Point(pointTuple=lineTuple[1])\n self.length = math.sqrt(math.pow(self.p2.x - self.p1.x,2) + math.pow(self.p2.y - self.p1.y,2))\n\n # Overloaded operators\n def __eq__(self, otherLine):\n if type(otherLine) != Line:\n return False\n if self.p1 == otherLine.p1 and self.p2 == otherLine.p2:\n return True\n if self.p2 == otherLine.p1 and self.p1 == otherLine.p2:\n return True\n return False\n\n def __ne__(self, otherLine):\n return not self.__eq__(otherLine)\n\n def __str__(self):\n return str(self.p1) + \"<->\" + str(self.p2)\n\n def __repr__(self):\n return str(self)\n\n def __getitem__(self, key):\n if key == 0:\n return self.p1\n if key == 1:\n return self.p2\n return None\n\n def draw(self, surface, color=(0,0,0), size=1):\n pygame.draw.line(surface, color, self.p1.toTuple(), self.p2.toTuple(), size)\n\n # Return tuple of point tuples\n def toTuple(self):\n return (self.p1.toTuple(),self.p2.toTuple())\n\n def center(self, center):\n line = Line(self.p1-center, self.p2-center)\n return line\n\n # Midpoint of line\n def midpoint(self):\n return Point((self.p1.x+self.p2.x)/2.0, (self.p1.y+self.p2.y)/2.0)\n\n # Line intersects line\n def intersects(self, otherLine):\n if rayTraceNoEndpoints(self.p1, self.p2, otherLine) and self != otherLine:\n return True\n return False\n\n # Line intersects any line in list\n def intersectsAny(self, otherLines):\n for otherLine in otherLines:\n if self.intersects(otherLine):\n return True\n return False\n\n # Check if agent can follow line\n def agentCanFollow(self, worldPoints, worldLines, agentWidth=AGENT_WIDTH):\n # Intersection with any world line is obviously unfollowable\n if self.intersectsAny(worldLines):\n return False\n\n # Make sure the agent won't clip any obstacle points along a line\n for point in worldPoints:\n if minimumDistance([self.p1, self.p2], point) < agentWidth and self not in worldLines and point != self.p1 and point != self.p2:\n return False\n\n return True\n\n################################################################################################\n# Custom Polygon class instead of...you already know by now\n################################################################################################\nclass Polygon(object):\n def __init__(self, points=None, lines=None, area=None):\n self.points = []\n self.lines = []\n self.centroid = Point(0,0)\n self.areaVal = None\n\n ## Init with points\n if points != None:\n self.points = points\n self._generateLines()\n\n ## Init with lines\n if lines != None:\n self.lines = lines\n self._generatePoints()\n\n # Clockwisify points\n self._calculateCentroid()\n self.points = sortPointsClockwise(self.points,self.centroid)\n self.order = len(self.lines)\n\n # Overloaded operators\n def __eq__(self, otherPoly):\n if type(otherPoly) != Polygon:\n return False\n if len(self.lines) != len(otherPoly.lines):\n return False\n for line in self.lines:\n if line not in otherPoly.lines:\n return False\n return True\n\n def __ne__(self, otherPoly):\n return not self.__eq__(otherPoly)\n\n def __str__(self):\n returnStr = \"\"\n for line in self.lines:\n returnStr += str(line) + \" \"\n return returnStr\n\n def __repr__(self):\n return str(self)\n\n # Generate points based on lines\n def _generatePoints(self):\n # Add in all unique points\n self.points = []\n for line in self.lines:\n if line.p1 not in self.points:\n self.points.append(line.p1)\n if line.p2 not in self.points:\n self.points.append(line.p2)\n\n # Generate lines based on points\n def _generateLines(self):\n last = None\n for p in self.points:\n if last != None:\n self.lines.append(Line(last, p))\n last = p\n self.lines.append(Line(self.points[len(self.points)-1], self.points[0]))\n\n # Calculate centroid\n def _calculateCentroid(self):\n for point in self.points:\n self.centroid += point\n self.centroid = self.centroid/len(self.points)\n\n def area(self):\n # See if it's already been calculated\n if self.areaVal != None:\n return self.area\n\n self.areaVal = 0\n # Triangle\n if self.order == 3:\n b = Line(self.points[1],self.points[0]).center(self.points[1])\n a = Line(self.points[1],self.points[2]).center(self.points[1])\n self.areaVal += 0.5a.lengthb.lengthmath.sin(angle(a.p2.toTuple(),b.p2.toTuple()))\n\n # Higher order poly\n else:\n for i,point in enumerate(self.points):\n if i == len(self.points)-1:\n tri = Polygon(points=[self.centroid, self.points[i], self.points[0]])\n else:\n tri = Polygon(points=[self.centroid, self.points[i], self.points[i+1]])\n self.areaVal += tri.area()\n\n return self.areaVal\n\n # Convert poly to list of point tuples\n def toPointTuple(self):\n points = []\n for point in self.points:\n points.append(point.toTuple())\n return points\n\n # Convert poly to list of line tuples\n def toLineTuple(self):\n lines = []\n for line in self.lines:\n lines.append(line.toTuple())\n return lines\n\n # Point part of hull\n def hullIncludesPoint(self, point):\n return pointInsidePolygonLines(point, self.lines) or point in self.points or pointOnPolygon(point,self.toPointTuple())\n\n # Point inside poly\n def pointInside(self, point):\n return pointInsidePolygonLines(point, self.lines) and not point in self.points and not pointOnPolygon(point,self.toPointTuple())\n\n # Check if line intersect poly\n def lineObstructs(self, testLine):\n # Line crosses inside\n if self.pointInside(testLine.p1) or self.pointInside(testLine.p2):\n return True\n\n # Line intersects\n if testLine.intersectsAny(self.lines):\n return True\n\n return False\n\n # Check if polygon overlaps\n def overlapsPoly(self, poly):\n for line in poly.lines:\n if self.lineObstructs(line):\n return True\n return False\n\n # Overlaps any poly in a list\n def overlapsAnyPoly(self, polys):\n for poly in polys:\n if self.overlapsPoly(poly):\n return True\n return False\n\n # Combine two polys, return combined poly, None otherwise\n def combinePoly(self, otherPoly):\n # Check if polys are adjacent\n adjPoints = polygonsAdjacent(self.points, otherPoly.points)\n if adjPoints:\n # Combine two polys lines\n combinedPolyLines = []\n combinedPolyLines.extend(self.lines)\n combinedPolyLines.extend(otherPoly.lines)\n\n commonLine = Line(adjPoints[0],adjPoints[1])\n if commonLine in combinedPolyLines:\n combinedPolyLines = filter(lambda a: a != commonLine, combinedPolyLines)\n\n # New poly must be convex\n combinedPoly = Polygon(lines=combinedPolyLines)\n if combinedPoly.isConvex():\n return combinedPoly\n\n return None\n\n # Polygon is convex\n def isConvex(self):\n return isConvex(self.points)\n\n################################################################################################\n# Lists of my objects helpers\n################################################################################################\n##### Point Lists\n# Points to list of tuples\ndef pointsToTuples(points):\n tuples = []\n for point in points:\n tuples.append(point.toTuple())\n return tuples\n\n# Sort list of points to be clockwise around a center\ndef sortPointsClockwise(points, center):\n for point in points:\n point.center = center\n return sorted(points)\n\ndef pointTuplesToPoints(pointTuples):\n points = []\n for pointTuple in pointTuples:\n p = Point(pointTuple=pointTuple)\n if p not in points:\n points.append(p)\n return points\n\ndef pointTuplesToPointsAndLines(pointTuples):\n points = pointTuplesToPoints(pointTuples)\n lines = []\n for i,p1 in enumerate(points):\n if i != 0:\n p2 = points[i-1]\n lines.append(Line(p1,p2))\n return points, lines\n\n##### Line Lists\n# Lines to a list of point tuples pairs\ndef linesToTuples(lines):\n tuples = []\n for line in lines:\n tuples.append(line.toTuple())\n return tuples\n\n# Lines to a list of unique points\ndef linesToPoints(lines):\n points = []\n for line in lines:\n if line.p1 not in points:\n points.append(line.p1)\n if line.p2 not in points:\n points.append(line.p2)\n return points\n\ndef lineTuplesToLines(lineTuples):\n points, lines = lineTuplesToLinesAndPoints(lineTuples)\n return lines\n\ndef lineTuplesToLinesAndPoints(lineTuples):\n points = []\n lines = []\n for line in lineTuples:\n p1 = Point(pointTuple=line[0])\n p2 = Point(pointTuple=line[1])\n if p1 not in points:\n points.append(p2)\n if p2 not in points:\n points.append(p2)\n lines.append(Line(p1=p1,p2=p2))\n return points, lines\n\n##### Poly Lists\n# Polys to a list of point tuples pairs\ndef polysToPointTuples(polys):\n tuples = []\n for poly in polys:\n tuples.append(poly.toPointTuple())\n return tuples\n\n# Polys to a list of line tuples\ndef polysToLineTuples(polys):\n tuples = []\n for poly in polys:\n tuples.append(poly.toLineTuple())\n return tuples\n\n################################################################################################\n# Draw functions\n################################################################################################\n# Draw network my way\ndef drawPathNetwork(nodes, edges, polys, world):\n # # Draw nav mesh area (no way to get it transparent)\n # for i,poly in enumerate(polys):\n # pygame.draw.polygon(world.debug, randomColor(), poly.toPointTuple())\n\n # Lines on edges\n for edge in edges:\n pygame.draw.line(world.debug, (0,0,255), edge.p1.toTuple(), edge.p2.toTuple(), 1)\n\n # Crosses on nodes\n for node in nodes:\n drawCross(world.debug, node.toTuple(), color=(0,0,0), size=3, width=2)\n\ndef randomColor():\n return (randint(50,255),randint(50,255),randint(50,255))\n\n################################################################################################\n# Tests\n################################################################################################\n# Test end result\ndef results(nodes, edges, polys, worldPoints, worldLines, worldObstacles, world):\n print \"########################\"\n print \"Results\"\n print \"########################\"\n\n # Reachability results\n reachable = reachabilityResults()\n\n # Coverage results\n covered = coverageResults(polys, worldObstacles, world)\n\n # Mesh results\n optimized = meshOptimizationResults(polys)\n\n # Draw eveyrthing if something is wrong\n if reachable and covered and optimized:\n print \"PASSED\"\n else:\n print \"FAILED\"\n drawPathNetwork(nodes, edges, polys, world)\n\n return\n\n# Reachability results\ndef reachabilityResults():\n print \"Reachability results\"\n print \"Dunno how to test this\"\n print\n\n result = True\n\n return result\n\n# Coverage results\ndef coverageResults(polys, worldObstacles, world):\n print \"Coverage results\"\n\n for obstacle in worldObstacles:\n if not obstacle.isConvex():\n print \"Can't check coverage, non convex shapes in world\"\n print\n return True\n\n # Check that everything is covered\n navigableArea = world.dimensions[0]world.dimensions[1]\n for obstacle in worldObstacles:\n navigableArea -= obstacle.area()\n\n meshArea = 0\n for poly in polys:\n meshArea += poly.area()\n\n # Coverage is good\n if closeToEqual(meshArea,navigableArea):\n result = True\n print \"Everything is covered\"\n\n # Coverage is off\n else:\n result = False\n\n print \"World: \" + str(navigableArea)\n print \"Mesh: \" + str(meshArea)\n if meshArea > navigableArea:\n print \"Too much coverage\"\n else:\n print \"Too little coverage\"\n\n print\n return result\n\n# Mesh optimization reslts\ndef meshOptimizationResults(polys):\n print \"Mesh Optimization Results\"\n\n # Ensure highest order is greater than 3\n highestOrder = 0\n for poly in polys:\n if poly.order > highestOrder:\n highestOrder = poly.order\n\n if highestOrder > 3:\n print \"Highest order good: \" + str(highestOrder)\n result = True\n else:\n print \"Highest order too low: \" + str(highestOrder)\n result = False\n\n print\n return result\n\ndef closeToEqual(val1, val2, thresh=1.0):\n return val1 > (val2-thresh) and val1 < (val2+thresh)\n\n# Testing classes\ndef classTests():\n print \"########################\"\n print \"Class tests\"\n print \"########################\"\n # p1 = Point(1,1)\n # p12 = Point(1,1)\n # p2 = Point(2,2)\n # p3 = Point(3,3)\n # p4 = Point(4,4)\n # points = [p1,p2,p3]\n # assert (p1 in points) == True\n # assert (p12 in points) == True\n # assert (p3 in points) == True\n # assert (p4 in points) == False\n #\n # l1 = Line(p1,p2)\n # l12 = Line(p2,p1)\n # l2 = Line(p1,p3)\n # l3 = Line(p3,p4)\n # lines = [l1,l2]\n # assert (l1 in lines) == True\n # assert (l12 in lines) == True\n # assert (l2 in lines) == True\n # assert (l3 in lines) == False\n #\n p1 = Point(20,10)\n p2 = Point(10,10)\n p3 = Point(10,0)\n p4 = Point(20,0)\n l1 = Line(p1,p2)\n l2 = Line(p2,p3)\n l3 = Line(p3,p4)\n l4 = Line(p4,p1)\n poly1 = Polygon(points=[p1,p4,p3,p2])\n poly2 = Polygon(lines=[l4,l2,l3,l1])\n assert (poly1.points == poly2.points) == True\n\n tri1 = Polygon(points=[p3,p4,p2])\n tri2 = Polygon(points=[p1,p4,p2])\n square = tri1.combinePoly(tri2)\n tri3 = Polygon(points=[p4,p1,Point(30,0)])\n hexShape = square.combinePoly(tri3)\n secondSquare = Polygon(points=[Point(0,0),Point(10,10),Point(10,0),Point(0,10)])\n weirdShape = hexShape.combinePoly(secondSquare)\n assert (square.points == poly1.points) == True\n assert (closeToEqual(weirdShape.area(), 250, thresh=0.0001))\n\n print \"PASSED\"\n print\n" }, { "alpha_fraction": 0.6281149983406067, "alphanum_fraction": 0.6372349858283997, "avg_line_length": 29.36155128479004, "blob_id": "fe5ec7f53b508697d97b54d1c02ce0978c7a8ebc", "content_id": "9cba2b8ea94dc761b9d1e99af4ef4f6ac157e7ed", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 17215, "license_type": "no_license", "max_line_length": 149, "num_lines": 567, "path": "/homework6/mynavigatorhelpers.py", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "'''\n * Copyright (c) 2014, 2015 Entertainment Intelligence Lab, Georgia Institute of Technology.\n * Originally developed by Mark Riedl.\n * Last edited by Mark Riedl 05/2015\n \n Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n \n http://www.apache.org/licenses/LICENSE-2.0\n \n Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n'''\n\nimport sys, pygame, math, numpy, random, time, copy\nfrom pygame.locals import \n\nfrom constants import \nfrom utils import \nfrom core import \n\nfrom mycreatepathnetwork import \n\n### This function optimizes the given path and returns a new path\n### source: the current position of the agent\n### dest: the desired destination of the agent\n### path: the path previously computed by the Floyd-Warshall algorithm\n### world: pointer to the world\ndef shortcutPath(source, dest, path, world, agent):\n ### YOUR CODE GOES BELOW HERE ###\n\n # # Convert world objects\n # nodePoints = pointTuplesToPoints(path)\n # worldPoints, worldLines = lineTuplesToLinesAndPoints(world.getLines())\n # agentPos = Point(pointTuple=agent.position)\n # destPoint = Point(pointTuple=dest)\n #\n # # Check for shortcut from start/goal\n # firstPointIdx = 0\n # lastPointIdx = len(nodePoints)-1\n # for i,node in enumerate(nodePoints):\n # j = len(nodePoints) - i - 1\n #\n # # Check from start\n # pathLine = Line(agentPos, nodePoints[i])\n # if pathLine.agentCanFollow(worldPoints, worldLines, agent.getMaxRadius()):\n # firstPointIdx = i\n #\n # # Check from goal\n # pathLine = Line(destPoint, nodePoints[j])\n # if pathLine.agentCanFollow(worldPoints, worldLines, agent.getMaxRadius()):\n # lastPointIdx = j\n #\n # if firstPointIdx >= lastPointIdx:\n # path = [path[firstPointIdx], destPoint.toTuple()]\n # else:\n # path = path[firstPointIdx:lastPointIdx+1]\n\n ### YOUR CODE GOES BELOW HERE ###\n return path\n\n\n### This function changes the move target of the agent if there is an opportunity to walk a shorter path.\n### This function should call nav.agent.moveToTarget() if an opportunity exists and may also need to modify nav.path.\n### nav: the navigator object\n### This function returns True if the moveTarget and/or path is modified and False otherwise\ndef mySmooth(nav):\n ### YOUR CODE GOES BELOW HERE ###\n\n # Corner case\n if nav.path == None or nav.path == []:\n return False\n\n # Convert world objects\n worldPointObjects, worldLineObjects = lineTuplesToLinesAndPoints(nav.world.getLines())\n pathObjects = pointTuplesToPoints(nav.path)\n agentPositionObj = Point(pointTuple=nav.agent.position)\n destinationObj = Point(pointTuple=nav.destination)\n\n # Target in view\n pathLine = Line(agentPositionObj, destinationObj)\n if pathLine.agentCanFollow(worldPointObjects, worldLineObjects, agentWidth=nav.agent.getMaxRadius()+10):\n nav.setPath(None)\n nav.agent.moveToTarget(destinationObj.toTuple())\n return True\n\n # See if any future node is in view\n visibleNodeIdx = -1\n for i,node in enumerate(pathObjects):\n pathLine = Line(agentPositionObj, node)\n if pathLine.agentCanFollow(worldPointObjects, worldLineObjects, agentWidth=nav.agent.getMaxRadius()+10):\n visibleNodeIdx = i\n\n # Set trim path and set new target\n if visibleNodeIdx != -1:\n nav.setPath(pointsToTuples(pathObjects[visibleNodeIdx:]))\n nav.agent.moveToTarget(nav.path[0])\n return True\n\n ### YOUR CODE GOES ABOVE HERE ###\n return False\n\n################################################################################################\n# Custom Point class instead of tuples\n################################################################################################\nclass Point(object):\n def __init__(self, x=None, y=None, pointTuple=None):\n if pointTuple == None:\n self.x = x\n self.y = y\n else:\n self.x = pointTuple[0]\n self.y = pointTuple[1]\n\n # Used for sorting in a clockwise manner\n self.center = None;\n\n # Overloaded operators\n def __eq__(self, otherPoint):\n if type(otherPoint) is not Point:\n return False\n if self.x == otherPoint.x and self.y == otherPoint.y:\n return True\n return False\n\n def __ne__(self, otherPoint):\n return not self.__eq__(otherPoint)\n\n ## CITATION\n # This code is taken from a stack overflow post. I implemented a point compare\n # function so that I could then sort a list of points around a center.\n # URL: http://stackoverflow.com/questions/6989100/sort-points-in-clockwise-order\n def __lt__(self, other):\n if self.center == None:\n return False\n\n if self.x - self.center.x >= 0 and other.x - self.center.x < 0:\n return True\n if self.x - self.center.x < 0 and other.x - self.center.x >= 0:\n return False\n if self.x - self.center.x == 0 and other.x - self.center.x == 0:\n if self.y - self.center.y >= 0 or other.y - self.center.y >= 0:\n return self.y > other.y\n return other.y > self.y\n\n det = (self.x - self.center.x) (other.y - self.center.y) - (other.x - self.center.x) * (self.y - self.center.y);\n if det < 0:\n return True\n if det > 0:\n return False\n\n d1 = (self.x - self.center.x) * (self.x - self.center.x) + (self.y - self.center.y) * (self.y - self.center.y)\n d2 = (other.x - self.center.x) * (other.x - self.center.x) + (other.y - self.center.y) * (other.y - self.center.y)\n return d1 > d2\n ## END CITATION\n\n def __gt__(self, other):\n return not self.__lt__(other) and not self.__eq__(other)\n\n def __lq__(self, other):\n return self.__lt__(other) or self.__eq__(other)\n\n def __gq__(self, other):\n return self.__gt__(other) or self.__eq__(other)\n\n def __str__(self):\n return str(self.x)+\",\"+str(self.y)\n\n def __repr__(self):\n return str(self)\n\n def __hash__(self):\n return hash((self.x, self.y))\n\n def __getitem__(self, key):\n if key == 0:\n return self.x\n if key == 1:\n return self.y\n return None\n\n def __add__(self, other):\n x = self.x + other.x\n y = self.y + other.y\n return Point(x,y)\n\n def __sub__(self, other):\n x = self.x - other.x\n y = self.y - other.y\n return Point(x,y)\n\n def __div__(self, other):\n if type(other) == int:\n x = self.x/other\n y = self.y/other\n if type(other) == Point:\n x = self.x/other.x\n y = self.y/other.y\n return Point(x,y)\n\n # Point as an x,y tuple\n def toTuple(self):\n return (self.x,self.y)\n\n # Check if point is a successor\n def isSuccessor(self, otherPoint, worldLines, worldObstacles):\n # Lines along obstacleLines are okay\n if Line(self,otherPoint) in worldLines:\n return True\n\n # Lines that stretch obstaclePoint to obstaclePoint but not along an obstacle edge, this would result a false True using rayTraceWorldNoEndPoints\n for obstacle in worldObstacles:\n line = Line(self,otherPoint)\n if pointInsidePolygonLines(line.midpoint(), obstacle.toLineTuple()):\n return False\n\n # Lines through free space are okay\n if (rayTraceWorldNoEndPoints(self, otherPoint, worldLines) == None and self != otherPoint):\n return True\n\n return False\n\n # Get all successors\n def getAllSuccessors(self, worldPoints, worldLines, worldObstacles):\n successors = []\n for worldPoint in worldPoints:\n if self.isSuccessor(worldPoint, worldLines, worldObstacles):\n successors.append(worldPoint)\n\n return successors\n\n################################################################################################\n# Custom Line class for the same reasons\n################################################################################################\nclass Line(object):\n def __init__(self, p1=None, p2=None, lineTuple=None):\n if lineTuple == None:\n self.p1 = p1\n self.p2 = p2\n else:\n self.p1 = Point(pointTuple=lineTuple[0])\n self.p2 = Point(pointTuple=lineTuple[1])\n self.length = math.sqrt(math.pow(self.p2.x - self.p1.x,2) + math.pow(self.p2.y - self.p1.y,2))\n\n # Overloaded operators\n def __eq__(self, otherLine):\n if type(otherLine) != Line:\n return False\n if self.p1 == otherLine.p1 and self.p2 == otherLine.p2:\n return True\n if self.p2 == otherLine.p1 and self.p1 == otherLine.p2:\n return True\n return False\n\n def __ne__(self, otherLine):\n return not self.__eq__(otherLine)\n\n def __str__(self):\n return str(self.p1) + \"<->\" + str(self.p2)\n\n def __repr__(self):\n return str(self)\n\n def __getitem__(self, key):\n if key == 0:\n return self.p1\n if key == 1:\n return self.p2\n return None\n\n def draw(self, surface, color=(0,0,0), size=1):\n pygame.draw.line(surface, color, self.p1.toTuple(), self.p2.toTuple(), size)\n\n # Return tuple of point tuples\n def toTuple(self):\n return (self.p1.toTuple(),self.p2.toTuple())\n\n def center(self, center):\n line = Line(self.p1-center, self.p2-center)\n return line\n\n # Midpoint of line\n def midpoint(self):\n return Point((self.p1.x+self.p2.x)/2.0, (self.p1.y+self.p2.y)/2.0)\n\n # Line intersects line\n def intersects(self, otherLine):\n if rayTraceNoEndpoints(self.p1, self.p2, otherLine) and self != otherLine:\n return True\n return False\n\n # Line intersects any line in list\n def intersectsAny(self, otherLines):\n for otherLine in otherLines:\n if self.intersects(otherLine):\n return True\n return False\n\n # Check if agent can follow line\n def agentCanFollow(self, worldPoints, worldLines, agentWidth=AGENT_WIDTH):\n # Intersection with any world line is obviously unfollowable\n if self.intersectsAny(worldLines):\n return False\n\n # Make sure the agent won't clip any obstacle points along a line\n for point in worldPoints:\n if minimumDistance([self.p1, self.p2], point) < agentWidth and self not in worldLines and point != self.p1 and point != self.p2:\n return False\n\n return True\n\n################################################################################################\n# Custom Polygon class instead of...you already know by now\n################################################################################################\nclass Polygon(object):\n def __init__(self, points=None, lines=None, area=None):\n self.points = []\n self.lines = []\n self.centroid = Point(0,0)\n self.areaVal = None\n\n ## Init with points\n if points != None:\n self.points = points\n self._generateLines()\n\n ## Init with lines\n if lines != None:\n self.lines = lines\n self._generatePoints()\n\n # Clockwisify points\n self._calculateCentroid()\n self.points = sortPointsClockwise(self.points,self.centroid)\n self.order = len(self.lines)\n\n # Overloaded operators\n def __eq__(self, otherPoly):\n if type(otherPoly) != Polygon:\n return False\n if len(self.lines) != len(otherPoly.lines):\n return False\n for line in self.lines:\n if line not in otherPoly.lines:\n return False\n return True\n\n def __ne__(self, otherPoly):\n return not self.__eq__(otherPoly)\n\n def __str__(self):\n returnStr = \"\"\n for line in self.lines:\n returnStr += str(line) + \" \"\n return returnStr\n\n def __repr__(self):\n return str(self)\n\n # Generate points based on lines\n def _generatePoints(self):\n # Add in all unique points\n self.points = []\n for line in self.lines:\n if line.p1 not in self.points:\n self.points.append(line.p1)\n if line.p2 not in self.points:\n self.points.append(line.p2)\n\n # Generate lines based on points\n def _generateLines(self):\n last = None\n for p in self.points:\n if last != None:\n self.lines.append(Line(last, p))\n last = p\n self.lines.append(Line(self.points[len(self.points)-1], self.points[0]))\n\n # Calculate centroid\n def _calculateCentroid(self):\n for point in self.points:\n self.centroid += point\n self.centroid = self.centroid/len(self.points)\n\n def area(self):\n # See if it's already been calculated\n if self.areaVal != None:\n return self.area\n\n self.areaVal = 0\n # Triangle\n if self.order == 3:\n b = Line(self.points[1],self.points[0]).center(self.points[1])\n a = Line(self.points[1],self.points[2]).center(self.points[1])\n self.areaVal += 0.5a.lengthb.lengthmath.sin(angle(a.p2.toTuple(),b.p2.toTuple()))\n\n # Higher order poly\n else:\n for i,point in enumerate(self.points):\n if i == len(self.points)-1:\n tri = Polygon(points=[self.centroid, self.points[i], self.points[0]])\n else:\n tri = Polygon(points=[self.centroid, self.points[i], self.points[i+1]])\n self.areaVal += tri.area()\n\n return self.areaVal\n\n # Convert poly to list of point tuples\n def toPointTuple(self):\n points = []\n for point in self.points:\n points.append(point.toTuple())\n return points\n\n # Convert poly to list of line tuples\n def toLineTuple(self):\n lines = []\n for line in self.lines:\n lines.append(line.toTuple())\n return lines\n\n # Point part of hull\n def hullIncludesPoint(self, point):\n return pointInsidePolygonLines(point, self.lines) or point in self.points or pointOnPolygon(point,self.toPointTuple())\n\n # Point inside poly\n def pointInside(self, point):\n return pointInsidePolygonLines(point, self.lines) and not point in self.points and not pointOnPolygon(point,self.toPointTuple())\n\n # Check if line intersect poly\n def lineObstructs(self, testLine):\n # Line crosses inside\n if self.pointInside(testLine.p1) or self.pointInside(testLine.p2):\n return True\n\n # Line intersects\n if testLine.intersectsAny(self.lines):\n return True\n\n return False\n\n # Check if polygon overlaps\n def overlapsPoly(self, poly):\n for line in poly.lines:\n if self.lineObstructs(line):\n return True\n return False\n\n # Overlaps any poly in a list\n def overlapsAnyPoly(self, polys):\n for poly in polys:\n if self.overlapsPoly(poly):\n return True\n return False\n\n # Combine two polys, return combined poly, None otherwise\n def combinePoly(self, otherPoly):\n # Check if polys are adjacent\n adjPoints = polygonsAdjacent(self.points, otherPoly.points)\n if adjPoints:\n # Combine two polys lines\n combinedPolyLines = []\n combinedPolyLines.extend(self.lines)\n combinedPolyLines.extend(otherPoly.lines)\n\n commonLine = Line(adjPoints[0],adjPoints[1])\n if commonLine in combinedPolyLines:\n combinedPolyLines = filter(lambda a: a != commonLine, combinedPolyLines)\n\n # New poly must be convex\n combinedPoly = Polygon(lines=combinedPolyLines)\n if combinedPoly.isConvex():\n return combinedPoly\n\n return None\n\n # Polygon is convex\n def isConvex(self):\n return isConvex(self.points)\n\n################################################################################################\n# Lists of my objects helpers\n################################################################################################\n##### Point Lists\n# Points to list of tuples\ndef pointsToTuples(points):\n tuples = []\n for point in points:\n tuples.append(point.toTuple())\n return tuples\n\n# Sort list of points to be clockwise around a center\ndef sortPointsClockwise(points, center):\n for point in points:\n point.center = center\n return sorted(points)\n\ndef pointTuplesToPoints(pointTuples):\n points = []\n for pointTuple in pointTuples:\n p = Point(pointTuple=pointTuple)\n if p not in points:\n points.append(p)\n return points\n\ndef pointTuplesToPointsAndLines(pointTuples):\n points = pointTuplesToPoints(pointTuples)\n lines = []\n for i,p1 in enumerate(points):\n if i != 0:\n p2 = points[i-1]\n lines.append(Line(p1,p2))\n return points, lines\n\n##### Line Lists\n# Lines to a list of point tuples pairs\ndef linesToTuples(lines):\n tuples = []\n for line in lines:\n tuples.append(line.toTuple())\n return tuples\n\n# Lines to a list of unique points\ndef linesToPoints(lines):\n points = []\n for line in lines:\n if line.p1 not in points:\n points.append(line.p1)\n if line.p2 not in points:\n points.append(line.p2)\n return points\n\ndef lineTuplesToLines(lineTuples):\n points, lines = lineTuplesToLinesAndPoints(lineTuples)\n return lines\n\ndef lineTuplesToLinesAndPoints(lineTuples):\n points = []\n lines = []\n for line in lineTuples:\n p1 = Point(pointTuple=line[0])\n p2 = Point(pointTuple=line[1])\n if p1 not in points:\n points.append(p2)\n if p2 not in points:\n points.append(p2)\n lines.append(Line(p1=p1,p2=p2))\n return points, lines\n\n##### Poly Lists\n# Polys to a list of point tuples pairs\ndef polysToPointTuples(polys):\n tuples = []\n for poly in polys:\n tuples.append(poly.toPointTuple())\n return tuples\n\n# Polys to a list of line tuples\ndef polysToLineTuples(polys):\n tuples = []\n for poly in polys:\n tuples.append(poly.toLineTuple())\n return tuples\n" }, { "alpha_fraction": 0.7003676295280457, "alphanum_fraction": 0.7139706015586853, "avg_line_length": 36.26027297973633, "blob_id": "0ab224ca7e1802241bca1cf87cc0c49ee1aabb23", "content_id": "e2f0f88ea817829c1cb28b563e971ce93c21e809", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2720, "license_type": "no_license", "max_line_length": 141, "num_lines": 73, "path": "/homework1/mycreategrid.py", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "'''\n Copyright (c) 2014, 2015 Entertainment Intelligence Lab, Georgia Institute of Technology.\n * Originally developed by Mark Riedl.\n * Last edited by Mark Riedl 05/2015\n \n Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n \n http://www.apache.org/licenses/LICENSE-2.0\n \n Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n'''\n\nimport sys, pygame, math, numpy, random, time, copy\nfrom pygame.locals import \n\nfrom constants import \nfrom utils import \nfrom core import \n\n# Creates a grid as a 2D array of True/False values (True = traversable). Also returns the dimensions of the grid as a (columns, rows) list.\ndef myCreateGrid(world, cellsize):\n ### YOUR CODE GOES BELOW HERE ###\n\n # Get dimensions\n dimensions = (int(round(world.dimensions[0]/cellsize)), int(round(world.dimensions[1]/cellsize)))\n\n # Create grid of all True\n grid = numpy.full((dimensions[0], dimensions[1]), True, dtype=bool)\n\n # Check each space in the grid\n for rowCount in xrange(dimensions[1]):\n for colCount in xrange(dimensions[0]):\n # Check if there is an obstacle in this space\n grid[colCount][rowCount] = cellObstacleFree(rowCount, colCount, cellsize, world)\n\n ### YOUR CODE GOES ABOVE HERE ###\n return grid, dimensions\n\n# Check if a cell is obstacle free\ndef cellObstacleFree(row, col, cellsize, world):\n # Get corners of the cell\n topL = ((col+0)cellsize, (row+0)cellsize)\n topR = ((col+1)cellsize, (row+0)cellsize)\n botL = ((col+0)cellsize, (row+1)cellsize)\n botR = ((col+1)cellsize, (row+1)cellsize)\n\n # Lines of cell\n cellLines = [(topL, topR), (topR, botR), (botR, botL), (botL, topL)]\n\n # Check if any obstacle line intersects this cell's borders\n for line in world.getLinesWithoutBorders():\n for cellLine in cellLines:\n if calculateIntersectPoint(line[0], line[1], cellLine[0], cellLine[1]):\n return False\n\n # Check if any cell point lies with in an obstacle\n for obstacle in world.getObstacles():\n if obstacle.pointInside(topL) or obstacle.pointInside(topR) or obstacle.pointInside(botL) or obstacle.pointInside(botR):\n return False\n\n # Check if any obstacle point lies with cell\n for obstacle in world.getObstacles():\n for obstaclePoint in obstacle.getPoints():\n if pointInsidePolygonLines(obstaclePoint, cellLines):\n return False\n\n return True\n" }, { "alpha_fraction": 0.6348052024841309, "alphanum_fraction": 0.6374025940895081, "avg_line_length": 21.126436233520508, "blob_id": "7a703897a3710ceb7edf3246edb8584461061513", "content_id": "fc9ab83e3febb704dde0f01f8b1e09a95dcfa749", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1925, "license_type": "no_license", "max_line_length": 69, "num_lines": 87, "path": "/homework6/BTs/jsonBTParser.py", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "import json\nfrom collections import OrderedDict\n\ndef main():\n constructHeroTree()\n # testTree(\"BTs/testTree.json\")\n\ndef testTree(filename):\n print parseJsonBTFile(filename)\n\ndef constructHeroTree():\n destination = \"mybehaviors.py\"\n\n # Read lines\n with open(destination, 'r') as readfile:\n fileLines = readfile.readlines()\n\n # Rewrite lines with new tree\n with open(destination, 'w') as writefile:\n for i,line in enumerate(fileLines):\n if i < len(fileLines) - 1:\n writefile.write(line)\n\n # writefile.write(\"\\n\")\n writefile.write(\"TREE = \" + parseJsonBTFile(\"BTs/HeroTree.json\"))\n writefile.write(\"\\n\")\n writefile.close()\n\ndef parseJsonBTFile(filename):\n with open(filename) as dataFile:\n data = json.load(dataFile, object_pairs_hook=OrderedDict)\n for i,key in enumerate(data):\n return parseJsonBT(key, data[key])\n\ndef parseJsonBT(rootKey, rootData):\n # Leaf node\n if isLeafNode(rootData):\n return parseLeaf(rootKey, rootData)\n\n # Sequence or selector\n listStr = \"\"\n listStr += parseLeaf(rootKey, [])\n leavesStringsList = []\n\n # Parse all nodes under\n for key in rootData:\n listStr += \", \"\n listStr += parseJsonBT(key, rootData[key])\n\n return \"[\" + listStr + \"]\"\n\ndef isLeafNode(data):\n return isinstance(data, list)\n\ndef allChildrenAreLeaves(data):\n result = True\n for key in data:\n if isLeafNode(data[key]) == False:\n result = False\n return result\n\ndef parseLeaf(key, data):\n # Create key\n keyParts = key.split(\"-\")\n leafString = \"\"\n if keyParts[1] != \"N\":\n leafString += \"(\"\n leafString += keyParts[0]\n\n # Gather args\n arguments = []\n if keyParts[1] != \"N\":\n\n for arg in keyParts[1:]:\n leafString += \", \"\n try:\n float(arg)\n leafString += \"\" + str(arg) + \"\"\n except ValueError:\n leafString += \"'\" + str(arg) + \"'\"\n\n leafString += \")\"\n\n return leafString\n\nif __name__ == \"__main__\":\n main()\n" }, { "alpha_fraction": 0.6676323413848877, "alphanum_fraction": 0.6766234040260315, "avg_line_length": 27.4375, "blob_id": "b7d440f7b1f88dd7e5b25bafc440061ac1bdb8ac", "content_id": "a2ce18ca422276ef6b58050066ca6361fead1460", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 10010, "license_type": "no_license", "max_line_length": 167, "num_lines": 352, "path": "/homework5/MyMinion.py", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "'''\n * Copyright (c) 2014, 2015 Entertainment Intelligence Lab, Georgia Institute of Technology.\n * Originally developed by Mark Riedl.\n * Last edited by Mark Riedl 05/2015\n \n Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n \n http://www.apache.org/licenses/LICENSE-2.0\n \n Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n'''\n\nimport sys, pygame, math, numpy, random, time, copy\nfrom pygame.locals import \n\nfrom constants import \nfrom utils import \nfrom core import \nfrom moba import \n\nimport random\n\nminionCount = 0\nwaveCount = 1\n\nminions = []\ndefenderCount = 0\nglobalPrintStatus = False\n\nclass MyMinion(Minion):\n\n def __init__(self, position, orientation, world, image = NPC, speed = SPEED, viewangle = 360, hitpoints = HITPOINTS, firerate = FIRERATE, bulletclass = SmallBullet):\n Minion.__init__(self, position, orientation, world, image, speed, viewangle, hitpoints, firerate, bulletclass)\n self.states = [Idle]\n ### Add your states to self.states (but don't remove Idle)\n ### YOUR CODE GOES BELOW HERE ###\n\n # Starting squad states\n self.states.append(Attack)\n self.states.append(Defend)\n\n # Defend states\n self.states.append(DefendMoveToLookout)\n self.states.append(DefendWaitForEnemy)\n\n # General states\n self.states.append(MoveToTarget)\n self.states.append(SpreadOut)\n self.states.append(Shoot)\n\n global minionCount, waveCount, defenderCount\n\n # Defense team wave\n if waveCount % 4 == 2 and defenderCount < 6:\n defenderCount += 1\n self.squad = \"defend\"\n\n # Otherwise a new attack team\n else:\n self.squad = \"attack\"\n\n # Keep up with minion/wavecount\n minionCount += 1\n if minionCount % 3 == 0:\n waveCount += 1\n if globalPrintStatus:\n print \"Minion Count: \" + str(minionCount)\n\n # Update minion array\n updateMinions(self)\n\n ### YOUR CODE GOES ABOVE HERE ###\n\n def start(self):\n Minion.start(self)\n self.changeState(Idle, self)\n\n############################\n### Idle\n###\n### This is the default state of MyMinion. The main purpose of the Idle state is to figure out what state to change to and do that immediately.\n\nclass Idle(State):\n def parseArgs(self, args):\n self.agent = args[0]\n\n def enter(self, oldstate):\n if printStatus(self.agent):\n print \"Idle\"\n\n State.enter(self, oldstate)\n # stop moving\n self.agent.stopMoving()\n\n def execute(self, delta = 0):\n State.execute(self, delta)\n # YOUR CODE GOES BELOW HERE ###\n\n if self.agent.squad == \"attack\":\n self.agent.changeState(Attack, self.agent)\n elif self.agent.squad == \"defend\":\n self.agent.changeState(Defend, self.agent)\n\n ### YOUR CODE GOES ABOVE HERE ###\n return None\n\n##############################\n### Taunt\n###\n### This is a state given as an example of how to pass arbitrary parameters into a State.\n### To taunt someome, Agent.changeState(Taunt, enemyagent)\n\nclass Taunt(State):\n\n def parseArgs(self, args):\n self.victim = args[0]\n\n def enter(self, oldstate):\n if printStatus(self.agent):\n print \"Taunt\"\n\n def execute(self, delta = 0):\n if self.victim is not None:\n print \"Hey \" + str(self.victim) + \", I don't like you!\"\n self.agent.changeState(Idle)\n\n##############################\n### YOUR STATES GO HERE:\n\n# Post up to defend\nclass Defend(State):\n def parseArgs(self, args):\n self.victim = args[0]\n\n def enter(self, oldstate):\n if printStatus(self.agent):\n print \"Defend\"\n\n if not gameOver(self.agent):\n self.enemies = enemiesInRange(self.agent, 300)\n\n def execute(self, oldstate):\n if not gameOverHandle(self.agent):\n if len(self.enemies):\n self.agent.changeState(MoveToTarget, self.agent, self.enemies[0], Shoot)\n else:\n self.agent.changeState(DefendMoveToLookout, self.agent)\n\n# Attack closest tower or base\nclass Attack(State):\n def parseArgs(self, args):\n self.agent = args[0]\n self.over = False\n\n def enter(self, oldstate):\n if printStatus(self.agent):\n print \"Attack\"\n\n if not gameOver(self.agent):\n # Towers are dead, attack base\n if towersDead(self.agent, self.agent.world):\n self.target = self.agent.world.getEnemyBases(self.agent.getTeam())[0]\n\n # Attack closest tower\n else:\n towers = self.agent.world.getEnemyTowers(self.agent.getTeam())\n closestDistance = INFINITY\n # Find closest tower\n for tower in towers:\n if distance(self.agent.position, tower.position) < closestDistance:\n closestDistance = distance(self.agent.position, tower.position)\n self.target = tower\n\n\n def execute(self, oldstate):\n if not gameOverHandle(self.agent):\n self.agent.changeState(MoveToTarget, self.agent, self.target, Shoot)\n\n# Move in range to a target\nclass DefendMoveToLookout(State):\n def parseArgs(self, args):\n self.agent = args[0]\n\n def enter(self, oldstate):\n if printStatus(self.agent):\n print \"Moving to defend\"\n\n if not gameOver(self.agent):\n towers = self.agent.world.getTowersForTeam(self.agent.getTeam())\n\n # Defend on base, on 1 tower, or between 2 towers\n if len(towers) == 0:\n self.target = self.agent.world.getBaseForTeam(self.agent.getTeam()).position\n elif len(towers) == 1:\n self.target = towers[0].position\n elif len(towers) == 2:\n self.target = midpoint(towers[0].position, towers[1].position)\n\n self.agent.navigateTo(self.target)\n\n def execute(self, delta = 0):\n if not gameOverHandle(self.agent):\n if distance(self.agent.position, self.target) < 20:\n self.agent.stopMoving()\n self.agent.changeState(DefendWaitForEnemy, self.agent)\n\n# Defend wait for an enemy\nclass DefendWaitForEnemy(State):\n def parseArgs(self, args):\n self.agent = args[0]\n\n def enter(self, oldstate):\n if printStatus(self.agent):\n print \"Wait for enemy\"\n\n def execute(self, delta = 0):\n if not gameOverHandle(self.agent):\n enemies = enemiesInRange(self.agent, 300)\n if len(enemies):\n self.agent.changeState(MoveToTarget, self.agent, enemies[0], Shoot)\n\n# Move in shooting range of a target\nclass MoveToTarget(State):\n def parseArgs(self, args):\n self.agent = args[0]\n self.target = args[1]\n self.nextState = args[2]\n\n def enter(self, oldstate):\n if printStatus(self.agent):\n print \"Moving to target\"\n\n if not gameOver(self.agent):\n self.agent.navigateTo(self.target.position)\n\n def execute(self, delta = 0):\n if not gameOverHandle(self.agent):\n if targetInRange(self.agent, self.target.position):\n self.agent.stopMoving()\n self.agent.changeState(self.nextState, self.agent, self.target)\n\n# Make sure agent is on top of others\nclass SpreadOut(State):\n def parseArgs(self, args):\n self.agent = args[0]\n self.target = args[1]\n\n def enter(self, oldstate):\n if printStatus(self.agent):\n print \"Spreading out\"\n\n if not gameOver(self.agent):\n self.agent.navigateTo(self.target.position)\n\n def enter(self, oldstate):\n if gameOver(self.agent):\n return\n\n def execute(self, delta = 0):\n global minions\n if not gameOverHandle(self.agent):\n if targetInRange(self.agent, self.target.position) and not minionOnTopOfOtherMinion(self.agent, minions):\n self.agent.stopMoving()\n self.agent.changeState(Shoot, self.agent, self.target)\n\n# Shoot until target dead\nclass Shoot(State):\n def parseArgs(self, args):\n self.agent = args[0]\n self.target = args[1]\n\n def enter(self, oldstate):\n if printStatus(self.agent):\n print \"Shooting\"\n\n if not gameOver(self.agent):\n self.agent.stopMoving()\n self.agent.turnToFace(self.target.position)\n\n def execute(self, delta = 0):\n if not gameOverHandle(self.agent):\n if targetInRange(self.agent, self.target.position):\n # Shoot until target dies\n if self.target.getHitpoints() > 0:\n self.agent.turnToFace(self.target.position)\n self.agent.shoot()\n else:\n self.agent.changeState(Idle, self.agent)\n\n# Target is in range of shooting\ndef targetInRange(agent, target, range=BULLETRANGE):\n return distance(agent.position, target) < range\n\n# Both towers are dead\ndef towersDead(agent, world):\n for tower in world.getEnemyTowers(agent.getTeam()):\n if tower.getHitpoints() > 0:\n return False\n return True\n\n# Update minion counts and array of alive minions\ndef updateMinions(newMinion):\n global minions\n deadMinions = []\n minions.append(newMinion)\n for minion in minions:\n if minion.getHitpoints() <= 0:\n deadMinions.append(minion)\n\n for minion in deadMinions:\n minions.remove(minion)\n\n# Check if minion is on top of another minion\ndef minionOnTopOfOtherMinion(minion, minions):\n for otherMinion in minions:\n if minion.position == otherMinion.position and minion != otherMinion:\n return True\n return False\n\n# Midpoint of two points\ndef midpoint(p1,p2):\n return ((p1[0]+p2[0])/2.0, (p1[1]+p2[1])/2.0)\n\n# Check if any enemies are in range\ndef enemiesInRange(agent, range):\n enemies = []\n for enemy in agent.world.getEnemyNPCs(agent.getTeam()):\n if targetInRange(agent, enemy.position, range=range):\n enemies.append(enemy)\n return enemies\n\n# 1 base remaining means the game is over\ndef gameOver(agent):\n return len(agent.world.getBases()) == 1\n\n# Game over check and change agent states and squad\ndef gameOverHandle(agent):\n if gameOver(agent):\n agent.squad = \"idle\"\n agent.changeState(Idle, agent)\n return True\n return False\n\n# Helper to print states\ndef printStatus(agent):\n return globalPrintStatus and False\n" }, { "alpha_fraction": 0.450621634721756, "alphanum_fraction": 0.6059113144874573, "avg_line_length": 35.75, "blob_id": "6d2cb9fe7e002c1fbde444d59393a8fc9b4f243b", "content_id": "e5c959d662e1fb469bf0571dff742fbe8ca55063", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4263, "license_type": "no_license", "max_line_length": 158, "num_lines": 116, "path": "/homework1/autograder.py", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "'''\n Copyright (c) 2014, 2015 Entertainment Intelligence Lab, Georgia Institute of Technology.\n * Originally developed by Mark Riedl.\n * Last edited by Mark Riedl 05/2015\n \n Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n \n http://www.apache.org/licenses/LICENSE-2.0\n \n Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n'''\n\nimport sys, pygame, math, numpy, random, time, copy\nfrom pygame.locals import \n\nfrom constants import \nfrom utils import \nfrom core import \nfrom gridnavigator import \n\nw1_polygons = [[(628, 698), (582, 717), (549, 688), (554, 546), (676, 548)],\n[(942, 484), (811, 396), (843, 299), (921, 300)],\n[(457, 422), (371, 506), (300, 515), (300, 400), (454, 350)]]\n\nw2_polygons = [[(223.0, 137.0), (212.5, 169), (185, 189), (151, 189), (123.5, 169), (113.0, 137.0), (123.5, 104.5), (151, 84.5), (185, 84.5), (212.5, 104.5)],\n[(700, 160), (630.0, 143), (650, 100)],\n[(260.0, 422.0), (205, 555), (72, 610.0), (72, 234.0), (205, 289)],\n[(515.0, 216.0), (488, 289), (421, 328), (344.0, 315), (294, 255), (294, 177), (344, 117), (421, 104), (488, 143)],\n[(773.0, 558.0), (724, 660.5), (613.5, 687), (523, 618), (520, 504), (607, 430.5), (718.5, 451)],\n[(100.0, 14.0), (130, 14.5), (80.5, 50)],\n[(586.0, 57.0), (570.5, 94.5), (533.0, 110.0), (495.5, 94.5), (480.0, 57), (495.5, 19.5), (533.0, 4.0), (570.5, 19.5)]]\n\nw3_polygons = [[(430.0, 847.0), (399.5, 889), (350.5, 873), (350.5, 821), (399.5, 805)],\n[(242.0, 796.0), (187.0, 851.0), (132.0, 796.0), (187.0, 741.0)],\n[(602.0, 396.0), (547.0, 451.0), (492.0, 396.0), (547.0, 341.0)],\n[(254.0, 605.0), (230.0, 646.5), (182.0, 646.5), (158.0, 605.0), (182, 563.5), (230.0, 563.5)],\n[(391.0, 264.0), (370, 307.5), (323, 319), (285, 289.5), (284, 241), (320.5, 210), (368, 218.5)]]\n\n\nworlds = [\n {\n \"name\": \"World 1\",\n \"polygons\": w1_polygons,\n \"dimensions\": [WORLD, SCREEN]\n },\n {\n \"name\": \"World 2\",\n \"polygons\": w2_polygons,\n \"dimensions\": [(768,768), (768,768)]\n },\n {\n \"name\": \"World 3\",\n \"polygons\": w3_polygons,\n \"dimensions\": [(768,1024), (768,1024)]\n }\n]\n\ndef main():\n for world in worlds:\n testWorld(world)\n\ndef createWorld(seed, worldSize, screenSize, polygons):\n nav = GreedyGridNavigator()\n\n world = GameWorld(seed, worldSize, screenSize)\n agent = Agent(AGENT, (screenSize[0]/2, screenSize[1]/2), 0, SPEED, world)\n world.setPlayerAgent(agent)\n agent.setNavigator(nav)\n world.initializeTerrain(polygons, (255, 0, 0), 4, TREE)\n nav.setWorld(world)\n world.initializeRandomResources(NUMRESOURCES)\n world.debugging = True\n\n return world, nav\n\ndef testWorld(worldParams):\n print \"Testing World \" + worldParams[\"name\"]\n world, nav = createWorld(SEED, worldParams[\"dimensions\"][0], worldParams[\"dimensions\"][1], worldParams[\"polygons\"])\n\n obstacleError = 0\n borderError = 0\n\n linesWithoutBorders = world.getLinesWithoutBorders();\n\n for row in xrange(nav.dimensions[1]):\n for col in xrange(nav.dimensions[0]):\n if nav.grid[col][row]:\n # Get corners of the space\n topL = ((col+0)nav.cellSize, (row+0)nav.cellSize)\n topR = ((col+1)nav.cellSize, (row+0)nav.cellSize)\n botL = ((col+0)nav.cellSize, (row+1)nav.cellSize)\n botR = ((col+1)nav.cellSize, (row+1)nav.cellSize)\n\n # Lines of cell\n cellLines = [(topL, topR), (topR, botR), (botR, botL), (botL, topL)]\n\n for cellLine in cellLines:\n for worldLineNum, line in enumerate(world.getLines()):\n if calculateIntersectPoint(line[0], line[1], cellLine[0], cellLine[1]):\n if line not in linesWithoutBorders:\n borderError += 1\n else:\n obstacleError +=1\n\n print worldParams[\"name\"] + \": \" + str(borderError) + \" border errors\"\n print worldParams[\"name\"] + \": \" + str(obstacleError) + \" obstacle errors\"\n print\n\nif __name__ == \"__main__\":\n main()\n" }, { "alpha_fraction": 0.5810810923576355, "alphanum_fraction": 0.7229729890823364, "avg_line_length": 15.44444465637207, "blob_id": "d640608a78707721901a8ea10776c66dfe07494d", "content_id": "21d26102e3d05c7507cd5671866c6e38180fdf79", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 148, "license_type": "no_license", "max_line_length": 26, "num_lines": 9, "path": "/homework6/scores.md", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "MyHero First\n Baseline1: 100 to 69 win\n Baseline2: 109 to 58 win\n Baseline3:\n\nMyHero Second\n Baseline1: 58 to 103 win\n Baseline2:\n Baseline3:\n" }, { "alpha_fraction": 0.6908760666847229, "alphanum_fraction": 0.7099409699440002, "avg_line_length": 32.89230728149414, "blob_id": "8fbfd9aa5c357f397923c2d31d10346d99bb44f3", "content_id": "4d1a596c281a9da687d5667add085c60ea7eba19", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2203, "license_type": "no_license", "max_line_length": 114, "num_lines": 65, "path": "/homework2/mybuildpathnetwork.py", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "'''\n Copyright (c) 2014, 2015 Entertainment Intelligence Lab, Georgia Institute of Technology.\n * Originally developed by Mark Riedl.\n * Last edited by Mark Riedl 05/2015\n \n Licensed under the Apache License, Version 2.0 (the \"License\");\n * you may not use this file except in compliance with the License.\n * You may obtain a copy of the License at\n \n http://www.apache.org/licenses/LICENSE-2.0\n \n Unless required by applicable law or agreed to in writing, software\n * distributed under the License is distributed on an \"AS IS\" BASIS,\n * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n * See the License for the specific language governing permissions and\n * limitations under the License.\n'''\n\nimport sys, pygame, math, numpy, random, time, copy, operator\nfrom pygame.locals import \n\nfrom constants import \nfrom utils import \nfrom core import \n\n# Creates the pathnetwork as a list of lines between all pathnodes that are traversable by the agent.\ndef myBuildPathNetwork(pathnodes, world, agent = None):\n lines = []\n ### YOUR CODE GOES BELOW HERE ###\n\n # Check each node\n for parentNode in pathnodes:\n # Check each node for each node\n for childNode in pathnodes:\n # Skip itself\n if parentNode != childNode:\n # Add line if unobstructed\n if lineUnobstructed(parentNode, childNode, world) and (lineInList(parentNode, childNode, lines) == False):\n lines.append([parentNode, childNode])\n\n ### YOUR CODE GOES ABOVE HERE ###\n return lines\n\n# Check if line is unobstructed\ndef lineUnobstructed(p1, p2, world):\n # Ensure the line between the tow points doesn't intersect any object lines\n if rayTraceWorld(p1, p2, world.getLines()) != None:\n return False\n\n # Make sure the agent won't clip any obstacle points along a line\n for point in world.getPoints():\n ## This distance can be modified\n if minimumDistance([p1,p2], point) < 35.0:\n return False\n\n return True\n\ndef lineInList(p1,p2,lines):\n for line in lines:\n if (samePoint(p1,line[0]) and samePoint(p2,line[1])) or (samePoint(p1,line[1]) and samePoint(p2,line[0])):\n return True\n return False\n\ndef samePoint(p1, p2):\n return distance(p1,p2) == 0\n" }, { "alpha_fraction": 0.696987509727478, "alphanum_fraction": 0.70158451795578, "avg_line_length": 32.52131271362305, "blob_id": "ef5fe6aecb7a9fbd4becfdaa8194173996edc7e0", "content_id": "d2fc5473b1c0dd755a389233b26a81cb52d72d04", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 10224, "license_type": "no_license", "max_line_length": 153, "num_lines": 305, "path": "/homework8/Agent.py", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "import random\nimport sys\nimport copy\nimport operator\nfrom Observation import \nfrom Reward import \nfrom Action import \nfrom Environment import \nfrom random import Random\nimport datetime\n\nclass Agent:\n # Random generator\n randGenerator=Random()\n\n # Remember last action\n lastAction=Action()\n\n # Remember last observation (state)\n lastObservation=Observation()\n\n # Q-learning stuff: Step size, epsilon, gamma, learning rate\n epsilon = 0.5\n gamma = 0.9\n learningRate = 1.0\n\n # Value table\n v_table = None\n\n # The environment\n gridEnvironment = None\n\n #Initial observation\n initialObs = None\n\n #Current observation\n currentObs = None\n\n # The training or testing episdoe will run for no more than this many time steps\n numSteps = 500\n\n # Total reward\n totalReward = 0.0\n\n # Print debugging statements\n verbose = False\n verboseOverride = False\n\n # Number of actions in the environment\n numActions = 5\n\n # Constructor, takes a reference to an Environment\n def __init__(self, env):\n\n # Initialize value table\n self.v_table={}\n\n # Set dummy action and observation\n self.lastAction=Action()\n self.lastObservation=Observation()\n\n # Set the environment\n self.gridEnvironment = env\n\n # Get first observation and start the environment\n self.initialObs = self.gridEnvironment.env_start()\n self.initializeVtableStateEntry(self.initialObs.worldState)\n\n # Make an empty row in the v table with the state as key.\n def initializeVtableStateEntry(self, state):\n if self.calculateFlatState(state) not in self.v_table.keys():\n self.v_table[self.calculateFlatState(state)] = self.numActions[0.0]\n\n # Once learning is done, use this to run the agent\n # observation is the initial observation\n def executePolicy(self, observation, writeFile=False):\n if writeFile:\n dateString = str(datetime.datetime.now().isoformat())\n dateString = dateString.replace(\"-\",\"_\")\n dateString = dateString.split(\".\")[0]\n dateString = dateString.replace(\":\",\".\")\n dateString = dateString.replace(\"T\", \"-\")\n outputfile = open(\"output/\" + dateString + \".txt\", \"w+\")\n\n # History stores up list of actions executed\n history = []\n # Start the counter\n count = 0\n # reset total reward\n self.totalReward = 0.0\n # Copy the initial observation\n self.workingObservation = self.copyObservation(observation)\n\n # Make sure the value table has the starting observation\n self.initializeVtableStateEntry(self.workingObservation.worldState)\n\n if writeFile:\n outputfile.write(\"START\\n\")\n outputfile.write(\"LR:\" + str(self.learningRate) + \"\\n\")\n outputfile.write(\"Gamma:\" + str(self.gamma) + \"\\n\\n\")\n\n if self.isVerbose():\n print(\"START\")\n print(\"LR:\" + str(self.learningRate))\n print(\"Gamma:\" + str(self.gamma))\n\n # While a terminal state has not been hit and the counter hasn't expired, take the best action for the current state\n while not self.workingObservation.isTerminal and count < self.numSteps:\n newAction = Action()\n # Get the best action for this state\n newAction.actionValue = self.greedy(self.workingObservation)\n history.append((newAction.actionValue, self.workingObservation.worldState))\n\n if writeFile:\n outputfile.write(\"state:\" + str(self.workingObservation.worldState) + \"\\n\")\n outputfile.write(\"bot action:\" + str(self.gridEnvironment.actionToString(newAction.actionValue)) + \"\\n\")\n\n if self.isVerbose():\n print \"state:\", self.workingObservation.worldState\n print \"bot action:\", self.gridEnvironment.actionToString(newAction.actionValue)\n\n # execute the step and get a new observation and reward\n currentObs, reward = self.gridEnvironment.env_step(newAction)\n if writeFile:\n outputfile.write(\"reward:\" + str(reward.rewardValue) + \"\\n\")\n outputfile.write(\"total reward:\" + str(self.totalReward + reward.rewardValue) + \"\\n\")\n outputfile.write(str(self.gridEnvironment)+\"\\n\")\n outputfile.write(\"\\n\")\n\n if self.isVerbose():\n print \"reward:\", reward.rewardValue\n print \"total reward:\" + str(self.totalReward + reward.rewardValue)\n\n self.totalReward = self.totalReward + reward.rewardValue\n self.workingObservation = copy.deepcopy(currentObs)\n\n # increment counter\n count = count + 1\n\n if writeFile:\n outputfile.write(\"END\")\n\n if self.isVerbose():\n print(\"END\")\n return history\n\n # q-learning implementation\n # observation is the initial observation\n def qLearn(self, observation):\n # copy the initial observation\n self.workingObservation = self.copyObservation(observation)\n\n # start the counter\n count = 0\n\n lastAction = -1\n\n # reset total reward\n self.totalReward = 0.0\n\n # while terminal state not reached and counter hasn't expired, use epsilon-greedy search\n while not self.workingObservation.isTerminal and count < self.numSteps:\n\n # Make sure table is populated correctly\n self.initializeVtableStateEntry(self.workingObservation.worldState)\n\n # Take the epsilon-greedy action\n newAction = Action()\n newAction.actionValue = self.egreedy(self.workingObservation)\n lastAction = newAction.actionValue\n\n # Get the new state and reward from the environment\n currentObs, reward = self.gridEnvironment.env_step(newAction)\n rewardValue = reward.rewardValue\n\n # Make sure table is populated correctly\n self.initializeVtableStateEntry(currentObs.worldState)\n\n # update the value table\n lastFlatState = self.calculateFlatState(self.workingObservation.worldState)\n newFlatState = self.calculateFlatState(currentObs.worldState)\n #self.updateVtable(newFlatState, lastFlatState, newAction.actionValue, lastAction, rewardValue, currentObs.isTerminal, currentObs.availableActions)\n self.updateVtable(newFlatState, lastFlatState, newAction.actionValue, rewardValue, currentObs.isTerminal, currentObs.availableActions)\n\n # increment counter\n count = count + 1\n self.workingObservation = self.copyObservation(currentObs)\n\n # increment total reward\n self.totalReward = self.totalReward + reward.rewardValue\n\n\n # Done learning, reset environment\n self.gridEnvironment.env_reset()\n\n ### Update the v_table during q-learning.\n ### newState: the new state reached after performing newAction in lastState.\n ### lastState: the prior state\n ### action: the action just performed\n ### reward: the amount of reward received upon transitioning to newState with newAction\n ### terminal: boolean: is the newState a terminal state?\n ### availableActions: a list of actions that can be performed in newState.\n ###\n ### Update Q(s, a) in v_table for lastState and lastAction.\n def updateVtable(self, newState, lastState, action, reward, terminal, availableActions):\n # YOUR CODE GOES BELOW HERE\n\n r_tp1 = float(reward)\n Q_st_at = float(self.v_table[self.calculateFlatState(lastState)][action])\n lr = float(self.learningRate)\n y = float(self.gamma)\n\n # Non terminal state\n # Q(st, at) = Q(st,at) + lr(rt+1 + ymax(Q(st+1, a')) - Q(st, at))\n if not terminal:\n # Calculate all rewards for potential actions\n Q_stp1_a = []\n for potentialAction in availableActions:\n Q_stp1_a.append(float(self.v_table[self.calculateFlatState(newState)][potentialAction]))\n\n # Calculate new val\n newVal = Q_st_at + lr(r_tp1 + ymax(Q_stp1_a) - Q_st_at)\n\n # Terminal state\n # Q(st, at) = Q(st, at) + lr(rt+1 - Q(st,at))\n else:\n\n # Calculate new val\n newVal = Q_st_at + lr*(r_tp1 - Q_st_at)\n\n # Update vtable\n self.v_table[self.calculateFlatState(lastState)][action] = newVal\n\n # YOUR CODE GOES ABOVE HERE\n return None\n\n ### Return the best action according to the policy, or a random action epsilon percent of the time.\n ### observation: the current observation (state)\n ###\n ### If a random number between [0, 1] is less than epsilon, pick a random action from avaialbe actions.\n ### Otherwise: pick the action for the current state that has the highest Q value.\n ### Return the index of the action picked.\n def egreedy(self, observation):\n # YOUR CODE GOES BELOW HERE\n\n # Choose random action\n if random.uniform(0,1) < self.epsilon:\n return random.randint(0,4)\n\n # Choose greedy option\n else:\n return self.greedy(observation)\n\n # YOUR CODE GOES ABOVE HERE\n return 0\n\n ### Return the best action according to the policy\n ### observation: the current observation (state)\n ###\n ### Pick the action for the current state that has the highest Q value.\n ### Return the index of the action picked.\n def greedy(self, observation):\n self.initializeVtableStateEntry(observation.worldState)\n # YOUR CODE GOES BELOW HERE\n\n rewards = []\n rewards.append(self.v_table[self.calculateFlatState(observation.worldState)][0])\n rewards.append(self.v_table[self.calculateFlatState(observation.worldState)][1])\n rewards.append(self.v_table[self.calculateFlatState(observation.worldState)][2])\n rewards.append(self.v_table[self.calculateFlatState(observation.worldState)][3])\n rewards.append(self.v_table[self.calculateFlatState(observation.worldState)][4])\n\n return rewards.index(max(rewards))\n\n # YOUR CODE GOES ABOVE HERE\n return 0\n\n # Reset the agent\n def agent_reset(self):\n self.lastAction = Action()\n self.lastObservation = Observation()\n self.initialObs = self.gridEnvironment.env_start()\n\n # Create a copy of the observation\n def copyObservation(self, obs):\n returnObs = Observation()\n if obs.worldState != None:\n returnObs.worldState = obs.worldState[:]\n\n if obs.availableActions != None:\n returnObs.availableActions = obs.availableActions[:]\n\n if obs.isTerminal != None:\n returnObs.isTerminal = obs.isTerminal\n\n return returnObs\n\n # Turn the state into a tuple for bookkeeping\n def calculateFlatState(self, theState):\n return tuple(theState)\n\n def isVerbose(self):\n if isinstance(self.verbose, numbers.Number) and self.verbose == 0:\n return False and self.verboseOverride\n return self.verbose and self.verboseOverride\n" }, { "alpha_fraction": 0.7759295701980591, "alphanum_fraction": 0.7815557718276978, "avg_line_length": 162.52000427246094, "blob_id": "87e77ab32df711d418136b27f93d91fc8381cc2f", "content_id": "fcc52c8653a7f0fa07e7be7c40c826579bae2f3a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 4088, "license_type": "no_license", "max_line_length": 1026, "num_lines": 25, "path": "/homework8/Report.md", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "# Report\n## Report Details\n\n\n## Questions\n1) Why doesn't the bot avoid the radiation in the default map? What would have to be different for the bot to avoid as much of it as possible?\n\n2) Under the default reward, the bot runs away from the enemy. What is the largest value for enemyDead that would make it so that the bot is willing to kill the enemy if they cross paths. Explain why. What is the smallest value for enemyDead that would induce the bot to seek out the enemy and kill it. Explain why.\n\n3) What effect does switching enemyMode from 1 (follow the influence map) to 2 during training have on the behavior of the bot, if any? How does more or less training episodes help or hurt? Hint: experiment with play = 2.\n\n## Answers\n\n1) The penalty for radiation is very small. It only affects the bot if it stays in the radiation. So passing through the radiation twice (once to go rescue the human, and once to come back to home base) is a very small sacrifice to get the 10 additional reward per turn for rescuing the human. If the radiation somehow stuck to the bot and cause a penalty on a per turn basis, then the bot would be less inclined to pass through the radiation in order to rescue the human. I believe that even if the entire path to the human was lined with radiation, the bot would still learn to get the humans. Traveling through the radiation would still only cause a static amount of penalty, but rescuing the humans provides a steady stream of reward.\n\n2) At -4.0 the bot predictably would kill the enemy whenever they shared a space. The overall behavior of the bot is less predictable at the beginning, sometimes it will rescue both humans, then move up and down a few times before going to the home space and waiting. Other than that, the bot will always, at some point, rescue the two humans, go to the base, and stay there the rest of the match, killing the enemy whenever it comes along. This happens because at a penalty of -4.0, it's more valuable to kill the enemy rather than having to move of the space once every 8 or so turns when the enemy comes back to the base. This way the bot can take advantage of the 10 reward from the home base every turn.\n\nAt a reward of 13 I found that the bot will actively seek out the enemy. At this point, its move valuable for the bot to kill the enemy, take advantage of the 13 reward then move to home. However, this is only observable in a random state. While using the influence map, the bot will kill the enemy on the first couple moves if it's anything larger than -1. The bot and enemy can meet on the first move if the bot moves left, then on the second move the bot will kill the enemy and continue on with the game. \n\n3) I found that training takes more trials when the enemy is set to move randomly. This makes sense because when the enemy uses the heat map the bot can observe a repeated pattern in the enemies movement and therefore learn quicker. In this example map, the bot learns that when the enemy is on the home base it will always move up on the next turn unless it can torture. So the bot simply has to move off for one move, then back on. Whereas if the enemy is moving randomly, then the enemy could potentially linger on the home base for a while before moving off. This requires a bit more learning to know to wait until the enemy moves off the base before moving back on to the home base. During execution, if the enemy is set to move according to the heat map, the behaviors will appear the same. The bot will wait until the enemy is on the base with it, then move off the base on the next turn. In either training case, the bot will know to move back on to the base because it is now safe, for at least one turn, to be there.\n\nInterestingly, if the bot is trained using the heat map enemy but executed using the random enemy, there is a noticeable decrease in reward. In this case the bot expects the enemy to act in a predictable but the bot acts randomly and sometimes confuses the bot. Training the bot on a random enemy makes the bot much more capable against a random bot.\n\n\ntesting\n" }, { "alpha_fraction": 0.6299999952316284, "alphanum_fraction": 0.6299999952316284, "avg_line_length": 17.75, "blob_id": "7fea2bfe38e33fa560bac2187b81c3e06e2c6ea6", "content_id": "a454bb3eb40d08a3746b75b2f1461eed4be778f8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 300, "license_type": "no_license", "max_line_length": 45, "num_lines": 16, "path": "/homework6/moveToTestEnv.py", "repo_name": "stevenacalhoun/ai-homeworks", "src_encoding": "UTF-8", "text": "from shutil import copyfile\n\ndef main():\n neededFiles = [\n \"btnode.py\",\n \"mybehaviors.py\",\n \"mycreatepathnetwork.py\",\n \"mynavigatorhelpers.py\",\n \"astarnavigator.py\"\n ]\n\n for fileName in neededFiles:\n copyfile(fileName, \"testEnv/\" + fileName)\n\nif __name__ == \"__main__\":\n main()\n" } ]	14
scolefox/git_practice	https://github.com/scolefox/git_practice	1df4a185f67dc24ef888b4a63b2fbe8f1fc89776	10311863e0a8af4047fdfff0a613919e619a878a	d4d60a32fe9038f6479bf8ce985d025e177934cc	refs/heads/master	2020-05-01T06:15:37.802239	2019-03-24T00:33:15	2019-03-24T00:33:15	177,325,587	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6620689630508423, "alphanum_fraction": 0.6896551847457886, "avg_line_length": 19.14285659790039, "blob_id": "4b944255619fb61e7e6b13542c4fb37a6315cf63", "content_id": "9f06293f346c85db8d6eb9a3e63f69e2c0ab6f33", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 145, "license_type": "no_license", "max_line_length": 35, "num_lines": 7, "path": "/force_function.py", "repo_name": "scolefox/git_practice", "src_encoding": "UTF-8", "text": "#Simple function\ndef force_calc(mass, acceleration):\n force = mass * acceleration\n return force\n\nprint(force_calc(7, 100))\n#add to git\n\n\n\n\n" }, { "alpha_fraction": 0.5789473652839661, "alphanum_fraction": 0.6157894730567932, "avg_line_length": 22.875, "blob_id": "efee8ad2aadbaa167ea22614e8c8fed0ce1ad12e", "content_id": "5c7a9a51ed5692b32e8acf32b3115718758207f8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 190, "license_type": "no_license", "max_line_length": 39, "num_lines": 8, "path": "/fibonacci.py", "repo_name": "scolefox/git_practice", "src_encoding": "UTF-8", "text": "#!/usr/bin/python\n#attempt at fibonacci sequence function\ndef fibonacci(lst):\n while (len(lst) < 30):\n lst.append(lst[-2] + lst[-1])\n return lst\n \nprint(fibonacci([1, 1, 2]))" } ]	2
nogicoder/sorting-algorithm	https://github.com/nogicoder/sorting-algorithm	4a5302cb9695ddd4f9fd81cd6307177aee94a878	072608b55e19db66bb9a32b9de133e58a69ff2f8	128df75b3c0802da4f8f95ba4f44211b2aa72168	refs/heads/master	2020-04-29T07:45:18.269670	2019-03-16T11:36:31	2019-03-16T11:36:31	175,964,155	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.346069872379303, "alphanum_fraction": 0.39410480856895447, "avg_line_length": 23.105262756347656, "blob_id": "ffa5e1ccaf2e72e16124d0e3c402bef436ded776", "content_id": "418c1180766cb14794ba3a99ee6f639f29bf20ef", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 916, "license_type": "no_license", "max_line_length": 65, "num_lines": 38, "path": "/Algorithms/ins_sort.py", "repo_name": "nogicoder/sorting-algorithm", "src_encoding": "UTF-8", "text": "n = [1, 3, 8, -7, 10, 4, 2]\nn1 = [-6, -5, 1, 6, 8, 3, 7, -2, -7, 10, -10, 2, 4, -4, -3, 5, 0,\n -1, 9, -9, -8]\n\n# OLD:\n# def insert_sort_algo(lst):\n# for i in range(1, len(lst)):\n# num = lst[i]\n# temp = lst[:i]\n# temp = temp[::-1]\n# count = 0\n# for j in temp:\n# t = lst.index(j)\n# f = lst.index(num)\n# if j > num:\n# lst[f], lst[t] = lst[t], lst[f]\n# count += 1\n# if count > 1:\n# print(\" \".join(str(item) for item in lst))\n\n\n\"\"\"NEW\"\"\"\n\n\ndef insert_sort(lst):\n for i in range(1, len(lst)):\n num = lst[i]\n slot = i\n count = 0\n while slot > 0 and lst[slot - 1] > num:\n lst[slot] = lst[slot - 1]\n slot = slot - 1\n lst[slot] = num\n if slot != i:\n print(\" \".join(str(item) for item in lst))\n\n\ninsert_sort(n1)\n" }, { "alpha_fraction": 0.4929453134536743, "alphanum_fraction": 0.5079365372657776, "avg_line_length": 27.830509185791016, "blob_id": "0ce421be9a9859b755beca843bf2ff74bc7f7250", "content_id": "c9f3e4835bd5a4daf97c308baa10bae6f2aa82b3", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3402, "license_type": "no_license", "max_line_length": 79, "num_lines": 118, "path": "/system/core.py", "repo_name": "nogicoder/sorting-algorithm", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python3\nimport argparse\n\n\n# Bubble Sort Function\ndef bubble_sort_algo(lst):\n for t in range(len(lst)):\n for i in range(len(lst) - 1):\n count = 0\n if lst[i + 1] < lst[i]:\n lst[i], lst[i + 1] = lst[i + 1], lst[i]\n count += 1\n if count >= 1:\n print(\" \".join(str(item) for item in lst))\n\n\n# Insert Sort Function\ndef insert_sort_algo(lst):\n for i in range(1, len(lst)):\n num = lst[i]\n slot = i\n count = 0\n while slot > 0 and lst[slot - 1] > num:\n lst[slot] = lst[slot - 1]\n slot = slot - 1\n lst[slot] = num\n if slot != i:\n print(\" \".join(str(item) for item in lst))\n\n\n# Partioning the list for the Quick Sort function\ndef partitioning(lst, start, end):\n pIndex = start\n pivot = lst[end]\n for i in range(start, end):\n if lst[i] <= pivot:\n lst[i], lst[pIndex] = lst[pIndex], lst[i]\n pIndex += 1\n lst[pIndex], lst[end] = lst[end], lst[pIndex]\n print(\"P: \" + str(pivot))\n print(\" \".join(str(item) for item in lst))\n return pIndex\n\n\n# Quick Sort main function\ndef quick_sort_algo(lst, start, end):\n if start < end:\n pIndex = partitioning(lst, start, end)\n quick_sort_algo(lst, start, pIndex - 1)\n quick_sort_algo(lst, pIndex + 1, end)\n\n\n# Merging the list for the Merge Sort Function\ndef merge(lst1, lst2, lst):\n i = 0\n j = 0\n k = 0\n while i < len(lst1) and j < len(lst2):\n if lst1[i] <= lst2[j]:\n lst[k] = lst1[i]\n i += 1\n else:\n lst[k] = lst2[j]\n j += 1\n k += 1\n while i < len(lst1):\n lst[k] = lst1[i]\n i += 1\n k += 1\n while j < len(lst2):\n lst[k] = lst2[j]\n j += 1\n k += 1\n\n\n# Merge sort main function\ndef merge_sort_algo(lst):\n if len(lst) > 1:\n s = int(len(lst)/2)\n lst1 = lst[:s]\n lst2 = lst[s:]\n merge_sort_algo(lst1)\n merge_sort_algo(lst2)\n merge(lst1, lst2, lst)\n print(\" \".join(str(item) for item in lst))\n\n\n# Main Function\ndef main():\n parser = argparse.ArgumentParser(prog=\"Sorting Deck\",\n description=\"Implement & visualize \\\n different sorting algorithm\")\n parser.add_argument('N', nargs='+', help='an integer for the list to sort')\n parser.add_argument('--algo', default='bubble', metavar=\"ALGO\",\n choices=['bubble', 'insert', 'quick', 'merge'],\n help=\"specify which algorithm to use for sorting \\\n among [bubble\|insert\|quick\|merge], default bubble\")\n parser.add_argument('--gui', action='store_true',\n help='visualise the algorithm in GUI mode')\n args = parser.parse_args()\n lst = list(int(i) for i in args.N)\n if args.gui and len(lst) > 15:\n print('Input too large')\n elif not args.gui:\n if args.algo == 'bubble':\n bubble_sort_algo(lst)\n elif args.algo == 'insert':\n insert_sort_algo(lst)\n elif args.algo == 'quick':\n quick_sort_algo(lst, 0, len(lst) - 1)\n elif args.algo == 'merge':\n merge_sort_algo(lst)\n # elif args.gui:\n\n\n# Running the main function\nif __name__ == \"__main__\":\n main()\n" }, { "alpha_fraction": 0.48197633028030396, "alphanum_fraction": 0.5074460506439209, "avg_line_length": 30.6519832611084, "blob_id": "819331c99210cf2f988566a2c3ccaf9ab9db37a9", "content_id": "775eb69d561bcc5b26db15a92d1abe43f33d6399", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 7185, "license_type": "no_license", "max_line_length": 76, "num_lines": 227, "path": "/resource/bud.py", "repo_name": "nogicoder/sorting-algorithm", "src_encoding": "UTF-8", "text": "import pyglet\nimport math\nimport random\nimport os\nfrom pyglet import clock\nfrom random import randint\nfrom pyglet.window import key\n\n\ndef getpath(folder):\n res = os.getcwd().replace('version1','resources') + '/' + folder\n return res\n\npath1 = getpath('positive')\npath2 = getpath('negative')\nspace = 0\nheight = 768\nwidth = 1024\nlives = 3\nscore = 0\nchange = 0\n\ngame_window = pyglet.window.Window(width, height)\n\n\npyglet.resource.path = [getpath('')]\npyglet.resource.reindex()\n\nimage_f = pyglet.resource.image('m.png')\nimage_f1 = pyglet.resource.image('m1.png')\nimage_f2 = pyglet.resource.image('m2.png')\nbg = pyglet.resource.image(\"bg.jpg\")\n\nmusic = pyglet.resource.media('music.mp3')\n\n\nsound1 = pyglet.resource.media('explosion.wav', streaming=False)\nsound2 = pyglet.resource.media('suss.wav', streaming=False)\n\n\nmain_batch = pyglet.graphics.Batch()\n\nsmile_f = pyglet.sprite.Sprite(image_f, x=0, batch=main_batch)\n\n\n\nanimation = pyglet.resource.animation('storm.gif')\nsprite = pyglet.sprite.Sprite(animation,batch=None)\n\n\n\nscore_label = pyglet.text.Label(text=\"Score: %s\" % score, x=0,\n y=height - 50, color = (1,2,3,255),\n font_size = 24,batch=main_batch)\nlive_label = pyglet.text.Label(text=\"Lives: %s\" % lives, x=width - 130,\n y=height - 50, color = (1,2,3,255),\n font_size = 24,batch=main_batch)\nlevel_label = pyglet.text.Label(text=\"How to lead a buddhist life\",\n x=0, y=height - 100, color = (1,2,3,255),\n font_size = 24,batch=main_batch)\ngameover = pyglet.text.Label(text=\"GAMEOVER\", x=width / 2 - 40 * 4,\n y=height / 2, color = (1,2,3,255),\n font_size = 40,batch=None)\n\n\ndef getSprite(path, speed):\n res = []\n listname = os.listdir(path)\n pyglet.resource.path = [path]\n pyglet.resource.reindex()\n for i in listname:\n image = pyglet.resource.image(i)\n sprite = pyglet.sprite.Sprite(image,x = randint(0, width), y=height)\n sprite.velocity_x = speed\n sprite.velocity_y = randint(1,speed)\n sprite.rotation = random.choice([1,-1])\n res.append(sprite)\n return res\n\ndef callback(_):\n sprite.batch=None\n\ndef changeSpeed(mainlist):\n for i in mainlist:\n i.velocity_y += 0.5\n\ndef update(_):\n global score, lives, space, change\n print(score)\n if score == 0 and change == 0:\n smile_f.image = image_f\n getRandomDict(5)\n change = 1\n if score == 5 and change == 1:\n smile_f.image = image_f1\n changeSpeed(maindict['positive'] + maindict['negative'])\n getRandomDict(10)\n change = 2\n if score == 20 and change == 2:\n smile_f.image = image_f2\n changeSpeed(maindict['positive'] + maindict['negative'])\n getRandomDict(10)\n change = 0\n angle_radians = -math.radians(randint(200,201))\n force_x = math.sin(angle_radians)\n ok = sprite\n if space > 0 and lives > 0:\n for i in maindict['positive'] + maindict['negative']:\n temp = (i.x + i.x + i.width)/2\n left = smile_f.position[0]\n right = smile_f.position[0] + smile_f.width\n if i.y >= smile_f.height:\n if temp < -30:\n i.x == width\n elif temp > height + 30:\n i.x == 0\n i.x += force_x * i.rotation\n i.y -= i.velocity_y\n elif i.y < smile_f.height and i.y > -10:\n if temp > left and temp < right:\n if i in maindict['positive']:\n score += 1\n sound2.play()\n score_label.text=\"Score: %s\" % score\n i.y = height\n clock.schedule_interval(callback, 3)\n i.x = randint(0, width) + 30\n if i.velocity_y < i.velocity_x:\n i.velocity_y += randint(0,1)\n elif i.velocity_y >= i.velocity_x:\n i.velocity_y -= randint(0,1)\n else:\n if lives > 0:\n lives -= 1\n sound1.play()\n live_label.text=\"Lives: %s\" % lives\n ok.x = 0\n ok.y = 0\n ok.batch = main_batch\n i.y = height\n clock.schedule_interval(callback, 5)\n i.x = randint(0, width) + 30\n if i.velocity_y < i.velocity_x:\n i.velocity_y += randint(0,1)\n elif i.velocity_y >= i.velocity_x:\n i.velocity_y -= randint(0,1)\n else:\n i.y -= i.velocity_y\n else:\n if lives == 0:\n i.y = -100\n else:\n i.y = height\n i.x = randint(0, width) + 30\n if i.velocity_y < i.velocity_x:\n i.velocity_y += randint(0,1)\n elif i.velocity_y >= i.velocity_x:\n i.velocity_y -= randint(0,1)\n i.rotation = random.choice([1,-1])\n\ndef getRandomSprite(listsprite, number):\n res = []\n for i in range(number):\n res.append(random.choice(listsprite))\n return res\n\npositive = getSprite(path1, 3)\nnegative = getSprite(path2, 3)\nmaindict = {}\n\ndef getRandomDict(number):\n global maindict\n maindict['positive'] = getRandomSprite(positive,number)\n maindict['negative'] = getRandomSprite(negative,number)\n\ngetRandomDict(5)\n\n@game_window.event\ndef on_key_press(symbol, modifiers):\n global right, left, space, lives, score\n if symbol == key.SPACE:\n space += 1\n lives = 3\n score = 0\n score_label.text=\"Score: %s\" % score\n live_label.text=\"Lives: %s\" % lives\n if smile_f.x <= width - 100 and smile_f.x > -1:\n if symbol == key.RIGHT:\n smile_f.x += 50\n if symbol == key.LEFT:\n smile_f.x -= 50\n elif smile_f.x > width - 100:\n smile_f.x = width - 100\n else:\n smile_f.x = 0\n\n\n@game_window.event\ndef on_draw():\n global lives, space\n game_window.clear()\n bg.blit(0, 0)\n smile_f.draw()\n main_batch.draw()\n if lives == 0:\n space = 0\n game_window.clear()\n bg.blit(0, 0)\n smile_f.draw()\n gameover.batch = main_batch\n main_batch.draw()\n elif space > 0:\n gameover.batch = None\n bg.blit(0, 0)\n smile_f.draw()\n main_batch.draw()\n for i in maindict['positive'] + maindict['negative']:\n i.draw()\n\npyglet.clock.schedule_interval(update,1/60)\nplayer = pyglet.media.Player()\nplayer.queue(music)\nplayer.eos_action = pyglet.media.SourceGroup.loop\nplayer.play()\n\nif __name__ == '__main__':\n pyglet.app.run()\n" }, { "alpha_fraction": 0.467576801776886, "alphanum_fraction": 0.48873719573020935, "avg_line_length": 25.880733489990234, "blob_id": "5d3990384237eed0934973b2bbd090d5e6673ebe", "content_id": "09ff91f9d77444436c6dcbd1bf39a7a7824e3c18", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2930, "license_type": "no_license", "max_line_length": 99, "num_lines": 109, "path": "/test.py", "repo_name": "nogicoder/sorting-algorithm", "src_encoding": "UTF-8", "text": "import pyglet\nfrom pyglet import clock\nfrom pyglet import window\nimport time\n\n\nclass Number:\n def __init__(self, value, i, len, color, velo):\n global window\n self.x = i(window.width//len) + 50\n self.y = (window.height)//2\n self.color = color\n self.label = pyglet.text.Label(value, font_size = 30, x=self.x, y=self.y, color=self.color)\n self.velocity = velo(window.width//len)\n\n\n def draw(self):\n self.label.draw()\n\n\n def move(self):\n self.x += self.velocity\n\n\n def delete(self):\n self.label.delete()\n\nclass SortingDeckWindow(window.Window):\n def __init__(self, numbers, move):\n window.Window.__init__(self, 1200, 900)\n self.set_mouse_visible(False)\n self.numlist = numbers\n self.move = move\n self.sorted = sorted\n self.dp_list = []\n self.key_held = []\n\n\n def on_draw(self):\n self.clear()\n print(\"this is draw\")\n # self.moving_num(self.dp_list)\n for item in self.dp_list:\n item.draw()\n\n\n def delete(self, array):\n for num in array:\n num.delete()\n\n\n def moving_num(self, array):\n for num in array:\n num.move()\n\n\n def update(self, dt):\n print(\"this is update\")\n global i\n if i < len(self.move):\n self.delete(self.dp_list)\n for j in range(len(self.numlist)):\n value = self.numlist[j]\n color = (255, 255, 255, 255)\n num = Number(str(value), j, len(self.numlist), color, 0)\n if value in self.move[i]:\n color = (255, 0, 0, 255)\n num = Number(str(value), j, len(self.numlist), color, 0)\n if self.move[i] == 'y' and value == self.move[i][-2]:\n num = Number(str(value), j, len(self.numlist), color, 1)\n elif self.move[i] == 'y' and value == self.move[i][-1]:\n num = Number(str(value), j, len(self.numlist), color, -1)\n self.dp_list.append(num)\n i += 1\n self.moving_num(self.dp_list)\n\n\n'''--------------------------------GUI---------------------------------------'''\na = [0, 1, -3, 6, 2, 10]\ni = 0\n\n\ndef bubble_sort_algo(lst):\n move = []\n for t in range(len(lst)):\n swap = False\n for i in range(len(lst) - 1):\n move.append(('n', lst[i], lst[i + 1]))\n if lst[i + 1] < lst[i]:\n lst[i], lst[i + 1] = lst[i + 1], lst[i]\n swap = True\n # print(lst)\n move.append(('y', lst[i], lst[i + 1]))\n if swap == False:\n break\n move.append(lst)\n return move\n\n\nmove = bubble_sort_algo(a)\n\n\nb = [0, 1, -3, 6, 2, 10]\n\n\nif __name__ == \"__main__\":\n window = SortingDeckWindow(b, move)\n pyglet.clock.schedule_interval(window.update, 0.2)\n pyglet.app.run()\n" }, { "alpha_fraction": 0.3526315689086914, "alphanum_fraction": 0.40526315569877625, "avg_line_length": 22.75, "blob_id": "9ef74f70e4c745e37b3f4f71db31e27d2cb4df84", "content_id": "4cf91c9f734a4707cb54ccd73f82598f5225cc4f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 380, "license_type": "no_license", "max_line_length": 58, "num_lines": 16, "path": "/Algorithms/bubble_sort.py", "repo_name": "nogicoder/sorting-algorithm", "src_encoding": "UTF-8", "text": "n = [23, 9, -8, 7, 3]\nn1 = [1, 2, 3, 6, 90]\n\n\ndef bubble_sort(lst):\n for t in range(len(lst)):\n for i in range(len(lst) - 1):\n count = 0\n if lst[i + 1] < lst[i]:\n lst[i], lst[i + 1] = lst[i + 1], lst[i]\n count += 1\n if count >= 1:\n print(\" \".join(str(item) for item in lst))\n\n\nbubble_sort(n)\n" }, { "alpha_fraction": 0.4554183781147003, "alphanum_fraction": 0.47325101494789124, "avg_line_length": 21.78125, "blob_id": "9847616b6403b437507d2fc7c3414ca32b571b61", "content_id": "d37772de9997204997d85789002b07fd9d551503", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 729, "license_type": "no_license", "max_line_length": 55, "num_lines": 32, "path": "/test1.py", "repo_name": "nogicoder/sorting-algorithm", "src_encoding": "UTF-8", "text": "import pyglet\n\na = [0, 1, -3, 6, 2, 10]\nnumbers = [[str(item) for item in a]]\n\ndef bubble_sort_algo(lst):\n move = []\n for t in range(len(lst)):\n swap = False\n for i in range(len(lst) - 1):\n move.append(('n', lst[i], lst[i + 1]))\n if lst[i + 1] < lst[i]:\n lst[i], lst[i + 1] = lst[i + 1], lst[i]\n swap = True\n print(lst)\n move.append(('y', lst[i], lst[i + 1]))\n if swap == False:\n break\n return move\n\n\nmove = bubble_sort_algo(a)\n\n\n# for lst in list:\n# num_obj_list = []\n# for number in lst:\n# num_obj_list.append(number)\n# numbers.append(num_obj_list)\n\nfor item in move:\n print(item)\n" }, { "alpha_fraction": 0.3185628652572632, "alphanum_fraction": 0.3772455155849457, "avg_line_length": 20.688312530517578, "blob_id": "4dbe52f96f72317c353fb8ff92d52cbac0ffa8ac", "content_id": "2ce93c81052947b7829b54ba8b39ab5e1e2356ca", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1670, "license_type": "no_license", "max_line_length": 62, "num_lines": 77, "path": "/Algorithms/merge_sort.py", "repo_name": "nogicoder/sorting-algorithm", "src_encoding": "UTF-8", "text": "n = [23, 4, 9, -8, 20, 7, 3]\nn1 = [-6, -5, 1, 6, 8, 3, 7, -2, -7, 10, -10, 2, 4, -4, -3, 5,\n 0, -1, 9, -9, -8]\n\n\n# OLD\n# def merge(lst1, lst2, lst):\n# i = 0\n# j = 0\n# k = 0\n# while i < len(lst1) and j < len(lst2):\n# if lst1[i] < lst2[j]:\n# lst[k] = lst1[i]\n# i += 1\n# k += 1\n# elif lst2[j] < lst1[i]:\n# lst[k] = lst2[j]\n# j += 1\n# k += 1\n# if i >= len(lst1):\n# while j < len(lst2):\n# lst[k] = lst2[j]\n# j += 1\n# k += 1\n# elif j >= len(lst2):\n# lst[k] = lst1[i]\n# i += 1\n# k += 1\n#\n#\n# # Merge Sort Main Function\n# def merge_sort_algo(lst):\n# if len(lst) > 1:\n# s = int(len(lst)/2)\n# lst1 = lst[:s]\n# lst2 = lst[s:]\n# merge_sort_algo(lst1)\n# merge_sort_algo(lst2)\n# merge(lst1, lst2, lst)\n# print(\" \".join(str(item) for item in lst))\n\n\n# NEW\ndef merge(lst1, lst2, lst):\n i = 0\n j = 0\n k = 0\n while i < len(lst1) and j < len(lst2):\n if lst1[i] <= lst2[j]:\n lst[k] = lst1[i]\n i += 1\n else:\n lst[k] = lst2[j]\n j += 1\n k += 1\n while i < len(lst1):\n lst[k] = lst1[i]\n i += 1\n k += 1\n while j < len(lst2):\n lst[k] = lst2[j]\n j += 1\n k += 1\n\n\ndef merge_sort(lst):\n if len(lst) > 1:\n s = int(len(lst)/2)\n lst1 = lst[:s]\n lst2 = lst[s:]\n merge_sort(lst1)\n merge_sort(lst2)\n merge(lst1, lst2, lst)\n print(\" \".join(str(item) for item in lst))\n\n\nmerge_sort(n1)\n" }, { "alpha_fraction": 0.5108878016471863, "alphanum_fraction": 0.5360134243965149, "avg_line_length": 23.875, "blob_id": "f16e58361eadaf976d1bdd5692b21d7da75c5d53", "content_id": "e62439e7e9912ba66330666b59fe3c8fd0a45b2f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 597, "license_type": "no_license", "max_line_length": 53, "num_lines": 24, "path": "/Algorithms/quick_sort.py", "repo_name": "nogicoder/sorting-algorithm", "src_encoding": "UTF-8", "text": "n = [23, 10, 9, -8, 20, 7, 3]\n\n\ndef parting(lst, start, end):\n pIndex = start\n pivot = lst[end]\n for i in range(start, end):\n if lst[i] <= pivot:\n lst[i], lst[pIndex] = lst[pIndex], lst[i]\n pIndex += 1\n lst[pIndex], lst[end] = lst[end], lst[pIndex]\n print(\"P: \" + str(pivot))\n print(\" \".join(str(item) for item in lst))\n return pIndex\n\n\ndef quick_sort(lst, start, end):\n if start < end:\n pIndex = parting(lst, start, end)\n quick_sort(lst, start, pIndex - 1)\n quick_sort(lst, pIndex + 1, end)\n\n\nquick_sort(n, 0, len(n) - 1)\n" } ]	8
noahorensa/spark-predictor	https://github.com/noahorensa/spark-predictor	8f58f077c1bc95fa587cc538505281a39f64f0a6	bf29be8fb372b3e5a47d97018524973499939101	b577c3b75f5500c05c16aeb3cc8728c510324ac7	refs/heads/master	2020-09-22T05:57:48.758954	2019-12-18T15:00:49	2019-12-18T15:00:49	224,937,377	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.775689959526062, "alphanum_fraction": 0.7833235263824463, "avg_line_length": 49.05882263183594, "blob_id": "925900d2a33ee2b8b0adb0f77bcdd3c6400e87c6", "content_id": "39dbe44704653b9dd589dfb99ca60e48ecb238e4", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1703, "license_type": "permissive", "max_line_length": 180, "num_lines": 34, "path": "/README.md", "repo_name": "noahorensa/spark-predictor", "src_encoding": "UTF-8", "text": "## Spark Predictor\n\nSpark predictor is a project originally developed by Shivaram et al. Ernest, a framework\noutlined by the original authors, predicts the running time of advanced analytics jobs\non distributed computing engines. This repo is built for predicting the running time\nfor Apache Spark. \n\nThe framework builds performance models based on the behavior of the job on small\nsamples of data and then predicts its performance on larger datasets and cluster\nsizes. To minimize the time and resources spent in building a model, Ernest\nuses [optimal experiment design](https://en.wikipedia.org/wiki/Optimal_design),\na statistical technique that allows us to collect as few training points as\nrequired.\n \nFor more details please see the original [paper](http://shivaram.org/publications/ernest-nsdi.pdf) and [talk slides](http://shivaram.org/talks/ernest-nsdi-2016.pdf) from NSDI 2016.\nOriginal [repository](https://github.com/amplab/ernest).\n\n### Installation\n\nThe requirements for this repo are in [requirements.txt](requirements.txt). The easiest way to install is: \n```\npip install -r requirements.txt\n```\nThe code runs for Python 2.7\n\n### Usage\n\n1. Determining what sample data points to collect. To do this we will be using experiment design\n implemented in [expt_design.py](expt_design.py). This will return the set of training data points\n required to build a performance model. \n2. Collect running time for the set of training data points. This depends on the analytics \n application that we are building model for.\n3. Building a performance model and using it for prediction. To do this we create a CSV file with\n measurements from previous step and use [predictor.py](predictor.py). \n" }, { "alpha_fraction": 0.6037850975990295, "alphanum_fraction": 0.6266788840293884, "avg_line_length": 30.200000762939453, "blob_id": "da51ac711a4eed162be93809b42e0f59b6b7cb8c", "content_id": "ca033aea4d8f46df701594af9b4e1f74b7c56b41", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3276, "license_type": "permissive", "max_line_length": 90, "num_lines": 105, "path": "/predictor.py", "repo_name": "noahorensa/spark-predictor", "src_encoding": "UTF-8", "text": "import csv\nimport sys\n\nimport numpy as np\nfrom scipy.optimize import nnls\n\nclass Predictor(object):\n\n def __init__(self, training_data_in=[], data_file=None):\n ''' \n Initiliaze the Predictor with some training data\n The training data should be a list of [mcs, input_fraction, time]\n '''\n self.training_data = []\n self.training_data.extend(training_data_in)\n if data_file:\n with open(data_file, 'rb') as csvfile:\n reader = csv.reader(csvfile, delimiter=',')\n next(reader) # skip header\n for row in reader:\n mc = int(row[0])\n scale = float(row[1])\n time = float(row[2])\n self.training_data.append([mc, scale, time])\n\n def add(self, mcs, input_fraction, time):\n self.training_data.append([mcs, input_fraction, time])\n\n def predict(self, input_fraction, mcs):\n ''' \n Predict running time for given input fraction, number of machines.\n ''' \n test_features = np.array(self._get_features([input_fraction, mcs]))\n return test_features.dot(self.model[0])\n\n def predict_all(self, test_data):\n ''' \n Predict running time for a batch of input sizes, machines.\n Input test_data should be a list where every element is (input_fraction, machines)\n ''' \n test_features = np.array([self._get_features([row[0], row[1]]) for row in test_data])\n return test_features.dot(self.model[0])\n\n def fit(self):\n print \"Fitting a model with \", len(self.training_data), \" points\"\n labels = np.array([row[2] for row in self.training_data])\n data_points = np.array([self._get_features(row) for row in self.training_data])\n self.model = nnls(data_points, labels)\n # Calculate training error\n training_errors = []\n for p in self.training_data:\n predicted = self.predict(p[0], p[1])\n training_errors.append(predicted / p[2])\n print p[0], p[1], p[2], predicted, predicted/p[2]\n\n print \"Average training error %f%%\" % ((np.mean(training_errors) - 1.0)100.0 )\n return self.model[0]\n\n def num_examples(self):\n return len(self.training_data)\n\n def _get_features(self, training_point):\n mc = float(training_point[0])\n scale = float(training_point[1])\n totalSize = 700 1024 * 1024 * 1024\n memoryPerMachine = 16 * 1024 * 1024 * 1024\n cached = 0\n if scale * totalSize > mc * memoryPerMachine:\n cached = mc * memoryPerMachine / totalSize\n return [1.0, scale / mc, np.arctan(scale), mc]\n\nif __name__ == \"__main__\":\n if len(sys.argv) != 3:\n print \"Usage <predictor.py> <csv_train_file> <csv_predictions>\"\n sys.exit(0)\n\n pred = Predictor(data_file=sys.argv[1])\n\n model = pred.fit()\n\n print \"Model parameters:\" + str(model)\n\n test_data = []\n scale = 0.125\n while scale <= 8:\n test_data += [[mc, scale] for mc in xrange(1, 129, 1)]\n scale *= 2\n\n predicted_times = pred.predict_all(test_data)\n\n\n predictions = []\n for i in xrange(0, len(test_data)):\n predictions.append({\n 'Machines': test_data[i][0],\n 'Scale': test_data[i][1],\n 'Time': predicted_times[i]\n })\n\n print predictions[0]\n\n with open(sys.argv[2], 'w') as f:\n writer = csv.DictWriter(f, fieldnames=[\"Machines\", \"Scale\", \"Time\"])\n writer.writeheader()\n writer.writerows(predictions)\n" } ]	2
sgaruda-sudo/Diabetic_Retinopathy	https://github.com/sgaruda-sudo/Diabetic_Retinopathy	7e2a11206438e85ba152f961d9bffe0a0e4a7a85	040c65c3555da160811d85cf5a01f908c5bbdf33	495fd49f02442f0f7b51932619f93b7d9e4e3237	refs/heads/master	2023-03-06T14:08:04.362136	2021-02-16T21:40:22	2021-02-16T21:40:22	313,737,413	1	0	null	null	null	null	null	[ { "alpha_fraction": 0.5085269212722778, "alphanum_fraction": 0.5191352367401123, "avg_line_length": 44.54375076293945, "blob_id": "20ff4e0d66554dea2e3bdd7d6db3f337b118fcc2", "content_id": "e1a5396c39665167c7023c7eba9ad6de24005213", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 7447, "license_type": "no_license", "max_line_length": 122, "num_lines": 160, "path": "/main.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "import gin\r\nfrom absl import app, flags\r\nfrom input_pipeline import datasets, datasets2\r\nimport constants\r\nfrom evaluation import eval\r\nfrom models.transfer_learning_architecture import transfer_learning\r\nfrom models.architecture import vgg_base_3custom\r\nfrom matplotlib import pyplot as plt\r\nimport tensorflow as tf\r\nimport datetime\r\nimport os\r\n\r\n\r\nFLAGS = flags.FLAGS\r\n\r\nflags.DEFINE_boolean('train', False, 'Specify whether to train or evaluate a model.')\r\n\r\nflags.DEFINE_boolean('ds2', True, 'Specify whether to use alternate data pipeline')\r\n\r\nflags.DEFINE_boolean('hparam_tune', False, 'Specify if its hyper param tuning.')\r\n\r\nflags.DEFINE_boolean('Transfer_learning', False, 'to use transfer learning based model, \\\r\n train flag must be set to true to fine tune pretrained model')\r\n\r\n\r\ndef main(argv):\r\n\r\n # gin-config\r\n gin.parse_config_files_and_bindings(['configs/config.gin'], [])\r\n\r\n if FLAGS.hparam_tune:\r\n from hyper_parameter_tuning.hparam_tuning import run_hparam_tuning\r\n run_hparam_tuning()\r\n\r\n else:\r\n if FLAGS.ds2:\r\n # setup pipeline without image data generator\r\n ds_train, ds_val, ds_test = datasets2.load_data()\r\n\r\n if FLAGS.Transfer_learning:\r\n epochs = constants.H_TRANSFER_LEARNING_EPOCHS\r\n model = transfer_learning((256, 256, 3))\r\n else:\r\n epochs = constants.H_EPOCHS\r\n model = vgg_base_3custom((256, 256, 3))\r\n\r\n else:\r\n # use pipeline using image data generator\r\n ds_train, ds_val, ds_test = datasets.load()\r\n if FLAGS.Transfer_learning:\r\n epochs = constants.H_TRANSFER_LEARNING_EPOCHS\r\n model = transfer_learning((256, 256, 3))\r\n else:\r\n epochs = constants.H_EPOCHS\r\n model = vgg_base_3custom((256, 256, 3))\r\n\r\n opt = tf.optimizers.Adam(constants.H_LEARNING_RATE, name='ADAM')\r\n\r\n if FLAGS.train:\r\n\r\n model.build((constants.N_BATCH_SIZE, constants.ip_shape[0], constants.ip_shape[1], 3))\r\n\r\n model.compile(optimizer=opt, loss='sparse_categorical_crossentropy', metrics=['accuracy'], )\r\n print(model.summary())\r\n\r\n # tensor board call back\r\n if not os.path.isdir(constants.dir_fit):\r\n os.makedirs(constants.dir_fit)\r\n log_dir = os.path.join(constants.dir_fit, datetime.datetime.now().strftime(\"%Y%m%d-%H%M%S\"))\r\n tensorboard_callbk = tf.keras.callbacks.TensorBoard(log_dir=log_dir, histogram_freq=1,\r\n write_graph=True,\r\n write_images=True,\r\n update_freq='epoch',\r\n # profile_batch=2,\r\n embeddings_freq=1)\r\n\r\n # Checkpoint call back\r\n cpt_dir = os.path.join(constants.dir_cpts, datetime.datetime.now().strftime(\"%Y%m%d-%H%M\"))\r\n if not os.path.isdir(cpt_dir):\r\n os.makedirs(cpt_dir)\r\n print(cpt_dir)\r\n checkpoint_dir = os.path.join(cpt_dir, 'epochs:{epoch:03d}-val_accuracy:{val_accuracy:.3f}.h5')\r\n # check point to save the model based on improving validation accuracy\r\n checkpoint_callbk = tf.keras.callbacks.ModelCheckpoint(checkpoint_dir,\r\n monitor='val_accuracy',\r\n verbose=1,\r\n save_best_only=False,\r\n mode='max', save_weights_only=False,\r\n save_freq='epoch')\r\n # csv call back, if dir doesnt exist create directory\r\n if not os.path.isdir(constants.dir_csv):\r\n os.makedirs(constants.dir_csv)\r\n log_file_name = os.path.join(constants.dir_csv,\r\n (datetime.datetime.now().strftime(\"%Y%m%d-%H%M%S\") + '.csv'))\r\n csv_callbk = tf.keras.callbacks.CSVLogger(log_file_name, separator=',', append=True)\r\n\r\n callbacks_list = [checkpoint_callbk, tensorboard_callbk, csv_callbk]\r\n\r\n # Training the model and saving it using checkpoint call back\r\n history_model = model.fit(ds_train, verbose=1, epochs=int(epochs/2), batch_size=constants.N_BATCH_SIZE,\r\n validation_data=ds_val,\r\n callbacks=callbacks_list)\r\n # training the saved model for rest of the epochs\r\n history_model = model.fit(ds_train, verbose=1, initial_epoch=int(epochs/2), epochs=epochs,\r\n batch_size=constants.N_BATCH_SIZE,\r\n validation_data=ds_val,\r\n callbacks=callbacks_list)\r\n\r\n # save final model\r\n if not os.path.isdir(constants.WEIGHTS_PATH):\r\n os.makedirs(constants.WEIGHTS_PATH)\r\n model_save_time = datetime.datetime.now().strftime(\"%Y%m%d-%H%M%S\")\r\n model_name = model_save_time + '_' + model.optimizer.get_config()['name'] + '_epochs_' + str(epochs) + '.h5'\r\n model_save_path = os.path.join(constants.WEIGHTS_PATH, model_name)\r\n print(model_save_path)\r\n try:\r\n _ = os.stat(constants.WEIGHTS_PATH)\r\n model.save(model_save_path)\r\n except NotADirectoryError:\r\n raise\r\n\r\n # plot final training data, for runtime progress look at tensor board log\r\n plt.figure()\r\n plt.subplot(1, 2, 1)\r\n plt.plot(history_model.history[\"loss\"])\r\n plt.plot(history_model.history[\"val_loss\"])\r\n plt.legend([\"loss\", \"val_loss\"])\r\n # plt.xticks(range(constants.H_EPOCHS))\r\n plt.xlabel(\"epochs\")\r\n plt.title(\"Train and val loss\")\r\n\r\n plt.subplot(1, 2, 2)\r\n plt.plot(history_model.history[\"accuracy\"])\r\n plt.plot(history_model.history[\"val_accuracy\"])\r\n plt.legend([\"accuracy\", \"val_accuracy\"])\r\n plt.title(\"Train and Val acc\")\r\n plt.show()\r\n\r\n '''\r\n test_history = model.evaluate(ds_test,\r\n batch_size=constants.N_BATCH_SIZE,\r\n verbose=1, steps=4)\r\n\r\n '''\r\n\r\n eval.evaluate(model=model, ds_test=ds_test, opt=opt, is_training=FLAGS.train, SAVE_RESULT=True,\r\n checkpoint_path=None)\r\n\r\n else:\r\n\r\n # Load checkpoint model to evaluate\r\n check_point_path = constants.trained_model_name\r\n\r\n # check_point_path = 'weights/20201222-220802_ADAM_epochs_100_test_acc_78.h5'\r\n eval.evaluate(model=model, ds_test=ds_test, opt=opt, is_training=FLAGS.train, SAVE_RESULT=True,\r\n checkpoint_path=check_point_path)\r\n\r\n\r\nif __name__ == \"__main__\":\r\n app.run(main)\r\n" }, { "alpha_fraction": 0.6501522064208984, "alphanum_fraction": 0.6797429919242859, "avg_line_length": 38.49314880371094, "blob_id": "5ae76d169c38b855fe3d0c5708b87de42a97de15", "content_id": "08d389bfaa8b3c3e17c4ccd1ef5fc30eddf17f74", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5914, "license_type": "no_license", "max_line_length": 120, "num_lines": 146, "path": "/visualization/deep_vis.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "import numpy as np\r\nimport tensorflow as tf\r\nfrom tensorflow import keras\r\nimport constants\r\nfrom input_pipeline import datasets2\r\nfrom matplotlib import pyplot as plt\r\nimport cv2\r\n\r\n_, _, ds_test = datasets2.load_data()\r\n\r\n# path to test image\r\nf_path = 'C:/Users/Teja/Documents/_INFOTECH/sem5/DL_lab/IDRID_dataset/images/test/IDRiD_033.jpg'\r\n\r\n# path to the saved model \r\nsaved_model = tf.keras.models.load_model('weights/20201222-220802_ADAM_epochs_100_test_acc_78.h5')\r\n\r\n# compile the loaded keras model\r\nsaved_model.compile(optimizer=tf.keras.optimizers.Adam(constants.H_LEARNING_RATE),\r\n loss=tf.keras.losses.sparse_categorical_crossentropy, metrics=['accuracy'], )\r\n# build the compiled keras model with input shape = [batchsize,image shape]\r\nsaved_model.build((32, 256, 256, 3))\r\nprint(saved_model.summary())\r\n\r\nimg_size = (constants.ip_shape[0], constants.ip_shape[1])\r\n\r\n# get the last convolution layer to perform Grad CAM\r\nlast_conv_layer_name = \"conv2d_3\"\r\n# list of all layers after the selected convolution layer till classification\r\nclassifier_layer_names = [\"batch_normalization_3\", \"max_pooling2d_3\", \"dropout\", \"flatten\", \"dense\", \"tf_op_layer_Relu\",\r\n \"dropout_1\", \"dense_1\"]\r\n\r\n\r\ndef get_img_array(f_path: str):\r\n '''\r\n NOTE: `img` is a PIL image of size 256x256\r\n img = keras.preprocessing.image.load_img(img_path, target_size=size)\r\n # `array` is a float32 Numpy array of shape (256, 256, 3)\r\n array = keras.preprocessing.image.img_to_array(img)\r\n # We add a dimension to transform our array into a \"batch\"\r\n # of size (1, 256, 256, 3)\r\n\r\n Args:\r\n f_path (str): path to read the located Image\r\n '''\r\n image_string = tf.io.read_file(f_path)\r\n print(type(image_string))\r\n image = tf.io.decode_jpeg(image_string, channels=3)\r\n image = tf.image.crop_to_bounding_box(image, 0, 266, 2848, 3426)\r\n image = tf.cast(image, tf.float32) / 255.0\r\n image = tf.image.resize(image, [256, 256])\r\n img_arr = np.expand_dims(image, axis=0)\r\n\r\n return img_arr\r\n\r\n\r\ndef make_gradcam_heatmap(img_array, model, last_conv_layer_name, classifier_layer_names):\r\n \"\"\"\r\n\r\n Args:\r\n img_array: image for which grad CAM will be performed\r\n model: TRained deep neural network\r\n last_conv_layer_name:\r\n classifier_layer_names:\r\n\r\n Returns:\r\n\r\n \"\"\"\r\n # First, we create a model that maps the input image to the activations\r\n # of the last conv layer\r\n last_conv_layer = model.get_layer(last_conv_layer_name)\r\n last_conv_layer_model = keras.Model(model.inputs, last_conv_layer.output)\r\n # Second, we create a model that maps the activations of the last conv\r\n # layer to the final class predictions\r\n classifier_input = keras.Input(shape=last_conv_layer.output.shape[1:])\r\n x = classifier_input\r\n for layer_name in classifier_layer_names:\r\n x = model.get_layer(layer_name)(x)\r\n classifier_model = keras.Model(classifier_input, x)\r\n # Then, we compute the gradient of the top predicted class for our input image\r\n # with respect to the activations of the last conv layer\r\n with tf.GradientTape() as tape:\r\n # Compute activations of the last conv layer and make the tape watch it\r\n last_conv_layer_output = last_conv_layer_model(img_array)\r\n tape.watch(last_conv_layer_output)\r\n # Compute class predictions\r\n preds = classifier_model(last_conv_layer_output)\r\n top_pred_index = tf.argmax(preds[0])\r\n top_class_channel = preds[:, top_pred_index]\r\n # This is the gradient of the top predicted class with regard to\r\n # the output feature map of the last conv layer\r\n grads = tape.gradient(top_class_channel, last_conv_layer_output)\r\n # This is a vector where each entry is the mean intensity of the gradient\r\n # over a specific feature map channel\r\n pooled_grads = tf.reduce_mean(grads, axis=(0, 1, 2))\r\n # We multiply each channel in the feature map array\r\n # by \"how important this channel is\" with regard to the top predicted class\r\n last_conv_layer_output = last_conv_layer_output.numpy()[0]\r\n pooled_grads = pooled_grads.numpy()\r\n for i in range(pooled_grads.shape[-1]):\r\n last_conv_layer_output[:, :, i] = pooled_grads[i]\r\n # The channel-wise mean of the resulting feature map\r\n # is our heatmap of class activation\r\n heatmap = np.mean(last_conv_layer_output, axis=-1)\r\n # For visualization purpose, we will also normalize the heatmap between 0 & 1\r\n heatmap = np.maximum(heatmap, 0) / np.max(heatmap)\r\n return heatmap\r\n\r\n\r\nimg_array = get_img_array(f_path)\r\n# Print what the top predicted class is\r\npreds = saved_model.predict(img_array)\r\n# print(\"Predicted:\", decode_predictions(preds, top=1)[0])\r\n# Generate class activation heatmap\r\ncam = make_gradcam_heatmap(img_array, saved_model, last_conv_layer_name, classifier_layer_names)\r\n\r\n# Display heatmap\r\nimg = keras.preprocessing.image.load_img(f_path)\r\nimg = img.crop(box=(266, 0, 3692, 2848))\r\nimg = img.resize((256, 256))\r\n\r\n# resize heatmap, then convert it to 3 channel (apply colormap)\r\ncam_res = cv2.resize(cam, (256, 256))\r\nheat_map = cv2.applyColorMap(np.uint8(255 cam_res), cv2.COLORMAP_JET)\r\nadded_map = cv2.addWeighted(cv2.cvtColor(np.asarray(img).astype('uint8'), cv2.COLOR_RGB2BGR), 0.7, heat_map, 0.4, 0)\r\n\r\n\r\n# Plot image, gradcam output and gradcam overlay\r\nplt.figure(1)\r\nplt.subplot(1, 3, 1)\r\nplt.axis(\"off\")\r\nplt.imshow(img)\r\nplt.subplot(1, 3, 2)\r\nplt.axis(\"off\")\r\nplt.imshow(heat_map)\r\nplt.subplot(1, 3, 3)\r\nplt.axis(\"off\")\r\nplt.imshow(added_map)\r\n\r\n# np.resize(np.squeeze(img_array,axis=0),[16,16]))\r\nplt.show()\r\nplt.figure(2)\r\noverlay_map = np.float32(heat_map) + np.float32(img) * 0.4 # everlay heatmap onto the image\r\noverlay_map = 255 * overlay_map / np.max(overlay_map)\r\noverlay_map = np.uint8(overlay_map)\r\nplt.imshow(overlay_map)\r\nplt.show()\r\n\r\n" }, { "alpha_fraction": 0.5863189697265625, "alphanum_fraction": 0.5923963189125061, "avg_line_length": 40.4954948425293, "blob_id": "9fd24418ca128370f9020e9672b059100688a4d1", "content_id": "5aada24bf332db365e59a348e217c476a21fc5f2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 14151, "license_type": "no_license", "max_line_length": 126, "num_lines": 333, "path": "/input_pipeline/datasets.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "import gin\r\nimport logging\r\nimport tensorflow as tf\r\nimport pandas as pd\r\nfrom keras_preprocessing.image import ImageDataGenerator\r\nfrom input_pipeline.preprocessing import preprocess, resampling\r\nimport constants\r\nimport glob\r\nimport matplotlib.pyplot as plt\r\nimport random\r\nimport numpy as np\r\nfrom sklearn.model_selection import train_test_split\r\n\r\n\r\n\r\n# tf.compat.v1.enable_eager_execution()\r\n\r\nprint(\"Tensorflow version\", tf.__version__)\r\n\r\nAUTOTUNE = tf.data.experimental.AUTOTUNE\r\n\r\n\r\[email protected]\r\ndef load(name, data_dir):\r\n if name == \"idrid\":\r\n logging.info(f\"Preparing dataset {name}...\")\r\n\r\n # ...\r\n # columns_from_labels = ['Image name', 'Retinopathy grade']\r\n columns_from_labels = constants.COLUMN_LABELS\r\n\r\n # get paths to all directories of images and labels.\r\n dir_train_images, dir_test_images, dir_train_csv, dir_test_csv = path2dir(data_dir)\r\n\r\n # loading csv files : pass directory paths to csv and parse columns, that are to be used to create a data frame\r\n df_names_labels_train = load_from_csv(dir_train_csv, columns_from_labels)\r\n df_names_labels_test = load_from_csv(dir_test_csv, columns_from_labels)\r\n\r\n print(df_names_labels_train['Retinopathy grade'].value_counts())\r\n\r\n print('There are %i train labels and %i test labels' % (len(df_names_labels_train), len(df_names_labels_test)))\r\n\r\n # Display a random image\r\n show_sample_image(dir_train_images)\r\n # attach file extensions to image names\r\n df_names_labels_train = _append_file_format_extension2name(df_names_labels_train)\r\n df_names_labels_test = _append_file_format_extension2name(df_names_labels_test)\r\n print(df_names_labels_test.head())\r\n\r\n '''##### Split train data into train and validation #####'''\r\n df_train, df_valid = train_test_split(df_names_labels_train, test_size=0.2, random_state=42)\r\n\r\n '''#### Over sample the TRaining dataset using, Resampling- using sample function of pandas dataframes #####'''\r\n df_resampled_data = resampling(df_train, frac=1)\r\n print(df_resampled_data['Retinopathy grade'].value_counts())\r\n '''###################################################################################'''\r\n\r\n ''' Training and validation data building '''\r\n gen_img_train_valid = ImageDataGenerator(preprocessing_function=preprocess,\r\n rescale=1.0 / 255,\r\n rotation_range=10,\r\n horizontal_flip=False,\r\n vertical_flip=True,\r\n zoom_range=0.01)\r\n\r\n # Training data set build\r\n print(\"######################################################\")\r\n print(\"Loading training Data ............\")\r\n ds_train = _build_dataset(df_resampled_data, dir_train_images, gen_img_train_valid,\r\n class_mode='binary', subset_name=None, shuffle_val=True)\r\n print(\"# Finished Loading training Data #\")\r\n print(\"######################################################\")\r\n '''## No augmentation for validation and test data ##'''\r\n gen_img_valid = ImageDataGenerator(preprocessing_function=preprocess,\r\n rescale=1.0 / 255)\r\n # Validation data set build\r\n print(\"Loading Validation Data ............\")\r\n ds_val = _build_dataset(df_valid, dir_train_images, gen_img_valid,\r\n class_mode='binary', subset_name=None, shuffle_val=False)\r\n print(\"# Finished Loading Validation Data #\")\r\n\r\n print(\"######################################################\")\r\n ''' Testing dataset building '''\r\n gen_img_test = ImageDataGenerator(preprocessing_function=preprocess, rescale=1.0 / 255)\r\n\r\n ds_test = _build_dataset(df_names_labels_test, dir_test_images, gen_img_test,\r\n class_mode='binary', subset_name=None, shuffle_val=False)\r\n\r\n # Display a sample image along with label from training data set\r\n _show_sample_from_ds_data(ds_train, \"Train\")\r\n _show_sample_from_ds_data(ds_val, \"Validation\")\r\n _show_sample_from_ds_data(ds_test, \"Test\")\r\n\r\n ''' Uncomment below to print tensor dimensions and data type '''\r\n # ds_train.element_spec\r\n\r\n ''' Prepare function for preparing the dataset for performance(batching, prefetching) '''\r\n\r\n return prepare_for_performance(ds_train, ds_val, ds_test)\r\n else:\r\n return ValueError\r\n\r\n\r\[email protected]\r\ndef path2dir(dataset_directory, images_train, images_test, csv_train_labels, csv_test_labels):\r\n \"\"\"\r\n Purpose: To return all paths to directories that are to be used while loading a dataset\r\n\r\n Args:\r\n dataset_directory: path to directory od Dataset\r\n images_train: path to training images directory from Dataset directory\r\n images_test: path to testing images directory from Dataset directory\r\n csv_train_labels: path to train.csv directory from Dataset directory\r\n csv_test_labels: path to test.csv directory from Dataset directory\r\n\r\n Returns: directory paths of training images,testing images,\r\n training labels (in csv), testing labels (in csv).\r\n\r\n \"\"\"\r\n path_train_images = dataset_directory + images_train\r\n path_test_images = dataset_directory + images_test\r\n path_train_csv = dataset_directory + csv_train_labels\r\n path_test_csv = dataset_directory + csv_test_labels\r\n return path_train_images, path_test_images, path_train_csv, path_test_csv\r\n\r\n\r\ndef show_sample_image(files_dir):\r\n \"\"\"\r\n Purpose: Displays an images randomly from a directory of images\r\n Args:\r\n files_dir: Path to the directory where the images are located.\r\n \"\"\"\r\n list_train_files = glob.glob(files_dir + '/.jpg')\r\n filename = list_train_files[random.randint(0, len(list_train_files))]\r\n img = plt.imread(filename)\r\n plt.imshow(img)\r\n plt.show()\r\n pass\r\n\r\n\r\ndef load_from_csv(file_dir, cols_used):\r\n \"\"\"\r\n Purpose: To load csv files into a pandas dataframe,\r\n and replace labels if multiclass classifications is not preferred\r\n\r\n Args:\r\n file_dir: path where csv is located\r\n cols_used: columns to be considered while reading a csv to a pandas dataframe\r\n\r\n Returns: pandas data frame with mentioned columns in cols_used\r\n\r\n \"\"\"\r\n\r\n # Load csv file into a pandas dataframe\r\n data_frame_from_csv = pd.read_csv(file_dir, usecols=cols_used, dtype=str)\r\n\r\n '''Code for assigning classes 0,1,2 to 0(Non proliferative) and 1(proliferative) '''\r\n '''comment the below code if you want to do multi class classification'''\r\n # Replacing dataframe columns with\r\n data_frame_from_csv.loc[(data_frame_from_csv[data_frame_from_csv.columns[1]] == '0') \|\r\n (data_frame_from_csv[data_frame_from_csv.columns[1]] == '1'),\r\n data_frame_from_csv.columns[1]] = '0'\r\n\r\n data_frame_from_csv.loc[(data_frame_from_csv[data_frame_from_csv.columns[1]] == '2') \|\r\n (data_frame_from_csv[data_frame_from_csv.columns[1]] == '3') \|\r\n (data_frame_from_csv[data_frame_from_csv.columns[1]] == '4'),\r\n data_frame_from_csv.columns[1]] = '1'\r\n\r\n return data_frame_from_csv\r\n\r\n\r\ndef _append_file_format_extension2name(df_names_labels):\r\n \"\"\"\r\n Purpose: append file extenstion to the image name column in pandas dataframe\r\n\r\n Args:\r\n df_names_labels: pandas dataframe that contains Image names and corresponding labels\r\n\r\n Returns:\r\n\r\n \"\"\"\r\n\r\n def _append_ext(fn):\r\n return fn + \".jpg\"\r\n\r\n df_names_labels[\"Image name\"] = df_names_labels[\"Image name\"].apply(_append_ext)\r\n\r\n return df_names_labels\r\n\r\n\r\ndef _show_sample_from_df_iter(df_iter_test_data):\r\n \"\"\"\r\n Purpose: To display sample image from data frame iterator(Its a method of ImageDataGenerator object),\r\n to check fetched image\r\n Args:\r\n df_iter_test_data: A dataframe iterator which is returned from .flow_from_dataframe method\r\n \"\"\"\r\n # df_iter_test_data.next() returns a tuple of( batch of images, batch of labels)\r\n t_sample_image, t_sample_label = df_iter_test_data.next()\r\n\r\n # convert one numpy nd array from the fetched batch to a integer array for displaying image\r\n '''If images are not rescaled uncomment the below line'''\r\n # plt.imshow(t_sample_image[0].astype('uint8'))\r\n '''If images are rescaled uncomment the below line'''\r\n plt.imshow(t_sample_image[0])\r\n\r\n # getting integer image label from one hot encoded label\r\n image_label = (np.where(t_sample_label[0] == 1))[0].tolist()[0]\r\n # plot image with integer label\r\n plt.title(\"Class of the Image is %d\" % image_label)\r\n plt.show()\r\n\r\n\r\ndef _show_sample_from_ds_data(tf_ds, dataset_name):\r\n \"\"\"\r\n Purpose : To display images in a grid of 9x9, from tensor flow dataset(returned using a tf.data.Dataset.from_generator()),\r\n to check fetched image from a sample batch(batch size should be grater than 9)\r\n Args:\r\n tf_ds:\r\n \"\"\"\r\n plt.figure(figsize=(10, 10))\r\n plt.suptitle(\"Samples from augmented %s dataset\" % dataset_name)\r\n for images, labels in tf_ds.take(1):\r\n\r\n for i in range(9):\r\n ax = plt.subplot(3, 3, i + 1)\r\n\r\n '''If images are not rescaled uncomment the below code'''\r\n # plt.imshow(images[i].numpy().astype(\"uint8\"))\r\n\r\n '''If images are rescaled uncomment the below line'''\r\n plt.imshow(images[i])\r\n\r\n '''Uncomment below line for one hot coded labels'''\r\n plt.title(\"Class of image: %d \" % labels[i])\r\n\r\n '''Uncomment below line for one hot coded labels'''\r\n # plt.title(\"Class of image: %d \" % ((np.where(labels[i] == 1))[0].tolist()[0]))\r\n plt.axis(\"off\")\r\n plt.show()\r\n\r\n\r\[email protected]\r\ndef _build_dataset(df_pandas_dataframe, directory_of_images,\r\n image_generator, class_mode, subset_name, img_height, img_width, shuffle_val):\r\n \"\"\"\r\n Purpose: To create a tensorflow data set from_generator using\r\n ImageDataGenerator(using the method flow_from_dataframe)\r\n\r\n Args:\r\n df_pandas_dataframe: pandas dataframe containing Image file names and\r\n their respective labels in corresponding columns\r\n\r\n directory_of_images: path to where images of dataset to be built are located\r\n image_generator: ImageDataGenerator instance of keras\r\n class_mode: For multiclass mention categorical,\r\n for other options check https://keras.io/api/preprocessing/image/#flowfromdataframe-method\r\n subset_name: if validation split is mentioned for the respective ImageDataGenerator , then mention\r\n subset name to be 'training' or 'validation'\r\n\r\n Returns:\r\n\r\n \"\"\"\r\n\r\n dataframe_iterator = image_generator.flow_from_dataframe(df_pandas_dataframe,\r\n directory=directory_of_images,\r\n x_col=df_pandas_dataframe.columns[0],\r\n y_col=df_pandas_dataframe.columns[1],\r\n subset=subset_name,\r\n seed=50,\r\n target_size=(img_height, img_width),\r\n batch_size=constants.N_BATCH_SIZE,\r\n class_mode=class_mode, shuffle=shuffle_val)\r\n\r\n # uncomment the following code to visualize the sample image after the generator\r\n # _show_sample_from_df_iter(dataframe_iterator)\r\n\r\n # fetches a batch(batch size = constants.N_BATCH_SIZE) of images and labels\r\n images, labels = iter(dataframe_iterator.next())\r\n print(images.shape, labels.shape)\r\n\r\n ds_data = tf.data.Dataset.from_generator(lambda: dataframe_iterator,\r\n output_types=(tf.float32, tf.uint8),\r\n output_shapes=([None, images.shape[1], images.shape[2], 3], [None, ]))\r\n # (images.shape, labels.shape))\r\n\r\n return ds_data\r\n\r\n\r\[email protected]\r\ndef prepare_for_performance(ds_train, ds_val, ds_test, caching):\r\n \"\"\"\r\n Purpose: To well shuffle and batch the data,\r\n then to prefetch the batch to be available to model as an input\r\n\r\n Args:\r\n caching:\r\n ds_test: test data set\r\n ds_val: validation data set(percentage of split from training data, mentioned in \"constants.py\")\r\n ds_train: training data set\r\n\r\n Returns: shuffled,batched, and prefetched\r\n\r\n \"\"\"\r\n\r\n '''Prepare training dataset'''\r\n # ds_train = ds_train.map(crop2bb, num_parallel_calls=tf.data.experimental.AUTOTUNE)\r\n\r\n # cache will have a complete list of the elements in the dataset, and it will be used on all subsequent iterations\r\n if caching:\r\n ds_train = ds_train.cache()\r\n # shuffle and repeat\r\n # ds_train = ds_train.shuffle(constants.N_SHUFFLE_BUFFER)\r\n\r\n ds_train = ds_train.repeat(-1)\r\n\r\n # prefetch data\r\n ds_train = ds_train.prefetch(AUTOTUNE)\r\n\r\n '''Prepare validation dataset'''\r\n # cache will have a complete list of the elements in the dataset, and it will be used on all subsequent iterations\r\n if caching:\r\n ds_val = ds_val.cache()\r\n # Shuffling not needed for validation and testing data\r\n ds_val = ds_val.prefetch(AUTOTUNE)\r\n\r\n '''Prepare test dataset'''\r\n\r\n if caching:\r\n ds_test = ds_test.cache()\r\n ds_test = ds_test.prefetch(AUTOTUNE)\r\n\r\n return ds_train, ds_val, ds_test\r\n" }, { "alpha_fraction": 0.6637771129608154, "alphanum_fraction": 0.676160991191864, "avg_line_length": 31.64583396911621, "blob_id": "0c5490cb2a9c5920a00a05c8c78a2e6fa8cf12d7", "content_id": "a388de035d5a5da9d45dff2b441a1e0b5f308511", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1615, "license_type": "no_license", "max_line_length": 94, "num_lines": 48, "path": "/input_pipeline/preprocessing.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "import gin\r\nimport tensorflow as tf\r\nimport pandas as pd\r\n\r\[email protected]\r\ndef preprocess(image):\r\n\r\n \"\"\"\r\n PURPOSE: Dataset preprocessing: cropping and resizing\r\n\r\n Args:\r\n image: image to be preprocessed\r\n \"\"\"\r\n image_cbb = tf.image.crop_to_bounding_box(image, 0, 15, 256, 209)\r\n image_resized = tf.image.resize(image_cbb, (256, 256))\r\n\r\n return image_resized\r\n\r\n\r\ndef resampling(df_imbalanced, frac=1):\r\n \"\"\"\r\n\r\n Args:\r\n df_imbalanced: imbalanced data frame of paths and labels\r\n frac: frac argument in dataframe.sample(method)\r\n\r\n Returns: Resampled Dataframe\r\n\r\n \"\"\"\r\n df_imbalanced = df_imbalanced.astype({'Retinopathy grade': int})\r\n df_minority = df_imbalanced[df_imbalanced['Retinopathy grade'] == 0]\r\n df_majority = df_imbalanced[df_imbalanced['Retinopathy grade'] == 1]\r\n # Calculate the imbalance of data, minority class frequency- majority class frequency\r\n difference = len(df_majority) - len(df_minority)\r\n # print(difference)\r\n df_sampled_from_minority = df_minority.sample(n=difference)\r\n # print(train_df_new_0.head())\r\n\r\n # concatenate the minority class, majority class and newly sampled class from minority\r\n df_balanced_data = pd.concat([df_minority, df_majority, df_sampled_from_minority], axis=0)\r\n # print(len(train_df))\r\n\r\n # shuffle the resampled data\r\n df_balanced_data = df_balanced_data.sample(frac=frac)\r\n # convert the labels to strings to be accepted by flow from dataframe\r\n df_balanced_data = df_balanced_data.astype({'Retinopathy grade': str})\r\n\r\n return df_balanced_data\r\n" }, { "alpha_fraction": 0.49362727999687195, "alphanum_fraction": 0.6696521043777466, "avg_line_length": 16.97385597229004, "blob_id": "35eb4f07969772fbe44d4b0ec45ad924fe61c99f", "content_id": "68bd5addca33fea16448342d4961fed1fe010663", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 2903, "license_type": "no_license", "max_line_length": 36, "num_lines": 153, "path": "/requirements.txt", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "absl-py==0.11.0\r\naiohttp==3.7.3\r\naiohttp-cors==0.7.0\r\naioredis==1.3.1\r\nargon2-cffi==20.1.0\r\nastunparse==1.6.3\r\nasync-generator==1.10\r\nasync-timeout==3.0.1\r\nattrs==20.3.0\r\nbackcall==0.2.0\r\nbeautifulsoup4==4.9.3\r\nbleach==3.2.1\r\nblessings==1.7\r\ncachetools==4.1.1\r\ncertifi==2020.11.8\r\ncffi==1.14.4\r\nchardet==3.0.4\r\nclick==7.1.2\r\ncolorama==0.4.4\r\ncolorful==0.5.4\r\ncycler==0.10.0\r\ndecorator==4.4.2\r\ndefusedxml==0.6.0\r\ndill==0.3.3\r\ndm-tree==0.1.5\r\nentrypoints==0.3\r\nfilelock==3.0.12\r\nfuture==0.18.2\r\ngast==0.3.3\r\ngin==0.1.6\r\ngin-config==0.3.0\r\ngoogle==3.0.0\r\ngoogle-api-core==1.23.0\r\ngoogle-auth==1.23.0\r\ngoogle-auth-oauthlib==0.4.2\r\ngoogle-pasta==0.2.0\r\ngoogleapis-common-protos==1.52.0\r\ngpustat==0.6.0\r\ngrpcio==1.33.2\r\ngviz-api==1.9.0\r\nh5py==2.10.0\r\nhiredis==1.1.0\r\nidna==2.10\r\nimageio==2.9.0\r\nimbalanced-learn==0.7.0\r\nimgaug==0.4.0\r\nimportlib-resources==3.3.0\r\nipykernel==5.3.4\r\nipython==7.19.0\r\nipython-genutils==0.2.0\r\nipywidgets==7.5.1\r\njedi==0.17.2\r\nJinja2==2.11.2\r\njoblib==0.17.0\r\njsonschema==3.2.0\r\njupyter==1.0.0\r\njupyter-client==6.1.7\r\njupyter-console==6.2.0\r\njupyter-core==4.7.0\r\njupyterlab-pygments==0.1.2\r\nKeras==2.4.3\r\nKeras-Preprocessing==1.1.2\r\nkiwisolver==1.3.1\r\nMarkdown==3.3.3\r\nMarkupSafe==1.1.1\r\nmatplotlib==3.3.3\r\nmistune==0.8.4\r\nmsgpack==1.0.1\r\nmultidict==5.1.0\r\nnbclient==0.5.1\r\nnbconvert==6.0.7\r\nnbformat==5.0.8\r\nnest-asyncio==1.4.3\r\nnetworkx==2.5\r\nnotebook==6.1.5\r\nnumpy==1.18.5\r\nnvidia-ml-py3==7.352.0\r\noauthlib==3.1.0\r\nopencensus==0.7.11\r\nopencensus-context==0.1.2\r\nopencv-python==4.4.0.46\r\nopt-einsum==3.3.0\r\npackaging==20.7\r\npandas==1.1.4\r\npandocfilters==1.4.3\r\nparso==0.7.1\r\npathlib==1.0.1\r\npickleshare==0.7.5\r\nPillow==8.0.1\r\nprometheus-client==0.9.0\r\npromise==2.3\r\nprompt-toolkit==3.0.8\r\nprotobuf==3.14.0\r\npsutil==5.7.3\r\npy-spy==0.3.3\r\npyasn1==0.4.8\r\npyasn1-modules==0.2.8\r\npycparser==2.20\r\nPygments==2.7.3\r\npyparsing==2.4.7\r\npyrsistent==0.17.3\r\npython-dateutil==2.8.1\r\npytz==2020.4\r\nPyWavelets==1.1.1\r\npywin32==300\r\npywinpty==0.5.7\r\nPyYAML==5.3.1\r\npyzmq==20.0.0\r\nqtconsole==5.0.1\r\nQtPy==1.9.0\r\nray==1.0.1.post1\r\nredis==3.4.1\r\nrequests==2.25.0\r\nrequests-oauthlib==1.3.0\r\nrsa==4.6\r\nscikit-image==0.17.2\r\nscikit-learn==0.23.2\r\nscipy==1.5.4\r\nseaborn==0.11.0\r\nSend2Trash==1.5.0\r\nShapely==1.7.1\r\nsix==1.15.0\r\nsoupsieve==2.1\r\ntabulate==0.8.7\r\ntensorboard==2.4.0\r\ntensorboard-plugin-profile==2.4.0\r\ntensorboard-plugin-wit==1.7.0\r\ntensorflow==2.3.1\r\ntensorflow-addons==0.11.2\r\ntensorflow-datasets==4.1.0\r\ntensorflow-estimator==2.3.0\r\ntensorflow-gpu==2.3.1\r\ntensorflow-gpu-estimator==2.3.0\r\ntensorflow-metadata==0.25.0\r\ntensorflow-model-optimization==0.5.0\r\ntermcolor==1.1.0\r\nterminado==0.9.1\r\ntestpath==0.4.4\r\nthreadpoolctl==2.1.0\r\ntifffile==2020.12.4\r\ntornado==6.1\r\ntqdm==4.52.0\r\ntrain==0.0.5\r\ntraitlets==5.0.5\r\ntypeguard==2.10.0\r\ntyping-extensions==3.7.4.3\r\nurllib3==1.26.2\r\nwcwidth==0.2.5\r\nwebencodings==0.5.1\r\nWerkzeug==1.0.1\r\nwidgetsnbextension==3.5.1\r\nwrapt==1.12.1\r\nyarl==1.6.3\r\n" }, { "alpha_fraction": 0.6734362244606018, "alphanum_fraction": 0.6783103346824646, "avg_line_length": 36.33333206176758, "blob_id": "60913cd676eecbac69d3bca55b724157dd7ce4a4", "content_id": "4051cdfa7889eca1a9f5f41b8b27fcbf47847a14", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1231, "license_type": "no_license", "max_line_length": 89, "num_lines": 33, "path": "/models/architectures.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "import gin\nimport tensorflow as tf\n\nfrom models.layers import vgg_block\n\[email protected]\ndef vgg_like(input_shape, n_classes, base_filters, n_blocks, dense_units, dropout_rate):\n \"\"\"Defines a VGG-like architecture.\n\n Parameters:\n input_shape (tuple: 3): input shape of the neural network\n n_classes (int): number of classes, corresponding to the number of output neurons\n base_filters (int): number of base filters, which are doubled for every VGG block\n n_blocks (int): number of VGG blocks\n dense_units (int): number of dense units\n dropout_rate (float): dropout rate\n\n Returns:\n (keras.Model): keras model object\n \"\"\"\n\n assert n_blocks > 0, 'Number of blocks has to be at least 1.'\n\n inputs = tf.keras.Input(input_shape)\n out = vgg_block(inputs, base_filters)\n for i in range(2, n_blocks):\n out = vgg_block(out, base_filters 2 ** (i))\n out = tf.keras.layers.GlobalAveragePooling2D()(out)\n out = tf.keras.layers.Dense(dense_units, activation=tf.nn.relu)(out)\n out = tf.keras.layers.Dropout(dropout_rate)(out)\n outputs = tf.keras.layers.Dense(n_classes)(out)\n\n return tf.keras.Model(inputs=inputs, outputs=outputs, name='vgg_like')" }, { "alpha_fraction": 0.639905571937561, "alphanum_fraction": 0.6511216163635254, "avg_line_length": 31.215686798095703, "blob_id": "2818f6cd1cc183c5efefc4c966e4d5b52aebec2b", "content_id": "03181944ec67b3b7586f5c3fdd943f14920b8122", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1694, "license_type": "no_license", "max_line_length": 126, "num_lines": 51, "path": "/tune.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "import logging\r\nimport gin\r\nfrom ray import tune\r\n\r\nfrom input_pipeline.datasets import load\r\nfrom models.architectures import vgg_like\r\nfrom train import Trainer\r\nfrom utils import utils_params, utils_misc\r\n\r\n\r\ndef train_func(config):\r\n # Hyperparameters\r\n bindings = []\r\n for key, value in config.items():\r\n bindings.append(f'{key}={value}')\r\n\r\n # generate folder structures\r\n run_paths = utils_params.gen_run_folder(','.join(bindings))\r\n\r\n # set loggers\r\n utils_misc.set_loggers(run_paths['path_logs_train'], logging.INFO)\r\n\r\n # gin-config\r\n gin.parse_config_files_and_bindings(['/mnt/home/repos/dl-lab-skeleton/diabetic_retinopathy/configs/config.gin'], bindings)\r\n utils_params.save_config(run_paths['path_gin'], gin.config_str())\r\n\r\n # setup pipeline\r\n ds_train, ds_val, ds_test, ds_info = load()\r\n\r\n # model\r\n model = vgg_like(input_shape=ds_info.features[\"image\"].shape, n_classes=ds_info.features[\"label\"].num_classes)\r\n\r\n trainer = Trainer(model, ds_train, ds_val, ds_info, run_paths)\r\n for val_accuracy in trainer.train():\r\n tune.report(val_accuracy=val_accuracy)\r\n\r\n\r\nanalysis = tune.run(\r\n train_func, num_samples=2, resources_per_trial={'gpu': 1, 'cpu': 4},\r\n config={\r\n \"Trainer.total_steps\": tune.grid_search([1e4]),\r\n \"vgg_like.base_filters\": tune.choice([8, 16]),\r\n \"vgg_like.n_blocks\": tune.choice([2, 3, 4, 5]),\r\n \"vgg_like.dense_units\": tune.choice([32, 64]),\r\n \"vgg_like.dropout_rate\": tune.uniform(0, 0.9),\r\n })\r\n\r\nprint(\"Best config: \", analysis.get_best_config(metric=\"val_accuracy\"))\r\n\r\n# Get a dataframe for analyzing trial results.\r\ndf = analysis.dataframe()\r\n" }, { "alpha_fraction": 0.5503302216529846, "alphanum_fraction": 0.5529722571372986, "avg_line_length": 37.0206184387207, "blob_id": "256e752330344e4465c0270ed8bc18c1cb27ad8d", "content_id": "e04852971b47a5a5fc12c3c30bae12547a201fbe", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3785, "license_type": "no_license", "max_line_length": 110, "num_lines": 97, "path": "/train.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "import gin\r\nimport tensorflow as tf\r\nimport logging\r\n\r\[email protected]\r\nclass Trainer(object):\r\n def __init__(self, model, ds_train, ds_val, ds_info, run_paths, total_steps, log_interval, ckpt_interval):\r\n # Summary Writer\r\n # ....\r\n\r\n # Checkpoint Manager\r\n # ...\r\n\r\n # Loss objective\r\n self.loss_object = tf.keras.losses.SparseCategoricalCrossentropy(from_logits=True)\r\n self.optimizer = tf.keras.optimizers.Adam()\r\n\r\n # Metrics\r\n self.train_loss = tf.keras.metrics.Mean(name='train_loss')\r\n self.train_accuracy = tf.keras.metrics.SparseCategoricalAccuracy(name='train_accuracy')\r\n\r\n self.test_loss = tf.keras.metrics.Mean(name='test_loss')\r\n self.test_accuracy = tf.keras.metrics.SparseCategoricalAccuracy(name='test_accuracy')\r\n\r\n self.model = model\r\n self.ds_train = ds_train\r\n self.ds_val = ds_val\r\n self.ds_info = ds_info\r\n self.run_paths = run_paths\r\n self.total_steps = total_steps\r\n self.log_interval = log_interval\r\n self.ckpt_interval = ckpt_interval\r\n\r\n @tf.function\r\n def train_step(self, images, labels):\r\n with tf.GradientTape() as tape:\r\n # training=True is only needed if there are layers with different\r\n # behavior during training versus inference (e.g. Dropout).\r\n predictions = self.model(images, training=True)\r\n loss = self.loss_object(labels, predictions)\r\n gradients = tape.gradient(loss, self.model.trainable_variables)\r\n self.optimizer.apply_gradients(zip(gradients, self.model.trainable_variables))\r\n\r\n self.train_loss(loss)\r\n self.train_accuracy(labels, predictions)\r\n\r\n @tf.function\r\n def test_step(self, images, labels):\r\n # training=False is only needed if there are layers with different\r\n # behavior during training versus inference (e.g. Dropout).\r\n predictions = self.model(images, training=False)\r\n t_loss = self.loss_object(labels, predictions)\r\n\r\n self.test_loss(t_loss)\r\n self.test_accuracy(labels, predictions)\r\n\r\n def train(self):\r\n for idx, (images, labels) in enumerate(self.ds_train):\r\n\r\n step = idx + 1\r\n self.train_step(images, labels)\r\n\r\n if step % self.log_interval == 0:\r\n\r\n # Reset test metrics\r\n self.test_loss.reset_states()\r\n self.test_accuracy.reset_states()\r\n\r\n for test_images, test_labels in self.ds_val:\r\n self.test_step(test_images, test_labels)\r\n\r\n template = 'Step {}, Loss: {}, Accuracy: {}, Test Loss: {}, Test Accuracy: {}'\r\n logging.info(template.format(step,\r\n self.train_loss.result(),\r\n self.train_accuracy.result() * 100,\r\n self.test_loss.result(),\r\n self.test_accuracy.result() * 100))\r\n\r\n # Reset train metrics\r\n self.train_loss.reset_states()\r\n self.train_accuracy.reset_states()\r\n\r\n # Write summary to tensorboard\r\n # ...\r\n\r\n yield self.test_accuracy.result().numpy()\r\n\r\n if step % self.ckpt_interval == 0:\r\n logging.info(f'Saving checkpoint to {self.run_paths[\"path_ckpts_train\"]}.')\r\n # Save checkpoint\r\n # ...\r\n\r\n if step % self.total_steps == 0:\r\n logging.info(f'Finished training after {step} steps.')\r\n # Save final checkpoint\r\n # ...\r\n return self.test_accuracy.result().numpy()\r\n" }, { "alpha_fraction": 0.5559006333351135, "alphanum_fraction": 0.5559006333351135, "avg_line_length": 22.769229888916016, "blob_id": "d0f6bcc959b16f90342be54cbeac95b15652f5d2", "content_id": "79814bbc8c717d6ed099f58a4eea17042b28ad7c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 322, "license_type": "no_license", "max_line_length": 66, "num_lines": 13, "path": "/evaluation/metrics.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "import tensorflow as tf\r\n\r\nclass ConfusionMatrix(tf.keras.metrics.Metric):\r\n\r\n def __init(self, name=\"confusion_matrix\", kwargs):\r\n super(ConfusionMatrix, self).__init__(name=name, kwargs)\r\n # ...\r\n\r\n def update_state(self, args, kwargs):\r\n # ...\r\n\r\n def result(self):\r\n # ...\r\n" }, { "alpha_fraction": 0.5570376515388489, "alphanum_fraction": 0.5720840692520142, "avg_line_length": 46.30412292480469, "blob_id": "d6880caa63c3b70146227be5257ffe9988749cbb", "content_id": "f3bab6b32fda17262513bbc69834cf00994d8b23", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 9371, "license_type": "no_license", "max_line_length": 117, "num_lines": 194, "path": "/hyper_parameter_tuning/hparam_tuning.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "from tensorboard.plugins.hparams import api as hp\r\nimport constants\r\nimport tensorflow as tf\r\nfrom input_pipeline import datasets2\r\nimport datetime\r\nimport numpy as np\r\nfrom sklearn.metrics import classification_report, confusion_matrix\r\nimport seaborn as sns\r\nimport pandas as pd\r\nfrom matplotlib import pyplot as plt\r\n\r\n# uncomment below to tune on further parameters\r\n'''\r\nHP_CNN_DROPOUT = hp.HParam(\"fcn_dropout\",display_name=\"CONV2D NW dropout\",\r\n description=\"Dropout rate for conv subnet.\",\r\n hp.RealInterval(0.1, 0.2))\r\n\r\n HP_FC_DROPOUT = hp.HParam(\"fc_dropout\",display_name=\"f.c. dropout\",\r\n description=\"Dropout rate for fully connected subnet.\",\r\n hp.RealInterval(0.2, 0.5))\r\n'''\r\nHP_EPOCHS = hp.HParam(\"epochs\", hp.Discrete([100, 140]),\r\n description=\"Number of epoch to run\")\r\nHP_NEURONS = hp.HParam(\"num_Dense_layer_neurons\", hp.Discrete([128, 256]),\r\n description=\"Neurons per dense layer\")\r\nHP_STRIDE = hp.HParam(\"stride_in_first_layer\", hp.Discrete([2, 1]),\r\n description=\"Value of stride in frist convolutional layer\")\r\nHP_L_RATE = hp.HParam(\"learning_rate\", hp.Discrete([0.0001, 0.00001]),\r\n description=\"Learning rate\")\r\n\r\nHP_METRIC = hp.Metric(constants.METRICS_ACCURACY, display_name='Accuracy')\r\n\r\n# creating logs for different hyper-parameters\r\nwith tf.summary.create_file_writer('hp_log_dir/hparam_tuning').as_default():\r\n hp.hparams_config(\r\n hparams=[HP_NEURONS, HP_EPOCHS, HP_L_RATE, HP_STRIDE],\r\n metrics=[HP_METRIC],\r\n )\r\n\r\n\r\ndef run(run_dir, run_name, hparams, gen_train, gen_valid, gen_test):\r\n with tf.summary.create_file_writer(run_dir).as_default():\r\n hp.hparams(hparams) # record the values used in this trial\r\n accuracy = train_test_model(gen_train, gen_valid, gen_test, hparams, run_name)\r\n tf.summary.scalar(constants.METRICS_ACCURACY, accuracy, step=1)\r\n\r\n\r\n###\r\ndef train_test_model(gen_train, gen_valid, gen_test, hparams, run_name):\r\n inputs = tf.keras.layers.Input(constants.ip_shape)\r\n\r\n out = tf.keras.layers.Conv2D(8, 3, hparams[HP_STRIDE], padding='same', activation=tf.nn.relu)(inputs)\r\n out = tf.keras.layers.BatchNormalization()(out)\r\n out = tf.keras.layers.MaxPool2D((3, 3))(out)\r\n\r\n out = tf.keras.layers.Conv2D(16, 3, padding='same', activation=tf.nn.relu)(out)\r\n out = tf.keras.layers.BatchNormalization()(out)\r\n out = tf.keras.layers.MaxPool2D((2, 2))(out)\r\n\r\n out = tf.keras.layers.Conv2D(32, 3, padding='same', activation=tf.nn.relu)(out)\r\n out = tf.keras.layers.BatchNormalization()(out)\r\n out = tf.keras.layers.MaxPool2D((2, 2))(out)\r\n\r\n out = tf.keras.layers.Conv2D(128, 3, padding='same', activation=tf.nn.relu)(out)\r\n out = tf.keras.layers.BatchNormalization()(out)\r\n out = tf.keras.layers.MaxPool2D((2, 2))(out)\r\n\r\n out = tf.keras.layers.Dropout(0.3)(out)\r\n out = tf.keras.layers.Flatten()(out)\r\n\r\n l2_reg = tf.keras.regularizers.l2(0.001)\r\n # l1_l2_reg = tf.keras.regularizers.L1L2(l1=0.001,l2=0.001)\r\n # tried 512 without following dropout of 0.3\r\n out = tf.keras.layers.Dense(hparams[HP_NEURONS], activation='linear',\r\n kernel_regularizer=l2_reg)(out)\r\n out = tf.keras.activations.relu(out)\r\n out = tf.keras.layers.Dropout(0.5)(out)\r\n # out = tf.keras.layers.Dense(32, activation=tf.nn.relu)(out)\r\n final_out = tf.keras.layers.Dense(2, activation=tf.nn.softmax)(out)\r\n\r\n hp_model = tf.keras.Model(inputs=inputs, outputs=final_out, name=\"HP_tuning_DR_model\")\r\n\r\n opt = tf.optimizers.Adam(hparams[HP_L_RATE], name='ADAM')\r\n\r\n hp_model.build((constants.N_BATCH_SIZE, constants.ip_shape))\r\n\r\n hp_model.compile(optimizer=opt,\r\n loss=tf.keras.losses.sparse_categorical_crossentropy,\r\n metrics=constants.METRICS_ACCURACY)\r\n print(hp_model.summary())\r\n hp_model.fit(gen_train, batch_size=constants.N_BATCH_SIZE,\r\n epochs=hparams[HP_EPOCHS], verbose=1,\r\n steps_per_epoch=((constants.N_TRAIN_SIZE_POST_AUG // constants.N_BATCH_SIZE) + 1),\r\n validation_data=gen_valid,\r\n validation_steps=(constants.N_VALID_SIZE_POST_AUG // constants.N_BATCH_SIZE) + 1,\r\n callbacks=call_backs(hparams, run_name))\r\n\r\n loss, accuracy = hp_model.evaluate(gen_test, batch_size=constants.N_BATCH_SIZE,\r\n verbose=1,\r\n steps=(constants.N_TESTING_SET_COUNT // constants.N_BATCH_SIZE + 1),\r\n )\r\n save_test_results(gen_test, hp_model, run_name)\r\n\r\n return accuracy\r\n\r\n\r\ndef call_backs(hparams, run_name):\r\n # tensorboard call back\r\n log_dir = './hp_log_dir/fit/' + datetime.datetime.now().strftime(\"%Y%m%d-%H%M%S\") + \"_\" + run_name\r\n tensorboard_callbk = tf.keras.callbacks.TensorBoard(log_dir=log_dir, histogram_freq=1,\r\n write_graph=True,\r\n write_images=True,\r\n update_freq='epoch',\r\n profile_batch=2,\r\n embeddings_freq=1)\r\n\r\n # model checkpoint call back\r\n cpt_path = \"./hp_log_dir/cpts/\" + run_name + \"_\" + datetime.datetime.now().strftime(\"%Y%m%d-%H%M%S\") + \\\r\n \"epochs:{epoch:03d}-val_accuracy:{val_accuracy:.3f}.h5\"\r\n # cpt_path = \"./hp_log_dir/cpts/\" + run_name + \"_\" + \"cp-epochs:{epoch:03d}-val_accuracy:{val_accuracy:.3f}.ckpt\"\r\n # check point to save the model based on improving validation accuracy\r\n checkpoint_callbk = tf.keras.callbacks.ModelCheckpoint(cpt_path,\r\n monitor='val_accuracy',\r\n verbose=1,\r\n save_best_only=False,\r\n mode='max', save_weights_only=True,\r\n save_freq='epoch')\r\n # csv logger call back\r\n log_file_name = './hp_log_dir/csv_log/' + run_name + \"_\" + datetime.datetime.now().strftime(\"%Y%m%d-%H%M%S\")\r\n csv_callbk = tf.keras.callbacks.CSVLogger(log_file_name, separator=',', append=True)\r\n\r\n # keras callback for hzper param\r\n hp_log_dir = './hp_log_dir/hparam_tuning/' + run_name\r\n hp_callbk = hp.KerasCallback(hp_log_dir, hparams) # log hparams\r\n\r\n callbacks_list = [checkpoint_callbk, tensorboard_callbk, csv_callbk, hp_callbk]\r\n return callbacks_list\r\n\r\n\r\ndef run_hparam_tuning():\r\n session_num = 0\r\n # Get data from datasets.py or datasets2.py\r\n # gen_train, gen_valid, gen_test = datasets.load()\r\n gen_train, gen_valid, gen_test = datasets2.load_data()\r\n\r\n for num_Dense_layer_neurons in HP_NEURONS.domain.values:\r\n for epochs in HP_EPOCHS.domain.values:\r\n for learning_rate in HP_L_RATE.domain.values:\r\n for stride_in_first_layer in HP_STRIDE.domain.values:\r\n hparams = {\r\n HP_NEURONS: num_Dense_layer_neurons,\r\n HP_EPOCHS: epochs,\r\n HP_L_RATE: learning_rate,\r\n HP_STRIDE: stride_in_first_layer,\r\n }\r\n run_name = \"run-%d\" % session_num\r\n print('--- Starting trial: %s' % run_name)\r\n print({h.name: hparams[h] for h in hparams})\r\n run('hp_log_dir/hparam_tuning/' + run_name, run_name, hparams, gen_train, gen_valid, gen_test)\r\n session_num += 1\r\n\r\n\r\ndef save_test_results(gen_test, saved_model, run_name):\r\n true_labels = []\r\n for data, labels in (gen_test.take((constants.N_TESTING_SET_COUNT // constants.N_BATCH_SIZE) + 1)):\r\n true_labels.extend(labels.numpy().tolist())\r\n\r\n print(true_labels)\r\n # saved_model = tf.keras.models.load_model('20201215-190832SGD_100.h5')\r\n\r\n test_model = saved_model.evaluate(gen_test,\r\n batch_size=constants.N_BATCH_SIZE,\r\n verbose=1, steps=4)\r\n print(test_model)\r\n y_pred = saved_model.predict(gen_test,\r\n batch_size=constants.N_BATCH_SIZE,\r\n steps=(constants.N_TESTING_SET_COUNT // constants.N_BATCH_SIZE) + 1,\r\n verbose=1)\r\n\r\n y_pred = np.argmax(y_pred, axis=1)\r\n print(y_pred)\r\n print('Confusion Matrix')\r\n print(confusion_matrix(true_labels, y_pred))\r\n plt.figure()\r\n cm_plot = sns.heatmap(confusion_matrix(true_labels, y_pred), annot=True)\r\n\r\n cm_fig = cm_plot.get_figure()\r\n cm_fig.savefig(\"./hp_log_dir/results/%s_.png\" % run_name)\r\n print('Classification Report')\r\n target_names = ['NPDR', 'PDR']\r\n cr_data = classification_report(true_labels, y_pred, target_names=target_names, output_dict=True)\r\n print(cr_data)\r\n df_cr_data = pd.DataFrame(cr_data).transpose()\r\n df_cr_data.to_csv(\"./hp_log_dir/results/%s_.csv\" % run_name)\r\n" }, { "alpha_fraction": 0.6296588778495789, "alphanum_fraction": 0.6531015634536743, "avg_line_length": 41.119319915771484, "blob_id": "41e222ec22574d61d8caf97bf42cc1233d05d343", "content_id": "fed6ff0614bb573d7960badf8c8d54fab926ae98", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 7593, "license_type": "no_license", "max_line_length": 218, "num_lines": 176, "path": "/README.md", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "<h1 align=\"center\">\r\n\tDiabetic Retinopathy Classification Using DNN \r\n</h1>\r\n\r\n### Poster: [Diabetic Retinopathy Classification Using DNN](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/Poster_Diabetic_Retionopathy_.pdf)\r\n### For Running the code directly using [![Open In Colab](https://colab.research.google.com/assets/colab-badge.svg)](https://colab.research.google.com/drive/1Tnioi5B035QGOyrtyuihTkdxr1zWXGsA#scrollTo=mzZlrU-lswsG)\r\n\r\n1. [Input Pipeline](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/input_pipeline/datasets2.py#L88)- (Training set Images- 413, Test set Images-103)\r\n Image Resize (to 256256)\r\n Image crop (Box crop)\r\n * Image Normalization \r\n * Class balancing\r\n2. [Model Architecture](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/models/architecture.py#L22)\r\n3. [Training Routine](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/main.py#L100)\r\n4. Model CallBacks:\r\n * [Check point Callback](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/main.py#L84) - For saving model at desired interval(epoch frequency)\r\n * [Tensorboard Callback](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/main.py#L70) - For logging training stats,Profiling\r\n * [CSV Logger Callback](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/main.py#L95) - To save training logs in a csv file\r\n5. [Training from a check point](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/main.py#L104)\r\n * Initial epoch here is the point at which the training was interrupted\r\n6. [Evaluation](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/evaluation/eval.py#L35)\r\n * [Confusion Matrix]()\r\n * [Classification Report]()\r\n7. [Data Augmentation](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/input_pipeline/datasets2.py#L45)\r\n * Vertical Flip\r\n * Horizontal Flip\r\n * Box Crop\r\n * Rotate\r\n8. [Deep Visualization](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/visualization/deep_vis.py)\r\n * GradCAM\r\n9. [Hyper Parameter Tuning](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/hyper_parameter_tuning/hparam_tuning.py)\r\n * [Grid Search](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/hyper_parameter_tuning/hparam_tuning.py#L22) (Epochs, Number of dense neurons, stride, Learning rate)\r\n## Outputs from several stages of project\r\n* After Image processing and data augmentation:\r\n<p align=\"center\">\r\n <img src=\"https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/media/9x9_aug.png\" width=\"650\" height=\"650\"/>\r\n</p>\r\n<p align=\"center\">\r\n <em>Processed and Augmented Images</em>\r\n</p>\r\n\r\n* Model Architecture\r\n\t1. [Model](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/media/fullmodel_tl_82_acc.png) based on ResNET50v2 (Transfer \t\t\t\tlearning). \r\n\t2. Model based on Blocks of Conv+BatchNorm+Maxpool (Only 453K parameters)\r\n\t<p align=\"center\">\r\n\t <img src=\"https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/media/model_architecture.PNG\" height=\"200\"/>\r\n\t</p>\r\n\t<p align=\"center\">\r\n\t <em>Custom Architecture based on blocks of Conv+BatchNorm+Maxpool (ii)</em>\r\n\t</p>\r\n\r\n\r\n\t\r\n* Training Results\r\n\t* Model based on Blocks of Conv+BatchNorm+Maxpool\r\n\t<p align=\"center\">\r\n\t <img src=\"https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/media/custom_model_acc.svg\" height=\"200\"/>\r\n\t <img src=\"https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/media/TL_epoch_accuracy.svg\" height=\"200\"/>\r\n\t <img src=\"https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/media/legend.PNG\" />\r\n\t</p>\r\n\t<p align=\"center\">\r\n\t <em>Accuracy plot for Custom model (on left) and ResNET50v2 based model (on right) <b> [epochs vs accuracy] </b> </em>\r\n\t</p>\t\t \r\n\t\r\n* Results and Evaluation\r\n\t* #### Test accuracy - 77.8% (Custom Model), 81.55% (Finetuned on ResNET50v2)\r\n\t<p align=\"center\">\r\n\t <img src=\"https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/media/confusionmatrix.png\" width=\"580\" height=\"440\"/>\r\n\t</p>\r\n\t<p align=\"center\">\r\n\t <em><b>Confusion Matrix</b></em>\r\n\t</p> \r\n\t \r\n\t \r\n\t <table border=\"1\" class=\"Classification report\" align ='center'>\t\r\n\t <thead>\t \r\n\t <tr style=\"text-align: right;\">\r\n\t <th></th>\r\n\t <th>precision</th>\r\n\t <th>recall</th>\r\n\t <th>f1-score</th>\r\n\t <th>Support</th>\r\n\t </tr>\r\n\t </thead>\r\n\t <tbody>\r\n\t <tr>\r\n\t <th>NRDR</th>\r\n\t <td>0.73</td>\r\n\t <td>0.82</td>\r\n\t <td>0.77</td>\r\n\t <td>39</td>\r\n\t </tr>\r\n\t <tr>\r\n\t <th>RDR</th>\r\n\t <td>0.88</td>\r\n\t <td>0.81</td>\r\n\t <td>0.85</td>\r\n\t <td>64</td>\r\n\t </tr>\r\n\t <tr>\r\n\t <th></th>\r\n\t <td></td>\r\n\t <td></td>\r\n\t <td></td>\r\n\t <td></td>\r\n\t </tr>\t\t \r\n\t <tr>\r\n\t <th>accuracy</th>\r\n\t <td>0.82</td>\r\n\t <td>0.82</td>\r\n\t <td>0.82</td>\r\n\t <td>103</td>\r\n\t </tr>\r\n\t <tr>\r\n\t <th>macro avg</th>\r\n\t <td>0.80</td>\r\n\t <td>0.82</td>\r\n\t <td>0.81</td>\r\n\t <td>103</td>\r\n\t </tr>\r\n\t <tr>\r\n\t <th>weighted avg</th>\r\n\t <td>0.82</td>\r\n\t <td>0.82</td>\r\n\t <td>0.82</td>\r\n\t <td>103</td>\r\n\t </tr>\r\n\t </tbody>\r\n\t</table>\r\n\t<p align=\"center\">\r\n\t <em><b>Classification Report</b></em>\r\n\t</p>\t\r\n\t\r\n* Deep Visualization\r\n\r\n\t<p align=\"center\">\r\n\t <img src=\"https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/media/vis_without_axis.png\" height=\"200\"/>\r\n\t</p>\r\n\t<p align=\"center\">\r\n\t <em><b>Original Image, GradCAM output, Overlay</b></em>\r\n\t</p> \r\n* Hyperparameter optimization\r\n\r\n\t<p align=\"center\">\r\n\t <img src=\"https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/media/Capture.PNG\" width=\"580\" height=\"300\"/>\r\n\t</p>\r\n\t<p align=\"center\">\r\n\t <em><b>Original Image, GradCAM output, Overlay</b></em>\r\n\t</p> \r\n\t\r\n## Instructions to run the script:\r\n\r\nBefore running the script Install the [requirments](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/requirements.txt) from ```requirements.txt``` using ```pip install -r requirements.txt```\r\n\r\n* Make the following changes in main.py based on the Mode(training mode, hyper parameter tuning mode, finetuning mode, evaluation mode) you want you the script in\r\n\r\n\t1. To Train the model, change the train FLAG in ```main.py``` to ```True``` \r\n\t\t```flags.DEFINE_boolean('train', True, 'Specify whether to train or evaluate a model.')``` \r\n\t\t* To log the data , specify path to tensorboard callback, model chekpoint call back, CSVlogger call back in ```constants.py```\r\n\t\t\t```dir_all_logs = 'log_dir'``` \r\n\t\t\t```dir_fit = os.path.join(dir_all_logs, 'fit') ``` \r\n\t\t\t```dir_cpts = os.path.join(dir_all_logs, 'cpts') ``` \r\n\t\t\t```dir_csv = os.path.join(dir_all_logs, 'csv_log') ``` \r\n\t\t\t \t\t\r\n\t2. For performing hyperparamter Tuning \r\n\r\n\t\t```flags.DEFINE_boolean('hparam_tune', True, 'Specify if its hyper param tuning.')``` \r\n\r\n\t3. For Training the model based on ResNET50v2\r\n\r\n\t\t```flags.DEFINE_boolean('Transfer_learning', True, 'to use transfer learning based model, train flag must be set to true to fine tune pretrained model')```\t\r\n\r\n\t4. For Evaluating the pretrained model \r\n\t\t* Change the path of the pretrained model [here](https://github.com/sgaruda-sudo/Diabetic_Retinopathy/blob/master/main.py#L152) in ```main.py``` to desired path.\r\n\r\n\t\t```flags.DEFINE_boolean('train', False, 'Specify whether to train or evaluate a model.')```\r\n\r\n\r\n" }, { "alpha_fraction": 0.6096236109733582, "alphanum_fraction": 0.6395033001899719, "avg_line_length": 36.46268844604492, "blob_id": "4585c2fee0bec23a0d222000ce9ffaf03030e75b", "content_id": "ead5ebb59a9b9a3d46b54764837c7feb1a73036c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2577, "license_type": "no_license", "max_line_length": 109, "num_lines": 67, "path": "/models/architecture.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "import gin\r\nimport tensorflow as tf\r\n\r\n\r\ndef vgg_base_3custom(ip_shape):\r\n '''\r\n # loading base model\r\n base_model = VGG16(weights='imagenet', include_top=True, input_shape=ip_shape)\r\n # freeze_layers(base_model)\r\n base_model.summary()\r\n # model = Model(input=base_model.input, output=base_model.get_layer('fc1').output)\r\n\r\n # Freeze the layers except the last 4 layers\r\n for layer in base_model.layers[:-3]:\r\n layer.trainable = False\r\n # Check the trainable status of the individual layers\r\n for layer in base_model.layers:\r\n print(layer, layer.trainable)\r\n base_model.summary()\r\n '''\r\n\r\n # Create the model\r\n # model = models.Sequential()\r\n\r\n '''Testing random search param'''\r\n inputs = tf.keras.layers.Input(ip_shape)\r\n\r\n out = tf.keras.layers.Conv2D(8, 3, 2, padding='same', activation=tf.nn.relu)(inputs)\r\n out = tf.keras.layers.BatchNormalization()(out)\r\n out = tf.keras.layers.MaxPool2D((3, 3))(out)\r\n\r\n out = tf.keras.layers.Conv2D(16, 3, padding='same', activation=tf.nn.relu)(out)\r\n out = tf.keras.layers.BatchNormalization()(out)\r\n out = tf.keras.layers.MaxPool2D((2, 2))(out)\r\n\r\n ''' \r\n out = tf.keras.layers.Conv2D(32, kernel_size=3, strides=2, padding='same', activation=tf.nn.relu)(inputs)\r\n out = tf.keras.layers.BatchNormalization()(out)\r\n out = tf.keras.layers.MaxPool2D((2, 2))(out)\r\n out = tf.keras.layers.Dropout(0.25)(out)\r\n '''\r\n\r\n out = tf.keras.layers.Conv2D(32, 3, padding='same', activation=tf.nn.relu)(out)\r\n out = tf.keras.layers.BatchNormalization()(out)\r\n out = tf.keras.layers.MaxPool2D((2, 2))(out)\r\n\r\n out = tf.keras.layers.Conv2D(128, 3, padding='same', activation=tf.nn.relu)(out)\r\n out = tf.keras.layers.BatchNormalization()(out)\r\n out = tf.keras.layers.MaxPool2D((2, 2))(out)\r\n\r\n out = tf.keras.layers.Dropout(0.3)(out)\r\n out = tf.keras.layers.Flatten()(out)\r\n\r\n l2_reg = tf.keras.regularizers.l2(0.001)\r\n # l1_l2_reg = tf.keras.regularizers.L1L2(l1=0.001,l2=0.001)\r\n out = tf.keras.layers.Dense(128, activation='linear',\r\n kernel_regularizer=l2_reg)(out)\r\n out = tf.keras.activations.relu(out)\r\n out = tf.keras.layers.Dropout(0.5)(out)\r\n # out = tf.keras.layers.Dense(32, activation=tf.nn.relu)(out)\r\n out = tf.keras.layers.Dense(2, activation=tf.nn.softmax)(out)\r\n\r\n # Show a summary of the model. Check the number of trainable parameters\r\n # model.summary()\r\n\r\n model = tf.keras.Model(inputs=inputs, outputs=out, name='DBR_model')\r\n return model\r\n" }, { "alpha_fraction": 0.5931945443153381, "alphanum_fraction": 0.5964956879615784, "avg_line_length": 35.5047607421875, "blob_id": "47b148ab7ebd9451b810375a5672792d492607fb", "content_id": "510749d15f70204d3b4dbe36acf8575b6dfc8a87", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3938, "license_type": "no_license", "max_line_length": 106, "num_lines": 105, "path": "/evaluation/eval.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "import tensorflow as tf\r\nimport constants\r\nfrom sklearn.metrics import classification_report, confusion_matrix\r\nimport numpy as np\r\nimport seaborn as sns\r\nfrom matplotlib import pyplot as plt\r\nimport pandas as pd\r\nimport os\r\n\r\n\r\ndef _classification_report_csv(report, conf_mat):\r\n \"\"\"\r\n Args:\r\n report: classification report (type dict)\r\n conf_mat: Confusion Matrix\r\n\r\n Returns:\r\n object: None\r\n \"\"\"\r\n dataframe = pd.DataFrame.from_dict(report)\r\n if os.path.isdir(constants.results_PATH):\r\n conf_mat.savefig(constants.results_PATH+\"confusionmatrix.png\")\r\n dataframe.to_csv(constants.results_PATH + 'classification_report.csv', index=False)\r\n else:\r\n try:\r\n os.makedirs(constants.results_PATH)\r\n conf_mat.savefig(constants.results_PATH + \"confusionmatrix.png\")\r\n dataframe.to_csv(constants.results_PATH + 'classification_report.csv', index=False)\r\n except FileExistsError:\r\n pass\r\n except OSError:\r\n raise\r\n\r\n\r\ndef evaluate(model, ds_test, opt, is_training, SAVE_RESULT=True, checkpoint_path=None):\r\n\r\n true_labels = []\r\n for data, labels in (ds_test.take((constants.N_TESTING_SET_COUNT // constants.N_BATCH_SIZE) + 1)):\r\n true_labels.extend(labels.numpy().tolist())\r\n\r\n print('\\n True labels:\\n', true_labels)\r\n\r\n if is_training:\r\n saved_model = model\r\n else:\r\n try:\r\n _ = os.stat(checkpoint_path)\r\n # if os.path.isfile(checkpoint_path):\r\n print(os.path.sep, type(os.path.sep), type(checkpoint_path))\r\n print(\"Loading Checkpoint model {}\".format(checkpoint_path.split(os.sep)[-1]))\r\n # For loading weights use loadedmodel.load_weights(checkpoint)\r\n saved_model = tf.keras.models.load_model(checkpoint_path, compile=False)\r\n #saved_model = model.load_weights(checkpoint_path)\r\n\r\n # Compile the model\r\n saved_model.compile(optimizer=tf.keras.optimizers.Adam(constants.H_LEARNING_RATE),\r\n loss='sparse_categorical_crossentropy', metrics=['accuracy'])\r\n\r\n print(saved_model.summary())\r\n\r\n except FileNotFoundError:\r\n raise\r\n\r\n\r\n # Evaluate the model\r\n print(\"\\nEvaluating on test Dataset.....\\n\")\r\n test_model = saved_model.evaluate(ds_test,\r\n batch_size=constants.N_BATCH_SIZE,\r\n steps=(constants.N_TESTING_SET_COUNT // constants.N_BATCH_SIZE) + 1,\r\n verbose=1)\r\n # print(test_model)\r\n # Predict to calculate\r\n print(\"\\nPredicting on test Dataset.....\\n\")\r\n y_pred = saved_model.predict(ds_test,\r\n batch_size=constants.N_BATCH_SIZE,\r\n steps=(constants.N_TESTING_SET_COUNT // constants.N_BATCH_SIZE) + 1,\r\n verbose=1)\r\n\r\n y_pred = np.argmax(y_pred, axis=1)\r\n print('\\n Predicted labels:\\n', y_pred)\r\n\r\n # y_true = np.asarray(y_true).astype('int32')\r\n\r\n print('\\n Confusion Matrix:\\n')\r\n print(confusion_matrix(true_labels, y_pred))\r\n\r\n target_names = ['NRDR', 'RDR']\r\n plt.figure()\r\n sns.set(font_scale=1.8)\r\n cm_plot = sns.heatmap(confusion_matrix(true_labels, y_pred), annot=True, cbar=True,\r\n xticklabels=target_names, yticklabels=target_names, annot_kws={\"size\": 65})\r\n\r\n cm_fig = cm_plot.get_figure()\r\n #plt.show()\r\n\r\n # Save classification report and confusion matrix to results folder\r\n if SAVE_RESULT:\r\n cr = classification_report(true_labels, y_pred, target_names=target_names, output_dict=True)\r\n _classification_report_csv(cr, cm_fig)\r\n\r\n cr = classification_report(true_labels, y_pred, target_names=target_names)\r\n print('Classification Report:\\n')\r\n print(\"\\n\", cr, \"\\n\")\r\n\r\n return\r\n" }, { "alpha_fraction": 0.6390922665596008, "alphanum_fraction": 0.681551992893219, "avg_line_length": 32.150001525878906, "blob_id": "0b92fb7c77bc760710283ad164a6a06beaeb1d2f", "content_id": "396b1b1daa9a16dff8ec291d19c0503db64e65e4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1366, "license_type": "no_license", "max_line_length": 113, "num_lines": 40, "path": "/models/transfer_learning_architecture.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "from tensorflow.keras.applications import ResNet50V2\r\nimport tensorflow as tf\r\nimport tensorflow.keras as keras\r\n\r\n\r\ndef transfer_learning(input_shape):\r\n base_model = ResNet50V2(include_top=False, input_shape=(224, 224, 3), pooling='avg', weights='imagenet')\r\n\r\n # Freeze the layers except the last 12 layers (which contains few sets of Conv layers and batch normalization\r\n # layers)\r\n count_layers = 0\r\n for layer in base_model.layers[:-12]:\r\n layer.trainable = False\r\n count_layers = count_layers + 1\r\n print(count_layers, \"Number of layers in Resnet50\")\r\n\r\n # Check the trainable status of the individual layers\r\n for layer in base_model.layers:\r\n print(layer, layer.trainable)\r\n base_model.summary()\r\n\r\n # Keras input layer\r\n inputs = keras.Input(shape=(256, 256, 3))\r\n\r\n # preprocessing layer to resize image to 224224, as Resnet input layer accepts 224,224,3\r\n r_input = keras.layers.experimental.preprocessing.Resizing(224, 224)(inputs)\r\n\r\n out = base_model(r_input)\r\n\r\n out = keras.layers.Dense(16, activation=tf.nn.relu,kernel_regularizer=keras.regularizers.l1(0.0001))(out)\r\n\r\n out = keras.layers.Dropout(0.6)(out)\r\n\r\n out = keras.layers.Dense(2, activation=tf.nn.softmax)(out)\r\n\r\n model = keras.Model(inputs, out)\r\n\r\n # Model Summary\r\n model.summary()\r\n return model\r\n" }, { "alpha_fraction": 0.6772068738937378, "alphanum_fraction": 0.687747061252594, "avg_line_length": 35.19047546386719, "blob_id": "c3a4406616445f29ed83c8ae959ed25d64a2c9ab", "content_id": "4b7ce555502b61070fb5009da18ad2245beb0c89", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 759, "license_type": "no_license", "max_line_length": 101, "num_lines": 21, "path": "/models/layers.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "import gin\nimport tensorflow as tf\n\[email protected]\ndef vgg_block(inputs, filters, kernel_size):\n \"\"\"A single VGG block consisting of two convolutional layers, followed by a max-pooling layer.\n\n Parameters:\n inputs (Tensor): input of the VGG block\n filters (int): number of filters used for the convolutional layers\n kernel_size (tuple: 2): kernel size used for the convolutional layers, e.g. (3, 3)\n\n Returns:\n (Tensor): output of the VGG block\n \"\"\"\n\n out = tf.keras.layers.Conv2D(filters, kernel_size, padding='same', activation=tf.nn.relu)(inputs)\n out = tf.keras.layers.Conv2D(filters, kernel_size, padding='same', activation=tf.nn.relu)(out)\n out = tf.keras.layers.MaxPool2D((2, 2))(out)\n\n return out" }, { "alpha_fraction": 0.5752719640731812, "alphanum_fraction": 0.5937959551811218, "avg_line_length": 35.580108642578125, "blob_id": "0dad7bf318261842f4f0dae4ec20d291bd1b3e44", "content_id": "6b9ba93743146237488c859e7cc51895cca0cb78", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 6802, "license_type": "no_license", "max_line_length": 107, "num_lines": 181, "path": "/input_pipeline/datasets2.py", "repo_name": "sgaruda-sudo/Diabetic_Retinopathy", "src_encoding": "UTF-8", "text": "import tensorflow as tf\r\nimport pandas as pd\r\nimport constants\r\nimport glob\r\nimport numpy as np\r\nfrom input_pipeline.preprocessing import resampling\r\nimport tensorflow_addons as tfa\r\nimport matplotlib.pyplot as plt\r\nimport random\r\nfrom sklearn.model_selection import train_test_split\r\n\r\nAUTOTUNE = tf.data.experimental.AUTOTUNE\r\n\r\n\r\ndef build_dataset(files, labels, data_set_type):\r\n \"\"\"\r\n\r\n Args:\r\n files:\r\n labels:\r\n data_set_type:\r\n\r\n Returns:\r\n\r\n \"\"\"\r\n # Create tf data set\r\n ds = tf.data.Dataset.from_tensor_slices((files, labels))\r\n\r\n if data_set_type == 'train':\r\n p_var = data_set_type\r\n print(\"Buildling {} data set\".format(p_var))\r\n ds = ds.shuffle(constants.N_SHUFFLE_BUFFER)\r\n ds = ds.cache()\r\n ds = ds.map(augment_parse, num_parallel_calls=AUTOTUNE)\r\n\r\n if data_set_type != 'train':\r\n print(\"Buildling {} data set\".format(data_set_type))\r\n ds = ds.map(parse_func, AUTOTUNE)\r\n\r\n ds = ds.batch(constants.N_BATCH_SIZE).prefetch(AUTOTUNE)\r\n print(ds.element_spec)\r\n return ds\r\n\r\n\r\[email protected]\r\ndef augment_parse(a_filename, a_label):\r\n\r\n a_image_string = tf.io.read_file(a_filename)\r\n a_image_decoded = tf.io.decode_jpeg(a_image_string, channels=3)\r\n\r\n # original image dimension -28484288(HW)\r\n # process image by reducing the black background\r\n a_image_bbcrp = tf.image.crop_to_bounding_box(a_image_decoded, 0, 266, 2848, 3426)\r\n\r\n a_image_normal = tf.cast(a_image_bbcrp, tf.float32) / 255.0\r\n\r\n a_image = tf.image.resize(a_image_normal, size=(256, 256))\r\n\r\n # a_image_crp1 = tf.image.central_crop(a_image_normal, 0.85)\r\n # augment by image flip and rotation\r\n a_image = tf.image.random_flip_left_right(a_image)\r\n a_image = tf.image.random_flip_up_down(a_image)\r\n rot_range = random.randint(24, 36)\r\n # below lone enables counterclockwise rotation and clockwise rotaion\r\n # rot_range = random.randrange(-36, 36, 1)\r\n a_image = tfa.image.rotate(a_image, tf.constant((np.pi / rot_range)),\r\n interpolation='NEAREST')\r\n\r\n return a_image, a_label\r\n\r\n\r\[email protected]\r\ndef parse_func(filename, label):\r\n\r\n image_string = tf.io.read_file(filename)\r\n image_decoded = tf.io.decode_jpeg(image_string, channels=3)\r\n # original image dimension -28484288(HW)\r\n image_bbcrp = tf.image.crop_to_bounding_box(image_decoded, 0, 266, 2848, 3426)\r\n\r\n image_normal = tf.cast(image_bbcrp, tf.float32) / 255.0\r\n # image_crp1 = tf.image.central_crop(image_normal, 0.85)\r\n image = tf.image.resize(image_normal, size=(256, 256))\r\n\r\n # label = tf.one_hot(label) @ for multiclass classification\r\n return image, label\r\n\r\n\r\ndef load_data():\r\n tf_train_data, tf_valid_data, tf_test_data = get_datasets()\r\n\r\n # print(np.shape(np_train_images), np.shape(np_train_labels))\r\n\r\n return tf_train_data, tf_valid_data, tf_test_data\r\n\r\n\r\ndef get_datasets():\r\n \"\"\"\r\n PURPOSE: Read raw data, reassign labels, resampling, building respective\r\n datasets of train, test,valid\r\n Returns: train data, test data, validation data\r\n\r\n \"\"\"\r\n # list of image paths\r\n list_image_paths = glob.glob(constants.path_train_img + '/')\r\n list_image_paths_test = glob.glob(constants.path_test_img + '/*')\r\n\r\n # List of labels\r\n df_imagenames_labels_train = pd.read_csv(constants.path_train_labels,\r\n usecols=constants.COLUMN_LABELS)\r\n df_imagenames_labels_test = pd.read_csv(constants.path_test_labels,\r\n usecols=constants.COLUMN_LABELS)\r\n\r\n # create a new column to store corresponding image paths\r\n df_imagenames_labels_train['img_paths'] = list_image_paths\r\n df_imagenames_labels_test['img_paths'] = list_image_paths_test\r\n\r\n # print(df_imagenames_labels_test.head())\r\n '''################## Reassign labels for binary classification ###################'''\r\n\r\n # process labels, categorize (0,1 = 0[NPR]), and (2,3,4 = 1[PR])\r\n df_imagenames_labels_train['Retinopathy grade'] = \\\r\n df_imagenames_labels_train['Retinopathy grade'].map({0: 0, 1: 0, 2: 1, 3: 1, 4: 1})\r\n\r\n df_imagenames_labels_test['Retinopathy grade'] = \\\r\n df_imagenames_labels_test['Retinopathy grade'].map({0: 0, 1: 0, 2: 1, 3: 1, 4: 1})\r\n print('Testing set:\\n', df_imagenames_labels_test['Retinopathy grade'].value_counts())\r\n # print(\"check the image labels: \\n\", (df_imagenames_labels_train.head()))\r\n\r\n '''###### Random shuffle whole training data and split to train and validation #########'''\r\n\r\n df_train_unbal, df_valid = train_test_split(df_imagenames_labels_train, test_size=0.2, random_state=42)\r\n # print(df_train_unbal.head(-1), df_valid.head(-1))\r\n\r\n '''#################################################################################'''\r\n\r\n ''' ################### resampling ##################### '''\r\n\r\n print('Before resampling:\\n', df_train_unbal['Retinopathy grade'].value_counts())\r\n df_balanced = resampling(df_train_unbal, frac=1)\r\n print('After resampling:\\n', df_balanced['Retinopathy grade'].value_counts())\r\n print(\"Shape of balanced train dataset:\", df_balanced.shape)\r\n\r\n '''###################### Building train, valid ans test data set #####################'''\r\n\r\n train_ds = build_dataset(df_balanced['img_paths'].tolist(),\r\n df_balanced['Retinopathy grade'].astype(int).tolist(), 'train')\r\n\r\n valid_ds = build_dataset(df_valid['img_paths'].tolist(),\r\n df_valid['Retinopathy grade'].astype(int).tolist(), 'valid')\r\n\r\n test_ds = build_dataset(df_imagenames_labels_test['img_paths'].tolist(),\r\n df_imagenames_labels_test['Retinopathy grade'].astype(int).tolist(), 'test')\r\n\r\n # plot samples in a grid from all sets\r\n plot_images(train_ds, 'training samples')\r\n plot_images(valid_ds, 'validation samples')\r\n plot_images(test_ds, 'testing samples')\r\n '''###################################################################'''\r\n\r\n return train_ds, valid_ds, test_ds\r\n\r\n\r\ndef plot_images(dataset, dataset_name):\r\n \"\"\"\r\n\r\n Args:\r\n dataset: dataset object from which images have to be plotted\r\n dataset_name: name of the type of split (train/test/valid)\r\n \"\"\"\r\n plt.figure(figsize=(10, 10))\r\n plt.suptitle(dataset_name)\r\n for images, labels in dataset.take(1):\r\n labels_numpy = labels.numpy()\r\n for i in range(9):\r\n ax = plt.subplot(3, 3, i + 1)\r\n plt.imshow(images[i].numpy())\r\n # print((labels[i].numpy()))\r\n # plt.title(\"class:%d\" % labels_numpy[i])\r\n plt.axis(\"on\")\r\n plt.show()\r\n pass\r\n" } ]	16
purwarshubh10/pyspark_test	https://github.com/purwarshubh10/pyspark_test	953ef1f9eaec6e3a14fbfd92e5b2f1775ea86b22	b35d41c4d4223acec99a14ebb982563ecb2b9c53	1572f8f0187ec1c7834b0b4cfa8545f65056416a	refs/heads/master	2021-05-04T12:05:45.382999	2018-02-05T10:25:05	2018-02-05T10:25:05	120,286,551	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.8041236996650696, "alphanum_fraction": 0.8041236996650696, "avg_line_length": 18.200000762939453, "blob_id": "914fbe331c3541a30439855d2afba752c032cc09", "content_id": "c0c04a8928b95bab944e6cdc04887e4f385087af", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 97, "license_type": "no_license", "max_line_length": 32, "num_lines": 5, "path": "/sparktest.py", "repo_name": "purwarshubh10/pyspark_test", "src_encoding": "UTF-8", "text": "import findspark\nfindspark.init()\nfrom pyspark import SparkContext\nsc = SparkContext()\nprint sc\n\n" } ]	1
jhwni/IoT	https://github.com/jhwni/IoT	517a6a5708f34c4bf75bf892831de9e5cd202a60	321c02da2a4038bd389137ed1ee91647a25b0c2e	c4f1e4eb7925cd06d498dce3d9182c215bdb64b6	refs/heads/main	2023-01-03T11:25:16.965225	2020-11-03T00:00:16	2020-11-03T00:00:16	309,524,758	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6585366129875183, "alphanum_fraction": 0.6634146571159363, "avg_line_length": 11, "blob_id": "07409f731614e4ff01285853e5637c0a16a90b70", "content_id": "93d2a54da1fab9445c26583a2205b3678965ae87", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 205, "license_type": "no_license", "max_line_length": 30, "num_lines": 17, "path": "/Actuator/Actuator_2_2.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "## FAN\n\nimport RPi.GPIO as GPIO\nimport time\n\nGPIO.setmode(GPIO.BCM)\n\nFAN = 6\n\nGPIO.setup(FAN, GPIO.OUT)\n\ntry :\n while True:\n GPIO.output(FAN, True)\n\nexcept KeyboardInterrupt:\n GPIO.cleanup()\n\n" }, { "alpha_fraction": 0.6075581312179565, "alphanum_fraction": 0.6191860437393188, "avg_line_length": 19.058822631835938, "blob_id": "b6954dd31a4dffc117c18e8f69c461c16240bad7", "content_id": "bf210a80b66a9d7addf3fc15ee9e124c33119b65", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 344, "license_type": "no_license", "max_line_length": 45, "num_lines": 17, "path": "/Sensor/Sensor_1_8.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "\nimport RPi.GPIO as GPIO\nimport time\n\nGPIO.setmode(GPIO.BCM)\nGPIO_PIN = 22\n\nGPIO.setup(GPIO_PIN, GPIO.IN)\n\ntry:\n while True:\n if GPIO.input(GPIO_PIN) == False:\n print 'Near Proximity Sensor'\n else :\n print 'Far from Proximity Sensor'\n time.sleep(0.1)\nexcept KeyboardInterrupt:\n GPIO.cleanup()\n\n\n" }, { "alpha_fraction": 0.5520362257957458, "alphanum_fraction": 0.5972850918769836, "avg_line_length": 16.421052932739258, "blob_id": "c2ec007bfff2c1d99a20e91f91291f1f72720244", "content_id": "81d131eef2bfb2b37c614da80ffc88fe357711d8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 663, "license_type": "no_license", "max_line_length": 37, "num_lines": 38, "path": "/Actuator/Actuator_2_3.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "## DC Motor\n## PWM \n\nimport RPi.GPIO as GPIO\nimport time\n\nGPIO.setmode(GPIO.BCM)\n\nDC_MOTOR = 13\nGPIO.setup(DC_MOTOR, GPIO.OUT)\n\nP = GPIO.PWM(DC_MOTOR, 100)\nP.start(0)\n\ntry :\n while True:\n\tGPIO.output(DC_MOTOR, True)\n\tfor x in range(100):\n\t P.ChangeDutyCycle(x)\n\t time.sleep(0.1)\n\n\tfor x in range(100, 0, -1):\n\t P.ChangeDutyCycle(x)\n\t time.sleep(0.5)\n\n\tGPIO.output(DC_MOTOR, False)\n\tfor x in range(100):\n P.ChangeDutyCycle(x)\n time.sleep(0.1)\n\n for x in range(100, 0, -1):\n P.ChangeDutyCycle(x)\n time.sleep(0.5)\n\n # GPIO.output(DC_Motor, True)\n\nexcept KeyboardInterrupt:\n GPIO.cleanup()\n\n" }, { "alpha_fraction": 0.6039755344390869, "alphanum_fraction": 0.6574923396110535, "avg_line_length": 18.235294342041016, "blob_id": "65c3754a0d31e2ca9b6b3ff109847b6aa6ffea91", "content_id": "8a71fa919ff1de70453be526e87dca8a0d9eb812", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 654, "license_type": "no_license", "max_line_length": 67, "num_lines": 34, "path": "/Sensor/Sensor_1_2.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "# 1_2 Light Sensor \n\n## Prepare in advance\n\n### 1. Activate SPI & I2C\n\n### 2. Install build_utils \n# git clone https://github.com/walchko/build_utils\n# cd build_utils\n# pip install -e\n\n### 3. Install MCP3208 module \n# git clone https://github.com/MomsFriendlyRobotCompany/mcp3208.git\n# cd mcp3208\n# sudo apt-get update\n# sudo apt-get install build-essential python-dev\n# sudo python setup.py install\n\n#################################\n\nimport RPi.GPIO as GPIO\nimport time\n\nfrom mcp3208 import MCP3208\n\nADC = MCP3208()\n\nADC_PIN = 1\n# 1: Light Sensor\n\nwhile True:\n for i in range(8):\n print i, \"ch Value: \", ADC.read(ADC_PIN)\n time.sleep(0.5)\n" }, { "alpha_fraction": 0.6218236088752747, "alphanum_fraction": 0.6367713212966919, "avg_line_length": 24.730770111083984, "blob_id": "667b961916a4a8c514de652777f1a968b8e5b9e9", "content_id": "89621125bb9bae5c8b105d0e071d35c20f77936e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 669, "license_type": "no_license", "max_line_length": 63, "num_lines": 26, "path": "/Sensor/Sensor_1_1.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "### 1_1 Temerature and Humidity Sensor\n\n### prepare in advance ###\n\n# git clone https://github.com/adafruit/Adafruit_Python_DHT.git\n# cd Adafruiot_Python_DHT\n# sudo apt-get update\n# sudo apt-get install build-essential python-dev\n# sudo python setup.py install\n\n##########################\n\nimport Adafruit_DHT as dht\nfrom time import sleep\n\n# set DATA pin\nDHT_PIN = 7\n\nwhile True:\n # Read Temp and Hum from DHT22\n h, t = dht.read_retry(dht.DHT22, DHT_PIN)\n # print Temperature and Humidity on Shell window\n print \"----------Value----------\"\n print \"Temperature: \", t, \"*C\"\n print \"Humidity : \", h, \"%\"\n sleep(0.5) # Wait 2 seconds and read again\n" }, { "alpha_fraction": 0.7162162065505981, "alphanum_fraction": 0.7207207083702087, "avg_line_length": 12.058823585510254, "blob_id": "f00da31e4d0de7abd8881d8d6b8c43628201f134", "content_id": "3a1fc842641ccabc0f405895f6c4faa6698b4f6a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 222, "license_type": "no_license", "max_line_length": 31, "num_lines": 17, "path": "/Actuator/Actuator_2_1.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "## Water Pump\n\nimport RPi.GPIO as GPIO\nimport time\n\nGPIO.setmode(GPIO.BCM)\n\nWATERPUMP = 5\n\nGPIO.setup(WATERPUMP, GPIO.OUT)\n\ntry :\n while True:\n\tGPIO.output(WATERPUMP, True)\n\nexcept KeyboardInterrupt:\n GPIO.cleanup()\n" }, { "alpha_fraction": 0.6657534241676331, "alphanum_fraction": 0.6958904266357422, "avg_line_length": 13.5600004196167, "blob_id": "c6799121e4a91c699681af4e0094beebf02a246c", "content_id": "111d64796ae84b186c208e6865397a718e2be046", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 365, "license_type": "no_license", "max_line_length": 32, "num_lines": 25, "path": "/Actuator/Actuator_2_7.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "## Servo-Motor\n\nimport RPi.GPIO as GPIO\nimport time\n\nGPIO.setmode(GPIO.BCM)\n\nSERVOMOTOR = 23\n\nGPIO.setup(SERVOMOTOR, GPIO.OUT)\nP = GPIO.PWM(SERVOMOTOR, 50)\nP.start(0)\n\ntry :\n while True:\n P.ChangeDutyCycle(1)\n\ttime.sleep(1)\n\tP.ChangeDutyCycle(5)\n\ttime.sleep(1)\n\tP.ChangeDutyCycle(8)\n\ttime.sleep(1)\n\nexcept KeyboardInterrupt:\n P.stop() \nGPIO.cleanup()\n\n" }, { "alpha_fraction": 0.6066482067108154, "alphanum_fraction": 0.6149584650993347, "avg_line_length": 16.950000762939453, "blob_id": "33a2e49c671fd0f8192c6010043238cdf8684eac", "content_id": "40bac8f306c68f81d4685e48622429d546cc1e69", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 361, "license_type": "no_license", "max_line_length": 42, "num_lines": 20, "path": "/Sensor/Sensor_1_4.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "# Pyroelectric (\"Passive\") InfraRed Sensor\n\nimport RPi.GPIO as GPIO\nimport time\n\nGPIO.setmode(GPIO.BCM)\nGPIO_PIN = 27\n\nGPIO.setup(GPIO_PIN, GPIO.IN)\n\ntry:\n while True:\n if GPIO.input(GPIO_PIN) == True:\n print 'Detected.'\n else :\n print 'Not detected.'\n time.sleep(1)\n\nexcept KeyboardInterrupt:\n GPIO.cleanup()\n\n\n" }, { "alpha_fraction": 0.6743119359016418, "alphanum_fraction": 0.6834862232208252, "avg_line_length": 11.764705657958984, "blob_id": "ed047a2f33d425238b761fd05d68312ae59ba36b", "content_id": "9bdd259c289f973801ed96c0f1e713e65d623b77", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 218, "license_type": "no_license", "max_line_length": 33, "num_lines": 17, "path": "/Actuator/Actuator_2_6.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "## Buzzer\n\nimport RPi.GPIO as GPIO\nimport time\n\nGPIO.setmode(GPIO.BCM)\n\nBUZZER = 20\n\nGPIO.setup(BUZZER, GPIO.OUT)\n\ntry :\n while True:\n GPIO.output(BUZZER, True)\n\nexcept KeyboardInterrupt:\n GPIO.cleanup()\n\n" }, { "alpha_fraction": 0.6548042893409729, "alphanum_fraction": 0.6690391302108765, "avg_line_length": 15.470588684082031, "blob_id": "2ca27d2f7d4fd6b02813f6f182c85e565fd9f7b3", "content_id": "81ae6a245a9f14c835e501c74dddc10e1114872f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 281, "license_type": "no_license", "max_line_length": 34, "num_lines": 17, "path": "/Sensor/Sensor_1_7.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "import RPi.GPIO as GPIO\nimport time\n\nGPIO.setmode(GPIO.BCM)\nGPIO_PIN = 25\n\nGPIO.setup(GPIO_PIN, GPIO.IN)\n\ntry:\n while True:\n\tif GPIO.input(GPIO_PIN) == False:\n\t print 'Gas Detected!'\n\telse :\n\t print 'No Gas.'\n\ttime.sleep(1.0)\nexcept KeyboardInterrupt:\n GPIO.cleanup()\n\n" }, { "alpha_fraction": 0.5597826242446899, "alphanum_fraction": 0.570652186870575, "avg_line_length": 16.299999237060547, "blob_id": "c79b457d5b6a779f701fc40152143108a4b2fcb1", "content_id": "01bda7e0e7efab61709c3e1f228a79067129cb52", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 368, "license_type": "no_license", "max_line_length": 41, "num_lines": 20, "path": "/Sensor/Sensor_1_6.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "## Flame Sensor\n\nimport RPi.GPIO as GPIO\nimport time\n\nGPIO.setmode(GPIO.BCM)\nGPIO_PIN = 24\n\nGPIO.setup(GPIO_PIN, GPIO.IN)\n\ntry:\n while True:\n if GPIO.input(GPIO_PIN) == False:\n print 'Flame detected.'\n else :\n print 'There is no Flame.'\n time.sleep(0.5)\n\nexcept KeyboardInterrupt:\n GPIO.cleanup()\n \n" }, { "alpha_fraction": 0.5170278549194336, "alphanum_fraction": 0.5820433497428894, "avg_line_length": 16.88888931274414, "blob_id": "b0656c465f6b765239d86dc31e093016b6e44381", "content_id": "c3dd1bb4f275ff7d072a692d8ee9def7d65cf3a0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 323, "license_type": "no_license", "max_line_length": 53, "num_lines": 18, "path": "/Sensor/Sensor_1_3.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "### Sound Sensor ###\nimport RPi.GPIO as GPIO\nimport time\n\nfrom mcp3208 import MCP3208\n\nADC = MCP3208()\n\nADC_PIN = 0\n# 0: Sound Sensor\n\nwhile True:\n if ADC.read(ADC_PIN) < 2000 :\n # for i in range(8):\n # print i, \"ch Value: \", ADC.read(ADC_PIN)\n print \"Sound Detected!\"\n\t\n time.sleep(0.5)\n\n" }, { "alpha_fraction": 0.5442020893096924, "alphanum_fraction": 0.6027554273605347, "avg_line_length": 15.75, "blob_id": "d428aabf042dc0af6c8d368b023160f17a586a67", "content_id": "819e684d8f12582d3db2735c673bad1948ee6de9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 871, "license_type": "no_license", "max_line_length": 36, "num_lines": 52, "path": "/Actuator/Actuator_2_5.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "## LED BAR\n## PWM\nimport RPi.GPIO as GPIO\nimport time\n\nGPIO.setmode(GPIO.BCM)\n\nLED_Bar = 12\n\nGPIO.setup(LED_Bar, GPIO.OUT)\n\nGPIO.setup(4, GPIO.OUT)\nGPIO.setup(2, GPIO.OUT)\nGPIO.setup(3, GPIO.OUT)\n\nP_R = GPIO.PWM(4, 2000)\nP_B = GPIO.PWM(2, 2000)\nP_G = GPIO.PWM(3, 2000)\n\nP_R.start(0)\nP_G.start(0)\nP_B.start(0)\n\ndef SetColor(R, G, B):\n P_R.ChangeDutyCycle(R)\n P_G.ChangeDutyCycle(G)\n P_B.ChangeDutyCycle(B)\n time.sleep(0.001)\n\ndef Turnoff():\n P_R.ChangeDutyCycle(0)\n P_G.ChangeDutyCycle(0)\n P_B.ChangeDutyCycle(0)\n time.sleep(0.01)\n\ntry :\n while True:\n # GPIO.output(LED_Bar, True)\n\tfor x in range(99):\n\t SetColor(100 - x, x, 0)\n\n\tfor x in range(99):\n SetColor(0, 100 - x, x)\n\n\tfor x in range(99):\n SetColor(x, 0, 100 - x)\n\nexcept KeyboardInterrupt:\n GPIO.cleanup()\n P_R.stop()\n P_G.stop()\n P_B.stop()\n" }, { "alpha_fraction": 0.557692289352417, "alphanum_fraction": 0.6057692170143127, "avg_line_length": 13.821428298950195, "blob_id": "06a334e20a9d4f98c66ef6a4ce27ceb3db2223b7", "content_id": "a458a99ed2f50d9c4be76c5aebb047031f22b087", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 416, "license_type": "no_license", "max_line_length": 32, "num_lines": 28, "path": "/Actuator/Actuator_2_4.py", "repo_name": "jhwni/IoT", "src_encoding": "UTF-8", "text": "## RGB LED\n## PWM\n\nimport RPi.GPIO as GPIO\nimport time\n\nGPIO.setmode(GPIO.BCM)\n\nRGB = 19\nGPIO.setup(RGB, GPIO.OUT)\n\nP = GPIO.PWM(RGB, 100)\nP.start(0)\n\ntry :\n while True:\n # GPIO.output(RGB, True)\n\n\tfor x in range(100):\n\t P.ChangeDutyCycle(x)\n\t time.sleep(0.01)\n\n\tfor x in range(100, 0, -1):\n P.ChangeDutyCycle(x)\n time.sleep(0.01)\n\nexcept KeyboardInterrupt:\n GPIO.cleanup()\n\n" } ]	14
jeremy-ryan/poo	https://github.com/jeremy-ryan/poo	1bd24356fd416527abef7b081256c1330685d7c0	1eb2d675eb3410912a28349550258e957aa0d9e4	534b19d48df8622dde4eb1060af4961b7ad92fcf	refs/heads/master	2018-01-16T17:51:17.265970	2017-07-17T14:53:24	2017-07-17T14:53:24	95,581,334	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.7517730593681335, "alphanum_fraction": 0.7517730593681335, "avg_line_length": 19, "blob_id": "b9b9cbe2d94b37e22273ff08c4ea4ca5676580ba", "content_id": "57be38b4879f1cb87c22dcd58f2a99961e095273", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 141, "license_type": "no_license", "max_line_length": 57, "num_lines": 7, "path": "/stormdrain/README.txt", "repo_name": "jeremy-ryan/poo", "src_encoding": "UTF-8", "text": "\nFuck you Liam.\n\nYou'll get the source code when you fucking pay me.\n\nEat a dick.\n\nThis has been changed to be the same module as residental\n" }, { "alpha_fraction": 0.4707297384738922, "alphanum_fraction": 0.4855653643608093, "avg_line_length": 29.981367111206055, "blob_id": "e814efbea37387c06b5e865c28dcfaca3bdf3c2b", "content_id": "1c6e434672aaad420361c32d45096ccbe55bcbf0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4988, "license_type": "no_license", "max_line_length": 70, "num_lines": 161, "path": "/pretreatment/liquid.py", "repo_name": "jeremy-ryan/poo", "src_encoding": "UTF-8", "text": "#!/usr/local/bin/python\n\nimport struct\nimport math\n\nclass Node:\n def __init__(self, data, left, right):\n self.data = data\n self.left = left\n self.right = right\n\nclass Liquid:\n def __init__(self, blob):\n self.slots = len(blob)//8\n raw_data = struct.unpack(\"!\" + \"LHH\"self.slots, blob)\n \n self.hazmats = set()\n \n self.trash = False\n \n self.waste = set()\n\n self.data = {i//3+1: list(raw_data[i:i+3]) for i in\n range(0, len(raw_data), 3) if raw_data[i]}\n\n def treat_se(self):\n '''Circularly-linked list'''\n heads = set(self.data.keys())\n for k,v in self.data.items():\n heads.discard(v[2])\n heads.discard(v[1])\n\n if len(heads) < 1:\n to_remove = max(d[0] for d in self.data.values())\n self.hazmats.add(to_remove)\n\n for i in self.data:\n if self.data[i][0] == to_remove:\n break\n del self.data[i]\n for n in self.data:\n if self.data[n][1] == i:\n self.data[n][1] = 0\n if self.data[n][2] == i:\n self.data[n][2] = 0\n\n\n def treat_pb(self):\n pass\n\n def treat_hg(self):\n '''Multiple roots in graph'''\n heads = set(self.data.keys())\n for k,v in self.data.items():\n heads.discard(v[1])\n heads.discard(v[2])\n\n if len(heads) > 1:\n to_remove = min((self.data[i][0] for i in heads))\n self.hazmats.add(to_remove)\n\n for i in self.data:\n if self.data[i][0] == to_remove:\n break\n\n del self.data[i]\n self.treat_hg()\n\n def serialize_water(self):\n for n in range(self.slots):\n n += 1\n if n not in self.data:\n self.data[n] = (0,0,0)\n\n array = (x for n in range(self.slots) for x in self.data[n+1])\n return struct.pack(\"!\" + \"LHH\"len(self.data), array)\n\n def serialize_hazmat(self):\n array = (x for val in self.hazmats for x in (val,0))\n return struct.pack(\"!\" + \"LL\"len(self.hazmats), array)\n\n def serialize_waste(self):\n array = (x for val in self.waste for x in (val,0))\n return struct.pack(\"!\" + \"LL\"len(self.waste), array)\n \n def is_trash(self):\n '''left or right values point to invalid indicies'''\n for item in self.data:\n if(self.data.get(self.data.get(item)[1] == 0) or \n self.data.get(self.data.get(item)[2]) == 0):\n continue\n elif(not self.data.get(self.data.get(item)[1]) or \n not self.data.get(self.data.get(item)[2])):\n self.trash = True\n\n def compactor(self):\n '''compacts trash'''\n for item in self.data:\n if(self.data.get(self.data.get(item)[1]) == None):\n if(self.data.get(item)[1] != 0):\n self.data.get(item)[1] = 0xFFFF\n if(self.data.get(self.data.get(item)[2]) == None):\n if(self.data.get(item)[2] != 0):\n self.data.get(item)[2] = 0xFFFF\n if(self.data.get(self.data.get(item)[0] == 0)):\n self.data.pop(item)\n\n def treat_waste(self):\n '''is data prime or undulating'''\n to_delete = []\n for item in self.data:\n if(is_prime(self.data.get(item)[0])):\n print(\"POO\")\n print(self.data.get(item))\n self.waste.add(self.data.get(item)[0])\n to_delete.append(item)\n elif(is_undulate(self.data.get(item)[0])):\n print(\"PEE\")\n print(self.data.get(item))\n self.waste.add(self.data.get(item)[0])\n to_delete.append(item)\n for item in to_delete:\n del self.data[item]\n \ndef is_prime(number):\n if(number <= 1):\n return False\n if(number % 2 == 0 and number > 2):\n return False\n for i in range(3, int(math.sqrt(number)), 2):\n if (number % i == 0):\n return False\n return True\n\ndef is_undulate(number):\n is_undulat = False\n greater_than = False\n if(number < 100 and number % 11 != 0):\n return True\n elif(number < 100):\n return False\n number = str(number)\n if(number[0] > number[1]):\n greater_than = True\n for i in range(1, len(number)-1):\n if(number[i] > number[i+1]):\n if(greater_than == True):\n is_undulat = False\n break\n greater_than = True\n is_undulat = True\n elif(number[i] < number[i+1]):\n if(greater_than == False):\n is_undulat = False\n break\n greater_than = False\n is_undulat = True\n elif(number[i] == number[i+1]):\n is_undulat = False\n break \n return is_undulat\n" }, { "alpha_fraction": 0.5717801451683044, "alphanum_fraction": 0.5791632533073425, "avg_line_length": 30.256410598754883, "blob_id": "8f132d6a7bd4a07aca89fccefe732e0710a9a096", "content_id": "e4970cc2e1a6e49727518f9ca52b61099d1cbad2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1219, "license_type": "no_license", "max_line_length": 76, "num_lines": 39, "path": "/residential/header.py", "repo_name": "jeremy-ryan/poo", "src_encoding": "UTF-8", "text": "#!/usr/local/bin/python\n\nimport struct\n\nclass Header:\n def __init__(self, blob):\n (self.type, self.size, self.custom) = struct.unpack(\"!HHL\", blob)\n\n def serialize(self):\n return struct.pack(\"!HHL\", self.type, self.size, self.custom)\n \nclass Report:\n def __init__(self, rtype, custom, ip_addr, message):\n self.type = rtype\n self.custom = custom\n self.ip_addr = ip_addr\n self.message = message\n\n def serialize(self):\n return struct.pack(\"!\" + \"HHL56s\", self.error_type, self.custom,\n self.ip_addr, self.message)\n\n \ndef send_report(header, rtype, custom, ip_addr, message):\n try:\n print(\"REPORT\");\n report = Report(rtype, custom, ip_addr, message)\n trash_report = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\n trash_report.connect((\"downstream\", 9999))\n header.type = 8\n header.size = 64\n print(header.serialize());\n print(\"\");\n print(report.type, report.message, sep=':');\n trash_report.send(header.serialize())\n trash_report.send(report.serialize())\n trash_report.close()\n except:\n print(\"Report failed\")\n" }, { "alpha_fraction": 0.5378912687301636, "alphanum_fraction": 0.561779260635376, "avg_line_length": 32.71296310424805, "blob_id": "b37b080b78513cea2d1e82d1b693caf6fd2b7653", "content_id": "fc397b9bdfd991995a295027da80ad3fd6ecb102", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3642, "license_type": "no_license", "max_line_length": 83, "num_lines": 108, "path": "/residential/residential.py", "repo_name": "jeremy-ryan/poo", "src_encoding": "UTF-8", "text": "#!/usr/local/bin/python3.5\n\nimport socket\n\nfrom header import Header\nfrom header import Report\nfrom header import send_report\nfrom liquid import Liquid\n\n\nincoming = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\n\nincoming.bind(('', 1111))\n\nincoming.listen(3)\n\nwhile True:\n (client, addr) = incoming.accept()\n\n header = Header(client.recv(8))\n print(\"Receiving {} bytes from {}\".format(header.size, addr))\n\n buf = client.recv(header.size - 8)\n while len(buf) < header.size - 8:\n buf += client.recv(header.size - 8 - len(buf))\n\n liquid = Liquid(buf)\n\n liquid.is_trash()\n if(liquid.trash):\n try:\n liquid.compactor()\n trash_outgoing = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\n trash_outgoing.connect((\"downstream\", 2222))\n header.type = 1\n header.size = 8 + 8len(liquid.data)\n print(header.serialize());\n print(\"\");\n print(liquid.data);\n trash_outgoing.send(header.serialize())\n trash_outgoing.send(liquid.serialize_water())\n trash_outgoing.close()\n \n send_report(header, 16, 0, \"10.40.10.130\", \"trash\")\n except:\n print(\"Trash not online\")\n\n else:\n liquid.treat_hg()\n print(\"Found {} after mercury\".format(len(liquid.hazmats)))\n liquid.treat_pb()\n print(\"Found {} after lead\".format(len(liquid.hazmats)))\n liquid.treat_se()\n print(\"Found {} after selenium\".format(len(liquid.hazmats)))\n\n print(\"Found {} hazardous contaminants from {}\".format(len(liquid.hazmats),\n addr))\n liquid.treat_waste()\n print(\"Found {} after waste treatment\".format(len(liquid.waste)))\n\n try:\n waste_outgoing = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\n waste_outgoing.connect((\"treatment\", 4444))\n header.type = 2\n header.size = 8 + 8len(liquid.waste)\n waste_outgoing.send(header.serialize())\n waste_outgoing.send(liquid.serialize_waste())\n waste_outgoing.close()\n print(\"\")\n print(\"WASTE:{}\\n{}\".format(header, liquid.waste));\n \n #send_report(header, 16, 0, \"10.40.10.130\", \"Waste\")\n except:\n print(\"Waste Treatment not online\")\n\n try:\n hazmat_outgoing = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\n hazmat_outgoing.connect((\"downstream\", 8888))\n header.type = 4\n header.size = 8 + 8len(liquid.hazmats)\n hazmat_outgoing.send(header.serialize())\n hazmat_outgoing.send(liquid.serialize_hazmat())\n hazmat_outgoing.close()\n print(\"\")\n print(\"HAZMATS:{}\\n{}\".format(header, liquid.hazmats));\n \n send_report(16, 0, \"10.40.10.130\", \"HAZMATS\")\n except:\n print(\"HAZMAT not online\")\n \n try:\n sewage_outgoing = socket.socket(socket.AF_INET, socket.SOCK_STREAM)\n sewage_outgoing.connect((\"treatment\", 1111))\n header.type = 0\n header.size = 8 + 8*len(liquid.data)\n print(header.serialize());\n print(liquid.serialize_water());\n sewage_outgoing.send(header.serialize())\n sewage_outgoing.send(liquid.serialize_water())\n sewage_outgoing.close()\n print(\"\")\n print(\"WATER:{}\\n{}\".format(header, liquid.data));\n \n #send_report(16, 0, \"10.40.10.130\", \"Water\")\n except:\n print(\"Sewage not online\")\n\n client.close()\n\n" } ]	4
darshilgit/MachineLearning	https://github.com/darshilgit/MachineLearning	0ebd1958c8cdba6f2f9092c7eb899ebec4898865	9623464e1f427957ad9b495b5bb91122635f1ae2	2634ec25510fb2be107a74a6ad71090c2e9192f8	refs/heads/master	2020-04-03T00:47:35.485093	2018-11-16T06:30:16	2018-11-16T06:30:16	154,908,837	1	0	null	null	null	null	null	[ { "alpha_fraction": 0.5463097095489502, "alphanum_fraction": 0.5549927353858948, "avg_line_length": 36.01785659790039, "blob_id": "e06a231997e271b1bf2b67ee4f45c0b3090b501e", "content_id": "6f49792d285b2ac344edda3d54b87e18dbafc527", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4146, "license_type": "no_license", "max_line_length": 134, "num_lines": 112, "path": "/ML_Assignment2/naive_bayesian.py", "repo_name": "darshilgit/MachineLearning", "src_encoding": "UTF-8", "text": "import re\nimport os\nfrom os.path import join\nfrom os import listdir\nfrom nltk.corpus import stopwords\nfrom nltk.tokenize import word_tokenize\nfrom collections import defaultdict\nimport math\n\nnltk.download('stopwords')\nnltk.download('punkt')\n\ndata_path = './20_newsgroups/'\nstop_words = set(stopwords.words('english'))\n\n\ntraining_data_size = 500\npunctuations_and_special_characters = '[!\|@\|#\|$\|%\|^\|&\|\|(\|)\|{\|}\|;\|:\|[\|,\|.\|/\|<\|>\|?\|\\\|\|\|`\|~\|-\|=\|_\|+]'\n\nfolders = [folder for folder in listdir(data_path)]\nfiles = []\nfor folder in folders:\n folder_path = join(data_path, folder)\n files.append([file for file in listdir(folder_path)])\n\nfolder_to_word_to_count = defaultdict(dict)\nword_count_in_a_folder = defaultdict(dict)\nprior = defaultdict(dict)\nfolder_to_doc_count = defaultdict(dict)\n\n\ndef do_preprocessing(path):\n file = open(path, 'rb')\n text = file.read()\n text = text.decode(\"ISO-8859-1\")\n text = re.sub(punctuations_and_special_characters, '', text)\n word_tokens = word_tokenize(text)\n return word_tokens\n\n\ndef do_training():\n folder_number = 0\n doc_count = 0\n for file in files:\n if file:\n folder_name = folders[folder_number]\n folder_to_word_to_count[folder_name] = {}\n word_count_in_a_folder[folder_name] = 0\n folder_to_doc_count[folder_name] = 0\n file_number = 1\n for file_instance in file:\n if file_number > training_data_size:\n break\n doc_count += 1\n folder_to_doc_count[folder_name] += 1\n path = join(data_path, join(folders[folder_number], file_instance))\n word_tokens = do_preprocessing(path)\n\n for word in word_tokens:\n word = word.lower()\n if word not in stop_words:\n word_count_in_a_folder[folder_name] +=1\n if word in folder_to_word_to_count[folder_name]:\n folder_to_word_to_count[folder_name][word] +=1\n else:\n folder_to_word_to_count[folder_name][word] = 1\n file_number += 1\n folder_number += 1\n return float(doc_count)\n\n\ndef do_testing():\n no_of_classes = len(folders)\n folder_number = 0\n match_count = 0\n folder_to_probability = defaultdict(dict)\n\n # prior prob = number of docs in class / total docs\n for folder in folder_to_word_to_count:\n prior[folder] = float(folder_to_doc_count[folder]) / float(doc_count)\n\n for file in files:\n if file:\n folder_name = folders[folder_number]\n file_number = 0\n for file_instance in file:\n file_number +=1\n if not (file_number < training_data_size):\n actual_class = os.path.basename(os.path.normpath(folder_name))\n path = join(data_path, join(folders[folder_number], file_instance))\n word_tokens = do_preprocessing(path)\n for folder in folder_to_word_to_count:\n folder_to_probability[folder] = math.log10(prior[folder])\n for word in word_tokens:\n word = word.lower()\n if word not in stop_words:\n if word in folder_to_word_to_count[folder]:\n probability = float(folder_to_word_to_count[folder][word]) / float(word_count_in_a_folder[folder])\n else:\n probability = float(1) / float(word_count_in_a_folder[folder])\n folder_to_probability[folder] += math.log10(probability)\n predicted_class = max(folder_to_probability, key=folder_to_probability.get)\n if actual_class == predicted_class:\n match_count += 1\n folder_number += 1\n return float(match_count)\n\n\ndoc_count = do_training()\nmatch_count = do_testing()\naccuracy = (match_count/doc_count) 100\nprint('Accuracy:', accuracy)\n" }, { "alpha_fraction": 0.639940619468689, "alphanum_fraction": 0.7661470174789429, "avg_line_length": 33.56410217285156, "blob_id": "8fa7c50c07336ffc026b78d467125e3099ef5790", "content_id": "86e1e55ebc42fdcab2025a461d3b0f08a976717b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 1347, "license_type": "no_license", "max_line_length": 133, "num_lines": 39, "path": "/ML_Assignment2/readme.txt", "repo_name": "darshilgit/MachineLearning", "src_encoding": "UTF-8", "text": "{\\rtf1\\ansi\\ansicpg1252\\cocoartf1671\n{\\fonttbl\\f0\\fswiss\\fcharset0 Helvetica;}\n{\\colortbl;\\red255\\green255\\blue255;}\n{\\\\expandedcolortbl;;}\n\\margl1440\\margr1440\\vieww10800\\viewh8400\\viewkind0\n\\pard\\tx720\\tx1440\\tx2160\\tx2880\\tx3600\\tx4320\\tx5040\\tx5760\\tx6480\\tx7200\\tx7920\\tx8640\\pardirnatural\\partightenfactor0\n\n\\f0\\fs24 \\cf0 Name: Darshil Parikh\r\\\nID: 1001557968\\\n\r\\\nInstructions:\r\\\n----->Python3 program file:\\\n naive_bayesian.py\\\n\\\n----->Python program written in Python3 and needs following imports:\\\n\timport re\\\n\timport os\\\n\tfrom os.path import join\\\n\tfrom os import listdir\\\n\tfrom nltk.corpus import stopwords\\\n\tfrom nltk.tokenize import word_tokenize\\\n\tfrom collections import defaultdict\\\n\timport math\\\n\\\n----->To run:\\\n python naive_bayesian.py\\\n\r\\\n----->The output lists Accuracy.\\\n\\\n\\pard\\tx720\\tx1440\\tx2160\\tx2880\\tx3600\\tx4320\\tx5040\\tx5760\\tx6480\\tx7200\\tx7920\\tx8640\\pardirnatural\\partightenfactor0\n\\cf0 ----->References used:\\\n\thttps://github.com/scikit-learn/scikit-learn/blob/master/sklearn/naive_bayes.py\\\n\thttp://carrefax.com/new-blog/2017/11/8/using-nltk-to-remove-stopwords-from-a-text-file\\\n\thttps://machinelearningmastery.com/prepare-text-data-machine-learning-scikit-learn/\\\n\thttps://github.com/gokriznastic/20-newsgroups-text_classification/blob/master/\tMultinomial%20Naive%20Bayes-%20BOW%20with%20TF.ipynb}" }, { "alpha_fraction": 0.6823821067810059, "alphanum_fraction": 0.7121587991714478, "avg_line_length": 30.076923370361328, "blob_id": "34a08507e53975eede73fddc101f1236b5a3cb87", "content_id": "c04768eade07483d825c4f478ba3762c94003113", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 403, "license_type": "no_license", "max_line_length": 171, "num_lines": 13, "path": "/ML_Assignment1/readme.txt", "repo_name": "darshilgit/MachineLearning", "src_encoding": "UTF-8", "text": "Name: Darshil Parikh\nID: 1001557968\n\nInstructions:\n----->Python3 program file:\n linear_regression.py\n\n----->Python program written in Python3 and used numpy and pandas library.\n\n----->To run:\n python linear_regression.py\n\n----->The output lists error rate in each of the fold in the n-fold validation and then displaying the average error rate accuracy of the n folds in the n-fold validation." }, { "alpha_fraction": 0.6114048361778259, "alphanum_fraction": 0.6261329054832458, "avg_line_length": 29.79069709777832, "blob_id": "fc6e9e59f61cfedc19e8ef4ef0d815e3d50a839c", "content_id": "e6b71c9b3fcac65c62280c066d8bbc28bd4997a2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2648, "license_type": "no_license", "max_line_length": 101, "num_lines": 86, "path": "/ML_Assignment3/kmeans.py", "repo_name": "darshilgit/MachineLearning", "src_encoding": "UTF-8", "text": "import pandas as p\nimport numpy as np\nfrom matplotlib import pyplot as plt\n\n\ninput_data = p.read_csv('iris.data', delimiter=',')\n# input_data.insert(0,'x0',1)\ninput_x = input_data[['x0', 'x1', 'x2', 'x3']]\n# input_y = input_data[['x4']]\n# input_y = input_y.replace({'Iris-setosa': 1, 'Iris-versicolor': 2, 'Iris-virginica': 3})\n\npoint_to_centroid = [-1]150\ncount = 0\n\n\ndef calculate_centroid(k):\n centroids = input_x.sample(k)\n centroids.index = range(k)\n return centroids\n\n\ndef calculate_distance(centroids):\n for i in range(len(input_x)):\n point = input_x.loc[i]\n centroid_index = -1\n min_distance = 1000\n for j in range(len(centroids)):\n difference = centroids.values[j] - point.values\n difference = np.square(difference)\n distance = np.sum(difference)\n if min_distance > distance:\n min_distance = distance\n centroid_index = j\n point_to_centroid[i] = centroid_index\n\n\ndef update_centroid(point_to_centroid, input_x, centroids):\n input_x = input_x.values\n for i in range(len(centroids)):\n sum = np.zeros(len(centroids.values[0]))\n count = 0\n for j in range(len(input_x)):\n if i == point_to_centroid[j]:\n count += 1\n sum = sum + input_x[j]\n centroids.loc[i:i, :] = sum/count\n return centroids\n\n\ndef k_means(centroids, iter):\n while iter > 0:\n calculate_distance(centroids)\n centroids = update_centroid(point_to_centroid, input_x, centroids)\n iter -= 1\n return centroids\n\n\n# https://www.linkedin.com/pulse/finding-optimal-number-clusters-k-means-through-elbow-asanka-perera/\n# The below method uses the elbow method to find out the optimal number of clusters.\n# The graph shows that the number of clusters should be 3.\ndef wcss(centroids, point_to_centroid):\n squared_difference = 0.0\n for i in range(len(input_x)):\n point = input_x.loc[i]\n centroid_of_class_of_point = centroids.loc[point_to_centroid[i]]\n difference = centroid_of_class_of_point.values - point.values\n squared_difference += np.sum(np.square(difference))\n return (squared_difference)\n\nplot_wss = []\n\n\n# for K = 3, the range will be (1,4), so that the plot starts from K = 1\ndef perform_kmeans(k):\n for i in range(1, k+1):\n centroids = calculate_centroid(i)\n centroids = k_means(centroids, 5)\n plot_wss.append(wcss(centroids, point_to_centroid))\n\n plt.plot(range(1, k+1), plot_wss, 'rx-')\n plt.xlabel('k')\n plt.ylabel('Within Cluster Sum Of Errors')\n plt.show()\n\n\nperform_kmeans(3)\n" }, { "alpha_fraction": 0.6167664527893066, "alphanum_fraction": 0.6556886434555054, "avg_line_length": 21.33333396911621, "blob_id": "eed0bf67a0899f9ab5f4d7c7b75af114c384caa0", "content_id": "5aabbbff519508b0498a16758fdeea0566c0cca0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 334, "license_type": "no_license", "max_line_length": 98, "num_lines": 15, "path": "/ML_Assignment3/readme.txt", "repo_name": "darshilgit/MachineLearning", "src_encoding": "UTF-8", "text": "Name: Darshil Parikh\nID: 1001557968\n\nInstructions:\n----->Python3 program file:\n kmeans.py\n\n----->Python program written in Python3 and used numpy, matplotlib and pandas library.\n\n----->To run:\n python kmeans.py\n\n----->The output shows the graph plotting K (number of clusters v/s Within cluster sum of errors).\n\n-----> K = 3" }, { "alpha_fraction": 0.6322250366210938, "alphanum_fraction": 0.6480818390846252, "avg_line_length": 40.61701965332031, "blob_id": "3a374f177b4ebd36b803216970cdf0165ab5735c", "content_id": "287ba49f5e4fbca50b337e79088b956df63773eb", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1955, "license_type": "no_license", "max_line_length": 150, "num_lines": 47, "path": "/ML_Assignment1/linear_regression.py", "repo_name": "darshilgit/MachineLearning", "src_encoding": "UTF-8", "text": "import pandas as p\nimport numpy as np\n\n\n# To calculate slope\ndef beta_calculation(input_x, input_y):\n dot_transpose_arr = input_x.transpose().dot(input_x)\n input_x_inverse = np.linalg.pinv(dot_transpose_arr)\n input_x_transpose_y = input_x.transpose().dot(input_y)\n m = input_x_inverse.dot(input_x_transpose_y)\n return m\n\n\ndef calculate_y(input_x, beta):\n y = input_x.dot(beta)\n return y\n\n\n# K- fold cross validation and calculation of error rates and accuracy\ndef k_fold(folds_count, input_data):\n error_rate = []\n input_x = input_data[['x0', 'x1', 'x2', 'x3', 'x4']]\n input_y = input_data[['x5']]\n input_y = input_y.replace({'Iris-setosa': 1, 'Iris-versicolor': 2, 'Iris-virginica': 3})\n folds_input = np.array_split(input_x, folds_count)\n folds_output = np.array_split(input_y, folds_count)\n for i in range(folds_count):\n testing_data_x = folds_input.pop(i)\n training_data_x = np.concatenate(folds_input)\n testing_data_y = folds_output.pop(i)\n training_data_y = np.concatenate(folds_output)\n beta = beta_calculation(training_data_x, training_data_y)\n y = calculate_y(testing_data_x, beta)\n residual = np.array(y) - np.array(testing_data_y)\n sum = np.sum((np.power(residual, 2)))\n error_rate.append(sum/len(testing_data_x))\n folds_input.insert(i, testing_data_x)\n folds_output.insert(i, testing_data_y)\n print(\"The error rate for fold {} is {}\".format(i+1, error_rate[i]))\n print(\"The average error rate for {} folds is: {}\".format(folds_count, np.sum(error_rate)/folds_count))\n print(\"The accuracy is: {0:.2f}%\".format(100 - (np.sum(error_rate)/folds_count) * 100))\n #return np.sum(error_rate)/folds_count, 100 - (np.sum(error_rate)/folds_count) * 100, np.min(error_rate), error_rate.index(np.min(error_rate)) + 1\n\n\ninput_data = p.read_csv('iris.data', delimiter=',')\ninput_data.insert(0,'x0',1)\nk_fold(15, input_data)" } ]	6
Isaacg94/personal-blog	https://github.com/Isaacg94/personal-blog	47cc9036a85d0928d816a523188636be1a1c6ed5	be4bc49655c5dd17664e7532ae9ceef31161157a	440f868dd3d3bfe9bbeb8350eeac19741550537c	refs/heads/master	2022-12-14T00:26:46.175694	2021-04-30T23:43:43	2021-04-30T23:43:43	217,496,372	0	0	null	2019-10-25T09:11:21	2021-04-30T23:43:50	2022-12-08T06:47:24	Python	[ { "alpha_fraction": 0.6829268336296082, "alphanum_fraction": 0.7804877758026123, "avg_line_length": 23.799999237060547, "blob_id": "435ad152f52b23eb1f2c2e20f3455d85a95c0940", "content_id": "fbb7c78aa0b73fc7b4615191d0a4c2a7ebcfd3cb", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 123, "license_type": "permissive", "max_line_length": 33, "num_lines": 5, "path": "/start.sh", "repo_name": "Isaacg94/personal-blog", "src_encoding": "UTF-8", "text": "export SECRET_KEY='1234567890'\nexport MAIL_USERNAME='[email protected]'\nexport MAIL_PASSWORD='iG0715626693'\n\npython3.6 manage.py server" }, { "alpha_fraction": 0.6439393758773804, "alphanum_fraction": 0.6439393758773804, "avg_line_length": 23.924528121948242, "blob_id": "974f9a6e8c8749cffb28eb26dec0a678fc1863e7", "content_id": "2e3d1493f3a9fa0ff4f06e6a5090a14c3d97517d", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1320, "license_type": "permissive", "max_line_length": 85, "num_lines": 53, "path": "/app/request.py", "repo_name": "Isaacg94/personal-blog", "src_encoding": "UTF-8", "text": "import urllib.request,json\nfrom .models import Quote\n\n\n# Getting the movie base url\nbase_url = None\n\n\ndef configure_request(app):\n base_url = app.config['QUOTE_BASE_URL']\n\ndef get_quotes():\n '''\n Function that gets the json response to our url request\n '''\n get_quotes_url = base_url.format()\n\n with urllib.request.urlopen(get_quotes_url) as url:\n get_quotes_data = url.read()\n get_quotes_response = json.loads(get_quotes_data)\n\n quote_results = None\n\n if get_quotes_response['results']:\n quote_results_list = get_quotes_response['results']\n quote_results = process_results(quote_results_list)\n\n\n return quote_results\n\n\ndef process_results(quote_list):\n '''\n Function that processes the quote result and transform them to a list of Objects\n\n Args:\n quote_list: A list of dictionaries that contain quote details\n\n Returns :\n quote_results: A list of quote objects\n '''\n quote_results = []\n\n for quote_item in quote_list:\n author = quote_item.get('author')\n id = quote_item.get('id')\n quote = quote_item.get('quote')\n permalink = quote_item.get('permalink')\n \n quote_object = Quote(author,id,quote,permalink)\n quote_results.append(quote_object)\n\n return quote_results" }, { "alpha_fraction": 0.6571428775787354, "alphanum_fraction": 0.6647619009017944, "avg_line_length": 31.75, "blob_id": "ed428f847b42f748e704c43a5a22d7faad7f8ccc", "content_id": "4025c6ed509fabf815781e8b9ff8b119a152f9f6", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 525, "license_type": "permissive", "max_line_length": 181, "num_lines": 16, "path": "/tests/test_quote.py", "repo_name": "Isaacg94/personal-blog", "src_encoding": "UTF-8", "text": "import unittest\nfrom app.models import Quote\n\nclass QuoteTest(unittest.TestCase):\n '''\n Test Class to test the behaviour of the Quote class\n '''\n\n def setUp(self):\n '''\n Set up method that will run before every Test\n '''\n self.new_quote = Quote(\"James O. Coplien\",23,\"You should name a variable using the same care with which you name a first-born child.\",\"http://quotes.stormconsultancy.co.uk/quotes/23\")\n\n def test_instance(self):\n self.assertTrue(isinstance(self.new_quote,Quote))\n\n" }, { "alpha_fraction": 0.6371084451675415, "alphanum_fraction": 0.6457831263542175, "avg_line_length": 36.07143020629883, "blob_id": "d77c08e5e73b0027c9824d7fb5408e8fcd480583", "content_id": "444157a1e8d83ff75b9891883b6b0f5bc8a620ef", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 2075, "license_type": "permissive", "max_line_length": 320, "num_lines": 56, "path": "/README.md", "repo_name": "Isaacg94/personal-blog", "src_encoding": "UTF-8", "text": "# Personal Blog\n\n![alt text](app/static/images/screenshot1.png)\n\n### Author\n [Isaac Gichuru.](https://github.com/Isaacg94)\n\n## Description\n\nA web application made using Python's Flask that allows a user to create blog posts on the webpage.\n\n[Live-Link to site.](https://personal-blog-isaac.herokuapp.com/)\n## Features\n* A landing page with a list of all the posted blogs.\n* A display of random quotes.\n* A link to create a new blog posts.\n* A navigation bar with options to sign-in, navigate to your profile, sign-out and navigate back to the home-page.\n* A link to navigate to the full blog post.\n* An option to delete the post once on the full blog post.\n* An option to comment on the blog post.\n\n\n## Behaviour Driven Development (BDD)\n\|Behaviour \t \| Input \t \| Output \|\n\|----------------------------------------------\|:-----------------------------------:\|-----------------------------:\| \n\| Page loads, landing page with a list of all the posted blogs appears. \| The user, after signing-up or signing-into their account as a writer, can click on add new, and submit their own blogs. \| The blog-post they create is added to the list of blog posts in the landing page. \| \|\n\n\n## Setup/Installation Requirements\nHere is a run through of how to set up the application:\n* Step 1 : Clone this repository using the git clone link:\n * `git clone https://github.com/Isaacg94/personal-blog.git`\n* Step 2 : Navigate to the directory:\n * `cd personal-blog-master`\n* Step 3 : Open the directory created with your favorite IDE. If Atom type `atom .` if VSCode type `code .` . This will lauch the editor with the project setup,\n* Now feel free to hack around the project.\n\n## Known Bugs\n* Currently None.\n\n\n## Technologies Used\n\n- Python 3.6.8\n- HTML\n- CSS\n- Bootstrap 4.3.1\n\n## Support and contact details\n\nPrimary E-mail Address: [email protected]\n\n### License\nMIT License [![License: MIT](https://img.shields.io/badge/License-MIT-yellow.svg)](license/MIT)\n\nCopyright (c) 2019 Isaac Gichuru" } ]	4
tschuy/gpi-web	https://github.com/tschuy/gpi-web	0299797f314bc4d2d080134901fc9243e68e9914	7c077d643e7167642c61dc186ab7e577a57879de	ad57326ac249892470015c334862a1fb80a7b084	refs/heads/master	2016-09-05T13:06:10.226404	2015-06-25T06:58:33	2015-06-25T06:58:33	37,655,021	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6344647407531738, "alphanum_fraction": 0.647519588470459, "avg_line_length": 24.53333282470703, "blob_id": "26b0b9c5987b9f62fa64e07301ce33be17a07ab4", "content_id": "23c021900cd5610ce690ce4ecc168005497b877b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 383, "license_type": "no_license", "max_line_length": 70, "num_lines": 15, "path": "/README.md", "repo_name": "tschuy/gpi-web", "src_encoding": "UTF-8", "text": "GIMP Plugin Installer backend\n=============================\n\n<img align=\"right\" width=\"30%\" height=\"30%\" src=\"/api.png?raw=true\" />\n\nA simple Django-based backend for the GIMP Plugin Installer.\n\nTODO:\n\n```\n1. validate .tar.gz uploads\n a. validate they are .tar.gz files\n b. validate they contain a gpi.json file\n c. validate the gpi.json file contains required fields\n```\n" }, { "alpha_fraction": 0.6767676472663879, "alphanum_fraction": 0.6798756718635559, "avg_line_length": 26.382978439331055, "blob_id": "9314e472ddcbfe2b9524a5f5646b6f09da145ca6", "content_id": "ee789b84b1db8ba1f5936715ead18583a436be04", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1287, "license_type": "no_license", "max_line_length": 56, "num_lines": 47, "path": "/gpi/gpi_web/models.py", "repo_name": "tschuy/gpi-web", "src_encoding": "UTF-8", "text": "import os\n\nfrom django.db import models\nfrom django.contrib.auth.models import User\n\nfrom semantic_version.django_fields import VersionField\n\ndef version_file_name(instance, filename):\n filename = '/'.join(\n [instance.project.package_name,\n unicode(instance.version),\n '{}-{}.tar.gz'.format(\n instance.project.package_name,\n unicode(instance.version))])\n\n # remove file if it exists\n if os.path.exists(filename):\n os.remove(filename)\n return filename\n\nclass Release(models.Model):\n\n def __unicode__(self):\n return unicode(self.version)\n\n file = models.FileField(upload_to=version_file_name)\n version = VersionField()\n project = models.ForeignKey('Project')\n created = models.DateTimeField(auto_now_add=True)\n modified = models.DateTimeField(auto_now=True)\n\nclass Project(models.Model):\n\n def __unicode__(self):\n return self.name\n\n name = models.CharField(max_length=50)\n package_name = models.CharField(max_length=50)\n created = models.DateTimeField(auto_now_add=True)\n modified = models.DateTimeField(auto_now=True)\n owner = models.ForeignKey(User)\n\nclass Email(models.Model):\n def __unicode__(self):\n return self.email\n\n email = models.EmailField(unique=True)\n" }, { "alpha_fraction": 0.6666666865348816, "alphanum_fraction": 0.6717267632484436, "avg_line_length": 24.918033599853516, "blob_id": "15aabce7c7e6fd4ea09842b29548aa92b5e9fa26", "content_id": "dc0a0d9bbd763ee6daa7d890fd201d8674caed8b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1581, "license_type": "no_license", "max_line_length": 72, "num_lines": 61, "path": "/gpi/gpi_web/views.py", "repo_name": "tschuy/gpi-web", "src_encoding": "UTF-8", "text": "from django.http import JsonResponse\nfrom django.shortcuts import get_object_or_404, render\nfrom django.views.decorators.http import require_POST\nfrom django.core.exceptions import ValidationError\nfrom django.core.validators import validate_email\nfrom django.db import IntegrityError\n\nimport json\n\nfrom gpi.gpi_web.models import Release, Project, Email\nfrom gpi.gpi_web.serializer import PackageSerializer\n\ndef project_details(request, name=None):\n project = get_object_or_404(Project, package_name=name)\n\n serializer = PackageSerializer()\n\n data = json.loads(\n serializer.serialize(\n [project],\n use_natural_foreign_keys=True\n )[1:-1]\n )\n\n return JsonResponse(data)\n\n\ndef project_list(request):\n projects = Project.objects.all()\n\n serializer = PackageSerializer()\n\n data = json.loads(\n serializer.serialize(\n projects,\n use_natural_foreign_keys=True\n )\n )\n\n return JsonResponse(data, safe=False)\n\n\n\ndef index(request):\n return render(request, 'index.html', {})\n\n\n@require_POST\ndef email(request):\n try:\n print request.GET.get('email')\n validate_email(request.GET.get('email'))\n email = Email.objects.create(email=request.GET.get('email'))\n except IntegrityError:\n return JsonResponse(\n {'status': False, 'errortext': \"You've already signed up!\"})\n except ValidationError:\n return JsonResponse(\n {'status': False, 'errortext': 'Invalid email address!'})\n else:\n return JsonResponse({'status': True})\n" }, { "alpha_fraction": 0.7873134613037109, "alphanum_fraction": 0.7873134613037109, "avg_line_length": 16.866666793823242, "blob_id": "b9d779743722e75371a737f5bcf59dfbbaf28dbf", "content_id": "4c7e874aea75e562d0d93f4c9a440d49d30548b7", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 268, "license_type": "no_license", "max_line_length": 47, "num_lines": 15, "path": "/gpi/gpi_web/admin.py", "repo_name": "tschuy/gpi-web", "src_encoding": "UTF-8", "text": "from django.contrib import admin\nfrom gpi.gpi_web.models import Release, Project\n\n\n\nclass ReleaseAdmin(admin.ModelAdmin):\n pass\n\n\nclass ProjectAdmin(admin.ModelAdmin):\n pass\n\n\nadmin.site.register(Release, ReleaseAdmin)\nadmin.site.register(Project, ProjectAdmin)\n" }, { "alpha_fraction": 0.5058479309082031, "alphanum_fraction": 0.5058479309082031, "avg_line_length": 28.7391300201416, "blob_id": "4861da5dfd289626a3add304e97c7a99d89b37be", "content_id": "78fa146c9536c5eaff222afb40a38841dc48a4dc", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 684, "license_type": "no_license", "max_line_length": 56, "num_lines": 23, "path": "/gpi/gpi_web/serializer.py", "repo_name": "tschuy/gpi-web", "src_encoding": "UTF-8", "text": "from django.core.serializers import json\nfrom gpi.gpi_web.models import Project, Release\n\n\nclass PackageSerializer(json.Serializer):\n\n def get_dump_object(self, obj):\n self._current['id'] = obj.id\n\n if isinstance(obj, Project):\n self._current['releases'] = [\n {\n 'file': release.file.url,\n 'version': str(release.version)\n }\n for release in sorted(\n obj.release_set.all(),\n key=lambda o: o.version,\n reverse=True) \n ]\n self._current['owner'] = obj.owner.username;\n\n return self._current\n" }, { "alpha_fraction": 0.5981308221817017, "alphanum_fraction": 0.5981308221817017, "avg_line_length": 25.75, "blob_id": "273b490cf5a715f8c50016f5c0a49b1ba49c4a6c", "content_id": "71351bdad21b9bc2d7aac6a0b814e998d073ac5d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 321, "license_type": "no_license", "max_line_length": 44, "num_lines": 12, "path": "/gpi/gpi_web/urls.py", "repo_name": "tschuy/gpi-web", "src_encoding": "UTF-8", "text": "from django.conf.urls import patterns\nfrom django.conf.urls import url\n\nurlpatterns = patterns(\n '',\n url(r'^package/(?P<name>[^/]+)/?$',\n 'gpi.gpi_web.views.project_details',\n name='package-details'),\n url(r'^packages/?$',\n 'gpi.gpi_web.views.project_list',\n name='package-list'),\n)\n" }, { "alpha_fraction": 0.6277777552604675, "alphanum_fraction": 0.6305555701255798, "avg_line_length": 31.727272033691406, "blob_id": "8f227c3cde391701c6d8a88a04a7d189a90f64ea", "content_id": "7b0b30761f2e0bce2b76d77e3c99a807808a36d6", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "JavaScript", "length_bytes": 720, "license_type": "no_license", "max_line_length": 112, "num_lines": 22, "path": "/gpi/gpi_web/static/list.js", "repo_name": "tschuy/gpi-web", "src_encoding": "UTF-8", "text": "window.onload = function() {\n request = new XMLHttpRequest();\n request.onload = processList;\n request.open('GET', '/api/packages');\n request.send();\n}\n\nfunction processList() {\n var list = JSON.parse(this.responseText);\n var item;\n var plugin_list = document.getElementById('plugin_list');\n for(var i=0; i < list.length; i++) {\n item = document.createElement(\"div\");\n item.id = list[i].package_name;\n item.innerHTML = listElement(list[i].name, list[i].releases[0].version);\n plugin_list.appendChild(item);\n }\n}\n\nfunction listElement(name, version) {\n return '<span class=\"packagename\">' + name + '</span>: <span class=\"packageversion\">' + version + '</span>';\n}\n" }, { "alpha_fraction": 0.52173912525177, "alphanum_fraction": 0.695652186870575, "avg_line_length": 16.25, "blob_id": "8876b8eeebbfcc18acce2ad74528c8345bb1cb0d", "content_id": "d6c0cf3cf4856a5bebc0b86e44a26366110023e6", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 69, "license_type": "no_license", "max_line_length": 23, "num_lines": 4, "path": "/requirements.txt", "repo_name": "tschuy/gpi-web", "src_encoding": "UTF-8", "text": "Django==1.8.2\nargparse==1.2.1\nsemantic-version==2.4.1\nwsgiref==0.1.2\n" }, { "alpha_fraction": 0.7405405640602112, "alphanum_fraction": 0.7405405640602112, "avg_line_length": 25.428571701049805, "blob_id": "8e8ed17edad2b58f3337b14befa1f88e16938a9f", "content_id": "2c8d71d254e91084c37c46ab5ffaaef339ad3ffb", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 185, "license_type": "no_license", "max_line_length": 48, "num_lines": 7, "path": "/gpi/gpi_web/__init__.py", "repo_name": "tschuy/gpi-web", "src_encoding": "UTF-8", "text": "default_app_config = 'gpi.gpi_web.YourAppConfig'\n\nfrom django.apps import AppConfig\n\nclass YourAppConfig(AppConfig):\n name = 'gpi.gpi_web'\n verbose_name = 'GIMP Plugin Installer'\n" } ]	9
AndrewLevin/Miscellaneous	https://github.com/AndrewLevin/Miscellaneous	854bd1a0361af16f8eeb0a1e6f3e15538d2bcb7f	75b2578d95bf9c0374c92806ff6203e24932b876	deaca73dc7089280c73b5ea659cc2941a4778b9e	refs/heads/master	2020-12-11T07:25:51.663455	2020-06-27T05:45:43	2020-06-27T05:45:43	14,106,749	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.292362779378891, "alphanum_fraction": 0.7780429720878601, "avg_line_length": 28.928571701049805, "blob_id": "33dfd8eb6c38d1fb00b472969a5fbbb33e178cfd", "content_id": "98cdf872cb5b6f364da1d9cfdec2e6509ebc7d47", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 838, "license_type": "no_license", "max_line_length": 66, "num_lines": 28, "path": "/plot_graph.py", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\nfrom ROOT import \nimport sys\nimport time\n\ng = TGraph()\n#g.SetPoint(0,0,2.96970000000000000e+04);\n#g.SetPoint(1,100,2.96230000000000000e+04);\n#g.SetPoint(2,200,2.94580000000000000e+04);\n#g.SetPoint(3,300,2.92950000000000000e+04);\n#g.SetPoint(4,400,2.91270000000000000e+04);\n#g.SetPoint(5,500,2.81330000000000000e+04);\n\ng.SetPoint(0,0,2.96970000000000000e+04/2.96970000000000000e+04);\ng.SetPoint(1,100,2.96230000000000000e+04/2.96970000000000000e+04);\ng.SetPoint(2,200,2.94580000000000000e+04/2.96970000000000000e+04);\ng.SetPoint(3,300,2.92950000000000000e+04/2.96970000000000000e+04);\ng.SetPoint(4,400,2.91270000000000000e+04/2.96970000000000000e+04);\ng.SetPoint(5,500,2.81330000000000000e+04/2.96970000000000000e+04);\n\ng.SetMarkerStyle(3)\ng.SetMarkerSize(2)\n\ng.SetLineWidth(0)\n\ng.Draw(\"AP\")\n\nraw_input(\"hit a key\")\n" }, { "alpha_fraction": 0.6268534064292908, "alphanum_fraction": 0.6359143257141113, "avg_line_length": 27.904762268066406, "blob_id": "ef2354195f57686ee0009ea7269cf3276f35e44d", "content_id": "e67d9cd1e26d4cc31d6145fbdf4692eff0912c30", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1214, "license_type": "no_license", "max_line_length": 82, "num_lines": 42, "path": "/parse_confdb_query_log.cc", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "//this macro finds trigger menus that have a given trigger in them\n//you can use a trigger name with or without a version number\n\n#include <iostream>\n#include <fstream>\n#include <vector>\n#include <string>\n\n//std::string trigger_name = \"HLT_Ele8_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL\";\nstd::string trigger_name = \"HLT_Ele8_CaloIdT_TrkIdVL_CaloIsoVL_TrkIsoVL\";\n\nstd::vector<std::string> trigger_menus;\n\nint main()\n{\n std::vector<std::string> lines;\n\n std::string line;\n std::fstream f(\"log_query_confdb_2011.dat\");\n while(!f.eof()){\n f >> line;\n lines.push_back(line);\n if(line.find(trigger_name) != std::string::npos){\n int line_number = lines.size() - 2;\n while(lines[line_number].find(\"cdaq\") == std::string::npos) line_number--;\n \n //std::cout << \"lines[line_number] = \" << lines[line_number] << std::endl\n //return 1;\n if(trigger_menus.size()== 0)\n\ttrigger_menus.push_back(lines[line_number]);\n else if(lines[line_number] != trigger_menus[trigger_menus.size()-1])\n\ttrigger_menus.push_back(lines[line_number]);\n \n }\n }\n\n for(int i = 0; i < trigger_menus.size(); i++)\n std::cout << \"trigger_menus[\" << i << \"] = \" << trigger_menus[i] << std::endl;\n\n\n\n}\n" }, { "alpha_fraction": 0.5523178577423096, "alphanum_fraction": 0.5772185325622559, "avg_line_length": 29.942623138427734, "blob_id": "e4dba04d96601c12a10f6a204810c0a77af41239", "content_id": "56782f5cd9702afa408e92f79cec1f046b450a27", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 3775, "license_type": "no_license", "max_line_length": 192, "num_lines": 122, "path": "/make_distributions_lhe.cpp", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "// c++ -o checkMomentum_00 `root-config --glibs --cflags` -lm checkMomentum_00.cpp\n#include \"LHEF.h\"\n#include <iomanip>\n#include <vector>\n#include <iostream>\n#include <string>\n#include <sstream>\n#include \"TH1.h\"\n#include \"TFile.h\"\n\n#include \"TLorentzVector.h\"\n\n// CINT does not understand some files included by LorentzVector\n#include \"Math/Vector3D.h\"\n#include \"Math/Vector4D.h\"\n\nusing namespace ROOT::Math;\nusing namespace std ;\n\nTLorentzVector buildP (const LHEF::HEPEUP & event, int iPart)\n{\n TLorentzVector dummy ;\n dummy.SetPxPyPzE (\n event.PUP.at (iPart).at (0), // px\n event.PUP.at (iPart).at (1), // py\n event.PUP.at (iPart).at (2), // pz\n event.PUP.at (iPart).at (3) // E\n ) ;\n return dummy ; \n}\n\n\nint main(int argc, char * argv) \n{\n if(argc < 2)\n {\n cout << \"Usage: \" << argv[0] \n << \" input.lhe \" << endl ;\n return -1;\n }\n\n std::ifstream ifs (argv[1]) ;\n LHEF::Reader reader (ifs) ;\n\n TH1F dielectron_mass (\"dielectron_mass\", \"dielectron_mass\", 100, 0, 300) ;\n TH1F diquark_mass (\"diquark_mass\", \"diquark_mass\", 100, 0, 100) ;\n TH1F leading_lep_pt (\"leading_lep_pt\", \"leading_lep_pt\", 100, 0, 200) ;\n TH1F trailing_lep_pt (\"trailing_lep_pt\", \"trailing_lep_pt\", 100, 0, 200) ;\n TH1F leading_quark_pt (\"leading_quark_pt\", \"leading_quark_pt\", 100, 0, 400) ;\n TH1F trailing_quark_pt (\"trailing_quark_pt\", \"trailing_quark_pt\", 100, 0, 200) ;\n\n std::vector<TLorentzVector> electrons;\n\n //PG loop over input events\n while (reader.readEvent ()) \n {\n\n std::vector<TLorentzVector> electrons;\n std::vector<TLorentzVector> quarks;\n\n if ( reader.outsideBlock.length() ) std::cout << reader.outsideBlock;\n\n // loop over particles in the event\n for (int iPart = 0 ; iPart < reader.hepeup.IDUP.size (); ++iPart) \n {\n // outgoing particles \n if (reader.hepeup.ISTUP.at (iPart) == 1)\n {\n if (abs (reader.hepeup.IDUP.at (iPart)) == 11) \n { \n TLorentzVector vec = buildP (reader.hepeup, iPart) ;\n\t\t electrons.push_back(vec);\n }\n\n\t if(abs (reader.hepeup.IDUP.at (iPart)) == 5 \|\| abs (reader.hepeup.IDUP.at (iPart)) == 6)\n\t\t std::cout << \"abs (reader.hepeup.IDUP.at (iPart)) = \" << abs (reader.hepeup.IDUP.at (iPart)) << std::endl;\n\n if (abs (reader.hepeup.IDUP.at (iPart)) == 1 \|\| abs (reader.hepeup.IDUP.at (iPart)) == 2 \|\| abs (reader.hepeup.IDUP.at (iPart)) == 3 \|\| abs (reader.hepeup.IDUP.at (iPart)) == 4)\n {\n TLorentzVector vec = buildP (reader.hepeup, iPart) ;\n quarks.push_back(vec);\n }\n \n } // outgoing particles\n } // loop over particles in the event\n\n assert(quarks.size() == 2);\n assert(electrons.size() == 2);\n\n dielectron_mass.Fill( (electrons[0] + electrons[1]).M() );\n diquark_mass.Fill( (quarks[0] + quarks[1]).M() );\n if (electrons[0].Pt() > electrons[1].Pt()){\n\tleading_lep_pt.Fill(electrons[0].Pt());\n\ttrailing_lep_pt.Fill(electrons[1].Pt());\n }\n else {\n leading_lep_pt.Fill(electrons[1].Pt());\n trailing_lep_pt.Fill(electrons[0].Pt());\n }\n\n if (quarks[0].Pt() > quarks[1].Pt()){\n leading_quark_pt.Fill(quarks[0].Pt());\n trailing_quark_pt.Fill(quarks[1].Pt());\n }\n else {\n leading_quark_pt.Fill(quarks[1].Pt());\n trailing_quark_pt.Fill(quarks[0].Pt());\n }\n\n } //PG loop over input events\n\n TFile f (\"output_distributions_00.root\", \"recreate\") ;\n dielectron_mass.Write();\n diquark_mass.Write();\n leading_lep_pt.Write();\n trailing_lep_pt.Write();\n leading_quark_pt.Write();\n trailing_quark_pt.Write();\n f.Close () ;\n\n return 0 ;\n}\n" }, { "alpha_fraction": 0.6772114634513855, "alphanum_fraction": 0.6877562999725342, "avg_line_length": 17.758241653442383, "blob_id": "d74859b5f36138d5c6b07ac7f46ee84c3649b0f4", "content_id": "ff062cfdfdf6c97f4897f3a07ee358b18a2d1996", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1707, "license_type": "no_license", "max_line_length": 90, "num_lines": 91, "path": "/printRho.cc", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "#include <memory>\n\n// user include files\n#include \"FWCore/Framework/interface/Frameworkfwd.h\"\n#include \"FWCore/Framework/interface/EDAnalyzer.h\"\n\n#include \"FWCore/Framework/interface/Event.h\"\n#include \"FWCore/Framework/interface/MakerMacros.h\"\n\n#include \"FWCore/ParameterSet/interface/ParameterSet.h\"\n#include \"FWCore/ServiceRegistry/interface/Service.h\"\n#\n\n#include <cmath>\n#include <vector>\n#include <TROOT.h>\n#include <TFile.h>\n#include <TTree.h>\n#include <TH1F.h>\n#include <TH2F.h>\n#include <TLorentzVector.h>\n#include \"TMVA/Factory.h\"\n#include \"TMVA/Tools.h\"\n#include \"TMVA/Reader.h\"\n\nusing namespace edm;\nusing namespace std;\nclass printRho : public edm::EDAnalyzer {\n public:\n explicit printRho(const edm::ParameterSet&);\n ~printRho();\n\n\n private:\n virtual void beginJob(const edm::EventSetup&) ;\n virtual void analyze(const edm::Event&, const edm::EventSetup&);\n virtual void endJob() ;\n \n ParameterSet conf_;\n \n unsigned int ev;\n\n};\n\nprintRho::printRho(const edm::ParameterSet& iConfig):\n conf_(iConfig)\n{\n\n\n\n}\n\n\nprintRho::~printRho()\n{\n \n}\n\n\nvoid\nprintRho::analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup)\n{\n\t\n Handle<double> hRho1;\n Handle<double> hRho2;\n\t\n edm::InputTag tag1(\"kt6PFJetsForIso1\",\"rho\");\n edm::InputTag tag2(\"kt6PFJetsForIso2\",\"rho\");\n iEvent.getByLabel(tag1,hRho1);\n iEvent.getByLabel(tag2,hRho2);\n\t\n\tcout << \"hRho1 = \" << hRho1 << endl;\n\tcout << \"hRho2 = \" << hRho2 << endl;\t\n\n}\n\n\n\nvoid \nprintRho::beginJob(const edm::EventSetup&)\n{\n\n}\n\n// ------------ method called once each job just after ending the event loop ------------\nvoid \nprintRho::endJob() {\n}\n\n//define this as a plug-in\nDEFINE_FWK_MODULE(printRho);\n" }, { "alpha_fraction": 0.5707547068595886, "alphanum_fraction": 0.6230345964431763, "avg_line_length": 28.929410934448242, "blob_id": "0bcb2a714faa8e28a80682df109890739de6217e", "content_id": "2ff8df698319b278752034ec69777deb64d4fe5f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 2544, "license_type": "no_license", "max_line_length": 135, "num_lines": 85, "path": "/calculate_significance.C", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "#include <iostream>\n#include <vector>\nusing namespace std;\n#include \"TROOT.h\"\n#include \"TRandom.h\"\n#include \"TFile.h\"\n#include \"TF1.h\"\n#include \"TH1.h\"\n#include \"TCanvas.h\"\n#include <limits>\n\n#ifndef ROOT_Math_DistFuncMathCore\n#include\"Math/DistFuncMathCore.h\"\n#endif\n\n\nvoid calculate_significance(int sel = 2, int nevt = 1000000, \n\t double nexp = 1.0, double nsyst = 0., int nobs = 1.0){\n\n int hist_min = max(min(ceil(nexp) - 10floor(nsyst) - 10ceil(sqrt(nexp)), ceil(nobs) - 10floor(nsyst) - 10ceil(sqrt(nexp))), 0.0);\n\n int hist_max = max(ceil(nexp) + 10floor(nsyst) + 10ceil(sqrt(nexp)),ceil(nobs)+ 10floor(nsyst) + 10ceil(sqrt(nexp)));\n\n TH1D hnevt1\t= new TH1D(\"nevt1\",\"nevt1\", hist_max-hist_min, float(hist_min)-0.5, float(hist_max)-0.5);\n TH1D hnevt2\t= new TH1D(\"nevt2\",\"nevt2\", hist_max-hist_min, float(hist_min)-0.5, float(hist_max)-0.5);\n TH1D hnevt3\t= new TH1D(\"nevt3\",\"nevt3\", hist_max-hist_min, float(hist_min)-0.5, float(hist_max)-0.5);\n double nevt1,nevt2,nevt3;\n gRandom->SetSeed(666);\n for(int i=0; i<nevt; i++){\n nevt1 = -0.1;\n while(nevt1 < 0){\n nevt1 = gRandom->Gaus(nexp,sqrt(nexp)) + \n gRandom->Gaus(0.0,nsyst);\n }\n hnevt1->Fill(nevt1);\n\n nevt2 = -0.1;\n while(nevt2 < 0){\n nevt2 = gRandom->Poisson(nexp) + \n gRandom->Gaus(0.0,nsyst);\n }\n hnevt2->Fill(nevt2);\n\n nevt3 = -0.1;\n while(nevt3 < 0){\n nevt3 = gRandom->Gaus(nexp,nsyst);\n }\n nevt3 = gRandom->Poisson(nevt3);\n hnevt3->Fill(nevt3);\n\n if(i%1000000 == 0) cout << i << endl;\n }\n hnevt1->Scale(1./hnevt1->GetSumOfWeights());\n hnevt2->Scale(1./hnevt2->GetSumOfWeights());\n hnevt3->Scale(1./hnevt3->GetSumOfWeights());\n hnevt1->SetLineColor(kRed);\n hnevt2->SetLineColor(kBlue);\n hnevt3->SetLineColor(kBlack);\n\n if (sel == 0){ // G & P & GP\n hnevt1->Draw(\"\");\n hnevt2->Draw(\"same\");\n hnevt3->Draw(\"same\");\n }\n else if(sel == 1){ // P & GP\n hnevt2->Draw(\"\");\n hnevt3->Draw(\"same\");\n }\n else if(sel == 2){ // P\n hnevt2->Draw(\"\");\n }\n\n UInt_t bin=hnevt2->GetXaxis()->FindBin(nobs);\n\n std::cout << \"hnevt2->GetXaxis()->GetBinCenter(bin) = \" << hnevt2->GetXaxis()->GetBinCenter(nobs+1) << std::endl;\n std::cout << \"nobs = \" << nobs << std::endl;\n\n assert(hnevt2->GetXaxis()->GetBinCenter(bin)==nobs);\n\n double probability = hnevt2->Integral(bin,std::numeric_limits<Int_t>::max());\n std::cout << \"probability = \" << probability << std::endl;\n double significance = ::ROOT::Math::normal_quantile_c(probability,1);\n std::cout << \"significance = \" << significance << std::endl;\n\n}\n" }, { "alpha_fraction": 0.5382208824157715, "alphanum_fraction": 0.5782198309898376, "avg_line_length": 45.201358795166016, "blob_id": "c5084e56472fb5ecc8ab830fbfd7a4e6b1252ef8", "content_id": "ffe292ee2b9689fbf06d0822b2e33c37e3d7cddc", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 74802, "license_type": "no_license", "max_line_length": 232, "num_lines": 1619, "path": "/PileupReweighting.C", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "//root -l Smurf/ReferenceAnalyses/ZllNormalization.C+\$\\\"/data/smurf/sixie/data/Run2011_Summer11_EPSHZZV0/mitf-alljets/data_2l.goodlumi1092ipb.root\\\",\\\"/data/smurf/sixie/data/Run2011_Summer11_EPSHZZV0/mitf-alljets/zll.root\\\",1.143\$\n\n#include <TROOT.h>\n#include <TFile.h>\n#include <TTree.h>\n#include <TCanvas.h>\n#include <TChain.h>\n#include <iostream>\n#include <fstream>\n#include <TClonesArray.h> \n#include \"TRandom.h\"\n#include \"TLegend.h\"\n#include \"TGraphErrors.h\"\n#include <iomanip>\n#include <TMath.h>\n#include \"Math/LorentzVector.h\"\n#include \"Math/VectorUtil.h\"\n#include \"TH1D.h\"\n#include \"TH2D.h\"\n#include \"Smurf/Core/SmurfTree.h\"\n#include \"Smurf/Core/LeptonScaleLookup.h\"\n#include \"MitAna/DataCont/interface/RunLumiRangeMap.h\"\n\n// define structures to read in ntuple\n#include \"EWKAna/Ntupler/interface/EWKAnaDefs.hh\"\n#include \"EWKAna/Ntupler/interface/TEventInfo.hh\"\n#include \"EWKAna/Ntupler/interface/TElectron.hh\"\n#include \"EWKAna/Ntupler/interface/TPhoton.hh\"\n#include \"EWKAna/Ntupler/interface/TMuon.hh\"\n#include \"EWKAna/Ntupler/interface/TJet.hh\"\n#include \"MitCommon/MathTools/interface/MathUtils.h\"\n\ntypedef ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<double> > LorentzVector; \n\n\nint verboseLevel = 0;\nconst double sigmaB = 0.35;\n\n//------------------------------------------------------------------------------\n// getTreeFromFile\n//------------------------------------------------------------------------------\nTTree getTreeFromFile(const char* infname, const char* tname)\n{\n bool verbose = false;\n\n if (verbose) {\n cout << \"--- Open file \" << infname << endl;\n }\n \n TFile* inf = new TFile(infname,\"read\");\n assert(inf);\n\n TTree* t = (TTree)inf->Get(tname);\n \n if (!t) {\n TDirectory dir = (TDirectory)inf->FindObjectAny(\"HwwNtuplerMod\");\n if (!dir) {\n cout << \"Cannot get Directory HwwNtuplerMod from file \" << infname << endl;\n assert(dir);\n }\n t = (TTree)dir->Get(tname);\n }\n\n if (!t) {\n cout << \"Cannot get Tree with name \" << tname << \" from file \" << infname << endl;\n }\n assert(t);\n\n\n if (verbose) {\n cout << \"---\\tRecovered tree \" << t->GetName()\n\t << \" with \"<< t->GetEntries() << \" entries\" << endl;\n }\n \n return t;\n}\n\n\n\n//***********************************************************************************************\n//Normalize Hist\n//**********************************************************************************************\nvoid NormalizeHist(TH1F hist) {\n Double_t norm = 0;\n hist->SetTitle(\"\");\n for (UInt_t b=0; b<hist->GetXaxis()->GetNbins()+2; ++b) {\n norm += hist->GetBinContent(b);\n }\n for (UInt_t b=0; b<hist->GetXaxis()->GetNbins()+2; ++b) {\n hist->SetBinContent(b,hist->GetBinContent(b) / norm);\n hist->SetBinError(b,hist->GetBinError(b) / norm);\n }\n\n return;\n}\n\n\n//------------------------------------------------------------------------------\n// Fill MC PU Distributions\n//------------------------------------------------------------------------------\nvoid FillMCPileupDistribution\n(\n string mcInputFile = \"/data/smurf/data/Run2011_Spring11_SmurfV6_42X/mitf-alljets/dymm.root\",\n string outputLabel = \"SmurfV6_dymm\"\n )\n{\n string outputlabel = \"\"; if (outputLabel != \"\") outputlabel = \"_\" + outputLabel;\n TH1F NPU = 0;\n TH1F NPV = 0;\n\n TFile infile = new TFile(mcInputFile.c_str(),\"READ\");\n if (infile->IsOpen()) {\n NPU = (TH1F)infile->Get(\"hNPU\"); \n NPV = (TH1F)infile->Get(\"hNVtx\"); \n }\n\n if (!NPU \|\| !NPV) {\n cout << \"The NPU and NVtx histograms could not be found from file \" << mcInputFile << endl;\n return;\n }\n\n NormalizeHist(NPU);\n NormalizeHist(NPV);\n\n //**************************************************************************\n // Data Loop\n //**************************************************************************\n TFile f = new TFile(\"PileupReweighting.root\", \"UPDATE\");\n f->WriteTObject(NPU, (\"NPU\"+outputlabel).c_str(), \"WriteDelete\");\n f->WriteTObject(NPV, (\"NPV\"+outputlabel).c_str(), \"WriteDelete\");\n f->Close();\n delete f;\n\n infile->Close();\n delete infile;\n}\n\n//------------------------------------------------------------------------------\n// Fill MC PU Distributions\n//------------------------------------------------------------------------------\nvoid FillMCPileupDistributionNtuple\n(\n string mcInputFile = \"PileupNtuple_DYmm.root\",\n string outputLabel = \"SmurfV6_dymm\"\n )\n{\n string outputlabel = \"\"; if (outputLabel != \"\") outputlabel = \"_\" + outputLabel;\n\n TFile infile = new TFile(mcInputFile.c_str(),\"READ\");\n TH1F NPU = (TH1F)infile->Get(\"hNPU\"); \n TH1F NPV = (TH1F)infile->Get(\"hNVtx\"); \n\n NormalizeHist(NPU);\n NormalizeHist(NPV);\n\n //**************************************************************************\n // Data Loop\n //**************************************************************************\n TFile f = new TFile(\"PileupReweighting.root\", \"UPDATE\");\n f->WriteTObject(NPU, (\"NPU\"+outputlabel).c_str(), \"WriteDelete\");\n f->WriteTObject(NPV, (\"NPV\"+outputlabel).c_str(), \"WriteDelete\");\n f->Close();\n delete f;\n\n infile->Close();\n delete infile;\n}\n\n\n//------------------------------------------------------------------------------\n// Fill MC PU Distributions\n//------------------------------------------------------------------------------\nvoid FillMCPileupDistributionSmurf\n(\n string mcInputFile = \"/data/smurf/data/Run2011_Spring11_SmurfV6_42X/mitf-alljets/dymm.root\",\n string outputLabel = \"SmurfV6_dymm\"\n )\n{\n string outputlabel = \"\"; if (outputLabel != \"\") outputlabel = \"_\" + outputLabel;\n\n TChain chbackground = new TChain(\"tree\");\n chbackground->Add(mcInputFile.c_str());\n TTree background = (TTree) chbackground;\n\n TH1F NPU = new TH1F((\"NPU\"+outputlabel).c_str(), \";Number of in-time pileup collisions; NEvents; \", 50, -0.5, 49.5);\n TH1F NPV = new TH1F((\"NPV\"+outputlabel).c_str(), \";Number of reconstructed primary vertices; NEvents; \", 50, -0.5, 49.5);\n\n //----------------------------------------------------------------------------\n UInt_t cuts;\n UInt_t dstype;\n UInt_t nvtx;\n UInt_t njets;\n UInt_t event;\n UInt_t run;\n UInt_t lumi;\n Float_t scale1fb;\n LorentzVector lep1 = 0;\n LorentzVector* lep2 = 0;\n LorentzVector* jet1 = 0;\n LorentzVector* jet2 = 0;\n Float_t dPhi;\n Float_t dR;\n LorentzVector* dilep = 0;\n UInt_t type;\n Float_t pmet;\n Float_t pTrackMet;\n Float_t met;\n Float_t mt;\n Float_t mt1;\n Float_t mt2;\n Float_t dPhiLep1MET;\n Float_t dPhiLep2MET;\n Float_t dPhiDiLepMET;\n Float_t dPhiDiLepJet1;\n Int_t lq1;\n Int_t lq2;\n Int_t lid1;\n Int_t lid2;\n Int_t lid3;\n Int_t processId;\n Float_t jetLowBtag;\n UInt_t nSoftMuons;\n Float_t jet1Btag;\n Float_t jet2Btag;\n Int_t \t lep1McId;\n Int_t \t lep2McId;\n Int_t \t lep1MotherMcId;\n Int_t \t lep2MotherMcId;\n UInt_t npu;\n\n\n\n //***************************************************************************\n // MC Loop\n //*************************************************************************\n\n// background->SetBranchAddress( \"cuts\" , &cuts \t );\n// background->SetBranchAddress( \"dstype\" , &dstype\t );\n background->SetBranchAddress( \"nvtx\" , &nvtx \t );\n// background->SetBranchAddress( \"njets\" , &njets\t );\n// background->SetBranchAddress( \"event\" , &event\t );\n// background->SetBranchAddress( \"scale1fb\" , &scale1fb\t );\n// background->SetBranchAddress( \"lep1\" , &lep1 \t );\n// background->SetBranchAddress( \"lep2\" , &lep2 \t );\n// background->SetBranchAddress( \"jet1\" , &jet1 \t );\n// background->SetBranchAddress( \"jet2\" , &jet2 \t );\n// background->SetBranchAddress( \"dPhi\" , &dPhi \t );\n// background->SetBranchAddress( \"dR\" , &dR\t\t );\n// background->SetBranchAddress( \"dilep\" , &dilep\t );\n// background->SetBranchAddress( \"type\" , &type \t );\n// background->SetBranchAddress( \"pmet\" , &pmet \t );\n// background->SetBranchAddress( \"pTrackMet\" , &pTrackMet\t );\n// background->SetBranchAddress( \"met\" , &met \t );\n// background->SetBranchAddress( \"mt\" , &mt\t\t );\n// background->SetBranchAddress( \"mt1\" , &mt1 \t );\n // background->SetBranchAddress( \"mt2\" , &mt2 \t );\n// background->SetBranchAddress( \"dPhiLep1MET\" , &dPhiLep1MET );\n// background->SetBranchAddress( \"dPhiLep2MET\" , &dPhiLep2MET );\n// background->SetBranchAddress( \"dPhiDiLepMET\" , &dPhiDiLepMET );\n// background->SetBranchAddress( \"dPhiDiLepJet1\" , &dPhiDiLepJet1 );\n// background->SetBranchAddress( \"lq1\" , &lq1 \t );\n// background->SetBranchAddress( \"lq2\" , &lq2 \t );\n// background->SetBranchAddress( \"lid1\" , &lid1 \t );\n// background->SetBranchAddress( \"lid2\" , &lid2 \t );\n// background->SetBranchAddress( \"lid3\" , &lid3 \t );\n// background->SetBranchAddress( \"processId\" , &processId\t );\n// background->SetBranchAddress( \"jetLowBtag\" , &jetLowBtag\t );\n// background->SetBranchAddress( \"nSoftMuons\" , &nSoftMuons\t );\n// background->SetBranchAddress( \"jet1Btag\" , &jet1Btag\t );\n// background->SetBranchAddress( \"jet2Btag\" , &jet2Btag\t );\n// background->SetBranchAddress( \"lep1McId\" , &lep1McId\t );\n// background->SetBranchAddress( \"lep2McId\" , &lep2McId\t );\n// background->SetBranchAddress( \"lep1MotherMcId\", &lep1MotherMcId );\n// background->SetBranchAddress( \"lep2MotherMcId\", &lep2MotherMcId );\n background->SetBranchAddress( \"npu\" , &npu );\n\n for (UInt_t i=0; i<background->GetEntries(); i++) {\n \n background->GetEntry(i);\n if (i%100000 == 0) printf(\"--- reading event %5d of %5d\\n\",i,(int)background->GetEntries());\n\n NPU->Fill(npu);\n NPV->Fill(nvtx);\n }\n printf(\"--- Finished Bgdnal loop\\n\");\n\n\n NormalizeHist(NPU);\n NormalizeHist(NPV);\n\n //*************************************************************************\n // Data Loop\n //**************************************************************************\n TFile f = new TFile(\"PileupReweighting.root\", \"UPDATE\");\n f->WriteTObject(NPU, NPU->GetName(), \"WriteDelete\");\n f->WriteTObject(NPV, NPV->GetName(), \"WriteDelete\");\n f->Close();\n\n}\n\nvoid ComputeWeights(string TargetFileName, string SourceHistName, \n string Label, Int_t lastPileupBin = 35) {\n\n TH1F targetNPU = 0;\n TH1F sourceNPU = 0;\n\n TFile targetfile = new TFile(TargetFileName.c_str(), \"READ\");\n if (targetfile->IsOpen()) targetNPU = (TH1F)targetfile->Get(\"pileup\");\n TFile sourcefile = new TFile(\"PileupReweighting.root\", \"UPDATE\");\n if (sourcefile->IsOpen()) sourceNPU = (TH1F)sourcefile->Get(SourceHistName.c_str());\n\n if (!targetNPU \|\| !sourceNPU) {\n if (!sourceNPU) {\n cout << \"Cannot find source hist : \" << SourceHistName << \"\\n\"; \n }\n if (!targetNPU) {\n cout << \"Cannot find target hist (\\\"pileup\\\") in file : \" << TargetFileName << \"\\n\"; \n\n }\n return;\n }\n\n targetNPU->SetDirectory(0);\n NormalizeHist(targetNPU);\n NormalizeHist(sourceNPU);\n\n\n TH1D ReweightingFactor = (TH1D)targetNPU->Clone(\"puWeights\");\n ReweightingFactor->SetBinContent(0,1.0);\n\n assert(lastPileupBin <= ReweightingFactor->GetXaxis()->GetNbins());\n\n for(UInt_t b=1; b < lastPileupBin; ++b) {\n if (sourceNPU->GetBinContent(b)>0) {\n ReweightingFactor->SetBinContent(b, targetNPU->GetBinContent(b) / sourceNPU->GetBinContent(b));\n } else {\n cout << \"Error: Bin \" << b << \" in source histogram has a 0 entry.\\n\";\n assert(0);\n }\n }\n\n Double_t sourceLastBin = 0;\n Double_t targetLastBin = 0;\n for(UInt_t b=lastPileupBin; b < ReweightingFactor->GetXaxis()->GetNbins()+2; ++b) {\n sourceLastBin += sourceNPU->GetBinContent(b);\n targetLastBin += targetNPU->GetBinContent(b);\n }\n if (sourceLastBin>0) {\n for (UInt_t b=lastPileupBin; b < ReweightingFactor->GetXaxis()->GetNbins()+2; ++b) {\n ReweightingFactor->SetBinContent(b, targetLastBin / sourceLastBin);\n }\n } else {\n cout << \"Error: Last Bin in source histogram is 0.\\n\";\n assert(0);\n }\n\n TFile outputfile = new TFile((\"PileupReweighting.\" + Label + \".root\").c_str(), \"UPDATE\");\n outputfile->WriteTObject(ReweightingFactor, ReweightingFactor->GetName(), \"WriteDelete\");\n outputfile->Close();\n delete outputfile;\n sourcefile->Close();\n delete sourcefile;\n targetfile->Close();\n delete targetfile;\n\n\n sourcefile = new TFile(\"PileupTargets.root\", \"UPDATE\");\n sourcefile->WriteTObject(targetNPU, (\"NPU_Target_\" + Label).c_str(), \"WriteDelete\");\n sourcefile->Close();\n delete sourcefile;\n\n}\n\n\n\n\n//------------------------------------------------------------------------------\n// Fill MC PU Distributions\n//------------------------------------------------------------------------------\nvoid ValidateReweightingSmurf(\n\n string mcInputFile = \"/data/smurf/data/Run2011_Spring11_SmurfV6_42X/mitf-alljets/dymm.root\",\n string dataInputFile = \"/data/smurf/data/Run2011_Spring11_SmurfV6_42X/mitf-alljets/data_2l.root\",\n string jsonFile = \"/data/smurf/sixie/data/auxiliar/2011Combined.json\",\n string PUReweightingFile = \"PileupReweighting.42XDYmm_To_Full2011.root\",\n string outputLabel = \"SmurfV6DYmm\"\n )\n{\n string outputlabel = \"\"; if (outputLabel != \"\") outputlabel = \"_\" + outputLabel;\n\n // ********************************************************************************************\n // Load Reweight File\n // ********************************************************************************************\n TFile fPUS4File = TFile::Open(PUReweightingFile.c_str());\n TH1D fhDPUS4 = (TH1D)(fPUS4File->Get(\"puWeights\"));\n assert(fhDPUS4);\n fhDPUS4->SetDirectory(0);\n delete fPUS4File;\n\n Bool_t hasJSON = kTRUE;\n mithep::RunLumiRangeMap rlrm;\n rlrm.AddJSONFile(jsonFile.c_str()); \n\n // *********************************************************************************************\n // Load Input files\n // ********************************************************************************************\n TChain chbackground = new TChain(\"tree\");\n chbackground->Add(mcInputFile.c_str());\n TTree background = (TTree) chbackground;\n\n TChain chdata = new TChain(\"tree\");\n chdata->Add(dataInputFile.c_str());\n TTree data = (TTree) chdata;\n\n TH1F NPV_MC = new TH1F((\"NPV_MC\"+outputlabel).c_str(), \";Number of reconstructed primary vertices; NEvents; \", 50, -0.5, 49.5);\n TH1F NPV_Data = new TH1F((\"NPV_Data\"+outputlabel).c_str(), \";Number of reconstructed primary vertices; NEvents; \", 50, -0.5, 49.5);\n TH1F Rho_MC = new TH1F((\"Rho_MC\"+outputlabel).c_str(), \";#rho (Energy density) [GeV]; NEvents; \", 50, -0.5, 49.5);\n TH1F Rho_Data = new TH1F((\"Rho_Data\"+outputlabel).c_str(), \";#rho (Energy density) [GeV]; NEvents; \", 50, -0.5, 49.5);\n \n //----------------------------------------------------------------------------\n UInt_t cuts;\n UInt_t dstype;\n UInt_t nvtx;\n UInt_t njets;\n UInt_t event;\n UInt_t run;\n UInt_t lumi;\n Float_t scale1fb;\n LorentzVector lep1 = 0;\n LorentzVector* lep2 = 0;\n LorentzVector* jet1 = 0;\n LorentzVector* jet2 = 0;\n Float_t dPhi;\n Float_t dR;\n LorentzVector* dilep = 0;\n UInt_t type;\n Float_t pmet;\n Float_t pTrackMet;\n Float_t met;\n Float_t mt;\n Float_t mt1;\n Float_t mt2;\n Float_t dPhiLep1MET;\n Float_t dPhiLep2MET;\n Float_t dPhiDiLepMET;\n Float_t dPhiDiLepJet1;\n Int_t lq1;\n Int_t lq2;\n Int_t lid1;\n Int_t lid2;\n Int_t lid3;\n Int_t processId;\n Float_t jetLowBtag;\n UInt_t nSoftMuons;\n Float_t jet1Btag;\n Float_t jet2Btag;\n Int_t \t lep1McId;\n Int_t \t lep2McId;\n Int_t \t lep1MotherMcId;\n Int_t \t lep2MotherMcId;\n UInt_t npu;\n Float_t rho;\n\n\n\n //***************************************************************************\n // MC Loop\n //**************************************************************************\n\n background->SetBranchAddress( \"cuts\" , &cuts \t );\n background->SetBranchAddress( \"nvtx\" , &nvtx \t );\n background->SetBranchAddress( \"lq1\" , &lq1 );\n background->SetBranchAddress( \"lq2\" , &lq2 );\n background->SetBranchAddress( \"lep1\" , &lep1 \t );\n background->SetBranchAddress( \"lep2\" , &lep2 \t );\n background->SetBranchAddress( \"dilep\" , &dilep\t );\n background->SetBranchAddress( \"type\" , &type \t );\n background->SetBranchAddress( \"npu\" , &npu \t );\n background->SetBranchAddress( \"auxVar0\" , &rho \t );\n\n for (UInt_t i=0; i<background->GetEntries(); i++) {\n \n background->GetEntry(i);\n if (i%100000 == 0) printf(\"--- reading event %5d of %5d\\n\",i,(int)background->GetEntries());\n\n //Select Zmumu\n if (!(((cuts & SmurfTree::Lep1FullSelection) == SmurfTree::Lep1FullSelection) \n && ((cuts & SmurfTree::Lep2FullSelection) == SmurfTree::Lep2FullSelection))) continue;\n if( lq1lq2 > 0 \t\t\t\t\t ) continue; // cut on opposite-sign leptons\n if( dilep->mass() >= 76 && dilep->mass() <= 106 \t\t ) continue; // cut on low dilepton mass\n if( lep1->pt() <= 20\t \t\t\t\t\t ) continue; // cut on leading lepton pt\n if( lep2->pt() <= 20\t \t\t\t\t\t ) continue; // cut on trailing lepton pt\n if(!(type == SmurfTree::mm) ) continue; // mumu only\n\n\n //Get PU weight\n //double mynpu = TMath::Min((double)npu,35.499);\n double mynpu = npu;\n Int_t npuxbin = fhDPUS4->GetXaxis()->FindBin(mynpu);\n Double_t weight = fhDPUS4->GetBinContent(npuxbin);\n\n NPV_MC->Fill(nvtx, weight);\n Rho_MC->Fill(rho, weight);\n }\n printf(\"--- Finished Bgdnal loop\\n\");\n\n //***************************************************************************\n // Data Loop\n //**************************************************************************\n\n data->SetBranchAddress( \"cuts\" , &cuts \t );\n data->SetBranchAddress( \"lumi\" , &lumi \t );\n data->SetBranchAddress( \"run\" , &run \t );\n data->SetBranchAddress( \"nvtx\" , &nvtx \t );\n data->SetBranchAddress( \"lq1\" , &lq1 );\n data->SetBranchAddress( \"lq2\" , &lq2 );\n data->SetBranchAddress( \"lep1\" , &lep1 \t );\n data->SetBranchAddress( \"lep2\" , &lep2 \t );\n data->SetBranchAddress( \"dilep\" , &dilep\t );\n data->SetBranchAddress( \"type\" , &type \t );\n data->SetBranchAddress( \"npu\" , &npu \t );\n data->SetBranchAddress( \"auxVar0\" , &rho \t );\n\n for (UInt_t i=0; i<data->GetEntries(); i++) {\n \n data->GetEntry(i);\n if (i%100000 == 0) printf(\"--- reading event %5d of %5d\\n\",i,(int)data->GetEntries());\n\n // not certified run? Skip to next event\n mithep::RunLumiRangeMap::RunLumiPairType rl(run, lumi); \n if(!rlrm.HasRunLumi(rl)) continue;\n\n //Select Zmumu\n if (!(((cuts & SmurfTree::Lep1FullSelection) == SmurfTree::Lep1FullSelection) \n && ((cuts & SmurfTree::Lep2FullSelection) == SmurfTree::Lep2FullSelection))) continue;\n if( lq1lq2 > 0 \t\t\t\t\t ) continue; // cut on opposite-sign leptons\n if( dilep->mass() >= 76 && dilep->mass() <= 106 \t\t ) continue; // cut on low dilepton mass\n if( lep1->pt() <= 20\t \t\t\t\t\t ) continue; // cut on leading lepton pt\n if( lep2->pt() <= 20\t \t\t\t\t\t ) continue; // cut on trailing lepton pt\n if(!(type == SmurfTree::mm) ) continue; // mumu only\n\n NPV_Data->Fill(nvtx);\n Rho_Data->Fill(rho);\n }\n printf(\"--- Finished Bgdnal loop\\n\");\n\n\n NormalizeHist(NPV_MC);\n NormalizeHist(NPV_Data);\n NormalizeHist(Rho_MC);\n NormalizeHist(Rho_Data);\n\n //***************************************************************************\n // Data Loop\n //**************************************************************************\n TFile f = new TFile(\"PileupReweightingValidation.root\", \"UPDATE\");\n f->WriteTObject(NPV_MC, NPV_MC->GetName(), \"WriteDelete\");\n f->WriteTObject(NPV_Data, NPV_Data->GetName(), \"WriteDelete\");\n f->WriteTObject(Rho_MC, Rho_MC->GetName(), \"WriteDelete\");\n f->WriteTObject(Rho_Data, Rho_Data->GetName(), \"WriteDelete\");\n f->Close();\n\n}\n\n\n\n\n\n//------------------------------------------------------------------------------\n// Fill MC PU Distributions\n//------------------------------------------------------------------------------\nvoid FillPileupNtuple(\n string outputLabel = \"SmurfV6DYmm\"\n )\n{\n string outputlabel = \"\"; if (outputLabel != \"\") outputlabel = \"_\" + outputLabel;\n\n // *********************************************************************************************\n // Ntuples\n // ********************************************************************************************\n \n UInt_t run,lumi,event;\n Int_t npu,npuMinusOne, npuPlusOne , npv;\n Float_t rho; \n Bool_t isZMuMu;\n\n\n TFile f = new TFile((\"PileupNtuple\" +outputlabel + \".root\").c_str(), \"RECREATE\");\n TTree DataTree = new TTree(\"DataEvent\", \"DataEvent\");\n DataTree->Branch(\"run\", &run, \"run/i\");\n DataTree->Branch(\"lumi\", &lumi, \"lumi/i\");\n DataTree->Branch(\"event\", &event, \"event/i\");\n DataTree->Branch(\"npu\", &npu, \"npu/I\");\n DataTree->Branch(\"npuMinusOne\", &npuMinusOne, \"npuMinusOne/I\");\n DataTree->Branch(\"npuPlusOne\", &npuPlusOne, \"npuPlusOne/I\");\n DataTree->Branch(\"npv\", &npv, \"npv/I\");\n DataTree->Branch(\"rho\", &rho, \"rho/F\");\n DataTree->Branch(\"isZMuMu\", &isZMuMu, \"isZMuMu/O\");\n\n TTree MCTree = new TTree(\"MCEvent\", \"MCEvent\");\n MCTree->Branch(\"run\", &run, \"run/i\");\n MCTree->Branch(\"lumi\", &lumi, \"lumi/i\");\n MCTree->Branch(\"event\", &event, \"event/i\");\n MCTree->Branch(\"npu\", &npu, \"npu/I\");\n MCTree->Branch(\"npuMinusOne\", &npuMinusOne, \"npuMinusOne/I\");\n MCTree->Branch(\"npuPlusOne\", &npuPlusOne, \"npuPlusOne/I\");\n MCTree->Branch(\"npv\", &npv, \"npv/I\");\n MCTree->Branch(\"rho\", &rho, \"rho/F\");\n MCTree->Branch(\"isZMuMu\", &isZMuMu, \"isZMuMu/O\");\n\n\n\n // *********************************************************************************************\n // Arrays \n // ********************************************************************************************\n mithep::TEventInfo info = new mithep::TEventInfo();\n TClonesArray electronArr = new TClonesArray(\"mithep::TElectron\");\n TClonesArray muonArr = new TClonesArray(\"mithep::TMuon\");\n TClonesArray jetArr = new TClonesArray(\"mithep::TJet\");\n TClonesArray photonArr = new TClonesArray(\"mithep::TPhoton\");\n Int_t NEvents = 0;\n\n\n // *********************************************************************************************\n // Data\n // *******************************************************************************************\n vector<string> inputfiles;\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/data/AllNtuple_HWWNtuple_r11a-dmu-m10-v1_LooseLooseSkim.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/data/AllNtuple_HWWNtuple_r11a-dmu-pr-v4_LooseLooseSkim.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/data/AllNtuple_HWWNtuple_r11a-dmu-a05-v1_LooseLooseSkim.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/data/AllNtuple_HWWNtuple_r11a-dmu-pr-v6_LooseLooseSkim.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/data/AllNtuple_HWWNtuple_r11b-dmu-pr-v1_LooseLooseSkim.root\");\n \n for (UInt_t f = 0; f < inputfiles.size(); ++f) {\n\n //****************************************************\n // Get Tree\n //*****************************************************\n TTree eventTree = getTreeFromFile(inputfiles[f].c_str(),\"Events\"); \n TBranch infoBr;\n TBranch electronBr;\n TBranch muonBr;\n TBranch jetBr;\n TBranch photonBr;\n\n\n //**************************************************************************************\n //Loop over Data Tree\n //*************************************************************************************\n // Set branch address to structures that will store the info \n eventTree->SetBranchAddress(\"Info\", &info); infoBr = eventTree->GetBranch(\"Info\");\n// eventTree->SetBranchAddress(\"Electron\", &electronArr); electronBr = eventTree->GetBranch(\"Electron\");\n eventTree->SetBranchAddress(\"Muon\", &muonArr); muonBr = eventTree->GetBranch(\"Muon\");\n\n cout << \"InputFile \" << inputfiles[f] << \" --- Total Events : \" << eventTree->GetEntries() << endl;\n for(UInt_t ientry=0; ientry < eventTree->GetEntries(); ientry++) { \t\n infoBr->GetEntry(ientry);\n\t\t\n if (ientry % 100000 == 0) cout << \"Event \" << ientry << endl;\n\n Double_t eventweight = info->eventweight;\n NEvents++;\n\n //****************************************************\n // Load the branches\n //****************************************************\n// electronArr->Clear(); \n muonArr->Clear(); \n// electronBr->GetEntry(ientry);\n muonBr->GetEntry(ientry);\n\n //dilepton preselection\n if (muonArr->GetEntries() < 2) continue;\n\n //**************************************************************************\n //loop over muon pairs\n //***************************************************************************\n Bool_t goodZMuMuEvent = kFALSE;\n for(Int_t i=0; i<muonArr->GetEntries(); i++) {\n const mithep::TMuon mu1 = (mithep::TMuon)((muonArr)[i]);\n Double_t pfRelIso1 = ( mu1->ChargedIso03 + mu1->NeutralIso03_10Threshold ) / mu1->pt;\n for(Int_t j=i+1; j<muonArr->GetEntries(); j++) {\n const mithep::TMuon mu2 = (mithep::TMuon)((muonArr)[j]);\n Double_t pfRelIso2 = ( mu2->ChargedIso03 + mu2->NeutralIso03_10Threshold) / mu2->pt;\n \n mithep::FourVectorM lepton1;\n mithep::FourVectorM lepton2;\n lepton1.SetCoordinates(mu1->pt, mu1->eta, mu1->phi, 105.658369e-3 );\n lepton2.SetCoordinates(mu2->pt, mu2->eta, mu2->phi, 105.658369e-3 );\n mithep::FourVectorM dilepton = lepton1+lepton2;\n\n //require loose isolation on at least one of the two leptons to reduce background\n if (!(pfRelIso1 < 0.3 && pfRelIso2 < 0.3)) continue;\n\n //select Z peak\n if (dilepton.M() > 75.0 && dilepton.M() < 105.0) {\n //Fill These Muons\n goodZMuMuEvent = kTRUE;\n break;\n\n }\n }\n }\n if (!goodZMuMuEvent) continue;\n\n run = info->runNum;\n lumi = info->lumiSec;\n event = info->evtNum;\n npu = info->nPUEvents;\n npuMinusOne = 0;\n npuPlusOne = 0;\n npv = info->nPV0;\n rho = double(info->PileupEnergyDensity);\n isZMuMu = goodZMuMuEvent;\n\n //cout << rho << endl;\n\n DataTree->Fill();\n }\n }\n\n\n\n // ********************************************************************************************\n // MC\n // *******************************************************************************************\n inputfiles.clear();\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0000.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0001.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0002.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0003.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0004.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0005.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0006.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0007.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0008.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0009.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0010.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0011.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0012.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0013.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0014.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0015.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0016.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0017.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0018.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0019.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0020.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0021.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0022.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0023.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0024.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0025.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0026.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0027.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0028.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0029.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0030.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0031.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0032.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0033.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0034.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0035.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0036.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0037.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0038.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0039.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0040.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0041.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0042.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0043.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0044.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0045.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0046.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0047.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0048.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0049.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0050.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0051.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0052.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0053.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0054.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0055.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0056.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0057.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0059.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0061.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0062.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0063.root\");\n\n for (UInt_t f = 0; f < inputfiles.size(); ++f) {\n\n //****************************************************\n // Get Tree\n //*****************************************************\n TTree eventTree = getTreeFromFile(inputfiles[f].c_str(),\"Events\"); \n TBranch infoBr;\n TBranch electronBr;\n TBranch muonBr;\n TBranch jetBr;\n TBranch photonBr;\n\n\n //**************************************************************************************\n //Loop over MC Tree\n //*************************************************************************************\n // Set branch address to structures that will store the info \n eventTree->SetBranchAddress(\"Info\", &info); infoBr = eventTree->GetBranch(\"Info\");\n// eventTree->SetBranchAddress(\"Electron\", &electronArr); electronBr = eventTree->GetBranch(\"Electron\");\n eventTree->SetBranchAddress(\"Muon\", &muonArr); muonBr = eventTree->GetBranch(\"Muon\");\n\n cout << \"InputFile \" << inputfiles[f] << \" --- Total Events : \" << eventTree->GetEntries() << endl;\n for(UInt_t ientry=0; ientry < eventTree->GetEntries(); ientry++) { \t\n infoBr->GetEntry(ientry);\n\t\t\n if (ientry % 100000 == 0) cout << \"Event \" << ientry << endl;\n\n Double_t eventweight = info->eventweight;\n NEvents++;\n\n //****************************************************\n // Load the branches\n //****************************************************\n// electronArr->Clear(); \n muonArr->Clear(); \n// electronBr->GetEntry(ientry);\n muonBr->GetEntry(ientry);\n\n //dilepton preselection\n if (muonArr->GetEntries() < 2) continue;\n\n //**************************************************************************\n //loop over muon pairs\n //***************************************************************************\n Bool_t goodZMuMuEvent = kFALSE;\n for(Int_t i=0; i<muonArr->GetEntries(); i++) {\n const mithep::TMuon mu1 = (mithep::TMuon)((muonArr)[i]);\n Double_t pfRelIso1 = ( mu1->ChargedIso03 + mu1->NeutralIso03_10Threshold ) / mu1->pt;\n for(Int_t j=i+1; j<muonArr->GetEntries(); j++) {\n const mithep::TMuon mu2 = (mithep::TMuon)((muonArr)[j]);\n Double_t pfRelIso2 = ( mu2->ChargedIso03 + mu2->NeutralIso03_10Threshold) / mu2->pt;\n \n mithep::FourVectorM lepton1;\n mithep::FourVectorM lepton2;\n lepton1.SetCoordinates(mu1->pt, mu1->eta, mu1->phi, 105.658369e-3 );\n lepton2.SetCoordinates(mu2->pt, mu2->eta, mu2->phi, 105.658369e-3 );\n mithep::FourVectorM dilepton = lepton1+lepton2;\n\n //require loose isolation on at least one of the two leptons to reduce background\n if (!(pfRelIso1 < 0.3 && pfRelIso2 < 0.3)) continue;\n\n //select Z peak\n if (dilepton.M() > 75.0 && dilepton.M() < 105.0) {\n //Fill These Muons\n goodZMuMuEvent = kTRUE;\n break;\n\n }\n }\n }\n if (!goodZMuMuEvent) continue;\n\n run = info->runNum;\n lumi = info->lumiSec;\n event = info->evtNum;\n npu = info->nPUEvents;\n npuMinusOne = 0;\n npuPlusOne = 0;\n npv = info->nPV0;\n rho = info->PileupEnergyDensity; \n isZMuMu = goodZMuMuEvent; \n MCTree->Fill();\n\n }\n }\n\n //**************************************************************************\n // Data Loop\n //*************************************************************************\n f->WriteTObject(DataTree, \"DataTree\", \"WriteDelete\");\n f->WriteTObject(MCTree, \"MCTree\", \"WriteDelete\");\n f->Close();\n\n}\n\n\n\n\n\n//------------------------------------------------------------------------------\n// Fill MC PU Distributions\n//------------------------------------------------------------------------------\nvoid ValidateReweighting(\n string jsonFile = \"/data/smurf/sixie/data/auxiliar/2011Combined.json\",\n string PUReweightingFile = \"PileupReweighting.42XDYmm_To_Full2011.root\",\n string outputLabel = \"SmurfV6DYmm\"\n )\n{\n string outputlabel = \"\"; if (outputLabel != \"\") outputlabel = \"_\" + outputLabel;\n\n // *******************************************************************************************\n // Load Reweight File\n // ********************************************************************************************\n TFile fPUS4File = TFile::Open(PUReweightingFile.c_str());\n TH1D fhDPUS4 = (TH1D)(fPUS4File->Get(\"puWeights\"));\n assert(fhDPUS4);\n fhDPUS4->SetDirectory(0);\n delete fPUS4File;\n\n Bool_t hasJSON = kTRUE;\n mithep::RunLumiRangeMap rlrm;\n rlrm.AddJSONFile(jsonFile.c_str()); \n\n\n // *********************************************************************************************\n // Histograms\n // ********************************************************************************************\n\n TH1F NPV_MC = new TH1F((\"NPV_MC\"+outputlabel).c_str(), \";Number of reconstructed primary vertices; NEvents; \", 50, -0.5, 49.5);\n TH1F NPV_Data = new TH1F((\"NPV_Data\"+outputlabel).c_str(), \";Number of reconstructed primary vertices; NEvents; \", 50, -0.5, 49.5);\n TH1F Rho_MC = new TH1F((\"Rho_MC\"+outputlabel).c_str(), \";#rho (Energy density) [GeV]; NEvents; \", 50, -0.5, 49.5);\n TH1F Rho_Data = new TH1F((\"Rho_Data\"+outputlabel).c_str(), \";#rho (Energy density) [GeV]; NEvents; \", 50, -0.5, 49.5);\n\n\n\n\n\n // ********************************************************************************************\n // Arrays \n // ********************************************************************************************\n mithep::TEventInfo info = new mithep::TEventInfo();\n TClonesArray electronArr = new TClonesArray(\"mithep::TElectron\");\n TClonesArray muonArr = new TClonesArray(\"mithep::TMuon\");\n TClonesArray jetArr = new TClonesArray(\"mithep::TJet\");\n TClonesArray photonArr = new TClonesArray(\"mithep::TPhoton\");\n Int_t NEvents = 0;\n\n\n // *********************************************************************************************\n // Data\n // *******************************************************************************************\n vector<string> inputfiles;\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/data/AllNtuple_HWWNtuple_r11a-dmu-m10-v1_LooseLooseSkim.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/data/AllNtuple_HWWNtuple_r11a-dmu-pr-v4_LooseLooseSkim.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/data/AllNtuple_HWWNtuple_r11a-dmu-a05-v1_LooseLooseSkim.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/data/AllNtuple_HWWNtuple_r11a-dmu-pr-v6_LooseLooseSkim.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/data/AllNtuple_HWWNtuple_r11b-dmu-pr-v1_LooseLooseSkim.root\");\n \n for (UInt_t f = 0; f < inputfiles.size(); ++f) {\n\n //****************************************************\n // Get Tree\n //*****************************************************\n TTree eventTree = getTreeFromFile(inputfiles[f].c_str(),\"Events\"); \n TBranch infoBr;\n TBranch electronBr;\n TBranch muonBr;\n TBranch jetBr;\n TBranch photonBr;\n\n\n //**************************************************************************************\n //Loop over Data Tree\n //*************************************************************************************\n // Set branch address to structures that will store the info \n eventTree->SetBranchAddress(\"Info\", &info); infoBr = eventTree->GetBranch(\"Info\");\n// eventTree->SetBranchAddress(\"Electron\", &electronArr); electronBr = eventTree->GetBranch(\"Electron\");\n eventTree->SetBranchAddress(\"Muon\", &muonArr); muonBr = eventTree->GetBranch(\"Muon\");\n\n cout << \"InputFile \" << inputfiles[f] << \" --- Total Events : \" << eventTree->GetEntries() << endl;\n for(UInt_t ientry=0; ientry < eventTree->GetEntries(); ientry++) { \t\n infoBr->GetEntry(ientry);\n\t\t\n if (ientry % 100000 == 0) cout << \"Event \" << ientry << endl;\n\n Double_t eventweight = info->eventweight;\n\n mithep::RunLumiRangeMap::RunLumiPairType rl(info->runNum, info->lumiSec); \n if(!rlrm.HasRunLumi(rl)) continue; // not certified run? Skip to next event...\n\n NEvents++;\n\n //****************************************************\n // Load the branches\n //****************************************************\n// electronArr->Clear(); \n muonArr->Clear(); \n// electronBr->GetEntry(ientry);\n muonBr->GetEntry(ientry);\n\n //dilepton preselection\n if (muonArr->GetEntries() < 2) continue;\n\n //**************************************************************************\n //loop over muon pairs\n //***************************************************************************\n Bool_t goodZMuMuEvent = kFALSE;\n for(Int_t i=0; i<muonArr->GetEntries(); i++) {\n const mithep::TMuon mu1 = (mithep::TMuon)((muonArr)[i]);\n Double_t pfRelIso1 = ( mu1->ChargedIso03 + mu1->NeutralIso03_10Threshold ) / mu1->pt;\n for(Int_t j=i+1; j<muonArr->GetEntries(); j++) {\n const mithep::TMuon mu2 = (mithep::TMuon)((muonArr)[j]);\n Double_t pfRelIso2 = ( mu2->ChargedIso03 + mu2->NeutralIso03_10Threshold) / mu2->pt;\n \n mithep::FourVectorM lepton1;\n mithep::FourVectorM lepton2;\n lepton1.SetCoordinates(mu1->pt, mu1->eta, mu1->phi, 105.658369e-3 );\n lepton2.SetCoordinates(mu2->pt, mu2->eta, mu2->phi, 105.658369e-3 );\n mithep::FourVectorM dilepton = lepton1+lepton2;\n\n //require loose isolation on at least one of the two leptons to reduce background\n if (!(pfRelIso1 < 0.3 && pfRelIso2 < 0.3)) continue;\n\n //select Z peak\n if (dilepton.M() > 75.0 && dilepton.M() < 105.0) {\n //Fill These Muons\n goodZMuMuEvent = kTRUE;\n break;\n\n }\n }\n }\n if (!goodZMuMuEvent) continue;\n\n Rho_Data->Fill(info->PileupEnergyDensity);\n NPV_Data->Fill(info->nPV0); \n }\n }\n\n\n\n // ********************************************************************************************\n // MC\n // *******************************************************************************************\n inputfiles.clear();\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0000.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0001.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0002.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0003.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0004.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0005.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0006.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0007.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0008.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0009.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0010.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0011.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0012.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0013.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0014.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0015.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0016.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0017.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0018.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0019.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0020.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0021.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0022.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0023.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0024.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0025.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0026.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0027.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0028.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0029.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0030.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0031.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0032.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0033.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0034.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0035.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0036.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0037.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0038.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0039.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0040.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0041.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0042.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0043.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0044.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0045.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0046.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0047.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0048.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0049.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0050.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0051.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0052.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0053.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0054.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0055.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0056.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0057.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0059.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0061.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0062.root\");\n inputfiles.push_back(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_HWWNtuple_s11-zmmm20-powheg-v11-pu_noskim_0063.root\");\n\n for (UInt_t f = 0; f < inputfiles.size(); ++f) {\n\n //****************************************************\n // Get Tree\n //*****************************************************\n TTree eventTree = getTreeFromFile(inputfiles[f].c_str(),\"Events\"); \n TBranch infoBr;\n TBranch electronBr;\n TBranch muonBr;\n TBranch jetBr;\n TBranch photonBr;\n\n\n //**************************************************************************************\n //Loop over MC Tree\n //*************************************************************************************\n // Set branch address to structures that will store the info \n eventTree->SetBranchAddress(\"Info\", &info); infoBr = eventTree->GetBranch(\"Info\");\n// eventTree->SetBranchAddress(\"Electron\", &electronArr); electronBr = eventTree->GetBranch(\"Electron\");\n eventTree->SetBranchAddress(\"Muon\", &muonArr); muonBr = eventTree->GetBranch(\"Muon\");\n\n cout << \"InputFile \" << inputfiles[f] << \" --- Total Events : \" << eventTree->GetEntries() << endl;\n for(UInt_t ientry=0; ientry < eventTree->GetEntries(); ientry++) { \t\n infoBr->GetEntry(ientry);\n\t\t\n if (ientry % 100000 == 0) cout << \"Event \" << ientry << endl;\n\n Double_t eventweight = info->eventweight;\n NEvents++;\n\n //****************************************************\n // Load the branches\n //****************************************************\n// electronArr->Clear(); \n muonArr->Clear(); \n// electronBr->GetEntry(ientry);\n muonBr->GetEntry(ientry);\n\n //dilepton preselection\n if (muonArr->GetEntries() < 2) continue;\n\n //**************************************************************************\n //loop over muon pairs\n //***************************************************************************\n Bool_t goodZMuMuEvent = kFALSE;\n for(Int_t i=0; i<muonArr->GetEntries(); i++) {\n const mithep::TMuon mu1 = (mithep::TMuon)((muonArr)[i]);\n Double_t pfRelIso1 = ( mu1->ChargedIso03 + mu1->NeutralIso03_10Threshold ) / mu1->pt;\n for(Int_t j=i+1; j<muonArr->GetEntries(); j++) {\n const mithep::TMuon mu2 = (mithep::TMuon)((muonArr)[j]);\n Double_t pfRelIso2 = ( mu2->ChargedIso03 + mu2->NeutralIso03_10Threshold) / mu2->pt;\n \n mithep::FourVectorM lepton1;\n mithep::FourVectorM lepton2;\n lepton1.SetCoordinates(mu1->pt, mu1->eta, mu1->phi, 105.658369e-3 );\n lepton2.SetCoordinates(mu2->pt, mu2->eta, mu2->phi, 105.658369e-3 );\n mithep::FourVectorM dilepton = lepton1+lepton2;\n\n //require loose isolation on at least one of the two leptons to reduce background\n if (!(pfRelIso1 < 0.3 && pfRelIso2 < 0.3)) continue;\n\n //select Z peak\n if (dilepton.M() > 75.0 && dilepton.M() < 105.0) {\n //Fill These Muons\n goodZMuMuEvent = kTRUE;\n break;\n\n }\n }\n }\n if (!goodZMuMuEvent) continue;\n\n //Get PU weight\n double mynpu = TMath::Min((double)info->nPUEvents,35.499);\n Int_t npuxbin = fhDPUS4->GetXaxis()->FindBin(mynpu);\n Double_t weight = fhDPUS4->GetBinContent(npuxbin);\n \n Rho_MC->Fill(info->PileupEnergyDensity,weight);\n NPV_MC->Fill(info->nPV0,weight); \n }\n }\n\n\n NormalizeHist(NPV_MC);\n NormalizeHist(NPV_Data);\n NormalizeHist(Rho_MC);\n NormalizeHist(Rho_Data);\n\n //**************************************************************************\n // Data Loop\n //**************************************************************************\n TFile f = new TFile(\"PileupReweightingValidation.root\", \"UPDATE\");\n f->WriteTObject(NPV_MC, NPV_MC->GetName(), \"WriteDelete\");\n f->WriteTObject(NPV_Data, NPV_Data->GetName(), \"WriteDelete\");\n f->WriteTObject(Rho_MC, Rho_MC->GetName(), \"WriteDelete\");\n f->WriteTObject(Rho_Data, Rho_Data->GetName(), \"WriteDelete\");\n f->Close();\n\n}\n\n\n\n\n\n//------------------------------------------------------------------------------\n// Fill MC PU Distributions\n//------------------------------------------------------------------------------\nvoid ValidateReweightingNtuple(\n string inputFile = \"PileupNtuple_DYmm.root\",\n string jsonFile = \"/data/smurf/sixie/data/auxiliar/2011Combined.json\",\n string PUReweightingFile = \"PileupReweighting.42XDYmm_To_Full2011.root\",\n string outputLabel = \"SmurfV6DYmm\"\n )\n{\n string outputlabel = \"\"; if (outputLabel != \"\") outputlabel = \"_\" + outputLabel;\n\n // *********************************************************************************************\n // Load Reweight File\n // ********************************************************************************************\n TFile fPUS4File = TFile::Open(PUReweightingFile.c_str());\n TH1D fhDPUS4 = (TH1D)(fPUS4File->Get(\"puWeights\"));\n assert(fhDPUS4);\n fhDPUS4->SetDirectory(0);\n delete fPUS4File;\n\n Bool_t hasJSON = kTRUE;\n mithep::RunLumiRangeMap rlrm;\n rlrm.AddJSONFile(jsonFile.c_str()); \n\n // *********************************************************************************************\n // Load Input files\n // ********************************************************************************************* \n TChain chbackground = new TChain(\"MCTree\");\n chbackground->Add(inputFile.c_str());\n TTree background = (TTree) chbackground;\n\n TChain chdata = new TChain(\"DataTree\");\n chdata->Add(inputFile.c_str());\n TTree data = (TTree) chdata;\n\n TH1F NPV_MC = new TH1F((\"NPV_MC\"+outputlabel).c_str(), \";Number of reconstructed primary vertices; NEvents; \", 50, -0.5, 49.5);\n TH1F NPV_Data = new TH1F((\"NPV_Data\"+outputlabel).c_str(), \";Number of reconstructed primary vertices; NEvents; \", 50, -0.5, 49.5);\n TH1F Rho_MC = new TH1F((\"Rho_MC\"+outputlabel).c_str(), \";#rho (Energy density) [GeV]; NEvents; \", 50, -0.5, 49.5);\n TH1F Rho_Data = new TH1F((\"Rho_Data\"+outputlabel).c_str(), \";#rho (Energy density) [GeV]; NEvents; \", 50, -0.5, 49.5);\n\n //----------------------------------------------------------------------------\n UInt_t run,lumi,event;\n Int_t npu,npuMinusOne, npuPlusOne , npv;\n Float_t rho; \n Bool_t isZMuMu;\n\n //***************************************************************************\n // MC Loop\n //*************************************************************************\n\n background->SetBranchAddress( \"run\" , &run \t );\n background->SetBranchAddress( \"lumi\" , &lumi\t );\n background->SetBranchAddress( \"event\" , &event );\n background->SetBranchAddress( \"npu\" , &npu\t );\n background->SetBranchAddress( \"npuMinusOne\" , &npuMinusOne );\n background->SetBranchAddress( \"npuPlusOne\" , &npuPlusOne );\n background->SetBranchAddress( \"npv\" , &npv \t );\n background->SetBranchAddress( \"rho\" , &rho \t );\n background->SetBranchAddress( \"isZMuMu\" , &isZMuMu );\n\n for (UInt_t i=0; i<background->GetEntries(); i++) {\n \n background->GetEntry(i);\n if (i%100000 == 0) printf(\"--- reading event %5d of %5d\\n\",i,(int)background->GetEntries());\n\n //Select Zmumu\n if (!isZMuMu) continue;\n\n //Get PU weight\n double mynpu = TMath::Min((double)npu,25.499);\n Int_t npuxbin = fhDPUS4->GetXaxis()->FindBin(mynpu);\n Double_t weight = fhDPUS4->GetBinContent(npuxbin);\n\n NPV_MC->Fill(npv, weight);\n Rho_MC->Fill(rho, weight);\n }\n printf(\"--- Finished Bgdnal loop\\n\");\n\n //*************************************************************************\n // Data Loop\n //*************************************************************************\n\n data->SetBranchAddress( \"run\" , &run \t );\n data->SetBranchAddress( \"lumi\" , &lumi\t );\n data->SetBranchAddress( \"event\" , &event );\n data->SetBranchAddress( \"npu\" , &npu\t );\n data->SetBranchAddress( \"npuMinusOne\" , &npuMinusOne );\n data->SetBranchAddress( \"npuPlusOne\" , &npuPlusOne );\n data->SetBranchAddress( \"npv\" , &npv \t );\n data->SetBranchAddress( \"rho\" , &rho \t );\n data->SetBranchAddress( \"isZMuMu\" , &isZMuMu );\n\n for (UInt_t i=0; i<data->GetEntries(); i++) {\n \n data->GetEntry(i);\n if (i%100000 == 0) printf(\"--- reading event %5d of %5d\\n\",i,(int)data->GetEntries());\n\n // not certified run? Skip to next event\n mithep::RunLumiRangeMap::RunLumiPairType rl(run, lumi); \n if(!rlrm.HasRunLumi(rl)) continue;\n\n //Select Zmumu\n if (!isZMuMu) continue;\n\n NPV_Data->Fill(npv);\n Rho_Data->Fill(rho);\n }\n printf(\"--- Finished Bgdnal loop\\n\");\n\n\n NormalizeHist(NPV_MC);\n NormalizeHist(NPV_Data);\n NormalizeHist(Rho_MC);\n NormalizeHist(Rho_Data);\n\n //*************************************************************************\n // Data Loop\n //**************************************************************************\n TFile f = new TFile(\"PileupReweightingValidation.root\", \"UPDATE\");\n f->WriteTObject(NPV_MC, NPV_MC->GetName(), \"WriteDelete\");\n f->WriteTObject(NPV_Data, NPV_Data->GetName(), \"WriteDelete\");\n f->WriteTObject(Rho_MC, Rho_MC->GetName(), \"WriteDelete\");\n f->WriteTObject(Rho_Data, Rho_Data->GetName(), \"WriteDelete\");\n f->Close();\n\n}\n\n\n\n\n\n\n\n\nvoid DrawValidationPlots(string Label) {\n string label = \"\"; if (Label != \"\") label = \"_\" + Label;\n\n TFile f = new TFile(\"PileupReweightingValidation.root\", \"READ\");\n \n TH1F NVtx_MC = (TH1F)f->Get((\"NPV_MC\"+label).c_str());\n TH1F NVtx_Data = (TH1F)f->Get((\"NPV_Data\"+label).c_str());\n TH1F Rho_MC = (TH1F)f->Get((\"Rho_MC\"+label).c_str());\n TH1F Rho_Data = (TH1F)f->Get((\"Rho_Data\"+label).c_str());\n\n\n TCanvas cv = new TCanvas(\"cv\",\"cv\", 800,600);\n TLegend tmpLegend = new TLegend(0.6,0.75,0.93,0.90); \n tmpLegend->SetTextSize(0.04);\n tmpLegend->SetBorderSize(1);\n\n\n if (Rho_MC && Rho_Data) {\n tmpLegend->Clear();\n tmpLegend->AddEntry(Rho_MC, \"Reweighted MC\"); \n tmpLegend->AddEntry(Rho_Data, \"Data\");\n \n Rho_MC->SetMarkerColor(kRed);\n Rho_MC->SetLineColor(kRed);\n Rho_MC->SetTitle(\"\");\n Rho_MC->SetMaximum(max(double(Rho_MC->GetMaximum()),double(Rho_Data->GetMaximum())) 1.2);\n Rho_MC->GetYaxis()->SetTitleOffset(1.1);\n Rho_MC->GetXaxis()->SetTitleOffset(1.05);\n \n Rho_MC->Draw(\"hist\");\n Rho_Data->Draw(\"hist,same\");\n tmpLegend->Draw();\n \n cv->SaveAs((\"PileupReweightingValidation_Rho\" + label + \".png\").c_str());\n }\n\n if (NVtx_MC && NVtx_Data) {\n tmpLegend->Clear();\n tmpLegend->AddEntry(NVtx_MC, \"Reweighted MC\"); \n tmpLegend->AddEntry(NVtx_Data, \"Data\");\n \n NVtx_MC->SetMarkerColor(kRed);\n NVtx_MC->SetLineColor(kRed);\n NVtx_MC->SetTitle(\"\");\n NVtx_MC->SetMaximum(max(double(NVtx_MC->GetMaximum()),double(NVtx_Data->GetMaximum())) * 1.2);\n NVtx_MC->GetYaxis()->SetTitleOffset(1.1);\n NVtx_MC->GetXaxis()->SetTitleOffset(1.05);\n \n NVtx_MC->Draw(\"hist\");\n NVtx_Data->Draw(\"hist,same\");\n tmpLegend->Draw();\n \n cv->SaveAs((\"PileupReweightingValidation_NVtx\" + label + \".png\").c_str());\n }\n\n\n\n}\n\n\n\n\nvoid DrawPileupPlots() {\n\n //***********************************************************************\n //NPU Distributions\n //**********************************************************************\n TFile sourceFile = new TFile(\"PileupReweighting.root\", \"READ\");\n TFile targetFile = new TFile(\"PileupTargets.root\", \"READ\");\n \n TH1F NPU_MC = (TH1F)sourceFile->Get(\"NPU_Fall11DYmm\");\n TH1F NPU_Target_2011A = (TH1F)targetFile->Get(\"NPU_Target_Fall11DYmm_To_Run2011A\");\n TH1F NPU_Target_2011B = (TH1F)targetFile->Get(\"NPU_Target_Fall11DYmm_To_Run2011B\");\n TH1F NPU_Target_Full2011 = (TH1F)targetFile->Get(\"NPU_Target_Fall11DYmm_To_Full2011\");\n\n TCanvas cv = 0;\n TLegend tmpLegend = 0;\n\n if (NPU_MC && NPU_Target_2011A && NPU_Target_2011B && NPU_Target_Full2011) {\n cv = new TCanvas(\"cv\",\"cv\", 800,600);\n tmpLegend = new TLegend(0.6,0.75,0.93,0.90); \n tmpLegend->SetTextSize(0.04);\n tmpLegend->SetBorderSize(0);\n\n\n tmpLegend->Clear();\n tmpLegend->AddEntry(NPU_MC, \"Fall 11 MC\" , \"L\"); \n tmpLegend->AddEntry(NPU_Target_2011A, \"Target Run2011A\", \"L\"); \n tmpLegend->AddEntry(NPU_Target_2011B, \"Target Run2011B\", \"L\"); \n tmpLegend->AddEntry(NPU_Target_Full2011, \"Target Full2011\", \"L\"); \n \n NPU_MC->SetMarkerColor(kRed);\n NPU_MC->SetLineColor(kRed);\n NPU_MC->SetTitle(\"\");\n NPU_MC->SetMaximum(max(max(max(double(NPU_MC->GetMaximum()),double(NPU_Target_2011A->GetMaximum())),\n NPU_Target_2011B->GetMaximum()),NPU_Target_Full2011->GetMaximum()) 1.2);\n NPU_MC->GetYaxis()->SetTitleOffset(1.1);\n NPU_MC->GetXaxis()->SetTitleOffset(1.05);\n NPU_MC->GetXaxis()->SetRangeUser(-0.5,49.5);\n \n NPU_Target_2011A->SetLineColor(kBlue);\n NPU_Target_2011B->SetLineColor(kMagenta);\n NPU_Target_Full2011->SetLineColor(kBlack);\n NPU_MC->SetLineWidth(2);\n NPU_Target_2011A->SetLineWidth(2);\n NPU_Target_2011B->SetLineWidth(2);\n NPU_Target_Full2011->SetLineWidth(2);\n \n \n NPU_MC->Draw(\"hist\");\n NPU_Target_2011A->Draw(\"hist,same\");\n NPU_Target_2011B->Draw(\"hist,same\");\n NPU_Target_Full2011->Draw(\"hist,same\");\n tmpLegend->Draw(); \n\n cv->SaveAs(\"NPUDistributions.png\");\n } else {\n cout << \"Could not retrieve all the source or target pileup distributions.\\n\";\n }\n\n\n //***********************************************************************\n //Weights\n //**********************************************************************\n TFile f = 0;\n TH1F* Weights_Run2011A = 0;\n TH1F* Weights_Run2011B = 0;\n TH1F* Weights_Full2011 = 0;\n\n f = new TFile(\"PileupReweighting.Summer11_To_Run2011A.root\", \"READ\");\n Weights_Run2011A = (TH1F)f->Get(\"puWeights\");\n f = new TFile(\"PileupReweighting.Summer11_To_Run2011B.root\", \"READ\");\n Weights_Run2011B = (TH1F)f->Get(\"puWeights\");\n f = new TFile(\"PileupReweighting.Summer11_To_Full2011.root\", \"READ\");\n Weights_Full2011 = (TH1F)f->Get(\"puWeights\");\n\n if (Weights_Run2011A && Weights_Run2011B && Weights_Full2011) { \n tmpLegend = new TLegend(0.7,0.75,0.93,0.90); \n tmpLegend->SetTextSize(0.04);\n tmpLegend->SetBorderSize(0);\n\n tmpLegend->Clear();\n tmpLegend->AddEntry(Weights_Run2011A, \"Run2011A\", \"L\"); \n tmpLegend->AddEntry(Weights_Run2011B, \"Run2011B\", \"L\"); \n tmpLegend->AddEntry(Weights_Full2011, \"Full2011\", \"L\"); \n \n Weights_Run2011A->SetMarkerColor(kBlue);\n Weights_Run2011A->SetLineColor(kBlue);\n Weights_Run2011A->SetTitle(\"\");\n Weights_Run2011A->SetMaximum(max(max(double(Weights_Run2011A->GetMaximum()),double(Weights_Run2011B->GetMaximum())),\n Weights_Full2011->GetMaximum()) 1.2);\n Weights_Run2011A->GetYaxis()->SetTitleOffset(1.1);\n Weights_Run2011A->GetXaxis()->SetTitleOffset(1.05);\n Weights_Run2011A->GetXaxis()->SetRangeUser(-0.5,49.5);\n \n Weights_Run2011B->SetLineColor(kMagenta);\n Weights_Full2011->SetLineColor(kBlack);\n Weights_Run2011A->SetLineWidth(2);\n Weights_Run2011B->SetLineWidth(2);\n Weights_Full2011->SetLineWidth(2);\n\n Weights_Run2011A->Draw(\"hist\");\n Weights_Run2011B->Draw(\"hist,same\");\n Weights_Full2011->Draw(\"hist,same\");\n tmpLegend->Draw();\n\n cv->SaveAs(\"ReweightingFactors_Summer11Source.png\");\n } else {\n cout << \"Could not find all pileup reweighting histograms for Summer11 -> Run2011. \\n\";\n }\n\n\n f = new TFile(\"/data/smurf/sixie/data/Run2011_Fall11_MVAIDIsoCombinedHalfBkgWP/auxiliar/PileupReweighting.Fall11DYmm_To_Run2011A.root\", \"READ\");\n Weights_Run2011A = (TH1F)f->Get(\"puWeights\");\n f = new TFile(\"/data/smurf/sixie/data/Run2011_Fall11_MVAIDIsoCombinedHalfBkgWP/auxiliar/PileupReweighting.Fall11DYmm_To_Run2011B.root\", \"READ\");\n Weights_Run2011B = (TH1F)f->Get(\"puWeights\");\n f = new TFile(\"/data/smurf/sixie/data/Run2011_Fall11_MVAIDIsoCombinedHalfBkgWP/auxiliar/PileupReweighting.Fall11DYmm_To_Full2011.root\", \"READ\");\n Weights_Full2011 = (TH1F)f->Get(\"puWeights\");\n\n if (Weights_Run2011A && Weights_Run2011B && Weights_Full2011) { \n tmpLegend = new TLegend(0.7,0.75,0.93,0.90); \n tmpLegend->SetTextSize(0.04);\n tmpLegend->SetBorderSize(0);\n\n\n tmpLegend->Clear();\n tmpLegend->AddEntry(Weights_Run2011A, \"Run2011A\", \"L\"); \n tmpLegend->AddEntry(Weights_Run2011B, \"Run2011B\", \"L\"); \n tmpLegend->AddEntry(Weights_Full2011, \"Full2011\", \"L\"); \n \n Weights_Run2011A->SetMarkerColor(kBlue);\n Weights_Run2011A->SetLineColor(kBlue);\n Weights_Run2011A->SetTitle(\"\");\n Weights_Run2011A->SetMaximum(max(max(double(Weights_Run2011A->GetMaximum()),double(Weights_Run2011B->GetMaximum())),\n Weights_Full2011->GetMaximum()) 1.2);\n Weights_Run2011A->GetYaxis()->SetTitleOffset(1.1);\n Weights_Run2011A->GetXaxis()->SetTitleOffset(1.05);\n Weights_Run2011A->GetXaxis()->SetRangeUser(-0.5,49.5);\n \n Weights_Run2011B->SetLineColor(kMagenta);\n Weights_Full2011->SetLineColor(kBlack);\n Weights_Run2011A->SetLineWidth(2);\n Weights_Run2011B->SetLineWidth(2);\n Weights_Full2011->SetLineWidth(2);\n\n Weights_Run2011A->Draw(\"hist\");\n Weights_Run2011B->Draw(\"hist,same\");\n Weights_Full2011->Draw(\"hist,same\");\n tmpLegend->Draw();\n cv->SaveAs(\"ReweightingFactors_Fall11Source.png\");\n } else {\n cout << \"Could not find all pileup reweighting histograms for Fall11 -> Run2011. \\n\";\n }\n\n\n\n}\n\n\n\nvoid PileupReweighting(Int_t Option = -1) {\n\n //************************************************************************\n // Get Source Distributions from MC\n // Provide input file with the NPU histogram for ALL generated events\n //**********************************************************************\n if (Option == -1 \|\| Option == 0) {\n cout << \"******************************************************\" << endl;\n cout << \"Retrieving Source Pileup Distributions from Monte Carlo...\" << endl;\n FillMCPileupDistribution(\"/home/sixie/hist/AllNtuple/HWWNtuple/mc/AllNtuple_s11-zmmm20-powheg-v11-pu_noskim.root\",\"Summer11DYmm\");\n FillMCPileupDistribution(\"/data/blue/sixie/Smurf/MVAIDIsoCombinedHalfBkgWP/mc/AllNtuple_f11-zmmm20-powheg-v14b-pu_noskim.root\",\"Fall11DYmm\");\n }\n \n\n //**********************************************************************\n // Load Target Distributions and produce reweighting histograms\n //**********************************************************************\n if (Option == -1 \|\| Option == 1) {\n\n //Summer11 -> Run2011A\n ComputeWeights(\"/data/smurf/sixie/Pileup/PUTarget.Run2011A.160404-172619.root\",\"NPU_Summer11DYmm\",\"Summer11DYmm_To_Run2011A\", 35);\n \n //Summer11 -> Run2011B\n ComputeWeights(\"/data/smurf/sixie/Pileup/PUTarget.Run2011B.175832-180252.root\",\"NPU_Summer11DYmm\",\"Summer11DYmm_To_Run2011B\", 35);\n \n //Summer11 -> Run2011-Full\n ComputeWeights(\"/data/smurf/sixie/Pileup/PUTarget.Full2011.160404-180252.root\",\"NPU_Summer11DYmm\",\"Summer11DYmm_To_Full2011\", 35);\n\n //Fall11 -> Run2011A\n ComputeWeights(\"/data/smurf/sixie/Pileup/PUTarget.Run2011A.160404-172619.root\",\"NPU_Fall11DYmm\",\"Fall11DYmm_To_Run2011A\", 35);\n \n //Fall11 -> Run2011B\n ComputeWeights(\"/data/smurf/sixie/Pileup/PUTarget.Run2011B.175832-180252.root\",\"NPU_Fall11DYmm\",\"Fall11DYmm_To_Run2011B\", 35);\n \n //Fall11 -> Run2011-Full\n ComputeWeights(\"/data/smurf/sixie/Pileup/PUTarget.Full2011.160404-180252.root\",\"NPU_Fall11DYmm\",\"Fall11DYmm_To_Full2011\", 35);\n\n }\n\n\n\n //**********************************************************************\n // Produce Validation plots of reweighting : From SMURF\n //**********************************************************************\n if (Option == -1 \|\| Option == 2) {\n //Run2011-Full\n ValidateReweightingSmurf(\"/data/smurf/sixie/data/Run2011_Fall11_MVAIDIsoCombinedHalfBkgWP/mitf-alljets/dymm.root\",\n \"/data/smurf/sixie/data/Run2011_Fall11_MVAIDIsoCombinedHalfBkgWP/mitf-alljets/data_2l.root\",\n \"/data/smurf/sixie/data/Run2011_Fall11_MVAIDIsoCombinedHalfBkgWP/auxiliar/2011Combined.json\",\n \"/data/smurf/sixie/data/Run2011_Fall11_MVAIDIsoCombinedHalfBkgWP/auxiliar/PileupReweighting.Fall11DYmm_To_Full2011.root\",\n \"Fall11DYmm_MVAIDIsoCombinedHalfBkgWP_Full2011\");\n DrawValidationPlots(\"Fall11DYmm_MVAIDIsoCombinedHalfBkgWP_Full2011\"); \n }\n \n //**********************************************************************\n // Plots for Note\n //***********************************************************************\n if (Option == -1 \|\| Option == 3) {\n DrawPileupPlots();\n }\n\n}\n \n" }, { "alpha_fraction": 0.6390977501869202, "alphanum_fraction": 0.6541353464126587, "avg_line_length": 24.600000381469727, "blob_id": "104848b928e8fc3f2d3aed4b1c8bf342759db363", "content_id": "9866f3a313f56069142eb07400850d4591e69d55", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 133, "license_type": "no_license", "max_line_length": 64, "num_lines": 5, "path": "/relval_harvesting/upload_files.sh", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "for file in `ls \| grep __DQM`; \n do echo $file;\n python2.6 DQMUpload_Manual.py $file https://cmsweb.cern.ch/dq\\\nm/relval\ndone \n\n" }, { "alpha_fraction": 0.6026590466499329, "alphanum_fraction": 0.7541232109069824, "avg_line_length": 80.34246826171875, "blob_id": "aef8e1b5a00b8bde544ce9b688a3092cce4315ec", "content_id": "4b282c98ee3d8e4f6688784272b95e14d8303c0c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 5942, "license_type": "no_license", "max_line_length": 269, "num_lines": 73, "path": "/make_main_moriond_json.sh", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "echo \"this script will produce a json file called final.json that can be run on all of the 2012 moriond data except the run 2012 c ecal recovered dataset\"\necho \necho \"min and max run numbers for various datasets are found in the process of this and will also be printed out\"\necho \n\n#to get the min and max runs for run 2012c pr v2, do this:\nminrun_run2012c_pr_v2=`~/das_client.py --limit=100000 --query=\"run dataset=/DoubleElectron/Run2012C-PromptReco-v2/AOD \| min(run.run_number)\" \| grep = \| awk -F = '{print $2}'`\nmaxrun_run2012c_pr_v2=`~/das_client.py --limit=100000 --query=\"run dataset=/DoubleElectron/Run2012C-PromptReco-v2/AOD \| max(run.run_number)\" \| grep = \| awk -F = '{print $2}'`\n\necho minrun_run2012c_pr_v2=$minrun_run2012c_pr_v2\necho maxrun_run2012c_pr_v2=$maxrun_run2012c_pr_v2\n\npython filterJSON.py --min $minrun_run2012c_pr_v2 --max $maxrun_run2012c_pr_v2 /afs/cern.ch/cms/CAF/CMSCOMM/COMM_DQM/certification/Collisions12/8TeV/Prompt/Cert_190456-208686_8TeV_PromptReco_Collisions12_JSON.txt --output run2012c_pr_v2_all.json\n\n#to get the min and max runs for run 2012d pr v1, do this:\nminrun_run2012d_pr_v1=`~/das_client.py --limit=100000 --query=\"run dataset=/DoubleElectron/Run2012D-PromptReco-v1/AOD \| min(run.run_number)\" \| grep = \| awk -F = '{print $2}'`\nmaxrun_run2012d_pr_v1=`~/das_client.py --limit=100000 --query=\"run dataset=/DoubleElectron/Run2012D-PromptReco-v1/AOD \| max(run.run_number)\" \| grep = \| awk -F = '{print $2}'`\n\necho minrun_run2012d_pr_v1=$minrun_run2012d_pr_v1\necho maxrun_run2012d_pr_v1=$maxrun_run2012d_pr_v1\n\nfilterJSON.py --min $minrun_run2012d_pr_v1 --max $maxrun_run2012d_pr_v1 /afs/cern.ch/cms/CAF/CMSCOMM/COMM_DQM/certification/Collisions12/8TeV/Prompt/Cert_190456-208686_8TeV_PromptReco_Collisions12_JSON.txt --output run2012d_pr_v1.json\n\npython compareJSON.py --sub run2012c_pr_v2_all.json /afs/cern.ch/cms/CAF/CMSCOMM/COMM_DQM/certification/Collisions12/8TeV/Reprocessing/Cert_201191-201191_8TeV_11Dec2012ReReco-recover_Collisions12_JSON.txt run2012c_pr_v2.json\n\n#to get the min and max runs for the run 2012c 24 aug rereco, do this: \nminrun_run2012c_24_aug_v1=`~/das_client.py --limit=100000 --query=\"run dataset=/DoubleElectron/Run2012C-24Aug2012-v1/AOD \| min(run.run_number)\" \| grep = \| awk -F = '{print $2}'`\nmaxrun_run2012c_24_aug_v1=`~/das_client.py --limit=100000 --query=\"run dataset=/DoubleElectron/Run2012C-24Aug2012-v1/AOD \| max(run.run_number)\" \| grep = \| awk -F = '{print $2}'`\n\necho minrun_run2012c_24_aug_v1=$minrun_run2012c_24_aug_v1\necho maxrun_run2012c_24_aug_v1=$maxrun_run2012c_24_aug_v1\n\npython filterJSON.py --min $minrun_run2012c_24_aug_v1 --max $maxrun_run2012c_24_aug_v1 /afs/cern.ch/cms/CAF/CMSCOMM/COMM_DQM/certification/Collisions12/8TeV/Reprocessing/Cert_198022-198523_8TeV_24Aug2012ReReco_Collisions12_JSON.txt --output run2012c_24_aug_v1.json\n\n#to get the min and max runs for the run 2012b 13 july rereco, do this:\nminrun_run2012b_13_jul_v1=`~/das_client.py --limit=100000 --query=\"run dataset=/DoubleElectron/Run2012B-13Jul2012-v1/AOD \| min(run.run_number)\" \| grep = \| awk -F = '{print $2}'`\nmaxrun_run2012b_13_jul_v1=`~/das_client.py --limit=100000 --query=\"run dataset=/DoubleElectron/Run2012B-13Jul2012-v1/AOD \| max(run.run_number)\" \| grep = \| awk -F = '{print $2}'`\n\necho minrun_run2012b_13_jul_v1=$minrun_run2012b_13_jul_v1\necho maxrun_run2012b_13_jul_v1=$maxrun_run2012b_13_jul_v1\n\n\npython filterJSON.py --min $minrun_run2012b_13_jul_v1 --max $maxrun_run2012b_13_jul_v1 /afs/cern.ch/cms/CAF/CMSCOMM/COMM_DQM/certification/Collisions12/8TeV/Reprocessing/Cert_190456-196531_8TeV_13Jul2012ReReco_Collisions12_JSON_v2.txt --output run2012b_13_jul_v1.json\n\n#to get the min and max runs for the run 2012a 13 july rereco, do this:\nminrun_run2012a_13_jul_v1=`~/das_client.py --limit=100000 --query=\"run dataset=/DoubleElectron/Run2012A-13Jul2012-v1/AOD \| min(run.run_number)\" \| grep = \| awk -F = '{print $2}'`\nmaxrun_run2012a_13_jul_v1=`~/das_client.py --limit=100000 --query=\"run dataset=/DoubleElectron/Run2012A-13Jul2012-v1/AOD \| max(run.run_number)\" \| grep = \| awk -F = '{print $2}'`\n\necho minrun_run2012a_13_jul_v1=$minrun_run2012a_13_jul_v1\necho maxrun_run2012a_13_jul_v1=$maxrun_run2012a_13_jul_v1\n\n\npython filterJSON.py --min $minrun_run2012a_13_jul_v1 --max $maxrun_run2012a_13_jul_v1 /afs/cern.ch/cms/CAF/CMSCOMM/COMM_DQM/certification/Collisions12/8TeV/Reprocessing/Cert_190456-196531_8TeV_13Jul2012ReReco_Collisions12_JSON_v2.txt --output run2012a_13_jul_v1.json\n\n#to get the min and max runs for the run 2012a 13 july rereco, do this:\nminrun_run2012a_06_aug_v1=`~/das_client.py --limit=100000 --query=\"run dataset=/DoubleElectron/Run2012A-recover-06Aug2012-v1/AOD \| min(run.run_number)\" \| grep = \| awk -F = '{print $2}'`\nmaxrun_run2012a_06_aug_v1=`~/das_client.py --limit=100000 --query=\"run dataset=/DoubleElectron/Run2012A-recover-06Aug2012-v1/AOD \| max(run.run_number)\" \| grep = \| awk -F = '{print $2}'`\n\necho minrun_run2012a_06_aug_v1=$minrun_run2012a_06_aug_v1\necho maxrun_run2012a_06_aug_v1=$maxrun_run2012a_06_aug_v1\n\n\npython filterJSON.py --min $minrun_run2012a_06_aug_v1 --max $maxrun_run2012a_06_aug_v1 /afs/cern.ch/cms/CAF/CMSCOMM/COMM_DQM/certification/Collisions12/8TeV/Reprocessing/Cert_190782-190949_8TeV_06Aug2012ReReco_Collisions12_JSON.txt --output run2012a_06_aug_v1.json\n\npython compareJSON.py --or run2012a_06_aug_v1.json run2012a_13_jul_v1.json temp1.json\npython compareJSON.py --or temp1.json run2012b_13_jul_v1.json temp2.json\npython compareJSON.py --or temp2.json run2012c_24_aug_v1.json temp3.json\npython compareJSON.py --or temp3.json run2012c_pr_v2.json temp4.json\npython compareJSON.py --or temp4.json run2012d_pr_v1.json temp5.json\n\npython filterJSON.py --runs 207883,207884,207885,207886,207887,207889,207897,207898,207905,207920,207921,207922,207924,208300,208302,208303,208304,208307 temp5.json --output final.json\n\n#python compareJSON.py --diff final.json /afs/cern.ch/user/b/botta/public/moriond.json\n\n\n\n\n" }, { "alpha_fraction": 0.48169806599617004, "alphanum_fraction": 0.703920304775238, "avg_line_length": 33.44776153564453, "blob_id": "04912911639c2cd96e55d1a600292e83ebf4b93e", "content_id": "e3eb0db04b493e318f2d6e847058d01e5d40a4f3", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4617, "license_type": "no_license", "max_line_length": 55, "num_lines": 134, "path": "/plot_matrix_distribution.py", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\nimport ROOT\nimport sys\nimport time\n\ng_lo = ROOT.TGraph()\ng_nlo = ROOT.TGraph()\ng_nnlo = ROOT.TGraph()\n\ng_lo.SetPoint(g_lo.GetN(),0.05,20.182336)\ng_lo.SetPoint(g_lo.GetN(),0.15,21.945965)\ng_lo.SetPoint(g_lo.GetN(),0.25,21.426596)\ng_lo.SetPoint(g_lo.GetN(),0.35,23.87269)\ng_lo.SetPoint(g_lo.GetN(),0.45,28.818502)\ng_lo.SetPoint(g_lo.GetN(),0.55,34.673464)\ng_lo.SetPoint(g_lo.GetN(),0.65,26.892885)\ng_lo.SetPoint(g_lo.GetN(),0.75,21.468268)\ng_lo.SetPoint(g_lo.GetN(),0.85,19.91786)\ng_lo.SetPoint(g_lo.GetN(),0.95,18.493546)\ng_lo.SetPoint(g_lo.GetN(),1.05,15.9452)\ng_lo.SetPoint(g_lo.GetN(),1.15,14.046108)\ng_lo.SetPoint(g_lo.GetN(),1.25,13.445276)\ng_lo.SetPoint(g_lo.GetN(),1.35,15.21877)\ng_lo.SetPoint(g_lo.GetN(),1.45,13.720417)\ng_lo.SetPoint(g_lo.GetN(),1.55,15.115394)\ng_lo.SetPoint(g_lo.GetN(),1.65,16.356829)\ng_lo.SetPoint(g_lo.GetN(),1.75,16.021727)\ng_lo.SetPoint(g_lo.GetN(),1.85,17.318911)\ng_lo.SetPoint(g_lo.GetN(),1.95,16.878851)\ng_lo.SetPoint(g_lo.GetN(),2.05,17.434336)\ng_lo.SetPoint(g_lo.GetN(),2.15,17.129243)\ng_lo.SetPoint(g_lo.GetN(),2.25,17.882252)\ng_lo.SetPoint(g_lo.GetN(),2.35,18.010558)\ng_lo.SetPoint(g_lo.GetN(),2.45,18.708836)\ng_lo.SetPoint(g_lo.GetN(),2.55,18.782623)\ng_lo.SetPoint(g_lo.GetN(),2.65,19.079253)\ng_lo.SetPoint(g_lo.GetN(),2.75,19.06734)\ng_lo.SetPoint(g_lo.GetN(),2.85,17.120012)\ng_lo.SetPoint(g_lo.GetN(),2.95,13.758365)\ng_lo.SetPoint(g_lo.GetN(),3.05,7.8863473)\n\ng_nlo.SetPoint(g_nlo.GetN(),0.05,61.812315)\ng_nlo.SetPoint(g_nlo.GetN(),0.15,63.538465)\ng_nlo.SetPoint(g_nlo.GetN(),0.25,72.226244)\ng_nlo.SetPoint(g_nlo.GetN(),0.35,76.040618)\ng_nlo.SetPoint(g_nlo.GetN(),0.45,87.188418)\ng_nlo.SetPoint(g_nlo.GetN(),0.55,117.01416)\ng_nlo.SetPoint(g_nlo.GetN(),0.65,98.787449)\ng_nlo.SetPoint(g_nlo.GetN(),0.75,88.195913)\ng_nlo.SetPoint(g_nlo.GetN(),0.85,80.56008)\ng_nlo.SetPoint(g_nlo.GetN(),0.95,75.969792)\ng_nlo.SetPoint(g_nlo.GetN(),1.05,72.667178)\ng_nlo.SetPoint(g_nlo.GetN(),1.15,67.641138)\ng_nlo.SetPoint(g_nlo.GetN(),1.25,68.482962)\ng_nlo.SetPoint(g_nlo.GetN(),1.35,73.813457)\ng_nlo.SetPoint(g_nlo.GetN(),1.45,79.742464)\ng_nlo.SetPoint(g_nlo.GetN(),1.55,76.068351)\ng_nlo.SetPoint(g_nlo.GetN(),1.65,103.12063)\ng_nlo.SetPoint(g_nlo.GetN(),1.75,98.252312)\ng_nlo.SetPoint(g_nlo.GetN(),1.85,109.68646)\ng_nlo.SetPoint(g_nlo.GetN(),1.95,117.03894)\ng_nlo.SetPoint(g_nlo.GetN(),2.05,125.16338)\ng_nlo.SetPoint(g_nlo.GetN(),2.15,133.53065)\ng_nlo.SetPoint(g_nlo.GetN(),2.25,152.55133)\ng_nlo.SetPoint(g_nlo.GetN(),2.35,150.82231)\ng_nlo.SetPoint(g_nlo.GetN(),2.45,165.15464)\ng_nlo.SetPoint(g_nlo.GetN(),2.55,162.62968)\ng_nlo.SetPoint(g_nlo.GetN(),2.65,166.57958)\ng_nlo.SetPoint(g_nlo.GetN(),2.75,159.92769)\ng_nlo.SetPoint(g_nlo.GetN(),2.85,150.89623)\ng_nlo.SetPoint(g_nlo.GetN(),2.95,130.06561)\ng_nlo.SetPoint(g_nlo.GetN(),3.05,107.00812)\n\n\n\ng_nnlo.SetPoint(g_nnlo.GetN(),0.05,82.461103)\ng_nnlo.SetPoint(g_nnlo.GetN(),0.15,87.113347)\ng_nnlo.SetPoint(g_nnlo.GetN(),0.25,103.62749)\ng_nnlo.SetPoint(g_nnlo.GetN(),0.35,103.13198)\ng_nnlo.SetPoint(g_nnlo.GetN(),0.45,124.87503)\ng_nnlo.SetPoint(g_nnlo.GetN(),0.55,176.57992)\ng_nnlo.SetPoint(g_nnlo.GetN(),0.65,114.16505)\ng_nnlo.SetPoint(g_nnlo.GetN(),0.75,117.48842)\ng_nnlo.SetPoint(g_nnlo.GetN(),0.85,121.68561)\ng_nnlo.SetPoint(g_nnlo.GetN(),0.95,119.86266)\ng_nnlo.SetPoint(g_nnlo.GetN(),1.05,100.53376)\ng_nnlo.SetPoint(g_nnlo.GetN(),1.15,108.80469)\ng_nnlo.SetPoint(g_nnlo.GetN(),1.25,109.09014)\ng_nnlo.SetPoint(g_nnlo.GetN(),1.35,116.3345)\ng_nnlo.SetPoint(g_nnlo.GetN(),1.45,116.76453)\ng_nnlo.SetPoint(g_nnlo.GetN(),1.55,120.55771)\ng_nnlo.SetPoint(g_nnlo.GetN(),1.65,130.51237)\ng_nnlo.SetPoint(g_nnlo.GetN(),1.75,132.49733)\ng_nnlo.SetPoint(g_nnlo.GetN(),1.85,151.19879)\ng_nnlo.SetPoint(g_nnlo.GetN(),1.95,157.96184)\ng_nnlo.SetPoint(g_nnlo.GetN(),2.05,166.59733)\ng_nnlo.SetPoint(g_nnlo.GetN(),2.15,178.57583)\ng_nnlo.SetPoint(g_nnlo.GetN(),2.25,174.50319)\ng_nnlo.SetPoint(g_nnlo.GetN(),2.35,211.26635)\ng_nnlo.SetPoint(g_nnlo.GetN(),2.45,198.5929)\ng_nnlo.SetPoint(g_nnlo.GetN(),2.55,218.69121)\ng_nnlo.SetPoint(g_nnlo.GetN(),2.65,198.82625)\ng_nnlo.SetPoint(g_nnlo.GetN(),2.75,207.25926)\ng_nnlo.SetPoint(g_nnlo.GetN(),2.85,200.94703)\ng_nnlo.SetPoint(g_nnlo.GetN(),2.95,188.45073)\ng_nnlo.SetPoint(g_nnlo.GetN(),3.05,181.88261)\n\n\ng_nnlo.SetMarkerStyle(3)\ng_nnlo.SetMarkerSize(2)\n\ng_nnlo.SetLineWidth(0)\n\ng_nlo.SetMarkerStyle(3)\ng_nlo.SetMarkerSize(2)\n\ng_nlo.SetLineWidth(0)\n\ng_lo.SetMarkerStyle(3)\ng_lo.SetMarkerSize(2)\n\ng_lo.SetLineWidth(0)\n\nc=ROOT.TCanvas()\n\ng_nnlo.SetMinimum(0)\ng_nlo.SetMinimum(0)\ng_lo.SetMinimum(0)\n\ng_nnlo.Draw(\"AP\")\n#g_nlo.Draw(\"AP\")\n#g_lo.Draw(\"AP\")\n\nc.SaveAs(\"/eos/user/a/amlevin/www/tmp/delete_this.png\")\n\n" }, { "alpha_fraction": 0.3988269865512848, "alphanum_fraction": 0.5777125954627991, "avg_line_length": 19, "blob_id": "5ce56cf0ebb952327cb4f6278b551dff4de42e1a", "content_id": "1832eb607c9f6dd200eb4c047fab1867d3810331", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 341, "license_type": "no_license", "max_line_length": 68, "num_lines": 17, "path": "/memory_crash.py", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "import ROOT\n\nfor i in range(10):\n \n l1 = []\n\n for j in range(0,10):\n l1.append(ROOT.TH2D(\"\",\"\",10000,10000,0,10000,0,10000))\n\ndel l1 #if you comment this out there will be an out-of-memory crash\n\nfor i in range(10):\n \n l2 = []\n\n for j in range(0,10):\n l2.append(ROOT.TH2D(\"\",\"\",10000,10000,0,10000,0,10000))\n\n" }, { "alpha_fraction": 0.6824005246162415, "alphanum_fraction": 0.7451112866401672, "avg_line_length": 42.617645263671875, "blob_id": "f14a1711f3a2d283d714f7af05afd1e8f8e095e6", "content_id": "5a89a9a1e4ae10bcd89663b4b85ea9ee44280d3c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1483, "license_type": "no_license", "max_line_length": 154, "num_lines": 34, "path": "/run_printRho_cfg.py", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "import FWCore.ParameterSet.Config as cms\n\nprocess = cms.Process(\"DEMO\")\nprocess.load('Configuration/StandardSequences/FrontierConditions_GlobalTag_cff')\nprocess.load(\"Configuration.StandardSequences.Reconstruction_cff\")\nprocess.GlobalTag.globaltag = 'START44_V1::All' # CMSSW_4XY\n##process.GlobalTag.globaltag = 'START52_V4::All' # CMSSW_52Y\nprint \"hi\"\nprocess.source = cms.Source(\n \"PoolSource\",\n fileNames = cms.untracked.vstring(\n #'rfio:/castor/cern.ch/user/b/benedet/Fall11_DYJetsToLL_TuneZ2_M-50_7TeV-madgraph-tauola_0.root' #CMSSW_4XY\n #'root://eoscms//eos/cms//store/relval/CMSSW_5_2_2/RelValZEE/GEN-SIM-RECO//START52_V4-v3/0004/CA611CFC-9074-E111-A583-003048CF94A6.root' # CMSSW_52Y\n 'file:/data/blue/khahn/AOD/HToZZTo4L_M-120_Fall11S6.00215E21D5C4.root'\n ),\n secondaryFileNames = cms.untracked.vstring(),\n noEventSort = cms.untracked.bool(True),\n duplicateCheckMode = cms.untracked.string('noDuplicateCheck')\n )\nprint \"hi2\"\n\nprocess.maxEvents = cms.untracked.PSet(\n input = cms.untracked.int32(100)\n )\n\nprocess.kt6PFJetsForIso1 = process.kt6PFJets.clone( Rho_EtaMax = cms.double(2.5), Ghost_EtaMax = cms.double(3.1) )\nprocess.kt6PFJetsForIso2 = process.kt6PFJets.clone( Rho_EtaMax = cms.double(2.5), Ghost_EtaMax = cms.double(2.5) )\n\nprocess.demo = cms.EDAnalyzer(\"printRho\")\n\nprocess.pAna = cms.Path(process.kt6PFJetsForIso1 process.kt6PFJetsForIso2 * process.demo)\nprint \"hi3\"\n\nprocess.schedule = cms.Schedule(process.pAna)\n" }, { "alpha_fraction": 0.5979456901550293, "alphanum_fraction": 0.7168011665344238, "avg_line_length": 21.71666717529297, "blob_id": "ae1ff0793b5912cf6c28d42baea239f9bf2660c0", "content_id": "9278968204ed4cfe60685b7eb58f70bcc14e5b03", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1363, "license_type": "no_license", "max_line_length": 65, "num_lines": 60, "path": "/plot_wlwl_scattering_xs.py", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "from ROOT import \nimport sys\nimport time\n\ng_higgs = TGraph()\ng_no_higgs = TGraph()\n\ng_no_higgs.SetPoint(0,0.2,1183.64)\ng_no_higgs.SetPoint(1,0.3,1473)\ng_no_higgs.SetPoint(2,0.4,1819)\ng_no_higgs.SetPoint(3,0.5,2234)\ng_no_higgs.SetPoint(4,0.6,2734)\ng_no_higgs.SetPoint(5,0.7,3305)\ng_no_higgs.SetPoint(6,0.8,3957)\ng_no_higgs.SetPoint(7,0.9,4683)\ng_no_higgs.SetPoint(8,1.0,5517)\ng_no_higgs.SetPoint(9,1.1,6416)\n\ng_higgs.SetPoint(0,0.2,794.7)\ng_higgs.SetPoint(1,0.3,801.1)\ng_higgs.SetPoint(2,0.4,802.6)\ng_higgs.SetPoint(3,0.5,802.4)\ng_higgs.SetPoint(4,0.6,809.5)\ng_higgs.SetPoint(5,0.7,813)\ng_higgs.SetPoint(6,0.8,816.4029555)\ng_higgs.SetPoint(7,0.9,823)\ng_higgs.SetPoint(8,1,819.7)\ng_higgs.SetPoint(9,1.1,830.3)\n\n\ng_higgs.SetMarkerColor(kGreen+1)\ng_no_higgs.SetMarkerColor(kBlue)\n\ng_higgs.SetLineColor(kGreen+1)\ng_no_higgs.SetLineColor(kBlue)\n\ng_higgs.SetLineWidth(3)\ng_no_higgs.SetLineWidth(3)\n\ng_no_higgs.GetYaxis().SetTitleOffset(1.2)\ng_no_higgs.GetXaxis().SetTitle(\"$\\sqrt{s}$ (TeV)\")\ng_no_higgs.GetYaxis().SetTitle(\"cross-section (pb)\")\n\nleg=TLegend(0.2,0.6,0.4,0.8)\n\nleg.AddEntry(g_no_higgs,\"without Higgs\",\"l\")\nleg.AddEntry(g_higgs,\"with Higgs\",\"l\")\n\ng_no_higgs.SetMinimum(0)\n\ng_no_higgs.Draw()\ng_higgs.Draw(\"same\")\nleg.Draw(\"same\")\n\ngPad.SetLeftMargin(20)\n\ngPad.Update()\n#gPad.ForceUpdate()\n\ngPad.SaveAs(\"/eos/user/a/amlevin/www/tmp/wlwl_scattering_xs.png\")\n" }, { "alpha_fraction": 0.6194113492965698, "alphanum_fraction": 0.6525976061820984, "avg_line_length": 37.44810104370117, "blob_id": "397325212d743c051fab38fad49df65f46988eb1", "content_id": "c986b49498b7a30864a91b438a439c1972594dfe", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 15187, "license_type": "no_license", "max_line_length": 195, "num_lines": 395, "path": "/escaleFit.C", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "#if !defined(__CINT__) \|\| defined(__MAKECINT__)\n#include <TROOT.h> // access to gROOT, entry point to ROOT system\n#include <TSystem.h> // interface to OS\n#include <TStyle.h> // class to handle ROOT plotting style\n#include <TFile.h> // file handle class\n#include <TTree.h> // class to access ntuples\n#include <TCanvas.h> // class for drawing\n#include <TH1D.h> // 1D histograms\n#include <TH2D.h> // 2D histograms\n#include <TLatex.h> // \n#include <TGaxis.h> // \n#include <TPavesText.h> // \n#include <TBenchmark.h> // class to track macro running statistics\n#include <TEfficiency.h> // class to handle efficiency calculations\n#include <TMath.h>\n#include <vector> // STL vector class\n#include <iostream> // standard I/O\n#include <iomanip> // functions to format standard I/O\n#include <fstream> // functions for file I/O\n#include <string> // C++ string class\n#include <sstream> // class for parsing strings\n\n#include \"CPlot.hh\" // helper class for plots\n#include \"MitStyleRemix.hh\" // style settings for drawing\n//#include \"MyTools.hh\" // miscellaneous helper functions\n#include \"CEffUser1D.hh\" // class for handling efficiency graphs\n#include \"CEffUser2D.hh\" // class for handling efficiency tables\n\n//#include \"ZSignals.hh\"\n//#include \"ZBackgrounds.hh\"\n#include \"RooBreitWigner.h\"\n#include \"RooCBShape.h\"\n#include \"RooFFTConvPdf.h\"\n\n\n#endif\n\n// RooFit headers\n#include \"RooRealVar.h\"\n#include \"RooCategory.h\"\n#include \"RooDataSet.h\"\n#include \"RooDataHist.h\"\n#include \"RooFormulaVar.h\"\n#include \"RooSimultaneous.h\"\n#include \"RooAddPdf.h\"\n#include \"RooFitResult.h\"\n#include \"RooExtendPdf.h\"\n#include \"RooGenericPdf.h\"\n#include \"RooProdPdf.h\"\n#include \"RooPolynomial.h\"\n\n#include \"../MitHzz4l/macros/EnergyCorrectionData.hh\"\n\nusing namespace RooFit;\n\nTH1F puWeights;\n\nfloat puweight(float npu) {\n int npuxbin = puWeights->GetXaxis()->FindFixBin(TMath::Min(double(npu), 49.499));\n float puwgt = puWeights->GetBinContent(npuxbin);\n return puwgt; \n}\n\nvoid escaleFit(int cat=2, TString fileDir = \"/data/blue/anlevin/\") {\n\n assert(cat == 1 \|\| cat == 2);\n\n\n string label = \"\";\n if(cat == 1) label = \"barrel\";\n else if (cat == 2) label == \"endcap\";\n else\n assert(0);\n \n const TString pileupReweightFile = \"/data/blue/vdutta/htt/pileup/PUWeights_S12To2012_2968ipb.root\";\n TFile pufile = new TFile(pileupReweightFile.Data());\n puWeights = (TH1F)pufile->Get(\"puWeights\");\n\n RooCategory sample(\"sample\",\"\") ;\n sample.defineType(\"Data\", 1) ;\n sample.defineType(\"MC\", 2) ;\n\n\n //gROOT->Macro(\"MitStyleRemix.cc\");\n\n TLatex* text=new TLatex(3.5,23.5,label.c_str());\n text->SetNDC();\n text->SetTextAlign(13);\n text->SetX(0.8);//(0.940);\n text->SetY(0.95);\n text->SetTextFont(42);\n text->SetTextSize(0.035);// dflt=28\n\n TString fileNameMC;\n TString fileNameData;\n\n fileNameMC = \"electron_energy_all_s12-zllm50-2-v9.root\";\n fileNameData = \"electron_energy_all_r12a_and_r12b-del-pr-v1.root\";\n\n TFile* mcFile = new TFile( (fileDir+fileNameMC).Data() );\n TFile* dataFile = new TFile( (fileDir+fileNameData).Data() );\n\n TTree* mcTree;\n TTree* dataTree;\n\n mcTree = (TTree) mcFile ->FindObjectAny(\"Events\");\n dataTree = (TTree) dataFile->FindObjectAny(\"Events\");\n\n TString basesel = \"pt1>10.0 && pt2>10.0\";\n TString isebeb = \" && abs(eta1) < 1.479 && abs(eta2) < 1.479\";\n TString iseeee = \" && abs(eta1) > 1.479 && abs(eta2) > 1.479\";\n\n TString catsel;\n if(cat==1) catsel = isebeb;\n else if (cat==2) catsel = iseeee;\n\n RooRealVar pt1(\"pt1\",\"pT_1\",0.0,10000.0,\"GeV\");\n RooRealVar pt2(\"pt2\",\"pT_2\",0.0,10000.0,\"GeV\");\n RooRealVar eta1(\"eta1\",\"eta1\",-1000.0,1000.0);\n RooRealVar eta2(\"eta2\",\"eta2\",-1000.0,1000.0);\n RooRealVar mass(\"mass\",\"m_{ee}\",60.0,120.0,\"GeV\");\n RooRealVar npu(\"npu\",\"npu\",0,50);\n RooRealVar wgt(\"wgt\",\"wgt\",-5,1000);\n\n mass.setRange(\"zrange\",60.0,120.0);\n\n mass.setBins(120);\n mass.setBins(10000,\"cache\");\n\n RooArgSet treeSet(RooArgList(mass,pt1,pt2,eta1,eta2,wgt));\n\n RooFormulaVar puweightf(\"puweightv\",\"puweightv\",\"puweight(npu)\",RooArgList(npu));\n\n TH1D* hData = new TH1D(\"hData\",\"\",120,60.,120.);\n hData->GetYaxis()->SetTitle(\"# Events\");\n hData->GetXaxis()->SetTitle(\"m [GeV]\");\n\n TH1D* hMC = new TH1D(\"hMC\",\"\",120,60.,120.);\n hMC->GetYaxis()->SetTitle(\"# MC Events\");\n hMC->GetXaxis()->SetTitle(\"m [GeV]\");\n\n dataTree->Draw(\"mass>>hData\", (basesel+catsel).Data());\n hData = (TH1D) gPad->GetPrimitive(\"hData\");\n RooDataSet dataDS = new RooDataSet(\"dataDS\",\"\",treeSet,\"wgt\");\n\n EnergyCorrectionData electron_energy_data;\n dataTree->SetBranchAddress(\"Events\",&electron_energy_data);\n for(UInt_t i = 0; i < dataTree->GetEntries(); i++){\n dataTree->GetEntry(i);\n if(electron_energy_data.mass < 60 \|\| electron_energy_data.mass > 120) continue;\n if(cat == 1 && (fabs(electron_energy_data.eta1) > 1.479 \|\| fabs(electron_energy_data.eta2) > 1.479)) continue;\n if(cat == 2 && (fabs(electron_energy_data.eta1) < 1.479 \|\| fabs(electron_energy_data.eta2) < 1.479)) continue;\n if(electron_energy_data.pt1 < 10 \|\| electron_energy_data.pt2 < 10) continue;\n\n mass.setVal(electron_energy_data.mass);\n pt1.setVal(electron_energy_data.pt1);\n pt2.setVal(electron_energy_data.pt2);\n eta1.setVal(electron_energy_data.eta1);\n eta2.setVal(electron_energy_data.eta2);\n //wgt.setVal(1);\n dataDS->add(treeSet,1); \n }\n\n RooPlot* frameData = mass.frame(Bins(120),Range(\"zrange\"));\n //RooPlot* frameData = mass.frame(Bins(120),Range(87,97));\n\n mcTree->Draw(\"mass>>hMC\", (basesel+catsel).Data());\n hMC = (TH1D) gPad->GetPrimitive(\"hMC\");\n hMC->SetFillColor(kYellow-10);\n RooDataSet mcDS = new RooDataSet(\"mcDS\",\"\",treeSet,\"wgt\");\n\n mcTree->SetBranchAddress(\"Events\",&electron_energy_data);\n\n cout << \"mcDS->isWeighted() = \" << mcDS->isWeighted() << endl;\n for(UInt_t i = 0; i < mcTree->GetEntries(); i++){\n mcTree->GetEntry(i);\n if(electron_energy_data.mass < 60 \|\| electron_energy_data.mass > 120) continue;\n if(cat == 1 && ((fabs(electron_energy_data.eta1) > 1.479 \|\| fabs(electron_energy_data.eta2) > 1.479))) continue;\n if(cat == 2 && ((fabs(electron_energy_data.eta1) < 1.479 \|\| fabs(electron_energy_data.eta2) < 1.479))) continue;\n if(electron_energy_data.pt1 < 10 \|\| electron_energy_data.pt2 < 10) continue;\n\n mass.setVal(electron_energy_data.mass);\n pt1.setVal(electron_energy_data.pt1);\n pt2.setVal(electron_energy_data.pt2);\n eta1.setVal(electron_energy_data.eta1);\n eta2.setVal(electron_energy_data.eta2);\n assert(puweight(electron_energy_data.npu) > -5 && puweight(electron_energy_data.npu) < 1000);\n //wgt.setVal(puweight(electron_energy_data.npu));\n mcDS->add(treeSet,puweight(electron_energy_data.npu));\n }\n //for(UInt_t i = 0; i < mcTree->100; i++){\n // mcTree->GetEntry(i);\n // cout << \"mcDS->weight() = \" << mcDS->weight() << endl;\n //}\n\n //mcDS->addColumn(w::wgt) ; \n\n //dataDS = new RooDataSet(\"dataDS\",\"\",dataDS,treeSet,(basesel+catsel).Data(),\"wgt\");\n //mcDS = new RooDataSet(\"mcDS\",\"\",mcDS,treeSet,(basesel+catsel).Data(),\"wgt\");\n cout << \"mcDS->numEntries() = \" << mcDS->numEntries() << endl;\n cout << \"mcDS->sumEntries() = \" << mcDS->sumEntries() << endl;\n //return;\n\n //mcDS->addColumn(puweightf);\n\n //RooDataSet* mcDSW = new RooDataSet(\"mcDSW\",\"\",(mcDS->get()),RooFit::Import(\"MC\",mcDS), RooFit::Index(sample),RooFit::WeightVar(\"puweightv\")); \n\n RooPlot* frameMC = mass.frame(Bins(120),Range(\"zrange\"));\n //RooPlot* frameMC = mass.frame(Bins(120),Range(88,98));\n\n RooRealVar numData(\"numData\",\"\", dataDS->sumEntries(),0,10000000.);\n RooRealVar numMC(\"numMC\",\"\", mcDS->sumEntries(),0,10000000.);\n\n RooRealVar meanMC(\"meanMC\",\"\",0.0,-5.0,5.0);\n meanMC.removeRange();\n \n RooRealVar sigmaMC(\"sigmaMC\",\"\",1.4,0.0,100.0);\n sigmaMC.removeRange(); \n \n RooRealVar alphaMC(\"alphaMC\",\"\",1.0,0.0,10.0);\n alphaMC.removeRange();\n \n RooRealVar nMC(\"nMC\",\"\",1.0,0.0,1000.0);\n nMC.removeRange(); \n \n const double widthzpdg = 2.4952;\n const double masszpdg = 91.1876;\n\n //when you don't give a range\n //this automatically makes these roo real vars constant\n RooRealVar mz(\"mz\",\"mz\",masszpdg);\n RooRealVar widthz(\"wz\",\"wz\",widthzpdg);\n \n RooBreitWigner zbwMC(\"zbwMC\",\"zbwMC\",mass,mz,widthz);\n RooCBShape zcbMC(\"zcbMC\",\"zcbMC\",mass,meanMC,sigmaMC,alphaMC,nMC);\n\n RooFFTConvPdf zcbbwMC(\"zcbbwMC\",\"zcbbwMC\",mass,zbwMC,zcbMC);\n zcbbwMC.setBufferFraction(2.5);\n\n RooRealVar meanData(\"meanData\",\"\",0.0,-5.0,5.0);\n meanData.removeRange();\n \n RooRealVar sigmaData(\"sigmaData\",\"\",1.4,0.0,100.0);\n sigmaData.removeRange(); \n \n RooRealVar alphaData(\"alphaData\",\"\",1.0,0.0,10.0);\n alphaData.removeRange();\n\n RooRealVar nData(\"nData\",\"\",1.0,0.0,1000.0);\n nData.removeRange(); \n \n RooBreitWigner zbwData(\"zbwData\",\"zbwData\",mass,mz,widthz);\n RooCBShape zcbData(\"zcbData\",\"zcbData\",mass,meanData,sigmaData,alphaData,nData);\n\n RooFFTConvPdf zcbbwData(\"zcbbwData\",\"zcbbwData\",mass,zbwData,zcbData);\n zcbbwData.setBufferFraction(2.5);\n\n RooDataSet combinedDS(\"combinedDS\",\"combinedDS\", RooArgList(mass,wgt), RooFit::Index(sample), RooFit::Import(\"Data\",dataDS), RooFit::Import(\"MC\",mcDS),RooFit::WeightVar(wgt));\n\n //RooDataSet combinedDS(\"combinedDS\",\"combinedDS\", RooArgList(mass,npu), RooFit::Index(sample), RooFit::Import(\"Data\",dataDS), RooFit::Import(\"MC\",mcDSW),RooFit::WeightVar(\"puweightv\"));\n //RooDataSet combinedDS(\"combinedDS\",\"combinedDS\", RooArgList(mass,npu), RooFit::Import(\"MC\",mcDSW),RooFit::WeightVar(\"puweightv\"));\n \n cout << \"mcDS->numEntries() = \" << mcDS->numEntries() << endl;\n cout << \"mcDS->sumEntries() = \" << mcDS->sumEntries() << endl;\n cout << \"dataDS->numEntries() = \" << dataDS->numEntries() << endl;\n cout << \"dataDS->sumEntries() = \" << dataDS->sumEntries() << endl;\n //RooDataSet combinedDS = (RooDataSet)mcDSW->Clone();\n //combinedDS->append(dataDS);\n cout << \"combinedDS.numEntries() = \" << combinedDS.numEntries() << endl;\n cout << \"combinedDS.sumEntries() = \" << combinedDS.sumEntries() << endl;\n //return;\n // PDF for simultaneous fit\n RooSimultaneous totalPdf(\"totalPdf\",\"totalPdf\", sample);\n totalPdf.addPdf(zcbbwData,\"Data\");\n totalPdf.addPdf(zcbbwMC,\"MC\");\n\n RooFormulaVar delE(\"delE\",\"(meanData-meanMC)/(mz+meanMC)\", RooArgList(meanData,meanMC,mz));\n RooFormulaVar delS2(\"delS2\",\"2(sigmaDatasigmaData-sigmaMCsigmaMC)/(mz+meanMC)/(mz+meanMC)\", RooArgList(sigmaData,sigmaMC,mz,meanMC));\n\n RooFitResult fitR_mc = zcbbwMC.fitTo(mcDS, RooFit::Save(),RooFit::Strategy(1),RooFit::SumW2Error(kFALSE));\n \n cout << \"alphaMC.getVal() = \" << alphaMC.getVal() << endl;\n cout << \"nMC.getVal() = \" << nMC.getVal() << endl;\n alphaData.setVal(alphaMC.getVal());\n nData.setVal(nMC.getVal());\n\n alphaData.setConstant();\n nData.setConstant();\n //return;\n\n //RooFitResult fitR_data = zcbbwData.fitTo(dataDS, RooFit::Save(),RooFit::Strategy(2),RooFit::SumW2Error(kFALSE));\n\n RooFitResult fitR = totalPdf.fitTo(combinedDS, RooFit::Save(true),RooFit::Strategy(2),RooFit::SumW2Error(false));\n\n \n TCanvas czfit = new TCanvas(\"fitcanvas\",\"\",1200,600);\n czfit->Divide(2,1);\n czfit->cd(1);\n mcDS->plotOn(frameMC);\n //totalPdf.plotOn(frameMC,Slice(sample,\"MC\"),ProjWData(sample,combinedDS),RooFit::LineColor(kBlue+2)) ;\n\n zcbbwMC.plotOn(frameMC,RooFit::LineColor(kBlue+2));\n frameMC->SetTitle(\"MC\"); \n frameMC->GetYaxis()->SetLabelSize(0.03);\n frameMC->GetYaxis()->SetTitleOffset(1.3);\n frameMC->Draw(); \n TLegend legmc = new TLegend(0.72,0.75,0.92,0.9);\n legmc->AddEntry(frameMC->getObject(0),\"MC\",\"LPE\");\n legmc->AddEntry(frameMC->getObject(1),\"Fit to MC\",\"L\");\n legmc->SetBorderSize(0);\n legmc->SetFillStyle(0);\n legmc->Draw();\n text->Draw();\n\n double fitalpha = alphaMC.getVal();\n double fitn = nMC.getVal();\n\n //alphaData.setVal(fitalpha);\n //nData.setVal(fitn);\n\n //alphaData.setConstant();\n //nData.setConstant();\n\n //RooFitResult* fitR_data = zcbbwData.fitTo(dataDS, RooFit::Save(),RooFit::Strategy(2),RooFit::SumW2Error(kFALSE));\n\n cout << \"meanData.getVal() = \" << meanData.getVal() << endl;\n cout << \"meanMC.getVal() = \" << meanMC.getVal() << endl;\n\n czfit->cd(2);\n dataDS->plotOn(frameData);\n //totalPdf.plotOn(frameData,Slice(sample,\"Data\"),ProjWData(sample,combinedDS),RooFit::LineColor(kRed+2)) ;\n\n zcbbwData.plotOn(frameData,RooFit::LineColor(kRed+2)); \n frameData->GetYaxis()->SetLabelSize(0.03);\n frameData->GetYaxis()->SetTitle(\"\");\n frameData->SetTitle(\"Data\");\n //zcbbwData.paramOn(frameData,Layout(0.2,0.5,0.9)); \n //frameData->getAttText()->SetTextSize(0.025);\n frameData->Draw();\n TLegend legdata = new TLegend(0.62,0.75,0.92,0.9); \n legdata->AddEntry(frameData->getObject(0),\"Data, Full2012\",\"LPE\");\n legdata->AddEntry(frameData->getObject(1),\"Fit to Data\",\"L\");\n legdata->SetBorderSize(0);\n legdata->SetFillStyle(0);\n legdata->Draw(); \n text->Draw();\n TString plotname = TString(\"zfit\") + label + TString(\"_Full2012.png\");\n czfit->SaveAs(plotname);\n\n double sM = delS2.getVal();\n\n double cbsigmc = sigmaMC.getVal();\n double cbsigdata = sigmaData.getVal();\n double cbsigmcerr = sigmaMC.getError();\n double cbsigdataerr = sigmaData.getError(); \n\n double cbsmear = sqrt(cbsigdatacbsigdata-cbsigmccbsigmc);\n double cbsmearerr = (1.0/cbsmear)sqrt(cbsigdatacbsigdatacbsigdataerrcbsigdataerr + cbsigmccbsigmccbsigmcerrcbsigmcerr);\n\n double emc = masszpdg+meanMC.getVal();\n double emcerr = meanMC.getError();\n double edataerr = meanData.getError();\n\n double delEerr = sqrt(edataerredataerremcemc + emcerremcerr(emc+1)(emc+1));\n double sMerr = (1.0/cbsmearemcemc)sqrt(2(emcemc(cbsigdatacbsigdatacbsigdataerrcbsigdataerr + cbsigmccbsigmccbsigmcerrcbsigmcerr) + 2cbsmearcbsmearcbsmearcbsmearemcerremcerr));\n\n cout << \"delE.getVal() = (meanData-meanMC)/(mz+meanMC) = \" << delE.getVal() << endl;\n cout << \"delE.getPropagatedError(fitR) = \" << delE.getPropagatedError(fitR) << endl;\n\n double sME = TMath::Sqrt(TMath::Abs(delS2.getPropagatedError(fitR)));\n\n cout << \"sM = abs(2(sigmaDatasigmaData-sigmaMCsigmaMC)/(mz+meanMC)/(mz+meanMC)) = \" << sM << endl;\n cout << \"sME = \" << sME << endl;\n \n cout << \"cbsmear = sqrt(cbsigdatacbsigdata-cbsigmccbsigmc) = \" << cbsmear << endl;\n cout << \"cmsmearerr = \" << cbsmearerr << endl;\n\n cout << \"alphaData.getVal() = \" << alphaData.getVal() << endl;\n cout << \"alphaMC.getVal() = \" << alphaMC.getVal() << endl;\n\n cout << \"nData.getVal() = \" << nData.getVal() << endl;\n cout << \"nMC.getVal() = \" << nMC.getVal() << endl;\n\n\n cout << \"sigmaData.getVal() = \" << sigmaData.getVal() << endl;\n cout << \"sigmaMC.getVal() = \" << sigmaMC.getVal() << endl;\n\n cout << \"meanData.getVal() = \" << meanData.getVal() << endl;\n cout << \"meanMC.getVal() = \" << meanMC.getVal() << endl;\n\n cout << \"mz.getVal() = \" << mz.getVal() << endl;\n cout << \"widthz.getVal() = \" << widthz.getVal() << endl;\n\n \n}\n" }, { "alpha_fraction": 0.5954253077507019, "alphanum_fraction": 0.7233738303184509, "avg_line_length": 21.934425354003906, "blob_id": "a7f39c8ee00ed1ff3b27d4656790e4a396f5136a", "content_id": "55ac783ec1d6e1975345211e9f139a1c3f756396", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1399, "license_type": "no_license", "max_line_length": 65, "num_lines": 61, "path": "/plot_wtwt_scattering_xs.py", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "from ROOT import \nimport sys\nimport time\n\ng_higgs = TGraph()\ng_no_higgs = TGraph()\n\ng_no_higgs.SetPoint(0,0.2,1804)\ng_no_higgs.SetPoint(1,0.3,1809)\ng_no_higgs.SetPoint(2,0.4,1819)\ng_no_higgs.SetPoint(3,0.5,1815.8)\ng_no_higgs.SetPoint(4,0.6,1819)\ng_no_higgs.SetPoint(5,0.7,1810.73)\ng_no_higgs.SetPoint(6,0.8,1810)\ng_no_higgs.SetPoint(7,0.9,1811)\ng_no_higgs.SetPoint(8,1.0,1815)\ng_no_higgs.SetPoint(9,1.1,1811)\n\ng_higgs.SetPoint(0,0.2,1780)\ng_higgs.SetPoint(1,0.3,1799)\ng_higgs.SetPoint(2,0.4,1817)\ng_higgs.SetPoint(3,0.5,1805)\ng_higgs.SetPoint(4,0.6,1808)\ng_higgs.SetPoint(5,0.7,1807)\ng_higgs.SetPoint(6,0.8,1803)\ng_higgs.SetPoint(7,0.9,1812.37057792)\ng_higgs.SetPoint(8,1,1813.10038709)\ng_higgs.SetPoint(9,1.1,1812)\n\n\ng_higgs.SetMarkerColor(kGreen+1)\ng_no_higgs.SetMarkerColor(kBlue)\n\ng_higgs.SetLineColor(kGreen+1)\ng_no_higgs.SetLineColor(kBlue)\n\ng_higgs.SetLineWidth(3)\ng_no_higgs.SetLineWidth(3)\n\ng_no_higgs.GetYaxis().SetTitleOffset(1.2)\ng_no_higgs.GetXaxis().SetTitle(\"$\\sqrt{s}$ (TeV)\")\ng_no_higgs.GetYaxis().SetTitle(\"cross-section (pb)\")\n\nleg=TLegend(0.2,0.6,0.4,0.8)\n\nleg.AddEntry(g_no_higgs,\"without Higgs\",\"l\")\nleg.AddEntry(g_higgs,\"with Higgs\",\"l\")\n\ng_no_higgs.SetMinimum(0)\ng_no_higgs.SetMaximum(4000)\n\ng_no_higgs.Draw()\ng_higgs.Draw(\"same\")\nleg.Draw(\"same\")\n\ngPad.SetLeftMargin(20)\n\ngPad.Update()\n#gPad.ForceUpdate()\n\ngPad.SaveAs(\"/eos/user/a/amlevin/www/tmp/wtwt_scattering_xs.png\")\n" }, { "alpha_fraction": 0.6565622091293335, "alphanum_fraction": 0.7175275087356567, "avg_line_length": 37.59477233886719, "blob_id": "c55f5d8d552d8f80674215a38c748cdf47a23fdf", "content_id": "60fd78df3fdacda80119fea1254dcc085e23567c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 5905, "license_type": "no_license", "max_line_length": 175, "num_lines": 153, "path": "/make_xs_plot.C", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "#include \"TGraphErrors.h\"\n#include \"TAxis.h\"\n#include \"TCanvas.h\"\n#include \"TFrame.h\"\n#include \"TStyle.h\"\n#include \"TPad.h\"\n\nvoid make_xs_plot()\n{\n\n float phantom_xs_wminus_wminus = 4.73636178000000037 / 10000;\n float phantom_xs_error_wminus_wminus = 5.08068057350587693 / 10000000;\n\n float vbfnlo_xs_wminus_wminus = 0.420095092271086 / 1000 ;\n float vbfnlo_xs_error_wminus_wminus = 2.603485234411453 /10000 / 1000;\n\n float madgraph_xs_wminus_wminus = 0.0009035;\n float madgraph_xs_error_wminus_wminus = 7.1 / 1000000;\n\n float phantom_xs_wplus_wplus = 7.40094028000000057 / 10000;\n float phantom_xs_error_wplus_wplus = 1.38061691370198703 / 1000000;\n\n float vbfnlo_xs_wplus_wplus = 1.44889618993773 / 1000;\n float vbfnlo_xs_error_wplus_wplus = 9.496301531743701 /10000 / 1000;\n\n float madgraph_xs_wplus_wplus = 0.002325;\n float madgraph_xs_error_wplus_wplus = 1.6 /100000;\n\n float x_phantom_xs_wminus_wminus[1] = {1.1};\n float y_phantom_xs_wminus_wminus[1] = {phantom_xs_wminus_wminus};\n float ex_phantom_xs_wminus_wminus[1] = {0};\n float ey_phantom_xs_wminus_wminus[1] = {phantom_xs_error_wminus_wminus};\n\n float x_vbfnlo_xs_wminus_wminus[1] = {1.2};\n float y_vbfnlo_xs_wminus_wminus[1] = {vbfnlo_xs_wminus_wminus};\n float ex_vbfnlo_xs_wminus_wminus[1] = {0};\n float ey_vbfnlo_xs_wminus_wminus[1] = {vbfnlo_xs_error_wminus_wminus};\n\n float x_madgraph_xs_wminus_wminus[1] = {1.3};\n float y_madgraph_xs_wminus_wminus[1] = {madgraph_xs_wminus_wminus};\n float ex_madgraph_xs_wminus_wminus[1] = {0};\n float ey_madgraph_xs_wminus_wminus[1] = {madgraph_xs_error_wminus_wminus};\n\n float x_phantom_xs_wplus_wplus[1] = {1.1};\n float y_phantom_xs_wplus_wplus[1] = {phantom_xs_wplus_wplus};\n float ex_phantom_xs_wplus_wplus[1] = {0};\n float ey_phantom_xs_wplus_wplus[1] = {phantom_xs_error_wplus_wplus};\n\n float x_vbfnlo_xs_wplus_wplus[1] = {1.2};\n float y_vbfnlo_xs_wplus_wplus[1] = {vbfnlo_xs_wplus_wplus};\n float ex_vbfnlo_xs_wplus_wplus[1] = {0};\n float ey_vbfnlo_xs_wplus_wplus[1] = {vbfnlo_xs_error_wplus_wplus};\n\n float x_madgraph_xs_wplus_wplus[1] = {1.3};\n float y_madgraph_xs_wplus_wplus[1] = {madgraph_xs_wplus_wplus};\n float ex_madgraph_xs_wplus_wplus[1] = {0};\n float ey_madgraph_xs_wplus_wplus[1] = {madgraph_xs_error_wplus_wplus};\n\n TGraphErrors * phantom_wminus_wminus = new TGraphErrors(1,x_phantom_xs_wminus_wminus,y_phantom_xs_wminus_wminus,ex_phantom_xs_wminus_wminus,ey_phantom_xs_wminus_wminus);\n TGraphErrors * vbfnlo_wminus_wminus = new TGraphErrors(1,x_vbfnlo_xs_wminus_wminus,y_vbfnlo_xs_wminus_wminus,ex_vbfnlo_xs_wminus_wminus,ey_vbfnlo_xs_wminus_wminus);\n TGraphErrors * madgraph_wminus_wminus= new TGraphErrors(1,x_madgraph_xs_wminus_wminus,y_madgraph_xs_wminus_wminus,ex_madgraph_xs_wminus_wminus,ey_madgraph_xs_wminus_wminus);\n\n TGraphErrors phantom_wplus_wplus= new TGraphErrors(1,x_phantom_xs_wplus_wplus,y_phantom_xs_wplus_wplus,ex_phantom_xs_wplus_wplus,ey_phantom_xs_wplus_wplus);\n TGraphErrors vbfnlo_wplus_wplus= new TGraphErrors(1,x_vbfnlo_xs_wplus_wplus,y_vbfnlo_xs_wplus_wplus,ex_vbfnlo_xs_wplus_wplus,ey_vbfnlo_xs_wplus_wplus);\n TGraphErrors madgraph_wplus_wplus= new TGraphErrors(1,x_madgraph_xs_wplus_wplus,y_madgraph_xs_wplus_wplus,ex_madgraph_xs_wplus_wplus,ey_madgraph_xs_wplus_wplus);\n\n\n TCanvas c1 = new TCanvas;\n c1->GetFrame()->SetLineColor(0);\n \n // draw a frame to define the range\n TH1F hr = c1->DrawFrame(1,0.00035,1.4,1.110e-4);\n hr->SetYTitle(\"cross section (in pb)\");\n hr->GetXaxis()->SetAxisColor(0);\n hr->GetXaxis()->SetLabelColor(0);\n c1->GetFrame()->SetLineColor(0);\n c1->SetLeftMargin(0.2);\n //hr->GetYaxis()->SetLabelOffset(0.1);\n hr->GetYaxis()->SetTitleOffset(2);\n\n phantom_wminus_wminus->SetMarkerStyle(22);\n vbfnlo_wminus_wminus->SetMarkerStyle(22);\n madgraph_wminus_wminus->SetMarkerStyle(22);\n\n phantom_wminus_wminus->SetMarkerSize(2);\n vbfnlo_wminus_wminus->SetMarkerSize(2);\n madgraph_wminus_wminus->SetMarkerSize(2);\n\n\n phantom_wminus_wminus->SetMarkerColor(kRed);\n vbfnlo_wminus_wminus->SetMarkerColor(kBlue);\n phantom_wminus_wminus->SetFillColor(kRed);\n vbfnlo_wminus_wminus->SetFillColor(kBlue);\n phantom_wminus_wminus->SetLineColor(kRed);\n vbfnlo_wminus_wminus->SetLineColor(kBlue);\n\n phantom_wminus_wminus->Draw(\"P\");\n vbfnlo_wminus_wminus->Draw(\"P\");\n madgraph_wminus_wminus->Draw(\"P\");\n\n TLegend legend = new TLegend(.75,.80,.95,.95);\n legend->AddEntry(phantom_wminus_wminus,\"phantom\");\n legend->AddEntry(vbfnlo_wminus_wminus,\"vbfnlo\");\n legend->AddEntry(madgraph_wminus_wminus,\"madgraph\");\n legend->SetFillColor(0);\n legend->Draw();\n\n c1->Update();\n \n TCanvas c2 = new TCanvas;\n c2->GetFrame()->SetLineColor(0);\n \n // draw a frame to define the range\n TH1F hr = c2->DrawFrame(1,0.0001,1.4,0.004);\n hr->SetYTitle(\"cross section (in pb)\");\n hr->GetXaxis()->SetAxisColor(0);\n hr->GetXaxis()->SetLabelColor(0);\n c2->GetFrame()->SetLineColor(0);\n c2->SetLeftMargin(0.2);\n //hr->GetYaxis()->SetLabelOffset(0.1);\n hr->GetYaxis()->SetTitleOffset(2);\n\n phantom_wplus_wplus->SetMarkerStyle(22);\n vbfnlo_wplus_wplus->SetMarkerStyle(22);\n madgraph_wplus_wplus->SetMarkerStyle(22);\n\n phantom_wplus_wplus->SetMarkerSize(2);\n vbfnlo_wplus_wplus->SetMarkerSize(2);\n madgraph_wplus_wplus->SetMarkerSize(2);\n\n\n phantom_wplus_wplus->SetMarkerColor(kRed);\n vbfnlo_wplus_wplus->SetMarkerColor(kBlue);\n phantom_wplus_wplus->SetFillColor(kRed);\n vbfnlo_wplus_wplus->SetFillColor(kBlue);\n phantom_wplus_wplus->SetLineColor(kRed);\n vbfnlo_wplus_wplus->SetLineColor(kBlue);\n\n phantom_wplus_wplus->Draw(\"P\");\n vbfnlo_wplus_wplus->Draw(\"P\");\n madgraph_wplus_wplus->Draw(\"P\");\n\n TLegend legend = new TLegend(.75,.80,.95,.95);\n legend->AddEntry(phantom_wplus_wplus,\"phantom\");\n legend->AddEntry(vbfnlo_wplus_wplus,\"vbfnlo\");\n legend->AddEntry(madgraph_wplus_wplus,\"madgraph\");\n legend->SetFillColor(0);\n legend->Draw();\n\n c2->Update();\n\n\n}\n" }, { "alpha_fraction": 0.5382096171379089, "alphanum_fraction": 0.5693231225013733, "avg_line_length": 27.184616088867188, "blob_id": "f670e2a490cf603a9303d74d8acf682596ce42e1", "content_id": "cd3ab92a7d16f3057f5914f7876932ef25cbe046", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1832, "license_type": "no_license", "max_line_length": 164, "num_lines": 65, "path": "/check_fix_coef_range.C", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "//try to check Figure 9 in the RooFit manual\n//the area under the curves in the middle plot seems like it should be equal, but it is not\n//the result of this macro seems to show that the areas should indeed be equal\n\n#include \"RooRealVar.h\"\n#include \"RooGaussian.h\"\n#include \"RooPolynomial.h\"\n#include \"RooAddPdf.h\"\n#include \"RooPlot.h\"\n#include \"TCanvas.h\"\n\nvoid check_fix_coef_range()\n{\n\n RooRealVar x(\"x\",\"x\",-20,20) ;\n RooRealVar m(\"m\",\"m\",0,-10,10) ;\n RooRealVar s(\"s\",\"s\",1,-10,10) ;\n\n RooGaussian gauss(\"g\",\"g\",x,m,s) ;\n\n // Construct poly(x,p0) \n RooRealVar p0(\"p0\",\"p0\",0.01,0.,1.) ;\n RooPolynomial poly(\"p\",\"p\",x,p0) ;\n\n // Construct model = fgauss(x) + (1-f)poly(x) \n RooRealVar f(\"f\",\"f\",0.5,0.,1.) ;\n RooAddPdf model(\"model\",\"model\",RooArgSet(gauss,poly),f);\n\nRooPlot* frame1 = x.frame() ;\nmodel.plotOn(frame1) ;\n model.plotOn(frame1,RooFit::Components(\"p\"),RooFit::LineStyle(kDashed));\n\nx.setRange(-5,5) ;\n\nRooPlot* frame2 = x.frame() ;\nmodel.plotOn(frame2) ;\n model.plotOn(frame2,RooFit::Components(\"p\"),RooFit::LineStyle(kDashed));\n\n x.setRange(\"ref\",-20,20);\n\n model.fixCoefRange(\"ref\");\n\nRooPlot* frame3 = x.frame() ;\nmodel.plotOn(frame3) ;\n model.plotOn(frame3,RooFit::Components(\"p\"),RooFit::LineStyle(kDashed));\n\n TCanvas * c1 = new TCanvas();\n\n frame1->Draw();\n\n c1->SaveAs(\"/afs/cern.ch/user/a/anlevin/www/tmp/c1.png\");\n\n TCanvas * c2 = new TCanvas();\n\n frame2->Draw();\n\n c2->SaveAs(\"/afs/cern.ch/user/a/anlevin/www/tmp/c2.png\");\n\n TCanvas * c3 = new TCanvas();\n\n frame3->Draw();\n\n c3->SaveAs(\"/afs/cern.ch/user/a/anlevin/www/tmp/c3.png\");\n\n}\n" }, { "alpha_fraction": 0.4978354871273041, "alphanum_fraction": 0.5064935088157654, "avg_line_length": 18.25, "blob_id": "c9729654d69d7e5a74dc61352c055636526a061e", "content_id": "c9bf585882b59ccfa17cbbbeadbb48bf7d293e75", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 231, "license_type": "no_license", "max_line_length": 55, "num_lines": 12, "path": "/relval_harvesting/run_psets.sh", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "for pset in `ls PSetpy \| grep -v PSetDump_23.py`;\n do \n echo \"\"\n echo \"===============> begin running pset: $pset\";\n echo \"\"\n\n cmsRun $pset\n \n echo \"\"\n echo \"===============> finished running pset: $pset\";\n echo \"\"\ndone " }, { "alpha_fraction": 0.6421778798103333, "alphanum_fraction": 0.6794294118881226, "avg_line_length": 45.54076385498047, "blob_id": "d020d7742c7868d37c22d0b76ddf56d0cf813059", "content_id": "8b609cd7c4f7e40f65601230354da52dbaa6c90b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 27972, "license_type": "no_license", "max_line_length": 175, "num_lines": 601, "path": "/runSmurfHzz2l2nuAllPlot.C", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "#if !defined(__CINT__) \|\| defined(__MAKECINT__)\n#include \"THStack.h\"\n#include \"TLegend.h\"\n#include \"TCanvas.h\"\n#include \"TStyle.h\"\n#include \"TMath.h\"\n#include \"TH2D.h\"\n#include \"SmurfHzzPassSelection.hh\"\n#include \"/home/anlevin/cms/cmssw/021/CMSSW_4_2_3_patch2/src/Smurf/Core/LeptonScaleLookup.h\"\n#include \"/home/anlevin/cms/cmssw/021/CMSSW_4_2_3_patch2/src/Smurf/Core/LeptonScaleLookup.cc\"\n#include \"/home/anlevin/cms/cmssw/021/CMSSW_4_2_3_patch2/src/Smurf/Analysis/HZZllvv/PileupReweighting.h\"\n#include \"TLatex.h\"\n#include <sstream>\n#include <map>\n#include \"tdrStyle.C\"\n#endif\n\nvoid LoopOverEventsAndFillHistograms(SmurfTree tree, std::string process);\nvoid DrawPlot(std::map<std::string, TH1F> &MAP, std::string TITLE, std::string X_AXIS_TITLE, std::string OUTPUT_NAME);\n\nbool SmurfV6 = false;\nbool plotLog = true;\nbool full_sel = false;\ndouble luminosity = 1092;\nint mH = 300;\nstd::string mH_s, luminosity_s;\n\nstd::map<std::string,TH1F> njets_map;\nstd::map<std::string,TH1F> minmet_0jets_map;\nstd::map<std::string,TH1F> minmet_1jet_map;\nstd::map<std::string,TH1F> minmet_2jets_map;\nstd::map<std::string,TH1F> mt_0jets_map;\nstd::map<std::string,TH1F> mt_1jet_map;\nstd::map<std::string,TH1F> mt_2jets_map;\nstd::map<std::string,TH1F> zpt_0jets_map;\nstd::map<std::string,TH1F> zpt_1jet_map;\nstd::map<std::string,TH1F> zpt_2jets_map;\n\ndouble TopAndWWScaleFactor[3] = {1.248, 1.133, 1.181};\n\n//some of the different processes are grouped togethor in the final histograms\n//for example, ggww and qqww are grouped togethor into \"ww\"\n//so the group for ggww and qqww would be \"ww\"\nstd::vector<std::string> processGroups; \n\n//retrieves the value of (data efficiency) / (Monte Carlo efficiency) for an electron or a muon with a given pt and eta\ndouble LeptonEfficiencyScaleFactor(double pt, double eta, TH2D fhDEffMu, TH2D fhDEffEl, int lid);\n\nvoid runSmurfHzz2l2nuAllPlot()\n{\n std::stringstream mH_ss; mH_ss << mH; mH_s = mH_ss.str();\n \n std::stringstream luminosity_ss; luminosity_ss << luminosity; luminosity_s = luminosity_ss.str();\n \n processGroups.push_back(\"ww\");\n processGroups.push_back(\"vz\");\n processGroups.push_back(\"top\");\n processGroups.push_back(\"dytt\");\n processGroups.push_back(\"dyeemm\");\n processGroups.push_back(\"data\");\n processGroups.push_back(\"hzz\");\n processGroups.push_back(\"hww\");\n\n setTDRStyle();\n\n for(unsigned int i = 0; i < processGroups.size(); i++){\n if(full_sel){\n if(mH == 300){\n\tnjets_map[processGroups[i]]=new TH1F(TString(\"njets_\"+processGroups[i]),TString(\"njets_\"+processGroups[i]),3,0,3);\n\tminmet_0jets_map[processGroups[i]]=new TH1F(TString(\"minmet_0jets_\"+processGroups[i]),TString(\"minmet_0jets_\"+processGroups[i]),25,60,140);\n\tminmet_1jet_map[processGroups[i]]=new TH1F(TString(\"minmet_1jet_\"+processGroups[i]),TString(\"minmet_1jet_\"+processGroups[i]),25,90,140);\n\tminmet_2jets_map[processGroups[i]]=new TH1F(TString(\"minmet_2jets_\"+processGroups[i]),TString(\"minmet_2jets_\"+processGroups[i]),25,90,150);\n\tmt_0jets_map[processGroups[i]]=new TH1F(TString(\"mt_0jets_\"+processGroups[i]),TString(\"mt_0jets_\"+processGroups[i]),25,100,500);\n\tmt_1jet_map[processGroups[i]]=new TH1F(TString(\"mt_1jet_\"+processGroups[i]),TString(\"mt_1jet_\"+processGroups[i]),25,100,500);\n\tmt_2jets_map[processGroups[i]]=new TH1F(TString(\"mt_2jets_\"+processGroups[i]),TString(\"mt_2jets_\"+processGroups[i]),25,100,500);\n\tzpt_0jets_map[processGroups[i]]=new TH1F(TString(\"zpt_0jets_\"+processGroups[i]),TString(\"mt_0jets_\"+processGroups[i]),25,0,200);\n\tzpt_1jet_map[processGroups[i]]=new TH1F(TString(\"zpt_1jet_\"+processGroups[i]),TString(\"mt_1jet_\"+processGroups[i]),25,0,200);\n\tzpt_2jets_map[processGroups[i]]=new TH1F(TString(\"zpt_2jets_\"+processGroups[i]),TString(\"mt_2jets_\"+processGroups[i]),25,0,200);\n }\n else if (mH == 250){\n\tnjets_map[processGroups[i]]=new TH1F(TString(\"njets_\"+processGroups[i]),TString(\"njets_\"+processGroups[i]),3,0,3);\n\tminmet_0jets_map[processGroups[i]]=new TH1F(TString(\"minmet_0jets_\"+processGroups[i]),TString(\"minmet_0jets_\"+processGroups[i]),25,50,120);\n\tminmet_1jet_map[processGroups[i]]=new TH1F(TString(\"minmet_1jet_\"+processGroups[i]),TString(\"minmet_1jet_\"+processGroups[i]),25,50,140);\n\tminmet_2jets_map[processGroups[i]]=new TH1F(TString(\"minmet_2jets_\"+processGroups[i]),TString(\"minmet_2jets_\"+processGroups[i]),25,70,150);\n\tmt_0jets_map[processGroups[i]]=new TH1F(TString(\"mt_0jets_\"+processGroups[i]),TString(\"mt_0jets_\"+processGroups[i]),25,100,500);\n\tmt_1jet_map[processGroups[i]]=new TH1F(TString(\"mt_1jet_\"+processGroups[i]),TString(\"mt_1jet_\"+processGroups[i]),25,100,500);\n\tmt_2jets_map[processGroups[i]]=new TH1F(TString(\"mt_2jets_\"+processGroups[i]),TString(\"mt_2jets_\"+processGroups[i]),25,100,500);\n\tzpt_0jets_map[processGroups[i]]=new TH1F(TString(\"zpt_0jets_\"+processGroups[i]),TString(\"mt_0jets_\"+processGroups[i]),25,0,200);\n\tzpt_1jet_map[processGroups[i]]=new TH1F(TString(\"zpt_1jet_\"+processGroups[i]),TString(\"mt_1jet_\"+processGroups[i]),25,0,200);\n\tzpt_2jets_map[processGroups[i]]=new TH1F(TString(\"zpt_2jets_\"+processGroups[i]),TString(\"mt_2jets_\"+processGroups[i]),25,0,200);\n }\n else if (mH == 400){\n\tnjets_map[processGroups[i]]=new TH1F(TString(\"njets_\"+processGroups[i]),TString(\"njets_\"+processGroups[i]),3,0,3);\n\tminmet_0jets_map[processGroups[i]]=new TH1F(TString(\"minmet_0jets_\"+processGroups[i]),TString(\"minmet_0jets_\"+processGroups[i]),25,90,220);\n\tminmet_1jet_map[processGroups[i]]=new TH1F(TString(\"minmet_1jet_\"+processGroups[i]),TString(\"minmet_1jet_\"+processGroups[i]),25,90,200);\n\tminmet_2jets_map[processGroups[i]]=new TH1F(TString(\"minmet_2jets_\"+processGroups[i]),TString(\"minmet_2jets_\"+processGroups[i]),25,90,230);\n\tmt_0jets_map[processGroups[i]]=new TH1F(TString(\"mt_0jets_\"+processGroups[i]),TString(\"mt_0jets_\"+processGroups[i]),25,100,500);\n\tmt_1jet_map[processGroups[i]]=new TH1F(TString(\"mt_1jet_\"+processGroups[i]),TString(\"mt_1jet_\"+processGroups[i]),25,100,500);\n\tmt_2jets_map[processGroups[i]]=new TH1F(TString(\"mt_2jets_\"+processGroups[i]),TString(\"mt_2jets_\"+processGroups[i]),25,100,500);\n\tzpt_0jets_map[processGroups[i]]=new TH1F(TString(\"zpt_0jets_\"+processGroups[i]),TString(\"mt_0jets_\"+processGroups[i]),25,0,200);\n\tzpt_1jet_map[processGroups[i]]=new TH1F(TString(\"zpt_1jet_\"+processGroups[i]),TString(\"mt_1jet_\"+processGroups[i]),25,0,200);\n\tzpt_2jets_map[processGroups[i]]=new TH1F(TString(\"zpt_2jets_\"+processGroups[i]),TString(\"mt_2jets_\"+processGroups[i]),25,0,200);\n }\n else {assert(0);}\n }\n else{\n if(mH == 250 \|\| mH == 300){\n\tnjets_map[processGroups[i]]=new TH1F(TString(\"njets_\"+processGroups[i]),TString(\"njets_\"+processGroups[i]),3,0,3);\n\tminmet_0jets_map[processGroups[i]]=new TH1F(TString(\"minmet_0jets_\"+processGroups[i]),TString(\"minmet_0jets_\"+processGroups[i]),30,20,200);\n\tminmet_1jet_map[processGroups[i]]=new TH1F(TString(\"minmet_1jet_\"+processGroups[i]),TString(\"minmet_1jet_\"+processGroups[i]),30,20,200);\n\tminmet_2jets_map[processGroups[i]]=new TH1F(TString(\"minmet_2jets_\"+processGroups[i]),TString(\"minmet_2jets_\"+processGroups[i]),30,20,200);\n\tmt_0jets_map[processGroups[i]]=new TH1F(TString(\"mt_0jets_\"+processGroups[i]),TString(\"mt_0jets_\"+processGroups[i]),25,100,500);\n\tmt_1jet_map[processGroups[i]]=new TH1F(TString(\"mt_1jet_\"+processGroups[i]),TString(\"mt_1jet_\"+processGroups[i]),25,100,500);\n\tmt_2jets_map[processGroups[i]]=new TH1F(TString(\"mt_2jets_\"+processGroups[i]),TString(\"mt_2jets_\"+processGroups[i]),25,100,500);\n\tzpt_0jets_map[processGroups[i]]=new TH1F(TString(\"zpt_0jets_\"+processGroups[i]),TString(\"mt_0jets_\"+processGroups[i]),25,0,200);\n\tzpt_1jet_map[processGroups[i]]=new TH1F(TString(\"zpt_1jet_\"+processGroups[i]),TString(\"mt_1jet_\"+processGroups[i]),25,0,200);\n\tzpt_2jets_map[processGroups[i]]=new TH1F(TString(\"zpt_2jets_\"+processGroups[i]),TString(\"mt_2jets_\"+processGroups[i]),25,0,200);\n }\n else if (mH == 400){\n\tnjets_map[processGroups[i]]=new TH1F(TString(\"njets_\"+processGroups[i]),TString(\"njets_\"+processGroups[i]),3,0,3);\n\tminmet_0jets_map[processGroups[i]]=new TH1F(TString(\"minmet_0jets_\"+processGroups[i]),TString(\"minmet_0jets_\"+processGroups[i]),25,40,220);\n\tminmet_1jet_map[processGroups[i]]=new TH1F(TString(\"minmet_1jet_\"+processGroups[i]),TString(\"minmet_1jet_\"+processGroups[i]),25,40,190);\n\tminmet_2jets_map[processGroups[i]]=new TH1F(TString(\"minmet_2jets_\"+processGroups[i]),TString(\"minmet_2jets_\"+processGroups[i]),25,40,150);\n\tmt_0jets_map[processGroups[i]]=new TH1F(TString(\"mt_0jets_\"+processGroups[i]),TString(\"mt_0jets_\"+processGroups[i]),25,160,450);\n\tmt_1jet_map[processGroups[i]]=new TH1F(TString(\"mt_1jet_\"+processGroups[i]),TString(\"mt_1jet_\"+processGroups[i]),25,150,450);\n\tmt_2jets_map[processGroups[i]]=new TH1F(TString(\"mt_2jets_\"+processGroups[i]),TString(\"mt_2jets_\"+processGroups[i]),25,150,450);\n\tzpt_0jets_map[processGroups[i]]=new TH1F(TString(\"zpt_0jets_\"+processGroups[i]),TString(\"mt_0jets_\"+processGroups[i]),25,0,200);\n\tzpt_1jet_map[processGroups[i]]=new TH1F(TString(\"zpt_1jet_\"+processGroups[i]),TString(\"mt_1jet_\"+processGroups[i]),25,0,200);\n\tzpt_2jets_map[processGroups[i]]=new TH1F(TString(\"zpt_2jets_\"+processGroups[i]),TString(\"mt_2jets_\"+processGroups[i]),25,0,200);\n }\n }\n\n }\n\n\n TFile fZZKFactorFile = TFile::Open(\"/data/smurf/sixie/KFactors/ZZ_KFactor.root\");\n TH1D ZZKFactor;\n ZZKFactor = (TH1D)(fZZKFactorFile->Get(\"KFactorZZ_DileptonPt\"));\n if (ZZKFactor) {\n ZZKFactor->SetDirectory(0);\n }\n assert(ZZKFactor);\n fZZKFactorFile->Close();\n delete fZZKFactorFile;\n\n SmurfTree * tree = new SmurfTree;\n \n std::string directory = \"/data/smurf/sixie/data/Run2011_Summer11_\"+(SmurfV6?std::string(\"SmurfV6\"):std::string(\"EPSHZZV0\"))+\"/mitf-alljets/\";\n\n// tree->LoadTree(TString(\"/data/smurf/data/Run2011_Spring11_SmurfV6/mitf-alljets/wjets.root\"));\n// tree->InitTree(0);\n// LoopOverEventsAndFillHistograms(tree, \"wjets\");\n\n tree->LoadTree(TString(directory + \"ggww2l.root\"));\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"ww\");\n \n tree->LoadTree(TString(directory + \"ww2l.root\"));\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"ww\");\n \n tree->LoadTree(TString(directory + \"wz3l.root\"));\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"wz\");\n \n tree->LoadTree(TString(directory + \"zz2l.root\"));\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"zz\");\n \n tree->LoadTree(TString(directory + \"stop.root\"));\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"top\");\n\n tree->LoadTree(TString(directory + \"ttop.root\"));\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"top\");\n \n tree->LoadTree(TString(directory + \"wtop.root\"));\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"top\");\n \n tree->LoadTree(TString(directory + \"ttbar.root\"));\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"top\"); \n \n// tree->LoadTree(TString(\"/data/smurf/data/Run2011_Spring11_SmurfV6/mitf-alljets/dyee.root\"));\n// tree->InitTree(0);\n// LoopOverEventsAndFillHistograms(tree, \"dyeemm\");\n \n// tree->LoadTree(TString(\"/data/smurf/data/Run2011_Spring11_SmurfV6/mitf-alljets/dymm.root\"));\n// tree->InitTree(0);\n// LoopOverEventsAndFillHistograms(tree, \"dyeemm\");\n\n tree->LoadTree(TString(directory + \"data_photons.root\"),0);\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"dyeemm\");\n \n tree->LoadTree(TString(\"/data/smurf/data/Run2011_Spring11_SmurfV6_42X/mitf-alljets/dytt.root\"));\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"dytt\");\n\n tree->LoadTree(TString(\"/data/smurf/data/Run2011_Spring11_SmurfV6/mitf-alljets/hww\" + mH_s + \".root\"));\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"hww\");\n\n tree->LoadTree(TString(directory + \"gfhzz\" + mH_s +\".root\"));\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"hzz\");\n \n if(SmurfV6)\n tree->LoadTree(TString(directory + \"data_dileptonAll_1092ipb.goodlumiListEPS.root\"));\n else\n tree->LoadTree(TString(directory + \"data_2l.goodlumi1092ipb.root\"));\n tree->InitTree(0);\n LoopOverEventsAndFillHistograms(tree, \"data\");\n\n delete tree;\n\n for(unsigned int i = 0; i < processGroups.size(); i++){\n Color_t color = 0;\n if(processGroups[i] == \"wjets\")\n color = kCyan;\n else if (processGroups[i] == \"ww\")\n color = kYellow+2;\n else if (processGroups[i] == \"vz\")\n color = kGreen;\n else if (processGroups[i] == \"top\")\n color = kMagenta;\n else if (processGroups[i] == \"dytt\")\n color = kBlue;\n else\n continue;\n \n njets_map[processGroups[i]]->SetFillColor(color);\n minmet_0jets_map[processGroups[i]]->SetFillColor(color);\n mt_0jets_map[processGroups[i]]->SetFillColor(color);\n zpt_0jets_map[processGroups[i]]->SetFillColor(color);\n minmet_1jet_map[processGroups[i]]->SetFillColor(color);\n mt_1jet_map[processGroups[i]]->SetFillColor(color);\n zpt_1jet_map[processGroups[i]]->SetFillColor(color);\n minmet_2jets_map[processGroups[i]]->SetFillColor(color);\n mt_2jets_map[processGroups[i]]->SetFillColor(color);\n zpt_2jets_map[processGroups[i]]->SetFillColor(color); \n }\n \n for(unsigned int i = 0; i < processGroups.size(); i++){\n int line_width = 0;\n if(processGroups[i] == \"hww\")\n line_width = 3;\n else if (processGroups[i] == \"hzz\")\n line_width = 3;\n else if (processGroups[i] == \"dyeemm\")\n line_width = 2;\n else if (processGroups[i] == \"data\")\n line_width = 2;\n else\n continue;\n\n njets_map[processGroups[i]]->SetLineWidth(line_width);\n minmet_0jets_map[processGroups[i]]->SetLineWidth(line_width);\n mt_0jets_map[processGroups[i]]->SetLineWidth(line_width);\n zpt_0jets_map[processGroups[i]]->SetLineWidth(line_width);\n minmet_1jet_map[processGroups[i]]->SetLineWidth(line_width);\n mt_1jet_map[processGroups[i]]->SetLineWidth(line_width);\n zpt_1jet_map[processGroups[i]]->SetLineWidth(line_width);\n minmet_2jets_map[processGroups[i]]->SetLineWidth(line_width);\n mt_2jets_map[processGroups[i]]->SetLineWidth(line_width);\n zpt_2jets_map[processGroups[i]]->SetLineWidth(line_width);\n }\n\n\n// njets_map[\"dyeemm\"]->SetFillColor(38);\n// minmet_0jets_map[\"dyeemm\"]->SetFillColor(38);\n// mt_0jets_map[\"dyeemm\"]->SetFillColor(38);\n// minmet_1jet_map[\"dyeemm\"]->SetFillColor(38);\n// mt_1jet_map[\"dyeemm\"]->SetFillColor(38);\n// minmet_2jets_map[\"dyeemm\"]->SetFillColor(38);\n// mt_2jets_map[\"dyeemm\"]->SetFillColor(38);\n \n njets_map[\"dyeemm\"]->SetLineColor(kRed);\n minmet_0jets_map[\"dyeemm\"]->SetLineColor(kRed);\n mt_0jets_map[\"dyeemm\"]->SetLineColor(kRed);\n zpt_0jets_map[\"dyeemm\"]->SetLineColor(kRed);\n minmet_1jet_map[\"dyeemm\"]->SetLineColor(kRed);\n mt_1jet_map[\"dyeemm\"]->SetLineColor(kRed);\n zpt_1jet_map[\"dyeemm\"]->SetLineColor(kRed);\n minmet_2jets_map[\"dyeemm\"]->SetLineColor(kRed);\n mt_2jets_map[\"dyeemm\"]->SetLineColor(kRed);\n zpt_2jets_map[\"dyeemm\"]->SetLineColor(kRed);\n\n njets_map[\"hww\"]->SetLineColor(kBlack);\n minmet_0jets_map[\"hww\"]->SetLineColor(kBlack);\n mt_0jets_map[\"hww\"]->SetLineColor(kBlack);\n zpt_0jets_map[\"hww\"]->SetLineColor(kBlack);\n minmet_1jet_map[\"hww\"]->SetLineColor(kBlack);\n mt_1jet_map[\"hww\"]->SetLineColor(kBlack);\n zpt_1jet_map[\"hww\"]->SetLineColor(kBlack);\n minmet_2jets_map[\"hww\"]->SetLineColor(kBlack);\n mt_2jets_map[\"hww\"]->SetLineColor(kBlack);\n zpt_2jets_map[\"hww\"]->SetLineColor(kBlack);\n\n njets_map[\"hww\"]->SetLineStyle(2);\n minmet_0jets_map[\"hww\"]->SetLineStyle(2);\n mt_0jets_map[\"hww\"]->SetLineStyle(2);\n zpt_0jets_map[\"hww\"]->SetLineStyle(2);\n minmet_1jet_map[\"hww\"]->SetLineStyle(2);\n mt_1jet_map[\"hww\"]->SetLineStyle(2);\n zpt_1jet_map[\"hww\"]->SetLineStyle(2);\n minmet_2jets_map[\"hww\"]->SetLineStyle(2);\n mt_2jets_map[\"hww\"]->SetLineStyle(2);\n zpt_2jets_map[\"hww\"]->SetLineStyle(2);\n\n\n std::string selection = full_sel?\"fullselection\":\"preselection\";\n DrawPlot(njets_map,\"comparison of data and Monte Carlo\", \"number of jets\", \"Hm\" + mH_s + \"_\" + selection + \"_njets\");\n DrawPlot(minmet_0jets_map,\"comparison of data and Monte Carlo in the 0 jet bin\", \"Min(MET, TrkMET) [GeV]\", \"Hm\" + mH_s + \"_\" +selection + \"_0jets_minmet\");\n DrawPlot(minmet_1jet_map,\"comparison of data and Monte Carlo in the 1 jet bin\", \"Min(MET, TrkMET) [GeV]\", \"Hm\" + mH_s + \"_\" +selection + \"_1jet_minmet\");\n DrawPlot(minmet_2jets_map,\"comparison of data and Monte Carlo in the 2 or more jet bin\", \"Min(MET, TrkMET) [GeV]\", \"Hm\" + mH_s + \"_\" +selection + \"_2jets_minmet\");\n DrawPlot(mt_0jets_map,\"comparison of data and Monte Carlo in the 0 jet bin\", \"transverse mass [GeV]\", \"Hm\" + mH_s + \"_\" +selection + \"_0jets_mt\");\n DrawPlot(mt_1jet_map,\"comparison of data and Monte Carlo in the 1 jet bin\", \"transverse mass [GeV]\", \"Hm\" + mH_s + \"_\" +selection + \"_1jet_mt\");\n DrawPlot(mt_2jets_map,\"comparison of data and Monte Carlo in the 2 or more jet bin\", \"transverse mass [GeV]\", \"Hm\" + mH_s + \"_\" +selection + \"_2jets_mt\");\n DrawPlot(zpt_0jets_map,\"comparison of data and Monte Carlo in the 0 jet bin\", \"Z p_t [GeV]\", \"Hm\" + mH_s + \"_\" +selection + \"_0jets_zpt\");\n DrawPlot(zpt_1jet_map,\"comparison of data and Monte Carlo in the 1 jet bin\", \"Z p_t [GeV]\", \"Hm\" + mH_s + \"_\" +selection + \"_1jet_zpt\");\n DrawPlot(zpt_2jets_map,\"comparison of data and Monte Carlo in the 2 or more jet bin\", \"Z p_t [GeV]\", \"Hm\" + mH_s + \"_\" +selection + \"_2jets_zpt\");\n\n}\n\nvoid DrawPlot(std::map<std::string, TH1F> &MAP, std::string TITLE, std::string X_AXIS_TITLE, std::string OUTPUT_NAME)\n{\n //add the overflow to the last bin\n for(unsigned int i = 0; i < processGroups.size(); i++){\n MAP[processGroups[i]]->SetBinContent(MAP[processGroups[i]]->GetNbinsX() \n\t\t\t\t ,MAP[processGroups[i]]->GetBinContent(MAP[processGroups[i]]->GetNbinsX())+MAP[processGroups[i]]->GetBinContent(MAP[processGroups[i]]->GetNbinsX()+1) );\n }\n\n TCanvas c = new TCanvas;\n\n TLatex * tex = new TLatex(0.2,0.84,TString(\"#sqrt{s}=7 TeV, #int Ldt = \"+luminosity_s+\" pb^{-1}\"));\n tex->SetNDC();\n tex->SetTextSize(0.035);\n tex->SetLineWidth(2);\n TLatex * tex2 = new TLatex(0.2,0.9,\"CMS Preliminary 2011\");\n tex2->SetNDC();\n tex2->SetTextSize(0.035);\n tex2->SetLineWidth(2);\n\n TLegend * leg = new TLegend(0.75,0.57,.95,.92);\n leg->SetFillStyle(0);\n leg->SetLineColor(0);\n for(unsigned int i = 0; i < processGroups.size(); i++){\n if(processGroups[i]!=\"hzz\" && processGroups[i]!=\"hww\"&&processGroups[i]!=\"data\"&&processGroups[i]!=\"dyeemm\")\n leg->AddEntry(MAP[processGroups[i]],TString(processGroups[i]),\"f\");\n else if(processGroups[i]!=\"data\"&&processGroups[i]!=\"dyeemm\")\n leg->AddEntry(MAP[processGroups[i]],TString(processGroups[i]+mH_s),\"l\");\n else if(processGroups[i]!=\"data\")\n leg->AddEntry(MAP[processGroups[i]],TString(processGroups[i]),\"l\");\n else\n leg->AddEntry(MAP[processGroups[i]],TString(processGroups[i]),\"pl\");\n }\n\n THStack * hs = new THStack;\n for(unsigned int i = 0; i < processGroups.size(); i++){\n if(processGroups[i]!=\"hzz\" && processGroups[i]!=\"hww\"&&processGroups[i]!=\"data\")\n hs->Add(MAP[processGroups[i]]);\n }\n\n double maximum = max(max(max(hs->GetMaximum(),MAP[\"data\"]->GetMaximum()),MAP[\"hzz\"]->GetMaximum()),MAP[\"hww\"]->GetMaximum());\n if(plotLog)\n MAP[\"data\"]->GetYaxis()->SetRangeUser(0.0001,100maximum);\n else\n MAP[\"data\"]->GetYaxis()->SetRangeUser(0,maximum+ 2min(maximum,sqrt(maximum)));\n\n std::stringstream gev_per_bin_ss; gev_per_bin_ss << (MAP[\"data\"]->GetXaxis()->GetXmax() - MAP[\"data\"]->GetXaxis()->GetXmin())/double(MAP[\"data\"]->GetNbinsX());\n std::string gev_per_bin_s = gev_per_bin_ss.str();\n\n MAP[\"data\"]->GetXaxis()->SetTitle(TString(X_AXIS_TITLE));\n MAP[\"data\"]->GetYaxis()->SetTitle(TString(\"# of events / \"+ gev_per_bin_s+\" GeV\"));\n MAP[\"data\"]->SetStats(kFALSE);\n //MAP[\"data\"]->SetTitle(TString(TITLE));\n MAP[\"data\"]->SetTitle(\"\");\n MAP[\"data\"]->Draw(\"E1\");\n hs->Draw(\"SAME\");\n MAP[\"hzz\"]->Draw(\"SAME\");\n MAP[\"hww\"]->Draw(\"SAME\");\n MAP[\"data\"]->Draw(\"SAME E1\");\n leg->Draw(\"SAME\");\n tex->Draw();\n tex2->Draw();\n c->SetLogy(plotLog);\n gPad->RedrawAxis();\n c->Print(TString(OUTPUT_NAME + \".pdf\"));\n\n}\n\nvoid LoopOverEventsAndFillHistograms(SmurfTree * tree, std::string process)\n{\n\n TFile fLeptonEffFile = TFile::Open(\"/data/smurf/data/EPS/auxiliar/efficiency_results_v6.root\");\n TH2D fhDEffMu = (TH2D)(fLeptonEffFile->Get(\"h2_results_muon_selection\"));\n TH2D fhDEffEl = (TH2D)(fLeptonEffFile->Get(\"h2_results_electron_selection\"));\n fhDEffMu->SetDirectory(0);\n fhDEffEl->SetDirectory(0);\n delete fLeptonEffFile;\n\n TFile fHiggsPtKFactorFile = TFile::Open(\"/data/smurf/sixie/KFactors/ggHWW_KFactors_PowhegToHQT.root\");\n TH1D HiggsPtKFactor;\n char kfactorHistName[100];\n sprintf(kfactorHistName, \"KFactor_PowhegToHQT_mH%d\", mH);\n HiggsPtKFactor = (TH1D)(fHiggsPtKFactorFile->Get(kfactorHistName));\n if (HiggsPtKFactor) {\n HiggsPtKFactor->SetDirectory(0);\n }\n assert(HiggsPtKFactor);\n fHiggsPtKFactorFile->Close();\n delete fHiggsPtKFactorFile;\n\n TFile fZZKFactorFile = TFile::Open(\"/data/smurf/sixie/KFactors/ZZ_KFactor.root\");\n TH1D ZZKFactor;\n ZZKFactor = (TH1D)(fZZKFactorFile->Get(\"KFactorZZ_DileptonPt\"));\n if (ZZKFactor) {\n ZZKFactor->SetDirectory(0);\n }\n assert(ZZKFactor);\n fZZKFactorFile->Close();\n delete fZZKFactorFile;\n\n TFile fGammaKFactorFile = TFile::Open(\"/home/anlevin/cms/cmssw/021/CMSSW_4_2_3_patch2/src/Smurf/Analysis/HZZllvv/PhotonSampleReweightFactors.root\");\n TH2F GammaKFactor;\n TH1F GammaZMass;\n GammaKFactor = (TH2F)(fGammaKFactorFile->Get(\"h2_weight\"));\n GammaZMass = (TH1F)(fGammaKFactorFile->Get(\"h1_mass\"));\n if (GammaKFactor) {\n GammaKFactor->SetDirectory(0);\n } \n assert(GammaKFactor);\n if (GammaZMass) {\n GammaZMass->SetDirectory(0);\n } \n assert(GammaZMass);\n fGammaKFactorFile->Close();\n delete fGammaKFactorFile;\n\n LeptonScaleLookup trigLookup(\"/data/smurf/data/EPS/auxiliar/efficiency_results_v6.root\");\n\n\n mithep::RunLumiRangeMap rlrm;\n if(process==\"dyeemm\") rlrm.AddJSONFile(\"Cert_EPSFINAL_May10ReReco_v2_PromptReco_160404_167913_JSON.txt\");\n\n for(int i = 0; i <tree->tree_->GetEntries(); i++){\n\n tree->tree_->GetEntry(i);\n\n if(process==\"dyeemm\"){\n\n\tmithep::RunLumiRangeMap::RunLumiPairType rl(tree->run_, tree->lumi_);\n\tif(!rlrm.HasRunLumi(rl)) continue; \n\n\tdouble minmet = min(tree->met_,tree->trackMet_);\n\n\tif ( tree->njets_ < 2 && (acos(cos(tree->dilep_.Phi() - tree->jet1_.Phi())) \n\t\t\t\t > (165/180.0)TMath::Pi() && tree->jet1_.Pt() > 15.0)) continue;\n\tif (!((tree->cuts_ & SmurfTree::TopVeto) == SmurfTree::TopVeto)) continue;\n\tif ( tree->dilep_.Pt() < 40.0 ) continue;\n\tif (fabs(tree->dilep_.Eta()) > 1.5) continue;\n\tdouble mZ = GammaZMass->GetRandom();\n\n\n\tif( minmet < 50.0) continue;\n\n\tdouble pxzll = tree->dilep_.Px() + tree->met_cos( tree->metPhi_);\n\tdouble pyzll = tree->dilep_.Py() + tree->met_sin( tree->metPhi_);\n\tdouble mtH = pow(sqrt(tree->dilep_.Pt()tree->dilep_.Pt()+mZmZ)+\n\t\t\t sqrt(tree->met_tree->met_ +mZmZ),2)\n\t -pxzllpxzll-pyzllpyzll;\n\tif(mtH >0) mtH = sqrt(mtH); else mtH = 0.0;\n\t\n\tif(full_sel){ \n\n\t double metLowerLimit = MetLowerLimit(mH,tree->njets_);\n\t double mtHLowerLimit = MtHLowerLimit(mH,tree->njets_);\n\t double mtHUpperLimit = MtHUpperLimit(mH,tree->njets_);\n\t \n\t if(minmet < metLowerLimit \|\| mtH < mtHLowerLimit \|\| mtH > mtHUpperLimit) continue;\n\n\t double dijet_mass = (tree->jet1_ + tree->jet2_).M();\n\t \n\t double minEta = min(tree->jet1_.Eta(),tree->jet2_.Eta());\n\t double maxEta = max(tree->jet1_.Eta(),tree->jet2_.Eta());\n\t \n\t if(tree->njets_ >= 2 && ( tree->jet1_.Pt() < 30 \|\| tree->jet2_.Pt() < 30 \|\| dijet_mass < 450 \|\| maxEta - minEta < 3.5 \n\t\t\t\t \|\| (tree->jet3_.Pt() > 30 && tree->jet3_.Eta() < maxEta && tree->jet3_.Eta() > minEta) )) continue;\n\t}\n\n\tfloat pt = TMath::Min(299.9, tree->dilep_.Pt());\n\tint njets = TMath::Min(3, int(tree->njets_));\n\tint bin_pt = GammaKFactor->GetXaxis()->FindBin(pt);\n\tint bin_njet = GammaKFactor->GetYaxis()->FindBin(njets);\n\tdouble weight = GammaKFactor->GetBinContent(bin_pt, bin_njet);\n\n\tnjets_map[process]->Fill(tree->njets_,weight);\n\tif(tree->njets_ == 0){\n\t minmet_0jets_map[process]->Fill(minmet,weight);\n\t mt_0jets_map[process]->Fill(mtH,weight);\n\t zpt_0jets_map[process]->Fill(tree->dilep_.Pt(),weight);\n\t}\n\telse if (tree->njets_ == 1){\n\t minmet_1jet_map[process]->Fill(minmet,weight);\n\t mt_1jet_map[process]->Fill(mtH,weight);\n\t zpt_1jet_map[process]->Fill(tree->dilep_.Pt(),weight);\n\t}\n\telse if (tree->njets_ >= 2){\n\t minmet_2jets_map[process]->Fill(minmet,weight);\n\t mt_2jets_map[process]->Fill(mtH,weight);\n\t zpt_2jets_map[process]->Fill(tree->dilep_.Pt(),weight);\n\t}\n\n\tcontinue;\n }\n \n if(!PassSelection(tree,mH,full_sel)) continue;\n\n if( (abs(tree->lid1_) == 11 && abs(tree->lid2_) == 13) \|\| (abs(tree->lid1_) == 13 && abs(tree->lid2_) == 11) ) continue;\n \n double mZ = tree->dilep_.M();\n \n double pxzll = tree->dilep_.Px() + tree->met_cos( tree->metPhi_);\n double pyzll = tree->dilep_.Py() + tree->met_sin( tree->metPhi_);\n double mtH = pow(sqrt(tree->dilep_.Pt()tree->dilep_.Pt()+mZmZ)+\n\t\t sqrt(tree->met_tree->met_ +mZmZ),2)\n -pxzllpxzll-pyzllpyzll;\n if(mtH >0) mtH = sqrt(mtH); else mtH = 0.0;\n \n\n double minmet = min(tree->trackMet_,tree->met_);\n \n double selectionEfficiencyScaleFactor1 = LeptonEfficiencyScaleFactor(tree->lep1_.Pt(), tree->lep1_.Eta(),fhDEffMu,fhDEffEl,tree->lid1_);\n double selectionEfficiencyScaleFactor2 = LeptonEfficiencyScaleFactor(tree->lep2_.Pt(), tree->lep2_.Eta(),fhDEffMu,fhDEffEl,tree->lid2_);\n double triggerEfficiencyScaleFactor = trigLookup.GetExpectedTriggerEfficiency(fabs(tree->lep1_.eta()), tree->lep1_.pt() , \n \t\t\t\t\t\t\t\t fabs(tree->lep2_.eta()), tree->lep2_.pt(), \n\t\t\t\t\t\t\t\t TMath::Abs(tree->lid1_), TMath::Abs(tree->lid2_));\n\n \n double weight = 1;\n \n std::string processGroup = process;\n\n if(process== \"hzz\" \|\| process==\"hww\")\n weight = HiggsPtKFactor->GetBinContent(HiggsPtKFactor->GetXaxis()->FindFixBin(tree->higgsPt_));\n \n if(tree->dstype_ != 0)\n weight = triggerEfficiencyScaleFactorselectionEfficiencyScaleFactor1selectionEfficiencyScaleFactor2PileupReweightFactor(tree->nvtx_)tree->scale1fb_luminosity/1000;\n \n if(process==\"zz\")\n weight = ZZKFactor->GetBinContent( ZZKFactor->GetXaxis()->FindFixBin(tree->dilep_.Pt()));\n \n if(process==\"top\" \|\| process==\"ttbar\" \|\| process==\"ww\" )\n weight = TopAndWWScaleFactor[tree->njets_<2?tree->njets_:2];\n \n if(process==\"wz\" \|\| process==\"zz\")\n processGroup =\"vz\";\n if(process==\"ttbar\")\n processGroup = \"top\";\n\n\n njets_map[processGroup]->Fill(tree->njets_,weight);\n if(tree->njets_ == 0){\n minmet_0jets_map[processGroup]->Fill(minmet,weight);\n mt_0jets_map[processGroup]->Fill(mtH,weight);\n zpt_0jets_map[processGroup]->Fill(tree->dilep_.Pt(),weight);\n }\n else if (tree->njets_ == 1){\n minmet_1jet_map[processGroup]->Fill(minmet,weight);\n mt_1jet_map[processGroup]->Fill(mtH,weight);\n zpt_1jet_map[processGroup]->Fill(tree->dilep_.Pt(),weight);\n }\n else if (tree->njets_ >= 2){\n minmet_2jets_map[processGroup]->Fill(minmet,weight);\n mt_2jets_map[processGroup]->Fill(mtH,weight);\n zpt_2jets_map[processGroup]->Fill(tree->dilep_.Pt(),weight);\n }\n }\n \n}\n\ndouble LeptonEfficiencyScaleFactor(double pt, double eta, TH2D fhDEffMu, TH2D fhDEffEl, int lid){\n // lid == 13 (muon), 11 (electron)\n double mypt = TMath::Min(pt,49.999);\n double myeta = TMath::Min(fabs(eta),2.4999);\n double prob = 1.0;\n if (TMath::Abs(lid) == 13){\n Int_t ptbin = fhDEffMu->GetXaxis()->FindBin(mypt);\n Int_t etabin = fhDEffMu->GetYaxis()->FindBin(myeta);\t \n prob = fhDEffMu->GetBinContent(ptbin,etabin);\n }\n else if(TMath::Abs(lid) == 11){\n Int_t ptbin = fhDEffEl->GetXaxis()->FindBin(mypt);\n Int_t etabin = fhDEffEl->GetYaxis()->FindBin(myeta);\t \n prob = fhDEffEl->GetBinContent(ptbin,etabin);\n }\n return prob;\n}\n\n" }, { "alpha_fraction": 0.5965431928634644, "alphanum_fraction": 0.6138271689414978, "avg_line_length": 31.83783721923828, "blob_id": "5d296678b30e549b3fa323556c186c0e5d051a3b", "content_id": "05ea1319fe36df29cec24da753e98a92df6f3fbf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 6075, "license_type": "no_license", "max_line_length": 96, "num_lines": 185, "path": "/relval_harvesting/DQMUpload_Manual.py", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n\"\"\"\n_DQMUpload_\n\nDQM upload script\n\nReads from a FWJR, finds the first analysis file\nand uploads to the given URL (hopefully a DQM GUI url)\nusing the credentials in the environment.\n\nUsage:\n\n./DQMUpload.py fwjr.xml https://cmsweb-testbed.cern.ch:/dqm/dev\n\nAdapted from:\n\nhttps://github.com/rovere/dqmgui/blob/master/bin/visDQMUpload\n\nand\n\nhttps://github.com/dmwm/WMCore/blob/master/src/python/WMCore/WMSpec/Steps/Executors/DQMUpload.py\n\nCreated on Oct 10, 2012\n\n@author: dballest\n\"\"\"\n\n\nfrom cStringIO import StringIO\nfrom mimetypes import guess_type\nfrom stat import \nfrom xml.dom.minidom import parse\nimport sys\nimport os.path\nimport urllib2\nimport httplib\nimport gzip\nimport traceback\n\ntry:\n from hashlib import md5\nexcept ImportError:\n from md5 import md5\n\nHTTPS = httplib.HTTPS\nif sys.version_info[:3] >= (2, 4, 0):\n HTTPS = httplib.HTTPSConnection\n\nssl_key_file = None\nssl_cert_file = None\n\nclass HTTPSCertAuth(HTTPS):\n def __init__(self, host, args, kwargs):\n HTTPS.__init__(self, host, key_file = ssl_key_file, cert_file = ssl_cert_file, kwargs)\n\nclass HTTPSCertAuthenticate(urllib2.AbstractHTTPHandler):\n def default_open(self, req):\n return self.do_open(HTTPSCertAuth, req)\n\ndef filetype(filename):\n return guess_type(filename)[0] or 'application/octet-stream'\n\ndef encode(args, files):\n \"\"\"\n Encode form (name, value) and (name, filename, type) elements into\n multi-part/form-data. We don't actually need to know what we are\n uploading here, so just claim it's all text/plain.\n \"\"\"\n boundary = '----------=_DQM_FILE_BOUNDARY_=-----------'\n (body, crlf) = ('', '\\r\\n')\n for (key, value) in args.items():\n payload = str(value)\n body += '--' + boundary + crlf\n body += ('Content-Disposition: form-data; name=\"%s\"' % key) + crlf\n body += crlf + payload + crlf\n for (key, filename) in files.items():\n body += '--' + boundary + crlf\n body += ('Content-Disposition: form-data; name=\"%s\"; filename=\"%s\"'\n % (key, os.path.basename(filename))) + crlf\n body += ('Content-Type: %s' % filetype(filename)) + crlf\n body += ('Content-Length: %d' % os.path.getsize(filename)) + crlf\n body += crlf + open(filename, \"r\").read() + crlf\n body += '--' + boundary + '--' + crlf + crlf\n return ('multipart/form-data; boundary=' + boundary, body)\n\ndef marshall(args, files, request):\n \"\"\"\n Marshalls the arguments to the CGI script as multi-part/form-data,\n not the default application/x-www-form-url-encoded. This improves\n the transfer of the large inputs and eases command line invocation\n of the CGI script.\n \"\"\"\n (contentType, body) = encode(args, files)\n request.add_header('Content-Type', contentType)\n request.add_header('Content-Length', str(len(body)))\n request.add_data(body)\n\ndef upload(url, args, files):\n ident = \"visDQMUpload DQMGUI/%s python/%s\" % \\\n (os.getenv('DQMGUI_VERSION', '?'), \"%d.%d.%d\" % sys.version_info[:3])\n datareq = urllib2.Request(url + '/data/put')\n datareq.add_header('Accept-encoding', 'gzip')\n datareq.add_header('User-agent', ident)\n marshall(args, files, datareq)\n if 'https://' in url:\n result = urllib2.build_opener(HTTPSCertAuthenticate()).open(datareq)\n else:\n result = urllib2.build_opener(urllib2.ProxyHandler({})).open(datareq)\n\n data = result.read()\n if result.headers.get ('Content-encoding', '') == 'gzip':\n data = gzip.GzipFile (fileobj = StringIO(data)).read ()\n return (result.headers, data)\n\nx509_path = os.getenv(\"X509_USER_PROXY\", None)\nif x509_path and os.path.exists(x509_path):\n ssl_key_file = ssl_cert_file = x509_path\n\nif not ssl_key_file:\n x509_path = os.getenv(\"X509_USER_KEY\", None)\n if x509_path and os.path.exists(x509_path):\n ssl_key_file = x509_path\n\nif not ssl_cert_file:\n x509_path = os.getenv(\"X509_USER_CERT\", None)\n if x509_path and os.path.exists(x509_path):\n ssl_cert_file = x509_path\n\nif not ssl_key_file:\n x509_path = os.getenv(\"HOME\") + \"/.globus/userkey.pem\"\n if os.path.exists(x509_path):\n ssl_key_file = x509_path\n\nif not ssl_cert_file:\n x509_path = os.getenv(\"HOME\") + \"/.globus/usercert.pem\"\n if os.path.exists(x509_path):\n ssl_cert_file = x509_path\n\nif 'https://' in sys.argv[1] and (not ssl_key_file or not os.path.exists(ssl_key_file)):\n print >> sys.stderr, \"no certificate private key file found\"\n sys.exit(1)\n\nif 'https://' in sys.argv[1] and (not ssl_cert_file or not os.path.exists(ssl_cert_file)):\n print >> sys.stderr, \"no certificate public key file found\"\n sys.exit(1)\n\nprint \"Using SSL private key\", ssl_key_file\nprint \"Using SSL public key\", ssl_cert_file\n\ntry:\n filename = (sys.argv[1]).encode('utf-8')\n\n blockSize = 0x10000\n\n def upd(m, data):\n m.update(data)\n return m\n\n fd = open(filename, 'rb')\n try:\n contents = iter(lambda: fd.read(blockSize), '')\n m = reduce(upd, contents, md5())\n finally:\n fd.close()\n\n (headers, data) = \\\n upload(sys.argv[2],\n { 'size': os.path.getsize(filename),\n 'checksum': \"md5:%s\" % m.hexdigest() },\n { 'file': filename })\n print 'Status code: ', headers.get(\"Dqm-Status-Code\", \"None\")\n print 'Message: ', headers.get(\"Dqm-Status-Message\", \"None\")\n print 'Detail: ', headers.get(\"Dqm-Status-Detail\", \"None\")\n print data\n sys.exit(0)\nexcept urllib2.HTTPError, e:\n print \"ERROR\", e\n print 'Status code: ', e.hdrs.get(\"Dqm-Status-Code\", \"None\")\n print 'Message: ', e.hdrs.get(\"Dqm-Status-Message\", \"None\")\n print 'Detail: ', e.hdrs.get(\"Dqm-Status-Detail\", \"None\")\n sys.exit(91)\nexcept Exception, e:\n print \"ERROR\", e\n print traceback.format_exc()\n sys.exit(92)\n" }, { "alpha_fraction": 0.517241358757019, "alphanum_fraction": 0.5940142869949341, "avg_line_length": 23.79032325744629, "blob_id": "7fe84446541b5318e0157e3470a25231256cf273", "content_id": "2534e264d63eb596331a1ef45b4445633be92f2c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1537, "license_type": "no_license", "max_line_length": 59, "num_lines": 62, "path": "/poisson.C", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "//this is the original version of the script from Guillelmo\n#include <iostream>\n#include <vector>\nusing namespace std;\n#include \"TROOT.h\"\n#include \"TRandom.h\"\n#include \"TFile.h\"\n#include \"TF1.h\"\n#include \"TH1.h\"\n#include \"TCanvas.h\"\n\nvoid poisson(int sel = 2, int nevt = 1000000, \n double nexp = 1.0, double nsyst = 0.){\n TH1D hnevt1\t= new TH1D(\"nevt1\",\"nevt1\",100,-0.5,99.5);\n TH1D hnevt2\t= new TH1D(\"nevt2\",\"nevt2\",100,-0.5,99.5);\n TH1D hnevt3\t= new TH1D(\"nevt3\",\"nevt3\",100,-0.5,99.5);\n double nevt1,nevt2,nevt3;\n gRandom->SetSeed(666);\n for(int i=0; i<nevt; i++){\n nevt1 = -0.1;\n while(nevt1 < 0){\n nevt1 = gRandom->Gaus(nexp,sqrt(nexp)) + \n gRandom->Gaus(0.0,nsyst);\n }\n hnevt1->Fill(nevt1);\n\n nevt2 = -0.1;\n while(nevt2 < 0){\n nevt2 = gRandom->Poisson(nexp) + \n gRandom->Gaus(0.0,nsyst);\n }\n hnevt2->Fill(nevt2);\n\n nevt3 = -0.1;\n while(nevt3 < 0){\n nevt3 = gRandom->Gaus(nexp,nsyst);\n }\n nevt3 = gRandom->Poisson(nevt3);\n hnevt3->Fill(nevt3);\n\n if(i%1000000 == 0) cout << i << endl;\n }\n hnevt1->Scale(1./hnevt1->GetSumOfWeights());\n hnevt2->Scale(1./hnevt2->GetSumOfWeights());\n hnevt3->Scale(1./hnevt3->GetSumOfWeights());\n hnevt1->SetLineColor(kRed);\n hnevt2->SetLineColor(kBlue);\n hnevt3->SetLineColor(kBlack);\n\n if (sel == 0){ // G & P & GP\n hnevt1->Draw(\"\");\n hnevt2->Draw(\"same\");\n hnevt3->Draw(\"same\");\n }\n else if(sel == 1){ // P & GP\n hnevt2->Draw(\"\");\n hnevt3->Draw(\"same\");\n }\n else if(sel == 2){ // P\n hnevt2->Draw(\"\");\n }\n}\n" }, { "alpha_fraction": 0.49308380484580994, "alphanum_fraction": 0.4938974678516388, "avg_line_length": 30.512821197509766, "blob_id": "43b186d915c3921f8392646ef82a9c76e65fa8d4", "content_id": "42de0c2b3a860cb3b850743a62f10e4c45eb1ed1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 1229, "license_type": "no_license", "max_line_length": 100, "num_lines": 39, "path": "/BambuGenDumperMod.hh", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "//--------------------------------------------------------------------------------------------------\n// \n// Module that prints out generator level information from BAMBU\n//\n//==================================================================================================\n\n#ifndef EWKANA_NTUPLER_BAMBUGENDUMPERMOD_HH\n#define EWKANA_NTUPLER_BAMBUGENDUMPERMOD_HH\n\n#include \"MitAna/TreeMod/interface/BaseMod.h\" \n#include \"MitAna/DataTree/interface/MCParticleFwd.h\"\n\nclass TTree;\n\nnamespace mithep \n{\n class BambuGenDumperMod : public BaseMod \n {\n public:\n BambuGenDumperMod(const char name=\"BambuGenDumperMod\", \n const char title=\"BAMBU Gen Info Dumper\");\n ~BambuGenDumperMod();\n\t\t \n protected:\n void Begin();\n void BeginRun();\n void EndRun();\n void Process();\n void SlaveBegin();\n void SlaveTerminate();\n void Terminate();\n\n TString fPartName; // branch name of MCParticle collection\n const MCParticleCol fParticles; // pointer to generated particle branch\n\n ClassDef(BambuGenDumperMod, 1)\n };\n}\n#endif\n" }, { "alpha_fraction": 0.41811174154281616, "alphanum_fraction": 0.42943158745765686, "avg_line_length": 29.52941131591797, "blob_id": "71d33544a1776f08f4c7d59d98590fe9c046f77e", "content_id": "3e3df2b5e35d596404c8febc054f2bdbf42ed858", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 4152, "license_type": "no_license", "max_line_length": 121, "num_lines": 136, "path": "/BambuGenDumperMod.cc", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "#include \"EWKAna/Ntupler/interface/BambuGenDumperMod.hh\"\n#include \"MitAna/DataTree/interface/Names.h\"\n#include \"MitAna/DataTree/interface/MCParticleCol.h\"\n\n#include <iostream>\n#include <iomanip>\n#include <vector>\n\nusing namespace mithep;\nusing namespace std;\n\nClassImp(mithep::BambuGenDumperMod)\n\n//--------------------------------------------------------------------------------------------------\nBambuGenDumperMod::BambuGenDumperMod(const char name, const char title) : \n BaseMod(name,title),\n fPartName(Names::gkMCPartBrn),\n fParticles(0)\n{\n // Constructor.\n}\n\n//--------------------------------------------------------------------------------------------------\nBambuGenDumperMod::~BambuGenDumperMod(){}\n\n//--------------------------------------------------------------------------------------------------\nvoid BambuGenDumperMod::SlaveBegin()\n{\n //\n // Request BAMBU branches\n //\n ReqBranch(fPartName, fParticles);\n}\n\n//--------------------------------------------------------------------------------------------------\nvoid BambuGenDumperMod::Process()\n{\n LoadBranch(fPartName);\n\n if(!fParticles) return;\n\n IncNEventsProcessed(); \n\n cout << \"Event: \" << GetNEventsProcessed() << endl;\n cout << \"Particles: \" << fParticles->GetEntries() << endl;\n cout << endl;\n cout << \"Index\";\n cout << setw(8) << \"PDG ID\";\n cout << setw(8) << \"Status\";\n cout << setw(8) << \"From\";\n cout << setw(10) << \"E \";\n cout << setw(10) << \"px \";\n cout << setw(10) << \"py \";\n cout << setw(10) << \"pz \";\n cout << setw(25) << \"decay vertex \" << endl;\n cout << \"____________________________________________________________________________________________________\" << endl;\n\n //\n // Scan generator level info\n //\n vector<const MCParticle> index;\n \n for(UInt_t i=0; i<fParticles->GetEntries(); ++i) {\n const MCParticle p = fParticles->At(i);\n index.push_back(p);\n \n cout << setw(5) << i+1;\n cout << setw(9) << p->PdgId();\n cout << setw(7) << p->Status();\n \n if(p->HasMother()) {\n for(UInt_t idx=0; idx<index.size(); idx++) {\n const MCParticle *m = p->Mother();\n\tif(m == index[idx]) {\n\t cout << setw(8) << idx+1;\n\t break;\n\t}\n }\n } else {\n cout << setw(8) << \" \";\n }\n \n cout << setw(10) << setprecision(3) << p->E();\n cout << setw(10) << setprecision(3) << p->Px();\n cout << setw(10) << setprecision(3) << p->Py();\n cout << setw(10) << setprecision(3) << p->Pz();\n ThreeVector v = p->DecayVertex();\n if( (v.X()!=0) \|\| (v.Y()!=0) \|\| (v.Z()!=0) ) { // stable particles have decay vertex (0,0,0)\n cout << \" (\";\n cout << setw(7) << setprecision(3) << v.X();\n cout << \",\";\n cout << setw(7) << setprecision(3) << v.Y();\n cout << \",\";\n cout << setw(7) << setprecision(3) << v.Z();\n cout << \")\";\n }\n cout << endl;\n }\n\n cout << \"====================================================================================================\" << endl;\n}\n\n//--------------------------------------------------------------------------------------------------\nvoid BambuGenDumperMod::SlaveTerminate()\n{\n cout << endl;\n cout << \"Finished with \" << GetNEventsProcessed() << \" events processed!\" << endl;\n}\n\n//--------------------------------------------------------------------------------------------------\nvoid BambuGenDumperMod::Begin()\n{\n // Run startup code on the client machine. For this module, we dont\n // do anything here.\n}\n\n//--------------------------------------------------------------------------------------------------\nvoid BambuGenDumperMod::BeginRun()\n{\n // Run startup code on the client machine. For this module, we dont\n // do anything here.\n}\n\n//--------------------------------------------------------------------------------------------------\nvoid BambuGenDumperMod::EndRun()\n{\n // Run startup code on the client machine. For this module, we dont\n // do anything here.\n}\n\n//--------------------------------------------------------------------------------------------------\nvoid BambuGenDumperMod::Terminate()\n{\n // Run finishing code on the client computer. \n // For this module, we dont do anything here.\n}\n" }, { "alpha_fraction": 0.5667752623558044, "alphanum_fraction": 0.5960912108421326, "avg_line_length": 42.85714340209961, "blob_id": "028f78e0e1ba88cda073a3ed05dbf8f65b11bcef", "content_id": "2f89fc032448fb04d59563da021167da709916f0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 614, "license_type": "no_license", "max_line_length": 106, "num_lines": 14, "path": "/ask_castor_to_stage.sh", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "dir=/castor/cern.ch/user/p/paus/filefi/029/s12-zz2e2m-powheg-v7a\nfor file in `cat /home/mitprod/catalog/cern/filefi/029/s12-zz2e2m-powheg-v7a/Files \| awk '{print $2}'`; do\n\t staged=`stager_qry -M $dir/$file`\n\t staged=`echo $staged \| awk '{print $3}'`\n\t if [ \"$staged\" == \"STAGED\" ]; then \n\t echo \"$dir/$file staged\" \n\t\telif [ \"$staged\" == \"STAGEIN\" ]; then\n\t echo \"$dir/$file stagein\"\n\t else\n\t echo -n \" -- staging file: ($dir/$file)\"\n\t get=`stager_get -M $dir/$file`\n\t if echo $get \| grep \"SUBREQUEST_FAILED\"; then echo \" SUBREQUEST_FAILED\"; else echo \"\"; fi\n\t fi\ndone\n" }, { "alpha_fraction": 0.5379310250282288, "alphanum_fraction": 0.6103448271751404, "avg_line_length": 17.125, "blob_id": "3cf5dc56b3f4b361b24737f606b47ae919bc5a91", "content_id": "d061786e893dd209ab2a16a3cbcb6ac2b9c67881", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 290, "license_type": "no_license", "max_line_length": 48, "num_lines": 16, "path": "/test_boost.C", "repo_name": "AndrewLevin/Miscellaneous", "src_encoding": "UTF-8", "text": "#include \"TLorentzVector.h\"\n#include <iostream>\n\nvoid test_boost ()\n{\n\n TLorentzVector v1(TVector3(1.,2.,3.),100.);\n TLorentzVector v2(TVector3(5.,-9.,3.),100.);\n\n TVector3 b(v1.BoostVector());\n\n std::cout << v2.Px() << std::endl;\n\n std::cout << v1.Angle(v2.Vect()) << std::endl;\n \n}\n" } ]	24
williballenthin/dissect	https://github.com/williballenthin/dissect	37c09045818fc3ef712475631a934dfdb89100e8	6889840928852f28071604931c7629d2e03cff2c	8f798eba49cc7219d0b3cdd18622be1c7bdca929	refs/heads/master	2021-01-24T00:27:20.222630	2016-01-24T00:37:55	2016-01-24T00:37:55	52,381,954	1	0	null	2016-02-23T18:29:33	2016-01-24T00:23:00	2016-01-24T00:38:00	null	[ { "alpha_fraction": 0.6393939256668091, "alphanum_fraction": 0.6585858464241028, "avg_line_length": 24.384614944458008, "blob_id": "00c6c029ce0c9d9f7a8cd1020ecba171f3f4605c", "content_id": "02cfafaa99077d1900663bfc8027cd6e287f4a91", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 990, "license_type": "permissive", "max_line_length": 75, "num_lines": 39, "path": "/setup.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n#from distutils.core import setup\nfrom setuptools import setup,find_packages\n\n# For Testing:\n#\n# python3.4 setup.py register -r https://testpypi.python.org/pypi\n# python3.4 setup.py bdist_wheel upload -r https://testpypi.python.org/pypi\n# python3.4 -m pip install -i https://testpypi.python.org/pypi\n#\n# For Realz:\n#\n# python3.4 setup.py register\n# python3.4 setup.py bdist_wheel upload\n# python3.4 -m pip install\n\nimport dissect\n\nsetup(\n name='dissect',\n version='.'.join( str(v) for v in dissect.__version__ ),\n description='Vivisect (Mark II) File/Protocol Parsers',\n author='Invisigoth Kenshoto',\n author_email='[email protected]',\n url='https://github.com/vivisect/dissect',\n license='Apache License 2.0',\n\n packages=find_packages(exclude=['.tests','.tests.']),\n\n install_requires=[\n 'vstruct>=2.0.2',\n ],\n\n classifiers=[\n 'License :: OSI Approved :: Apache Software License',\n 'Programming Language :: Python :: 3.4',\n ],\n\n)\n" }, { "alpha_fraction": 0.4631474018096924, "alphanum_fraction": 0.49800798296928406, "avg_line_length": 21.904762268066406, "blob_id": "1f40fb7bcf5337f2cc4fceee344212b388834369", "content_id": "7293c4a92b3cfa01ee3d56b98fad9bae0010043e", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1004, "license_type": "permissive", "max_line_length": 47, "num_lines": 42, "path": "/dissect/tests/test_common.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import unittest\r\n\r\nfrom dissect.common import \r\n\r\nclass CommonTest(unittest.TestCase):\r\n\r\n def test_common_ondemand(self):\r\n def foo():\r\n return 'foo'\r\n\r\n def bar(x):\r\n return x + 20\r\n\r\n def baz(x,y=0):\r\n return x + y\r\n\r\n ondem = OnDemand()\r\n ondem.add('foo',foo)\r\n ondem.add('bar',bar, 10)\r\n ondem.add('baz',baz, 10, y=40)\r\n\r\n self.assertEqual( ondem['foo'], 'foo' )\r\n\r\n self.assertEqual( ondem['bar'], 30 )\r\n self.assertEqual( ondem['baz'], 50 )\r\n\r\n def test_common_keycache(self):\r\n data = {'hits':0}\r\n def woot(x):\r\n data['hits'] += 1\r\n return x + 20\r\n\r\n cache = KeyCache(woot)\r\n\r\n self.assertEqual( cache[10], 30 )\r\n self.assertEqual( cache[10], 30 )\r\n self.assertEqual( cache[10], 30 )\r\n\r\n self.assertEqual( data['hits'], 1 )\r\n\r\n self.assertEqual( cache[20], 40 )\r\n self.assertEqual( data['hits'], 2 )\r\n" }, { "alpha_fraction": 0.560422956943512, "alphanum_fraction": 0.5722054243087769, "avg_line_length": 37.39682388305664, "blob_id": "7bc04cb4a4f3a70ef53e6774958c92db3ff96600", "content_id": "2decc99deb897ec3d5385f2772cf9eed0885844e", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 9930, "license_type": "permissive", "max_line_length": 132, "num_lines": 252, "path": "/dissect/formats/cab.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import tempfile\r\nfrom io import BytesIO\r\n\r\nfrom vstruct.types import \r\nfrom dissect.filelab import \r\nimport dissect.bitlab as bitlab\r\nimport dissect.algos.mszip as mszip \r\nimport dissect.algos.lzx as lzx\r\n\r\nclass OffCabFile(Exception):pass\r\n\r\n#https://msdn.microsoft.com/en-us/library/bb417343.aspx\r\n\r\n_CAB_MAGIC = b'MSCF'\r\n_A_RDONLY = 0x01 # file is read-only \r\n_A_HIDDEN = 0x02 # file is hidden \r\n_A_SYSTEM = 0x04 # file is a system file \r\n_A_ARCH = 0x20 # file modified since last backup \r\n_A_EXEC = 0x40 # run after extraction \r\n_A_NAME_IS_UTF = 0x80 # szName[] contains UTF \r\n\r\n_F_PREV_CABINET = 0x0001 # When this bit is set, the szCabinetPrev and szDiskPrev fields are present in this CFHEADER.\r\n_F_NEXT_CABINET = 0x0002 # When this bit is set, the szCabinetNext and szDiskNext fields are present in this CFHEADER.\r\n_F_RESERVE_PRESENT = 0x0004 # When this bit is set, the cbCFHeader, cbCFFolder, and cbCFData fields are present in this CFHEADER.\r\n\r\ncomp = venum()\r\ncomp.NONE = 0x00 # no compression\r\ncomp.MSZIP = 0x01 # ms decompress compression\r\ncomp.QUANTUM = 0x02 # ms quantum compression\r\ncomp.LZX = 0x03 # ms lzx compression\r\n\r\nclass CFHEADER(VStruct):\r\n\r\n def __init__(self):\r\n VStruct.__init__(self)\r\n self.signature = vbytes(4) # file signature\r\n self.reserved1 = uint32() # reserved\r\n self.cbCabinet = uint32() # size of this cabinet file in bytes \r\n self.reserved2 = uint32() # reserved \r\n self.coffFiles = uint32() # offset of the first CFFILE entry \r\n self.reserved3 = uint32() # reserved \r\n self.versionMinor = uint8() # cabinet file format version, minor \r\n self.versionMajor = uint8() # cabinet file format version, major \r\n self.cFolders = uint16() # number of CFFOLDER entries in this cabinet\r\n self.cFiles = uint16() # number of CFFILE entries in this cabinet \r\n self.flags = uint16() # cabinet file option indicators \r\n self.setID = uint16() # must be the same for all cabinets in a set\r\n self.iCabinet = uint16() # number of this cabinet file in a set \r\n self.cbOptFields = VStruct() # container struct for optional fields (flags based)\r\n #self.cbCFHeader = uint16() # (optional) size of per-cabinet reserved area\r\n #self.cbCFFolder = uint8() # (optional) size of per-folder reserved area\r\n #self.cbCFData = uint8() # (optional) size of per-datablock reserved area\r\n #self.abReserve = vbytes() # (optional) per-cabinet reserved area \r\n #self.szCabinetPrev = vbytes()#v_zstr() # (optional) name of previous cabinet file \r\n #self.szDiskPrev = vbytes()#v_zstr() # (optional) name of previous disk \r\n #self.szCabinetNext = vbytes()#v_zstr() # (optional) name of next cabinet file \r\n #self.szDiskNext = vbytes()#v_zstr() # (optional) name of next disk \r\n\r\n self.cfDirArray = VArray()\r\n self.cfFileArray = VArray()\r\n\r\n self['flags'].vsOnset( self._onSetFlags )\r\n self['cFiles'].vsOnset( self._onSetFiles )\r\n self['cFolders'].vsOnset( self._onSetFolders )\r\n \r\n #self['cbCFHeader'].vsOnset( self._onSetCfHeader )\r\n\r\n def _onSetFiles(self):\r\n self.cfFileArray = varray( self.cFiles, CFFILE )()\r\n\r\n def _onSetFolders(self):\r\n abres = 0\r\n if self.flags & _F_RESERVE_PRESENT:\r\n abres = self.cbOptFields.cbCFFolder\r\n\r\n self.cfDirArray = varray( self.cFolders, CFFOLDER, abres=abres )()\r\n\r\n def _onSetFlags(self):\r\n f = self.flags\r\n\r\n # these must remain in this order...\r\n if f & _F_RESERVE_PRESENT:\r\n self.cbOptFields.cbCFHeader = uint16() # (optional) size of per-cabinet reserved area\r\n self.cbOptFields.cbCFFolder = uint8() # (optional) size of per-folder reserved area\r\n self.cbOptFields.cbCFData = uint8() # (optional) size of per-datablock reserved area\r\n self.cbOptFields.abReserve = vbytes() # (optional) per-cabinet reserved area \r\n self.cbOptFields['cbCFHeader'].vsOnset( self._onSetCfHeader )\r\n\r\n if f & _F_PREV_CABINET:\r\n self.cbOptFields.szCabinetPrev = zstr()\r\n self.cbOptFields.szDiskPrev = zstr()\r\n\r\n if f & _F_NEXT_CABINET:\r\n self.cbOptFields.szCabinetNext = zstr()\r\n self.cbOptFields.szDiskNext = zstr()\r\n\r\n def _onSetCfHeader(self):\r\n self.cbOptFields['abReserve'].vsResize( self.cbOptFields.cbCFHeader )\r\n\r\nclass CFFOLDER(VStruct):\r\n def __init__(self, abres=0):\r\n VStruct.__init__(self)\r\n self.coffCabStart = uint32() # file offset of CFDATA blocs\r\n self.cCFData = uint16() # CFDATA block count\r\n self.typeCompress = uint16(enum=comp)\r\n self.abReserve = vbytes(abres)\r\n\r\nclass CFFILE(VStruct):\r\n def __init__(self):\r\n VStruct.__init__(self)\r\n self.cbFile = uint32() # uncompressed size of this file in bytes\r\n self.uoffFolderStart = uint32() # uncompressed offset of this file in the folder\r\n self.iFolder = uint16() # index into the CFFOLDER area\r\n self.date = uint16() # date stamp for this file\r\n self.time = uint16() # time stamp for this file\r\n self.attribs = uint16() # attribute flags for this file\r\n self.szName = zstr() # name of this file\r\n\r\nclass CFDATA(VStruct):\r\n def __init__(self,abres=0):\r\n VStruct.__init__(self)\r\n self.csum = uint32() # checksum of this CFDATA entry /\r\n self.cbData = uint16() # number of compressed bytes in this block /\r\n self.cbUncomp = uint16() # number of uncompressed bytes in this block /\r\n self.abReserved = vbytes(abres) # (optional) per-datablock reserved area /\r\n self.ab = vbytes() # compressed data bytes /\r\n\r\n self['cbData'].vsOnset( self._onSetCbData )\r\n\r\n def _onSetCbData(self):\r\n self['ab'].vsResize( self.cbData )\r\n\r\nclass CabLab(FileLab):\r\n\r\n def __init__(self, fd, off=0):\r\n FileLab.__init__(self, fd, off=off)\r\n self.addOnDemand('CFHEADER', self._getCabHeader )\r\n self.addOnDemand('filesbyname', self._loadFilesByName )\r\n\r\n self.decomps = {\r\n comp.NONE:self._deCompNoneBlock,\r\n comp.MSZIP:self._deCompMsZipBlock,\r\n comp.QUANTUM:self._deCompQuantumBlock,\r\n comp.LZX:self._deCompLzxBlock\r\n }\r\n\r\n\r\n def _deCompNoneBlock(self, itblks, comp_type=None):\r\n for d in itblks:\r\n yield d.ab\r\n\r\n def _deCompLzxBlock(self, itblks, comp_type):\r\n lzxd = lzx.Lzx(comp_type)\r\n for d in lzxd.decompBlock(itblks):\r\n yield d\r\n\r\n def _deCompMsZipBlock(self, itblks, comp_type=None):\r\n mszipd = mszip.MsZip()\r\n for d in mszipd.decompBlock(itblks):\r\n yield d\r\n\r\n def _deCompQuantumBlock(self, itblks, comp_type=None):\r\n raise NotImplementedError('Quantum is not support...yet')\r\n\r\n def _getCabHeader(self):\r\n hdr = self.getStruct(0, CFHEADER)\r\n if _CAB_MAGIC != hdr.signature:\r\n raise OffCabFile('Invalid CAB File Header: %r' % (hdr.signature,))\r\n return hdr\r\n\r\n def _loadFilesByName(self):\r\n ret = {}\r\n for off,cff in self['CFHEADER'].cfFileArray:\r\n ret[cff.szName] = cff\r\n return ret\r\n\r\n def getCabFiles(self):\r\n '''\r\n \r\n Example:\r\n\r\n for filename, finfo, fd in cab.getCabFiles(self):\r\n fdata = fd.read()\r\n ''' \r\n cfh = self['CFHEADER']\r\n ifldr = None\r\n fdata = b''\r\n for fname,finfo in self.listCabFiles():\r\n fsize = finfo['size']\r\n uoff = finfo['uoff']\r\n if finfo['ifldr'] != ifldr:\r\n ifldr = finfo['ifldr']\r\n fldr = cfh.cfDirArray[finfo['ifldr']]\r\n calg = fldr.typeCompress & 3\r\n icd = self.iterCabData(fldr.coffCabStart, fldr.cCFData)\r\n dblk = self.decomps[calg](icd, fldr.typeCompress)\r\n\r\n while fsize > len(fdata):\r\n fdata += next(dblk)\r\n \r\n bio = BytesIO(fdata[:fsize])\r\n fdata = fdata[fsize:]\r\n yield (fname, finfo, bio)\r\n\r\n\r\n def listCabFiles(self):\r\n '''\r\n Yield (name,info) tuples for files within the cab.\r\n\r\n Example:\r\n\r\n for filename,fileinfo in cab.listCabFiles():\r\n print('filename:%s' % (filename,))\r\n\r\n '''\r\n cfh = self['CFHEADER']\r\n for idx,cff in cfh.cfFileArray:\r\n fileinfo = dict(size=cff.cbFile,attrs=cff.attribs)\r\n fileinfo['comp'] = repr( cfh.cfDirArray[cff.iFolder]['typeCompress'] )\r\n fileinfo['ifldr'] = cff.iFolder\r\n fileinfo['uoff'] = cff.uoffFolderStart\r\n yield cff.szName, fileinfo\r\n\r\n def iterCabData(self, off, cnt):\r\n '''\r\n Yield CFDATA blocks within the cab.\r\n '''\r\n\r\n uoff = 0\r\n abres = 0\r\n\r\n cfh = self['CFHEADER']\r\n if cfh.flags & _F_RESERVE_PRESENT:\r\n abres = cfh.cbOptFields.cbCFData\r\n\r\n cda = self.getStruct(off, varray(cnt, CFDATA, abres=abres))\r\n \r\n for idx,cd in cda:\r\n yield cd\r\n\r\n def getCabVersion(self):\r\n '''\r\n Retrieve a version tuple for the CAB file.\r\n '''\r\n hdr = self['CFHEADER']\r\n return ( hdr.versionMajor, hdr.versionMinor )\r\n\r\n def getCabSize(self):\r\n '''\r\n Retrieve the size ( in bytes ) of the CAB file.\r\n '''\r\n return self['CFHEADER'].cbCabinet\r\n\r\n" }, { "alpha_fraction": 0.48783454298973083, "alphanum_fraction": 0.5888077616691589, "avg_line_length": 28.370370864868164, "blob_id": "b599421a7c5f8261c2e84310571caa6e3c7a8967", "content_id": "7b6ae0a354bb28d90b7e57b32319ae4a2d139b78", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 822, "license_type": "permissive", "max_line_length": 95, "num_lines": 27, "path": "/dissect/tests/test_inet.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import unittest\r\n\r\nimport dissect.formats.inet as ds_inet\r\n\r\nipv4bytes = b'\\x45\\x00\\x14\\x00\\x42\\x41\\x00\\x00\\x30\\x06\\x57\\x56\\x01\\x02\\x03\\x04\\x05\\x06\\x07\\x08'\r\n\r\nclass InetTest(unittest.TestCase):\r\n\r\n def test_inet_ipv4(self):\r\n ipv4 = ds_inet.IPv4()\r\n ipv4.vsParse(ipv4bytes)\r\n\r\n self.assertEqual( len(ipv4), 20 )\r\n\r\n self.assertEqual( repr(ipv4['proto']), 'TCP' )\r\n self.assertEqual( ipv4.veriphl, 0x45 )\r\n self.assertEqual( ipv4.ttl, 0x30 )\r\n self.assertEqual( repr(ipv4['srcaddr']), '1.2.3.4' )\r\n self.assertEqual( repr(ipv4['dstaddr']), '5.6.7.8' )\r\n\r\n def test_inet_icmp(self):\r\n icmp = ds_inet.ICMP()\r\n icmp.type = 3\r\n icmp.code = 4\r\n icmp.checksum = 0x0202\r\n\r\n self.assertEqual( icmp.vsEmit(), b'\\x03\\x04\\x02\\x02' )\r\n\r\n" }, { "alpha_fraction": 0.4423580765724182, "alphanum_fraction": 0.4589519798755646, "avg_line_length": 24.941177368164062, "blob_id": "380bdf3a472a0c57a258e75ea0e672be91b99031", "content_id": "f7d0a4bf5a1c0634115cbffd1f0846557cc8a35d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2290, "license_type": "permissive", "max_line_length": 74, "num_lines": 85, "path": "/dissect/bitlab.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "from dissect.compat import iterbytes\r\n\r\nLSB = (0,1,2,3,4,5,6,7)\r\nMSB = (7,6,5,4,3,2,1,0)\r\n\r\ndef bits(byts, order='big', cb=iterbytes):\r\n '''\r\n Yield generator for bits within bytes.\r\n '''\r\n bord = LSB\r\n if order == 'big':\r\n bord = MSB\r\n \r\n #foo = [ ((b >> shft) & 0x01) for b in cb(byts) for shft in bord ]\r\n #for b in foo:\r\n # yield b\r\n for byte in cb(byts):\r\n for bit in [ (byte >> shft) & 0x1 for shft in bord ]:\r\n yield bit\r\n\r\n\r\ndef cast(bitgen,bitsize,bord='big'):\r\n '''\r\n Consume a \"bitsize\" integer from a bit generator.\r\n Example:\r\n # cast the next 5 bits as an int\r\n valu = cast(bits,5)\r\n '''\r\n ret = 0\r\n if bord == 'little':\r\n for i in range(bitsize):\r\n b = next(bitgen)\r\n ret \|= b << i\r\n elif bord == 'big':\r\n for i in range(bitsize):\r\n b = next(bitgen)\r\n if b:\r\n ret \|= (1 << (bitsize - 1 - i)) \r\n return ret\r\n\r\nclass BitStream(object):\r\n def __init__(self, byts, order='big', cb=iterbytes):\r\n self.bitoff = 0\r\n self.bits = self.getBitGen(byts, order, cb)\r\n\r\n def getBitGen(self, byts, order='big', cb=iterbytes):\r\n bord = LSB\r\n if order == 'big':\r\n bord = MSB\r\n\r\n for byte in cb(byts):\r\n for bit in [ (byte >> shft) & 0x1 for shft in bord ]:\r\n self.bitoff += 1\r\n yield bit\r\n #foo = [ ((b >> shft) & 0x01) for b in cb(byts) for shft in bord ]\r\n #for self.bitoff, b in enumerate(foo):\r\n # yield b\r\n\r\n def __iter__(self):\r\n return self.bits\r\n\r\n def getOffset(self):\r\n return self.bitoff\r\n\r\n def cast(self, bitsize, bord='big'):\r\n '''\r\n Consume a \"bitsize\" integer from a bit generator.\r\n\r\n Example:\r\n\r\n # cast the next 5 bits as an int\r\n valu = cast(bits,5)\r\n '''\r\n\r\n ret = 0\r\n if bord == 'little':\r\n for i in range(bitsize):\r\n b = next(self.bits)\r\n ret \|= b << i\r\n elif bord == 'big':\r\n for i in range(bitsize):\r\n b = next(self.bits)\r\n if b:\r\n ret \|= (1 << (bitsize - 1 - i)) \r\n return ret\r\n" }, { "alpha_fraction": 0.4707297384738922, "alphanum_fraction": 0.48970863223075867, "avg_line_length": 24.616437911987305, "blob_id": "32eccd5434f857d51eb9466a8ee71040b4409026", "content_id": "0c10f864211e12985a4b4da66c3f71569f0bd53b", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3741, "license_type": "permissive", "max_line_length": 81, "num_lines": 146, "path": "/dissect/algos/huffman.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import collections\nfrom dissect.bitlab import cast\n\nclass OffHuffTree(Exception):pass\n\ndef bitvals(valu,bits=8):\n #HACK ugly for speed\n return [ (valu >> shft) & 0x1 for shft in range(bits-1, -1, -1) ]\n\nclass HuffTree(object):\n '''\n A huffman encoding tree.\n '''\n # The Huffman codes used for each alphabet in the \"deflate\"\n # format have two additional rules:\n\n # All codes of a given bit length have lexicographically\n # consecutive values, in the same order as the symbols\n # they represent;\n\n # * Shorter codes lexicographically precede longer codes.\n\n def __init__(self):\n self.clear()\n\n def clear(self):\n self.root = [None,[None,None]] # root of the huffman binary tree\n self.codebysym = {}\n\n def iterHuffSyms(self, bits, offset=0):\n '''\n Use the HuffTree to decode bits yielding (bitoff,sym) tuples.\n\n Example:\n\n import dissect.bitlab as bitlab\n\n bits = bitlab.bits( byts )\n for bit,sym in huff.iterHuffSyms( bits ):\n dostuff()\n '''\n node = self.root\n for bit in bits:\n node = node[1][bit]\n if node == None:\n raise OffHuffTree()\n\n if node[0] != None:\n yield node[0]\n node = self.root\n\n def getCodeBySym(self, sym):\n '''\n Return a (bits,code) tuple by symbol.\n\n Example:\n\n bitcode = huff.getCodeBySym(x)\n if bitcode != None:\n bits,code = bitcode\n stuff()\n\n '''\n return self.codebysym.get(sym)\n\n def addHuffNode(self, sym, bits, code):\n '''\n Add a symbol to the huffman tree.\n\n Example:\n\n huff.addHuffNode( 'A', 3, 0b101 )\n\n '''\n node = self.root\n for bit in bitvals(code,bits):\n step = node[1][bit]\n if step == None:\n step = [ None, [None,None] ]\n node[1][bit] = step\n node = step\n\n if node[0]:\n raise OffHuffTree('Huffman node conflict')\n node[0] = sym\n \n if self.getCodeBySym(sym):\n raise OffHuffTree('Huffman sym conflict')\n self.codebysym[ sym ] = (bits,code)\n\n def loadCodeBook(self, codebook):\n '''\n Load a list of (sym,bits,code) tuples into the tree.\n\n Example:\n\n codebook = huff.initCodeBook( symbits )\n\n huff.loadCodeBook(codebook)\n\n '''\n [ self.addHuffNode(s,b,c) for (s,b,c) in codebook ]\n\n def initCodeBook(self, symbits):\n '''\n As per rfc1951, use a list of symbol code widths to make a codebook:\n\n Notes:\n\n Consider the alphabet ABCDEFGH, with bit lengths (3, 3, 3, 3, 3, 2, 4, 4)\n\n Symbol Length Code\n ------ ------ ----\n A 3 010\n B 3 011\n C 3 100\n D 3 101\n E 3 110\n F 2 00\n G 4 1110\n H 4 1111\n '''\n\n nbits = collections.defaultdict(int)\n for bits in symbits:\n nbits[ bits ] += 1\n\n nbits[0] = 0\n\n code = 0\n maxbits = max( nbits.keys() )\n\n codebase = [0]\n for bits in range( maxbits ):\n code = ( code + nbits[ bits ] ) << 1\n codebase.append( code )\n\n codebook = []\n for sym in range( len( symbits ) ):\n bits = symbits[sym]\n code = codebase[bits]\n codebase[bits] += 1\n if bits:\n codebook.append( (sym,bits,code) )\n \n return codebook\n\n" }, { "alpha_fraction": 0.47067782282829285, "alphanum_fraction": 0.4760091304779053, "avg_line_length": 22.50467300415039, "blob_id": "e381610576bd9ccfdde7c8deebaa12445a6d30e9", "content_id": "47f3c5d07d29ff859f155198403e9a495d122c9f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2626, "license_type": "permissive", "max_line_length": 68, "num_lines": 107, "path": "/dissect/filelab.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "\r\nfrom dissect.common import \r\n\r\nclass FileLab:\r\n '''\r\n Base class for file format parsers.\r\n\r\n The FileLab class provides routines to help file parsers\r\n with concepts like API caching and on-demand parsing.\r\n\r\n Example:\r\n\r\n class FooLab(FileLab):\r\n\r\n def __init__(self, fd, off=0):\r\n FileLab.__init__(self, fd, off=off)\r\n\r\n self.addOnDemand('foo', self._getFoo )\r\n self.addOnDemand('bars', self._getFooBars )\r\n\r\n self.barbybaz = LookDict( self._getBarByBaz )\r\n\r\n def getBarByBaz(self, baz):\r\n return self.barbybaz[baz]\r\n\r\n def _getBarByBaz(self, baz):\r\n return dostuff(baz)\r\n\r\n def _getFoo(self):\r\n return 'foo'\r\n\r\n def _getFooBars(self):\r\n return ['bar','bar','bar']\r\n\r\n foo = FooLab()\r\n\r\n for bar in foo['bars']:\r\n dostuff()\r\n\r\n '''\r\n def __init__(self, fd, off=0):\r\n self.fd = fd\r\n self.off = off\r\n self.ondem = OnDemand()\r\n\r\n #self.addOnDemand('md5', self._onDemMd5 )\r\n #self.addOnDemand('sha1', self._onDemSha1 )\r\n #self.addOnDemand('sha256', self._onDemSha256 )\r\n\r\n def getStruct(self, off, cls, args, *kwargs):\r\n '''\r\n Construct a VStruct and load from the file offset.\r\n\r\n Example:\r\n\r\n class Foo(VStruct):\r\n # ...\r\n\r\n foo = lab.getStruct(0, Foo)\r\n\r\n Notes:\r\n\r\n if off is unspecified, the current file offset is used\r\n\r\n '''\r\n if off == None:\r\n off = self.fd.tell()\r\n\r\n obj = cls(args,kwargs)\r\n obj.vsLoad( self.fd, offset=off )\r\n return obj\r\n\r\n def addOnDemand(self, name, meth):\r\n '''\r\n Add on-demand parser callback.\r\n\r\n Example:\r\n\r\n class FooLab(FileLab):\r\n\r\n def __init__(self, fd, off=0):\r\n FileLab.__init__(self, fd, off=off)\r\n self.addOnDemand('bars', self._getFooBars )\r\n\r\n def _getFooBars(self):\r\n return []\r\n\r\n foo = FooLab()\r\n for bar in foo['bars']:\r\n dostuff()\r\n\r\n '''\r\n self.ondem.add(name,meth)\r\n\r\n def getOnDemand(self, name):\r\n '''\r\n Retrieve the results of an on-demand parser callback.\r\n\r\n Example:\r\n\r\n for bar in foo.getOnDemand('bars'):\r\n dostuff()\r\n\r\n '''\r\n return self.ondem[name]\r\n\r\n def __getitem__(self, name):\r\n return self.ondem[name]\r\n\r\n" }, { "alpha_fraction": 0.5379644632339478, "alphanum_fraction": 0.5735056400299072, "avg_line_length": 30, "blob_id": "cc6a3bf4716d06b0fccd65577d08edea53967c26", "content_id": "15d5c5e49ce8479dd7322ab12f8157c648e2dfe9", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 619, "license_type": "permissive", "max_line_length": 62, "num_lines": 20, "path": "/dissect/tests/test_cab.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import unittest\nimport hashlib\nimport dissect.formats.cab as cab\nimport dissect.tests.files as files\n\nclass CabTest(unittest.TestCase):\n hash_chk = '00010548964e7bbca74da0d1764bdd70'\n\n def test_cab_decomp(self):\n with files.getTestFd('test_cab.cab') as fd:\n\n c = cab.CabLab(fd)\n for fname,finfo,cab_fd in c.getCabFiles():\n self.assertEqual(fname, 'test_cab.txt')\n dec_data = cab_fd.read()\n \n h = hashlib.md5()\n h.update(dec_data)\n \n self.assertEqual(self.hash_chk, h.hexdigest())" }, { "alpha_fraction": 0.5086597204208374, "alphanum_fraction": 0.5472955107688904, "avg_line_length": 24.358108520507812, "blob_id": "df054a9bb133f2072117465765734114763f7491", "content_id": "0b40a607376c6bba8580f50d13fa3c037936d1fc", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3753, "license_type": "permissive", "max_line_length": 64, "num_lines": 148, "path": "/dissect/formats/inet.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "from __future__ import absolute_import,unicode_literals\n\nimport socket\n\nfrom vstruct.types import \n\n'''\nInet Packet Structures\n'''\n\nethp = venum()\nethp.ipv4 = 0x0800\nethp.ipv6 = 0x86dd\nethp.vlan = 0x8100\n\nipproto = venum()\nipproto.ICMP = 1\nipproto.TCP = 6\nipproto.UDP = 17\nipproto.IPV6 = 41\n\nTCP_F_FIN = 0x01\nTCP_F_SYN = 0x02\nTCP_F_RST = 0x04\nTCP_F_PUSH = 0x08\nTCP_F_ACK = 0x10\nTCP_F_URG = 0x20\nTCP_F_ECE = 0x40\nTCP_F_CWR = 0x80\n\n# Useful combinations...\nTCP_F_SYNACK = (TCP_F_SYN \| TCP_F_ACK)\n\nicmptypes = venum()\nicmptypes.ECHOREPLY = 0\nicmptypes.DEST_UNREACH = 3\nicmptypes.SOURCE_QUENCH = 4\nicmptypes.REDIRECT = 5\nicmptypes.ECHO = 8\nicmptypes.TIME_EXCEEDED = 11\nicmptypes.PARAMETERPROB = 12\nicmptypes.TIMESTAMP = 13\nicmptypes.TIMESTAMPREPLY = 14\nicmptypes.INFO_REQUEST = 15\nicmptypes.INFO_REPLY = 16\nicmptypes.ADDRESS = 17\nicmptypes.ADDRESSREPLY = 18\n\nclass IPv4Addr(uint32):\n\n def __repr__(self):\n return socket.inet_ntop(socket.AF_INET, self.vsEmit())\n\nclass IPv6Addr(vbytes):\n\n def __init__(self):\n vbytes.__init__(self, size=16)\n\n def __repr__(self):\n return socket.inet_ntop(socket.AF_INET6, self._vs_value)\n\nclass ETHERII(VStruct):\n def __init__(self):\n VStruct.__init__(self)\n self._vs_endian = 'big'\n self.destmac = vbytes(size=6)\n self.srcmac = vbytes(size=6)\n self.etype = uint16(enum=ethp)\n\n self['etype'].vsOnset( self._onSetEtype )\n\n def _onSetEtype(self):\n # append vlan tags if needed\n if etype == ethp.vlan:\n self.vtag = uint16()\n self.vvlan = uint16()\n\nclass IPv4(VStruct):\n def __init__(self):\n VStruct.__init__(self)\n self._vs_endian = 'big'\n self.veriphl = uint8()\n self.tos = uint8()\n self.totlen = uint16()\n self.ipid = uint16()\n self.flagfrag = uint16()\n self.ttl = uint8()\n self.proto = uint8(enum=ipproto)\n self.cksum = uint16()\n self.srcaddr = IPv4Addr()\n self.dstaddr = IPv4Addr()\n\n self['veriphl'].vsOnset( self._onSetVerIphl )\n\n def _onSetVerIphl(self):\n iphl = (self.veriphl & 0xf) * 4\n if iphl > 20:\n self.ipopts = vbytes( iphl - 20 )\n\nclass IPv6(VStruct):\n def __init__(self):\n VStruct.__init__(self)\n self._vs_endian = 'big'\n self.verclsflowl= uint32()\n self.totlen = uint16()\n self.nexthdr = uint8()\n self.hoplimit = uint8()\n self.srcaddr = IPv6Addr()\n self.dstaddr = IPv6Addr()\n\nclass TCP(VStruct):\n\n def __init__(self):\n VStruct.__init__(self)\n self._vs_endian = 'big'\n self.srcport = uint16()\n self.dstport = uint16()\n self.sequence = uint32()\n self.ackseq = uint32()\n self.doff = uint8()\n self.flags = uint8()\n self.window = uint16()\n self.checksum = uint16()\n self.urgent = uint16()\n\n self['doff'].vsOnset( self._onSetDoff )\n\n def _onSetDoff(self):\n off = (self.doff >> 2)\n if off >= 20:\n self.tcpopts = vbytes( off - 20 )\n\nclass UDP(VStruct):\n def __init__(self):\n VStruct.__init__(self)\n self._vs_endian = 'big'\n self.srcport = uint16()\n self.dstport = uint16()\n self.udplen = uint16()\n self.checksum = uint16()\n\nclass ICMP(VStruct):\n def __init__(self):\n VStruct.__init__(self)\n self._vs_endian = 'big'\n self.type = uint8(enum=icmptypes)\n self.code = uint8()\n self.checksum = uint16()\n" }, { "alpha_fraction": 0.7301293611526489, "alphanum_fraction": 0.737523078918457, "avg_line_length": 44, "blob_id": "79a6aa98c2638fb19fbfcad05c07c2d83a1b53da", "content_id": "4b3882b51fb03ce3eebcb0e69e0ba3b0270970ad", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 541, "license_type": "permissive", "max_line_length": 160, "num_lines": 12, "path": "/README.md", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "# dissect\nVivisect (Mark II) File/Protocol Parsers\n[![Build Status](https://travis-ci.org/vivisect/dissect.svg)](https://travis-ci.org/vivisect/dissect)\n\n# vstruct\nSee https://github.com/vivisect/vstruct\n\n# Builds\n## Travis-Ci ( Linux: py-3.4 )\n[![Build Status](https://travis-ci.org/vivisect/dissect.svg)](https://travis-ci.org/vivisect/dissect)\n## AppVeyor ( Windows: py-3.4 )\n[![Build Status](https://ci.appveyor.com/api/projects/status/github/vivisect/dissect?branch=master&svg=true)](https://ci.appveyor.com/project/vivisect/dissect/)\n\n" }, { "alpha_fraction": 0.5770308375358582, "alphanum_fraction": 0.5910364389419556, "avg_line_length": 14.904762268066406, "blob_id": "dcf51240ba952576a3d08c7bf9c838490f8e3438", "content_id": "d03a92fe04ab5b1143d8faa0d5f9c15cf9cd7e9e", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 357, "license_type": "permissive", "max_line_length": 32, "num_lines": 21, "path": "/dissect/compat.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "'''\r\nIsolate 2.7 compatibility filth.\r\n'''\r\nimport sys\r\n\r\nmajor = sys.version_info.major\r\nminor = sys.version_info.minor\r\nmicro = sys.version_info.micro\r\n\r\nversion = (major,minor,micro)\r\n\r\nif version <= (3,0,0):\r\n\r\n def iterbytes(byts):\r\n for c in byts:\r\n yield ord(c)\r\n\r\nelse:\r\n\r\n def iterbytes(byts):\r\n return iter(byts)\r\n\r\n" }, { "alpha_fraction": 0.4860248565673828, "alphanum_fraction": 0.5450310707092285, "avg_line_length": 28.761905670166016, "blob_id": "a6a3525c6ed9531747769969d906457b04442d55", "content_id": "6d19407b66aee282ab9c8cde869b21af9633f0ad", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 644, "license_type": "permissive", "max_line_length": 103, "num_lines": 21, "path": "/dissect/tests/test_huffman.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import unittest\r\n\r\nimport dissect.bitlab as bitlab\r\nimport dissect.algos.huffman as huffman\r\n\r\nhuffbook = ( (0, 3, 2), (1, 3, 3), (2, 3, 4), (3, 3, 5), (4, 3, 6), (5, 2, 0), (6, 4, 14), (7, 4, 15) )\r\nhuffsyms = ( (0,6), (4,7) )\r\n# TODO\r\nclass HuffTest(unittest.TestCase):\r\n\r\n def test_huff_tree(self):\r\n\r\n huff = huffman.HuffTree()\r\n book = huff.initCodeBook( (3, 3, 3, 3, 3, 2, 4, 4) )\r\n\r\n huff.loadCodeBook(book)\r\n bits = bitlab.bits( b'\\xef' )\r\n syms = tuple( huff.iterHuffSyms( bits ) )\r\n \r\n # self.assertEqual( tuple(book), huffbook )\r\n # self.assertEqual( tuple(syms), huffsyms )" }, { "alpha_fraction": 0.4445507824420929, "alphanum_fraction": 0.4596937596797943, "avg_line_length": 30.831541061401367, "blob_id": "4135d9274834945c0e99ebeff82c7f3a57b4387f", "content_id": "71e2d1417b2bdb33863a3e399a01cb3e489f4666", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 17764, "license_type": "permissive", "max_line_length": 88, "num_lines": 558, "path": "/dissect/algos/lzx.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import sys\nimport ctypes\nimport dissect.algos.huffman as huffman\nimport dissect.bitlab as bitlab\nfrom dissect.compat import iterbytes\n\nLZX_FRAME_SIZE = 32768\nINSTR_CALL = 0xE8\nNUM_CHARS = 256\nBTYPE_INVALID = 0\nBTYPE_VERBATIM = 1\nBTYPE_ALIGNED = 2\nBTYPE_UNCOMPRESSED = 3\nNUM_SECONDARY_LENGTHS = 249\nNUM_PRIMARY_LENGTHS = 7\nMIN_MATCH = 2\n\nclass LzxError(Exception):pass\n\nclass LzxHuffTree(huffman.HuffTree):\n '''\n Extended Huffman Tree object with LZX specific methods\n '''\n slots = (30, 32, 34, 36, 38, 42, 50, 66, 98, 162, 290)\n \n def __init__(self):\n huffman.HuffTree.__init__(self)\n self.lens = [0] * 2000\n self.bytmode = False\n\n def cast(self, bits, num):\n return bits.cast(num,'big')\n\n def getWordBytes(self, iterblk):\n '''\n LZX runs are stored as little endian. This callback is used by the\n bitstream object to consume bytes for bit conversion\n '''\n # Need to ability to switch to a byte stream in the case of\n # uncompressed blocks\n for frm in iterblk:\n byts = frm.ab\n off = 0\n \n while off < len(byts):\n if self.bytmode:\n yield byts[off]\n off += 1\n else:\n b2 = byts[off + 1]\n b1 = byts[off]\n yield b2\n yield b1\n off += 2\n\n def getLens(self):\n '''\n Return the LZX length array\n '''\n return self.lens\n\n def updateLengths(self, bits, start, stop):\n '''\n Update the LZX length arrays\n '''\n ptree = huffman.HuffTree()\n tlens = [self.cast(bits, 4) for i in range(20)]\n book = ptree.initCodeBook(tlens)\n ptree.loadCodeBook(book)\n\n it = ptree.iterHuffSyms(bits)\n i = start\n while i < stop:\n sym = next(it)\n if sym == 17:\n run = self.cast(bits, 4) + 4\n self.lens[i:i+run] = [0]run \n elif sym == 18:\n run = self.cast(bits, 5) + 20\n self.lens[i:i+run] = [0]run \n elif sym == 19:\n run = self.cast(bits, 1) + 4\n nsym = next(it)\n sym = self.lens[i] - nsym\n if sym < 0:\n sym += 17\n self.lens[i:i+run] = [sym]run\n else:\n sym = (self.lens[i] - sym)\n if sym < 0:\n sym += 17\n self.lens[i] = sym \n run = 1\n i += run\n\nclass Lzx(LzxHuffTree):\n '''\n LZX Decompressor\n '''\n def __init__(self, comp_type):\n self.debug = []\n self.test = False\n LzxHuffTree.__init__(self)\n self.wbits = (comp_type >> 8) & 0x1f \n self.wsize = 1 << self.wbits\n self.win = memoryview(bytearray(self.wsize)) \n self.frmcnt = 0\n self.ifs = 0\n self.winpos = 0\n self.intelbuf = [0] LZX_FRAME_SIZE\n self.icp = 0\n self.atree = LzxHuffTree() \n self.mtree = LzxHuffTree()\n self.ltree = LzxHuffTree()\n self.decomps = { BTYPE_VERBATIM : (self._initVerb, self.decVerbatim),\n BTYPE_ALIGNED : (self._initAlign, self.decAligned),\n BTYPE_UNCOMPRESSED : (self._initUncomp, self.decUncomp) }\n\n rng = (15, 22)\n # Create the extra_bits slots\n self.xbits = [] \n j = 0\n for i in range(51):\n self.xbits.append(j)\n self.xbits.append(j)\n if i != 0 and j < 17:\n j += 1\n \n # Create the position base slots\n self.pbase = []\n j = 0\n for i in range(51):\n self.pbase.append(j)\n j += 1 << self.xbits[i]\n\n if self.wbits not in range(rng[0], rng[1]):\n raise LzxError('Invalid window size')\n \n self.offs = LzxHuffTree.slots[self.wbits - 15] << 3 \n self.ival = 0\n self.r0, self.r1, self.r2 = 1,1,1\n self.run_num = 0\n\n def getBlockLen(self, bits):\n '''\n Get the length of an LZX block from a bitstream object\n '''\n hi = self.cast(bits, 16)\n lo = self.cast(bits, 8)\n return (hi << 8) \| lo\n\n def _initVerb(self, bits):\n '''\n Initialize parser to process an verbatim LZX block from a bitstream object\n '''\n self.mtree.clear()\n self.ltree.clear()\n # Create the main tree\n self.mtree.updateLengths(bits, 0, NUM_CHARS)\n self.mtree.updateLengths(bits, NUM_CHARS, NUM_CHARS + self.offs)\n mlens = self.mtree.getLens() \n book = self.mtree.initCodeBook(mlens)\n self.mtree.loadCodeBook(book)\n \n # Check for preprocessing\n self.ival = mlens[INSTR_CALL]\n \n # Get the length tree\n self.ltree.updateLengths(bits, 0, NUM_SECONDARY_LENGTHS)\n llens = self.ltree.getLens()\n book = self.ltree.initCodeBook(llens)\n self.ltree.loadCodeBook(book)\n\n def _initAlign(self, bits):\n self.atree.clear()\n lens = [self.cast(bits, 3) for i in range(8)]\n book = self.atree.initCodeBook(lens)\n self.atree.loadCodeBook(book)\n self._initVerb(bits)\n\n def _initUncomp(self, bits):\n '''\n Initialize parser to process an uncompressed LZX block from a bitstream object\n '''\n need = 16 - (bits.getOffset() % 16)\n self.cast(bits, need)\n \n self.ival = 1\n \n self.r0 = self.readInt(bits) \n self.r1 = self.readInt(bits)\n self.r2 = self.readInt(bits) \n\n def readInt(self, bits):\n '''\n Read a LZX dword from a supplied bitstream object\n '''\n byts = self.readBytes(bits, 4)\n return int.from_bytes(byts, 'little')\n \n def readBytes(self, bits, cnt):\n '''\n Read bytes from a bitstream object and byte flip. The byte flip is \n necessary because LZX words are stored as big endian\n '''\n out = []\n i = 0\n\n self.bytmode = True\n for i in range(cnt):\n out.append(self.cast(bits, 8))\n self.bytmode = False\n\n return out\n\n def decAligned(self, bits, blen):\n '''\n Decompress and yield LZX align frame from a bitstream object\n '''\n run = 0\n remains = blen\n mit = self.mtree.iterHuffSyms(bits)\n lit = self.ltree.iterHuffSyms(bits)\n ait = self.atree.iterHuffSyms(bits)\n\n # Max bytes for this run\n maxrun = self._getFrameAlign(bits)\n\n for sym in mit:\n if sym < NUM_CHARS:\n self._winAppend(sym)\n run += 1\n else:\n sym -= NUM_CHARS\n # Get the match len\n mlen = sym & NUM_PRIMARY_LENGTHS\n if mlen == NUM_PRIMARY_LENGTHS:\n mlen += next(lit) \n \n mlen += MIN_MATCH\n # Get the match offset\n moff = sym >> 3\n if moff > 2:\n ext = self.xbits[moff]\n moff = self.pbase[moff] - 2 \n if ext > 3:\n ext -= 3\n vbits = self.cast(bits, ext)\n moff += (vbits << 3)\n moff += next(ait)\n elif ext == 3:\n moff += next(ait)\n elif ext > 0:\n vbits = self.cast(bits, ext)\n moff += vbits\n else:\n moff = 1\n self.r2 = self.r1\n self.r1 = self.r0\n self.r0 = moff\n elif moff == 0:\n moff = self.r0\n elif moff == 1:\n moff = self.r1\n self.r1 = self.r0\n self.r0 = moff\n else:\n moff = self.r2\n self.r2 = self.r0\n self.r0 = moff\n \n if moff > self.winpos:\n rem = moff - self.winpos\n mach = self.wsize - rem \n if rem < mlen:\n mlen -= rem\n rep = self._getAbsView(mach, rem)\n self._setWinView(0, rep)\n self.winpos += rem\n run += rem\n mach = 0 \n rep = self._getAbsView(mach, mlen)\n self._setWinView(0, rep)\n self.winpos += mlen\n run += mlen\n else:\n [ self._winAppend(self.win[self.winpos-moff]) for i in range(mlen) ]\n run += mlen\n\n if self.winpos % LZX_FRAME_SIZE == 0:\n self.alignWord(bits)\n if run >= remains:\n yield self._getWinView(-run, run)\n raise StopIteration\n\n if run >= maxrun:\n maxrun = LZX_FRAME_SIZE\n yield self._getWinView(-run, run)\n remains -= run\n run = 0\n \n def decVerbatim(self, bits, blen):\n '''\n Decompress and yield LZX verbatim frame from a bitstream object\n '''\n remains = blen\n run = 0\n lit = self.ltree.iterHuffSyms(bits)\n mit = self.mtree.iterHuffSyms(bits)\n \n # Max bytes for this run \n maxrun = self._getFrameAlign(bits) \n for sym in mit:\n \n if sym < NUM_CHARS:\n self._winAppend(sym)\n run += 1\n else:\n sym -= NUM_CHARS\n mlen = sym & NUM_PRIMARY_LENGTHS\n if mlen == NUM_PRIMARY_LENGTHS:\n mlen += next(lit)\n \n mlen += MIN_MATCH\n \n # Get the match offset\n moff = sym >> 3\n if moff > 3:\n ext = self.xbits[moff]\n vbits = self.cast(bits, ext)\n moff = self.pbase[moff] - 2 + vbits\n self.r2 = self.r1\n self.r1 = self.r0\n self.r0 = moff\n elif moff == 0:\n moff = self.r0\n elif moff == 1:\n moff = self.r1\n self.r1 = self.r0\n self.r0 = moff\n elif moff == 2:\n moff = self.r2\n self.r2 = self.r0\n self.r0 = moff\n else:\n moff = 1\n self.r2 = self.r1\n self.r1 = self.r0\n self.r0 = moff\n\n if moff > self.winpos:\n rem = moff - self.winpos\n mach = self.wsize - rem \n if rem < mlen:\n mlen -= rem\n rep = self._getAbsView(mach, rem)\n self._setWinView(0, rep)\n self.winpos += rem\n run += rem\n mach = 0 \n rep = self._getAbsView(mach, mlen)\n self._setWinView(0, rep)\n self.winpos += mlen\n run += mlen\n else:\n [ self._winAppend(self.win[self.winpos-moff]) for i in range(mlen) ]\n run += mlen\n \n if self.winpos % LZX_FRAME_SIZE == 0:\n self.alignWord(bits)\n if run >= remains:\n yield self._getWinView(-run, run)\n raise StopIteration\n\n if run >= maxrun:\n maxrun = LZX_FRAME_SIZE\n yield self._getWinView(-run, run)\n remains -= run\n run = 0\n \n def _winAppend(self, item):\n self.win[self.winpos] = item\n self.winpos += 1\n\n def _getAbsView(self, offset, nbytes):\n return self.win[offset : offset + nbytes]\n\n def _setAbsView(self, offset, data):\n self.win[offset : offset + len(data)] = data\n\n def _getWinView(self, offset, nbytes):\n return self.win[self.winpos + offset : self.winpos + offset + nbytes].tolist()\n\n def _setWinView(self, offset, data):\n self.win[self.winpos + offset : self.winpos + offset + len(data)] = data\n\n def decUncomp(self, bits, blen):\n '''\n Decodes and yields an uncompressed LZX frame\n '''\n remains = blen\n while remains:\n # Get the bytes left in this frame\n align = self._getFrameAlign(bits) \n # Is the window currently frame aligned?\n if align == 0:\n need = LZX_FRAME_SIZE\n else:\n need = align\n \n if need > remains:\n need = remains\n\n byts = self.readBytes(bits, need)\n [self._winAppend(b) for b in byts]\n yield byts\n remains -= need\n\n def _getFrameAlign(self, bits):\n '''\n Get the number of bytes needed to make the window aligned\n on a frame boundary (32768 bytes)\n '''\n return LZX_FRAME_SIZE - (self.winpos % LZX_FRAME_SIZE)\n\n def alignWord(self, bits):\n '''\n Align the given bitstream object to word (16-bit) alignment\n '''\n need = (16) - bits.getOffset() % 16\n if need == 16:\n # Already word aligned, leave\n return\n bits.cast(need)\n\n def getIntelHeader(self, bits):\n fs = 0\n # Check for preprocessing\n if self.cast(bits, 1):\n hi = self.cast(bits, 16)\n lo = self.cast(bits, 16)\n fs = (hi << 16) \| lo\n return fs\n \n def getBlockHeader(self, bits):\n '''\n Return the block type and block length from a block header\n '''\n # Get the block type\n btype = self.cast(bits, 3)\n # Get the block length\n blen = self.getBlockLen(bits)\n return btype,blen\n\n def _decIntel(self, fsize):\n '''\n Decode intel preprocessing if necessary\n '''\n self.debug += self._getWinView(-fsize, fsize)\n if not self.ival or not self.ifs or self.frmcnt > LZX_FRAME_SIZE and fsize <= 10:\n if self.ifs:\n self.icp += fsize\n return self._getWinView(-fsize, fsize)\n\n curpos = ctypes.c_int(self.icp).value\n ibuf = self._getWinView(-fsize, fsize)\n\n # Find all occurances of a 'call' byte\n indices = [i for i, b in enumerate(ibuf) if b == INSTR_CALL]\n if not len(indices):\n self.icp += fsize\n return self._getWinView(-fsize, fsize)\n\n # Validate the markers\n markers = [indices[0]]\n for l in indices:\n if l - markers[-1] >= 5 and l < (len(ibuf)-10):\n markers.append(l)\n\n for i, idx in enumerate(markers):\n\n if i == 0:\n curpos += idx\n else:\n curpos += (idx - markers[i-1]) \n\n idx += 1\n\n absoff = ctypes.c_int((ibuf[idx] \| (ibuf[idx+1]<<8) \| \n (ibuf[idx+2]<<16) \| (ibuf[idx+3]<<24) ))\n absoff = absoff.value\n prev = absoff\n if absoff >= -(0xFFFFFFFF & curpos) and absoff < self.ifs:\n if absoff >= 0:\n reloff = absoff - curpos \n else:\n reloff = absoff + self.ifs\n\n ibuf[idx] = (0xFF & reloff)\n ibuf[idx+1] = (0xFF & (reloff >> 8))\n ibuf[idx+2] = (0xFF & (reloff >> 16))\n ibuf[idx+3] = (0xFF & (reloff >> 24))\n \n self.icp += fsize\n return ibuf\n\n def _postProcess(self, frame):\n \n # Check if this is the final frame\n if len(frame) >= self.rawcb:\n fsize = len(frame)\n else:\n fsize = LZX_FRAME_SIZE\n\n fix = self._decIntel(fsize)\n return fix\n\n # TODO currently expects an iterator of CFDATA objects\n def decompBlock(self, iterblk):\n '''\n Decompress and yield uncompressed byte blocks via a CFDATA iterator\n '''\n blen = 0\n btype = 0\n out = []\n # Parse out the blocks\n blocks = [b for b in iterblk]\n # Get the total amount of uncompressed\n self.rawcb = sum([cf.cbUncomp for cf in blocks])\n\n bits = bitlab.BitStream(blocks, order='big', cb=self.getWordBytes)\n # Read Intel Header\n self.ifs = self.getIntelHeader(bits)\n while self.rawcb:\n # If the previous block was uncompressed and misaligned (16-bit) \n # realign now\n if btype == BTYPE_UNCOMPRESSED and (blen & 1):\n self.readBytes(bits, 1)\n \n btype,blen = self.getBlockHeader(bits)\n self.decomps[btype][0](bits)\n run = blen\n for frame in self.decomps[btype][1](bits, blen):\n\n out += frame\n if len(out) == LZX_FRAME_SIZE or len(frame) == self.rawcb:\n self.frmcnt += 1\n fdata = self._postProcess(out)\n yield bytes(fdata)\n out = []\n \n if self.winpos >= self.wsize:\n self.winpos = 0\n\n run -= len(frame)\n self.rawcb -= len(frame)\n if run == 0:\n break\n\n\n" }, { "alpha_fraction": 0.5148018002510071, "alphanum_fraction": 0.5173105597496033, "avg_line_length": 22.912500381469727, "blob_id": "7ad24f89c50e06b0042e9c5543b37522bd0801b8", "content_id": "bf1fd0d02ab98935487ebf14c681e7fbc1cfdc71", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1993, "license_type": "permissive", "max_line_length": 72, "num_lines": 80, "path": "/dissect/common.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import collections\r\n\r\nclass KeyCache(collections.defaultdict):\r\n '''\r\n A dictionary based key/val cache.\r\n\r\n Example:\r\n\r\n cache = KeyCache( getFooThing )\r\n\r\n if cache['woot']:\r\n dostuff()\r\n\r\n '''\r\n def __init__(self, lookmeth):\r\n collections.defaultdict.__init__(self)\r\n self.lookmeth = lookmeth\r\n\r\n def __missing__(self, key):\r\n valu = self.lookmeth(key)\r\n self[key] = valu\r\n return valu\r\n\r\nclass OnDemand(collections.defaultdict):\r\n\r\n def __init__(self):\r\n collections.defaultdict.__init__(self)\r\n self.ctors = {}\r\n self.names = []\r\n\r\n def add(self, name, ctor, args, kwargs):\r\n self.names.append(name)\r\n self.ctors[name] = (ctor,args,kwargs)\r\n\r\n def __missing__(self, key):\r\n meth,args,kwargs = self.ctors.get(key)\r\n val = meth(args,*kwargs)\r\n self[key] = val\r\n return val\r\n\r\ndef colify(rows,titles=None):\r\n '''\r\n Generate colum text output from rows.\r\n\r\n Example:\r\n\r\n rows = [\r\n ('bob','33'),\r\n ('bill','24')\r\n ]\r\n\r\n print( colify( rows, titles=('name','age') ))\r\n\r\n '''\r\n colcount = max([ len(r) for r in rows ])\r\n\r\n colsizes = collections.defaultdict(int)\r\n if titles != None:\r\n for i in range(len(titles)):\r\n colsizes[i] = len(titles[i])\r\n\r\n for i in range(colcount):\r\n for j in range(len(rows)):\r\n colsizes[i] = max(colsizes[i], len(rows[j][i]))\r\n\r\n sumlen = sum( colsizes.values() ) + ( 3 colcount )\r\n\r\n lines = []\r\n lines.append( '-' * sumlen )\r\n if titles:\r\n pres = [ titles[i].ljust(colsizes[i]) for i in range(colcount) ]\r\n lines.append(' \| '.join(pres))\r\n lines.append('-' * sumlen)\r\n\r\n for row in rows:\r\n pres = [ row[i].ljust(colsizes[i]) for i in range(colcount) ]\r\n lines.append( ' \| '.join(pres) )\r\n lines.append( '-' * sumlen )\r\n\r\n return '\\n'.join(lines)\r\n" }, { "alpha_fraction": 0.5858018398284912, "alphanum_fraction": 0.601123571395874, "avg_line_length": 28.238805770874023, "blob_id": "a63dbcd648a4e16d53820d4e2d53e22c4b5214c5", "content_id": "ffa031bb44a02837d64710b63843d842f51e3dbd", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1958, "license_type": "permissive", "max_line_length": 73, "num_lines": 67, "path": "/dissect/algos/mszip.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import dissect.bitlab as bitlab\nimport dissect.algos.inflate as inflate\n\n#BTYPE specifies how the data are compressed, as follows:\n# 00 - no compression\n# 01 - compressed with fixed Huffman codes\n# 10 - compressed with dynamic Huffman codes\n# 11 - reserved (error)\nTYPE_UNCOMP = 0x0\nTYPE_FIXED = 0x1\nTYPE_DYNAMIC = 0x2\nTYPE_INVALID = 0x3\n\nclass MsZipError(Exception):pass\n\nclass MsZip(inflate.Inflate):\n\n def __init__(self):\n inflate.Inflate.__init__(self)\n\n self.decomps = {\n TYPE_UNCOMP:self._getUncompBlock,\n TYPE_FIXED:self._deCompFixedHuffman,\n TYPE_DYNAMIC:self._deCompDynHuffman,\n TYPE_INVALID:self._invalidBlock\n }\n\n def cast(self, bits, num):\n return bits.cast(num,'little')\n\n #TODO: expects a CFDATA iterator\n def decompBlock(self, iterblk):\n\n for frame in iterblk:\n byts = frame.ab\n if not byts.startswith(b'CK'):\n raise MsZipError('Invalid MsZip Block: %r' % (byts[:8],))\n\n bits = bitlab.BitStream(byts[2:], order='little')\n\n final = 0\n msblock = []\n while not final:\n final = self.cast(bits, 1)\n bt = self.cast(bits, 2)\n msblock.extend(self.decomps[bt](bits, byts))\n yield bytes(msblock)\n\n def _invalidBlock(self, bits, byts=None):\n raise MsZipError('Invalid block type')\n\n def _deCompDynHuffman(self, bits, byts=None):\n return self.getDynHuffBlock(bits)\n\n def _deCompFixedHuffman(self, bits, byts=None):\n return self.getFixHuffBlock(bits)\n\n def _getUncompBlock(self, bits, byts):\n # TODO Assuming we are at index 3 here\n self.cast(bits, 5)\n dlen = self.cast(bits, 16)\n clen = self.cast(bits, 16)\n out = []\n if (dlen ^ 0xFFFF) != clen:\n raise DeflateError('Invalid uncompressed block length')\n\n return byts[ 5 : 5 + dlen]" }, { "alpha_fraction": 0.6241610646247864, "alphanum_fraction": 0.6241610646247864, "avg_line_length": 22.5, "blob_id": "3eaa1a270a359574236ab5d335d0f6225eb8bbf1", "content_id": "dbe5b625786ca07057ede3d286917ca491038b21", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 149, "license_type": "permissive", "max_line_length": 40, "num_lines": 6, "path": "/dissect/tests/files/__init__.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import os\r\nfilesdir = os.path.dirname( __file__ )\r\n\r\ndef getTestFd(names):\r\n path = os.path.join(filesdir,names)\r\n return open(path,'rb')\r\n\r\n" }, { "alpha_fraction": 0.5887265205383301, "alphanum_fraction": 0.6116909980773926, "avg_line_length": 27.9375, "blob_id": "50514d30b4fba362d2238d15850a902e99815451", "content_id": "7a78fb50519026ec9547807e5db4dd1ca42ff818", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 479, "license_type": "permissive", "max_line_length": 62, "num_lines": 16, "path": "/dissect/tests/test_bitlab.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import unittest\r\nimport dissect.bitlab as bitlab\r\n\r\nclass BitLabTest(unittest.TestCase):\r\n\r\n def test_bitlab_bits(self):\r\n\r\n self.assertEqual( len(list(bitlab.bits(b'ABC'))), 24 )\r\n\r\n bits = bitlab.BitStream(b'A', order='big')\r\n self.assertEqual( bits.cast(5), 8)\r\n self.assertEqual( bits.cast(3), 1)\r\n\r\n bits = bitlab.BitStream(b'A', order='little')\r\n self.assertEqual( bits.cast(5), 16)\r\n self.assertEqual( bits.cast(3), 2)\r\n" }, { "alpha_fraction": 0.48571428656578064, "alphanum_fraction": 0.4928571283817291, "avg_line_length": 25.268293380737305, "blob_id": "3385463509ae79aa2d299ab7ec466839f0d73442", "content_id": "e308bd040f0c41d7219e2903f57b174c9701a6ef", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1120, "license_type": "permissive", "max_line_length": 60, "num_lines": 41, "path": "/dissect/tests/test_filelab.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import io\r\nimport unittest\r\n\r\nfrom vstruct.types import \r\nfrom dissect.filelab import \r\n\r\nclass CommonTest(unittest.TestCase):\r\n\r\n def test_filelab(self):\r\n\r\n fd = io.BytesIO( b'asdfqwer' )\r\n\r\n class Woot(VStruct):\r\n def __init__(self):\r\n VStruct.__init__(self)\r\n self.one = uint8()\r\n self.two = uint16()\r\n\r\n class FooLab(FileLab):\r\n def __init__(self, fd, off=0):\r\n FileLab.__init__(self, fd, off=off)\r\n\r\n self.addOnDemand('woot',self._getWoot)\r\n\r\n self.addOnDemand('baz',self._getFooBaz)\r\n self.addOnDemand('bars',self._getFooBars)\r\n\r\n def _getFooBaz(self):\r\n return 'foobaz'\r\n\r\n def _getFooBars(self):\r\n return ('foo','bar','baz')\r\n\r\n def _getWoot(self):\r\n return self.getStruct( 0, Woot )\r\n\r\n foo = FooLab(fd)\r\n self.assertEqual( foo['baz'], 'foobaz' )\r\n self.assertEqual( foo['bars'], ('foo','bar','baz') )\r\n\r\n self.assertEqual( foo['woot'].one, 0x61 )\r\n\r\n" }, { "alpha_fraction": 0.4289970099925995, "alphanum_fraction": 0.4687189757823944, "avg_line_length": 33.72413635253906, "blob_id": "936093b859841884326b8e4d115acee6e40b2757", "content_id": "425d5b63a050c10e53ed2f4df974d658e9b7b9e5", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8058, "license_type": "permissive", "max_line_length": 83, "num_lines": 232, "path": "/dissect/algos/inflate.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "# -- coding: utf8 --\nimport dissect.bitlab as bitlab\nimport dissect.algos.huffman as huff\n\nCOPY_LEN = 16\nREP_BIG_LEN = 17\nREP_TINY_LEN = 18\n\nEND_BLOCK = 256\nMAX_MATCH = 285\n\nMAX_DIST = 29\nMAX_HIST = 32768\n\nclass InflateError(Exception):pass\n\ndef cast(bits, num):\n return bits.cast(num, 'little')\n\n# Inflate RFC1951 Compliant Decompressor\nclass Inflate(object):\n\n def __init__(self):\n self.fix_lits = huff.HuffTree()\n self.fix_dists = huff.HuffTree()\n self.buff = [] # History buffer\n\n self._initFixedTrees()\n \n def getFixHuffBlock(self, bits):\n return self._decHuffBlock(bits, self.fix_lits, self.fix_dists)\n \n def getDynHuffBlock(self, bits):\n '''\n\n The Huffman codes for the two alphabets appear in the block\n immediately after the header bits and before the actual\n compressed data, first the literal/length code and then the\n distance code. Each code is defined by a sequence of code\n lengths, as discussed in Paragraph 3.2.2, above. For even\n greater compactness, the code length sequences themselves are\n compressed using a Huffman code. The alphabet for code lengths\n is as follows:\n\n 0 - 15: Represent code lengths of 0 - 15\n 16: Copy the previous code length 3 - 6 times.\n The next 2 bits indicate repeat length\n (0 = 3, ... , 3 = 6)\n Example: Codes 8, 16 (+2 bits 11),\n 16 (+2 bits 10) will expand to\n 12 code lengths of 8 (1 + 6 + 5)\n 17: Repeat a code length of 0 for 3 - 10 times.\n (3 bits of length)\n 18: Repeat a code length of 0 for 11 - 138 times\n (7 bits of length)\n '''\n\n hlit = ( cast(bits, 5) + 257 )\n hdist = ( cast(bits, 5) + 1 )\n hclen = ( cast(bits, 4) + 4 )\n len_map = [16, 17, 18, 0, 8, 7, 9, 6, 10, 5,\n 11, 4, 12, 3, 13, 2, 14, 1, 15]\n \n lens = [0]19\n code_lens = [0] (hlit + hdist)\n len_tree = huff.HuffTree()\n lit_tree = huff.HuffTree()\n dist_tree = None \n\n for i in range(hclen):\n lens[len_map[i]] = cast(bits, 3)\n\n book = len_tree.initCodeBook(lens)\n len_tree.loadCodeBook(book)\n\n it = len_tree.iterHuffSyms(bits)\n \n i = 0\n val = -1\n vlen = 0\n while i < len(code_lens):\n if vlen > 0:\n code_lens[i] = val \n vlen -= 1\n else:\n sym = next(it)\n if sym < COPY_LEN:\n code_lens[i] = sym\n val = sym\n else:\n if sym == COPY_LEN:\n if val == -1:\n raise InflateError(\"Invalid code copy length\")\n vlen = cast(bits, 2) + 3\n elif sym == REP_BIG_LEN:\n val = 0\n vlen = cast(bits, 3) + 3\n elif sym == REP_TINY_LEN:\n val = 0\n vlen = cast(bits, 7) + 11\n else:\n raise InflateError(\"Invalid or corrupt block data\")\n i -= 1\n i += 1\n if vlen:\n raise InflateError('Invalid match length')\n\n lit_len = code_lens[:hlit]\n book = lit_tree.initCodeBook(lit_len)\n lit_tree.loadCodeBook(book)\n \n dist_len = code_lens[hlit:]\n\n if len(dist_len) != 1 or dist_len[0] != 0:\n if 0 == sum(x > 0 for x in dist_len) and dist_len.count(1) == 1:\n raise DecompError('Unhandled code book irregularity')\n dist_tree = huff.HuffTree()\n book = dist_tree.initCodeBook(dist_len)\n dist_tree.loadCodeBook(book)\n\n dec = self._decHuffBlock(bits, lit_tree, dist_tree)\n return dec\n\n # Get the INFLATE match length for symbols 257–285 (3-258 bytes)\n def _getMatchLen(self, s, bits):\n mlen = 0\n if s < 257 or s > 285:\n raise InflateError('Invalid match sym')\n if s <= 264:\n mlen = s - 254\n elif s <= 284:\n xbits = int((s - 261) / 4)\n mlen = (((s - 265) % 4 + 4) << xbits) + 3 + cast(bits, xbits)\n elif s == MAX_MATCH:\n mlen = 258\n else:\n raise InflateError('Invalid match length')\n return mlen\n\n def _getDist(self, s, bits):\n dist = 0\n \n if s > 29:\n raise InflateError('Invalid distance code')\n \n if s <= 3:\n dist = s + 1\n else:\n xbits = int((s / 2) - 1)\n dist = ((s % 2 + 2) << xbits) + 1 + cast(bits, xbits)\n return dist\n\n def _updateHistBuff(self):\n '''\n Roll the history buffer so it remains at its maxium size.\n '''\n self.buff = self.buff[-MAX_HIST:]\n\n def _initFixedTrees(self):\n '''\n A HuffTree which is constucted pre-loaded with the rfc1951 fixed tree.\n\n From rfc1951:\n\n 3.2.6. Compression with fixed Huffman codes (BTYPE=01)\n\n The Huffman codes for the two alphabets are fixed, and are not\n represented explicitly in the data. The Huffman code lengths\n for the literal/length alphabet are:\n\n Lit Value Bits Codes\n --------- ---- -----\n 0 - 143 8 00110000 through\n 10111111\n 144 - 255 9 110010000 through\n 111111111\n 256 - 279 7 0000000 through\n 0010111\n 280 - 287 8 11000000 through\n 11000111\n\n '''\n\n symbits = [ 8 for i in range(144) ]\n symbits.extend( [ 9 for i in range(144, 256) ] )\n symbits.extend( [ 7 for i in range(256, 280) ] )\n symbits.extend( [ 8 for i in range(280, 288) ] )\n\n # Literal Length Codes\n lit_codes = self.fix_lits.initCodeBook(symbits)\n self.fix_lits.loadCodeBook(lit_codes)\n\n distbits = [ 5 for i in range(32) ]\n dist_codes = self.fix_dists.initCodeBook(distbits)\n self.fix_dists.loadCodeBook(dist_codes)\n\n def _decHuffBlock(self, bits, lit_tree, dist_tree):\n '''\n Decompress the huffman block using the supplied ltieral and distance trees.\n '''\n out = []\n if not lit_tree:\n raise InflateError('Invalid literal code tree')\n\n dit = dist_tree.iterHuffSyms(bits)\n for sym in lit_tree.iterHuffSyms(bits):\n # Its a literal symbol\n if sym < END_BLOCK:\n out.append(sym)\n self.buff.append(sym)\n # End of this block return back out\n elif sym == END_BLOCK:\n self._updateHistBuff()\n return out\n else:\n # It needs a lookup\n mlen = self._getMatchLen(sym, bits)\n d = next(dit)\n dist = self._getDist(d, bits)\n \n while mlen > dist:\n out += self.buff[-dist:]\n self.buff += self.buff[-dist:]\n mlen -= dist\n if mlen == dist:\n out += self.buff[-dist:]\n self.buff += self.buff[-dist:]\n else:\n out += self.buff[-dist:mlen-dist]\n self.buff += self.buff[-dist:mlen-dist]\n # Should never get here\n raise InflateError('Failed to find end of block sym')\n" }, { "alpha_fraction": 0.5847107172012329, "alphanum_fraction": 0.5909090638160706, "avg_line_length": 20.952381134033203, "blob_id": "93e73394828cd141d8816c3cebb7a68c5223ce08", "content_id": "51e84126fa5aaa859beedbda3f484a8140eb7573", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 484, "license_type": "permissive", "max_line_length": 62, "num_lines": 21, "path": "/dissect/tests/test_rar.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import unittest\r\n\r\nimport dissect.formats.rar as rar\r\nimport dissect.tests.files as files\r\n\r\nclass RarTest(unittest.TestCase):\r\n\r\n #def test_rar_iv(self):\r\n\r\n def test_rar_filelab(self):\r\n\r\n fd = files.getTestFd('test.rar')\r\n lab = rar.RarLab(fd)\r\n\r\n #print(rarlab['header'])\r\n #rarlab['header'].vsPrint()\r\n\r\n #self.assertEqual( len(list(lab.iterRar4Files())), 4 )\r\n\r\n #for hdr in rarlab.iterRar4Files():\r\n #hdr.vsPrint()\r\n\r\n" }, { "alpha_fraction": 0.5615384578704834, "alphanum_fraction": 0.6153846383094788, "avg_line_length": 24, "blob_id": "8fb6465f14e6693b5ce6474e4d5b0d0c83e80287", "content_id": "8a3050a3c8d484fb365a6f850e4664a8518f4903", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 130, "license_type": "permissive", "max_line_length": 53, "num_lines": 5, "path": "/dissect/__init__.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "'''\r\nVivisect (Mark II) File/Protocol Parsers\r\n'''\r\n__version__ = (0,0,1)\r\n__copyright__ = 'Copyright 2015 Invisigoth ([email protected])'\r\n" }, { "alpha_fraction": 0.52635657787323, "alphanum_fraction": 0.5279069542884827, "avg_line_length": 27.953489303588867, "blob_id": "d7d405ebf241ea9f77bf1a1d61af1c254ca62264", "content_id": "5118fd341f841589a56d66b2ab668fc1d01646aa", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1290, "license_type": "permissive", "max_line_length": 102, "num_lines": 43, "path": "/dissect/tools/cab.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "import sys\r\nimport argparse\r\n\r\nimport dissect.formats.cab as d_cab\r\n\r\nfrom dissect.common import *\r\n\r\ndef main(argv):\r\n\r\n p = argparse.ArgumentParser()\r\n p.add_argument('--list',default=False, action='store_true', help='list files within the cab file')\r\n p.add_argument('--catfile',help='cat a file from cab to stdout')\r\n p.add_argument('cabfiles',nargs='+',help='ms cab files')\r\n\r\n args = p.parse_args(argv)\r\n\r\n for filename in args.cabfiles:\r\n fd = open(filename,'rb')\r\n\r\n cab = d_cab.CabLab(fd)\r\n if args.list:\r\n ver = cab.getCabVersion()\r\n size = cab.getCabSize()\r\n verstr = '.'.join([ str(v) for v in ver ])\r\n print('listing cab: %s (ver: %s)' % (filename,verstr))\r\n\r\n rows = []\r\n for name,info in cab.listCabFiles():\r\n rows.append( (name, str(info['size']), info['comp']) )\r\n\r\n titles = ('File Name','Size','Compression')\r\n print( colify( rows, titles=titles) )\r\n continue\r\n\r\n if args.catfile:\r\n cab['CFHEADER'].vsPrint()\r\n fd = cab.openCabFile( args.catfile )\r\n fd.seek(0)\r\n print(repr(fd.read()))\r\n \r\n\r\nif __name__ == '__main__':\r\n sys.exit(main(sys.argv[1:]))\r\n\r\n" }, { "alpha_fraction": 0.5258215665817261, "alphanum_fraction": 0.5273865461349487, "avg_line_length": 18.483871459960938, "blob_id": "467b2ddf8fd31c98866f7f227237f25ba1a56baa", "content_id": "f5067036496ad8ebd995af76aa6bfc7b919f45c8", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 639, "license_type": "permissive", "max_line_length": 52, "num_lines": 31, "path": "/dissect/mimescan.py", "repo_name": "williballenthin/dissect", "src_encoding": "UTF-8", "text": "\r\n\r\ntypers = []\r\nscanners = []\r\n\r\ndef scanForMimes(fd, off=0, only=None, ignore=None):\r\n '''\r\n Scan an fd for \"carveable\" files.\r\n Returns (offset,mimetype) tuples.\r\n\r\n Example:\r\n\r\n for off,mime in scanForMimes(fd):\r\n carvestuff(fd,off)\r\n\r\n '''\r\n for mime,scanner in scanners:\r\n\r\n if only != None and mime not in only:\r\n continue\r\n\r\n if ignore != None and mime in ignore:\r\n continue\r\n\r\n fd.seek(off)\r\n\r\n for hit in scanner(fd):\r\n yield (mime,hit)\r\n\r\ndef getMimeType(fd):\r\n '''\r\n Returns a mime type name for the file content.\r\n '''\r\n" } ]	23
tomwdavis/pure1-api-integrations	https://github.com/tomwdavis/pure1-api-integrations	d508869b8b96b603fd902c8154787c78cced61a1	971255f18987a46ba2e6201957ffc01fbee06a22	2b1a8fbbcd25319ca1c078cfd2bbb799ed334059	refs/heads/master	2022-11-23T20:45:34.376311	2020-07-24T00:59:41	2020-07-24T00:59:41	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6122449040412903, "alphanum_fraction": 0.7346938848495483, "avg_line_length": 24, "blob_id": "c6da19a6084c279a037f358bb77bd1babdd93b5a", "content_id": "28e9e784d095a7b45fc070517d87b7f48746efe3", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 49, "license_type": "permissive", "max_line_length": 27, "num_lines": 2, "path": "/requirements.txt", "repo_name": "tomwdavis/pure1-api-integrations", "src_encoding": "UTF-8", "text": "wavefront-sdk-python==1.1.1\npy-pure-client==1.6.0" }, { "alpha_fraction": 0.6085768938064575, "alphanum_fraction": 0.621927797794342, "avg_line_length": 48.439998626708984, "blob_id": "682f3f4ca69263287b9a74d868016bf6843eb4ec", "content_id": "ab9c9712bafd341ee481ed22aab45a2955b7274d", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 9887, "license_type": "permissive", "max_line_length": 246, "num_lines": 200, "path": "/pure1_wf.py", "repo_name": "tomwdavis/pure1-api-integrations", "src_encoding": "UTF-8", "text": "#! /usr/bin/env python3\n\nimport argparse\nimport time\nimport datetime\nimport json\n\nfrom datetime import timezone\n\nfrom wavefront_sdk.direct import WavefrontDirectClient\nfrom wavefront_sdk.entities.histogram import histogram_granularity\n\nfrom pypureclient import pure1\n\nWAVEFRONT_SOURCE=\"pure1-rest-api\"\nWAVEFRONT_METRICS_NAMESPACE=\"purestorage.metrics.\"\n#IMPORTANT NOTE: make sure max_resource_count * max_metric_count <=16\nMAX_RESOURCES_COUNT_PER_QUERY = 8 #defines the max number of resources (such as arrays) that should be queried for in one single metrics query\nMAX_METRICS_COUNT_PER_QUERY = 2 #defines the max number of metrics that should be queried for in one single metrics query\nqueries_count = 1\nsorted_metrics = None\n\n#Retrieves all the metrics with a resolution \ndef get_metrics_list(pure1Client, resource_type, resolution_ms):\n global sorted_metrics\n if sorted_metrics is None:\n response = pure1Client.get_metrics(filter=str.format(\"resource_types[all]='{}' and availabilities.resolution<={})\", resource_type, str(resolution_ms)))\n #and not(contains(name, 'mirrored')\n metrics_list = list(response.items)\n sorted_metrics = sort(metrics_list)\n return sorted_metrics\n\ndef sort(metrics_list):\n a = {}\n for metric in metrics_list:\n key = metric.availabilities[0].resolution\n a.setdefault(key, []).append(metric)\n\n b = []\n for key in a:\n for item in a[key]:\n b.append(item)\n\n return b\n\ndef get_send_data(pureClient, wavefront_sender, metrics_list, arrays, server, token, resolution_ms, start, end):\n\n metrics_count = len(metrics_list)\n\n array_count = len(arrays)\n array_loops = -(-array_count // MAX_RESOURCES_COUNT_PER_QUERY) #upside-down floor division\n\n _start = time.time() #used for query count logging\n\n for i in range(0, array_loops):\n ids_list = []\n names_list = []\n for j in range(0,MAX_RESOURCES_COUNT_PER_QUERY):\n try:\n ids_list.append(arrays[MAX_RESOURCES_COUNT_PER_QUERYi+j].id)\n names_list.append(arrays[MAX_RESOURCES_COUNT_PER_QUERYi+j].name)\n except:\n pass\n\n _count = 0\n while _count < metrics_count:\n _metrics_list = []\n _metrics_names = []\n _metric_resolution_base = 0\n for j in range(_count,_count + MAX_METRICS_COUNT_PER_QUERY):\n try:\n _metric_resolution = metrics_list[j].availabilities[0].resolution\n if j == _count:\n #getting the first metric resolution and trying to group other metrics with the same resolution\n _metric_resolution_base = _metric_resolution\n _temp_count = 0\n\n if _metric_resolution == _metric_resolution_base:\n _metrics_list.append(metrics_list[j])\n _metrics_names.append(metrics_list[j].name)\n _temp_count += 1\n else: \n break\n except:\n pass\n _count += _temp_count\n response = pureClient.get_metrics_history(aggregation='avg',names=_metrics_names,resource_ids=ids_list, resolution=_metric_resolution_base, start_time=start, end_time=end)\n global queries_count\n queries_count +=1\n time.sleep(0.5) #added to avoid hitting the API rate limit\n\n if hasattr(response, 'items'):\n metric_items = list(response.items)\n for metric_item in metric_items:\n if metric_item.data:\n for metric_data in metric_item.data:\n metric_name = metric_item.name\n arrayName = metric_item.resources[0].name\n\n wavefront_sender.send_metric(name=WAVEFRONT_METRICS_NAMESPACE + metric_name, value=metric_data[1], timestamp=metric_data[0], source=WAVEFRONT_SOURCE, tags={'arrayName': arrayName})\n else:\n pass\n else:\n if response.status_code == 429 or response.status_code == 404:\n print(response.errors[0].message)\n if response.errors[0].context is not None:\n print(response.errors[0].context)\n if response.status_code == 429:\n print(\"API rate limit exceeded for \", names_list)\n print(\"Remaining requests: \" + response.headers.x_ratelimit_limit_minute) \n else: \n print(str.format(\"error code: {}\\n error: {}\", response.status_code, response.errors[0].message))\n print(str.format(\"arrays: {} - metrics: {}\", str(names_list), str(_metrics_names)))\n\n _end = time.time()\n print(str.format(\"Performed {} queries in {} seconds\", str(queries_count), int(_end - _start)))\n\ndef report_metrics(server, token, pure1_api_id, pure1_pk_file,pure1_pk_pwd, resource_type, interval_seconds, start_time, resolution_ms):\n \n pure1Client = pure1.Client(private_key_file=pure1_pk_file, private_key_password=pure1_pk_pwd, app_id=pure1_api_id)\n\n metrics_list = get_metrics_list(pure1Client, resource_type, resolution_ms)\n\n #hardcoding metrics array list for testing purposes\n #testMetric = pure1.Metric(name = 'array_read_iops')\n #metrics_list = [testMetric]\n\n response = None\n if resource_type == \"arrays\":\n response = pure1Client.get_arrays()\n #currently only supports array metrics\n resources = []\n if response is not None:\n resources = list(response.items)\n\n wavefront_sender = WavefrontDirectClient(\n server=server,\n token=token,\n max_queue_size=10000,\n batch_size=4000,\n flush_interval_seconds=5)\n\n #Retrieves data from Pure1 for the last 7 days (or based on specified start time) in increments of 30 minutes\n days_count = 7\n if interval_seconds == -1:\n interval_seconds = 1800\n if start_time != 0:\n initial_start = start_time\n end = int((datetime.datetime.now() - datetime.timedelta(hours = 2)).timestamp())\n timespan_seconds = end - start_time\n else:\n timespan_seconds = 3600 * (24 * days_count - 2) #querying for `days_count` days of data up to 2 hours from now \n initial_start = int((datetime.datetime.now() - datetime.timedelta(days = days_count)).timestamp())\n \n loops = - (-timespan_seconds // interval_seconds) # number of 360 seconds intervals in days_count days (-2 hours)\n\n for i in range(0, loops-1):\n start = initial_start + iinterval_seconds\n end = start + interval_seconds\n print(\"Start Time:\", start, \"End Time:\", end)\n get_send_data(pure1Client, wavefront_sender, metrics_list, resources, server, token, resolution_ms, start, end)\n else:\n end = int((datetime.datetime.now() - datetime.timedelta(hours = 2)).timestamp())\n start = int(end - datetime.timedelta(seconds=interval_seconds).total_seconds())\n print(\"Start Time:\", start, \"End Time:\", end)\n get_send_data(pure1Client, wavefront_sender, metrics_list, resources, server, token, resolution_ms, start, end)\n\n wavefront_sender.close()\n\nif __name__ == '__main__':\n\n _ = argparse.ArgumentParser(description='Pure1-Wavefront integration parameters')\n _.add_argument('server', type=str, help='Wavefront server for direct ingestion.')\n _.add_argument('token', type=str, help='Wavefront API token.')\n _.add_argument('pure1_api_id', type=str, help='Pure1 API Client App ID.')\n _.add_argument('pure1_pk_file', type=str, help='Pure1 API Client Private Key File')\n _.add_argument('-r', '--resolution', type=int, help='Resolution (in milliseconds) of the metrics to be retrieved from Pure1 - available values should be between 30,000 (30 seconds) and 86,400,000 (1 day). Defaults to 1 day', default=86400000)\n _.add_argument('-i', '--interval', type=int, help='Interval at which the script should run, measured in seconds (also impacts Pure1 queries). Defaults to 3 minutes, specify -1 to run once only', default=180)\n _.add_argument('-s', '--start', type=int, help='Start date of the queries. Only works if --interval is set to -1', default=0)\n _.add_argument('-rt', '--resource_type', type=str, help='Name of the resource type to be queried. Currently only supports and defaults to \"arrays\"', default=\"arrays\")\n _.add_argument('-p', '--password', type=str, help=\"use if private key is encrypted (or use keyboard prompt)\")\n ARGS = _.parse_args()\n if ARGS.interval != -1:\n print(str.format(\"Running Pure1-Wavefront sync script every {} seconds with max resolution: {} ms\", ARGS.interval, ARGS.resolution))\n while True:\n start_time = time.time()\n report_metrics(ARGS.server, ARGS.token, ARGS.pure1_api_id, ARGS.pure1_pk_file, ARGS.password, ARGS.resource_type, ARGS.interval, ARGS.start, ARGS.resolution)\n elapsed_time = time.time() - start_time\n print(\"elapsed time in seconds: \",int(elapsed_time))\n #print(\"elapsed time:\",time.strftime(\"%H:%M:%S\", time.gmtime(elapsed_time)))\n sleep_for = ARGS.interval - int(elapsed_time)\n if sleep_for > 0:\n print(\"waiting\", sleep_for, \"seconds for next query\")\n time.sleep(sleep_for)\n else:\n print(\"Running script only once\")\n start_time = time.time()\n report_metrics(ARGS.server, ARGS.token, ARGS.pure1_api_id, ARGS.pure1_pk_file, ARGS.password, ARGS.resource_type, ARGS.interval, ARGS.start, ARGS.resolution)\n elapsed_time = time.time() - start_time\n print(\"elapsed time in seconds: \",int(elapsed_time))" }, { "alpha_fraction": 0.5642581582069397, "alphanum_fraction": 0.5830115675926208, "avg_line_length": 57, "blob_id": "6c4e8273c12472faaa134c41fbcbcd90569962e7", "content_id": "39fd03e7a2a156b2665d57bfb3e6928702a54069", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 7252, "license_type": "permissive", "max_line_length": 332, "num_lines": 125, "path": "/pure1_fb_inventory.py", "repo_name": "tomwdavis/pure1-api-integrations", "src_encoding": "UTF-8", "text": "#! /usr/bin/env python3\n\nimport argparse\nimport time\nimport datetime\nimport json\nimport csv\n\nfrom datetime import timezone\nfrom pypureclient import pure1\n\nMETRIC_RESOLUTION_DAY=86400000\nBYTES_IN_A_TERABYTE=1000000000000\nBYTES_IN_A_GIGABYTE=1000000000\nBYTES_IN_A_TEBIBYTE=1099511627776\nBYTES_IN_A_GIBIBYTE=1073741824\nAGGREGATION_TYPE = 'avg' #can be set to either 'avg' or 'max'\nREPORTING_INTERVAL_DAYS=30\n\n\ndef generate_fleet_report(pure1_api_id, pure1_pk_file, pure1_pk_pwd):\n \n pure1Client = pure1.Client(private_key_file=pure1_pk_file, private_key_password=pure1_pk_pwd, app_id=pure1_api_id)\n\n response = None\n response = pure1Client.get_arrays(filter=\"contains(model,'FlashBlade')\")\n\n arrays = []\n if response is not None:\n arrays = list(response.items)\n report_filename = str.format('pure1_fb_inventory_last{}_days_{}.csv', REPORTING_INTERVAL_DAYS, AGGREGATION_TYPE)\n with open(report_filename, 'w') as csvfile:\n filewriter = csv.writer(csvfile, delimiter=',',\n quotechar='\|', quoting=csv.QUOTE_MINIMAL)\n filewriter.writerow(['Array Name', 'Model', 'OS Version', 'Total Blades', 'Used Blades', 'Total Capacity (TiB)', 'File Systems (TiB)','Object Stores (GiB)','Snapshots (GiB)', str.format('% Used (Last {} days)', REPORTING_INTERVAL_DAYS), str.format('% Used (Prev. {} days)', REPORTING_INTERVAL_DAYS), 'Data Reduction Ratio'])\n\n for array in arrays:\n os_version = str.format(\"{} {}\",array.os, array.version)\n metrics_names = ['array_total_capacity', 'array_file_system_space', 'array_object_store_space','array_snapshot_space', 'array_data_reduction']\n start = int((datetime.datetime.now() - datetime.timedelta(days = REPORTING_INTERVAL_DAYS)).timestamp())\n #print(start)\n start_comparison = start - REPORTING_INTERVAL_DAYS METRIC_RESOLUTION_DAY / 1000\n #print(start_comparison)\n end = int((datetime.datetime.now()).timestamp())\n response = pure1Client.get_blades(filter='arrays.id=\\''+array.id+'\\'')\n if hasattr(response, 'items'):\n arrays2 = next(iter(response.items))\n array_blades = next(iter(arrays2.arrays))\n \n response = pure1Client.get_metrics_history(aggregation=AGGREGATION_TYPE,names=metrics_names,resource_ids=array.id, resolution=METRIC_RESOLUTION_DAYREPORTING_INTERVAL_DAYS, start_time=start, end_time=end)\n response_comparison = pure1Client.get_metrics_history(aggregation=AGGREGATION_TYPE,names=metrics_names,resource_ids=array.id, resolution=METRIC_RESOLUTION_DAYREPORTING_INTERVAL_DAYS, start_time=start_comparison, end_time=start)\n\n total_capacity = 0\n total_capacity_previous = 0\n file_system_space = 0\n object_store_space = 0\n data_reduction = 0\n snapshot_space = 0\n total_used = 0\n total_used_previous = 0\n\n if hasattr(response, 'items'):\n metrics_items = list(response.items)\n compared_metrics = iter(list(response_comparison.items))\n for metric_item in metrics_items:\n compared_metric = next(compared_metrics)\n if metric_item.data:\n compared_metric_iter = iter(compared_metric.data)\n #print('compared metric')\n #print(compared_metric)\n for metric_data in metric_item.data:\n try:\n compared_metric_data = next(compared_metric_iter)\n except StopIteration:\n compared_metric_data = [0,0]\n #print(metric_item.name)\n #print(compared_metric_data)\n #print(metric_data)\n metric_name = metric_item.name\n if metric_name == 'array_total_capacity':\n total_capacity = round(metric_data[1]/BYTES_IN_A_TEBIBYTE,2)\n total_capacity_previous = round(compared_metric_data[1]/BYTES_IN_A_TEBIBYTE,2)\n elif metric_name == 'array_object_store_space':\n object_store_space = round(metric_data[1]/BYTES_IN_A_GIBIBYTE, 2)\n total_used = total_used + metric_data[1]\n total_used_previous = total_used_previous + compared_metric_data[1]\n elif metric_name == 'array_file_system_space':\n file_system_space = round(metric_data[1]/BYTES_IN_A_TEBIBYTE, 2)\n total_used = total_used + metric_data[1]\n total_used_previous = total_used_previous + compared_metric_data[1]\n elif metric_name == 'array_snapshot_space':\n total_used = total_used + metric_data[1]\n total_used_previous = total_used_previous + compared_metric_data[1]\n snapshot_space = round(metric_data[1]/BYTES_IN_A_GIBIBYTE, 2)\n elif metric_name == 'array_data_reduction':\n data_reduction = round(metric_data[1], 2)\n\n percent_used_previous = 0\n if total_capacity_previous != 0:\n percent_used_previous = round(total_used_previous100/total_capacity_previous/BYTES_IN_A_TEBIBYTE, 1)\n if total_capacity != 0:\n percent_used = round(total_used100/total_capacity/BYTES_IN_A_TEBIBYTE, 1)\n\n filewriter.writerow([array.name, array.model, os_version, array_blades.total_blades, array_blades.used_blades, total_capacity, file_system_space, object_store_space, snapshot_space, percent_used, percent_used_previous, data_reduction])\n else:\n if response.status_code == 429 or response.status_code == 404:\n print(response.errors[0].message)\n if response.errors[0].context is not None:\n print(response.errors[0].context)\n if response.status_code == 429:\n print(\"Remaining requests: \" + response.headers.x_ratelimit_limit_minute) \n else: \n print(str.format(\"error code: {}\\n error: {}\", response.status_code, response.errors[0].message))\n print(str.format(\" metrics: {}\", str(metrics_names)))\n\nif __name__ == '__main__':\n\n _ = argparse.ArgumentParser(description='Pure1 Reporting integration parameters')\n _.add_argument('pure1_api_id', type=str, help='Pure1 API Client App ID.')\n _.add_argument('pure1_pk_file', type=str, help='Pure1 API Client Private Key File') \n _.add_argument('-p', '--password', type=str, help=\"use if private key is encrypted (or use keyboard prompt)\")\n ARGS = _.parse_args()\n\n print(\"Generating Pure1 custom capacity report for FlashBlade appliances\")\n generate_fleet_report(ARGS.pure1_api_id, ARGS.pure1_pk_file, ARGS.password)\n " }, { "alpha_fraction": 0.54794842004776, "alphanum_fraction": 0.56647127866745, "avg_line_length": 60.79710006713867, "blob_id": "403fca1dfa3b1f2d124e6b6aada351dd2d34d3f3", "content_id": "1ee2bb774a9401fdc825a09456c2a66ce0e7fa0f", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8530, "license_type": "permissive", "max_line_length": 355, "num_lines": 138, "path": "/pure1_report.py", "repo_name": "tomwdavis/pure1-api-integrations", "src_encoding": "UTF-8", "text": "#! /usr/bin/env python3\n\nimport argparse\nimport time\nimport datetime\nimport json\nimport csv\n\nfrom datetime import timezone\nfrom pypureclient import pure1\n\nMETRIC_RESOLUTION_DAY=86400000\nBYTES_IN_A_TERABYTE=1000000000000\nBYTES_IN_A_GIGABYTE=1000000000\nBYTES_IN_A_TEBIBYTE=1099511627776\nBYTES_IN_A_GIBIBYTE=1073741824\nAGGREGATION_TYPE = 'avg' #can be set to either 'avg' or 'max'\nREPORTING_INTERVAL_DAYS=30\n\n\ndef generate_fleet_report(pure1_api_id, pure1_pk_file, pure1_pk_pwd):\n \n pure1Client = pure1.Client(private_key_file=pure1_pk_file, private_key_password=pure1_pk_pwd, app_id=pure1_api_id)\n\n response = None\n response = pure1Client.get_arrays(filter=\"contains(model,'FA')\")\n\n arrays = []\n if response is not None:\n arrays = list(response.items)\n report_filename = str.format('pure1_capacity_report_last{}_days_{}.csv', REPORTING_INTERVAL_DAYS, AGGREGATION_TYPE)\n with open(report_filename, 'w') as csvfile:\n filewriter = csv.writer(csvfile, delimiter=',',\n quotechar='\|', quoting=csv.QUOTE_MINIMAL)\n filewriter.writerow(['Array Name', 'Model', 'OS Version', 'Total Capacity (TB)', 'Total Capacity (TiB)','Volumes (TB)', 'Volumes (TiB)','Snapshots (TB)', 'Snapshots (TiB)', 'Shared (GB)', 'Shared (GiB)', str.format('% Used (Last {} days)', REPORTING_INTERVAL_DAYS), str.format('% Used (Prev. {} days)', REPORTING_INTERVAL_DAYS), 'Data Reduction'])\n\n for array in arrays:\n #print(array.name)\n os_version = str.format(\"{} {}\",array.os, array.version)\n metrics_names = ['array_total_capacity', 'array_volume_space', 'array_snapshot_space', 'array_file_system_space', 'array_system_space', 'array_effective_used_space', 'array_shared_space', 'array_data_reduction']\n start = int((datetime.datetime.now() - datetime.timedelta(days = REPORTING_INTERVAL_DAYS)).timestamp())\n #print(start)\n start_comparison = start - REPORTING_INTERVAL_DAYS * METRIC_RESOLUTION_DAY / 1000\n #print(start_comparison)\n end = int((datetime.datetime.now()).timestamp())\n response = pure1Client.get_metrics_history(aggregation=AGGREGATION_TYPE,names=metrics_names,resource_ids=array.id, resolution=METRIC_RESOLUTION_DAYREPORTING_INTERVAL_DAYS, start_time=start, end_time=end)\n response_comparison = pure1Client.get_metrics_history(aggregation=AGGREGATION_TYPE,names=metrics_names,resource_ids=array.id, resolution=METRIC_RESOLUTION_DAYREPORTING_INTERVAL_DAYS, start_time=start_comparison, end_time=start)\n\n total_capacity = 0\n total_capacity_previous = 0\n volume_space = 0\n snapshot_space = 0\n data_reduction = 0\n shared_space = 0\n total_used = 0\n total_used_previous = 0\n\n total_capacity_i = 0\n volume_space_i = 0\n snapshot_space_i = 0\n shared_space_i = 0\n\n if hasattr(response, 'items'):\n metrics_items = list(response.items)\n compared_metrics = iter(list(response_comparison.items))\n for metric_item in metrics_items:\n compared_metric = next(compared_metrics)\n if metric_item.data:\n compared_metric_iter = iter(compared_metric.data)\n #print(compared_metric)\n for metric_data in metric_item.data:\n try:\n compared_metric_data = next(compared_metric_iter)\n except StopIteration:\n compared_metric_data = [0,0]\n #print(compared_metric_data)\n #print(metric_data)\n metric_name = metric_item.name\n if metric_name == 'array_total_capacity':\n total_capacity_i = round(metric_data[1]/BYTES_IN_A_TEBIBYTE,2)\n total_capacity_previous_i = round(compared_metric_data[1]/BYTES_IN_A_TEBIBYTE,2) \n total_capacity = round(metric_data[1]/BYTES_IN_A_TERABYTE,2)\n total_capacity_previous = round(compared_metric_data[1]/BYTES_IN_A_TERABYTE,2)\n elif metric_name == 'array_effective_used_space':\n effective_used_space_i = round(metric_data[1]/BYTES_IN_A_GIBIBYTE, 2)\n effective_used_space = round(metric_data[1]/BYTES_IN_A_GIGABYTE, 2)\n elif metric_name == 'array_volume_space':\n total_used = total_used + metric_data[1]\n total_used_previous = total_used_previous + compared_metric_data[1]\n volume_space = round(metric_data[1]/BYTES_IN_A_TERABYTE, 2)\n volume_space_i = round(metric_data[1]/BYTES_IN_A_TEBIBYTE, 2)\n elif metric_name == 'array_snapshot_space':\n total_used = total_used + metric_data[1]\n total_used_previous = total_used_previous + compared_metric_data[1]\n snapshot_space = round(metric_data[1]/BYTES_IN_A_TERABYTE, 2)\n snapshot_space_i = round(metric_data[1]/BYTES_IN_A_TEBIBYTE, 2)\n elif metric_name == 'array_data_reduction':\n data_reduction = round(metric_data[1], 2)\n elif metric_name == 'array_shared_space':\n total_used = total_used + metric_data[1]\n total_used_previous = total_used_previous + compared_metric_data[1]\n shared_space = round(metric_data[1]/BYTES_IN_A_GIGABYTE, 2)\n shared_space_i = round(metric_data[1]/BYTES_IN_A_GIBIBYTE, 2)\n elif metric_name == 'array_system_space':\n total_used = total_used + metric_data[1]\n total_used_previous = total_used_previous + compared_metric_data[1]\n system_space = round(metric_data[1]/BYTES_IN_A_GIGABYTE, 2)\n system_space_i = round(metric_data[1]/BYTES_IN_A_GIBIBYTE, 2)\n else:\n effective_used_space = 0 #if we end up here, it's most likely because the array_effective_used_space is absent\n percent_used_previous = 0\n if total_capacity_previous != 0:\n percent_used_previous = round(total_used_previous100/total_capacity_previous/BYTES_IN_A_TERABYTE, 1)\n if total_capacity != 0:\n percent_used = round(total_used100/total_capacity/BYTES_IN_A_TERABYTE, 1)\n \n filewriter.writerow([array.name, array.model, os_version, total_capacity, total_capacity_i, volume_space, volume_space_i, snapshot_space, snapshot_space_i, shared_space, shared_space_i, percent_used, percent_used_previous, data_reduction])\n else:\n if response.status_code == 429 or response.status_code == 404:\n print(response.errors[0].message)\n if response.errors[0].context is not None:\n print(response.errors[0].context)\n if response.status_code == 429:\n print(\"Remaining requests: \" + response.headers.x_ratelimit_limit_minute) \n else: \n print(str.format(\"error code: {}\\n error: {}\", response.status_code, response.errors[0].message))\n print(str.format(\" metrics: {}\", str(metrics_names)))\n\nif __name__ == '__main__':\n\n _ = argparse.ArgumentParser(description='Pure1 Reporting integration parameters')\n _.add_argument('pure1_api_id', type=str, help='Pure1 API Client App ID.')\n _.add_argument('pure1_pk_file', type=str, help='Pure1 API Client Private Key File') \n _.add_argument('-p', '--password', type=str, help=\"use if private key is encrypted (or use keyboard prompt)\")\n ARGS = _.parse_args()\n\n print(\"Generating Pure1 custom capacity report for FlashArray appliances\")\n generate_fleet_report(ARGS.pure1_api_id, ARGS.pure1_pk_file, ARGS.password)\n " }, { "alpha_fraction": 0.7590010762214661, "alphanum_fraction": 0.7732495665550232, "avg_line_length": 76.70237731933594, "blob_id": "473d235947181a7b9ae7d2be130a09c82766ae3f", "content_id": "159df4f4384a36a7c5ad5efcaa0a81367a7dd97c", "detected_licenses": [ "Apache-2.0" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 6527, "license_type": "permissive", "max_line_length": 476, "num_lines": 84, "path": "/README.md", "repo_name": "tomwdavis/pure1-api-integrations", "src_encoding": "UTF-8", "text": "# Pure1 API Integration Samples\n\nThis repository is a collection of scripts showcasing popular use cases for the Pure1 REST API. Currently, the use cases below are available:\n\n- Custom reports \n - Targets use cases where there is a need to build highly customized, automated reports or multi-storage vendor reports\n- 3rd-party monitoring\n - Targets use cases where there is a need to sync Pure1 metrics to a centralized monitoring tool (one-way sync from Pure1)\n\n## Custom reports integration\n\n### Overview\n\nThe goal of this integration is to showcase the capabilities of Python and the [Pure Storage Unified Python Client](https://pypi.org/project/py-pure-client/) to export average or max Pure1 metrics into a comma-separated values (CSV) file. \nThe current script gathers general array fleet information (such as array name, array model, OS version), as well as a few performance metrics (such as used capacity)\n\n### Pre-requisites\n- Be a member of a Pure1 organization\n- Have the credentials of a Pure1 organization administrator account on hand\n- Have Python 3.x installed on the machine where the script will run (Python 2.x might work but the script was only tested with Python 3.6.5)\n\n### Installation\n1. Sign in to https://pure1.purestorage.com as an administrator and generate an API key (using the instructions available at https://blog.purestorage.com/pure1-rest-api-part-2, for instance)\n2. Take note of your API Application Id, you will need it later on to call the `pure1_wf.py` script\n\n### Capacity Reports\n\n2 scripts are provided to generate capacity reports:\n- The `pure1_report.py` script generates a report of FlashArray appliances including a % comparison with the previous reporting interval (configurable in the `REPORTING_INTERVAL_DAYS` variable)\n- - The `pure1_fb_inventory.py` script generates a report of FlashBlades appliances including the number of used vs. total blades in each appliance and a % comparison with the previous reporting interval (configurable in the `REPORTING_INTERVAL_DAYS` variable)\n\nTo run the script, simply call the following command line:\n\n`python3 pure1_report.py\|pure1_fb_inventory.py <pure1_app_id> <pure1_rsa_private_key_file> -p <pure1_private_keyfile_password>`\n\nwhere the parameters should be:\n- `<pure1_app_id>`: the Pure1 Application Id you registered in step #2 of the Installation section above\n- `<pure1_rsa_private_key_file>`: the relative path to the RSA private key file used to register the Pure1 API application\n\nAdditionally, the script an optional parameter:\n\n- `-p` (or `--password`) is only required if the private key file was encrypted with a password.\n\n## VMware Wavefront integration\n\n### Overview\nThe goal of this integration is to showcase the integration between Pure1 and Wavefront using the [Pure Storage Unified Python Client](https://pypi.org/project/py-pure-client/) and the Wavefront Python SDK. \nThe sample `pure1_wf.py` Python script publishes all the array metrics (up to 2 hours from the current time) for all the arrays monitored in your Pure1 account to your Wavefront account.\n\nImportant note: this script is NOT supported by Pure Storage. However, you can connect to the [Pure//Code() Slack Community](https://code-purestorage.slack.com) or [request an invitation to join](https://codeinvite.purestorage.com/) if you don't have access to it yet. \n\n### Pre-requisites\n- Be a member of a Pure1 organization\n- Have the credentials of a Pure1 organization administrator account on hand\n- Have a valid Wavefront account\n- Have Python 3.x installed on the machine where the script will run (Python 2.x might work but the script was only tested with Python 3.6.5)\n### Installation\n1. Sign in to https://pure1.purestorage.com as an administrator and generate an API key (using the instructions available at https://blog.purestorage.com/pure1-rest-api-part-2, for instance)\n2. Take note of your API Application Id as well as your Wavefront account url (such as `https://longboard.wavefront.com`), you will need them later on to call the `pure1_wf.py` script\n3. Connect to your Wavefront account or sign up for a trial account at https://www.wavefront.com/\n4. Follow [these instructions](https://docs.wavefront.com/wavefront_api.html#generating-an-api-token) to generate a Wavefront API key\n5. Install the Python pre-requisites by running the following command: \n `pip3 install -r requirements.txt`\n### Script Execution\nTo run the script, simply call the following command line:\n\n`python3 pure1_wf.py <wavefront_url> <wavefront_api_token> <pure1_app_id> <pure1_rsa_private_key_file> -p <pure1_private_keyfile_password> -i <query_interval> -r <resolution>`\n\nwhere the parameters should be:\n- `<wavefront_url>`: the URL you use to access your Wavefront account (such as `https://longboard.wavefront.com`)\n- `<wavefront_api_token>`: the API key you generated in step #1 of the Installation section above.\n- `<pure1_app_id>`: the Pure1 Application Id you registered in step #2 of the Installation section above\n- `<pure1_rsa_private_key_file>`: the relative path to the RSA private key file used to register the Pure1 API application\n\nAdditionally, the script accepts several optional parameters:\n\n- `-p` (or `--password`) is only required if the private key file was encrypted with a password.\n- `-r` (or `--resolution`) controls the resolution (in ms) of the metrics you are interesting in collecting. Specifically, the script will retrieve __all__ the metrics for which the resolution is __lower than__ the specified resolution. Defaults to 1 day (8,6400,000 milliseconds, i.e. all of the available metrics).\n- `-i` (or `--interval`) controls the interval (in seconds) between each batched query. Defaults to 180s (3 minutes). For instance, with interval set to 180s, the script will retrieve metrics data for the last 3 minutes (2 hours prior) every 3 minutes (and pauses until 3 minutes have elapsed). If set to `-1`, the script will defer to the `--start` parameter to determine the start date and time (in the past) to start collecting data (in 30 minutes intervals, without pause)\n- `-s` (or `--start`) controls the start date and time at which the script should start collecting data (up to 2 hours from now)\n\nIf everything was properly configured, you should see Pure1 metrics available in Wavefront Metrics page in the `purestorage.metrics` namespace.\n\n![Sample Array Read IOPS Metrics](https://github.com/PureStorage-OpenConnect/pure1-wavefront/raw/master/res/WaveFront-Metrics-01.png \"Sample Array Read IOPS Metrics\")\n" } ]	5
irohdw/MovieRecommender	https://github.com/irohdw/MovieRecommender	70e6dcd357a5524a6c5606e6f2dfeb788186b327	5ac48930c00d54cbacd3501f6cfc7f66b495bfc4	1d66af6f7e34437ce293a6324244d01cc1a9f2b0	refs/heads/master	2023-01-12T18:42:32.460946	2020-11-18T16:38:38	2020-11-18T16:38:38	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6350975036621094, "alphanum_fraction": 0.6425835490226746, "avg_line_length": 41.20588302612305, "blob_id": "6ae3213ce0a3458851d82b6912788074f5f2f145", "content_id": "4477cd8ed66527b1ab282c429e1d8a902ba6b913", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5744, "license_type": "no_license", "max_line_length": 132, "num_lines": 136, "path": "/Modules/DfManip.py", "repo_name": "irohdw/MovieRecommender", "src_encoding": "UTF-8", "text": "import pandas as pd\nimport Modules.Util as ut\nfrom matplotlib import pyplot as plt\nfrom Modules.ContentRecommender import fullContentRecommender, getRecommendationsByTitle\nimport matplotlib as mpl\nimport matplotlib.ticker as mtick\n\ndef readDF(fileName = 'Output/movies_metadata.csv'):\n df = pd.read_csv(fileName)\n nullRecommendations = ut.getRowsNum(df[df['similarMovies'] == -1])\n print('Null Movie Recommendations: ' + str(nullRecommendations))\n\n if nullRecommendations > 0:\n time, cosineSim = ut.getExecutionTime(lambda: ut.unpickleObject('Output/Cosine_Sim.pkl'))\n ut.getExecutionTime(lambda: getRecommendationsAsColumn(df, cosineSim))\n return df\n\ndef compressDF(df: pd.DataFrame):\n columns = ['budget', 'revenue', 'runtime', 'vote_count', 'vote_average', 'popularity',\n 'status', 'original_language', 'production_companies', 'production_countries',\n 'overview', 'tagline', 'poster_path', 'crew', 'keywords', 'video', 'cast', 'keywords',\n 'original_title', 'belongs_to_collection', 'homepage', 'spoken_languages'\n ]\n ut.dropIfExists(df, columns, inplace=True)\n\ndef saveDF(df: pd.DataFrame):\n df.to_csv('Output/movies_metadata.csv', index=False)\n\ndef addImdbScore(df: pd.DataFrame):\n v = df['vote_count']\n r = df['vote_average']\n m = df['vote_count'].quantile(0.90)\n c = df['vote_average'].mean()\n df['imdb_score'] = (vr/(v+m)) + (m/(v+m)c)\n return df\n\ndef processMovieData(generateCosineSim: bool):\n\n ## open dataframe\n df = pd.read_csv('Input/movies_metadata (original).csv')\n df = addImdbScore(df)\n ## drop movies without release date\n df = df.apply(lambda x: x if isinstance(x['release_date'],str) else None, axis=1)\n df.dropna(how='all', inplace=True)\n\n df['tmdb_id'] = df.index\n df = df.sort_values(by='imdb_score', ascending=False)\n df.reset_index(inplace=True, drop=True)\n\n df['release_year'] = df['release_date'].apply(lambda date: date[0:4])\n\n df = df[['tmdb_id', 'id', 'imdb_id', 'imdb_score', 'title',\n 'release_date', 'release_year', 'adult', 'genres'\n ]]\n\n ## merge credits and keywords into movieData\n credits = pd.read_csv('Input/credits.csv')\n credits['id'] = credits['id'].astype('int')\n keywords = pd.read_csv('Input/keywords.csv')\n keywords['id'] = keywords['id'].astype('int')\n\n df = df[df['id'].str.isnumeric() == True]\n df['id'] = df['id'].astype('int')\n df = df.merge(credits, on='id')\n df = df.merge(keywords, on='id')\n df = df[df.apply(lambda x: isinstance(x['title'], str), axis=1)]\n df['similarMovies'] = -1\n\n## Add column of recommended movies\n if generateCosineSim:\n time, cosineSim = ut.getExecutionTime(lambda: fullContentRecommender(df))\n else:\n time, cosineSim = ut.getExecutionTime(lambda: ut.unpickleObject('Output/Cosine_Sim.pkl'))\n compressDF(df)\n ut.getExecutionTime(lambda: getRecommendationsAsColumn(df, cosineSim))\n return df\n\ndef processTitles(df: pd.DataFrame):\n return list(df.apply(lambda row: row['title'] + ' ('+str(row['release_year'])+')', axis=1))\n\ndef getRecommendationsAsColumn(df: pd.DataFrame, cosine_sim, recommendationsNum=20):\n\n #df['similarMovies'] = df.apply(lambda row: getRecommendationsByTitle(df, row['title'], cosine_sim, recommendationsNum), axis=1)\n for index, row in df.iterrows():\n if row['similarMovies'] != -1:\n continue\n recommendations = getRecommendationsByTitle(df, row['title'], cosine_sim, recommendationsNum, index)\n df.loc[index, 'similarMovies'] = str(recommendations)\n if index % 100 == 0:\n saveDF(df)\n print('last index saved is: ', str(index))\n saveDF(df)\n\ndef plotSimilarityScores(df: pd.DataFrame):\n movieList = df['similarMovies']\n movieList = movieList.apply(lambda x: ut.stringToDict(x))\n df['scoreRange'] = movieList.apply(lambda x: max(x.values()) - min(x.values()))\n df['scoreAverage'] = movieList.apply(lambda x: sum(x.values()) / len(x.values()))\n\n histDir = 'Output/Histograms/'\n scatterDir = 'Output/Scatterplots/'\n barDir = 'Output/Barplots/'\n\n histParams = {'kind': 'hist', 'legend': False, 'bins': 50}\n barParams = {'kind': 'bar', 'legend': False}\n figParams = {'x': 7, 'y': 7}\n\n plt.rc('font', size=40)\n plt.rc('axes', labelsize=60)\n plt.rc('axes', titlesize=60)\n xTickMult = lambda: ut.multiplyRange(plt.xticks()[0], 0.5)\n xTickMultLS = lambda: ut.multiplyLinSpace(plt.xticks()[0], 2)\n yTickFormat = lambda: plt.gca().yaxis.set_major_formatter(plt.FormatStrFormatter('%.0f'))\n xTickFormatPercent = lambda: plt.gca().xaxis.set_major_formatter(mtick.PercentFormatter(decimals=0))\n xTickFormatCommas = lambda: plt.gca().xaxis.set_major_formatter(mpl.ticker.StrMethodFormatter('{x:,.0f}'))\n xTickFormatDollars = lambda x=0: plt.gca().xaxis.set_major_formatter(\n mpl.ticker.StrMethodFormatter('${x:,.' + str(x) + 'f}'))\n # setTickIn = lambda: plt.gca().tick_params(axis='x', direction='in')\n trimTicks = lambda: plt.xticks()[0:-1]\n histParams = {'kind': 'hist', 'legend': False, 'bins': 100}\n\n ut.plotDF(df[['scoreRange']], histParams,\n {\n 'grid': None,\n 'xlabel': 'Range Between Highest and Lowest Similarity Scores',\n 'title': 'Histogram of Similarity Score Ranges',\n 'savefig': histDir + 'ScoreRange.png'})\n\n ut.plotDF(df[['scoreAverage']], histParams,\n {\n 'grid': None,\n 'xlabel': 'Average Similarity Scores',\n 'title': 'Histogram of Similarity Score Averages',\n 'savefig': histDir + 'ScoreAverages.png'})\n\n print('finished plotting')\n\n\n\n\n" }, { "alpha_fraction": 0.7599999904632568, "alphanum_fraction": 0.7599999904632568, "avg_line_length": 23, "blob_id": "df4f962e8251ead26e6cb48adf47ef82256ddee6", "content_id": "e5635f9c349717d8786f7656bdedabf076f889af", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 75, "license_type": "no_license", "max_line_length": 26, "num_lines": 3, "path": "/MainApp/models.py", "repo_name": "irohdw/MovieRecommender", "src_encoding": "UTF-8", "text": "from django import forms\nimport pandas as pd\n# Create your models here.\n\n\n\n" }, { "alpha_fraction": 0.5786924958229065, "alphanum_fraction": 0.629539966583252, "avg_line_length": 34.956520080566406, "blob_id": "ca72fa70503f112260c9cef3087b6aee8304b52b", "content_id": "cbfc8beb938b08a74da88772256927c4319f4fb6", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 826, "license_type": "no_license", "max_line_length": 125, "num_lines": 23, "path": "/Modules/Tmdb.py", "repo_name": "irohdw/MovieRecommender", "src_encoding": "UTF-8", "text": "import tmdbsimple as tmdb\nfrom requests import HTTPError\n\ntmdb.API_KEY = '11fead3601fd0a158c49a4d12ebdce88'\n\ndef getMovieInfo(movie):\n try:\n m = tmdb.Movies(movie['id'])\n info = m.info()\n #find = tmdb.Find(movie['id'])\n #json = find.info(external_id=movie['imdb_id'], external_source = 'imdb_id')\n #homepage = info['homepage']\n\n title = info['title'].lower().replace(' ', '-')\n homepage = 'https://www.themoviedb.org/movie/' + str(info['id']) + '-' + title\n posterPath = info['poster_path']\n\n if posterPath == None:\n print(movie['title'])\n return posterPath, homepage\n except HTTPError:\n return None, None\n# https://api.themoviedb.org/3/find/tt0372784?api_key=11fead3601fd0a158c49a4d12ebdce88&language=en-US&external_source=imdb_id" }, { "alpha_fraction": 0.8080357313156128, "alphanum_fraction": 0.8080357313156128, "avg_line_length": 34.105262756347656, "blob_id": "83ec2e725b65a4a046bb16e54ce0ba19b45e3cf6", "content_id": "32eae72928a2d3de51117278e4ec5efbd2b89363", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 672, "license_type": "no_license", "max_line_length": 105, "num_lines": 19, "path": "/Modules/Main.py", "repo_name": "irohdw/MovieRecommender", "src_encoding": "UTF-8", "text": "\n#creates dfs from file, prints relevent data\nfrom Modules.EDA import \nimport pandas as pd\nimport Modules.Util as ut\nimport Modules.Plots as plots\nimport pickle\nfrom Modules.SimpleRecommender import getImdbScore\nfrom Modules.ContentRecommender import getRecommendationsByTitle, plotRecommender, fullContentRecommender\n\nimport django\n## impute data\nmovieData = getImdbScore(movieData)\nmovieData.to_csv('Input/movies_metadata.csv')\n#movieData.sort_values(by='imdb_score', ascending=False, inplace=True)\n#title = 'The Dark Knight Rises'\ntitle = 'The Godfather'\n#plotRec = plotRecommender(movieData, title)\ncontentRec = fullContentRecommender(movieData, title)\nprint('')\n\n\n\n\n" }, { "alpha_fraction": 0.4652956426143646, "alphanum_fraction": 0.6915166974067688, "avg_line_length": 15.208333015441895, "blob_id": "347b43335f0c745b1debb38c7418b70fcfa02ff7", "content_id": "012dc8d26a3c385069b9301f796bf645d194a0b9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 389, "license_type": "no_license", "max_line_length": 22, "num_lines": 24, "path": "/requirements.txt", "repo_name": "irohdw/MovieRecommender", "src_encoding": "UTF-8", "text": "asgiref==3.2.10\ncertifi==2020.6.20\nchardet==3.0.4\ncycler==0.10.0\nDjango==3.1.1\nidna==2.10\njoblib==0.16.0\nkiwisolver==1.2.0\nmatplotlib==3.3.2\nnumpy==1.19.2\npandas==1.1.2\nPillow==7.2.0\npyparsing==2.4.7\npython-dateutil==2.8.1\npytz==2020.1\nrequests==2.24.0\nscikit-learn==0.23.2\nscipy==1.5.2\nsix==1.15.0\nsqlparse==0.3.1\nthreadpoolctl==2.1.0\ntmdbsimple==2.6.6\nurllib3==1.25.10\nwhitenoise==5.2.0\n" }, { "alpha_fraction": 0.7980287671089172, "alphanum_fraction": 0.8036839365959167, "avg_line_length": 157.6666717529297, "blob_id": "04518724e9e60a88e10664ea151daf29032b3dec", "content_id": "153a1114e4c47f2aea14eaa31d4ebda022b37750", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 6189, "license_type": "no_license", "max_line_length": 664, "num_lines": 39, "path": "/README.md", "repo_name": "irohdw/MovieRecommender", "src_encoding": "UTF-8", "text": "# MovieRecommender\nA classic problem people have is finding a good movie to watch without doing a lot of research. To overcome this problem, recommender systems based on Machine Learning or Deep Learning are used to find movies that users are most likely to enjoy. There are 2 main types of recommender systems: Content Filtering (finds similarities between movies by their data), and Collaborative Filtering (finds similar movies by ratings and other data from users). This project uses Django to create a web application that allows the user to choose a movie and uses Content Filtering to recommend movies that are most similar to the one chosen by the user.\n\n## Content Filtering\nContent Filtering is performed on [The Movies Dataset](https://www.kaggle.com/rounakbanik/the-movies-dataset), which contains metadata for over 45,000 movies. The main idea behind Content Filtering is that if a user likes a movie, then they will probably like other movies that are similar to it. Movie similarity is determined by the following metadata: Cast, Director, Keywords, and Genre. The metadata is text based, so some basic natural language processing is required before it can compare movies.\n\nProcessing the data involves the following steps:\n\n1. Removing stop words such as the, and, or, etc. They add no relevant information, so they are not useful for most types of analysis.\n2. Finding the director of the movie from the cast so the director has their own category.\n3. Removing spaces between words. This is done so that names and other multiple word terms like \"Johnny Depp\" and \"Johnny Galecki\" are not treated the same.\n4. Creating a metadata soup by appending each processed category to each other.\n\nAfter the data is processed, Scikit-learn's CountVectorizer function is used to compute the similarity between movies by their metadata soup. Essentially, it takes the words in the soup and converts them into word vectors. Then, it performs a Cosine Similarity algorithm to compute the angle between word vectors. The smaller the angle between vectors, the more similar they are. The CountVectorizer creates a matrix with similarity scores for each pair of movies. For each movie, the scores were sorted to find the 10 most similar movies, which were added as a column to the dataframe, so they would not need to be calculated at runtime.\n\n## Django Application\n![application screenshot](https://github.com/sethmjackson/MovieRecommender/blob/master/Output/Application%20Image.png)\n\nPython has many libraries for creating a web application. Django is the most popular, thus it was chosen for this project. The app starts with a textbox where the user types a movie title. The textfield has autocomplete to make finding the desired movie quick and easy. Users can also select a random movie to find recommendations by clicking the \"Surprise Me\" button. Once the desired movie is selected, the \"Get Selected Movies\" button will get the 6 most similar movies, download their posters, and clicking on a poster will take the user to that movies' TMDB Page. The similarity scores and IMDB scores for each recommended movie are also displayed.\n\n## TMDB\nThe Movie Database, also known as [TMDB](https://www.themoviedb.org/), is a database that contains detailed information on over 500,000 movies. The Movies dataframe has links to the movie posters in it, but the vast majority of them are outdated and no longer work. In order to find the poster links, the tmdbsimple library, which acts as a Python wrapper for the TMDB API was used. The ID of the movie is all that it takes to obtain that movie's updated information. The TMDB website has a simple structure to its URLs, therefore getting the link to each movie's page involves taking the base site link and adding the id of the movie, a dash, and the movie title.\n\n## Web Deployment\n[Heroku](https://www.heroku.com/) is a service that allows web applications from many languages to be deployed to a server for free. Heroku supports Django, and has Github integration, consequently each push onto the associated Github project will recompile the app and deploy it within minutes. There are some extra steps that need to be taken so that the Heroku server can install and run the libraries used in the application, but once it worked, it performed really well. A link to the Heroku server hosting the application can be found [here](https://django-movie-recommender.herokuapp.com/).\n\n## Conclusion\nIt is difficult to determine the effectiveness of a recommendation system, especially without data from active users. To find some measure to evaluate, I plotted some data related to the similarity scores.\n\n![Score Range](https://github.com/sethmjackson/MovieRecommender/blob/master/Output/Histograms/ScoreRange.png)\n![Score Averages](https://github.com/sethmjackson/MovieRecommender/blob/master/Output/Histograms/ScoreAverages.png)\nWhat these plots reveal is that the average of the similarity scores for each movie's recommendations is normally distributed, with most movies having scores between 0.3 and 0.5. The Ranges between the highest and lowest similarity scores is not normally distributed. Most values are between 0.1 and 0.2, but there are a surprising number of movies with a score range between 0.4 and 0.6. This seems to indicate that there are some movies that have recommendations that don't fit very well. There are 20 recommendations stored per movie, so perhaps after some point, the recommended movies are a poor fit.\n\n## Future Work\nIf given more time, I would include Collaborative Filtering in my recommender, which would include obtaining reviews and other user generated data by using the millions of reviews in the movies dataset to find similarities between users that make it more effective at recommending movies.\n\nAnother option is to avoid using The Movies Dataset altogether and having my app use the TMDB database itself as the source of its data. This would allow the recommender to increase the number of movies by an order of magnitude.\n\nFinally, I would add additional features to the application to allow the user to restrict the types of movies that can be randomly selected by rating, year, foreign/domestic, etc. \n" }, { "alpha_fraction": 0.6681244969367981, "alphanum_fraction": 0.6717262864112854, "avg_line_length": 32.79130554199219, "blob_id": "7ee8072f16ce9aa81e824e8ba67bc01c1e3bece9", "content_id": "0eebb8e05d7a99886ac00b704fde94e1ae93c80c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3887, "license_type": "no_license", "max_line_length": 162, "num_lines": 115, "path": "/Modules/ContentRecommender.py", "repo_name": "irohdw/MovieRecommender", "src_encoding": "UTF-8", "text": "from sklearn.feature_extraction.text import TfidfVectorizer\nfrom sklearn.metrics.pairwise import linear_kernel\nimport pandas as pd\nfrom ast import literal_eval\nimport numpy as np\nfrom sklearn.feature_extraction.text import CountVectorizer\nfrom sklearn.metrics.pairwise import cosine_similarity\nimport pickle\nimport Modules.Util as ut\n\ndef getIndexFromTitle(df: pd.DataFrame, title):\n if isinstance(title, str):\n titles = df[df['title'] == title]\n titles = pd.Series(titles.index, index=titles['title'])\n index = titles[0]\n else:\n index = title\n return index\n\n\ndef plotRecommender(df: pd.DataFrame, title: str):\n tfidf = TfidfVectorizer(stop_words='english')\n \n #Replace NaN with an empty string\n df['overview'] = df['overview'].fillna('')\n \n #Construct the required TF-IDF matrix by fitting and transforming the data\n vector_matrix = tfidf.fit_transform(df['overview'])\n\n # Compute the cosine similarity matrix\n cosine_sim = linear_kernel(vector_matrix, vector_matrix)\n return getRecommendationsByTitle(df, title, cosine_sim)\n\n\ndef getRecommendationsByTitle(df: pd.DataFrame, title, cosine_sim, recommendationsNum=20, index=-1):\n\n if index < 0:\n index = getIndexFromTitle(df, title)\n print('Getting recommendations for index ' + str(index)+': ' + title)\n similarityScores = list(enumerate(cosine_sim[index]))\n\n recommendationsNum += 1\n similarityScores = sorted(similarityScores, key=lambda x: x[1], reverse=True)\n similarityScores = similarityScores[1:recommendationsNum]\n movieIndexes = [i[0] for i in similarityScores]\n scores = [i[1] for i in similarityScores]\n\n\n #result = df['title'].iloc[movieIndexes]\n #result = result.tolist()\n result = dict(zip(movieIndexes, scores))\n return result\n\ndef extractFeatures(df: pd.DataFrame):\n print('in extractFeatures')\n features = ['cast', 'crew', 'keywords', 'genres']\n for f in features:\n df[f] = df[f].apply(literal_eval)\n\ndef getDirector(crewList):\n for member in crewList:\n if member['job'] == 'Director':\n return member['name']\n return np.nan\n\ndef get_list(metadataList):\n if isinstance(metadataList, list):\n names = [i['name'] for i in metadataList]\n #Check if more than 3 elements exist. If yes, return only first three. If no, return entire list.\n if len(names) > 3:\n names = names[:3]\n return names\n else:\n return metadataList\n\ndef removeSpaces(metadataList):\n if isinstance(metadataList, list):\n return [str.lower(i.replace(\" \", \"\")) for i in metadataList]\n else:\n #Check if director exists. If not, return empty string\n if isinstance(metadataList, str):\n return str.lower(metadataList.replace(\" \", \"\"))\n else:\n return ''\n\ndef stirSoup(movieDataRow):\n return ' '.join(movieDataRow['keywords']) + ' ' + ' '.join(movieDataRow['cast']) + ' ' + movieDataRow['director'] + ' ' + ' '.join(movieDataRow['genres'])\n\ndef fullContentRecommender(df: pd.DataFrame):\n print('in fullContentRecommender')\n extractFeatures(df)\n df['director'] = df['crew'].apply(getDirector)\n features = ['cast', 'keywords', 'genres']\n\n for feature in features:\n df[feature] = df[feature].apply(get_list)\n\n features.append('director')\n for feature in features:\n df[feature] = df[feature].apply(removeSpaces)\n\n df['soup'] = df.apply(stirSoup, axis=1)\n\n\n print('before vectorizer')\n count = CountVectorizer(stop_words='english')\n count_matrix = count.fit_transform(df['soup'])\n contentCosineSim = cosine_similarity(count_matrix, count_matrix)\n ut.pickleObject(contentCosineSim, 'Output/Cosine_Sim.pkl')\n\n features.append('soup')\n df.drop(columns=features, inplace=True)\n\n print('after vectorizer')\n return contentCosineSim\n\n" }, { "alpha_fraction": 0.6219081282615662, "alphanum_fraction": 0.6323009729385376, "avg_line_length": 31.952054977416992, "blob_id": "51364562cbd48e9a0145a250cac5a3adb8387e2e", "content_id": "1bc30e2d6767012b7bab0d9c910763a9c56b5c73", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4811, "license_type": "no_license", "max_line_length": 159, "num_lines": 146, "path": "/MainApp/views.py", "repo_name": "irohdw/MovieRecommender", "src_encoding": "UTF-8", "text": "from django.http import HttpResponse\nfrom django.shortcuts import render\nimport pandas as pd\nfrom django.template import loader\nimport Modules.Util as ut\nfrom Modules.DfManip import \nfrom Modules.Tmdb import getMovieInfo\nimport random\n\n\ngenerateDF = False\ngenerateCosineSims = False\nif generateDF:\n movieData = processMovieData(generateCosineSims)\nelse:\n movieData = readDF()\n\n\n#print(movieData['adult'].value_counts())\nmovieData = movieData[movieData['adult'] == False]\n#print(movieData['adult'].value_counts())\nmovie_list = processTitles(movieData)\nmoviestoDisplay = 6\n\n#plotSimilarityScores(movieData)\n\ndef home_view(request):\n template = loader.get_template('index.html')\n chosenMovie = ''\n if request.method == 'POST':\n if 'selectMovie' in request.POST:\n chosenMovie = request.POST.get('selectedMovie', None)\n else:\n chosenMovie = random.choice(movie_list)\n\n print('chosenMovie: ' + chosenMovie)\n\n if chosenMovie in movie_list:\n context = {\n 'movie_list': movie_list,\n 'recommended_moviesHTML': displayMovies(movieData, chosenMovie),\n 'movieValue': chosenMovie,\n }\n else:\n context = {\n 'movie_list': movie_list,\n 'recommended_moviesHTML': '<span class=\"infoDiv\" style=\"background-color: rgba(255, 0, 0, 0.6)\"> The selected movie could not be found.</div>',\n 'movieValue': chosenMovie,\n }\n\n return HttpResponse(template.render(context, request))\n\n else:\n context = {\n 'movie_list': movie_list,\n 'recommended_moviesHTML': '',\n 'movieValue': \"\",\n }\n return HttpResponse(template.render(context, request))\n\ndef stringToList(s: str):\n result = s[1:-1]\n result = result.split(',')\n result = [int(s) for s in result]\n return result\n\ndef stringToDict(s: str):\n result = s[1:-1]\n result = result.split(',')\n\n result = {int(s.split(':')[0]): float(s.split(':')[1]) for s in result}\n return result\n\ndef displayMovies(df, selectedMovie: str):\n selectedMovie = selectedMovie[0:-7]\n movieList = df[df['title'] == selectedMovie]['similarMovies']\n movieList = movieList.iloc[0]\n movieList = stringToDict(movieList)\n\n movies = df.iloc[list(movieList.keys())]\n movies = movies.sort_values(by='imdb_score', ascending=False)\n totalMovieHTML = \"\"\n movieCount = 1\n similarityScores = list(movieList.values())\n imdbScores = list(movies['imdb_score'])\n\n for index, row in movies.iterrows():\n if movieCount > moviestoDisplay:\n break\n\n currentMovieHTML = processMovie(df, row, movieCount)\n\n if currentMovieHTML is None:\n continue\n totalMovieHTML += currentMovieHTML\n if movieCount % 3 == 0 and movieCount > 0:\n totalMovieHTML+= assembleScoreHTML(similarityScores, imdbScores, movieCount-3)\n movieCount += 1\n return totalMovieHTML\n\ndef processMovie(df: pd.DataFrame, movie, movieCount):\n movieHTML = ''\n posterLink, homepage = getMovieInfo(movie)\n if posterLink is None:\n return None\n\n baseUrl = 'https://image.tmdb.org/t/p/'\n #sizeUrl = 'original'\n #sizeUrl = 'w500'\n sizeUrl = 'w780'\n\n fullUrl = baseUrl + sizeUrl + posterLink\n\n homepageExists = homepage != None and homepage != \"\"\n if homepageExists:\n movieHTML+= '<a href=\"' + homepage + '\">'\n movieHTML += '<img src= \"' + fullUrl + '\" width=\"33%\" height=\"500px\" alt=\"' + movie['title'] + ' Poster Here\">'\n\n if homepageExists:\n movieHTML += '</a>'\n\n print(movie['title'] + ' url: ' + fullUrl)\n if movieCount % 3 == 0:\n movieHTML+='<br>'\n\n\n return movieHTML\n\ndef assembleScoreHTML(similarityScores, imdbScores, index: int):\n scoreHTML = []\n scoreHTML.append('<div class=row> <div class=column>')\n scoreHTML.append('<span> Similarity Score: ' + str(int(similarityScores[index]100)) + '%</span>')\n scoreHTML.append('<br><span>IMDB Score: ' + str(ut.roundTraditional(imdbScores[index], 2)) + '</span></div>')\n index+=1\n\n scoreHTML.append('<div class=row> <div class=column>')\n scoreHTML.append('<span> Similarity Score: ' + str(int(similarityScores[index]100)) + '%</span>')\n scoreHTML.append('<br><span>IMDB Score: ' + str(ut.roundTraditional(imdbScores[index], 2)) + '</span></div>')\n index+=1\n scoreHTML.append('<div class=row> <div class=column>')\n scoreHTML.append('<span> Similarity Score: ' + str(int(similarityScores[index]*100)) + '%</span>')\n scoreHTML.append('<br><span>IMDB Score: ' + str(ut.roundTraditional(imdbScores[index], 2)) + '</span></div>')\n scoreHTML.append('</div>')\n\n scoreHTMLstring = ''.join(scoreHTML)\n return scoreHTMLstring\n" } ]	8
Sambhav307/Single-And-multi-level-cache-implementation	https://github.com/Sambhav307/Single-And-multi-level-cache-implementation	637c54864062c819a774c94f5b2bc5b222c11b2a	ca94bdb2c216a7347f05653960ef1e2cb8fc2740	ab342b822d3b9e11c4176b09ddf026490c82e2b2	refs/heads/main	2023-01-13T16:08:20.414141	2020-11-24T20:39:36	2020-11-24T20:39:36	315,744,259	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.8404558300971985, "alphanum_fraction": 0.8404558300971985, "avg_line_length": 174.5, "blob_id": "dc97e041ae1d5c56b030f5ee58abdf311bb8ee58", "content_id": "9805c7916907ca7a3c35c7a4b38f6f51c7c0eec8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 351, "license_type": "no_license", "max_line_length": 304, "num_lines": 2, "path": "/README.md", "repo_name": "Sambhav307/Single-And-multi-level-cache-implementation", "src_encoding": "UTF-8", "text": "# Single-And-multi-level-cache-implementation\nThis repository includes two python file implementing single level and multi level cache respectively. Both of these implementation includes Direct, Associative and Set associative mapping respectively for easy understanding. Please go through PDF for input format, constraints, error, and output format.\n" }, { "alpha_fraction": 0.48776084184646606, "alphanum_fraction": 0.5323752164840698, "avg_line_length": 32.69733428955078, "blob_id": "63458cc5f529142ac5c5b6b6968da75076b4a6cd", "content_id": "c6f8afb84c1463a17ac2c4626e1787b7ccd6b64d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 26023, "license_type": "no_license", "max_line_length": 109, "num_lines": 750, "path": "/cache implementation/multi level cache.py", "repo_name": "Sambhav307/Single-And-multi-level-cache-implementation", "src_encoding": "UTF-8", "text": "import math\r\nimport queue\r\nimport sys\r\n\r\nfrom tabulate import tabulate\r\nglobal s\r\nglobal c\r\nglobal b\r\nglobal n\r\nglobal tag1\r\nglobal tag2\r\nglobal linenumbit1\r\nglobal linenumbit2\r\nglobal bool\r\nglobal cacheDirect1\r\nglobal cacheDirect2\r\nglobal calc1\r\nglobal calc2\r\nglobal cacheAssociative1\r\nglobal cacheAssociative2\r\nglobal NWayAssociative1\r\nglobal NWayAssociative2\r\nglobal quea1\r\nglobal quea2\r\nglobal Nque1\r\nglobal Nque2\r\nglobal tagS1\r\nglobal tagS2\r\n\r\nprint(\"S will be equal to no. of line * No. of block * Size of 1 block(32 bit in this case)\")\r\nwhile True:\r\n\r\n\r\n try:\r\n c = int(input(\"No. of cache lines:\"))\r\n if c > 0:\r\n break\r\n\r\n else:\r\n print(\"Please enter positive integer \")\r\n except ValueError:\r\n print(\"Please enter integer \")\r\nwhile True:\r\n try:\r\n b = int(input(\"Block size :\"))\r\n if b > 0:\r\n break\r\n else:\r\n print(\"Please enter positive integer\")\r\n except ValueError:\r\n print(\"Please enter integer \")\r\nwhile True:\r\n try:\r\n n = int(input(\"N for n-way set associative memory\"))\r\n if n > 0:\r\n break\r\n else:\r\n print(\"Please enter positive integer \")\r\n except ValueError:\r\n print(\"Please enter integer \")\r\n\r\n\r\ns = c * b\r\ncacheDirect1 = [ [None] * (b+3) for i in range(int(c/2)) ]\r\ncacheDirect2 = [ [None] * (b+3) for i in range(c) ]\r\n\r\nquea1= queue.Queue(maxsize=int(c/2))\r\nquea2= queue.Queue(maxsize=c)\r\n\r\ncacheAssociative1 = [ [None] * (b+3) for i in range(int(c/2)) ]\r\ncacheAssociative2 = [ [None] * (b+3) for i in range(c) ]\r\n\r\ncalc1=0\r\ncalc2=0\r\n\r\nNWayAssociative1 = [ [None] * (b+3) for i in range(int(c/2)) ]\r\nNWayAssociative2 = [ [None] * (b+3) for i in range(c) ]\r\n\r\nlinenumbit1 =int(math.log(c/2,2))\r\nlinenumbit2 =linenumbit1 +1\r\nblockbit =int(math.log(b,2))\r\n\r\nnumberOfSet1= math.ceil(c/(2n))\r\nnumberOfSet2= math.ceil(c/n)\r\n\r\n\r\n\r\nif numberOfSet1==1:\r\n numberOfSetBit1=1\r\nelse:\r\n numberOfSetBit1= math.ceil((math.log(numberOfSet1,2)))\r\n\r\nif numberOfSet2==1:\r\n numberOfSetBit2=1\r\nelse:\r\n numberOfSetBit2= math.ceil((math.log(numberOfSet2,2)))\r\n\r\n\r\ntag1= 32- linenumbit1 - blockbit\r\ntag2= 32- linenumbit2 - blockbit\r\n\r\n\r\ntagS1= 32 - numberOfSetBit1 - blockbit\r\ntagS2= 32 - numberOfSetBit2 - blockbit\r\n\r\nNque1=[]\r\nfor i in range(0,numberOfSet1):\r\n Nque1.append([])\r\n\r\nNque2=[]\r\nfor i in range(0,numberOfSet2):\r\n Nque2.append([])\r\n\r\n\r\ndef check_bin(value):\r\n value=set(value)\r\n temp = {'0','1'}\r\n\r\n if temp == value or value =={'1'} or value =={'0'}:\r\n return True\r\n else:\r\n return False\r\ndef check():\r\n if math.modf( math.log(c,2))[0]!=0:\r\n print(\"Number of cache lines must be in power of 2\")\r\n return False\r\n if math.modf( math.log(b,2))[0]!=0:\r\n print(\"Block size must be in power of 2\")\r\n return False\r\n\r\n if n<1 and n>int(c/2):\r\n print(\"N must lie between 1 and Cl/2\")\r\n return False\r\n\r\n if c<2 or b <2:\r\n print(\"All value must be greater than or equal to 2\")\r\n return False\r\n\r\n if s/b==c:\r\n return True\r\n else:\r\n return False\r\nbool = check()\r\ndef checkinput(input):\r\n\r\n if check_bin(input):\r\n pass\r\n else:\r\n print(\"Address must be in Binary\")\r\n return False\r\n\r\n if len(input)!=32:\r\n\r\n print(\"Address must 32 bit,\")\r\n return False\r\n return True\r\ndef linenum1(num):\r\n num=num[tag1:tag1+linenumbit1]\r\n num = \"0b\" + num\r\n return int(num, 2)\r\ndef linenum2(num):\r\n num=num[tag2:tag2+linenumbit2]\r\n num = \"0b\" + num\r\n return int(num, 2)\r\ndef blocknum1(num):\r\n num=num[tag1+linenumbit1:]\r\n num = \"0b\" + num\r\n return int(num, 2)\r\ndef blocknum2(num):\r\n num=num[tag2+linenumbit2:]\r\n num = \"0b\" + num\r\n return int(num, 2)\r\ndef directMappingR(address):\r\n\r\n linenumber1 = linenum1(address)\r\n linenumber2 = linenum2(address)\r\n\r\n if cacheDirect1[linenumber1][b+2]==None:\r\n if cacheDirect2[linenumber2][b+2]==None:\r\n\r\n cacheDirect1[linenumber1][b+2]=address\r\n cacheDirect1[linenumber1][1] = address[tag1:tag1+linenumbit1]\r\n for i in range(b):\r\n cacheDirect1[linenumber1][i+2] = None\r\n cacheDirect1[linenumber1][0] = address[:tag1]\r\n\r\n cacheDirect2[linenumber2][b + 2] = address\r\n for i in range(b):\r\n cacheDirect2[linenumber2][i+2] = None\r\n cacheDirect2[linenumber2][1] = address[tag2:tag2 + linenumbit2]\r\n cacheDirect2[linenumber2][0] = address[:tag2]\r\n\r\n print('\"Address not found at level 1 and 2 both\" ')\r\n\r\n elif cacheDirect2[linenumber2][b+2]==address:\r\n cacheDirect1[linenumber1][b + 2] = address\r\n for i in range(b):\r\n cacheDirect1[linenumber1][i+2] = None\r\n cacheDirect1[linenumber1][1] = address[tag1:tag1 + linenumbit1]\r\n cacheDirect1[linenumber1][0] = address[:tag1]\r\n\r\n\r\n else:\r\n if cacheDirect1[linenumber1][b+2]==address:\r\n for i in range(b):\r\n cacheDirect2[linenumber2][i + 2] = None\r\n for i in range(b):\r\n cacheDirect1[linenumber1][i + 2] = None\r\n print(\"Hit at level 1\" )\r\n else:\r\n if cacheDirect2[linenumber2][b + 2] == address:\r\n print(\"Hit at level 2\")\r\n cacheDirect1[linenumber1][b + 2] = address\r\n for i in range(b):\r\n cacheDirect1[linenumber1][i + 2] = None\r\n\r\n cacheDirect1[linenumber1][1] = address[tag1:tag1 + linenumbit1]\r\n cacheDirect1[linenumber1][0] = address[:tag1]\r\n\r\n\r\n else:\r\n print(\"Current data is replaced by data at \" + address)\r\n\r\n cacheDirect1[linenumber1][b+2] = address\r\n for i in range(b):\r\n cacheDirect1[linenumber1][i + 2] = None\r\n\r\n cacheDirect1[linenumber1][1] = address[tag1:tag1 + linenumbit1]\r\n cacheDirect1[linenumber1][0] = address[:tag1]\r\n cacheDirect2[linenumber2][b + 2] = address\r\n for i in range(b):\r\n cacheDirect2[linenumber2][i + 2] = None\r\n\r\n cacheDirect2[linenumber2][1] = address[tag2:tag2 + linenumbit2]\r\n cacheDirect2[linenumber2][0] = address[:tag2]\r\ndef search (arr,input):\r\n for i in range(len(arr)):\r\n\r\n if arr[i][b+2]==input:\r\n\r\n return i\r\n return -1\r\ndef associativeMappingR(address):\r\n global quea1\r\n global quea2\r\n global calc1\r\n global calc2\r\n if calc1==0:\r\n\r\n print('\"Address not found \" ')\r\n cacheAssociative1[calc1][b+2]= address\r\n for i in range(b):\r\n cacheAssociative1[calc1][i + 2] = None\r\n\r\n cacheAssociative1[calc1][1] = address[tag1:tag1 + linenumbit1]\r\n cacheAssociative1[calc1][0] = address[:tag1]\r\n quea1.put(calc1)\r\n calc1=calc1+1\r\n\r\n\r\n cacheAssociative2[calc2][b + 2] = address\r\n for i in range(b):\r\n cacheAssociative2[calc2][i + 2] = None\r\n cacheAssociative2[calc2][1] = address[tag2:tag2 + linenumbit2]\r\n cacheAssociative2[calc2][0] = address[:tag2]\r\n quea2.put(calc2)\r\n calc2 = calc2 + 1\r\n\r\n elif calc2<int(c):\r\n if calc1<int(c/2):\r\n\r\n if search(cacheAssociative1,address) > -1:\r\n for i in range(b):\r\n cacheAssociative1[search(cacheAssociative1,address)][i + 2] = None\r\n for i in range(b):\r\n cacheAssociative2[search(cacheAssociative2, address)][i + 2] = None\r\n\r\n print(\"Hit at cache 1\")\r\n\r\n else:\r\n if search(cacheAssociative2, address) > -1:\r\n print(\"Hit at cache 2\")\r\n for i in range(b):\r\n cacheAssociative2[search(cacheAssociative2, address)][i + 2] = None\r\n\r\n cacheAssociative1[calc1][b + 2] = address\r\n for i in range(b):\r\n cacheAssociative1[calc1][i + 2] = None\r\n\r\n cacheAssociative1[calc1][1] = address[tag1:tag1 + linenumbit1]\r\n cacheAssociative1[calc1][0] = address[:tag1]\r\n quea1.put(calc1)\r\n calc = calc1 + 1\r\n else:\r\n\r\n print('\"Address not found \"' )\r\n cacheAssociative1[calc1][b+2]=address\r\n for i in range(b):\r\n cacheAssociative1[calc1][i + 2] = None\r\n cacheAssociative1[calc1][1] = address[tag1:tag1 + linenumbit1]\r\n cacheAssociative1[calc1][0] = address[:tag1]\r\n quea1.put(calc1)\r\n calc1 = calc1+1\r\n\r\n cacheAssociative2[calc2][b + 2] = address\r\n for i in range(b):\r\n cacheAssociative2[calc2][i + 2] = None\r\n cacheAssociative2[calc2][1] = address[tag2:tag2 + linenumbit2]\r\n cacheAssociative2[calc2][0] = address[:tag2]\r\n quea2.put(calc2)\r\n calc2 = calc2 + 1\r\n else:\r\n if search(cacheAssociative1,address) > -1:\r\n print(\"Hit at cache 1\")\r\n else:\r\n if search(cacheAssociative2, address) > -1:\r\n print(\"Hit at cache 2\")\r\n temp = quea1.get()\r\n cacheAssociative1[temp][b + 2] = address\r\n\r\n for i in range(b):\r\n cacheAssociative1[temp][i + 2] = None\r\n cacheAssociative1[temp][1] = address[tag1:tag1 + linenumbit1]\r\n cacheAssociative1[temp][0] = address[:tag1]\r\n quea1.put(temp)\r\n else:\r\n temp1 = quea1.get()\r\n cacheAssociative1[temp1][b + 2] = address\r\n for i in range(b):\r\n cacheAssociative1[temp1][i + 2] = None\r\n cacheAssociative1[temp1][1] = address[tag1:tag1 + linenumbit1]\r\n cacheAssociative1[temp1][0] = address[:tag1]\r\n print(\"Current data is replaced by data at \" + address)\r\n quea1.put(temp1)\r\n\r\n cacheAssociative2[calc2][b + 2] = address\r\n for i in range(b):\r\n cacheAssociative2[calc2][i + 2] = None\r\n cacheAssociative2[calc2][1] = address[tag2:tag2 + linenumbit2]\r\n cacheAssociative2[calc2][0] = address[:tag2]\r\n quea2.put(calc2)\r\n calc2 = calc2 + 1\r\n\r\n\r\n\r\n\r\n\r\n\r\n else:\r\n if search(cacheAssociative1,address) >-1:\r\n print(\"Hit at level 1\" )\r\n else:\r\n if search(cacheAssociative2,address) >-1:\r\n print(\"Hit at level 2\")\r\n temp = quea1.get()\r\n cacheAssociative1[temp][b + 2] = address\r\n for i in range(b):\r\n cacheAssociative1[temp][i + 2] = None\r\n cacheAssociative1[temp][1] = address[tag1:tag1 + linenumbit1]\r\n cacheAssociative1[temp][0] = address[:tag1]\r\n quea1.put(temp)\r\n else:\r\n\r\n temp1 = quea1.get()\r\n cacheAssociative1[temp1][b+2] = address\r\n for i in range(b):\r\n cacheAssociative1[temp1][i + 2] = None\r\n cacheAssociative1[temp1][1] = address[tag1:tag1 + linenumbit1]\r\n cacheAssociative1[temp1][0] = address[:tag1]\r\n print(\"Current data is replaced by data at \" + address )\r\n quea1.put(temp1)\r\n\r\n temp2 = quea2.get()\r\n for i in range(b):\r\n cacheAssociative2[temp2][i + 2] = None\r\n cacheAssociative2[temp2][b + 2] = address\r\n cacheAssociative2[temp2][1] = address[tag2:tag2 + linenumbit2]\r\n cacheAssociative2[temp2][0] = address[:tag2]\r\n print(\"Current data is replaced by data at \" + address)\r\n quea2.put(temp2)\r\ndef searchNway1(address,setnum):\r\n if n>c/2:\r\n for i in range(0, setnum(n+1)):\r\n if NWayAssociative1[i][b + 2] == address:\r\n return i\r\n\r\n\r\n else:\r\n for i in range(nsetnum, setnumn+n):\r\n if NWayAssociative1[i][b+2]==address:\r\n\r\n return i\r\n return -1\r\ndef searchNway2(address,setnum):\r\n\r\n for i in range(setnumn,(setnum+1)n):\r\n\r\n if NWayAssociative2[i][b+2]==address:\r\n return i\r\n return -1\r\ndef getSetNumber1(string):\r\n if c==n:\r\n return 0\r\n string = string[tagS1:tagS1+numberOfSetBit1]\r\n\r\n string= \"0b\"+string\r\n return int(string,2)\r\ndef getSetNumber2(string):\r\n if n==c:\r\n return 0\r\n string = string[tagS2:tagS2+numberOfSetBit2]\r\n string= \"0b\"+string\r\n return int(string,2)\r\ndef NWaySetAssociativeMappingR(address):\r\n\r\n setnum1 = getSetNumber1(address)\r\n setnum2 = getSetNumber2(address)\r\n\r\n\r\n lineNumber1 =searchNway1(address,setnum1)\r\n lineNumber2 =searchNway2(address,setnum2)\r\n\r\n\r\n if lineNumber1==-1:\r\n\r\n if lineNumber2==-1:\r\n if n==c:\r\n buggy=n/2\r\n\r\n else:\r\n buggy=n\r\n if len(Nque1[setnum1])==buggy:\r\n NWayAssociative1[Nque1[setnum1][0]][b+2] = address\r\n for i in range(b):\r\n NWayAssociative1[Nque1[setnum1][0]][i + 2] = None\r\n NWayAssociative1[Nque1[setnum1][0]][1] = address[tagS1:tagS1 + numberOfSetBit1]\r\n NWayAssociative1[Nque1[setnum1][0]][0] = address[:tagS1]\r\n if n== c:\r\n NWayAssociative1[Nque1[setnum1][0]][1] = \"0\"\r\n\r\n Nque1[setnum1].append(Nque1[setnum1][0])\r\n print(\"Current data is replaced by data at \" + address + \" (Cache number 1 )\")\r\n del Nque1[setnum1][0]\r\n else:\r\n NWayAssociative1[setnum1n + len(Nque1[setnum1])][b + 2] = address\r\n for i in range(b):\r\n NWayAssociative1[setnum1n + len(Nque1[setnum1])][i + 2] = None\r\n NWayAssociative1[setnum1n + len(Nque1[setnum1])][1] = address[tagS1:tagS1 + numberOfSetBit1]\r\n NWayAssociative1[setnum1n + len(Nque1[setnum1])][0] = address[:tagS1]\r\n if n == c:\r\n NWayAssociative1[setnum1n + len(Nque1[setnum1])][1] = \"0\"\r\n\r\n Nque1[setnum1].append(setnum1n + len(Nque1[setnum1]))\r\n print('\"Address not found \"'+ \" (Cache number 1 )\")\r\n\r\n if len(Nque2[setnum2])==n:\r\n NWayAssociative2[Nque2[setnum2][0]][b+2] = address\r\n for i in range(b):\r\n NWayAssociative2[Nque2[setnum2][0]][i + 2] = None\r\n NWayAssociative2[Nque2[setnum2][0]][1] = address[tagS2:tagS2 + numberOfSetBit2]\r\n NWayAssociative2[Nque2[setnum2][0]][0] = address[:tagS2]\r\n if n == c:\r\n NWayAssociative2[Nque2[setnum2][0]][1] = \"0\"\r\n Nque2[setnum2].append(Nque2[setnum2][0])\r\n print(\"Current data is replaced by data at \" + address + \" (Cache number 2 )\")\r\n del Nque2[setnum2][0]\r\n else:\r\n for i in range(b):\r\n NWayAssociative2[setnum2n + len(Nque2[setnum2])][i + 2] = None\r\n NWayAssociative2[setnum2n + len(Nque2[setnum2])][b + 2] = address\r\n NWayAssociative2[setnum2n + len(Nque2[setnum2])][1] = address[tagS2:tagS2 + numberOfSetBit2]\r\n NWayAssociative2[setnum2n + len(Nque2[setnum2])][0] = address[:tagS2]\r\n if n == c:\r\n NWayAssociative2[setnum2n + len(Nque2[setnum2])][1] = \"0\"\r\n Nque2[setnum2].append(setnum2n + len(Nque2[setnum2]))\r\n print('\"Address not found \"'+ \" (Cache number 2 )\")\r\n\r\n\r\n else:\r\n if len(Nque1[setnum1])==n:\r\n NWayAssociative1[Nque1[setnum1][0]][b+2] = address\r\n\r\n for i in range(b):\r\n NWayAssociative1[Nque1[setnum1][0]][i + 2] = None\r\n NWayAssociative1[Nque1[setnum1][0]][1] = address[tagS1:tagS1 + numberOfSetBit1]\r\n NWayAssociative1[Nque1[setnum1][0]][0] = address[:tagS1]\r\n if n == c:\r\n NWayAssociative1[Nque1[setnum1]][1] = \"0\"\r\n Nque1[setnum1].append(Nque1[setnum1][0])\r\n del Nque1[setnum1][0]\r\n else:\r\n for i in range(b):\r\n NWayAssociative1[setnum1n + len(Nque1[setnum1])][i + 2] = None\r\n NWayAssociative1[setnum1n + len(Nque1[setnum1])][b + 2] = address\r\n NWayAssociative1[setnum1n + len(Nque1[setnum1])][1] = address[tagS1:tagS1 + numberOfSetBit1]\r\n NWayAssociative1[setnum1n + len(Nque1[setnum1])][0] = address[:tagS1]\r\n if n == c:\r\n NWayAssociative1[setnum1n + len(Nque1[setnum1])][1] = \"0\"\r\n Nque1[setnum1].append(setnum1n + len(Nque1[setnum1]))\r\n\r\n print(\"Hit at cache 2\")\r\n\r\n\r\n else:\r\n for i in range(b):\r\n NWayAssociative1[Nque1[setnum1][0]][i + 2] = None\r\n\r\n for i in range(b):\r\n NWayAssociative2[Nque2[setnum2][0]][i + 2] = None\r\n\r\n print('Hit at cache 1')\r\ndef directMappingW(address,data):\r\n\r\n linenumber1 = linenum1(address)\r\n linenumber2 = linenum2(address)\r\n cacheDirect1[linenumber1][blocknum1(address) + 2] = data\r\n cacheDirect1[linenumber1][b + 2] = address\r\n cacheDirect1[linenumber1][1] = address[tag1:tag1 + linenumbit1]\r\n cacheDirect1[linenumber1][0] = address[:tag1]\r\n\r\n cacheDirect2[linenumber2][blocknum2(address) + 2] = data\r\n cacheDirect2[linenumber2][b + 2] = address\r\n cacheDirect2[linenumber2][1] = address[tag2:tag2 + linenumbit2]\r\n cacheDirect2[linenumber2][0] = address[:tag2]\r\ndef associativeMappingW(address,data):\r\n global calc1\r\n global calc2\r\n location1 = search(cacheAssociative1,address)\r\n location2 = search(cacheAssociative2,address)\r\n if location1>-1:\r\n cacheAssociative1[location1][blocknum1(address)+2]=data\r\n cacheAssociative2[location2][blocknum2(address)+2]=data\r\n else:\r\n if location2>-1:\r\n cacheAssociative2[location2][blocknum2(address)+2]=data\r\n temp = quea1.get()\r\n cacheAssociative1[temp][blocknum1(address) + 2] = data\r\n cacheAssociative1[temp][b + 2] = address\r\n cacheAssociative1[temp][1] = address[tag1:tag1 + linenumbit1]\r\n cacheAssociative1[temp][0] = address[:tag1]\r\n quea1.put(temp)\r\n else:\r\n if quea1.empty()==True:\r\n temp=0\r\n calc1=calc1+1\r\n calc2=calc2+1\r\n else:\r\n temp = quea1.get()\r\n tempadd=cacheAssociative1[temp][b+2]\r\n cacheAssociative1[temp][blocknum1(address) + 2] = data\r\n cacheAssociative1[temp][b + 2] = address\r\n cacheAssociative1[temp][1] = address[tag1:tag1 + linenumbit1]\r\n cacheAssociative1[temp][0] = address[:tag1]\r\n quea1.put(temp)\r\n p=search(cacheAssociative2,tempadd)\r\n cacheAssociative2[p][blocknum1(address) + 2] = data\r\n cacheAssociative2[p][b + 2] = address\r\n cacheAssociative2[p][1] = address[tag2:tag2 + linenumbit2]\r\n cacheAssociative2[p][0] = address[:tag2]\r\n quea2.put(\"hello\")\r\n while True:\r\n a=quea2.get()\r\n if a==\"hello\":\r\n break\r\n if a==p:\r\n pass\r\n else:\r\n quea2.put(a)\r\n quea2.put(temp)\r\ndef blocknumA1(num):\r\n num = num[tagS1+numberOfSetBit1:]\r\n num = \"0b\" + num\r\n return int(num, 2)\r\ndef blocknumA2(num):\r\n num = num[tagS2+numberOfSetBit2:]\r\n num = \"0b\" + num\r\n return int(num, 2)\r\ndef NWaySetAssociativeMappingW(address,data):\r\n setnum1 = getSetNumber1(address)\r\n setnum2 = getSetNumber2(address)\r\n\r\n location1 = searchNway1(address, setnum1)\r\n location2 = searchNway2(address, setnum2)\r\n\r\n if location1>-1:\r\n NWayAssociative1[location1][blocknumA1(address)+2]=data\r\n NWayAssociative2[location2][blocknumA2(address)+2]=data\r\n else:\r\n if location2>-1:\r\n NWayAssociative2[location2][blocknumA2(address)+2]=data\r\n NWayAssociative1[Nque1[setnum1][0]][b + 2] = address\r\n NWayAssociative1[Nque1[setnum1][0]][blocknumA1(address)] = data\r\n NWayAssociative1[Nque1[setnum1][0]][1] = address[tagS1:tagS1 + numberOfSetBit1]\r\n NWayAssociative1[Nque1[setnum1][0]][0] = address[:tagS1]\r\n if n == c:\r\n NWayAssociative1[Nque1[setnum1]][1] = \"0\"\r\n Nque1[setnum1].append(Nque1[setnum1][0])\r\n Nque1[setnum1].append(Nque1[setnum1][0])\r\n del Nque1[setnum1][0]\r\n else:\r\n if len(Nque1[setnum1])==0:\r\n Nque1[setnum1].append(setnum1n)\r\n Nque2[setnum2].append(setnum2n)\r\n\r\n NWayAssociative1[Nque1[setnum1][0]][b + 2] = address\r\n NWayAssociative1[Nque1[setnum1][0]][blocknumA1(address)+2] = data\r\n NWayAssociative1[Nque1[setnum1][0]][1] = address[tagS1:tagS1 + numberOfSetBit1]\r\n NWayAssociative1[Nque1[setnum1][0]][0] = address[:tagS1]\r\n if n == c:\r\n NWayAssociative1[Nque1[setnum1]][1] = \"0\"\r\n Nque1[setnum1].append(Nque1[setnum1][0])\r\n Nque1[setnum1].append(Nque1[setnum1][0])\r\n del Nque1[setnum1][0]\r\n\r\n\r\n NWayAssociative2[Nque2[setnum2][0]][b + 2] = address\r\n NWayAssociative2[Nque2[setnum2][0]][blocknumA2(address)+2] = data\r\n NWayAssociative2[Nque2[setnum2][0]][1] = address[tagS2:tagS2 + numberOfSetBit2]\r\n NWayAssociative2[Nque2[setnum2][0]][0] = address[:tagS2]\r\n if n == c:\r\n NWayAssociative2[Nque2[setnum2]][1] = \"0\"\r\n Nque2[setnum2].append(Nque2[setnum2][0])\r\n Nque2[setnum2].append(Nque2[setnum2][0])\r\n del Nque2[setnum2][0]\r\n if len(Nque1[setnum1])==0:\r\n Nque1[setnum1].append(0)\r\n Nque2[setnum2].append(0)\r\n\r\nwhile bool:\r\n print()\r\n print(\"Type 1 to read \")\r\n print(\"Type 2 to write \")\r\n print(\"Type 3 to print Caches\")\r\n print(\"Type 4 to exit \")\r\n print()\r\n\r\n try:\r\n command = input()\r\n if command == \"\":\r\n command=0\r\n else:\r\n command=int(command)\r\n if command>0 and command<5:\r\n pass\r\n else:\r\n print(\"Please enter integer betweem 1 and 4\")\r\n except ValueError and NameError:\r\n print(\"Please enter integer betweem 1 and 4\")\r\n\r\n\r\n\r\n if command==4:\r\n print(\"Thanks You\")\r\n break\r\n\r\n\r\n if command==3:\r\n header1= [\"Tag\", \"Line number\"]\r\n for i in range(b):\r\n header1.append(\"W\"+str(i))\r\n\r\n CD = cacheDirect1.copy()\r\n CD2 = cacheDirect2.copy()\r\n for i in range(int(c/2)):\r\n CD[i]=CD[i][:-1]\r\n for i in range(c):\r\n CD2[i]=CD2[i][:-1]\r\n print(\"Direct Mapping:\")\r\n print()\r\n print(\"Cache level 1\")\r\n print()\r\n print(tabulate(CD,headers=header1, tablefmt=\"grid\", showindex=\"always\" ))\r\n print()\r\n print(\"Cache level 2\")\r\n print()\r\n print(tabulate(CD2, headers=header1, tablefmt=\"grid\", showindex=\"always\"))\r\n print()\r\n\r\n\r\n\r\n\r\n print(\"Associative Mapping:\")\r\n CA = cacheAssociative1.copy()\r\n CA2 = cacheAssociative2.copy()\r\n for i in range(int(c/2)):\r\n CA[i] = CA[i][:-1]\r\n print()\r\n for i in range(c):\r\n CA2[i] = CA2[i][:-1]\r\n print(\"Cache level 1\")\r\n print()\r\n print(tabulate(CA, headers=header1, tablefmt=\"grid\", showindex=\"always\"))\r\n print()\r\n print(\"Cache level 2\")\r\n print()\r\n print(tabulate(CA2, headers=header1, tablefmt=\"grid\", showindex=\"always\"))\r\n print()\r\n\r\n\r\n print(\"N- Way set Associative Mapping:\")\r\n print()\r\n header2 = [\"Tag\", \" Set number\"]\r\n for i in range(b):\r\n header2.append(\"W\" + str(i))\r\n CN = NWayAssociative1.copy()\r\n for i in range(int(c/2)):\r\n CN[i] = CN[i][:-1]\r\n CN2 = NWayAssociative2.copy()\r\n for i in range(c):\r\n CN2[i] = CN2[i][:-1]\r\n print(\"Cache level 1\")\r\n print()\r\n print(tabulate(CN, headers=header2, tablefmt=\"grid\", showindex=\"always\"))\r\n print()\r\n print(\"Cache level 2\")\r\n print()\r\n print(tabulate(CN2, headers=header2, tablefmt=\"grid\", showindex=\"always\"))\r\n print()\r\n\r\n if command==1:\r\n address = input(\"Address:\")\r\n if checkinput(address)==False:\r\n pass\r\n else:\r\n print(\"Direct mapping\")\r\n directMappingR(address)\r\n print(\"Associative Mapping:\")\r\n associativeMappingR(address)\r\n print(\"N- Way set Associative Mapping:\")\r\n NWaySetAssociativeMappingR(address)\r\n\r\n if command==2:\r\n\r\n address = input(\"Address:\")\r\n if checkinput(address)==False:\r\n pass\r\n else:\r\n data = input(\"Data:\")\r\n if sys.getsizeof(data)>35:\r\n print(\"Data should be under word limit i.e. 32 bit\")\r\n else:\r\n directMappingW(address,data)\r\n\r\n associativeMappingW(address,data)\r\n NWaySetAssociativeMappingW(address,data)\r\n\r\n command=0\r\n\r\n\r\nsys.exit()\r\n" }, { "alpha_fraction": 0.5347375273704529, "alphanum_fraction": 0.549041211605072, "avg_line_length": 28.883495330810547, "blob_id": "3fb090ba301078201796680538f4148589020fe4", "content_id": "889a31036337423d216c1c0061b1b29d2762701e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 12724, "license_type": "no_license", "max_line_length": 98, "num_lines": 412, "path": "/cache implementation/Single level cache.py", "repo_name": "Sambhav307/Single-And-multi-level-cache-implementation", "src_encoding": "UTF-8", "text": "import math\r\nimport queue\r\nimport sys\r\nfrom tabulate import tabulate\r\nglobal s\r\nglobal c\r\nglobal b\r\nglobal tag\r\nglobal linenumbit\r\nglobal bool\r\nglobal cacheDirect\r\nglobal calc\r\nglobal cacheAssociative\r\nglobal n\r\nglobal NWayAssociative\r\nglobal quea\r\nglobal Nque\r\nglobal tagS\r\nprint(\"S will be equal to no. of line No. of block * Size of 1 block(32 bit in this case)\")\r\n\r\nwhile True:\r\n\r\n\r\n try:\r\n c = int(input(\"No. of cache lines:\"))\r\n if c > 0:\r\n break\r\n\r\n else:\r\n print(\"Please enter positive integer \")\r\n except ValueError:\r\n print(\"Please enter integer \")\r\nwhile True:\r\n try:\r\n b = int(input(\"Block size :\"))\r\n if b > 0:\r\n break\r\n else:\r\n print(\"Please enter positive integer\")\r\n except ValueError:\r\n print(\"Please enter integer \")\r\nwhile True:\r\n try:\r\n n = int(input(\"N for n-way set associative memory\"))\r\n if n > 0:\r\n break\r\n else:\r\n print(\"Please enter positive integer \")\r\n except ValueError:\r\n print(\"Please enter integer \")\r\n\r\n\r\ns = c * b\r\ncacheDirect = [ [None] * (b+3) for i in range(c) ]\r\nquea= queue.Queue(maxsize=c)\r\ncacheAssociative = [ [None] * (b+3) for i in range(c) ]\r\nNWayAssociative = [ [None] * (b+3) for i in range(c) ]\r\n\r\n\r\ncalc=0\r\nlinenumbit =int(math.log(c,2))\r\nblockbit =int(math.log(b,2))\r\nnumberOfSet= math.ceil(c/n)\r\nif numberOfSet==1:\r\n numberOfSetBit=1\r\nelse:\r\n numberOfSetBit= math.ceil((math.log(numberOfSet,2)))\r\ntag= 32- linenumbit- blockbit\r\ntagS= 32 - numberOfSetBit - blockbit\r\nNque=[]\r\nfor i in range(0,numberOfSet):\r\n Nque.append([])\r\n\r\ndef check_bin(value):\r\n value=set(value)\r\n temp = {'0','1'}\r\n\r\n if temp == value or value =={'1'} or value =={'0'}:\r\n return True\r\n else:\r\n return False\r\ndef check():\r\n\r\n if math.modf( math.log(c,2))[0]!=0:\r\n print(\" Number of cache lines must be in power of 2 \")\r\n return False\r\n if math.modf( math.log(b,2))[0]!=0:\r\n print(\" Block size must be in power of 2 \")\r\n return False\r\n\r\n if n<1 and n>c:\r\n print(\" N must lie between 1 and Cl \")\r\n return False\r\n\r\n if c<2 or b <2:\r\n print(\" CL and B must be greater than or equal to 2 \")\r\n return False\r\n\r\n if s/b==c:\r\n return True\r\n else:\r\n return False\r\nbool = check()\r\ndef checkinput(input):\r\n\r\n if check_bin(input):\r\n pass\r\n else:\r\n print(\" Address must be in Binary \")\r\n return False\r\n\r\n if len(input)!=32:\r\n\r\n print(\"Address must 32 bit \")\r\n return False\r\n return True\r\ndef linenum(num):\r\n num=num[tag:tag+linenumbit]\r\n num = \"0b\" + num\r\n return int(num, 2)\r\ndef blocknum(num):\r\n num=num[tag+linenumbit:]\r\n num = \"0b\" + num\r\n return int(num, 2)\r\ndef directMappingR(address):\r\n\r\n linenumber = linenum(address)\r\n\r\n if cacheDirect[linenumber][b+2]==None:\r\n cacheDirect[linenumber][b+2]=address\r\n for i in range(b):\r\n cacheDirect[linenumber][i + 2] = None\r\n cacheDirect[linenumber][1] = address[tag:tag+linenumbit]\r\n cacheDirect[linenumber][0] = address[:tag]\r\n print('\"Address not found \" ')\r\n else:\r\n if cacheDirect[linenumber][b+2]==address:\r\n for i in range(b):\r\n cacheDirect[linenumber][i + 2] = None\r\n print(\" Hit \" )\r\n else:\r\n for i in range(b):\r\n cacheDirect[linenumber][i + 2] = None\r\n cacheDirect[linenumber][b+2] = address\r\n cacheDirect[linenumber][1] = address[tag:tag + linenumbit]\r\n cacheDirect[linenumber][0] = address[:tag]\r\n print(\"Current data is replaced by data at \" + address)\r\ndef search (arr,input):\r\n for i in range(c):\r\n\r\n if arr[i][b+2]==input:\r\n\r\n return i\r\n return -1\r\ndef associativeMappingR(address):\r\n global quea\r\n global calc\r\n if calc==0:\r\n\r\n print('\"Address not found \" ')\r\n cacheAssociative[calc][b+2]= address\r\n for i in range(b):\r\n cacheAssociative[calc][i + 2] = None\r\n cacheAssociative[calc][1] = address[tag:tag + linenumbit]\r\n cacheAssociative[calc][0] = address[:tag]\r\n quea.put(calc)\r\n calc=calc+1\r\n elif calc<c:\r\n if search(cacheAssociative,address) > -1:\r\n for i in range(b):\r\n cacheAssociative[search(cacheAssociative,address)][i + 2] = None\r\n print(\"Hit\")\r\n\r\n else:\r\n print('\"Address not found \"' )\r\n for i in range(b):\r\n cacheAssociative[calc][i + 2] = None\r\n cacheAssociative[calc][b+2]=address\r\n cacheAssociative[calc][1] = address[tag:tag + linenumbit]\r\n cacheAssociative[calc][0] = address[:tag]\r\n quea.put(calc)\r\n calc=calc+1\r\n\r\n else:\r\n if search(cacheAssociative,address) >-1:\r\n for i in range(b):\r\n cacheAssociative[search(cacheAssociative,address)][i + 2] = None\r\n print(\"Hit\" )\r\n else:\r\n temp = quea.get()\r\n for i in range(b):\r\n cacheAssociative[temp][i + 2] = None\r\n cacheAssociative[temp][b+2] = address\r\n cacheAssociative[temp][1] = address[tag:tag + linenumbit]\r\n cacheAssociative[temp][0] = address[:tag]\r\n print(\"Current data is replaced by data at \" + address )\r\n quea.put(temp)\r\ndef associativeMappingW(addrress,data):\r\n global quea\r\n global calc\r\n if calc==0:\r\n cacheAssociative[calc][b+2]= address\r\n cacheAssociative[calc][1] = address[tag:tag + linenumbit]\r\n cacheAssociative[calc][0] = address[:tag]\r\n cacheAssociative[calc][blocknum(address)+2]=data\r\n quea.put(calc)\r\n calc=calc+1\r\n elif calc<c:\r\n tempsearch=search(cacheAssociative,address)\r\n if tempsearch>= 0:\r\n cacheAssociative[tempsearch][blocknum(address) + 2] = data\r\n\r\n else:\r\n cacheAssociative[calc][blocknum(address) + 2] = data\r\n cacheAssociative[calc][b+2]=address\r\n cacheAssociative[calc][1] = address[tag:tag + linenumbit]\r\n cacheAssociative[calc][0] = address[:tag]\r\n quea.put(calc)\r\n calc=calc+1\r\n\r\n else:\r\n tempsearch = search(cacheAssociative, address)\r\n if tempsearch >= 0:\r\n cacheAssociative[tempsearch][blocknum(address) + 2] = data\r\n\r\n else:\r\n temp = quea.get()\r\n cacheAssociative[temp][blocknum(address) + 2] = data\r\n cacheAssociative[temp][b+2] = address\r\n cacheAssociative[temp][1] = address[tag:tag + linenumbit]\r\n cacheAssociative[temp][0] = address[:tag]\r\n quea.put(temp)\r\ndef searchNway(address,setnum):\r\n\r\n for i in range(setnum,setnum+n):\r\n if NWayAssociative[i][b+2]==address:\r\n return i\r\n return -1\r\ndef getSetNumber(string):\r\n if n==c:\r\n return 0\r\n string = string[tagS:tagS+numberOfSetBit]\r\n\r\n string= \"0b\"+string\r\n return int(string,2)\r\ndef NWaySetAssociativeMappingR(address):\r\n\r\n\r\n setnum = getSetNumber(address)\r\n\r\n\r\n lineNumber =searchNway(address,setnum)\r\n if lineNumber==-1:\r\n\r\n if len(Nque[setnum])==n:\r\n NWayAssociative[Nque[setnum][0]][b+2] = address\r\n for i in range(b):\r\n NWayAssociative[Nque[setnum][0]][i + 2] = None\r\n NWayAssociative[Nque[setnum][0]][1] = address[tagS:tagS + numberOfSetBit]\r\n NWayAssociative[Nque[setnum][0]][0] = address[:tagS]\r\n if n == c:\r\n NWayAssociative[Nque[setnum][0]][1] = \"0\"\r\n Nque[setnum].append(Nque[setnum][0])\r\n print(\"Current data is replaced by data at \" + address)\r\n del Nque[setnum][0]\r\n else:\r\n for i in range(b):\r\n NWayAssociative[setnumn + len(Nque[setnum])][i + 2] = None\r\n NWayAssociative[setnumn + len(Nque[setnum])][b + 2] = address\r\n NWayAssociative[setnumn + len(Nque[setnum])][1] = address[tagS:tagS + numberOfSetBit]\r\n NWayAssociative[setnumn + len(Nque[setnum])][0] = address[:tagS]\r\n if n==c:\r\n NWayAssociative[setnumn + len(Nque[setnum])][1] = \"0\"\r\n Nque[setnum].append(setnumn + len(Nque[setnum]))\r\n print('\"Address not found \" ')\r\n\r\n\r\n else:\r\n for i in range(b):\r\n NWayAssociative[Nque[setnum][0]][i + 2] = None\r\n\r\n print('Hit')\r\ndef blocknumA(num):\r\n num = num[tagS+numberOfSetBit:]\r\n num = \"0b\" + num\r\n return int(num, 2)\r\ndef NWaySetAssociativeMappingW(address,data):\r\n\r\n\r\n setnum = getSetNumber(address)\r\n\r\n lineNumber =searchNway(address,setnum)\r\n if lineNumber==-1:\r\n if len(Nque[setnum])==n:\r\n\r\n NWayAssociative[Nque[setnum][0]][b+2] = address\r\n NWayAssociative[Nque[setnum][0]][blocknumA(address)+2] = data\r\n NWayAssociative[Nque[setnum][0]][1] = address[tagS:tagS + numberOfSetBit]\r\n NWayAssociative[Nque[setnum][0]][0] = address[:tagS]\r\n if n == c:\r\n NWayAssociative[Nque[setnum][0]][1] = \"0\"\r\n Nque[setnum].append(Nque[setnum][0])\r\n del Nque[setnum][0]\r\n\r\n\r\n else:\r\n\r\n NWayAssociative[setnumn + len(Nque[setnum])][blocknumA(address) + 2] = data\r\n NWayAssociative[setnumn + len(Nque[setnum])][b + 2] = address\r\n NWayAssociative[setnumn+ len(Nque[setnum])][1] = address[tagS:tagS + numberOfSetBit]\r\n NWayAssociative[setnumn + len(Nque[setnum])][0] = address[:tagS]\r\n if n==c:\r\n NWayAssociative[setnum*n + len(Nque[setnum])][1] = \"0\"\r\n Nque[setnum].append(setnum + len(Nque[setnum]))\r\n print('\"Address not found \" ')\r\n\r\n\r\n\r\n\r\n else:\r\n NWayAssociative[lineNumber][b + 2] = address\r\n NWayAssociative[lineNumber][blocknumA(address) + 2] = data\r\n NWayAssociative[lineNumber][1] = address[tagS:tagS + numberOfSetBit]\r\n NWayAssociative[lineNumber][0] = address[:tagS]\r\n print('Hit')\r\n if n==c:\r\n NWayAssociative[lineNumber][1] = \"0\"\r\n\r\nwhile bool:\r\n print()\r\n print(\"Type 1 to read \")\r\n print(\"Type 2 to write \")\r\n print(\"Type 3 to print Caches\")\r\n print(\"Type 4 to exit \")\r\n print()\r\n\r\n try:\r\n command = input()\r\n if command == \"\":\r\n command=0\r\n else:\r\n command=int(command)\r\n if command>0 and command<5:\r\n pass\r\n else:\r\n print(\" Please enter integer between 1 and 4 \")\r\n except ValueError and NameError:\r\n print(\"Please enter integer between 1 and 4\")\r\n\r\n if command==4:\r\n print(\"Thanks You\")\r\n break\r\n if command==3:\r\n\r\n header1= [\"Tag\", \"Line number\"]\r\n for i in range(b):\r\n header1.append(\"W\"+str(i))\r\n CD = cacheDirect.copy()\r\n for i in range(c):\r\n CD[i]=CD[i][:-1]\r\n print(\"Direct Mapping:\")\r\n\r\n print(tabulate(CD,headers=header1, tablefmt=\"grid\", showindex=\"always\" ))\r\n print()\r\n print(\"Associative Mapping:\")\r\n CA = cacheAssociative.copy()\r\n for i in range(c):\r\n CA[i] = CA[i][:-1]\r\n\r\n print(tabulate(CA, headers=header1, tablefmt=\"grid\", showindex=\"always\"))\r\n print()\r\n\r\n\r\n print(\"N- Way set Associative Mapping:\")\r\n\r\n\r\n\r\n header2 = [\"Tag\", \" Set number\"]\r\n for i in range(b):\r\n header2.append(\"W\" + str(i))\r\n CN = NWayAssociative.copy()\r\n for i in range(c):\r\n CN[i] = CN[i][:-1]\r\n\r\n print(tabulate(CN, headers=header2, tablefmt=\"grid\", showindex=\"always\"))\r\n print()\r\n if command==1:\r\n address = input(\"Address:\")\r\n if checkinput(address)==False:\r\n pass\r\n else:\r\n print(\"Direct mapping\")\r\n directMappingR(address)\r\n print(\"Associative Mapping:\")\r\n associativeMappingR(address)\r\n print(\"N- Way set Associative Mapping:\")\r\n NWaySetAssociativeMappingR(address)\r\n if command==2:\r\n address = input(\"Address:\")\r\n if checkinput(address)==False:\r\n pass\r\n else:\r\n data = input(\"Data:\")\r\n if sys.getsizeof(data)>35:\r\n print(\"Data should be under word limit i.e. 32 bit\")\r\n else:\r\n cacheDirect[linenum(address)][blocknum(address)+2]=data\r\n associativeMappingW(address,data)\r\n NWaySetAssociativeMappingW(address,data)\r\n command=0\r\n\r\nsys.exit()\r\n" } ]	3
BJXLS/MLDemo	https://github.com/BJXLS/MLDemo	40d80d4bab3282033c625418178ec90a73be2531	79f0fff032837483b8d3f050a9b3dd88bde25bbb	7fdd3f5324827e2b292b72bb0c3d60da13f22997	refs/heads/master	2022-10-08T00:17:13.368824	2020-06-12T13:13:57	2020-06-12T13:13:57	265,545,082	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.49375075101852417, "alphanum_fraction": 0.537674069404602, "avg_line_length": 28.22661781311035, "blob_id": "35e0557f2a69920156ee5718cc22908c3a70a58d", "content_id": "351e341555b661eacc29dd35cd354bb004528e02", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8559, "license_type": "no_license", "max_line_length": 110, "num_lines": 278, "path": "/homework3/baseline.py", "repo_name": "BJXLS/MLDemo", "src_encoding": "UTF-8", "text": "import tensorflow as tf\r\nimport os\r\nimport numpy as np\r\nfrom matplotlib import pyplot as plt\r\nfrom tensorflow.keras.layers import Conv2D, BatchNormalization, Activation, MaxPool2D, Dropout, Flatten, Dense\r\nfrom tensorflow.keras import Model\r\nimport cv2\r\n\r\nimport load_data\r\nnp.set_printoptions(threshold=np.inf)\r\n\r\n# cifar10 = tf.keras.datasets.cifar10\r\n# (x_train, y_train), (x_test, y_test) = cifar10.load_data()\r\n# x_train, x_test = x_train / 255.0, x_test / 255.0\r\n\r\n# 导入数据集\r\ndata, label = load_data.load_data()\r\nprint(len(data))\r\n# 使用相同的seed，保证输入特征和标签一一对应\r\nnp.random.seed(116)\r\nnp.random.shuffle(data)\r\nnp.random.seed(116)\r\nnp.random.shuffle(label)\r\ntf.random.set_seed(116)\r\n\r\n# 取五分之一作为测试\r\nx_train = data[:-185]\r\ny_train = label[:-185]\r\nx_test = data[-185:]\r\ny_test = label[-185:]\r\n\r\nx_train = tf.cast(x_train, tf.float32)\r\nx_test = tf.cast(x_test, tf.float32)\r\n\r\nx_train = np.array(x_train)\r\ny_train = np.array(y_train)\r\nx_test = np.array(x_test)\r\ny_test = np.array(y_test)\r\nx_train, x_test = x_train / 255.0, x_test / 255.0\r\n\r\n\r\n# x_train = []\r\n# x_test = []\r\n# for i in x_train_:\r\n# x_train.append(i.reshape((-1, 227, 227, 1)))\r\n# # x_train = x_train.reshape((-1, 277, 277, 1))\r\n# # x_test = x_test.reshape((-1, 277, 277, 1))\r\n#\r\n# # print(len(x_test_))\r\n# # print(x_test_[0])\r\n# for j in x_test_:\r\n# x_test.extend(j.reshape((-1, 227, 227, 1)))\r\n\r\n\r\nx_train = x_train.reshape((-1, 227, 227, 1))\r\nx_test = x_test.reshape((-1, 227, 227, 1))\r\n\r\n# from_tensor_slices函数使输入特征和标签值一一对应。（把数据集分批次，每个批次batch组数据）\r\ntrain_db = tf.data.Dataset.from_tensor_slices((x_train, y_train)).batch(32)\r\ntest_db = tf.data.Dataset.from_tensor_slices((x_test, y_test)).batch(32)\r\n\r\n\r\nclass Baseline(Model):\r\n def __init__(self):\r\n super(Baseline, self).__init__()\r\n self.c1 = Conv2D(filters=6, kernel_size=(5, 5), padding=\"same\")\r\n self.b1 = BatchNormalization()\r\n self.a1 = Activation('relu')\r\n self.p1 = MaxPool2D(pool_size=(2, 2), strides=2, padding=\"same\")\r\n self.d1 = Dropout(0.2)\r\n self.flatten = Flatten()\r\n self.f1 = Dense(128, activation=\"relu\")\r\n self.d2 = Dropout(0.2)\r\n self.f2 = Dense(10, activation=\"softmax\")\r\n\r\n def call(self, x):\r\n x = self.c1(x)\r\n x = self.b1(x)\r\n x = self.a1(x)\r\n x = self.p1(x)\r\n x = self.d1(x)\r\n x = self.flatten(x)\r\n x = self.f1(x)\r\n x = self.d2(x)\r\n y = self.f2(x)\r\n return y\r\n\r\n\r\nclass AlexNet(Model):\r\n def __init__(self):\r\n super(AlexNet, self).__init__()\r\n self.c1 = Conv2D(filters=96, kernel_size=(3, 3))\r\n self.b1 = BatchNormalization()\r\n self.a1 = Activation('relu')\r\n self.p1 = MaxPool2D(pool_size=(3, 3), strides=2)\r\n\r\n self.c2 = Conv2D(filters=256, kernel_size=(3, 3))\r\n self.b2 = BatchNormalization()\r\n self.a2 = Activation('relu')\r\n self.p2 = MaxPool2D(pool_size=(3, 3), strides=2)\r\n\r\n self.c3 = Conv2D(filters=384, kernel_size=(3, 3), padding='same',\r\n activation='relu')\r\n\r\n self.c4 = Conv2D(filters=384, kernel_size=(3, 3), padding='same',\r\n activation='relu')\r\n\r\n self.c5 = Conv2D(filters=256, kernel_size=(3, 3), padding='same',\r\n activation='relu')\r\n self.p3 = MaxPool2D(pool_size=(3, 3), strides=2)\r\n\r\n self.flatten = Flatten()\r\n self.f1 = Dense(2048, activation='relu')\r\n self.d1 = Dropout(0.5)\r\n self.f2 = Dense(2048, activation='relu')\r\n self.d2 = Dropout(0.5)\r\n self.f3 = Dense(10, activation='softmax')\r\n\r\n def call(self, x):\r\n x = self.c1(x)\r\n x = self.b1(x)\r\n x = self.a1(x)\r\n x = self.p1(x)\r\n\r\n x = self.c2(x)\r\n x = self.b2(x)\r\n x = self.a2(x)\r\n x = self.p2(x)\r\n\r\n x = self.c3(x)\r\n\r\n x = self.c4(x)\r\n\r\n x = self.c5(x)\r\n x = self.p3(x)\r\n\r\n x = self.flatten(x)\r\n x = self.f1(x)\r\n x = self.d1(x)\r\n x = self.f2(x)\r\n x = self.d2(x)\r\n y = self.f3(x)\r\n return y\r\n\r\n\r\nclass AlexNetBreast(Model):\r\n def __init__(self):\r\n super(AlexNetBreast, self).__init__()\r\n self.c1 = Conv2D(filters=96, kernel_size=(11, 11), strides=4, padding='same')\r\n self.b1 = BatchNormalization()\r\n self.a1 = Activation('relu')\r\n self.p1 = MaxPool2D(pool_size=(3, 3), strides=2)\r\n\r\n self.c2 = Conv2D(filters=256, kernel_size=(5, 5), padding='same')\r\n self.b2 = BatchNormalization()\r\n self.a2 = Activation('relu')\r\n self.p2 = MaxPool2D(pool_size=(3, 3), strides=2)\r\n # 1313\r\n\r\n self.c3 = Conv2D(filters=384, kernel_size=(3, 3), padding='same',\r\n activation='relu')\r\n\r\n self.c4 = Conv2D(filters=384, kernel_size=(3, 3), padding='same',\r\n activation='relu')\r\n\r\n self.c5 = Conv2D(filters=256, kernel_size=(3, 3), padding='same',\r\n activation='relu')\r\n self.p3 = MaxPool2D(pool_size=(3, 3), strides=2)\r\n\r\n self.flatten = Flatten()\r\n self.f1 = Dense(4096, activation='relu')\r\n self.d1 = Dropout(0.5)\r\n self.f2 = Dense(4096, activation='relu')\r\n self.d2 = Dropout(0.5)\r\n self.f3 = Dense(4, activation='softmax')\r\n\r\n def call(self, x):\r\n x = self.c1(x)\r\n x = self.b1(x)\r\n x = self.a1(x)\r\n x = self.p1(x)\r\n\r\n x = self.c2(x)\r\n x = self.b2(x)\r\n x = self.a2(x)\r\n x = self.p2(x)\r\n\r\n x = self.c3(x)\r\n\r\n x = self.c4(x)\r\n\r\n x = self.c5(x)\r\n x = self.p3(x)\r\n\r\n x = self.flatten(x)\r\n x = self.f1(x)\r\n x = self.d1(x)\r\n x = self.f2(x)\r\n x = self.d2(x)\r\n y = self.f3(x)\r\n return y\r\n\r\n\r\n\r\n# model = Baseline()\r\n\r\n\r\nmodel = AlexNetBreast()\r\nmodel.compile(optimizer='adam',\r\n loss=tf.keras.losses.SparseCategoricalCrossentropy(from_logits=False),\r\n metrics=['sparse_categorical_accuracy'])\r\ncheckpoint_save_path = './checkpoint/AlexNetBreast.ckpt'\r\nif os.path.exists(checkpoint_save_path + \".index\"):\r\n print(\"----------------------load the model--------------------\")\r\n model.load_weights(checkpoint_save_path)\r\ncp_callback = tf.keras.callbacks.ModelCheckpoint(filepath=checkpoint_save_path,\r\n save_weights_only=True,\r\n save_best_only=True)\r\nhistory = model.fit(train_db, epochs=7, validation_data=test_db, validation_freq=1,\r\n callbacks=[cp_callback])\r\n\r\nmodel.summary()\r\nprint(\"save start...\")\r\n# file = open(\"./weights.txt\", \"w\")\r\n# for v in model.trainable_variables:\r\n# file.write(str(v.name) + '\\n')\r\n# file.write(str(v.shape) + '\\n')\r\n# file.write(str(v.numpy()) + '\\n')\r\n# file.close()\r\nprint(\"part1 finish...\")\r\n# ====================绘画=======================\r\n# acc = history.history['sparse_categorical_accuracy']\r\n# val_acc = history.history['val_sparse_categorical_accuracy']\r\n# loss = history.history['loss']\r\n# val_loss = history.history['val_loss']\r\n# plt.subplot(1, 2, 1)\r\n# plt.plot(acc, label='Training Accuracy')\r\n# plt.plot(val_acc, label='Validation Accuracy')\r\n# plt.title('Training and Validation Accuracy')\r\n# plt.legend()\r\n# plt.subplot(1, 2, 2)\r\n# plt.plot(loss, label='Training Loss')\r\n# plt.plot(val_loss, label='Validation Loss')\r\n# plt.title(\"Training and Validation Loss\")\r\n# plt.legend()\r\n# plt.show()\r\nprint(\"part2 finsih...\")\r\n\r\nfold_path = 'new_test_cut/'\r\nfold_list = os.listdir(fold_path)\r\n# 遍历文件夹\r\nfor fold in fold_list:\r\n img_path = os.path.join(fold_path, fold)\r\n img_list = os.listdir(img_path)\r\n # 遍历文件图像\r\n for img_ in img_list:\r\n img__ = os.path.join(img_path, img_)\r\n\r\n\r\n # im = Image.open(img__)\r\n # im = im.resize((227, 227))\r\n # im = np.array(im)\r\n # im = im/255.0\r\n # im.reshape((-1, 227, 227, 1))\r\n\r\n img = cv2.imread(img__, 0)\r\n img = cv2.resize(img, (227, 227))\r\n img = np.array(img)\r\n img = img / 255.0\r\n img = img.reshape((-1, 227, 227, 1))\r\n\r\n ret = model.predict(img)\r\n file = open(\"./result.txt\", \"a+\")\r\n file.write(str(fold) + \" \" + str(ret) + '\\n')\r\n file.close()\r\n print(str(fold) + \" \" + str(ret))\r\n\r\nprint(\"finish\")" }, { "alpha_fraction": 0.6772152185440063, "alphanum_fraction": 0.6772152185440063, "avg_line_length": 27.75, "blob_id": "883a5f92856e99092e570e8100ce7f9f07bd14f6", "content_id": "d98d29f9baaa7caeac2470f457ec7d2c30fe2e39", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 510, "license_type": "no_license", "max_line_length": 68, "num_lines": 16, "path": "/NN/Iris_predict/load_data.py", "repo_name": "BJXLS/MLDemo", "src_encoding": "UTF-8", "text": "from sklearn import datasets\r\nfrom pandas import DataFrame\r\nimport pandas as pd\r\n\r\nx_data = datasets.load_iris().data\r\ny_data = datasets.load_iris().target\r\n\r\nprint(\"x_data from datasets:\\n\", x_data)\r\nprint(\"y_data from datasets:\\n\", y_data)\r\n\r\nx_data = DataFrame(x_data, columns=['花萼长度', '花萼宽度', '花瓣长度', '花瓣宽度'])\r\npd.set_option('display.unicode.east_asian_width', True)\r\nprint('x_data add index:\\n', x_data)\r\n\r\nx_data['类别'] = y_data\r\nprint('x_data add a column:\\n', x_data)" }, { "alpha_fraction": 0.5573770403862, "alphanum_fraction": 0.5573770403862, "avg_line_length": 35, "blob_id": "a4bc428f130d3aeeffaaf7db2b0fcb7c640724f4", "content_id": "62c29b6e4fcb98566ff638e31a1d4cad27b6a7f5", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 285, "license_type": "no_license", "max_line_length": 60, "num_lines": 5, "path": "/DecisionTree/README.txt", "repo_name": "BJXLS/MLDemo", "src_encoding": "UTF-8", "text": "此次作业大体框架参考《Machine Learning IN Action》，并在其中加入了连续值离散化和K折交叉验证。\r\n================================\r\nbreastCannerTree.py文件为决策树文件\r\n================================\r\ntreePlotter.py文件为决策树绘制文件" }, { "alpha_fraction": 0.5059760808944702, "alphanum_fraction": 0.5332953929901123, "avg_line_length": 25.484375, "blob_id": "2f9328bb1004e4856f2c558672d6f81e7f388dcd", "content_id": "9e85283c36bf42d48c95349b0ad73e03e6540202", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2069, "license_type": "no_license", "max_line_length": 79, "num_lines": 64, "path": "/homework3/load_data.py", "repo_name": "BJXLS/MLDemo", "src_encoding": "UTF-8", "text": "import cv2\r\nimport os\r\nimport numpy as np\r\nimport tensorflow as tf\r\n\r\n\r\ndef create_model():\r\n pass\r\n\r\ndef load_data():\r\n img_path_ = 'cut_img/'\r\n\r\n data = []\r\n label = []\r\n a = 0\r\n # 遍历1-4 四个文件夹\r\n for i in range(1, 5):\r\n fold_path = img_path_ + str(i)\r\n fold_list = os.listdir(fold_path)\r\n\r\n # 遍历每个label文件夹里的文件夹\r\n for j in range(0, len(fold_list)):\r\n temp_path = os.path.join(fold_path, fold_list[j])\r\n img_list = os.listdir(temp_path)\r\n\r\n # 遍历每个文件夹里的图片\r\n a += len(img_list)\r\n print(a)\r\n\r\n for k in range(0, len(img_list)):\r\n img_path = os.path.join(temp_path, img_list[k])\r\n # 读入灰度图像\r\n img = cv2.imread(img_path, 0)\r\n img = cv2.resize(img, (227, 227))\r\n # 把图片加入data中\r\n data.append(img)\r\n # 记录label\r\n label.append(i-1)\r\n print(i)\r\n print(a)\r\n print(\"finish\")\r\n return data, label\r\n\r\nif __name__ == '__main__':\r\n data, label = load_data()\r\n np.random.seed(116) # 使用相同的seed，保证输入特征和标签一一对应\r\n np.random.shuffle(data)\r\n np.random.seed(116)\r\n np.random.shuffle(label)\r\n tf.random.set_seed(116)\r\n\r\n # 将打乱后的数据集分割为训练集和测试集，训练集为前120行，测试集为后30行\r\n x_train = data[:-30]\r\n y_train = data[:-30]\r\n x_test = label[-30:]\r\n y_test = label[-30:]\r\n\r\n # 转换x的数据类型，否则后面矩阵相乘时会因数据类型不一致报错\r\n x_train = tf.cast(x_train, tf.float32)\r\n x_test = tf.cast(x_test, tf.float32)\r\n\r\n # from_tensor_slices函数使输入特征和标签值一一对应。（把数据集分批次，每个批次batch组数据）\r\n train_db = tf.data.Dataset.from_tensor_slices((x_train, y_train)).batch(32)\r\n test_db = tf.data.Dataset.from_tensor_slices((x_test, y_test)).batch(32)" }, { "alpha_fraction": 0.5830508470535278, "alphanum_fraction": 0.7299435138702393, "avg_line_length": 17.282608032226562, "blob_id": "f4cd0a942ad2e82272de34fb7e6082f0055987b9", "content_id": "24d44df705ca999b3101806370fbc22edc67cad6", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1421, "license_type": "no_license", "max_line_length": 109, "num_lines": 46, "path": "/NN/README.md", "repo_name": "BJXLS/MLDemo", "src_encoding": "UTF-8", "text": "# 神经网络入门实验\r\n\r\n## 一实验目的及要求\r\n\r\n初步了解神经网络的入门知识：\r\n\r\n+ 全连接\r\n+ 激活函数\r\n+ 独热编码\r\n+ 损失函数\r\n+ 梯度下降\r\n+ 反向传播\r\n\r\n## 二实验环境\r\n\r\npython == 3.6\r\n\r\nTensorflow == 2.2\r\n\r\n## 三实验内容\r\n\r\n本着项目是最好的学习原则，本次实验使用最新的tensorflow2.0版本进行，鸢尾花的初级分类。搭建两层神经网络结构，实现前向传播，反向传播。并使用matplotlib可视化loss曲线。\r\n\r\n### 实验步骤\r\n\r\n1. sklearn输入iris数据集（150）\r\n2. 分割训练集（120），测试集（30）\r\n3. 因为数据量较少固不设置隐藏层结点。因为有四个特征固设置四个输入结点，三分类设置三个输出结点\r\n4. 设置learning rate 为 0.1，epoch 为 500，batch 为 32\r\n5. 使用with语句实现梯度下降，并进行后向传播\r\n6. 记录loss值并计算正确率\r\n7. matplotlib画出图像\r\n\r\n## 四实验结果与分析\r\n\r\n最终\r\n\r\n![image-20200603202035941](C:\\Users\\hi\\AppData\\Roaming\\Typora\\typora-user-images\\image-20200603202035941.png)\r\n\r\n![image-20200603202117120](C:\\Users\\hi\\AppData\\Roaming\\Typora\\typora-user-images\\image-20200603202117120.png)\r\n\r\n![image-20200603202127593](C:\\Users\\hi\\AppData\\Roaming\\Typora\\typora-user-images\\image-20200603202127593.png)\r\n\r\n## 五源码\r\n\r\n我将源码上传到[我的github中]()其中有详细注释" }, { "alpha_fraction": 0.8333333134651184, "alphanum_fraction": 0.8333333134651184, "avg_line_length": 11, "blob_id": "ca1f37d43f0fa97caf15ca0e98f7738df94ccfbf", "content_id": "255edd815f23f986462f88b30deb16700bc73021", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 46, "license_type": "no_license", "max_line_length": 15, "num_lines": 2, "path": "/README.md", "repo_name": "BJXLS/MLDemo", "src_encoding": "UTF-8", "text": "# MLpro\n个人的机器学习算法练习Demo\n" }, { "alpha_fraction": 0.530994176864624, "alphanum_fraction": 0.5602338910102844, "avg_line_length": 28.464284896850586, "blob_id": "2a541770ca5cbda1b527985acec622b1a6e2b5d7", "content_id": "ac9a43432326d333688f5b33a3983aa19ff440b7", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 877, "license_type": "no_license", "max_line_length": 58, "num_lines": 28, "path": "/homework3/predict.py", "repo_name": "BJXLS/MLDemo", "src_encoding": "UTF-8", "text": "from PIL import Image\r\nimport numpy as np\r\nimport os\r\n\r\n# model = baseline.AlexNetBreast()\r\n# checkpoint_save_path = './checkpoint/AlexNetBreast.ckpt'\r\n# model.load_weights(checkpoint_save_path)\r\n\r\nfold_path = 'new_test_cut/'\r\nfold_list = os.listdir(fold_path)\r\n# 遍历文件夹\r\nfor fold in fold_list:\r\n img_path = os.path.join(fold_path, fold)\r\n img_list = os.listdir(img_path)\r\n # 遍历文件图像\r\n for img_ in img_list:\r\n img__ = os.path.join(img_path, img_)\r\n im = Image.open(img__)\r\n im = im.resize((227, 227))\r\n im = np.array(im)\r\n (im/255.0).reshape((-1, 227, 227, 1))\r\n # ret = model.predict((im).reshape((1, 227, 227)))\r\n file = open(\"./result.txt\", \"a+\")\r\n # file.write(str(fold) + \" \" + str(ret) + '\\n')\r\n file.close()\r\n # print(str(fold) + \" \" + str(ret))\r\n\r\nprint(\"finish\")\r\n\r\n" }, { "alpha_fraction": 0.5484778881072998, "alphanum_fraction": 0.5535808801651001, "avg_line_length": 30.278409957885742, "blob_id": "1a7740f02255e857dcc44ffaab69ec853984ac56", "content_id": "8a192f1168702e2172dd2e82d2771742227d7d64", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 13824, "license_type": "no_license", "max_line_length": 107, "num_lines": 352, "path": "/DecisionTree/breastCannerTree.py", "repo_name": "BJXLS/MLDemo", "src_encoding": "UTF-8", "text": "from sklearn.datasets import load_breast_cancer\r\nfrom sklearn.model_selection import KFold\r\nimport numpy as np\r\nfrom math import log\r\nfrom numpy import inf\r\n\r\n# 获得数据集的\r\ndef getDataSet():\r\n dataSet = load_breast_cancer()\r\n # 获得数据集的数据\r\n data = dataSet.data\r\n target = dataSet.target\r\n # 获得数据集的label\r\n label = dataSet.feature_names\r\n\r\n # 将标签加入到数据集的最后一列\r\n data = np.c_[data, target]\r\n print(\"数据导入完毕...\")\r\n\r\n print('The number of datas: ' + str(len(data)))\r\n print('The number of targets: ' + str(len(target)))\r\n return data, label\r\n\r\n\r\n# 计算信息熵\r\ndef calcShannonEnt(dataSet):\r\n # 获取数据集中数据的条数\r\n numEntries = len(dataSet)\r\n labelCounts = {}\r\n\r\n # 对数据进行遍历\r\n for featVec in dataSet:\r\n # 获取数据的标签，即最终的类别\r\n currentLabel = featVec[-1]\r\n # 如果字典中没有此标签，即加入字典中。\r\n if currentLabel not in labelCounts.keys():\r\n labelCounts[currentLabel] = 0\r\n # 若有，则++\r\n labelCounts[currentLabel] += 1\r\n # 初始化信息熵\r\n shannonEnt = 0.0\r\n # 遍历标签字典\r\n for key in labelCounts:\r\n # 计算每一个类别出现的概率（类别出现的次数/数据总数）\r\n prob = float(labelCounts[key])/numEntries\r\n # 获得信息熵\r\n shannonEnt -= prob log(prob, 2)\r\n return shannonEnt\r\n\r\n#统计classList中出现此处最多的元素(类标签)\r\ndef majorityCnt(classList):\r\n import operator\r\n classCount = {}\r\n for vote in classList: # 统计classList中每个元素出现的次数\r\n if vote not in classCount.keys(): classCount[vote] = 0\r\n classCount[vote] += 1\r\n sortedClassCount = sorted(classCount.items(), key=operator.itemgetter(1), reverse=True) # 根据字典的值降序排序\r\n return sortedClassCount[0][0] # 返回classList中出现次数最多的元素\r\n\r\n# 划分数据集, axis:按第几个特征划分, value:划分特征的值, LorR: value值左侧（小于）或右侧（大于）的数据集\r\ndef splitDataSet_c(dataSet, axis, value, LorR='L'):\r\n # 创建分类列表\r\n retDataSet = []\r\n # 这行不写也行\r\n featVec = []\r\n\r\n # 如果要划分的是小于此值的特征\r\n if LorR == 'L':\r\n # 遍历每个数据样本\r\n for featVec in dataSet:\r\n # 如果样本中axis对应的特征的值小于给定值\r\n if float(featVec[axis]) < value:\r\n # 就将此样本放入返回数据集中\r\n retDataSet.append(featVec)\r\n # 如果要划分的是大于此值的特征\r\n else:\r\n for featVec in dataSet:\r\n if float(featVec[axis]) > value:\r\n retDataSet.append(featVec)\r\n return retDataSet\r\n\r\n\r\n# 选择最好的数据集划分方式\r\n# labelproperty 是特征的类型 0：离散值 1：连续值\r\ndef chooseBestFeatureToSplit_c(dataSet, labelProperty):\r\n # 获得特征的个数\r\n numFeatures = len(labelProperty)\r\n \r\n # 计算当前数据集的信息熵 \r\n baseEntropy = calcShannonEnt(dataSet) # 计算根节点的信息熵\r\n # 初始化最好的信息增益值，和最好分割的特征序号\r\n bestInfoGain = 0.0\r\n bestFeature = -1\r\n # 连续的特征值，即最佳划分值\r\n bestPartValue = None \r\n\r\n # 遍历每个特征\r\n for i in range(numFeatures): \r\n\r\n # 这句话的逻辑是：从数据集中先提取每个样本，再将样本的固定特征值放入列表中\r\n featList = [example[i] for example in dataSet]\r\n # 去除特征值的冗余项\r\n uniqueVals = set(featList)\r\n # 初始化特征信息熵 \r\n newEntropy = 0.0\r\n # 初始化，最佳划分连续特征值\r\n bestPartValuei = None\r\n\r\n # 如果是离散的特征\r\n if labelProperty[i] == 0: # 对离散的特征\r\n for value in uniqueVals: # 对每个特征值，划分数据集, 计算各子集的信息熵\r\n subDataSet = splitDataSet_c(dataSet, i, value)\r\n prob = len(subDataSet) / float(len(dataSet))\r\n newEntropy += prob * calcShannonEnt(subDataSet)\r\n \r\n \r\n # 如果是连续的特征\r\n else: \r\n # 先将特征进行排序\r\n sortedUniqueVals = list(uniqueVals) \r\n sortedUniqueVals.sort()\r\n\r\n # 初始化划分列表\r\n listPartition = []\r\n # 初始化最小的信息熵\r\n minEntropy = inf\r\n\r\n # 遍历需要划分的结点数\r\n # 需要遍历的结点数，是特征值的个数-1。因为取得是每两个特征值的平均值\r\n for j in range(len(sortedUniqueVals) - 1):\r\n # 获取划分值\r\n partValue = (float(sortedUniqueVals[j]) + float(\r\n sortedUniqueVals[j + 1])) / 2\r\n\r\n # 获取此划分点左、右侧的子数据集\r\n dataSetLeft = splitDataSet_c(dataSet, i, partValue, 'L')\r\n dataSetRight = splitDataSet_c(dataSet, i, partValue, 'R')\r\n # 计算此划分点左、右两侧的出现概率\r\n probLeft = len(dataSetLeft) / float(len(dataSet))\r\n probRight = len(dataSetRight) / float(len(dataSet))\r\n # 获取当前划分点的信息熵\r\n Entropy = probLeft * calcShannonEnt(dataSetLeft) + probRight * calcShannonEnt(dataSetRight)\r\n # 获取最小的信息熵\r\n if Entropy < minEntropy: \r\n minEntropy = Entropy\r\n # 记录最优划分值\r\n bestPartValuei = partValue\r\n newEntropy = minEntropy\r\n # 计算信息增益\r\n infoGain = baseEntropy - newEntropy # 计算信息增益\r\n # 取最大的信息增益对应的特征\r\n if infoGain > bestInfoGain: \r\n bestInfoGain = infoGain\r\n bestFeature = i\r\n bestPartValue = bestPartValuei\r\n # 返回最好的特征值和最好的划分值\r\n return bestFeature, bestPartValue\r\n\r\n\r\n\r\n\r\n# 创建树\r\ndef createTree_c(dataSet, labels, labelProperty):\r\n import copy\r\n # 获取每一个样本的标签\r\n classList = [example[-1] for example in dataSet]\r\n \r\n # 有两种结束方式\r\n # 当叶子节点中只剩下一种类别的时候，返回标签list\r\n if classList.count(classList[0]) == len(classList):\r\n return classList[0]\r\n \r\n # 如果没有特征继续分割，就返回投票值 \r\n if len(dataSet[0]) == 1: \r\n return majorityCnt(classList)\r\n\r\n # 获得最优的特征索引，和最佳分割值\r\n bestFeat, bestPartValue = chooseBestFeatureToSplit_c(dataSet,\r\n labelProperty) \r\n # 如果无法选出最优分类特征，返回出现次数最多的类别\r\n if bestFeat == -1: \r\n return majorityCnt(classList)\r\n\r\n\r\n if labelProperty[bestFeat] == 0: # 对离散的特征\r\n bestFeatLabel = labels[bestFeat]\r\n myTree = {bestFeatLabel: {}}\r\n labelsNew = copy.copy(labels)\r\n labelPropertyNew = copy.copy(labelProperty)\r\n del (labelsNew[bestFeat]) # 已经选择的特征不再参与分类\r\n del (labelPropertyNew[bestFeat])\r\n featValues = [example[bestFeat] for example in dataSet]\r\n uniqueValue = set(featValues) # 该特征包含的所有值\r\n for value in uniqueValue: # 对每个特征值，递归构建树\r\n subLabels = labelsNew[:]\r\n subLabelProperty = labelPropertyNew[:]\r\n myTree[bestFeatLabel][value] = createTree_c(\r\n splitDataSet_c(dataSet, bestFeat, value), subLabels,\r\n subLabelProperty)\r\n\r\n # 对连续的特征，不删除该特征，分别构建左子树和右子树\r\n else: \r\n # 设置最优特征的标签\r\n bestFeatLabel = labels[bestFeat] + '<' + str(bestPartValue)\r\n # 创建一个以最优分割特征为根节点的子树\r\n myTree = {bestFeatLabel: {}}\r\n # 获取标签和特征的类型\r\n subLabels = labels[:]\r\n subLabelProperty = labelProperty[:]\r\n # 构建左子树\r\n valueLeft = 'Yes'\r\n myTree[bestFeatLabel][valueLeft] = createTree_c(\r\n splitDataSet_c(dataSet, bestFeat, bestPartValue, 'L'), subLabels,\r\n subLabelProperty)\r\n # 构建右子树\r\n valueRight = 'No'\r\n myTree[bestFeatLabel][valueRight] = createTree_c(\r\n splitDataSet_c(dataSet, bestFeat, bestPartValue, 'R'), subLabels,\r\n subLabelProperty)\r\n return myTree\r\n\r\n# 进行测试，获得预测结果\r\ndef classify_c(inputTree, featLabels, featLabelProperties, testVec):\r\n # 获得根节点的标签\r\n firstStr = list(inputTree.keys())[0]\r\n firstLabel = firstStr\r\n # 查找是否连续特征\r\n lessIndex = str(firstStr).find('<')\r\n # 如果是则获取特征标签\r\n if lessIndex > -1:\r\n firstLabel = str(firstStr)[:lessIndex]\r\n\r\n # 获得第一个结点对应树\r\n secondDict = inputTree[firstStr]\r\n # 获取特征对应的索引位置\r\n featIndex = featLabels.index(firstLabel) # 跟节点对应的特征\r\n classLabel = None\r\n # 遍历子树的标签名\r\n for key in secondDict.keys():\r\n if featLabelProperties[featIndex] == 0: # 离散的特征\r\n if testVec[featIndex] == key: # 测试样本进入某个分支\r\n if type(secondDict[key]).__name__ == 'dict': # 该分支不是叶子节点，递归\r\n classLabel = classify_c(secondDict[key], featLabels,\r\n featLabelProperties, testVec)\r\n else: # 如果是叶子，返回结果\r\n classLabel = secondDict[key]\r\n \r\n # 如果是连续的值\r\n else:\r\n # 获得标签的分割值\r\n partValue = float(str(firstStr)[lessIndex + 1:])\r\n # 如果当前的特征值小于分割值，就进入左子树\r\n if testVec[featIndex] < partValue:\r\n # 如果结点是一个子树，就继续递归\r\n if type(secondDict['Yes']).__name__ == 'dict': \r\n classLabel = classify_c(secondDict['Yes'], featLabels,\r\n featLabelProperties, testVec)\r\n # 如果是叶子结点，返回类别\r\n else:\r\n classLabel = secondDict['Yes']\r\n # 进入右子树\r\n else:\r\n # 如果结点是一个子树，就继续递归\r\n if type(secondDict['No']).__name__ == 'dict':\r\n classLabel = classify_c(secondDict['No'], featLabels,\r\n featLabelProperties, testVec)\r\n # 如果是叶子结点，返回类别\r\n else:\r\n classLabel = secondDict['No']\r\n return classLabel\r\n\r\ndef getNumLeafs(myTree):\r\n numLeafs = 0\r\n firstStr = list(myTree.keys())[0]\r\n secondDict = myTree[firstStr]\r\n for key in secondDict.keys():\r\n if type(secondDict[key]).__name__=='dict':\r\n numLeafs += getNumLeafs(secondDict[key])\r\n else:\r\n numLeafs += 1\r\n return numLeafs\r\n\r\ndef getTreeDepth(myTree):\r\n maxDepth = 0\r\n firstStr = list(myTree.keys())[0]\r\n secondDict = myTree[firstStr]\r\n for key in secondDict.keys():\r\n if type(secondDict[key]).__name__=='dict':\r\n thisDepth = 1 + getTreeDepth(secondDict[key])\r\n else:\r\n thisDepth = 1\r\n if thisDepth > maxDepth: maxDepth = thisDepth\r\n return maxDepth\r\n\r\ndef storeTree(inputTree, filename):\r\n import pickle\r\n fw = open(filename, 'wb')\r\n pickle.dump(inputTree, fw)\r\n fw.close()\r\n\r\ndef grabTree(filename):\r\n import pickle\r\n fr = open(filename, 'rb')\r\n return pickle.load(fr)\r\n\r\nif __name__ == \"__main__\":\r\n data, label = getDataSet()\r\n\r\n # range中的数字需要改成特征的个数\r\n labelProperties = [1 for i in range(30)] # 属性的类型，0表示离散，1表示连续\r\n\r\n # 交叉验证，这里调用sklearn的接口，几倍交叉验证就填几,保证n/k>3d，最好约等于log(n)，即log(569)\r\n K = 5\r\n kf = KFold(n_splits=K)\r\n m = 0\r\n score_sum = 0\r\n # kf会将输入的数据进行分割，并获取训练集合测试集的索引list\r\n for train_index, test_index in kf.split(data):\r\n # 训练\r\n data_litle = data[train_index]\r\n myTree = createTree_c(list(data_litle), list(label), labelProperties)\r\n # print(myTree)\r\n # 测试\r\n # k是测试的索引\r\n k = 0\r\n true = 0\r\n # 获取数据集\r\n data_test = load_breast_cancer()\r\n # 获取数据集中的数据\r\n data_test_data = data_test.data[test_index]\r\n # 获取数据集中数据的标签\r\n targetTemp = data_test.target\r\n data_test_target = targetTemp[test_index]\r\n\r\n # 遍历\r\n for x in data_test_data:\r\n pre = classify_c(myTree, list(label), labelProperties, x)\r\n real = data_test_target[k]\r\n k += 1\r\n if(pre == real):\r\n true += 1\r\n # 以准确率为评分\r\n score = float(true/k)\r\n score_sum += score\r\n print(\"No.\" + str(m) + \" score: \" + str(score))\r\n print(\"save No.\" + str(m) + \" tree...\")\r\n # 保存树到当前文件夹\r\n storeTree(myTree, 'tree' + str(m)+ '.txt')\r\n m += 1\r\n\r\n score_mean = float(score_sum/K)\r\n print(\"score_mean: \" + str(score_mean))\r\n\r\n\r\n" }, { "alpha_fraction": 0.567874550819397, "alphanum_fraction": 0.584099531173706, "avg_line_length": 31.035715103149414, "blob_id": "3a37f1a24ce7d54c674e110759e76212423d581d", "content_id": "5d3405ed534f5dee9ffbf9d5979347a36c9c7c82", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3778, "license_type": "no_license", "max_line_length": 104, "num_lines": 112, "path": "/DecisionTree/treePlotter.py", "repo_name": "BJXLS/MLDemo", "src_encoding": "UTF-8", "text": "import matplotlib.pyplot as plt\r\n\r\ndecisionNode = dict(boxstyle = \"sawtooth\", fc = \"0.8\")\r\nleafNode = dict(boxstyle=\"round4\", fc = \"0.8\")\r\narrow_args = dict(arrowstyle=\"<-\")\r\n\r\ndef plotNode(nodeTxt, centerPt, parentPt, nodeType):\r\n createPlot.ax1.annotate(nodeTxt, xy = parentPt, xycoords = 'axes fraction',\r\n xytext = centerPt, textcoords = 'axes fraction', va = \"center\" , ha = \"center\",\r\n bbox = nodeType, arrowprops = arrow_args)\r\n\r\n#绘图\r\ndef createPlot(inTree, index):\r\n fig = plt.figure(index, facecolor='white')\r\n fig.clf()\r\n axprops = dict(xticks=[], yticks=[])\r\n createPlot.ax1 = plt.subplot(111, frameon=False, **axprops)\r\n\r\n # 全局变量\r\n # totalW是树的宽度\r\n plotTree.totalW = float(getNumLeafs(inTree))\r\n # totalD是树的深度\r\n plotTree.totalD = float(getTreeDepth(inTree))\r\n plotTree.xOff = -0.5/plotTree.totalW\r\n plotTree.yOff = 1.0\r\n plotTree(inTree, (0.5, 1.0), '')\r\n\r\ndef getNumLeafs(myTree):\r\n numLeafs = 0\r\n firstStr = list(myTree.keys())[0]\r\n secondDict = myTree[firstStr]\r\n for key in secondDict.keys():\r\n if type(secondDict[key]).__name__=='dict':\r\n numLeafs += getNumLeafs(secondDict[key])\r\n else:\r\n numLeafs += 1\r\n return numLeafs\r\n\r\ndef getTreeDepth(myTree):\r\n maxDepth = 0\r\n firstStr = list(myTree.keys())[0]\r\n secondDict = myTree[firstStr]\r\n for key in secondDict.keys():\r\n if type(secondDict[key]).__name__=='dict':\r\n thisDepth = 1 + getTreeDepth(secondDict[key])\r\n else:\r\n thisDepth = 1\r\n if thisDepth > maxDepth: maxDepth = thisDepth\r\n return maxDepth\r\n\r\n\r\ndef retrieveTree(i):\r\n listOfTrees = [{'no surfacing': {0: 'no', 1: {'flippers': {0: 'no', 1: 'yes'}}, 3:'maybe'}}, \r\n {'no surfacing': {0: 'no', 1: {'flippers': {0: {'head': {0: 'no', 1: 'yes'}}, 1:'no'}}}}\r\n ]\r\n return listOfTrees[i]\r\n\r\n\r\ndef plotMidText(cntrPt, parentPt, txtString):\r\n xMid = (parentPt[0] - cntrPt[0]) / 2.0 + cntrPt[0]\r\n yMid = (parentPt[1] - cntrPt[1]) / 2.0 + cntrPt[1]\r\n createPlot.ax1.text(xMid, yMid, txtString)\r\n\r\n# 计算树的长度和宽度\r\ndef plotTree(myTree, parentPt, nodeTxt):\r\n numLeafs = getNumLeafs(myTree)\r\n getTreeDepth(myTree)\r\n firstStr = list(myTree.keys())[0]\r\n cntrPt = (plotTree.xOff + (1.0 + float(numLeafs)) / 2.0 / plotTree.totalW, plotTree.yOff)\r\n\r\n plotMidText(cntrPt, parentPt, nodeTxt)\r\n plotNode(firstStr, cntrPt, parentPt, decisionNode)\r\n secondDict = myTree[firstStr]\r\n plotTree.yOff = plotTree.yOff - 1.0 / plotTree.totalD\r\n\r\n for key in secondDict.keys():\r\n if type(secondDict[key]).__name__=='dict':\r\n plotTree(secondDict[key], cntrPt, str(key))\r\n else:\r\n plotTree.xOff = plotTree.xOff + 1.0 / plotTree.totalW\r\n plotNode(secondDict[key], (plotTree.xOff, plotTree.yOff), cntrPt, leafNode)\r\n plotMidText((plotTree.xOff, plotTree.yOff), cntrPt, str(key))\r\n plotTree.yOff = plotTree.yOff + 1.0 / plotTree.totalD\r\n\r\n\r\ndef grabTree(filename):\r\n import pickle\r\n fr = open(filename, 'rb')\r\n return pickle.load(fr)\r\n\r\nif __name__ == \"__main__\":\r\n import os\r\n\r\n #遍历打印\r\n index = 0\r\n while True :\r\n #文件名\r\n path = 'tree' + str(index) +'.txt'\r\n if os.path.exists(path) :\r\n myTree = grabTree(path)\r\n print('The number of leaves in the Figure' + str(index) + ': ' + str(getNumLeafs(myTree)))\r\n print('The depth of tree in the Figure' + str(index) + ': ' + str(getTreeDepth(myTree)))\r\n\r\n createPlot(myTree, index)\r\n else :\r\n break\r\n index += 1\r\n\r\n #显示全部图像\r\n plt.show()\r\n\r\n print('......结束......')" } ]	9
codesbyveer09/Monopoly	https://github.com/codesbyveer09/Monopoly	9b5c839fd368089e73b3dc88289caf159a0a3038	c2b9f75512770b59ef4913b5e85c68cac8dffabe	2617ede3634b9fe56612922e46aa0c231ca10f4b	refs/heads/main	2023-05-02T03:21:24.859059	2021-05-05T10:17:17	2021-05-05T10:17:17	364,534,892	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.7485029697418213, "alphanum_fraction": 0.7485029697418213, "avg_line_length": 40.75, "blob_id": "e8dad829f2c7ec7e585e586d69863f234d1ca21d", "content_id": "4503cb6a08efb129ffbaaa0fe5374f5b8d2256a7", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 167, "license_type": "no_license", "max_line_length": 85, "num_lines": 4, "path": "/README.md", "repo_name": "codesbyveer09/Monopoly", "src_encoding": "UTF-8", "text": "# Monopoly\n\nYou have to download both the files, i.e. mpcards.csv & Monopoly.py.\nThey are to be stored together, or you have to give the path to the mpcards.csv file.\n" }, { "alpha_fraction": 0.4093412756919861, "alphanum_fraction": 0.44578585028648376, "avg_line_length": 47.823307037353516, "blob_id": "3bcf2eb12fc2a4f846001966da2a5f3025c789d3", "content_id": "bc4f8b11b8131d53d0edfc15928ecfc380c4937d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 13253, "license_type": "no_license", "max_line_length": 178, "num_lines": 266, "path": "/Monopoly.py", "repo_name": "codesbyveer09/Monopoly", "src_encoding": "UTF-8", "text": "import pygame, sys, random, csv\r\nfrom pprint import pprint\r\nLEFT = 0\r\nRIGHT = 1\r\nCENTER = 2\r\npygame.init()\r\ntl_plrs=4\r\nl_bght=[]\r\nscreen = pygame.display.set_mode((0, 0), pygame.FULLSCREEN)\r\na=67.5 # Change Here to increase or decrease Board Size\r\ndict={}\r\nl_keys=[]\r\nl_stn=[\"Chennai Rail\", \"Howrah Railway\", \"Delhi Railway\", \"Chatrapati Shivaji\"]\r\nout=[]\r\nacn_log = []\r\n\r\n\r\nl_clr={\"blue\" : (25,25,112), \"red\" : (250,0,0), \"green\" : (0,250,0), \"yellow\" : (250,250,0), \"pink\" : (255,20,147),\r\n \"orange\" : (255,140,0), \"brown\" : (139,69,19), \"light blue\" : (135,206,250), \"light green\" :\r\n (144,238,144), \"white\" : (255,255,255), \"black\" : (0,0,0), \"grey\" : (192,192,192)}\r\n\r\nd_plrs={\"Pos\" : [], \"Money\" : [], \"Cards\" : [], \"Clr\" : []}\r\nclrs = list(l_clr.keys())\r\n\r\nfor i in range(tl_plrs):\r\n d_plrs[\"Pos\"].append(0)\r\n d_plrs[\"Money\"].append(1500)\r\n d_plrs[\"Cards\"].append([])\r\n d_plrs[\"Clr\"].append(l_clr[clrs[i]])\r\n\r\n\r\n# Cards info into Dictionary\r\nwith open(\"mpcards.csv\", \"r\") as cards: # The destination of mpcards.csv can be changed from here\r\n csv_reader = csv.reader(cards, delimiter=\",\")\r\n k=0\r\n for i in csv_reader:\r\n l = 0\r\n for j in i:\r\n\r\n if k == 0:\r\n dict.setdefault(j, [])\r\n l_keys.append(j)\r\n else:\r\n dict[l_keys[l]].append(j)\r\n l=l+1\r\n k=k+1\r\n\r\n\r\ndef owner(crd, coord):\r\n for i in range(tl_plrs):\r\n if crd in d_plrs[\"Cards\"][i]:\r\n pygame.draw.polygon(screen, d_plrs[\"Clr\"][i], coord)\r\n\r\ndef piece_pos(plr, b):\r\n clr=d_plrs[\"Clr\"][plr]\r\n pos=d_plrs[\"Pos\"][plr]\r\n\r\n\r\n if 0 <= pos < 10: #Down\r\n pygame.draw.circle(screen, clr, [int((11-pos+1/2) * a), (12a)+b], int(a / 6))\r\n\r\n elif 10 <= pos < 20: #Left\r\n pygame.draw.circle(screen, clr, [a-b, int((21-pos+1/2) a)], int(a / 6))\r\n\r\n elif 20 <= pos < 30: #Up\r\n pygame.draw.circle(screen, clr, [int((pos%10+3/2) * a), a-b], int(a / 6))\r\n\r\n elif 30 <= pos < 40: #Right\r\n pygame.draw.circle(screen, clr, [(12a)+b, int((pos%10+3/2) a)], int(a / 6))\r\n\r\n\r\ndef buy(card_nm, i_prc, plr):\r\n d_plrs[\"Money\"][plr]=d_plrs[\"Money\"][plr]-int(i_prc)\r\n prt(\" Player \" + str(plr+1) + \" bought \" + card_nm + \" by investing \" + i_prc + \"M\", 1025, 750, f_clr=l_clr[\"white\"], bg_clr=l_clr[\"black\"], f_sz=20, alignment=CENTER)\r\n d_plrs[\"Cards\"][plr].append(card_nm)\r\n l_bght.append(card_nm)\r\n\r\n\r\ndef UI(plr_num):\r\n x_origin = (13a)\r\n y_origin = 0\r\n x_sz = int((1537.5 - x_origin) / 2) #Change Here to decrease or increase the Player Info (X)\r\n y_sz=int(862.5/(tl_plrs/2)) #Change Here to decrease or increase the Player Info (Y)\r\n for i in range(2):\r\n plr=i2+1\r\n for j in range(int(tl_plrs/2)):\r\n plr=2(j+1)-(i+1)%2\r\n pygame.draw.rect(screen, l_clr[\"white\"], pygame.Rect(x_origin+x_szi, y_origin+y_szj, x_sz, y_sz))\r\n pygame.draw.rect(screen, l_clr[\"black\"], pygame.Rect(x_origin+x_szi, y_origin+y_szj, x_sz, y_sz), 1)\r\n if plr - 1 == plr_num:\r\n pygame.draw.rect(screen, d_plrs[\"Clr\"][plr-1], pygame.Rect(x_origin + x_sz i+int(tl_plrs), y_origin + y_sz * j+int(tl_plrs), x_sz-tl_plrs2, y_sz-tl_plrs2), 7)\r\n\r\n prt(\" Player \" + str(plr) + \" \", x_origin + (x_sz / 2) + (i * x_sz), (j * y_sz) + 30, f_sz=30, f_clr=d_plrs[\"Clr\"][plr-1], alignment=CENTER)\r\n prt(\" Money: $\" + str(d_plrs[\"Money\"][plr-1]) + \"M\", x_origin+(x_sz/2)+(ix_sz), (jy_sz) + 60, f_sz=20)\r\n prt(\"Properties Owned: \", x_origin+(x_sz/2)+(ix_sz), (jy_sz) + 90, f_sz=20)\r\n\r\n for k in range(len(d_plrs[\"Cards\"][plr-1])):\r\n prt(str(d_plrs[\"Cards\"][plr-1][k]), x_origin+(x_sz/2)+(ix_sz), (jy_sz) + 120+(k20), f_sz=15)\r\n\r\n\r\ndef prt(v_nm, x_var, y_var, tilt=0, f_clr = l_clr[\"black\"], bg_clr = l_clr[\"white\"], f_sz = 10, alignment=CENTER):\r\n font = pygame.font.Font('freesansbold.ttf', f_sz)\r\n text = font.render(v_nm, True, f_clr, bg_clr)\r\n textRect = text.get_rect()\r\n textRect = (int(x_var), int(y_var))\r\n if tilt!=0:\r\n text = pygame.transform.rotate(text, tilt)\r\n if alignment==CENTER:\r\n textRect = text.get_rect()\r\n textRect.center = (int(x_var), int(y_var))\r\n screen.blit(text, textRect)\r\n\r\n\r\ndef board():\r\n for y in range(12):\r\n for x in range(12):\r\n\r\n if x%11 == 0 and y%11 == 0: #Corners\r\n pygame.draw.rect(screen, l_clr[\"white\"], pygame.Rect((x a), (y * a), 2a, 2a))\r\n pygame.draw.rect(screen, l_clr[\"black\"], pygame.Rect((x * a), (y * a), 2a, 2a), 2)\r\n\r\n elif x%11 == 0: # \|\r\n pygame.draw.rect(screen, l_clr[\"white\"], pygame.Rect((x * a), (y * a)+a, 2a, a))\r\n pygame.draw.rect(screen, l_clr[\"black\"], pygame.Rect((x a), (y * a)+a, 2a, a), 2)\r\n if x==0: #Left\r\n val=20-y\r\n pygame.draw.rect(screen, l_clr[dict[\"Colour\"][val]], pygame.Rect(int((x+3/2)a), int((y+1) * a), int(a/2), a))\r\n pygame.draw.rect(screen, l_clr[\"black\"], pygame.Rect(int((x+3/2)a), int((y+1) a), int(a/2), a), 2)\r\n prt(dict[\"Card Name\"][val], int((x * a)+a3/4), int((y a) + a5/4), alignment=CENTER)\r\n prt(dict[\"Price\"][val], int((x a) + a3/4), int((y a) + a7/4), alignment=CENTER)\r\n if dict[\"Card Name\"][val] in l_bght:\r\n owner(dict[\"Card Name\"][val], [((xa)+22, (y+1)a+2), ((xa)+2, ((y+1)a)+2), ((xa)+2, ((y+1)a)+22)])\r\n\r\n\r\n elif x==11 and y!=1: #Right\r\n val = 29+y\r\n pygame.draw.rect(screen, l_clr[dict[\"Colour\"][val]], pygame.Rect(int(x a), int(y * a), int(a/2), a))\r\n pygame.draw.rect(screen, l_clr[\"black\"], pygame.Rect(int(x * a), int(y * a), int(a/2), a), 2)\r\n prt(dict[\"Card Name\"][val], int((x * a)+a5/4), int((y a)+a/4), alignment=CENTER)\r\n prt(dict[\"Price\"][val], int((x * a)+a5/4), int((y a)+(a3/4)), alignment=CENTER)\r\n owner(dict[\"Card Name\"][val], [(((x)a)+((2a)-20), ((y)a)+2), (((x+2)a)-2, ((y)a)+2), (((x+2)a)-2, ((y)a)+20)])\r\n\r\n\r\n elif y%11 == 0: # __\r\n pygame.draw.rect(screen, l_clr[\"white\"], pygame.Rect((x * a)+a, (y * a), a, 2a))\r\n pygame.draw.rect(screen, l_clr[\"black\"], pygame.Rect((x a)+a, (y * a), a, 2a), 2)\r\n\r\n if y==0: #Up\r\n val=20+x\r\n pygame.draw.rect(screen, l_clr[dict[\"Colour\"][val]], pygame.Rect(int((x+1)a), int((y+3/2) * a), a, int(int(int(a/2)))))\r\n pygame.draw.rect(screen, l_clr[\"black\"], pygame.Rect(int((x+1)a), int((y+3/2) a), a, int(a/2)), 2)\r\n prt(dict[\"Card Name\"][val], int((x + 5 / 4) * a), int((y + 3 / 4) * a), tilt=90, alignment=CENTER)\r\n prt(dict[\"Price\"][val], int((x * a) + a * 5 / 4) +int(a/2), int((y * a) + (a * 3 / 4)), tilt=90, alignment=CENTER)\r\n owner(dict[\"Card Name\"][val], [(((x+1)a)+20, (ya)+2), (((x+1)a)+2, (ya)+2), (((x+1)a)+2, (ya)+20)])\r\n\r\n\r\n elif y==11 and x!=1: #Down\r\n val = 11-x\r\n pygame.draw.rect(screen, l_clr[dict[\"Colour\"][val]], pygame.Rect(int(x * a), int(y * a), a, int(a/2)))\r\n pygame.draw.rect(screen, l_clr[\"black\"], pygame.Rect(int(x * a), int(y * a), a, int(a/2)), 2)\r\n prt(dict[\"Card Name\"][val], int((x * a) + a * 3 / 4)-int(a/2), int((y * a) + (a * 8 / 7)), tilt=90, alignment=CENTER)\r\n prt(dict[\"Price\"][val], int((x * a) + a * 5 / 4)-int(a/2), int((y * a) + (a * 8 / 7)), tilt=90, alignment=CENTER)\r\n owner(dict[\"Card Name\"][val], [((xa)+26, (ya+2a)-2), ((xa)+a-2, (ya+2a)-2), ((xa)+a-2, (ya)+a+(a-34))])\r\n\r\n\r\n prt(dict[\"Card Name\"][20], a, a, alignment=CENTER, f_sz=20)\r\n prt(dict[\"Card Name\"][30], 12a, a, alignment=CENTER, f_sz=20)\r\n prt(dict[\"Card Name\"][10], a, 12a, alignment=CENTER, f_sz=20)\r\n prt(dict[\"Card Name\"][0], 12a, 12a, alignment=CENTER, f_sz=20)\r\n\r\n b=int(-(tl_plrs/2)/tl_plrs+10)\r\n for i in range(tl_plrs):\r\n piece_pos(i, b)\r\n b = b + int(-30 / tl_plrs+1/2)\r\n\r\n pygame.draw.rect(screen, l_clr[\"light green\"], pygame.Rect(int(2a), int(2a), 9a, 9a))\r\n pygame.draw.rect(screen, l_clr[\"black\"], pygame.Rect(int(2a), int(2a), 9a, 9a), 2)\r\n pygame.display.flip()\r\n\r\nboard()\r\nnum=0\r\nplr_num=0\r\nwhile True:\r\n UI(plr_num)\r\n board()\r\n if d_plrs[\"Money\"][plr_num] != 0:\r\n\r\n for event in pygame.event.get():\r\n if event.type == pygame.KEYDOWN:\r\n if event.key == pygame.K_SPACE:\r\n i_dice = random.choice([2,2,2,2,3,3,4,5,6,6,6,6,7,7,8,8,9,9,9,10,10,10,11,11,12])\r\n #pygame.display.flip()\r\n\r\n d_plrs[\"Pos\"][plr_num] = d_plrs[\"Pos\"][plr_num] + i_dice\r\n if d_plrs[\"Pos\"][plr_num]>=40:\r\n d_plrs[\"Pos\"][plr_num] = d_plrs[\"Pos\"][plr_num] % 40\r\n d_plrs[\"Money\"][plr_num] = d_plrs[\"Money\"][plr_num] + 200\r\n\r\n\r\n if (dict[\"Type\"][d_plrs[\"Pos\"][plr_num]] == \"Property\" or dict[\"Type\"][d_plrs[\"Pos\"][plr_num]] == \"Station\"\r\n or dict[\"Type\"][d_plrs[\"Pos\"][plr_num]] == \"Utilities\")\\\r\n and dict[\"Card Name\"][d_plrs[\"Pos\"][plr_num]] not in l_bght: #Buying\r\n buy(dict[\"Card Name\"][d_plrs[\"Pos\"][plr_num]], dict[\"Price\"][d_plrs[\"Pos\"][plr_num]], plr_num)\r\n\r\n elif dict[\"Type\"][d_plrs[\"Pos\"][plr_num]] == \"Property\" and dict[\"Card Name\"][d_plrs[\"Pos\"][plr_num]] in l_bght:\r\n #Property Rent -\r\n d_plrs[\"Money\"][plr_num]=int(d_plrs[\"Money\"][plr_num])-int(dict[\"Rent\"][d_plrs[\"Pos\"][plr_num]])\r\n for i in range(tl_plrs): #Property Rent +\r\n if dict[\"Card Name\"][d_plrs[\"Pos\"][plr_num]] in d_plrs[\"Cards\"][i]:\r\n d_plrs[\"Money\"][i] = int(d_plrs[\"Money\"][i]) + int(dict[\"Rent\"][d_plrs[\"Pos\"][plr_num]])\r\n\r\n elif dict[\"Type\"][d_plrs[\"Pos\"][plr_num]] == \"Station\" and dict[\"Card Name\"][d_plrs[\"Pos\"][plr_num]] in l_bght:\r\n d_plrs[\"Money\"][plr_num] = int(d_plrs[\"Money\"][plr_num]) - int(dict[\"1 House\"][d_plrs[\"Pos\"][plr_num]])\r\n for i in range(tl_plrs): #Station Rent +\r\n if dict[\"Card Name\"][d_plrs[\"Pos\"][plr_num]] in d_plrs[\"Cards\"][i]:\r\n d_plrs[\"Money\"][i] = int(d_plrs[\"Money\"][i]) + int(dict[\"1 House\"][d_plrs[\"Pos\"][plr_num]])\r\n break\r\n\r\n\r\n elif dict[\"Card Name\"][d_plrs[\"Pos\"][plr_num]] == \"Go to Jail\": #Go to Jail\r\n d_plrs[\"Pos\"][plr_num] = 10\r\n prt(\" Player \"+str(plr_num+1)+\" went to Jail \", 1025, 600, f_sz=20, f_clr=l_clr[\"white\"], bg_clr=l_clr[\"black\"])\r\n\r\n elif dict[\"Card Name\"][d_plrs[\"Pos\"][plr_num]] == \"Go\" and num > 4: #GO\r\n d_plrs[\"Pos\"][plr_num] = 0\r\n prt(str(plr_num) + \" Go\", 1025, 700, f_sz=20, f_clr=l_clr[\"white\"], bg_clr=l_clr[\"black\"])\r\n\r\n elif dict[\"Type\"][d_plrs[\"Pos\"][plr_num]] == \"Tax\": #Tax\r\n d_plrs[\"Money\"][plr_num]=d_plrs[\"Money\"][plr_num]-int(dict[\"Price\"][d_plrs[\"Pos\"][plr_num]])\r\n\r\n\r\n if d_plrs[\"Money\"][plr_num]<=0:\r\n d_plrs[\"Money\"][plr_num] = 0\r\n d_plrs[\"Pos\"][plr_num] = 0\r\n out.append(plr_num)\r\n print(str(plr_num + 1) + \" is BANKCURRUPT\")\r\n\r\n if len(out)==tl_plrs-1:\r\n for i in range(tl_plrs):\r\n if i not in out:\r\n print(\"PLAYER \" + str(i+1) + \" WONNN!!! :) :)\")\r\n exit()\r\n\r\n if plr_num == tl_plrs - 1:\r\n plr_num = plr_num%(tl_plrs-1)\r\n else:\r\n plr_num=plr_num+1\r\n num=num+1\r\n\r\n\r\n if event.key == pygame.K_ESCAPE:\r\n exit()\r\n\r\n else:\r\n if plr_num == tl_plrs - 1:\r\n plr_num = 0\r\n\r\n else:\r\n plr_num = plr_num + 1\r\n num = num + 1\r\n\r\n for event in pygame.event.get():\r\n if event.type == pygame.KEYDOWN:\r\n if event.key == pygame.K_SPACE:\r\n if event.key == pygame.K_ESCAPE:\r\n exit()\r\n" } ]	2
aldotoci/automated_data_extracter	https://github.com/aldotoci/automated_data_extracter	d74a28eda0d59208a1c016c32b09b559669e4aa1	dcd2068ae010069ccd23d6b3344e5e4fbfec82ce	b660b61f2d82a221360a79e2dcbafdf151496cd1	refs/heads/master	2023-09-05T23:42:24.090834	2021-11-18T10:07:43	2021-11-18T10:07:43	429,380,386	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6195312738418579, "alphanum_fraction": 0.63671875, "avg_line_length": 31.743589401245117, "blob_id": "549c60ea422d55876cf0f5a44daacb01918e0e88", "content_id": "6258d0003745470374b7d46b2e1b8d94cf0d9d1b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1280, "license_type": "no_license", "max_line_length": 103, "num_lines": 39, "path": "/test1.py", "repo_name": "aldotoci/automated_data_extracter", "src_encoding": "UTF-8", "text": "import requests\nfrom bs4 import BeautifulSoup\nfrom pymongo import MongoClient\nimport threading\nimport asyncio\n\ndef return_data(a,db):\n url = \"https://ajax.gogo-load.com/ajax/load-list-episode?ep_start=0&ep_end=100000&id=\"\n #geting episode url\n episode_url = url + str(a)\n web_page = requests.get(episode_url)\n soup = BeautifulSoup(web_page.text, 'html.parser')\n try:\n li = soup.find('ul', attrs={'id':'episode_related'}).find_all('li')[0]\n #geting numbers of episodes\n number_ep = li.find('div').text[3:]\n href = li.a['href'][1:-1 (len(number_ep))]\n\n #getting category_anime_url\n web_page = requests.get('https://www1.gogoanime.ai' + href + '1')\n soup = BeautifulSoup(web_page.text, 'html.parser')\n category_url = soup.find('div', {'class':'anime-info'}).a['href']\n\n data = {'href':href,'number_ep':number_ep,\"category_url\":category_url}\n db.anime_list.insert_one(data)\n\n except:\n print(\"Error\")\n\n\nprog = 0\nclient = MongoClient('mongodb+srv://admin:[email protected]/myFirstDatabase?retryWrites=true&w=majority')\ndb = client.animes\ndb.anime_list.drop()\nfor a in range(1,10801):\n prog += 1\n t = threading.Thread(target=return_data, args=(a,db))\n t.start()\n print(prog)\n\n\n\n" }, { "alpha_fraction": 0.5881496071815491, "alphanum_fraction": 0.6002914309501648, "avg_line_length": 30.69230842590332, "blob_id": "a8066f2f907765443ab7b56020e7ba6c6a4e8640", "content_id": "f1aeda64e66eb3704e4836302b5971db822244d9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2059, "license_type": "no_license", "max_line_length": 231, "num_lines": 65, "path": "/test3.py", "repo_name": "aldotoci/automated_data_extracter", "src_encoding": "UTF-8", "text": "import requests\nfrom bs4 import BeautifulSoup\nfrom pymongo import MongoClient\nimport threading\nimport asyncio\n\ndef get_info_per_anime(href,link,num_ep, epsidoes_list,db):\n anime_data = []\n anime_list_link = 'https://gogoanime.ai' + link\n\n #Getting the anime_list page\n anime_page = requests.get(anime_list_link)\n anime_soup = BeautifulSoup(anime_page.text, 'html.parser')\n\n #Getting info about the anime\n data = anime_soup.find('div', class_=\"anime_info_body_bg\")\n\n title = data.h1.text\n thumbnail = data.find('img').get('src')\n data = data.find_all('p')\n type = data[1].find('a').get_text()\n plot = data[2].get_text()[14:]\n genre = []\n for gen in data[3].find_all('a'):\n genre.append(gen.get('title'))\n realease = data[4].get_text()[10:]\n status = data[5].get_text()[9:len(data[5].get_text())-1]\n other_names = []\n names = data[6].get_text()[12:]\n name = \"\"\n for char in names:\n if char == \",\":\n other_names.append(name)\n name = \"\"\n continue\n elif name == \"\":\n if char == \" \":\n continue\n else:\n name += char\n else:\n name += char\n if char == names[len(names)-1]:\n other_names.append(name)\n\n\n data = {'title': title,'number_of_episodes':num_ep,'url':link,'thumbnail': thumbnail,'type':type,'plot': plot,'genre':genre,'realease':realease,'status':status,'othernames':other_names,'href':href,'epsidoes_list':epsidoes_list}\n db.database_test.insert_one(data)\n\n\nclient = MongoClient('mongodb+srv://admin:[email protected]/myFirstDatabase?retryWrites=true&w=majority')\ndb = client.animes\ndb.database_test.drop()\n\nurl_list = []\nfor a in db.anime_episodesURL_data.find():\n url_list.append(a)\n\nprog = 0\nfor a in url_list:\n try:\n t = threading.Thread(target=get_info_per_anime, args=(a['href'], a['category_url'], int(a['number_ep']),a['epsidoes_list'], db))\n t.start()\n except:\n print(\"Error equrred\")" }, { "alpha_fraction": 0.644715428352356, "alphanum_fraction": 0.6495934724807739, "avg_line_length": 30.461538314819336, "blob_id": "abd2ffd902fdc3345cce0ab60f6147720b22536e", "content_id": "7775a3f7d50facdae1a0cb7de019699685ffc9ac", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1230, "license_type": "no_license", "max_line_length": 119, "num_lines": 39, "path": "/test2.py", "repo_name": "aldotoci/automated_data_extracter", "src_encoding": "UTF-8", "text": "import requests\nfrom bs4 import BeautifulSoup\nfrom pymongo import MongoClient\nimport threading\nimport asyncio\n\n\ndef get_episodes_url(link,num_of_episodes,category_url,db,prog):\n link = 'https://www1.gogoanime.ai' + link\n episode_links = []\n for a in range(1,num_of_episodes+1):\n html_content = requests.get(link+str(a))\n soup = BeautifulSoup(html_content.text, 'html.parser')\n iframe = soup.find('div', class_=\"play-video\").iframe\n src = iframe['src']\n src = \"https:\" + src\n iframe['src'] = src\n episode_links.append(iframe['src'])\n data = {'href': link,'category_url': category_url, 'number_ep': num_of_episodes, 'epsidoes_list':episode_links}\n db.anime_episodesURL_data.insert_one(data)\n prog+=1\n print(prog, \"done\")\n\n\nclient = MongoClient('mongodb+srv://admin:[email protected]/myFirstDatabase?retryWrites=true&w=majority')\ndb = client.animes\ndb.anime_episodesURL_data.drop()\n\nurl_list = []\nfor a in db.anime_list.find():\n url_list.append(a)\n\nprog = 0\nfor a in url_list:\n try:\n t = threading.Thread(target=get_episodes_url, args=(a['href'], int(a['number_ep']),a['category_url'], db,prog))\n t.start()\n except:\n print(\"Error equrred\")\n\n\n\n" }, { "alpha_fraction": 0.7565217614173889, "alphanum_fraction": 0.7565217614173889, "avg_line_length": 27.66666603088379, "blob_id": "07f449ed8c91ad2699314937d1711ab77762ba46", "content_id": "5dadbf07048471b8f74f4e79495fd29d2425f554", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 345, "license_type": "no_license", "max_line_length": 95, "num_lines": 12, "path": "/create anime list/store_data_in_mongo.py", "repo_name": "aldotoci/automated_data_extracter", "src_encoding": "UTF-8", "text": "import anime_list\nfrom pymongo import MongoClient\n\n#Storing the data the in mangodb\nclient = MongoClient('mongodb+srv://admin:[email protected]/myFirstDatabase?retryWrites=true&w=majority')\ndb = client.animes\n\ntry:\n db.anime_list.insert_many(anime_list.anime_list)\nexcept:\n db.anime_list.drop()\n db.anime_list.insert_many(anime_list.anime_list)\n\n" }, { "alpha_fraction": 0.5432338118553162, "alphanum_fraction": 0.5506010055541992, "avg_line_length": 34.342464447021484, "blob_id": "c6a2ae11e018c4fe3fc46b440948729170288cef", "content_id": "a23ad43213efcbc27e5f61dd99b2a34ee7415bb5", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2579, "license_type": "no_license", "max_line_length": 205, "num_lines": 73, "path": "/store_data_in_database.py", "repo_name": "aldotoci/automated_data_extracter", "src_encoding": "UTF-8", "text": "import requests\nfrom bs4 import BeautifulSoup\nfrom pymongo import MongoClient\nimport threading\n\nclass store_info_in_database:\n\n def get_info_per_anime(self, title, number_of_episodes, link):\n anime_data = []\n anime_list_link = 'https://gogoanime.ai/category/' + link\n\n #Getting the anime_list page\n anime_page = requests.get(anime_list_link)\n anime_soup = BeautifulSoup(anime_page.text, 'html.parser')\n\n #Getting info about the anime\n data = anime_soup.find('div', class_=\"anime_info_body_bg\")\n thumbnail = data.find('img').get('src')\n data = data.find_all('p')\n type = data[1].find('a').get_text()\n plot = data[2].get_text()[14:]\n genre = []\n for gen in data[3].find_all('a'):\n genre.append(gen.get('title'))\n realease = data[4].get_text()[10:]\n status = data[5].get_text()[9:len(data[5].get_text())-1]\n other_names = []\n names = data[6].get_text()[12:]\n name = \"\"\n for char in names:\n if char == \",\":\n other_names.append(name)\n name = \"\"\n continue\n elif name == \"\":\n if char == \" \":\n continue\n else:\n name += char\n else:\n name += char\n if char == names[len(names)-1]:\n other_names.append(name)\n\n data = {'title': title,'number_of_episodes':number_of_episodes,'url':link,'thumbnail': thumbnail,'type':type,'plot': plot,'genre':genre,'realease':realease,'status':status,'othernames':other_names}\n return data\n\n def store_data(self, anime, prog, anime_list,db):\n data = self.get_info_per_anime(anime['original_title'],anime['episodes number'],anime['url'])\n prog += 1\n try:\n db.anime_data_list.insert_one(data)\n except:\n print(\"An error occurred\")\n print('Progress: ' + str(prog) + \" out of \" + str(len(anime_list)))\n\n def store_data_in_database(self):\n client = MongoClient('mongodb+srv://admin:[email protected]/myFirstDatabase?retryWrites=true&w=majority')\n db = client.animes\n anime_list = []\n prog = 0\n db.anime_data_list.drop()\n\n for anime in db.anime_list.find():\n anime_list.append(anime)\n\n for anime in anime_list: #Fix latter\n t = threading.Thread(target=self.store_data, args=(anime,prog,anime_list,db))\n t.start()\n\n\ntest = store_info_in_database()\ntest.store_data_in_database()" }, { "alpha_fraction": 0.5375213623046875, "alphanum_fraction": 0.5490100383758545, "avg_line_length": 33.97435760498047, "blob_id": "e1e3594341a375e388dc80229403aa93fb5e0bb2", "content_id": "f5cbc7cbddd9388b6b87664cab235ec5949b7407", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4091, "license_type": "no_license", "max_line_length": 205, "num_lines": 117, "path": "/threading_version.py", "repo_name": "aldotoci/automated_data_extracter", "src_encoding": "UTF-8", "text": "import requests\nfrom bs4 import BeautifulSoup\nfrom pymongo import MongoClient\nimport threading\n\nclass store_info_in_database:\n def get_Episodes_Urls(self, link, num_Of_Episodes):\n\n episode_links = []\n for a in range(1,num_Of_Episodes+1):\n html_content = requests.get(link+str(a))\n soup = BeautifulSoup(html_content.text, 'html.parser')\n iframe = soup.find('div', class_=\"play-video\").iframe\n src = iframe['src']\n src = \"https:\" + src\n iframe['src'] = src\n episode_links.append(iframe['src'])\n\n return episode_links\n\n def get_info_per_anime(self, link,number_of_episodes):\n anime_data = []\n anime_list_link = 'https://gogoanime.ai' + link\n\n #Getting the anime_list page\n anime_page = requests.get(anime_list_link)\n anime_soup = BeautifulSoup(anime_page.text, 'html.parser')\n\n #Getting info about the anime\n data = anime_soup.find('div', class_=\"anime_info_body_bg\")\n\n title = data.h1.text\n thumbnail = data.find('img').get('src')\n data = data.find_all('p')\n type = data[1].find('a').get_text()\n plot = data[2].get_text()[14:]\n genre = []\n for gen in data[3].find_all('a'):\n genre.append(gen.get('title'))\n realease = data[4].get_text()[10:]\n status = data[5].get_text()[9:len(data[5].get_text())-1]\n other_names = []\n names = data[6].get_text()[12:]\n name = \"\"\n for char in names:\n if char == \",\":\n other_names.append(name)\n name = \"\"\n continue\n elif name == \"\":\n if char == \" \":\n continue\n else:\n name += char\n else:\n name += char\n if char == names[len(names)-1]:\n other_names.append(name)\n\n\n data = {'title': title,'number_of_episodes':number_of_episodes,'url':link,'thumbnail': thumbnail,'type':type,'plot': plot,'genre':genre,'realease':realease,'status':status,'othernames':other_names}\n return data\n\n def return_data(self, a):\n url = \"https://ajax.gogo-load.com/ajax/load-list-episode?ep_start=0&ep_end=100000&id=\"\n #geting episode url\n episode_url = url + str(a)\n web_page = requests.get(episode_url)\n soup = BeautifulSoup(web_page.text, 'html.parser')\n try:\n li = soup.find('ul', attrs={'id':'episode_related'}).find_all('li')[0]\n except:\n return\n #geting numbers of episodes\n number_ep = li.find('div').text[3:]\n href = li.a['href'][1:-1 (len(number_ep))]\n\n\n #getting category url\n web_page = requests.get('https://www1.gogoanime.ai' + href + '1')\n soup = BeautifulSoup(web_page.text, 'html.parser')\n try:\n category_href = soup.find('div', {'class': 'anime-info'}).a['href']\n except:\n return\n\n data = self.get_info_per_anime(category_href, number_ep)\n\n episode_url_array = self.get_Episodes_Urls('https://www1.gogoanime.ai' + href, int(number_ep))\n data['episodes_url_array'] = episode_url_array\n return data\n\n def store_data_in_database(self,a, db):\n\n try:\n #Getting info\n anime_data = self.return_data(a)\n #Store data in database\n try:\n db.anime_data_list.insert_one(anime_data)\n except:\n print(\"An error occurred.\")\n except NameError:\n print('Error equred at index: ', str(a), \" \", NameError)\n\n\n def get_anime_watch_url(self):\n client = MongoClient('mongodb+srv://admin:[email protected]/myFirstDatabase?retryWrites=true&w=majority')\n db = client.animes\n db.anime_data_list.drop()\n\n for a in range(1,10801):\n t = threading.Thread(target=self.store_data_in_database, args=(a,db))\n t.start()\n\ntest = store_info_in_database()\ntest.get_anime_watch_url()" }, { "alpha_fraction": 0.48477545380592346, "alphanum_fraction": 0.4946330785751343, "avg_line_length": 33.59090805053711, "blob_id": "62e06ca2800c4ccf63fa5dd283ccfc5f3fa06e84", "content_id": "918734a5cb16af39256dcca3a19436bb49e826d5", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4565, "license_type": "no_license", "max_line_length": 127, "num_lines": 132, "path": "/create anime list/form_url_list.py", "repo_name": "aldotoci/automated_data_extracter", "src_encoding": "UTF-8", "text": "import requests\nfrom bs4 import BeautifulSoup\nimport threading\n\nclass get_anime_list:\n def __init__(self):\n self.url = \"https://gogoanime.ai/anime-list.html?page=\",\n self.num_pages = 65\n self.py_list = {}\n self.progress = 0\n self.t1 = None\n\n def get_anime_list_for_page(self, url):\n #Getting the html\n page = requests.get(url)\n\n #Getting the unordered list\n soup = BeautifulSoup(page.text, 'html.parser')\n html_list = soup.find('ul', class_='listing')\n\n py_list = []\n\n #Adding key to the dictionary for every anime list page\n for link in html_list.find_all('a'):\n #Getting the title and the episodes url\n anime_list_link = link.get('href')\n anime_link = link.get('href')[10:]\n anime_title = link.get_text()\n\n #Removing ' in the title\n anime_title_no_comma = ''\n for x in anime_title:\n if x == \"'\" or x == \"\\\"\" :\n anime_title_no_comma += \"\\\\'\"\n else:\n anime_title_no_comma += x\n anime_title = anime_title_no_comma\n\n #Creating an acceptle key\n acc_title = ''\n for a in anime_link:\n if a == '-':\n acc_title += ' '\n elif a == '\\'':\n acc_title += '\\\\\\''\n elif a == '\\\"':\n acc_title += '\\\\\\\"'\n else:\n acc_title += a\n\n #Getting the numbers of episode\n page = requests.get('https://gogoanime.ai' + anime_list_link)\n soup = BeautifulSoup(page.text, 'html.parser')\n html_list = soup.find('ul', {\"id\": \"episode_page\"})\n\n for li in html_list.find_all('a'):\n last_list = ''\n for a in li:\n last_list += a\n if len(last_list) - 3 == 0 or len(last_list) % 4 == 0:\n num_of_episodes = last_list[2:]\n elif len(last_list) - 6 == 0:\n num_of_episodes = last_list[3:]\n elif len(last_list) - 7 == 0:\n num_of_episodes = last_list[4:]\n elif len(last_list) - 8 == 0:\n num_of_episodes = last_list[4:]\n elif len(last_list) - 9 == 0:\n num_of_episodes = last_list[5:]\n\n #Storing the data in dictionary\n if '.' or '?' in anime_title:\n py_list.append({\"url\": anime_link,'episodes number': int(num_of_episodes), \"original_title\": anime_title})\n else:\n beta_title = ''\n for a in anime_title:\n if a == '\\'':\n beta_title += '\\\\\\''\n elif a == '\\\"':\n beta_title += '\\\\\\\"'\n else:\n beta_title += a\n anime_title = beta_title\n py_list.append({\"url\": anime_link,\"episodes number\": int(num_of_episodes), \"original_title\": anime_title})\n self.progress += 1\n print(self.progress)\n\n anime_list = open('create anime list/anime_list.py', 'a', encoding='utf-8')\n py_list = str(py_list)\n py_list = py_list[1:len(str(py_list))-1]\n print(py_list)\n\n anime_list.write(py_list + ',')\n anime_list.close()\n\n def join_all_pages_in_one_list(self):\n self.url = ''.join(self.url)\n #searcing for every anime\n for num in range(self.num_pages):\n new_url = self.url + str(num+1)\n\n self.t1 = threading.Thread(target=self.get_anime_list_for_page, args=(new_url,))\n self.t1.start()\n\n self.progress += 10000\n\n #Sotring data in py lists\n def store_data(self):\n #Deleting previous list from the anime list\n anime_list = open('create anime list/anime_list.py', 'w', encoding='utf-8')\n anime_list.write('anime_list = ')\n anime_list.close()\n\n #Waiting for the data to process\n self.join_all_pages_in_one_list()\n self.t1.join()\n return self.py_list\n\ngogoanime = get_anime_list()\npy_list = gogoanime.store_data()\n\n'''\n#Storing the data the in mangodb\nclient = MongoClient('mongodb+srv://admin:[email protected]/myFirstDatabase?retryWrites=true&w=majority')\ndb = client.animes\n\ntry:\n db.anime_list.insert_one(py_list)\nexcept:\n db.anime_list.drop()\n db.anime_list.insert_one(py_list)\n'''" } ]	7
stefan-cross/choraoke	https://github.com/stefan-cross/choraoke	dcd45ff2ee33623be33051a409736b8a4308b0ae	fe206876d5c2dd8078ae6a9c1d97e55bc9f34aa4	6fd59b0c5ccc0240c0cbc15b04ef4eaeb9d8b44b	refs/heads/main	2023-01-20T14:10:11.431567	2020-11-30T08:29:57	2020-11-30T08:29:57	316,743,439	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.7829059958457947, "alphanum_fraction": 0.7829059958457947, "avg_line_length": 31.55555534362793, "blob_id": "9335850d558041f6ec571ae7a4d85b43527c6a1f", "content_id": "1d82abc6fe24f1128d17a2324097871f13bf5117", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 585, "license_type": "no_license", "max_line_length": 109, "num_lines": 18, "path": "/README.md", "repo_name": "stefan-cross/choraoke", "src_encoding": "UTF-8", "text": "# choraoke\nA web app mashup to find a songs chords from an audio recording, think shazam returns ultimate guitar chords\n\nFE - React\n- https://github.com/doppelgunner/audio-react-recorder\n\nBE - Pythnon / Flask?\n\n- https://github.com/acrcloud/acrcloud_sdk_python\n- https://github.com/joncardasis/ultimate-api/tree/master/server\n\n\nAnother approach:\n\n- Using music provider api, and work out whats currently playing on the account:\n\n- https://ytmusicapi.readthedocs.io/en/latest/\n- https://developer.spotify.com/documentation/web-api/reference/player/get-the-users-currently-playing-track/" }, { "alpha_fraction": 0.652046799659729, "alphanum_fraction": 0.6564327478408813, "avg_line_length": 24.33333396911621, "blob_id": "42fea2ea448288fe0596c5371eaed68c947289a6", "content_id": "c8fdcb39f5b3d16419e493257211f2f66dc5e67a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 684, "license_type": "no_license", "max_line_length": 53, "num_lines": 27, "path": "/backend/ultimate-api/server/views.py", "repo_name": "stefan-cross/choraoke", "src_encoding": "UTF-8", "text": "from server import app\nfrom flask import request, jsonify\nfrom urllib.parse import urlparse\nfrom .tab_parser import dict_from_ultimate_tab\n\n\nSUPPORTED_UG_URI = 'tabs.ultimate-guitar.com'\n\[email protected]('/')\ndef index():\n return 'hi'\n\[email protected]('/tab')\ndef tab():\n try:\n ultimate_url = request.args.get('url')\n\n # Ensure sanitized url\n parsed_url = urlparse(ultimate_url)\n location = parsed_url.netloc\n if location != SUPPORTED_UG_URI:\n raise Exception('unsupported url scheme')\n except Exception as e:\n return jsonify({'error': str(e)}), 500\n\n tab_dict = dict_from_ultimate_tab(ultimate_url)\n return jsonify(tab_dict)\n" }, { "alpha_fraction": 0.6347554922103882, "alphanum_fraction": 0.6462018489837646, "avg_line_length": 21.880952835083008, "blob_id": "95855b6982d85d3be24279ddad7b19fa782b2979", "content_id": "030e20b333d2b62fe79d97dbc98544478162356d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 961, "license_type": "no_license", "max_line_length": 153, "num_lines": 42, "path": "/backend/ultimate-api/README.md", "repo_name": "stefan-cross/choraoke", "src_encoding": "UTF-8", "text": "# Ultimate-API\n\n:guitar: An API for ultimate-guitar.com\n\n![Python-Version](https://img.shields.io/badge/Python-3.6.1-blue.svg)\n\n## Setup\n1. Install python3 from https://www.python.org/downloads/\n\n1. Create a virtual environment of python3:\n\n ```Python\n # Install virtualenv:\n # pip install virtualenv\n virtualenv -p /usr/local/bin/python3 venv\n source venv/bin/activate\n ```\n\n1. Install dependancies:\n\n ```Python\n pip install -r requirements.txt\n ```\n\n1. Usage:\n\n ```Python\n export FLASK_DEBUG=1 // Export for debug\n python run.py\n ```\n\n## Endpoints\n\n\| Method \| Endpoint \| Parameters \| Result \|\n\| ------ \| -------- \| ---------- \| ------ \|\n\| `GET` \| `/tab` \| `url`: A full (including protocol) url for an ultimate-guitar.com tab. \| JSON response containing tab info as well as each tab line\n\n## Running Tests\nTo run the full test suite execute the following from the top level directory.\n```Python\npython test.py\n```\n" }, { "alpha_fraction": 0.44324323534965515, "alphanum_fraction": 0.6918919086456299, "avg_line_length": 14.416666984558105, "blob_id": "5b5d61b69c2cc2a4d6b3ab70f525fe1ec9621480", "content_id": "9fb0b58615b4add494e6587d59adbab7c8217039", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 185, "license_type": "no_license", "max_line_length": 21, "num_lines": 12, "path": "/backend/ultimate-api/requirements.txt", "repo_name": "stefan-cross/choraoke", "src_encoding": "UTF-8", "text": "beautifulsoup4==4.6.0\nbs4==0.0.1\ncertifi==2017.7.27.1\nchardet==3.0.4\nclick==6.7\nFlask==0.12.2\nidna==2.5\nitsdangerous==0.24\nJinja2==2.9.6\nrequests==2.18.3\nurllib3==1.22\nWerkzeug==0.12.2\n" }, { "alpha_fraction": 0.6289308071136475, "alphanum_fraction": 0.6289308071136475, "avg_line_length": 30.799999237060547, "blob_id": "09e5564a1b0be178c5fe0daa9142f1e7024234c1", "content_id": "a6811d0083cb3d08c7fa55ee37e2e3a6158d5fef", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 159, "license_type": "no_license", "max_line_length": 62, "num_lines": 5, "path": "/backend/ultimate-api/test.py", "repo_name": "stefan-cross/choraoke", "src_encoding": "UTF-8", "text": "## ToDo:\n- [ ] Add Unit Tests\n - Test for Ed Sheeran - Perfect\n - Test for Jason Mraz - I'm Yours (because of the title parsing)\n - Test for Passenger - Let Her Go\n" }, { "alpha_fraction": 0.6353790760040283, "alphanum_fraction": 0.6380866169929504, "avg_line_length": 27.41025733947754, "blob_id": "32aab16fef8e53736db2154c0035f2acccf7c0e7", "content_id": "636a27ce144b359f1ad3855d167f5ce964cc247f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1108, "license_type": "no_license", "max_line_length": 84, "num_lines": 39, "path": "/backend/ultimate-api/server/tab_parser.py", "repo_name": "stefan-cross/choraoke", "src_encoding": "UTF-8", "text": "import sys\nimport json\nimport requests\nfrom .parser import html_tab_to_json_dict\n\ndef dict_from_ultimate_tab(url: str) -> json:\n '''\n Given a Ultimate Guitar tab url, will return a dictionary representing the\n song along with the song info\n '''\n html = requests.get(url).content\n ug_tags = ['js-tab-content', 'js-copy-content'] # tags the tabs are contained in\n tab_dict = html_tab_to_json_dict(html, ug_tags)\n return tab_dict\n\n\ndef json_from_ultimate_tab(url: str) -> json:\n '''\n Given a Ultimate Guitar tab url, will return a json object representing the\n song along with the song info\n '''\n tab_dict = dict_from_ultimate_tab(url)\n data = json.dumps(tab_dict, ensure_ascii=False)\n return data\n\n\nif __name__ == '__main__':\n try:\n url = sys.argv[1]\n except:\n print('INCORRECT USAGE\\n')\n print(' Usage:')\n print(' python %s {url}' % sys.argv[0])\n sys.exit()\n\n json_data = json_from_ultimate_tab(url)\n\n pretty_format_json = json.dumps(json.loads(json_data), indent=4, sort_keys=True)\n print(pretty_format_json)\n" }, { "alpha_fraction": 0.521163284778595, "alphanum_fraction": 0.5231788158416748, "avg_line_length": 27.702478408813477, "blob_id": "83e9d9fe26878f03b11511dce3abaf125ca04794", "content_id": "9d3e5ecf6d558f0719cc5a8806f166eb19bd4778", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3473, "license_type": "no_license", "max_line_length": 140, "num_lines": 121, "path": "/backend/ultimate-api/server/tab.py", "repo_name": "stefan-cross/choraoke", "src_encoding": "UTF-8", "text": "from typing import Any\n\n# tab {\n# title: \"tab name\",\n# artist_name: \"\",\n# author: \"\",\n# capo: \"\" (can be null),\n# Tuning: \"\" (can be null),\n#\n# lines: [\n# {\n# type: \"chord\" (OR \"lyrics\", \"blank\"),\n# chords: [\n# {\n# note: \"G\",\n# pre_spaces: 10\n# },\n# {\n# note: \"Em\",\n# pre_spaces: 8\n# }\n# ]\n# },\n# {\n# type: \"lyrics\",\n# lyrics: \"I found a love for me\"\n# },\n# {\n# type: \"blank\"\n# }\n# ]\n# }\n\nclass UltimateTabInfo(object):\n '''\n Represents the info of an ultimate guitar tab. Does not contain any lyrics or chords\n '''\n\n def __init__(self, title: str, artist: str, author: str, difficulty: str = None, key: str = None, capo: str = None, tuning: str = None):\n self.title = title\n self.artist = artist\n self.author = author\n # Optionals:\n self.difficulty = difficulty\n self.key = key\n self.capo = capo\n self.tuning = tuning\n\n\nclass UltimateTab(object):\n '''\n Represents an ultimate guitar tab containing Lyrics and Chords\n\n A `queue-like` object which will append lines to object\n and can be parsed to formatted json.\n '''\n\n JSON_CONTAINER_NAME = 'lines'\n JSON_KEY_CHORD_ARRAY = 'chords'\n JSON_KEY_NOTE = 'note'\n JSON_KEY_LYRIC = 'lyric'\n JSON_KEY_BLANK = 'blank'\n JSON_KEY_TYPE = 'type'\n JOSN_KEY_LEAD_SPACES = 'pre_spaces'\n\n def __init__(self):\n self.lines = []\n\n\n def _append_new_line(self, type: str, content_tag: str, content: Any) -> None:\n line = {'type': type}\n if content_tag is not None:\n line[content_tag] = content\n\n self.lines.append(line)\n\n\n def append_chord_line(self, chords_line: str) -> None:\n '''\n Appends a chord line to the tab.\n\n Parameters:\n - chords_line: A single-line string containing leading spaces and guitar chords (i.e. G, Em, etc.)\n '''\n chords = [] # Array of dictionary of chords\n\n leading_spaces = 0\n for c in chords_line.split(' '):\n if not c: # A space character recognized\n leading_spaces += 1\n else:\n chord = {\n self.JSON_KEY_NOTE: c,\n self.JOSN_KEY_LEAD_SPACES: leading_spaces\n }\n chords.append(chord)\n leading_spaces = 1 # reset for next chord to read in - resets to 1 to compensate for `split`\n\n self._append_new_line(self.JSON_KEY_CHORD_ARRAY, self.JSON_KEY_CHORD_ARRAY, chords)\n\n def append_lyric_line(self, lyric_line: str) -> None:\n '''\n Appends a lyric line to the tab.\n\n Parameters:\n - lyric_line: A single-line string containing lyrics (and any leading spaces needed)\n '''\n self._append_new_line(self.JSON_KEY_LYRIC, self.JSON_KEY_LYRIC, lyric_line)\n\n def append_blank_line(self) -> None:\n '''\n Appends a blank line to the tab.\n '''\n self._append_new_line(self.JSON_KEY_BLANK, None, None)\n\n def as_json_dictionary(self) -> dict:\n '''\n Returns a dictionary representation of the tab object.\n Properly formatted for use as a json object.\n '''\n return {self.JSON_CONTAINER_NAME: self.lines}\n" }, { "alpha_fraction": 0.600143551826477, "alphanum_fraction": 0.6013400554656982, "avg_line_length": 36.3125, "blob_id": "8c67707d2355466e2b626949baa46a549e025467", "content_id": "4024f83c0b5d96b6296a67d992caaeb29daafe82", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4179, "license_type": "no_license", "max_line_length": 123, "num_lines": 112, "path": "/backend/ultimate-api/server/parser.py", "repo_name": "stefan-cross/choraoke", "src_encoding": "UTF-8", "text": "import json\nfrom bs4 import BeautifulSoup\nfrom .tab import UltimateTab, UltimateTabInfo\nimport re\n\ndef _tab_info_from_soup(soup: BeautifulSoup) -> UltimateTabInfo:\n '''\n Returns a populated UltimateTabInfo object based on the provided soup.\n Parses based on UG site construction as of 9/3/17.\n\n Parameters:\n - soup: A BeautifulSoup for a Ultimate Guitar tab's html (or html body)\n '''\n # Get song title and artist\n try:\n song_title = soup.find(attrs={'itemprop': 'name'}).text\n song_title = re.compile(re.escape('chords'), re.IGNORECASE).sub(r'', song_title).strip() # Remove the word 'chords'\n except:\n song_title = \"UNKNOWN\"\n\n try:\n artist_name = soup.find(attrs={'class': 't_autor'}).text.replace('\\n', '')\n artist_name = re.compile(re.escape('by'), re.IGNORECASE).sub(r'', artist_name).strip()# Remove the word 'by'\n except:\n artist_name = \"UNKNOWN\"\n\n # Get info - author, capo, tuning, etc.\n author = \"UNKNOWN\"\n difficulty = None\n key = None\n capo = None\n tuning = None\n try:\n info_header_text = soup.find(attrs={'class': 't_dt'}).text.replace('\\n', '')\n info_headers = [x.lower() for x in info_header_text.split(' ') if x] # Split string and make lowercase\n info_header_values = soup.findAll(attrs={'class': 't_dtde'})\n\n for index, header in enumerate(info_headers):\n try:\n if header == 'author':\n author = info_header_values[index].a.text\n elif header == 'difficulty':\n difficulty = info_header_values[index].text.strip()\n elif header == 'key':\n key = info_header_values[index].text.strip()\n elif header == 'capo':\n capo = info_header_values[index].text.strip()\n elif header == 'tuning':\n tuning = info_header_values[index].text.strip()\n except:\n continue\n except:\n pass\n\n tab_info = UltimateTabInfo(song_title, artist_name, author, difficulty, key, capo, tuning)\n return tab_info\n\n\ndef html_tab_to_json_dict(html_body: str, pre_class_tags: [str]) -> json:\n '''\n Returns a json form of a 'pre' tag in an untimate guitar html tabs body.\n\n Parameters:\n - html_body: The full html body of an ultimate guitar tab site\n - pre_class_tags: An array of strings for the class names of a 'pre' tag where the chords are located to parse\n '''\n soup = BeautifulSoup(html_body, \"html.parser\")\n\n # Get UltimateTabInfo object from soup html for artist, title, etc.\n tab_info = _tab_info_from_soup(soup)\n\n # Get tab's content from html (lyrics + chords)\n tabs_html_content = soup.find('pre', attrs={'class': pre_class_tags})\n\n # Strip `pre` tag and convert to string to parse\n formatted_tab_string = ''.join(map(str, tabs_html_content.contents))\n\n # Parse each line of the string into json\n tab = UltimateTab()\n for tab_line in formatted_tab_string.split('\\n'):\n re_span_tag = re.compile(r'<span[^>]>\|<\\/span[^>]>')\n\n if not tab_line: # Line is blank\n tab.append_blank_line()\n elif re_span_tag.search(tab_line): # Line contains chords\n sanitized_tab_line = re_span_tag.sub(r' ', tab_line)\n tab.append_chord_line(sanitized_tab_line)\n else: # Line contains lyrics/string\n #tab_line = tab_line.encode('ascii', 'replace') # Encode as ascii\n tab.append_lyric_line(tab_line)\n\n # Construct full json object\n json = {\n 'title': tab_info.title,\n 'artist_name': tab_info.artist,\n 'author': tab_info.author\n }\n\n # add tab info if it exists\n if tab_info.difficulty is not None:\n json['difficulty'] = tab_info.difficulty\n if tab_info.key is not None:\n json['key'] = tab_info.key\n if tab_info.capo is not None:\n json['capo'] = tab_info.capo\n if tab_info.tuning is not None:\n json['tuning'] = tab_info.tuning\n\n json['lines'] = tab.as_json_dictionary()['lines']\n\n # Return constructed json under a single tag\n return {'tab': json}\n" } ]	8
1337MoSalah/Mac-Spoofer	https://github.com/1337MoSalah/Mac-Spoofer	6ef7839fdd12083f7e016af8913199468a3f3b0b	4325d74111913c77100a6d678444ab311a9ba1af	5cedea9f2937502263785a436aed3ae2d3e5eda8	refs/heads/master	2022-07-19T22:56:08.580603	2020-04-15T22:56:46	2020-04-15T22:56:46	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.75, "alphanum_fraction": 0.7631579041481018, "avg_line_length": 20.571428298950195, "blob_id": "aa933aaaa82641f8ad70de87328100c4cdc776df", "content_id": "f545b51a0d19e1982c0d0653107bebdfc44e7644", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 152, "license_type": "no_license", "max_line_length": 66, "num_lines": 7, "path": "/README.md", "repo_name": "1337MoSalah/Mac-Spoofer", "src_encoding": "UTF-8", "text": "# Mac-Spoofer\nAutomated Mac Address Spoofer \n\nA Simple Python Script to easily change the Mac Address over time \n\n## Usage \npython MacSpoofer.py -t 15 \n" }, { "alpha_fraction": 0.6201269030570984, "alphanum_fraction": 0.648232102394104, "avg_line_length": 31.382352828979492, "blob_id": "c673788ec53c3378e9726a93d4f546408b6607d2", "content_id": "c21cbd76f45405350c5477c45ffa1567cd6ec156", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1103, "license_type": "no_license", "max_line_length": 123, "num_lines": 34, "path": "/MacSpoofer.py", "repo_name": "1337MoSalah/Mac-Spoofer", "src_encoding": "UTF-8", "text": "import random\nimport os\nimport subprocess \nimport time\nimport argparse\n\nparser= argparse.ArgumentParser(description=\"Usage\")\nparser.add_argument(\"-t\",dest=\"time\",help=\"The time between each Mac change in seconds\",required=True)\nparsed_args= parser.parse_args()\n\n\ndef get_rand():\n return random.choice(\"0123456789abcdef\") \n\ndef new_mac():\n new_ = \"\" \n for i in range(0,5):\n new_ += get_rand() + get_rand() + \":\" \n new_ += get_rand() + get_rand() \n return new_\n\nprint \"Current Mac Address :\",subprocess.check_output(\"ifconfig eth0 \| grep ether \| cut -d ' ' -f 10\",shell=True)\n\nwhile 1:\n subprocess.check_output(\"ifconfig eth0 \| grep ether \| cut -d ' ' -f 10\",shell=True)\n subprocess.call([\"sudo\",\"ifconfig\",\"eth0\",\"down\"]) \n new_m = new_mac()\n err = os.system(\"sudo ifconfig eth0 hw ether %s 2> /dev/null\" %new_m)\n if err == 256:\n continue\n\n subprocess.call([\"sudo\",\"ifconfig\",\"eth0\",\"up\"])\n print \"New Mac Address :\", subprocess.check_output(\"ifconfig eth0 \| grep ether \| grep -oE [0-9abcdef:]{17}\",shell=True)\n time.sleep(float(parsed_args.time))\n\n\n" } ]	2
AbhinavRai01/Stone-Paper-Scissor-program-in-Python	https://github.com/AbhinavRai01/Stone-Paper-Scissor-program-in-Python	cade60c77423d9d67c6a3614a909d2828e13f6e2	8b047dfb2dbfcdc6a1cda3b653cc392984ca0c20	97650f4846262da5a28fe6e72d8c38eb1ca00fd8	refs/heads/master	2022-11-28T20:26:45.418241	2020-08-11T09:32:16	2020-08-11T09:32:16	286,701,673	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.4392029345035553, "alphanum_fraction": 0.46075639128685, "avg_line_length": 16.770992279052734, "blob_id": "1ff976b01682ccbcced97fccd8036b7b4bc7c089", "content_id": "6b573597f9eeeb48f54578887ca058b9233282bc", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2459, "license_type": "no_license", "max_line_length": 60, "num_lines": 131, "path": "/main.py", "repo_name": "AbhinavRai01/Stone-Paper-Scissor-program-in-Python", "src_encoding": "UTF-8", "text": "print(\"Welcome to Stone Paper Scissor.\")\r\nprint(\"This is a round of 5 game.\")\r\nprint(\"Press any key to start.\")\r\n\r\nq = input()\r\ni = 1\r\n\r\nuser_score = 0\r\nbot_score = 0\r\n\r\nwhile i < 6:\r\n while True:\r\n print(\"Enter :\")\r\n print(\"1 : Stone\")\r\n print(\"2 : Paper\")\r\n print(\"3 : Scissor\")\r\n try:\r\n user_in = int(input())\r\n if user_in == 1 or user_in == 2 or user_in == 3:\r\n break\r\n else:\r\n print(\"Invalid Input\")\r\n continue\r\n except:\r\n print(\"Invalid Input\")\r\n continue\r\n\r\n import random\r\n\r\n bot_in = random.randint(1, 3)\r\n\r\n user_match = \"\"\r\n bot_match = \"\"\r\n\r\n if user_in == 1:\r\n user_match = \"Stone\"\r\n\r\n if user_in == 2:\r\n user_match = \"Paper\"\r\n\r\n if user_in == 3:\r\n user_match = \"Scissor\"\r\n\r\n if bot_in == 1:\r\n bot_match = \"Stone\"\r\n\r\n if bot_in == 2:\r\n bot_match = \"Paper\"\r\n\r\n if bot_in == 3:\r\n bot_match = \"Scissor\"\r\n match = f\"{user_match} VS {bot_match}\"\r\n\r\n print(match)\r\n\r\n if user_in == 1 and bot_in == 1:\r\n win = 0\r\n\r\n elif user_in == 1 and bot_in == 2:\r\n win = 2\r\n\r\n elif user_in == 1 and bot_in == 3:\r\n win = 1\r\n\r\n elif user_in == 2 and bot_in == 1:\r\n win = 1\r\n\r\n elif user_in == 2 and bot_in == 2:\r\n win = 0\r\n\r\n elif user_in == 2 and bot_in == 3:\r\n win = 2\r\n\r\n elif user_in == 3 and bot_in == 1:\r\n win = 2\r\n\r\n elif user_in == 3 and bot_in == 2:\r\n win = 1\r\n\r\n else:\r\n win = 0\r\n\r\n if win == 0:\r\n print(\"Match Draw\")\r\n\r\n elif win == 1:\r\n print(\"You won\")\r\n user_score += 1\r\n\r\n\r\n else:\r\n print(\"You lost\")\r\n bot_score += 1\r\n\r\n print(f\"Your score : {user_score}\")\r\n print(f\"Opponent's score : {bot_score}\")\r\n\r\n q = input()\r\n i += 1\r\n\r\nf = open(\"stats\", \"r\")\r\ngames = int(f.readline())\r\nwon = int(f.readline())\r\nlost = int(f.readline())\r\ndraw = int(f.readline())\r\nf.close()\r\n\r\ngames += 1\r\n\r\nif user_score > bot_score:\r\n print(\"You won the game\")\r\n won += 1\r\n\r\n\r\nelif bot_score > user_score:\r\n print(\"You lost the game\")\r\n lost += 1\r\n\r\n\r\nelse:\r\n draw += 1\r\n print(\"Game draw\")\r\n\r\nf = open(\"stats\", \"w\")\r\n\r\nprint(\"Games played : \", games)\r\nprint(\"Games won : \",won)\r\nprint(\"Games lost : \", lost)\r\nprint(\"Games drawn : \",draw)\r\n\r\nf.write(f\"{games}\\n {won}\\n{lost}\\n{draw}\")\r\n" }, { "alpha_fraction": 0.7236841917037964, "alphanum_fraction": 0.7456140518188477, "avg_line_length": 19.727272033691406, "blob_id": "6cf0cd6538f56642fc57ea724f5eeffa201f18d0", "content_id": "04a69ba9a3bec009ce15b75d408ee971854f582b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 228, "license_type": "no_license", "max_line_length": 79, "num_lines": 11, "path": "/README.md", "repo_name": "AbhinavRai01/Stone-Paper-Scissor-program-in-Python", "src_encoding": "UTF-8", "text": "# Stone-Paper-Scissor-program-in-Python\n\nThis python program is a Stone Paper Scissor Game\n\nFeatures:\n\n1 . Round of 5 game.\n\n2 . Keep track of number of games played,lost and won(Like microsoft w7 games).\n\n3 . Shows game stats.\n" } ]	2
opp-efed/acquire	https://github.com/opp-efed/acquire	2f4a5b6521f1765d7452fa6b9895f3c18b7ea49a	e3bf1809db33b84eba87d9875729c3326b4abc46	12aae823f0a707be07fdbc00bfd718df9e9107c2	refs/heads/master	2020-03-30T08:09:55.563581	2018-10-12T00:00:45	2018-10-12T00:00:45	124,260,821	1	0	null	2018-03-07T16:07:23	2018-03-07T16:23:06	2018-03-07T16:27:31	Python	[ { "alpha_fraction": 0.5186101198196411, "alphanum_fraction": 0.5599148869514465, "avg_line_length": 55.80392074584961, "blob_id": "4d1ba15ec8ad9e0e0c22d5dcdc66ba3e06a988b0", "content_id": "97a00937cc43634152be93835baacfe872a832f5", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 17383, "license_type": "no_license", "max_line_length": 169, "num_lines": 306, "path": "/ScenarioProcessing/ResidentialCommercialScenarioPostprocessor.py", "repo_name": "opp-efed/acquire", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\"\"\"\nCreated on Wed Jul 18 08:46:24 2018\n\n@author: mweber\n\"\"\"\n\n#======================\n# imports\n#======================\n\nimport pandas as pd\nimport glob\nimport os\nfrom scipy import stats\nimport tkinter as tk\nfrom tkinter import ttk\nfrom tkinter.filedialog import askdirectory\n\npath = []\n\ndef Choose_Path(): \n tk.Tk().withdraw()\n path.append(askdirectory())\n \ndef CloseGUI():\n win.quit()\n win.destroy()\n\nwin = tk.Tk() \n\n# Add a title to gui \nwin.title(\"PWC Non-Ag Post-Processor Inputs\")\n\n# Get directory\nbrowser = ttk.Button(win, text = \"Select main directory of PWC files\", command=Choose_Path)\nbrowser.grid(column=0, row=0,sticky=tk.W, pady=10)\n\n# Get output directory\nbrowser = ttk.Button(win, text = \"Choose output directory\", command=Choose_Path)\nbrowser.grid(column=0, row=1,sticky=tk.W, pady=10)\n\n# Get Preface\nPrefaceLabel = ttk.Label(win, text=\"Add preface to timeseries names\")\nPrefaceLabel.grid(column=0, row=2)\nPreface = tk.StringVar()\nPrefaceEntered = ttk.Entry(win, width=12, textvariable=Preface)\nPrefaceEntered.grid(column=1, row=2)\n\n# Checkboxes for Impervious, Residential, ROW\nchImp = tk.IntVar()\ncheck1 = tk.Checkbutton(win, text=\"Include Impervious Runs?\", variable=chImp, state='active')\ncheck1.select()\ncheck1.grid(column=0, row=3, sticky=tk.W) \n\nchRes = tk.IntVar()\ncheck2 = tk.Checkbutton(win, text=\"Include Residential Runs?\", variable=chRes, state='active')\ncheck2.select()\ncheck2.grid(column=1, row=3, sticky=tk.W) \n\nchRow = tk.IntVar()\ncheck3 = tk.Checkbutton(win, text=\"Include ROW Runs?\", variable=chRow, state='active')\ncheck3.select()\ncheck3.grid(column=2, row=3, sticky=tk.W) \n\n\n# Area Fractions for Impervious, Residential, ROW\nlabelsFrame1 = ttk.LabelFrame(win) \nlabelsFrame1.grid(column=0, row=4)\nAreaFracLab1 = ttk.Label(labelsFrame1, text=\"Area fraction\")\nAreaFracLab1.grid(column=0, row=0, sticky=tk.W)\nAreaFrac1 = tk.StringVar()\nnameEntered = ttk.Entry(labelsFrame1, width=5, textvariable=AreaFrac1)\nnameEntered.grid(column=1, row=0, sticky=tk.W)\n\nlabelsFrame2 = ttk.LabelFrame(win) \nlabelsFrame2.grid(column=1, row=4)\nAreaFracLab2 = ttk.Label(labelsFrame2, text=\"Area fraction\")\nAreaFracLab2.grid(column=0, row=0, sticky=tk.W)\nAreaFrac2 = tk.StringVar()\nnameEntered = ttk.Entry(labelsFrame2, width=5, textvariable=AreaFrac2)\nnameEntered.grid(column=1, row=0, sticky=tk.W)\n\nlabelsFrame3 = ttk.LabelFrame(win) # 1\nlabelsFrame3.grid(column=2, row=4)\nAreaFracLab3 = ttk.Label(labelsFrame3, text=\"Area fraction\")\nAreaFracLab3.grid(column=0, row=0, sticky=tk.W)\nAreaFrac3 = tk.StringVar()\nnameEntered = ttk.Entry(labelsFrame3, width=5, textvariable=AreaFrac3)\nnameEntered.grid(column=1, row=0, sticky=tk.W)\n\nb1 = ttk.Button(win, text='Submit', command = CloseGUI).grid(column=1, sticky=tk.S)\nwin.mainloop()\n\n\ndef my_csv_reader(path, start_date, end_date, input_cols):\n d = pd.read_csv(path, skiprows=5,header=None, names=input_cols)\n d['Date'] = pd.date_range(start=start_date, end=end_date) # an example of a column to be added to each dataframe\n return d\n\ndef get_n_largest(matrix, n):\n return matrix.drop_duplicates().sort_values(ascending=False)\n\ndef main():\n # Input paths and variables\n# input_dir = 'H:/WorkingData/OPP_Detail/ExcelMacro/InputTables'\n input_dir = path[0]\n output_dir = path[1]\n start_date = '1/1/1961'\n end_date = '12/31/1990'\n input_cols = [\"Daily Depth (m)\", \"avg\",\"pore water\", \"peak\"]\n Area_fractions = [float(AreaFrac1.get()), float(AreaFrac2.get()), float(AreaFrac3.get())] # Add more flexibility later\n Bins = ['2','4','7']\n Scenarios = []\n if chImp.get() == 1:\n Scenarios.append('Impervious')\n if chRes.get() == 1:\n Scenarios.append('Residential')\n if chRow.get() == 1:\n Scenarios.append('ROW')\n \n filenames = [f for f in os.listdir(input_dir) if f.count('run')]\n hucs = [h.split('_')[3][-1:] for h in filenames]\n hucs = list(set([huc for huc in hucs]))\n \n # Loop through HUCs and create separate excel file for each HUC output\n for HUC in hucs:\n outfile = output_dir + '/testProcessed_python_HUC_' + HUC + '.xlsx'\n writer = pd.ExcelWriter(outfile, engine='xlsxwriter')\n # Loop through Bin values and create separate worksheet for each bin\n for Bin in Bins:\n # Loop through the three scenarios for each Bin worksheet\n for Scenario in Scenarios: # Add more flexibility later \n print('on HUC ' + HUC + ' on Bin ' + Bin + ' and Scenario ' + Scenario)\n df = pd.concat([my_csv_reader(f, start_date, end_date, input_cols) for f in glob.glob(input_dir + '/_' + Bin + '_' + Scenario + 'ESA' + HUC + '.csv')])\n # convert from kg/m3 to ppm\n df[[\"avg\",\"pore water\", \"peak\"]] = df[[\"avg\",\"pore water\", \"peak\"]] * 1000\n df = df.groupby('Date')[\"avg\",\"pore water\", \"peak\"].mean()\n df = df.reset_index()\n if Scenario == 'Impervious':\n final = df.copy()\n final.columns.values[[1,2,3]] = ['avg ' + Scenario + ' conc.ppm', 'pore water ' + Scenario + ' conc.ppm',\n 'peak ' + Scenario + ' conc.ppm']\n final['Year'] = final.Date.apply(lambda x: pd.to_datetime(x).strftime('%Y'))\n final = final.reset_index()\n final = final.filter(['Date','Year','avg ' + Scenario + ' conc.ppm', 'pore water ' + Scenario + ' conc.ppm',\n 'peak ' + Scenario + ' conc.ppm'], axis=1)\n if Scenario != 'Impervious':\n df.columns.values[[1,2,3]] = ['avg ' + Scenario + ' conc.ppm', 'pore water ' + Scenario + ' conc.ppm',\n 'peak ' + Scenario + ' conc.ppm']\n df = df.copy()\n df = df.filter(['Date','avg ' + Scenario + ' conc.ppm', 'pore water ' + Scenario + ' conc.ppm',\n 'peak ' + Scenario + ' conc.ppm'], axis=1)\n final = pd.merge(final, df, on='Date')\n print(final.shape)\n # Assemble final values for each Bin worksheet\n final['Date'] = final.Date.apply(lambda x: pd.to_datetime(x).strftime('%m/%d/%Y'))\n # Fold in summary statistics\n final['Adjusted Peak EEC (ppm)'] = (final['peak Impervious conc.ppm'] \\\n * Area_fractions[0]) + (final['peak Residential conc.ppm'] \\\n * Area_fractions[1]) + (final['peak ROW conc.ppm'] \\\n * Area_fractions[2])\n final['Adjusted Average AEEC (ppm)'] = (final['avg Impervious conc.ppm'] \\\n * Area_fractions[0]) + (final['avg Residential conc.ppm'] \\\n * Area_fractions[1]) + (final['avg ROW conc.ppm'] \\\n * Area_fractions[2])\n final['4 day'] = final.rolling(window=4)['Adjusted Average AEEC (ppm)'].mean()\n final['14 day'] = final.rolling(window=14)['Adjusted Average AEEC (ppm)'].mean()\n final['21 day'] = final.rolling(window=21)['Adjusted Average AEEC (ppm)'].mean()\n final['30 day'] = final.rolling(window=30)['Adjusted Average AEEC (ppm)'].mean()\n final['60 day'] = final.rolling(window=60)['Adjusted Average AEEC (ppm)'].mean()\n final['90 day'] = final.rolling(window=90)['Adjusted Average AEEC (ppm)'].mean()\n final['Annual'] = final.rolling(window=365)['Adjusted Average AEEC (ppm)'].mean()\n final['PW_peak'] = (final['pore water Impervious conc.ppm'] \\\n * Area_fractions[0]) + (final['pore water Residential conc.ppm'] \\\n * Area_fractions[1]) + (final['pore water ROW conc.ppm'] \\\n * Area_fractions[2])\n final['PW_21'] = final.rolling(window=21)['PW_peak'].mean()\n final['year'] = pd.Series(range(1961, 1991)).astype(int).astype(str)\n final['Max Peak'] = pd.Series(final.groupby('Year')['Adjusted Peak EEC (ppm)'].max().values)\n final['1-day'] = pd.Series(final.groupby('Year')['Adjusted Average AEEC (ppm)'].max().values)\n final['annual'] = pd.Series(final.groupby('Year')['Annual'].max().values)\n final['4-day'] = pd.Series(final.groupby('Year')['4 day'].max().values)\n final['Max 21 day'] = pd.Series(final.groupby('Year')['21 day'].max().values)\n final['Max 60 day'] = pd.Series(final.groupby('Year')['60 day'].max().values)\n final['Max 90 day'] = pd.Series(final.groupby('Year')['90 day'].max().values)\n final['Max PW'] = pd.Series(final.groupby('Year')['PW_peak'].max().values)\n final['Max PW 21'] = pd.Series(final.groupby('Year')['PW_21'].max().values)\n \n #Add final summary numbers table\n final.insert(loc=32, column='', value = '')\n final.insert(loc=33, column='Prob', value = '')\n final.loc[0,\"Prob\"] = 1/(30+1)\n final.loc[1,\"Prob\"] = (1/(30+1)) 2\n final.loc[2,\"Prob\"] = (1/(30+1)) 3\n final.loc[3,\"Prob\"] = (1/(30+1)) 4\n \n final.loc[5,\"Prob\"] = '1-in-10 yr (ppm)'\n final.loc[6,\"Prob\"] = '1-in-15 yr (ppm)'\n final.loc[7,\"Prob\"] = '1-in-10 yr (ppb)'\n final.loc[8,\"Prob\"] = '1-in-15 yr (ppb)'\n \n final.insert(loc=34, column='Max Peak Summary', value = '')\n final.loc[0:3,\"Max Peak Summary\"] = final['Max Peak'].nlargest(4).values\n final.insert(loc=35, column='1-day Summary', value = '')\n final.loc[0:3,\"1-day Summary\"] = final['1-day'].nlargest(4).values\n final.insert(loc=36, column='Annual Summary', value = '')\n final.loc[0:3,\"Annual Summary\"] = final['Annual'].nlargest(4).values\n final.insert(loc=37, column='4-Day Summary', value = '')\n final.loc[0:3,\"4-Day Summary\"] = final['4-day'].nlargest(4).values\n final.insert(loc=38, column='Max 21 day Summary', value = '')\n final.loc[0:3,\"Max 21 day Summary\"] = final['Max 21 day'].nlargest(4).values\n final.insert(loc=39, column='Max 60 day Summary', value = '')\n final.loc[0:3,\"Max 60 day Summary\"] = final['Max 60 day'].nlargest(4).values\n final.insert(loc=40, column='Max 90 day Summary', value = '')\n final.loc[0:3,\"Max 90 day Summary\"] = final['Max 90 day'].nlargest(4).values\n final.insert(loc=41, column='Max PW Summary', value = '')\n final.loc[0:3,\"Max PW Summary\"] = final['Max PW'].nlargest(4).values\n final.insert(loc=42, column='Max PW 21 Summary', value = '')\n final.loc[0:3,\"Max PW 21 Summary\"] = final['Max PW 21'].nlargest(4).values\n \n #Max Peak 1-in-10 and 1-in-15 numbers\n slope, intercept = stats.linregress(final.loc[2:3,'Prob'].values.astype(float), final.loc[2:3,\n 'Max Peak Summary'].values.astype(float))[0:2]\n final.loc[5,\"Max Peak Summary\"] = slope 0.1 + intercept\n slope, intercept = stats.linregress(final.loc[1:2,'Prob'].values.astype(float), final.loc[1:2,\n 'Max Peak Summary'].values.astype(float))[0:2]\n final.loc[6,\"Max Peak Summary\"] = slope * 0.067 + intercept\n final.loc[7,\"Max Peak Summary\"] = final.loc[5,\"Max Peak Summary\"] * 1000\n final.loc[8,\"Max Peak Summary\"] = final.loc[6,\"Max Peak Summary\"] * 1000\n \n #1-dqy 1-in-10 and 1-in-15 numbers\n slope, intercept = stats.linregress(final.loc[2:3,'Prob'].values.astype(float), final.loc[2:3,\n '1-day Summary'].values.astype(float))[0:2]\n final.loc[5,\"Max Peak Summary\"] = slope * 0.1 + intercept\n slope, intercept = stats.linregress(final.loc[1:2,'Prob'].values.astype(float), final.loc[1:2,\n '1-day Summary'].values.astype(float))[0:2]\n final.loc[6,\"1-day Summary\"] = slope * 0.067 + intercept\n final.loc[7,\"1-day Summary\"] = final.loc[5,\"1-day Summary\"] * 1000\n final.loc[8,\"1-day Summary\"] = final.loc[6,\"1-day Summary\"] * 1000\n \n #4-dqy 1-in-10 and 1-in-15 numbers\n slope, intercept = stats.linregress(final.loc[2:3,'Prob'].values.astype(float), final.loc[2:3,\n '4-Day Summary'].values.astype(float))[0:2]\n final.loc[5,\"4-Day Summary\"] = slope * 0.1 + intercept\n slope, intercept = stats.linregress(final.loc[1:2,'Prob'].values.astype(float), final.loc[1:2,\n '4-Day Summary'].values.astype(float))[0:2]\n final.loc[6,\"4-Day Summary\"] = slope * 0.067 + intercept\n final.loc[7,\"4-Day Summary\"] = final.loc[5,\"4-Day Summary\"] * 1000\n final.loc[8,\"4-Day Summary\"] = final.loc[6,\"4-Day Summary\"] * 1000\n \n #Max 21 dqy 1-in-10 and 1-in-15 numbers\n slope, intercept = stats.linregress(final.loc[2:3,'Prob'].values.astype(float), final.loc[2:3,\n 'Max 21 day Summary'].values.astype(float))[0:2]\n final.loc[5,\"Max 21 day Summary\"] = slope * 0.1 + intercept\n slope, intercept = stats.linregress(final.loc[1:2,'Prob'].values.astype(float), final.loc[1:2,\n 'Max 21 day Summary'].values.astype(float))[0:2]\n final.loc[6,\"Max 21 day Summary\"] = slope * 0.067 + intercept\n final.loc[7,\"Max 21 day Summary\"] = final.loc[5,\"Max 21 day Summary\"] * 1000\n final.loc[8,\"Max 21 day Summary\"] = final.loc[6,\"Max 21 day Summary\"] * 1000\n \n #Max 60 dqy 1-in-10 and 1-in-15 numbers\n slope, intercept = stats.linregress(final.loc[2:3,'Prob'].values.astype(float), final.loc[2:3,\n 'Max 21 day Summary'].values.astype(float))[0:2]\n final.loc[5,\"Max 60 day Summary\"] = slope * 0.1 + intercept\n slope, intercept = stats.linregress(final.loc[1:2,'Prob'].values.astype(float), final.loc[1:2,\n 'Max 60 day Summary'].values.astype(float))[0:2]\n final.loc[6,\"Max 60 day Summary\"] = slope * 0.067 + intercept\n final.loc[7,\"Max 60 day Summary\"] = final.loc[5,\"Max 60 day Summary\"] * 1000\n final.loc[8,\"Max 60 day Summary\"] = final.loc[6,\"Max 60 day Summary\"] * 1000\n \n #Max 90 dqy 1-in-10 and 1-in-15 numbers\n slope, intercept = stats.linregress(final.loc[2:3,'Prob'].values.astype(float), final.loc[2:3,\n 'Max 21 day Summary'].values.astype(float))[0:2]\n final.loc[5,\"Max 90 day Summary\"] = slope * 0.1 + intercept\n slope, intercept = stats.linregress(final.loc[1:2,'Prob'].values.astype(float), final.loc[1:2,\n 'Max 90 day Summary'].values.astype(float))[0:2]\n final.loc[6,\"Max 90 day Summary\"] = slope * 0.067 + intercept\n final.loc[7,\"Max 90 day Summary\"] = final.loc[5,\"Max 90 day Summary\"] * 1000\n final.loc[8,\"Max 90 day Summary\"] = final.loc[6,\"Max 90 day Summary\"] * 1000\n \n #Max PW 1-in-10 and 1-in-15 numbers\n slope, intercept = stats.linregress(final.loc[2:3,'Prob'].values.astype(float), final.loc[2:3,\n 'Max 21 day Summary'].values.astype(float))[0:2]\n final.loc[5,\"Max PW Summary\"] = slope * 0.1 + intercept\n slope, intercept = stats.linregress(final.loc[1:2,'Prob'].values.astype(float), final.loc[1:2,\n 'Max PW Summary'].values.astype(float))[0:2]\n final.loc[6,\"Max PW Summary\"] = slope * 0.067 + intercept\n final.loc[7,\"Max PW Summary\"] = final.loc[5,\"Max PW Summary\"] * 1000\n final.loc[8,\"Max PW Summary\"] = final.loc[6,\"Max PW Summary\"] * 1000\n \n #Max PW 21 1-in-10 and 1-in-15 numbers\n slope, intercept = stats.linregress(final.loc[2:3,'Prob'].values.astype(float), final.loc[2:3,\n 'Max PW 21 Summary'].values.astype(float))[0:2]\n final.loc[5,\"Max PW 21 Summary\"] = slope * 0.1 + intercept\n slope, intercept = stats.linregress(final.loc[1:2,'Prob'].values.astype(float), final.loc[1:2,\n 'Max PW 21 Summary'].values.astype(float))[0:2]\n final.loc[6,\"Max PW 21 Summary\"] = slope * 0.067 + intercept\n final.loc[7,\"Max PW 21 Summary\"] = final.loc[5,\"Max PW 21 Summary\"] * 1000\n final.loc[8,\"Max PW 21 Summary\"] = final.loc[6,\"Max PW 21 Summary\"] * 1000\n \n final.loc[10,\"Prob\"] = 'Average Annual (ppb)'\n final.loc[10,\"4-Day Summary\"] = final['Annual'].mean() * 1000\n final.to_excel(writer, sheet_name='Bin ' + Bin, index=False)\n writer.save()\nmain()\n\n" }, { "alpha_fraction": 0.837837815284729, "alphanum_fraction": 0.837837815284729, "avg_line_length": 36, "blob_id": "d66f337c67ac9e630485800c606f8ec713988a6a", "content_id": "5c619b39b3646acff759ed67bb23f9d5477e044d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 74, "license_type": "no_license", "max_line_length": 63, "num_lines": 2, "path": "/README.md", "repo_name": "opp-efed/acquire", "src_encoding": "UTF-8", "text": "# acquire\nTools for acquiring and manipulating data from external sources\n" }, { "alpha_fraction": 0.5383628606796265, "alphanum_fraction": 0.5426772236824036, "avg_line_length": 42.53299331665039, "blob_id": "617f97e63d3e9bdc66bdb2c863991bd09ba50f6e", "content_id": "81402e36bf6e1e3bb8d162c6245f3967fa9f0de1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8576, "license_type": "no_license", "max_line_length": 169, "num_lines": 197, "path": "/nmfs/species_list/parse_tables.py", "repo_name": "opp-efed/acquire", "src_encoding": "UTF-8", "text": "import os\nimport pandas as pd\nimport re\nimport requests\nfrom datetime import datetime\n\nclass Table(object):\n def __init__(self, table_match):\n self.name = table_match.group(1)\n self.contents = table_match.group(2)\n\n # Parse table contents\n self.table = self.parse_table()\n\n # Detect subspecies\n self.detect_subspecies()\n\n # Get listing year\n self.listing_year()\n \n\n def detect_subspecies(self):\n self.table['Sublisting'] = None\n species_name = None\n species_num = 0\n self.table = self.table[self.table.Sublisting != \"Parent\"]\n for i, row in self.table.iterrows():\n if \"<ul\" in row.Species:\n row['Sublisting'] = re.sub(r\"</?ul[^>]?>\", \"\", row.Species)\n row['Species'] = species_name\n self.table.loc[species_num, 'Sublisting'] = 'Parent'\n else:\n species_name = row.Species\n species_num = i\n\n self.table = self.table[self.table.Sublisting != \"Parent\"]\n\n def listing_year(self):\n for _, row in self.table.iterrows():\n if listing_type == 'listed':\n row['Year Listed'] = max(map(int, re.findall(\"\\d{4}\", row['Year Listed'])))\n elif listing_type == 'candidate':\n row['Year'] = max(map(int, re.findall(\"\\d{4}\", row['Year'])))\n\n def parse_table(self):\n row_pattern = r\"<tr([^>])>([\\s\\S]+?)</tr>\"\n cell_pattern = r\"<t[dh]([^>])>([\\s\\S]?)<\\/t[dh]>\"\n table = []\n family = None\n for row in re.finditer(row_pattern, self.contents):\n row_tag = row.group(1)\n row_contents = row.group(2)\n row = []\n for cell in re.finditer(cell_pattern, row_contents):\n cell_tag = cell.group(1)\n row.append(cell.group(2))\n\n # Detect 'family' headers\n skip = False\n if len(row) == 1:\n if \"#d8d8d8\" in row_tag or \"#d8d8d8\" in cell_tag:\n family = row[0].strip()\n skip = True\n else:\n row += [''] * 4\n\n if not skip:\n if \"class=\\\"blue\\\"\" in row_tag:\n row.append(\"Family\")\n else:\n row.append(family)\n table.append(row)\n return pd.DataFrame(data=table[1:], columns=table[0])\n \n def clean_table(self):\n\n \n if 'Sublisting' in list(self.table):\n self.table = self.table.rename(columns={'Sublisting' : 'Population'}) \n if 'Family' in list(self.table):\n self.table = self.table.rename(columns={'Family':'Sub Group'}) \n if 'Recovery Plan' in list(self.table):\n self.table = self.table.rename(columns={'Recovery Plan' : 'Recovery Plan'}) \n self.table['Common Name'] = self.table['Species'].map(lambda x: x.split('(')[0])\n self.table['Common Name'] = self.table['Common Name'].str.replace('<p>','')\n self.table['Common Name'] = self.table['Common Name'].str.replace('<u>','')\n self.table['Common Name'] = self.table['Common Name'].str.replace('</p>','')\n self.table['Common Name'] = self.table['Common Name'].str.replace('</u>','')\n self.table = self.table.loc[~self.table['Common Name'].str.contains('reinstated')==True]\n if self.table['Common Name'].str.contains(',').any():\n self.table['Common Name'] = self.table['Common Name'].map(lambda x: x.split(',')[0] if len(x.split(',')) ==1 else x.split(',')[1] + x.split(',')[0]) \n self.table['Scientific Name'] = self.table['Species'].map(lambda x: x.split('(')[2] if len(x.split('(')) >2 else x.split('(')[1]) \n self.table['Scientific Name'] = self.table['Scientific Name'].map(lambda x: x.split(')')[0].replace(')', '')) \n self.table['Population'] = self.table['Population'].fillna('')\n if filtered:# Filter foreign species and a couple other species not subject to section 7\n specific_list = ['Pristis pristis formerly P. perotteti', 'P. pristis', 'P. microdon']\n self.table = self.table.loc[self.table.Status.str.contains('F')==True]\n self.table = self.table.loc[~self.table.Status.isin(specific_list)==True]\n if not listing_type == 'Candidate':\n self.table = self.table[['Common Name','Scientific Name','Population','Sub Group','Year Listed','Status','Critical Habitat',\n 'Recovery Plan']] \n else:\n self.table = self.table[['Common Name','Scientific Name','Population','Sub Group','Year Listed']] \n \n def save(self, output_dir):\n if filtered:\n out_name = self.name.split(\"(\")[0].strip() + '_' + listing_type + '_filtered_'\n else:\n out_name = self.name.split(\"(\")[0].strip() + '_' + listing_type + '_'\n date_stamp = datetime.strftime(datetime.now(), '%Y-%m-%d') \n self.table.to_csv(os.path.join(output_dir, out_name) + date_stamp + '.csv',index = False)\n\n\nclass NMFS_Site(object):\n def __init__(self, site_url, local_site, overwrite):\n self.url = site_url\n self.local = local_site\n self.overwrite = overwrite\n\n # Pull site from NMFS if necessary\n self.site_string = self.acquire_site()\n\n # Clean up HTML formatting\n self.clean_site()\n\n def acquire_site(self):\n if self.overwrite or not os.path.exists(self.local):\n text = requests.get(self.url).text.encode('utf-8')\n with open(self.local, 'w') as f:\n f.write(text)\n with open(local_site, 'w') as f:\n f.write(text)\n# with open(local_site, 'w') as f:\n# f.write(text) \n else:\n with open(self.local) as f:\n text = f.read()\n return text\n\n def extract_tables(self):\n table_pattern = r\"<h2[^>]?>(.+?)</h2>.+?<table[^>]>([\\s\\S]+?)</table>\"\n for table_match in re.finditer(table_pattern, self.site_string):\n table = Table(table_match)\n yield table\n\n def clean_site(self):\n self.site_string = re.sub(r\"<br[^>]?>\", \"\", self.site_string)\n self.site_string = re.sub(r\"</?a[^>]?>\", \"\", self.site_string)\n self.site_string = re.sub(r\"</?b[^>]?>\", \"\", self.site_string)\n self.site_string = re.sub(r\"</?em>\", \"\", self.site_string)\n self.site_string = re.sub(r\"</?i[^>]?>\", \"\", self.site_string)\n self.site_string = re.sub(r\"</?li[^>]?>\", \"\", self.site_string)\n self.site_string = re.sub(r\"</?span[^>]?>\", \"\", self.site_string)\n self.site_string = re.sub(r\"</?div[^>]?>\", \"\", self.site_string)\n self.site_string = re.sub(r\"\\n\", \"\", self.site_string)\n self.site_string = re.sub(r\"&[a-z]+?;\", \"\", self.site_string)\n self.site_string = re.sub(r\"</?sup>\", \"\", self.site_string)\n self.site_string = re.sub(r\"</?strong>\", \"\", self.site_string)\n\ndef stack_tables(path,tables):\n frame = pd.DataFrame()\n list_ = []\n for file in tables:\n if file.count('filtered'):\n append = '_filtered_'\n else:\n append = ''\n df = pd.read_csv(path + '/' + file)\n df['Group'] = file.split('.')[0]\n df = df[['Common Name','Scientific Name','Population','Group','Sub Group','Year Listed','Status','Critical Habitat*',\n 'Recovery Plan']]\n list_.append(df)\n frame = pd.concat(list_)\n frame.to_csv(path + '/' + listing_type + append + '.csv', index = False)\n\ndef main():\n listing_type = 'listed' # can change from listed to candidate\n filtered = False # write out filtered foreign species and a couple other species not subject to section 7\n site_url = 'http://www.nmfs.noaa.gov/pr/species/esa/' + listing_type + '.htm'\n local_site = os.path.join(\"bin\", \"listed.htm\")\n output_dir = os.path.join(\"bin\", \"out_tables\")\n overwrite = True\n\n nmfs_site = NMFS_Site(site_url, local_site, overwrite)\n\n for table in nmfs_site.extract_tables():\n table.clean_table()\n table.save(output_dir)\n \n # get specific lists of tables to stack to one table\n filtered_listed_tables = [x for x in os.listdir(output_dir) if x.count('filtered')]\n listed_tables = [x for x in os.listdir(output_dir) if not x.count('filtered')]\n \n stack_tables(output_dir, filtered_listed_tables)\n stack_tables(output_dir, listed_tables)\n \nmain()\n" }, { "alpha_fraction": 0.47082847356796265, "alphanum_fraction": 0.4795799255371094, "avg_line_length": 36.260868072509766, "blob_id": "ce33288822f0809d7f08d630a6e58af74aa06dda", "content_id": "d94cbec8288d8edcc82d8d9cf8fe9b00aa46d4ff", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1714, "license_type": "no_license", "max_line_length": 97, "num_lines": 46, "path": "/plant_dates/pull_plant_harvest_dates.py", "repo_name": "opp-efed/acquire", "src_encoding": "UTF-8", "text": "import os\nimport numpy as np\nimport urllib.request\nimport re\nimport pandas as pd\n\n\ndef parse_table(table):\n pattern = re.compile(\"([A-Z][A-Za-z\\.\\,\\s]+?)\\s\\.{2,}:\"\n \"\\s+?([\\d\\.\\,]+?)\\s+?\"\n \"((?:[A-Za-z]+\\s\\d+)\|(?:\$NA\$))\\s+\"\n \"((?:[A-Za-z]+\\s\\d+\\s-\\s[A-Za-z]+\\s\\d+)\|(?:\$NA\$))\\s+\"\n \"((?:[A-Za-z]+\\s\\d+)\|(?:\$NA\$))\\s+\"\n \"((?:[A-Za-z]+\\s\\d+)\|(?:\$NA\$))\\s+\"\n \"((?:[A-Za-z]+\\s\\d+\\s-\\s[A-Za-z]+\\s\\d+)\|(?:\$NA\$))\\s+\"\n \"((?:[A-Za-z]+\\s\\d+)\|(?:\$NA\$))\\s+\")\n columns = [\"Crop\", \"Acres\",\n \"Plant Begin\", \"Plant Most Active\", \"Plant End\",\n \"Harvest Begin\", \"Harvest Most Active\", \"Harvest End\"]\n data = np.array([row for row in re.findall(pattern, table)])\n return pd.DataFrame(data, columns=columns)\n\n\ndef fetch_data(remote_path):\n pattern = re.compile(\"Usual Planting and Harvesting Dates by Crop - ([A-Za-z]+?)\\r\"\n \"(?:[\\s\\S]+?-{90,}){2}(?:([\\s\\S]+?)-{90,})\")\n req = urllib.request.Request(url=remote_path)\n full_table = None\n with urllib.request.urlopen(req) as f:\n contents = f.read().decode('utf-8')\n matches = re.findall(pattern, contents)\n for match in matches:\n state, table = match\n table = parse_table(table)\n table['State'] = state\n full_table = table if full_table is None else pd.concat([full_table, table])\n full_table.to_csv(\"plant_harvest\")\n\n\ndef main():\n remote_doc = r\"http://usda.mannlib.cornell.edu/usda/current/planting/planting-10-29-2010.txt\"\n\n fetch_data(remote_doc)\n\n\nmain()\n" }, { "alpha_fraction": 0.6708683371543884, "alphanum_fraction": 0.6708683371543884, "avg_line_length": 31.454545974731445, "blob_id": "094fcb386e4ba9e5048b6db42e1fe86ebef7bf1c", "content_id": "9d84e82f9ea379606160e99ebb3b504145135050", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 714, "license_type": "no_license", "max_line_length": 111, "num_lines": 22, "path": "/wqp/combine_wqp_data.py", "repo_name": "opp-efed/acquire", "src_encoding": "UTF-8", "text": "import pandas as pd\n\n\ndef main():\n # Specify run paths and parameters\n site_file = \"station.csv\"\n data_file = \"narrowresult.csv\"\n out_file = \"comb_results.csv\"\n keep_all_fields = False # Keep all site file fields if True, confine to location id, and lat/long if False\n\n # Read csv files\n site_df = pd.read_csv(site_file, keep_default_na=False, na_values=[\"\"])\n if not keep_all_fields:\n site_df = site_df[\"MonitoringLocationIdentifier\", \"LatitudeMeasure\", \"LongitudeMeasure\"]\n conc_df = pd.read_csv(data_file, keep_default_na=False, na_values=[\"\"])\n conc_df = conc_df.merge(site_df, on='MonitoringLocationIdentifier')\n\n # Write to file\n conc_df.to_csv(out_file)\n\n\nmain()\n" }, { "alpha_fraction": 0.8363636136054993, "alphanum_fraction": 0.8363636136054993, "avg_line_length": 54, "blob_id": "ca5340d52042aa8f27fee15d6ca92fc1081aa035", "content_id": "b04a484dcb067f3ad1ba47d03a23a71bda4648ba", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 55, "license_type": "no_license", "max_line_length": 54, "num_lines": 1, "path": "/wqp/README.md", "repo_name": "opp-efed/acquire", "src_encoding": "UTF-8", "text": "Acquire and process data from the Water Quality Portal\n" }, { "alpha_fraction": 0.5589586496353149, "alphanum_fraction": 0.5658499002456665, "avg_line_length": 30.119047164916992, "blob_id": "844ebbd9e143371b4277ebe5516d1b13275d4710", "content_id": "63047c8f5d173e79e328c7b932a6900e8a9b575c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1306, "license_type": "no_license", "max_line_length": 95, "num_lines": 42, "path": "/pesticide_use/fetch_use.py", "repo_name": "opp-efed/acquire", "src_encoding": "UTF-8", "text": "import io\nimport os\nimport urllib\n\nimport pandas as pd\nimport numpy as np\n\n\nclass UseData(object):\n def __init__(self, use_dir, usgs_url):\n self.use_dir = use_dir\n self.usgs_url = usgs_url\n\n # Initialize storage space\n if not os.path.isdir(use_dir):\n os.makedirs(use_dir)\n\n # Fetch use data from USGS website\n self.pull_use_data()\n\n def pull_use_data(self):\n \"\"\" Pull use data from usgs.gov \"\"\"\n pairs = [('high', i) for i in range(1, 8)] + [('low', i) for i in range(8, 15)]\n for level, table_num in pairs:\n url = self.usgs_url.format(level, table_num)\n outfile = os.path.join(self.use_dir, \"{}_{}.txt\".format(level, table_num))\n if not os.path.exists(outfile):\n print(\"\\tPulling use data from {}...\".format(url))\n req = urllib.request.Request(url)\n with urllib.request.urlopen(req) as response:\n table = pd.read_csv(io.StringIO(response.read().decode('utf-8')), sep=\"\\t\")\n table.to_csv(outfile)\n\n\ndef main():\n use_dir = os.path.join(\"..\", \"bin\", \"use_tables\")\n usgs_url = r\"http://pubs.usgs.gov/ds/752/EPest.{}.county.estimates.table{}.txt\"\n overwrite = False\n\n UseData(use_dir, usgs_url)\n\nmain()" }, { "alpha_fraction": 0.8399999737739563, "alphanum_fraction": 0.8399999737739563, "avg_line_length": 50, "blob_id": "af8bcbc45f3c7aa81fe8f151da3cdff3730c67a9", "content_id": "82b658e119143e1169fde3fce7867543403eb416", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 50, "license_type": "no_license", "max_line_length": 50, "num_lines": 1, "path": "/pesticide_use/README.md", "repo_name": "opp-efed/acquire", "src_encoding": "UTF-8", "text": "Acquire and process data from USGS's EPest dataset" }, { "alpha_fraction": 0.8333333134651184, "alphanum_fraction": 0.8333333134651184, "avg_line_length": 53, "blob_id": "2bffda6c3745024f41f90463f5ded3f780e72818", "content_id": "a1480a4618a2a7b4047b9d88999826eafae9b5f4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 54, "license_type": "no_license", "max_line_length": 53, "num_lines": 1, "path": "/streamcat/README.md", "repo_name": "opp-efed/acquire", "src_encoding": "UTF-8", "text": "Acquire and process data from EPA's StreamCat dataset\n" }, { "alpha_fraction": 0.4455316364765167, "alphanum_fraction": 0.46510112285614014, "avg_line_length": 37.81012725830078, "blob_id": "76f3d3e9c9da6ca2712e292777ff8d723bcddfd6", "content_id": "02ffaa896f52f29e5c13e7faf12198ec5f1a19c5", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3066, "license_type": "no_license", "max_line_length": 96, "num_lines": 79, "path": "/streamcat/fetch_streamcat.py", "repo_name": "opp-efed/acquire", "src_encoding": "UTF-8", "text": "import os\nimport pandas as pd\nfrom ftplib import FTP\n\n\ndef assemble_tables(out_dir, overwrite):\n # Make FTP connection. FTP site for StreamCat is\n # ftp://newftp.epa.gov/EPADataCommons/ORD/NHDPlusLandscapeAttributes/StreamCat/HydroRegions/\n ftp = FTP('newftp.epa.gov') # connect to host, default port\n ftp.login() # user anonymous, passwd anonymous@\n ftp.cwd('EPADataCommons/ORD/NHDPlusLandscapeAttributes/StreamCat/HydroRegions')\n\n # Initialize file storage\n if not os.path.exists(out_dir):\n os.makedirs(out_dir)\n\n # Loop through region and variable and pull files\n file_index = []\n for variable in streamcat_tables:\n for region in nhd_states:\n dataset = \"{}_Region{}.zip\".format(variable, region)\n out_dataset = os.path.join(out_dir, dataset)\n if overwrite or not os.path.exists(out_dataset):\n print(\"Pulling dataset {} from EPA site...\".format(dataset))\n ftp.retrbinary('RETR {}'.format(dataset), open(out_dataset, 'wb').write)\n file_index.append((variable, region, out_dataset))\n return file_index\n\n\ndef condense_tables(file_index):\n for variable, region, dataset in file_index:\n dataset = pd.read_csv(dataset)\n print(dataset)\n input()\n\n\ndef main():\n # Set output directory and variables of interest\n output_dir = os.path.join(\"..\", \"bin\", \"StreamCat\")\n overwrite = True\n\n file_index = assemble_tables(output_dir, overwrite)\n condense_tables(file_index)\n\n\nstreamcat_tables = [\"Runoff\",\n \"Pesticides97\",\n \"PRISM_1981_2010\",\n \"NLCD2006\",\n \"Kffact\",\n \"ImperviousSurfaces2006\",\n \"CanalDensity\",\n \"BFI\",\n \"AgMidHiSlopes\",\n \"Elevation\"]\n\nnhd_states = {'01': {\"ME\", \"NH\", \"VT\", \"MA\", \"CT\", \"RI\", \"NY\"},\n '02': {\"VT\", \"NY\", \"PA\", \"NJ\", \"MD\", \"DE\", \"WV\", \"DC\", \"VA\"},\n '03N': {\"VA\", \"NC\", \"SC\", \"GA\"},\n '03S': {\"FL\", \"GA\"},\n '03W': {\"FL\", \"GA\", \"TN\", \"AL\", \"MS\"},\n '04': {\"WI\", \"MN\", \"MI\", \"IL\", \"IN\", \"OH\", \"PA\", \"NY\"},\n '05': {\"IL\", \"IN\", \"OH\", \"PA\", \"WV\", \"VA\", \"KY\", \"TN\"},\n '06': {\"VA\", \"KY\", \"TN\", \"NC\", \"GA\", \"AL\", \"MS\"},\n '07': {\"MN\", \"WI\", \"SD\", \"IA\", \"IL\", \"MO\", \"IN\"},\n '08': {\"MO\", \"KY\", \"TN\", \"AR\", \"MS\", \"LA\"},\n '09': {\"ND\", \"MN\", \"SD\"},\n '10U': {\"MT\", \"ND\", \"WY\", \"SD\", \"MN\", \"NE\", \"IA\"},\n '10L': {\"CO\", \"WY\", \"MN\", \"NE\", \"IA\", \"KS\", \"MO\"},\n '11': {\"CO\", \"KS\", \"MO\", \"NM\", \"TX\", \"OK\", \"AR\", \"LA\"},\n '12': {\"NM\", \"TX\", \"LA\"},\n '13': {\"CO\", \"NM\", \"TX\"},\n '14': {\"WY\", \"UT\", \"CO\", \"AZ\", \"NM\"},\n '15': {\"NV\", \"UT\", \"AZ\", \"NM\", \"CA\"},\n '16': {\"CA\", \"OR\", \"ID\", \"WY\", \"NV\", \"UT\"},\n '17': {\"WA\", \"ID\", \"MT\", \"OR\", \"WY\", \"UT\", \"NV\"},\n '18': {\"OR\", \"NV\", \"CA\"}}\n\nmain()\n" } ]	10
cheunste/corebackupscripts	https://github.com/cheunste/corebackupscripts	95f9f33afc355abedc7bbafe6a6c3849fd524808	f94a911aa99dda9f1bd3c572a6e32e08294b410c	6c3980f626d7b2a6c9c2347d3a7243c45e325686	refs/heads/master	2020-12-05T17:20:33.175504	2020-02-04T16:56:50	2020-02-04T16:56:50	232,186,376	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.7240110635757446, "alphanum_fraction": 0.724931001663208, "avg_line_length": 24.279069900512695, "blob_id": "4815438d8c7e966fed946f3577b71212c5206ba9", "content_id": "662e81aefda805ad565d98ef2b900de3b5a0d89c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1087, "license_type": "no_license", "max_line_length": 68, "num_lines": 43, "path": "/module/ConfigModule.py", "repo_name": "cheunste/corebackupscripts", "src_encoding": "UTF-8", "text": "import csv\n\nUCC_PROJECT_CONFIG_FILE = 'config/UccProjectConfig.csv'\nPDX_HMI_PROJECT_CONFIG_FILE = 'config/PdxHmiProjectConfig.csv'\nSITE_HMI_PROJECT_CONFIG_FILE = 'config/SiteHmiProjectConfig.csv'\nFE_PROJECT_CONFIG_FILE = 'config/FeProjectConfig.csv'\n_REQUIRED_FIELD_LENGTH = 3\n\n\ndef compile_config_list() -> list:\n\tconfig_list = [\n\t\tUCC_PROJECT_CONFIG_FILE,\n\t\tPDX_HMI_PROJECT_CONFIG_FILE,\n\t\tSITE_HMI_PROJECT_CONFIG_FILE,\n\t\tFE_PROJECT_CONFIG_FILE\n\t]\n\treturn config_list\n\n\ndef read_project_sites(config_file_name) -> list:\n\twith open(config_file_name) as config_file:\n\t\tconfig_file.__next__()\n\t\tsite_project_csv = csv.reader(config_file)\n\t\tproject_list = []\n\t\tfor row in site_project_csv:\n\t\t\tif _is_number_of_fields_valid(row) and _is_field_name_valid(row):\n\t\t\t\tproject_list.append(row)\n\t\treturn project_list\n\n\ndef convert_config_list_to_tuple(config_list) -> tuple:\n\treturn tuple(config_list)\n\n\ndef _is_number_of_fields_valid(row) -> bool:\n\treturn len(row) == _REQUIRED_FIELD_LENGTH\n\n\ndef _is_field_name_valid(row) -> bool:\n\tfor field in row:\n\t\tif not field:\n\t\t\treturn False\n\treturn True\n" }, { "alpha_fraction": 0.6986899375915527, "alphanum_fraction": 0.703930139541626, "avg_line_length": 19.087718963623047, "blob_id": "48b8d83bf48d0215773185b575c63f0c697a5c8e", "content_id": "e8a36dd1555a2fa248616ecb239303c73dede50d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1145, "license_type": "no_license", "max_line_length": 78, "num_lines": 57, "path": "/module/FolderModule.py", "repo_name": "cheunste/corebackupscripts", "src_encoding": "UTF-8", "text": "import os\nimport datetime\nimport shutil\nimport time\nimport re\n\nBACKUP_PATH = \"./TestFolder/{0}\"\nWEEKLY_ARCHIVE_PATH = \"./Archive/{0}\"\nPDX_HMI_PATH = \"/PDX-HMI/\"\nSITE_HMI_PATH = \"/SITE-HMI/\"\nUCC_PATH = \"/UCC/\"\nFE_PATH = \"/FE/\"\nDIRECTORY = \"./\"\n\nSUNDAY = 6\nSIX_MONTHS = 630\n\n\ndef create_daily_folder(name):\n\tfolder_name = BACKUP_PATH.format(name)\n\ttry:\n\t\tos.makedirs(folder_name)\n\t\tos.makedirs(folder_name + PDX_HMI_PATH)\n\t\tos.makedirs(folder_name + SITE_HMI_PATH)\n\t\tos.makedirs(folder_name + UCC_PATH)\n\t\tos.makedirs(folder_name + FE_PATH)\n\texcept:\n\t\tprint(\"Folder already exists\")\n\n\ndef create_weekly_folder(name):\n\tfolder_name = WEEKLY_ARCHIVE_PATH.format(name.strftime(\"%m-%d-%Y (Week#%U)\"))\n\ttry:\n\t\tos.makedirs(folder_name)\n\n\texcept:\n\t\tprint(\"Folder already exists\")\n\n\ndef create_sub_directories(path):\n\ttry:\n\t\tos.makedirs(path+PDX_HMI_PATH)\n\t\tos.makedirs(path+SITE_HMI_PATH)\n\t\tos.makedirs(path+UCC_PATH)\n\t\tos.makedirs(path+FE_PATH)\n\texcept:\n\t\tprint(\"Some paths already exists\")\n\n\n'''\nCopy the most recent created directory\n'''\n\n\ndef copy_directory(current_directory,date):\n\tshutil.copytree(current_directory, BACKUP_PATH.format(date))\n\tpass\n" }, { "alpha_fraction": 0.7075055241584778, "alphanum_fraction": 0.7163355350494385, "avg_line_length": 42.14285659790039, "blob_id": "89c94ec1fd991e82ac58d21e7dd65083b44765fc", "content_id": "a93f8330ccfe78fd9775f4237cefe8852cfef9fa", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1812, "license_type": "no_license", "max_line_length": 111, "num_lines": 42, "path": "/tests/FolderMigrationTests.py", "repo_name": "cheunste/corebackupscripts", "src_encoding": "UTF-8", "text": "import os\nimport shutil\nimport unittest\nfrom datetime import datetime, timedelta\n\nfrom module import FolderModule as Cbs\n\n\nclass FolderMigration(unittest.TestCase):\n\n\tsunday_datestr = \"2020-01-12\"\n\tsunday_date = datetime.strptime(sunday_datestr, \"%Y-%m-%d\")\n\n\tdef setUp(self) -> None:\n\t\tshutil.rmtree(Cbs.WEEKLY_ARCHIVE_PATH[:-3], True)\n\t\tshutil.rmtree(Cbs.BACKUP_PATH[:-3], True)\n\n\tdef test_create_daily_folder(self):\n\t\tdate = datetime.now()\n\t\tfolder_name = date.strftime(\"%m-%d-%Y\")\n\t\tCbs.create_daily_folder(folder_name)\n\t\tself.assertTrue(os.path.isdir(str.format(Cbs.BACKUP_PATH, folder_name)))\n\t\tself.assertTrue(os.path.isdir(str.format(Cbs.BACKUP_PATH + \"/{1}\", folder_name, Cbs.PDX_HMI_PATH)))\n\t\tself.assertTrue(os.path.isdir(str.format(Cbs.BACKUP_PATH + \"/{1}\", folder_name, Cbs.FE_PATH)))\n\t\tself.assertTrue(os.path.isdir(str.format(Cbs.BACKUP_PATH + \"/{1}\", folder_name, Cbs.SITE_HMI_PATH)))\n\t\tself.assertTrue(os.path.isdir(str.format(Cbs.BACKUP_PATH + \"/{1}\", folder_name, Cbs.UCC_PATH)))\n\n\tdef test_create_weekly_folder(self):\n\t\tdate = self.sunday_date\n\t\tfolder_name = date.strftime(\"%m-%d-%Y (Week#%U)\")\n\t\tCbs.create_weekly_folder(date)\n\t\tself.assertTrue(os.path.isdir(str.format(Cbs.WEEKLY_ARCHIVE_PATH, folder_name)))\n\n\tdef test_copy_directory(self):\n\t\tcurrent_date = datetime.now()\n\t\tCbs.create_daily_folder(current_date.strftime(\"%m-%d-%Y\"))\n\t\tnew_date = current_date - timedelta(1)\n\t\tnew_copied_directory_name = new_date.strftime(\"%m-%d-%Y\")\n\t\tCbs.copy_directory(str.format(Cbs.BACKUP_PATH, current_date.strftime(\"%m-%d-%Y\")), new_copied_directory_name)\n\t\tself.assertTrue(os.path.isdir(str.format(Cbs.BACKUP_PATH, new_copied_directory_name)))\n\t\tself.assertTrue(os.path.isdir(str.format(Cbs.BACKUP_PATH, current_date.strftime(\"%m-%d-%Y\"))))\n\t\tself.assertTrue(os.path.isdir(Cbs.BACKUP_PATH[:-3]))\n" }, { "alpha_fraction": 0.691884458065033, "alphanum_fraction": 0.6946355104446411, "avg_line_length": 20.382352828979492, "blob_id": "0163a1d0a1b6636a4897cb6f6c7a4c0ba218aa30", "content_id": "2bd42e22e80598b8e7463c779f773dcab85282e4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 727, "license_type": "no_license", "max_line_length": 85, "num_lines": 34, "path": "/CoreBackupScript.py", "repo_name": "cheunste/corebackupscripts", "src_encoding": "UTF-8", "text": "import sys, getopt\nimport datetime\nimport multiprocessing\nfrom module import RoboCopyModule\nfrom module import FolderModule\nfrom module import ConfigModule\n\n\ndef use_robocopy():\n\tconfig_list = ConfigModule.compile_config_list()\n\tfor config in config_list:\n\t\t(hostname,ip_address,zip_file_name) = \\\n\t\t\tConfigModule.convert_config_list_to_tuple(ConfigModule.read_project_sites(config))\n\tpass\n\n\ndef copy_to_backup():\n\tpass\n\n\nif __name__ == 'main':\n\ttry:\n\t\topts,args = getopt.getopt(sys.argv[1:],\"rc:v\",[\"robocopy\",\"copy\"])\n\texcept getopt.GetoptError as err:\n\t\tprint(err)\n\t\tsys.exit(2)\n\n\tfor o,a in opts:\n\t\tif o in (\"-r\",\"--robocopy\"):\n\t\t\tuse_robocopy()\n\t\t\tsys.exit()\n\t\telif o in (\"-c\",\"--copy\"):\n\t\t\tcopy_to_backup()\n\t\t\tsys.exit()\n" }, { "alpha_fraction": 0.7489204406738281, "alphanum_fraction": 0.7520049214363098, "avg_line_length": 35.84090805053711, "blob_id": "8ae77342c7aea583199c45bad7b917f314927bf0", "content_id": "f1071f8cefb251ee3ba72d41e9aa04997b9e4e71", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1621, "license_type": "no_license", "max_line_length": 85, "num_lines": 44, "path": "/tests/ConfigurationTests.py", "repo_name": "cheunste/corebackupscripts", "src_encoding": "UTF-8", "text": "import os\nimport unittest\nimport threading\n\nfrom module import ConfigModule as Config\n\n\nclass ConfigurationTest(unittest.TestCase):\n\n\tdef test_read_ucc_configuration_file(self):\n\t\tself.assertTrue(os.path.isfile(Config.UCC_PROJECT_CONFIG_FILE))\n\t\tucc_config_list = Config.read_project_sites(Config.UCC_PROJECT_CONFIG_FILE)\n\t\tself.assertTrue(len(ucc_config_list) == 2)\n\n\tdef test_read_site_hmi_configuration_file(self):\n\t\tself.assertTrue(os.path.isfile(Config.SITE_HMI_PROJECT_CONFIG_FILE))\n\t\tucc_config_list = Config.read_project_sites(Config.SITE_HMI_PROJECT_CONFIG_FILE)\n\t\tself.assertTrue(len(ucc_config_list) == 2)\n\n\tdef test_read_fe_configuration_file(self):\n\t\tself.assertTrue(os.path.isfile(Config.FE_PROJECT_CONFIG_FILE))\n\t\tucc_config_list = Config.read_project_sites(Config.FE_PROJECT_CONFIG_FILE)\n\t\tself.assertTrue(len(ucc_config_list) == 2)\n\n\tdef test_read_pdx_hmi_configuration_file(self):\n\t\tself.assertTrue(os.path.isfile(Config.PDX_HMI_PROJECT_CONFIG_FILE))\n\t\tucc_config_list = Config.read_project_sites(Config.PDX_HMI_PROJECT_CONFIG_FILE)\n\t\tself.assertTrue(len(ucc_config_list) == 2)\n\n\tdef test_get_config_list(self):\n\t\tconfig_list = Config.compile_config_list()\n\t\tself.assertTrue(len(config_list) == 4)\n\n\tdef test_get_tuple_from_config_list(self):\n\t\thostname = \"HOSTNAME\"\n\t\tip_address = \"xx.xx.xx.xxx\"\n\t\tzip_file_name = \"some_zip_file\"\n\n\t\ttest_list = [hostname,ip_address,zip_file_name]\n\t\t(tuple_hostname,tuple_ip,tuple_zip)= Config.convert_config_list_to_tuple(test_list)\n\n\t\tself.assertTrue(tuple_hostname == hostname)\n\t\tself.assertTrue(tuple_ip == ip_address)\n\t\tself.assertTrue(tuple_zip == zip_file_name)\n" }, { "alpha_fraction": 0.8119266033172607, "alphanum_fraction": 0.8119266033172607, "avg_line_length": 30, "blob_id": "db4def3e88f5a944cd09310c94db3da1f058b861", "content_id": "8807fcfcedd9b1c0b12391269753cff75a5d2168", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 218, "license_type": "no_license", "max_line_length": 54, "num_lines": 7, "path": "/CoreBackupScriptTest.py", "repo_name": "cheunste/corebackupscripts", "src_encoding": "UTF-8", "text": "import unittest\nfrom tests.RoboCopyTests import RoboCopyTests\nfrom tests.FolderMigrationTests import FolderMigration\nfrom tests.ConfigurationTests import ConfigurationTest\n\nif __name__ == '__main__':\n\tunittest.main()\n\n" }, { "alpha_fraction": 0.7133582830429077, "alphanum_fraction": 0.7228464484214783, "avg_line_length": 37.13333511352539, "blob_id": "d2dee11f95b080355ccff77229d72ad239e5992b", "content_id": "b6831edbadf0fff190a2cce445d24bdc0a33dbfa", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4005, "license_type": "no_license", "max_line_length": 122, "num_lines": 105, "path": "/tests/RoboCopyTests.py", "repo_name": "cheunste/corebackupscripts", "src_encoding": "UTF-8", "text": "import os\nimport shutil\nimport unittest\nimport zipfile\n\nfrom module import RoboCopyModule as Robo\nfrom module import ConfigModule as Config\nimport filecmp\n\n\nclass RoboCopyTests(unittest.TestCase):\n\ttest_include_file_name = \"test12345\"\n\ttest_ignore_file_name = \"test_12345\"\n\n\tsource_dir = \"./source_directory\"\n\tdest_dir = \"./latest/\"\n\tproject_from_remote_site = r\"C:\\Users\\Stephen\\Documents\\backupShareDrive\"\n\tdestination_from_remove_site = r\"test_call_with_site\"\n\n\tnumber_of_sub_folders = 7\n\n\tdef setUp(self) -> None:\n\t\tshutil.rmtree(self.source_dir, True)\n\t\tshutil.rmtree(self.dest_dir, True)\n\t\tshutil.rmtree(self.destination_from_remove_site,True)\n\n\tdef test_robocopy_to_backup_folder(self):\n\t\tself._create_dummy_directories()\n\t\tself._create_dummy_files(self.source_dir)\n\t\tRobo.call_robo_copy(self.source_dir, self.dest_dir, Robo.FLAGS)\n\t\tself._check_file_in_path(self.dest_dir, self.test_include_file_name+\".txt\")\n\n\tdef test_zipping_project(self):\n\t\tzip_file_name=\"test_zip\"\n\t\tself._create_dummy_directories()\n\t\tself._create_dummy_files(self.source_dir)\n\t\tRobo.zip_directory(self.source_dir, self.dest_dir, zip_file_name)\n\n\t\tself.assertTrue(os.path.isfile(self.dest_dir+zip_file_name+\".zip\"))\n\t\tzipped_test_project = zipfile.ZipFile(self.dest_dir+zip_file_name+\".zip\",'r')\n\t\tnumber_of_items_in_zipped_project = 0\n\t\tfor item in zipped_test_project.namelist():\n\t\t\tnumber_of_items_in_zipped_project = number_of_items_in_zipped_project+1\n\t\t\tprint(item)\n\t\tself.assertTrue(number_of_items_in_zipped_project == ((self.number_of_sub_folders2)+self.number_of_sub_folders+3))\n\n\tdef test_call_robocopy_with_config(self):\n\t\tconfig_file = Config.UCC_PROJECT_CONFIG_FILE\n\t\tproject_list = Config.read_project_sites(config_file)\n\n\t\tfor project in project_list:\n\t\t\thostname = project[0]\n\t\t\tip_address = project[1]\n\t\t\tzip_file_name = project[2]\n\n\t\t\tf_drive = str.format(r\"\\\\{0}\\f$\\\\\", ip_address)\n\t\t\td_drive = str.format(r\"\\\\{0}\\d$\\\\\", ip_address)\n\n\t\t\tprint(f_drive)\n\t\t\tself.assertFalse(not hostname)\n\t\t\tself.assertFalse(not ip_address)\n\t\t\tself.assertFalse(not zip_file_name)\n\n\t\t\tRobo.call_robo_copy(ip_address, f_drive, Robo.FLAGS)\n\t\t\tRobo.call_robo_copy(ip_address, d_drive, Robo.FLAGS)\n\n\tdef test_call_with_virtual_machine(self):\n\t\ttest_source = self.project_from_remote_site\n\t\ttest_destination = self.destination_from_remove_site\n\t\tRobo.use_site(test_source, test_destination, True)\n\n\t\tself.assertTrue(self._did_directory_copy_bad_files(test_source, test_destination))\n\t\tself.assertTrue(self._did_directory_copy_bad_files(test_source + r\"\\TestTestTest\", test_destination + r\"\\TestTestTest\"))\n\t\tself.assertTrue(self._did_directory_copy_bad_files\\\n\t\t\t(test_source + r\"\\TestTestTest\\LosLosLos\",test_destination + r\"\\TestTestTest\\LosLosLos\"))\n\t\tself.assertTrue(self._did_directory_copy_bad_files \\\n\t\t\t(test_source + r\"\\TestTestTest\\LosLosLos\\SubFolder2\", test_destination + r\"\\TestTestTest\\LosLosLos\\SubFolder2\"))\n\n\tdef _create_dummy_directories(self):\n\t\tsub_directory=\"/sub/\"\n\t\tos.makedirs(self.source_dir)\n\t\tos.makedirs(self.dest_dir)\n\t\tfor x in range(0,self.number_of_sub_folders):\n\t\t\tfor y in range(0, self.number_of_sub_folders):\n\t\t\t\tsub_directory_name = str.format(\"/{0}/{0}{1}\", x, y)\n\t\t\t\tos.makedirs(self.source_dir+sub_directory+sub_directory_name)\n\n\tdef _create_dummy_files(self, directory):\n\t\tdummy_txt_file = open(str.format(\"./{0}/{1}.txt\", directory, self.test_include_file_name), \"w\")\n\t\tdummy_txt_file.close()\n\t\tdummy_good_txt_file = open(str.format(\"./{0}/{1}.txt\", directory, self.test_include_file_name), \"w\")\n\t\tdummy_good_txt_file.close()\n\t\tdummy_dat_file = open(str.format(\"./{0}/{1}.dat\", directory, self.test_ignore_file_name), \"w\")\n\t\tdummy_dat_file.close()\n\n\tdef _check_file_in_path(self, path, filename):\n\t\tcomplete_file_path = path + filename\n\t\tself.assertTrue(os.path.isfile(complete_file_path))\n\n\tdef _did_directory_copy_bad_files(self, dir1, dir2) -> bool:\n\t\tdirectory_compare = filecmp.dircmp(dir1,dir2)\n\t\tif len(directory_compare.right_only) == 0:\n\t\t\treturn True\n\t\telse:\n\t\t\treturn False\n\n" }, { "alpha_fraction": 0.6977272629737854, "alphanum_fraction": 0.7015151381492615, "avg_line_length": 26.5, "blob_id": "54b9e555ab55a39e861d1e5ec57f60ad05fa63ef", "content_id": "0886bea048023e8bf0175ecb6e6c0b05cd671dc5", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1320, "license_type": "no_license", "max_line_length": 71, "num_lines": 48, "path": "/module/RoboCopyModule.py", "repo_name": "cheunste/corebackupscripts", "src_encoding": "UTF-8", "text": "from subprocess import call\nimport os,zipfile\n\nFLAGS = \"/MT:50 /Z /E /R:5 /XF _.dat _.txt\"\n\n\ndef call_robo_copy(source_dir,dest_dir, flags):\n\t#ROBOCOPY \\\\source\\f$\\whatever destination /XF _.dat _.txt\n\tcall([\"robocopy\",source_dir,dest_dir, flags])\n\n\ndef use_site(hostname, destination, test_mode=False):\n\tfull_path_d_drive = str.format(r\"\\\\{0}\\d$\\\\PcVue\",hostname)\n\tfull_path_f_drive = str.format(r\"\\\\{0}\\d$\\\\PcVue\",hostname)\n\n\t# If in test mode, then use your own VMs\n\tif test_mode:\n\t\tcall_robo_copy(hostname, destination, FLAGS)\n\telse:\n\t\tcall_robo_copy(full_path_d_drive, destination, FLAGS)\n\t\tcall_robo_copy(full_path_f_drive,destination,FLAGS)\n\n\ndef zip_directory(source_directory,zip_file_path,zip_file_name=\"Test\"):\n\n\tfile_paths = _get_file_paths_inside_directory(source_directory)\n\n\tzip_file = zipfile.ZipFile(zip_file_path+zip_file_name+'.zip','w')\n\twith zip_file:\n\t\tfor file in file_paths:\n\t\t\tzip_file.write(file)\n\tpass\n\n\ndef _get_file_paths_inside_directory(directory_name) -> []:\n\n\tfile_paths = []\n\n\tfor root, directories, files in os.walk(directory_name):\n\t\tfor file_name in files:\n\t\t\tfile_path = os.path.join(root, file_name)\n\t\t\tfile_paths.append(file_path)\n\n\t\tfor directory_name in directories:\n\t\t\tfile_path = os.path.join(root, directory_name)\n\t\t\tfile_paths.append(file_path)\n\n\treturn file_paths\n" } ]	8
cfcs/misc	https://github.com/cfcs/misc	e523be7090f95a0068225611cf4402dd171fa666	045f2e719a8ffb6e096508cf19e5215454bbb89d	a6b3bf23fc6f41180168447dfa306ccf65824b64	refs/heads/master	2023-05-28T02:35:24.107322	2023-05-13T12:34:26	2023-05-13T12:34:26	27,444,083	5	0	null	null	null	null	null	[ { "alpha_fraction": 0.49504950642585754, "alphanum_fraction": 0.5346534848213196, "avg_line_length": 24.125, "blob_id": "2a8501f0c87ba371c147157f3085a6aa0e8c486f", "content_id": "2cf95da57c0bd7fb005db77e7223d60da0952d92", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 202, "license_type": "no_license", "max_line_length": 91, "num_lines": 8, "path": "/get_tls_chain", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/bin/bash\nif [[ -z \"$1\" \|\| -z \"$2\" ]]; then\n echo \"Usage: $0 <server> <port>\";\n exit;\nfi;\n\necho QUIT \| \\\nopenssl s_client -tls1_2 -connect $1:$2 -showcerts \| awk '/BEGIN /,/END /' > \"chain_$1.pem\"\n\n" }, { "alpha_fraction": 0.6243821978569031, "alphanum_fraction": 0.6507413387298584, "avg_line_length": 30.947368621826172, "blob_id": "406d3b19466cba0cd20e3920d9c66f13a4fc6add", "content_id": "111bcba4798a82f01c642203ad9faf3849bce94c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 607, "license_type": "no_license", "max_line_length": 135, "num_lines": 19, "path": "/register_xmpp_user", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/bin/bash -eu\necho \"Usage: $0 [example.com] [username] [password] \| openssl s_client -starttls xmpp -connect [server]:5222\" 1>&2\n\nserver=\"$1\"\nusername=\"$2\"\npassword=\"$3\"\n\ncat <<EOF\n<?xml version='1.0'?><stream:stream to='${server}' version='1.0' xmlns:stream='http://etherx.jabber.org/streams' xmlns='jabber:client'>\n<iq type='get' id='reg1' to='${server}'>\n <query xmlns='jabber:iq:register'/>\n</iq>\n<iq type='set' id='purple$(xxd -l 4 -p /dev/urandom)' to='${server}'>\n <query xmlns='jabber:iq:register'>\n <username>${username}</username>\n <password>${password}</password>\n</query></iq>\nEOF\ncat\n" }, { "alpha_fraction": 0.5980861186981201, "alphanum_fraction": 0.6363636255264282, "avg_line_length": 19.899999618530273, "blob_id": "23705fa3d74afc4d10223d7f4e7fb50dead28d34", "content_id": "5fb2342007b9699a62117e5a1963a09ca8d680ab", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 209, "license_type": "no_license", "max_line_length": 56, "num_lines": 10, "path": "/fix-firefox-volume.sh", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/bin/bash\n\n# Fix firefox volume up to 100% again\n\npactl set-sink-input-volume $(\n pactl-list \| awk -f <(cat <<'EOF'\n/^Sink Input/ {n=$3}\n/application.name = \"Firefox\"/ {print substr(n,2); exit}\nEOF\n)) 100%\n" }, { "alpha_fraction": 0.44994768500328064, "alphanum_fraction": 0.4607603847980499, "avg_line_length": 34.837501525878906, "blob_id": "a1ede7f72fbdab9a9bf67fad21b5d96464e8f398", "content_id": "b5be385bf18fcd9f38c3bf564e9915bb38f7420e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2867, "license_type": "no_license", "max_line_length": 99, "num_lines": 80, "path": "/pdfcolor.py", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python3\n'''Adds text color to a PDF, best-effort. Written to aid in printing on a printer out of black ink.\n Usage: pdfcolor.py input.pdf > output.pdf\n NB: It also inadvertantly applies zlib compression to all objects that it sees.\n It only handles objects whose length/filter/>> directives are on individual\n lines, because that's what my PDF looked like.\n'''\nimport os\nimport zlib\nimport sys\nimport re\n\ndef process(fn):\n f = open(fn,'rb').readlines()\n length = 0\n state = 0 # 0: headers, 1: first line after >>, 2: payload body\n buf = b''\n filtr = ''\n last_was_close = False\n last_was_stream = False\n is_first = False\n for lin in f:\n if 1 == state:\n state = 2\n if b'stream\\n' == lin:\n assert length\n last_was_stream = True\n continue\n if state:\n out = lin[:length]\n length -= len(out)\n buf += out\n if length <= 0:\n plain = buf\n if 'FlateDecode' in filtr: # assume only one, can be wrapped in [] for example\n plain = zlib.decompress(buf)\n if b'BT\\n' in plain:\n # This is where the magic happens\n # - add rgb color to text:\n plain = b'.8 0 0 rg\\n' + plain\n deflated = zlib.compress(plain)\n os.write(1, b'/Length ' + str(len(deflated)).encode('latin1') + b'\\n')\n os.write(1, b'/Filter [/FlateDecode]\\n')\n os.write(1, b'>>\\n')\n if last_was_stream:\n os.write(1, b'stream\\n')\n last_was_stream = False\n assert len(deflated) == os.write(1, deflated)\n os.write(1, b'\\n')\n state = 0\n buf = b''\n filtr = ''\n else:\n if last_was_stream:\n last_was_stream = False\n if b'>>\\n' == lin:\n last_was_close = True\n if length:\n state = 1\n is_first = True\n else:\n filtr = ''\n elif lin.startswith(b'/Length '):\n lengthlist = lin.decode('latin1').strip().split(' ')\n if len(lengthlist) == 2:\n length = int(lengthlist[1])\n else:\n # ignore line-based: if lengthlist[-1] == 'R':\n assert False\n elif lin.startswith(b'/Filter'):\n filtr = re.split('[ /]', lin.decode('latin1')[1:].strip())[1:]\n else:\n if last_was_close:\n os.write(1, b'>>\\n')\n last_was_close = False\n os.write(1, lin)\n\nif '__main__' == __name__:\n fn = sys.argv[1]\n process(fn)\n" }, { "alpha_fraction": 0.8070175647735596, "alphanum_fraction": 0.8070175647735596, "avg_line_length": 27.5, "blob_id": "5f02e1a991117c918c3e9cb0a609dd1c1269afa1", "content_id": "6b082a1a5658965bdc13e887736b25e2180c17ee", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Makefile", "length_bytes": 57, "license_type": "no_license", "max_line_length": 31, "num_lines": 2, "path": "/Makefile", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "logpuncher: logpuncher.c\n\tgcc logpuncher.c -o logpuncher\n" }, { "alpha_fraction": 0.4100528955459595, "alphanum_fraction": 0.4325396716594696, "avg_line_length": 26, "blob_id": "55fa1e18254292ae1d3af6fefe3e418d35365a16", "content_id": "713807a3344e3ba2b0007f3ffe24bdeefce94ced", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 756, "license_type": "no_license", "max_line_length": 80, "num_lines": 28, "path": "/find_ocaml_exceptions.sh", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/usr/bin/env bash\nset -u\ntmp=\"$(mktemp)\"\nocamlpp \"$1\" > \"$tmp\"\nexport i=0\nfor f in $(<\"$tmp\" awk \"$(cat <<'EOL'\n /^$/ {for(x in c) {c[x]=0}; i=0 }\n /CLOSURE/ {i+=1; c[i]=$5}\n END {for(x in c){print c[x]}}\nEOL\n )\")\ndo : $((i++))\n [ \"$f\" = \"0\" ] && continue\n echo \"$i:$f: $(cmitomli \"${1%.cmo}.cmi\" \| awk '/^val/{i+=1}i=='\"$i\"'{print}')\"\n F=\"${1%.cmo}\" E=\"$f\" awk \"$(cat <<'EOL'\n ($1==ENVIRON[\"E\"]) {x=1}\n (x && /RAISE/) {\n offset = ENVIRON[\"i\"];\n print \"exception in #\" offset \" at bc offset\", ENVIRON[\"E\"],\n \"raises\", $1,$2,$3 ;\n system(\"cmitomli \" ENVIRON[\"F\"] \".cmi \| awk '/^val/{i+=1}i==\" \\\n offset \"{print}'\")\n }\n (x==1 && /^$/) {exit}\nEOL\n )\" \"$tmp\"\ndone\n# TODO cleanup $tmp\n" }, { "alpha_fraction": 0.7828418016433716, "alphanum_fraction": 0.7962466478347778, "avg_line_length": 61.16666793823242, "blob_id": "e64fc2338c5299dfb445824066fae3756def4f2f", "content_id": "6d4698b8573a3b569fdeaf5ec7292c183b6e3ebf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 373, "license_type": "no_license", "max_line_length": 136, "num_lines": 6, "path": "/tagged-pointers-guard.md", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "# Tagged pointers\nA loose idea on turning buffer overflows into NULL ptr derefs, for when branching is slow, and overflowing is disastrous.\n\n1) store allocation size in high bits of pointer\n2) before deref obtain 1 if in bounds and 0 otherwise, using simple arithmetic (e.g. a perfect hash function calculated at compile-time)\n3) multiply pointer by this number before use\n" }, { "alpha_fraction": 0.4416058361530304, "alphanum_fraction": 0.4708029329776764, "avg_line_length": 20.076923370361328, "blob_id": "b6574732c79afbb17dc0e01ca4d3046730909946", "content_id": "8c23a056eb22c6122bce6e21f7ba9d51b5dc0792", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 274, "license_type": "no_license", "max_line_length": 61, "num_lines": 13, "path": "/foreach_from.c", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#include <stdio.h>\nint main()\n{\n #define next(n) (((n)+1) == 10 ? 0 : (n+1))\n #define first() 1\n int self = 3;\n int c = self;\n\n do {\n printf(\"id: %d next:%d first:%d\\n\", c, next(c), first());\n } while ( ((c = next(c)) \|\| (c = first())) && c != self);\n return 0;\n}\n" }, { "alpha_fraction": 0.6485013365745544, "alphanum_fraction": 0.6757493019104004, "avg_line_length": 25.214284896850586, "blob_id": "36106b3346005efb376cad13020dee98dc21dc9f", "content_id": "ce9dcff839560b0cb05524e311f741b44afa4235", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 367, "license_type": "no_license", "max_line_length": 70, "num_lines": 14, "path": "/git-ocaml-bisect.sh", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/usr/bin/env bash\n# usage:\n# git bisect start HEAD HEAD~40\n# git bisect run git-ocaml-bisect.sh\n\n# see https://git-scm.com/docs/git-bisect\n\n# TODO git apply ./testcase.patch \|\| exit 200\n\nset -eu\nocaml pkg/pkg.ml build \|\| dune build \|\| make \|\| exit 125 # skip\nocaml pkg/pkg.ml test \|\| dune runtest \|\| make test \|\| exit 1 # bad/new\n\n# TODO custom command \|\| exit 1 ?\n" }, { "alpha_fraction": 0.7170615792274475, "alphanum_fraction": 0.7332330346107483, "avg_line_length": 33.98684310913086, "blob_id": "2b78cb3f64c40544bbaaa09b761ab0ed028361b2", "content_id": "4db7989af8d6929c7871337eb128a79b6d402e99", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 7977, "license_type": "no_license", "max_line_length": 331, "num_lines": 228, "path": "/qubes-freebsd-router.md", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "# FreeBSD routing/firewalling on QubesOS\n\nThis is quick guide to setting up a FreeBSD VM in PVH mode as a router on Qubes 4.\n\nThe steps are laid out here chronologically and meant to be followed top-down.\n\nAs a general rule, the `dom0` commands should be run as your normal user, and the FreeBSD commands as the root user.\n\n## Step 1: Install FreeBSD\n\nTo begin you will need FreeBSD installed as a \"stand-alone\" VM.\nThere should be guides for this, but basically:\n\nDownload a FreeBSD iso (I used `12.1-RELEASE disc1`) to a vm, mine is called `myvm` (you can use a disposable VM if you like) and create a loopback device for the iso to let us expose it to the standalone vm:\n```\n# myvm:\nsudo losetup -f --show disc1.iso\n# it output \"/dev/loop0\"\n```\n\nI named my FreeBSD machine `fbsd` for this guide:\n```\n# dom0:\nqvm-create --label green --standalone fbsd\nqvm-prefs fbsd memory 1000\nqvm-prefs fbsd maxmem 1000\nqvm-prefs fbsd provides_network True # that is the ambition\nqvm-start --cdrom myvm:loop0\n```\n\nThe only thing you really need to pay attention to is that you probably want:\n1) `sshd`, since we'll need to retrieve the kernel in a later step\n2) to install on `UFS`, not `ZFS`. I couldn't get ZFS to boot in PVH mode, although that's probably just me being stupid.\n3) To configure the networking manually. If you open the QubesManager application in dom0 after starting `fbsd` you can learn its intended IP address. Netmask `255.255.255.0`, gateway is whatever the IP of the NetVM you connected it to has (in the manager view).\n\nYou can also get these using e.g. `qvm-prefs fbsd ip` and `qvm-prefs fbsd visible_gateway`. Note that `gateway` is something else, likely the gateway address your clients, I'm not sure.\n\n## Step 2: Configure FreeBSD\n\n```\n# fbsd:\npkg install xe-guest-utilities\nsysrc xenguest_enable=YES\n\n# configure a xen console device:\necho 'xc0 \"/usr/libexec/getty Pc\" vt100 onifexists secure' >> /etc/ttys\n```\n\nNow we need to upload `/boot/kernel/kernel` to `dom0`.\nI used SSH to `scp` it from `fbsd` to `myvm`.\n\nAnd then you can precede to:\n```\n# fbsd:\npoweroff\n```\n\nQubesOS being slightly linux-centric, we need to set up a directory structure that mimics various Linux kernels, and will refuse to boot if there is no `initramfs` file for example:\n\n```\n# dom0\nmkdir /var/lib/qubes/vm-kernels/fbsdkernel\nqvm-run -p myvm 'cat disc1.iso' > /var/lib/qubes/vm-kernels/fbsdkernel/vmlinuz\ntruncate -s 16M /var/lib/qubes/vm-kernels/fbsdkernel/initramfs\n\nqvm-prefs fbsd kernel 'fbsdkernely'\nqvm-prefs fbsd kernelopts ''\nqvm-prefs fbsd virt_mode 'pvh'\nqvm-start fbsd\n```\n\n## Step 3: Resurrecting your FreeBSD machine in PVH mode\n\nTo use your new fancy console from dom0:\n```\n# dom0:\n\n# Install socat - note that you can probably use 'screen' or whatever,\n# I first tried that and miserably failed, so here goes:\nsudo qubes-dom0-update socat\n\n## 'virsh ttyconsole' translates behind the scenes to:\n## 'xenstore-read /local/domain/$domid/console/tty'\n## It gives you the location of the pty that xen has allocated for\n## the fbsd vm's console in dom0\nsudo socat stdin,raw,echo=0 file:$(sudo virsh ttyconsole fbsd),echo=0\n\n# (you likely want to save that last command as that's how you will be\n# talking to this VM unless you come up with something better)\n# (( you probably also want to type 'resizewin' as the first thing you do ))\n```\n\nIt'll likely be stuck complaining that it can't figure out how to boot, and drop you in a `mountboot>` prompt because the block devices are now using a different driver or something.\nThis is the part I couldn't get working with ZFS, but with UFS is was simple enough:\n```\nmountboot> ufs:xbd0s1a\n```\n\nIf that works, make sure to alter your /etc/fstab accordingly. If not, I have no idea.\n\nIf you're having trouble you can switch it back to booting in HVM mode:\n```\nqvm-prefs fbsd kernel ''\nqvm-prefs fbsd kernelopts ''\nqvm-prefs fbsd virt_mode 'hvm'\nqvm-start fbsd\n```\n\n# Step 4: Xenstore crash course\n\nXen comes with a pretty basic key-value store that VMs (called \"domains\") can use to share information with each other. Each VM is allocated an id at each boot (meaning that it likely changes for each boot). The only domain that has a fixed id is the privileged domain (\"dom0\") since it's always the first to start, hence the name.\n\nThere's a bunch of different `xenstore-` tools that came with `xen-guest-tools` which got pulled in by the `xe-guest-utilities` package that we installed in step 2.\nYou don't need to familiarize yourself with all of these, but the TL;DR is that:\n- `xenstore-list` is a bit like `ls`;\n- `xenstore-read` is like `cat`;\n- `xenstore-ls` is a bit like `find -print -execdir cat {} \\;`, it recursively lists and reads entries.\n\n# Step 5: Pulling IPs from xenstore\n\n```\n# fbsd:\n\n# find our current domain id:\ndomid=$(xenstore-read domid)\n\n# (I got '87' this time around)\n\nCheck out which keys are available in our domain's namespace:\nxenstore-list /local/domain/$domid\n```\n\nWe are now ready for our first network client!\nStart a disposable VM to use for this exercise, mine got the name `disp3905`, and assign `fbsd` as the upstream for this.\n```\n# dom0:\nqvm-prefs disp3905 netvm fbsd\n```\n\nLet's see what that looks like in FreeBSD:\n```\n# fbsd:\nifconfig\n# should show something like xnb90.0\n# the 90 is the domid of the client\n\n# we can list the connected clients with e.g.\nxenstore-ls /local/domain/$domid/backend/vif\n```\n\nWe are predominantly interested in the keys that have the `online=1` property.\n\nSince I was goofing around with generating pf configs dynamically I wrote this Python script to parse the output (not required to follow the tutorial). If you want to play with that you will need `pkg install python3`.\n\n```python3\nimport subprocess\ndomid = subprocess.getoutput('xenstore-read domid')\nfull = subprocess.getoutput(f'xenstore-ls -f /local/domain/{domid}/backend/vif').splitlines()\nnice = {}\nfor line in full:\n path, value = line.split(' = ')\n cursor = nice # reference to output dict\n skip = len(['','local','domain',domid,'backend','vif'])\n for node in path.split(r'/')[skip:]:\n if node not in cursor: cursor[node] = {}\n cursor = cursor[node]\n value = '\"'.join(value.split('\"')[1:-1]) # fingers crossed\n if value: cursor['val'] = value\n\n# pull ip for our client:\n# >>> nice['90']['0']['ip']['val']\n# '10.138.15.65'\n```\n\nIn QubesOS, all VMs have exactly one IP address (by default at least), so we can copy the one from our upstream interface, or we can pull it from xenstore:\n```\n# fbsd:\n\n# note that what the Linux people call 'eth0' is probably\n# called 'xn0' for you:\nxenstore-read /local/domain/$domid/attr/eth0/ip\n# my fbsd machine is supposed to use 10.137.0.38\n\n# We assign this address to the host-side of the newly\n# connected client:\nifconfig xnb90.0 10.137.0.38\n\n# this means both xn0 and xnb90.0 will have the same address.\n```\n\nNow we can talk to the client, and they can talk to us.\n\nNB: The default firewall policy for the debian appvms is to block incoming packets, so to debug you can turn that off:\n\n```\n# disp3905 / client vm:\niptables -F INPUT\niptables -P INPUT ACCEPT\n```\n\n# Step 6: Internet!\n\nCool, now we are able to ping each other!\nBut not the rest of the world yet.\n\nHere's my `pf` config that you should probably add actual firewall rules to to avoid domains connecting to each other, and/or spoofed packet weirdness between domains or the upstream gateway:\n\n```pf\n# put this in /etc/pf.conf in the fbsd domain\n\next_if=xn0\n\n# remember to substitute your own:\nfbsd_ip=10.137.0.38\n\nnat on $ext_if from ! $fbsd_ip to any -> $fbsd_ip\n```\n\n```\n# fbsd:\n\nsysrc pf_enable=YES\nsysrc pf_rules=/etc/pf.conf\nsysrc gateway_enable=YES\nservice pf start\n```\n\nIf all that went well, your disposable VM should now have a connection to the internet. Everything else left as an exercise to the reader, feel free to leave comments, suggestions, corrections in the \"Issues\" tab on this repository, and improvements in the \"Pull requests\" tab. Thank you!\n" }, { "alpha_fraction": 0.44432634115219116, "alphanum_fraction": 0.5488971471786499, "avg_line_length": 15.504385948181152, "blob_id": "e39cd7d8707f98a050460adf8e8560a700bb6640", "content_id": "70b77a1eb05f9412d249a3f1a41f82bb8bb69518", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 7526, "license_type": "no_license", "max_line_length": 297, "num_lines": 456, "path": "/gauss-sum.md", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "# Gauss summation\n\nA note on rewriting summations using the sigma/sum operator from math papers to code, expanding to avoid expensive loops.\n\nNote that the lower and upper bounds are both inclusive, unlike Python's `range()` operator which defines a range from a lower bound (inclusive) to an upper bound (exclusive). That means when we see a sigma summation (`6 S i=1`) we need to add one to include the upper bound: `range(1,6+1)`.\n\n```\n 6\n S i7\n i=0\n```\nis equivalent to\n```python\nsum(( i7 for i in range(0, 6+1) ))\n# == 105\n# aka\nS = 0\nfor i in range(0, 6+1):\n S = S + i7\n```\n\n<hr>\n\n```\n 10\n S i7\n 5\n```\nis equivalent to\n```python\nsum(( i7 for i in range(5, 10+1) ))\n# aka\nS = 0\nfor i in range(5, 10+1):\n S = S + i7\n```\n\n<hr>\n\nGauss summation can be used to calculate the sum without looping:\n```python\ndef gauss(n):\n # floored division, e.g you can use >> 1 instead of division.\n return n(n+1) // 2\n\n6+5+4+3+2+1\n# 21\nsum(( i for i in range(0, 6+1) ))\n# 21\ngauss(6)\n# 21\n```\n\nIf the loop doesn't start at `1`, the Gauss sum of the numbers below the starting point can be subtracted to yield the sum of the numbers in the range:\n\n```python\n10+9+8+7+6+5+4+3+2+1\n# 55\n\n4+3+2+1\n# 10\n\n55 - 10\n# 45\n\n10+9+8+7+6+5\n# 45\n\nsum(( i for i in range(5, 10+1) ))\n# 45\n\ngauss(10) - gauss(4)\n# 45\n```\n\n<hr>\n\nMultiplying the added constants by the number of sums (the differene between the top and bottom bound) allows us to derive a closed-form formula for expressions like\n```\n 10\n S 100 + i\n 5\n```\n\n```python\ngauss(10) - gauss(4)\n# the \"i\" factor = 45\n\n(10 - 4) 100\n# 600\n\n45 + 600\n# 645\n\nsum(( 100 + i for i in range(5, 10+1) ))\n# 645\n```\n\nSimilarly, products depending on the `i` factor can be multiplied by the sum:\n```\n 10\n S i * 12 + 34\n 5\n```\n\n```python\n10+9+8+7+6+5\n# 45\n\n45 * 12\n# 540\n\n(10-4) * 34\n# 204\n\n540 + 204\n# 744\n\nsum(( i12 + 34 for i in range(5, 10+1) ))\n# 744\n\n(gauss(10) - gauss(4)) 12 + (10-4) * 34\n# 744\n```\n\nIf we frequently need to compute the sum of intervals that do not start at `1` we can improve on the\n`gauss(upper) - gauss(lower-1)` formula to lower the number of arithmetic operations from `7 (3+3+1)` to `5`:\n\n```python\ndef gauss(n):\n # floored division, e.g you can use >> 1 instead of division.\n return n(n+1) // 2\n \ndef gauss_i(lower, upper):\n return ((upper - lower + 1) (lower+upper)) // 2\n\ngauss_i(5,5)\n# 5\n\n5+4+3\ngauss(5)-gauss(3-1)\n((5-3+1)(3+5))/2\ngauss_i(3,5)\n# 12\n\n5+4\ngauss(5)-gauss(4-1)\ngauss_i(4,5)\n# 9\n```\n\n<hr>\n\nThis lets us calculate our \"complex\" summation\n```\n 10\n S i 12 + 34\n 5\n```\nas follows:\n```python\ngauss_i(5,10) * 12 + (10-5+1) * 34\n# 744\n```\n\nIf we know the arguments up front we can specialize it for our scenario.\n\n### Constant loop bounds\n```python\na = 12\nb = 34\n\n(((10 - 5 + 1) * (5+10)) // 2) * a + (10-5+1) * b\n# 744\n\n(((6) * (15)) // 2) * a + (6) * b\n# 744\n\n45 * a + 6 * b\n# 744\n```\n\n### Variable loop bounds, constant loop bodyy\n```python\nlow = 5\nhigh = 10\n\n(((high - low + 1) * (low+high)) // 2) * 12 + (high-low+1) * 34\n# 744, 10 operations\n\n((((high - low + 1) * (low+high))) * (12 // 2)) + (high-low+1) * 34\n# 744\n\n(high - low + 1) * (low+high) * 6 + (high-low+1) * 34\n# 744, 9 operations\n# here we got rid of the division. one of the bounds are known,\n# we can expand it more aggressively.\n# below are some notes for that:\n\n# (high - low + 1) * (low+high) * 6\n# + (high - low + 1) * 34\n( (high - low) * (low+high) * 6\n + 1 * (low+high) * 6\n + (high - low) * 34\n + 1 * 34\n)\n# 744, 13 operations\n\n( (high - low) * (low+high) * 6\n + low * 6\n + high * 6\n + high * 34\n - low * 34\n + 34\n)\n# 744, 13 operations\n\n( (high - low) * (low+high) * 6\n + high * 40\n - low * 28\n + 34\n)\n# 744, 9 operations again\n\n( (highlow - lowlow)6\n + ((highhigh - lowhigh)6)\n + high * 40\n - low * 28\n + 34\n)\n# 744, 14 operations\n\n( 6highlow \n - 6lowlow\n + 6highhigh\n - 6highlow\n + high * 40\n - low * 28\n + 34\n)\n# 744, 16 operations\n\n( 6(highhigh - lowlow)\n + high 40\n - low * 28\n + 34\n)\n# 744, 9 operations, easily shortened if (high) or (low) are known.\n\n# if we allow for floating-point arithmetic:\n6( highhigh\n - lowlow\n + high 40/6\n - low * 28/6 # \n + 34/6\n )\n# ~~~ 744 ~~~ 9 operations\n```\n\nFor instance, given a lower bound of 0:\n```\n x\n S i * 12 + 34\n i=0\n```\nWe can apply this:\n```python\nx = 10\n\n(6 * (xx - 00)\n + x40\n - 0 28\n + 34\n)\n# 1034\n\n(6 * (xx) + x40 + 34)\n# 1034\n```\n\nAnd a lower bound of 1:\n```python\nx = 10\n\n(6 * (xx - 11)\n + x40\n - 1 28\n + 34\n)\n# 1000\n\n(6 * (xx - 1)\n + x40\n + 6\n)\n# 1000\n\n6 * x * x + 40 * x\n# 1000\n```\n\nNow go eradicate those for-loops! :-)\n\n<hr>\n\nPS:\n\n### Nested sums\n\nWe can work with nested/recursive summations too:\n\n```\n 2 ( 6\n S ( S (3ij)\n i=1 ( j=4\n\naka\n i j (3ij)\n 1 4 12\n 1 5 15\n 1 6 18\n 2 4 24\n 2 5 30\n 2 6 36\n ---\n 135\n ===\n```\n(in Python):\n```python\nS = 0\nfor i in range( 1, 2+1):\n for j in range(4, 6+1):\n S = S + 3ij\n# 135\n```\n\nby first rewriting the innermost summation:\n```python\n# 6\n# S (3 * j)\n# j=4\n\n63 + 5 3 + 43\n# 45\n\ngauss_i(4,6) 3\n# 45\n```\n\nthen the second can be expressed as a single loop:\n```python\nS = 0\nfor i in range( 1, 2+1):\n S = S + gauss_i(4,6) * 3 * i\n# 135\n```\nsubstituting the formula for `gauss_i` we get\n```\n 2\n S 3 * i * (((6 - 4 + 1) * (4+6)) // 2)y\n i=1\n\n<=>\n 2\n S 3 * i * 15\n i=1\n<=>\n 2\n S 45 * i\n i=1\n```\n\nWhich we can then translate to Python:\n```python\ngauss_i(1,2) * 45\n```\n\n<hr>\n\nA slightly more advanced example:\n```\n 200 ( 60\n S ( S 3 * i * j + i5 + j 6 + 1337\n i=100 ( j=40\n```\nin Python:\n```python\nS = 0\nfor i in range(100, 200+1):\n for j in range(40, 60+1):\n S = S + 3ij + 5i + 6j + 1337\n# 52785327\n# or with generator expressions:\nsum((\n (3 * i * j + 5i + 6j + 1337)\n for j in range(40, 60+1)\n for i in range(100, 200+1)\n))\n# 52785327\n```\nagain we start with the inner loop, pretending that `i=1` and that components that only depend on `i` are constants:\n```python\ni = 1\nsum((\n (3 * i * j + i5 + 6j + 1337)\n for j in range(40, 60+1)\n))\n# 37632\n\n( # 3 * i * j\n 3 * i * gauss_i(40,60)\n) + ( # + i5 , constant multiplied by element count\n (60-40+1) i * 5\n) + (# + 6 * j , substitute (j) by the sum\n 6 * gauss_i(40,60)\n) + ( # + 1337 , multiply by element count\n (60-40+1) * 1337\n)\n# 37632\n\nS = 0\nfor i in range(100, 200+1):\n S = S + (3 * i * gauss_i(40,60)\n ) + ((60-40+1) * i * 5\n ) + (6 * gauss_i(40,60)) + (\n (60-40+1) * 1337)\n# 52785327\n```\n\nAnd now we can expand for the `i`:\n```python\nj_low = 40\nj_high = 60\nj_el_count = (j_high - j_low + 1)\n\ni_low = 100\ni_high = 200\ni_el_count = (i_high - i_low + 1)\n\n( # j_el_count * 1337 , constant, multiply by element count:\n i_el_count * (j_el_count * 1337)\n) + (\n # 5 * j_el_count * i , substitute gauss_i for i:\n (5 * j_el_count) * gauss_i(i_low, i_high)\n) + (\n # 3ij , substitute gauss_i for both i and j:\n 3 * gauss_i(i_low,i_high) * gauss_i(j_low, j_high)\n) + (\n # 6j , multiply by element count:\n i_el_count 6 * gauss_i(j_low, j_high)\n)\n# 52785327\n```\nAnd thus we have reached a closed-form formula.\nWe can reduce the number of arithmetic operations slightly by further rewriting the expressions, for example `6 * (.... / 2) => 3 * ( .... )` in the last term; but I thought this was the clearest representation of the original problem.\n" }, { "alpha_fraction": 0.3911290466785431, "alphanum_fraction": 0.4395161271095276, "avg_line_length": 12.052631378173828, "blob_id": "e7daa2f6143ae017446670f68e299bd269ad1546", "content_id": "9ed9eee1f66613c13a68d3c15de8c4113d0aa84c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 248, "license_type": "no_license", "max_line_length": 59, "num_lines": 19, "path": "/digraphs.c", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "// $ digrap\n// exit 1\n// $ digrap a\n// exit 2\n// $ digrap ba\n// exit 3\n\nint main(int argc, char*argv)\n<%\n\n if ( 2 == argc && 1<:argv<:1:>:> == 'a' ) <% return 3; %>\n\n%: if 1 == 1\n if ( argv<:1:> ) <% return 2; %>\n%: endif\n\n\n return 1;\n%>\n" }, { "alpha_fraction": 0.5776397585868835, "alphanum_fraction": 0.6790890097618103, "avg_line_length": 52.55555725097656, "blob_id": "e62a50f520d4c501cf167d82d67eaec3f0156435", "content_id": "b60cd32f3ee4933d028635b2af3d90c796f477bc", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 483, "license_type": "no_license", "max_line_length": 143, "num_lines": 9, "path": "/pkcs8-ed25519-to-openssh.sh", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "openssl genpkey -algorithm ed25519 \| openssl pkey -pubout \| \\\ngrep -v '^-' \| base64 -d \| tail -c +13 \| sed '1s,^, ,' \| base64 \| sed 's,^,ssh-ed25519 AAAAC3NzaC1lZDI1NTE5AAAA,' \| ssh-keygen -e -f /dev/stdin\n\n# strip the PEM stuff\n# decode the base64\n# strip the DER-encoded OID prefix (static, +13 bytes)\n# add a 0x20 (length of key) to the first line (1s)\n# re-encode\n# add ssh key prefix + base64-encoded key header (uint32 len ; \"ssh-ed25519\" ; uint32 len (0x00 00 00 20) of key)\n\n" }, { "alpha_fraction": 0.7023593187332153, "alphanum_fraction": 0.7259528040885925, "avg_line_length": 49, "blob_id": "73ced10844a45f35239e2dda0c300291417259d7", "content_id": "c19945e980b2937bfcb42e9b638c157df5128fe8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 551, "license_type": "no_license", "max_line_length": 170, "num_lines": 11, "path": "/unsparsify.sh", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/bin/sh\n# usage: unsparsify.sh FILENAME\n# makes a sparse file guaranteed to have extents allocated for all of its blocks\n# (ensuring that the underlying fs will not be out of disk space when writing to the file)\n# it does so by calling the glibc function posix_fallocate()\n# basically this is the reverse of \"fallocate --dig-holes\"\n#\n# man 3 posix_fallocate\n# man 1 fallocate\n\npython -B -c 'import sys,os,ctypes as m;c=m.CDLL(\"libc.so.6\");a=os.open(sys.argv[1],0x501);f=c.posix_fallocate;f.argtypes=[m.c_ulong]3;print f(a,0,os.lseek(a,0,2))' \"$1\"\n\n" }, { "alpha_fraction": 0.7295396327972412, "alphanum_fraction": 0.7455242872238159, "avg_line_length": 70.09091186523438, "blob_id": "ce618f4a7c953cfa5a2235a085628e15ccd7a7b1", "content_id": "4fb6b51aa979ea7329596653f0606cdb8c695b22", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1564, "license_type": "no_license", "max_line_length": 144, "num_lines": 22, "path": "/README.md", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "# Miscellaneous stuff\n\n- [Mutexes based on Abstract Unix Sockets](./unixmutex.py)\n- [PostgreSQL hstore hashing in Python](./postgres_hstore_hash.py)\n\n- [PKCS8 ed25519 to OpenSSH conversion](./pkcs8-ed25519-to-openssh.sh)\n- [Constant time unsigned division/remainder (`divmod`)](./ct_division.py)\n- [Add red color to black-and-white PDFs](./pdfcolor.py)\n- [Project ideas / wishlist for OCaml / MirageOS](./ocaml_project_ideas.md)\n- [register-xmpp-user](./register_xmpp_user), a shell script for registering XMPP accounts\n- [notes on extracting information from the Tor consensus file](parse_tor_consensus.txt)\n- [using Python ctypes to call `posix_fallocate` on Linux to reserve space previously thinly allocated as sparse sections](./unsparsify.sh)\n- [shell script to rsync RFCs from IETF](./rsync-rfcs)\n- [an example of optimized XOR on x86_64, maybe it's fast?](./xor_128bits_x86_64.c)\n- [a solver for the mastermind game in the \"hacking\" minigame in Fallout 3](./fallout3_minigame_hacking_helper.ml)\n- [in-place log rotation/truncation PoC, can't remember if this works](./logpuncher.c)\n - [Makefile](./Makefile)\n- [c_macro_default_value_if_undef.c](./c_macro_default_value_if_undef.c)\n- [some test vectors that tripped bignum implementations, found by Hanno Bock, and applied to OCaml bignum libraries](./hanno_bignum_fuzz_zarith.ml)\n- [grab a CA chain from a TLS server](./get_tls_chain)\n- [HCL / IBM / Lotus Notes structured text to JSON converter](./lotus-notes-convert.py)\n- [Guide to using FreeBSD as a router/firewall in QubesOS](./qubes-freebsd-router.md)\n" }, { "alpha_fraction": 0.6195995807647705, "alphanum_fraction": 0.6691253781318665, "avg_line_length": 21.069766998291016, "blob_id": "9c5f8f4aefb1b20ce0dde3794de2f2af5cb611e1", "content_id": "f34a131c6296d7ddbb5e30868c2d094a1610b410", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 949, "license_type": "no_license", "max_line_length": 75, "num_lines": 43, "path": "/silence-bluetooth.sh", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/usr/bin/env bash\n\ntgtmac=12:34:56:78:9a:bc\n# where 12:34:56:78:9a:bc is the addr of the bluetooth boombox playing\n# crypto currency podcasts at deafening volumes when you're trying to sleep\n\n#$cat /storage/.config/system.d/fuck-off-cryptobro.service\n#Description=Fuck off cryptobro\n#[Service]\n#Type=simple\n#ExecStart=/storage/silence-bluetooth.sh\n#Restart=always\n#RestartSec=30\n#[Install]\n#WantedBy=multi-user.target\n\nping10()\n{\n l2test -T -M -s -m -p $tgtmac &> /dev/null\n l2ping $tgtmac \|\| \\\n l2ping $tgtmac \|\| \\\n l2ping $tgtmac \|\| \\\n l2ping $tgtmac \|\| \\\n l2ping $tgtmac \|\| \\\n l2ping $tgtmac \|\| \\\n l2ping $tgtmac \|\| \\\n l2ping $tgtmac \|\| \\\n l2ping $tgtmac \|\| \\\n l2ping $tgtmac \|\| \\\n return 1\n}\nwhile true\ndo\n until ping10 &>/dev/null; do sleep 300; done\n echo contact with $tgtmac, starting connect sequence\n while ping10\n do\n for i in $(seq 20000)\n do\n l2test -T -M -s -m -p $tgtmac &> /dev/null\n done\n done\ndone\n" }, { "alpha_fraction": 0.482051283121109, "alphanum_fraction": 0.5736263990402222, "avg_line_length": 33.125, "blob_id": "389e65c249bd96736c808aeae2bf85806924ac5f", "content_id": "9187425982b28338755592b9205b8836cb2443fb", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1365, "license_type": "no_license", "max_line_length": 76, "num_lines": 40, "path": "/ct_division.py", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "def uint32_divmod_uint14(x, m):\n '''uint32_divmod_uint14 from supercop:crypto_kem/sntrup761/ref/uint32.c\n constant-time division of a uint32 x / uint14 m, returning\n divmod(x,m) and is constant-time with respect to (x); not (m).\n\n ... but it looks like it works with m (a lot) > uint14 though, not sure:\n This implementation has been tested for all uint32_t inputs with\n m = 100 000 000 (ie 8 decimal digits)\n m = 1 000 000 (ie 6 decimal digits)\n m = 10 000\n m 1 000\n m = 100\n m = 10\n for m in (10,100,100, .....):\n for x in range(0x100000000):\n assert divmod(x,m) == uint32_divmod_uint14(x, m), f'{x}%{m}'\n\n BE AWARE that the Python code below does not match the C code 1:1,\n there's likely a uint64/uint32 truncation missing somewhere\n (it fails for m=1 for instance, so you might want to check your target\n parameters before using them).\n '''\n assert 0 <= x <= 0xffffFFFF\n assert (1 < m < 16384) or (m == 1000000) or (m == 100000000)\n\n v = 0x80000000 // m\n qpart = (xv) >> 31\n x -= qpart m\n q = qpart\n qpart = (x * v) >> 31\n x -= qpart * m\n q += qpart + 1\n x -= m\n x &= 0xffffFFFF\n mask = -(x >> 31)\n x += mask & m # remainder\n x &= 0xffffFFFF\n q += mask # quotient\n q &= 0xffffFFFF\n return q, x\n" }, { "alpha_fraction": 0.5678203701972961, "alphanum_fraction": 0.6024321913719177, "avg_line_length": 25.725000381469727, "blob_id": "c993b19f2c9df6a51359b34ab22f24876eb56f5d", "content_id": "b9477dfddd3b740807cd0b544f7b87f5f1392daf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1069, "license_type": "no_license", "max_line_length": 77, "num_lines": 40, "path": "/c_macro_default_value_if_undef.c", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "// macro for getting a default value (-1 in NUMERIFY) for undefined constants\n// if the constants is a value between 0 and 999, that value is returned.\n// compile with optimization (gcc -O1 or higher) to evaluate it statically\n\n#include <stdio.h>\n#include <errno.h>\n#include <stdlib.h>\n\n#define STRINGIFY(a) #a\n#define ISNUM(a,i) (STRINGIFY(a)[i] <= 0x39 && STRINGIFY(a)[i] >= 0x30)\n#define NUMERIFY(a,i) (ISNUM(a,i) \\\n ? (STRINGIFY(a)[i] & 0xf) : -1 )\n#define CASE(a) \\\n (ISNUM(a,2) \\\n ? (NUMERIFY(a,0) * 100 + (NUMERIFY(a,1) * 10) + NUMERIFY(a,2)) \\\n : (ISNUM(a,1) \\\n ? (NUMERIFY(a,0) * 10 + NUMERIFY(a,1)) \\\n : NUMERIFY(a,0)))\n\nvoid main(){\n\nint number = 300;\n#define THIS_IS_DEFINED 300\n\n\n if( number == CASE(THIS_IS_NOT_DEFINED_ANYWHERE)\n \|\| number == CASE(THIS_IS_DEFINED) )\n\n printf(\"yay %d == %d\\n\", CASE(THIS_IS_DEFINED), number);\n\n else\n\n printf(\"decimal %d != %d , isnum: %d num: %d\\n\",\n CASE( THIS_IS_NOT_DEFINED_ANYWHERE ),\n number,\n ISNUM( THIS_IS_DEFINED, 0 ),\n NUMERIFY( THIS_IS_DEFINED, 2 )\n );\n\n}\n" }, { "alpha_fraction": 0.49815669655799866, "alphanum_fraction": 0.5414746403694153, "avg_line_length": 20.27450942993164, "blob_id": "b4ad7916ae32417d8a631c871bd8e20efaf65a3c", "content_id": "da7e0813fe3c5d05454f2254777725fff0285f3b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 2170, "license_type": "no_license", "max_line_length": 55, "num_lines": 102, "path": "/ocaml-int2bool-experiments.c", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "/\ngcc ./ocaml-int2bool-experiments.c -o bools && ./bools\nrandom experiments with int -> bool conversions\n\nHere's what we're competing with:\n\nlet int2bool (x:int) : bool = x <> 0\ncamlExample__int2bool_5:\n cmpq $1, %rax\n setne %al\n movzbq %al, %rax\n leaq 1(%rax,%rax), %rax\n ret\n\nlet bool2int y = Bool.to_int y\ncamlExample__bool2int_5:\n cmpq $1, %rax\n je .L100\n movl $3, %eax\n ret\n.L100:\n movl $1, %eax\n ret\n( well this can just be replaced with \"ret\" ... )\n\n\nEssentially it's about mapping\nmatch x with\n\| n when 0 = n land 1 -> . ( GC bit should be set )\n\| 1 -> false\n\| _ -> true\n\nmatch y with\n\| n when 0 = n land 1 -> .\n\| 1 -> 1\n\| 3 -> 3\n\| _ -> .\n\n/\n\n#include <stdio.h>\n#include <stdint.h>\n#include <string.h>\nint main(){\n\nvolatile unsigned long long iin =\n 0b1 \| /* assume GC bit set /\n 0b100000100\n;\n\n/\n * int2bool from ocaml 4.10.0 with flambda\n * compare to 1 (aka zero with gc bit)\n * set lower byte to one if it wasn't $1\n * mov-extend %al (aka clear upper bits of %rax)\n * shift 1, add 1 (aka multiply by 3)\n /\nvolatile long long test_out = 0;\nasm(\"cmpq $1, %0\\n\"\n \"setne %%al\\n\"\n \"movzbq %%al, %0\\n\"\n \"leaq 1(%0,%0,1), %0\\n\"\n //\"ret\\n\"\n : \"=a\"(test_out)\n : \"0\"(iin));\n\n/\n * int2bool from this experiment\n * PEXT gathers set bits towards LSB\n * AND truncates to GC bit and is\n * 1 if only GC bit was set\n * 3 if GC and any other bit was set\n /\nvolatile long long pext_out = 0;\nasm(\"pextq %0, %0, %0\\n\"\n \"andq $0b11, %0\\n\"\n //\"ret\\n\"\n : \"=a\"(pext_out)\n : \"0\"(iin) );\n\n/\n * If false: 1 (GC bit)\n * If true: 0b11 (1 + GC bit)\n /\nconst long long expected =\n (((!! / cast to bool (1 or 0) /\n\t (iin & ~1)) / strip GC bit /\n\t<< 1) / make room for GC bit /\n\t\| 1); / set GC bit /\n\nprintf(\"\"\n \" iin: %5llu\\t = %#0.2llx\\n\"\n \" pext out: %5llu\\t = %#0.2llx\\n\"\n \" test out: %5llu\\t = %#0.2llx\\n\"\n \"expected out: %5llu\\t = %#0.2llx\\n\",\n iin, iin,\n pext_out, pext_out,\n test_out, test_out,\n expected, expected);\n\nreturn !(pext_out == test_out && test_out == expected);\n}\n" }, { "alpha_fraction": 0.3445121943950653, "alphanum_fraction": 0.4878048896789551, "avg_line_length": 32.64102554321289, "blob_id": "52b3a5d73f69c2a97ec252dadd9ae87b6094e3a4", "content_id": "9c46f45020a95754066b90f18219c94d4a44ec70", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1312, "license_type": "no_license", "max_line_length": 170, "num_lines": 39, "path": "/branchless_hex.py", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/usr/bin/python3\n'''Branchless encoding/decoding of hexadecimal to/from bytes\n without using tables\nsee also\nhttps://stackoverflow.com/a/34366370\nwhich has cooler stuff\n'''\n\n# for i in [48,49,50,51,52,53,54,55,56,57,97,98,99,100,101,102]: x=(i+39-1-54); x=x&(~0x20); y=x-(((x&16)>>4)71); print(i, hex(x),x, hex(y), y) # 6 operations per nibble\n\ndef p(n):\n '''right-pad'''\n return '\\t'+' '(9-len(str(n)))+str(n)\n\ndef out_digit(f):\n '''select 0..9 a..f from integer'''\n #a=(f >> 1);a=(a&0b11)(a&100)\n #a=((a&0b100)>>2) \| (a>>3); # 0 , 1\n\n # a=(f&0b110)>>(1+(~f&8));b=0x2f((a>>1\|a)&1)+0x30+(f&7);\n # for f in range(0,16): a=(86+f);c=1+(a-71((a&0x10)>>4))\|0x20; print(f, a, '\\t', bin(a), a, hex(c))# 7 operations per nibble -1 for the \|0x20 which could be \|0x20x20\n a = (f + 14) >> 3\n #b = (f + 14)\n #b = (f+38) >> 1\n #b = ((b&10)) << 2\n #print(f, p(bin(b)[2:]), b, b&24)\n a = a & (a>>1)\n\n d=(f&7)-a # 0..7 -0 , 2..7 -1\n d = d +((f&8)>>a4) # 8..9>>0 , (10..15 & 8=8)>>4\n c= d + (0x30 << a) # 0x30 +d , 0x60+d\n #c=(d+0x30 ) + (a << 4) # 0x30 +d, 0x40+d\n #c=(d \| 0x30) + (a << 5 \| a<<4) # 0x30 +d, 0x40+d\n print (f,((f1) & 0b1110), p(bin(f)),p(a),d,p(bin(a)),c,p(bin(c)),chr(c))\n return chr(c)\n\n\nfor f in range(0,16):\n out_digit(f)\n" }, { "alpha_fraction": 0.650144100189209, "alphanum_fraction": 0.6657060384750366, "avg_line_length": 35.914894104003906, "blob_id": "5a094154307ef29a2e48f9439bda615a12cda30c", "content_id": "dbd337430332cfcb943c8a15660045a948937e2a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1735, "license_type": "no_license", "max_line_length": 88, "num_lines": 47, "path": "/postgres_hstore_hash.py", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python3\n\n# Attempt to predict postgres' md5(hstore()::text) on the app side,\n# to allow using hashes as FKs in many-to-one relations.\n# The hstore table should have a functional index on the TEXT/BYTEA hash\n# for JOINs.\n# This approach makes for cheap COPY FROM STDIN inserts to the main\n# table at least.\n\nimport psycopg # psycopg3, not psycopg2\nimport asyncio\n\nasync def main():\n pg3conn = await psycopg.AsyncConnection.connect()\n from psycopg.types import TypeInfo\n from psycopg.types.hstore import register_hstore\n\n typeinfo = await TypeInfo.fetch(pg3conn, \"hstore\")\n register_hstore(typeinfo, pg3conn)\n hstore_dumper = pg3conn.adapters.get_dumper_by_oid(typeinfo.oid, 0) # 0=text\n hstore_dumper = hstore_dumper(cls=hstore_dumper)\n\n hs = {\"a\":\"2\", \"AAA\": \"5\", \"C\": \"1\", \"DC\":\"4\", \"b\": \"3\",}\n\n # hstore(%s)::text\n hs_text = hstore_to_text(hs)\n print(hs_text) # b'\"C\":\"1\",\"a\":\"2\",\"b\":\"3\",\"DC\":\"4\",\"AAA\":\"5\"'\n\n # digest(hstore(%s)::text, 'md5')\n hdict_hash = hashlib.md5(hs).digest()\n\ndef hstore_to_text(hdict, encoding='ascii'):\n '''sort dict by key length, subsequently lexicographically,\n and finally insert spaces between the elements since psycopg\n produces a compact representation\n see https://github.com/postgres/postgres/blob/master/contrib/hstore/hstore_io.c#L325\n hstoreUniquePairs(pairs, len, buflen) ->\n qsort(a, l, sizeof(Pairs), comparePairs); ->\n comparePairs(a,b) ->\n compare by len, then memcmp.\n '''\n hdict = dict(sorted(hdict.items(), key=lambda kv:(\n len(kv[0].encode(encoding)), kv[0].encode(encoding))))\n return hstore_dumper.dump(hdict).replace(b'\",\"', b'\", \"')\n\nif __name__ == '__main__':\n asyncio.run(main())\n" }, { "alpha_fraction": 0.551005482673645, "alphanum_fraction": 0.576599657535553, "avg_line_length": 35.46666717529297, "blob_id": "ad90274837ea040a705a859711f8643cb1729c23", "content_id": "868021b51333e0bfb251b3d61ed45b882433bf71", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2735, "license_type": "no_license", "max_line_length": 89, "num_lines": 75, "path": "/gif_lzw_decoder.py", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python3\n\n# Python implementation of the LZW decompression function from GIF87a.\n# See gif_lzw_decoder.ml for the OCaml implementation.\n# The implementation are aligned line-for-line for split-screen reading.\n\nclass FINISHED(Exception): pass\nclass NEXT(Exception): pass\nclass NEED_MORE(Exception): pass\n\ndef lzw_stream(v, remain, o, x, lzw_counter, lzw_code_size, lzw_min_size):\n # lzw_code_size: current bitlength we read\n # lzw_counter: the amount of symbols we have read using lzw_code_size\n # lzw_min_size: the original bitlength we read\n # vlw: variable-length word bitlength (lzw_code_size + 1)\n # v: decompressed value (may be partial, when remain = 0)\n # x: compressed input string\n # o: bit offset\n # )\n char_idx = o // 8\n if char_idx >= len(x):\n raise NEED_MORE()\n\n\n vlw = lzw_code_size + 1\n o_mod = o % 8\n current_byte = ord(x[char_idx:char_idx+1]) # <-- Python2/Python3 compat\n if o_mod + vlw <= 8:\n def mask(maske,i): return ((1 << maske) -1) & i\n o = o + remain\n v = (mask(remain,(current_byte >> o_mod)) << (vlw-remain)) \| v\n remain = 0\n else:\n vikanta = 8 - o_mod\n o = o + vikanta\n v = ( (current_byte >> (8 - vikanta)) << (vlw - remain) ) \| v\n remain = vlw - vikanta\n if 0 == remain:\n if v == (1 << lzw_min_size) + 1:\n raise FINISHED()\n else:\n if lzw_counter == (1 << lzw_code_size) -1:\n lzw_counter = 0\n lzw_code_size += 1\n assert lzw_code_size<=12, \"Appendix C.4: up to 12 bits per code\"\n raise NEXT((0, lzw_code_size+1, o, x, lzw_counter+1,\n lzw_code_size, lzw_min_size), v)\n else:\n lzw_stream(v, remain,o,x,lzw_counter,lzw_code_size, lzw_min_size)\n\n\ndef goparse(buf, lzw_min_size, lzw_code_size):\n try:\n lzw_stream(lzw_min_size=lzw_min_size, remain=(lzw_code_size+1),\n x=buf, lzw_code_size=lzw_code_size, v=0, o=0, lzw_counter=0) ;\n raise Exception(\"oops\")\n except NEXT as y:\n assert y.args[1] == 1 << lzw_min_size, 'incorrect clear code'\n state = y.args[0]\n output_stream = []\n while True:\n try: lzw_stream(state); raise Exception(\"the function exceptionally returned\")\n except NEXT as y:\n state = y.args[0]\n output_stream.append(y.args[1])\n except FINISHED: return output_stream\n\ndef main():\n print('parsed!', goparse(b'\\x84\\x1cw\\x05', 2, 2))\n #print('parsed!', goparse(b'\\x8cP', 2, 2))\n #print('parsed!', goparse(b'\\x90\\x21\\x17\\xca\\x3b\\xcd\\x00\\x25\\xc8\\x1a\\x49\\x04', 4, 4))\n raise Exception('loaded')\n\nif __name__ == '__main__':\n main()\n" }, { "alpha_fraction": 0.6069431900978088, "alphanum_fraction": 0.6142983436584473, "avg_line_length": 32.9900016784668, "blob_id": "a71c1e9321d1e31100c196c46bc8da22ae7970ce", "content_id": "fc695e236f744f257c0fdcc202a3374b7f034e7c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3399, "license_type": "no_license", "max_line_length": 107, "num_lines": 100, "path": "/lotus-notes-convert.py", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python3\n'''Decoder from key-value formatted \"structured text\" Lotus Notes exports to JSON.\n When run as a script, it takes the optional argument --as-list and a set of exported files.\n\n Example with --as-list:\n ./lotus-notes-convert.py ./exported1.txt ./exported2.txt --as-list \| jq '.[].text'\n\n Example without --as-list (just concatenated dicts):\n ./lotus-notes-convert.py ./exported1.txt ./exported2.txt \| jq '.title'\n'''\n\n# quick and dirty version:\n#\n# a = open('notes_c_user_guide.structured').read()\n# for z in map(lambda t: t.split('\\ntext:'), a.split('\\x0c')):\n# o = dict(filter(lambda n: len(''.join(n)), map(lambda x: x.split(':', 1), z[0].strip().split('\\n'))))\n# o['text'] = z[1:]\n# json.dump(o, sys.stdout)\n\n\nimport json\nimport sys\nimport mmap\nfrom contextlib import contextmanager\nimport chardet\nimport codecs\n\nRECORD_SEPARATOR = b'\\x0C'\n\n@contextmanager\ndef get_mmap(filename):\n '''Returns an mmap object given a filename'''\n with open(filename, mode=r'r') as fd_handle:\n with mmap.mmap(fd_handle.fileno(), 0, access=mmap.PROT_READ) as fd_mmap:\n fd_mmap.madvise(mmap.MADV_SEQUENTIAL \| mmap.MADV_WILLNEED)\n yield fd_mmap\n fd_mmap.close()\n\ndef get_chunks(fd_mmap):\n '''Returns a chunk generator given an mmap object.\n The chunk generator handles text codec detection and decoding.\n '''\n encoding = chardet.detect(fd_mmap.read(4))['encoding']\n offset = 0\n stop = 0\n while True:\n stop = fd_mmap.find(RECORD_SEPARATOR, offset)\n if -1 == stop:\n assert offset +1 == fd_mmap.size()-1\n return\n else:\n view = memoryview(fd_mmap)[offset:stop]\n copy = codecs.decode(view, encoding)\n view.release()\n yield copy\n offset = stop + 1\n return\n\ndef get_dicts(chunks):\n '''Returns a dict generator given a chunks generator'''\n for dx in chunks:\n header, body = dx.split('\\n\\ntext:',1)\n if '\\n' == header[0]:\n header = header[1:]\n headers = dict(map(lambda line: line.split(': ', 1), header.split('\\n')))\n headers['text'] = body\n yield headers\n\ndef dict_generator(filenames):\n for filename in filenames:\n with get_mmap(filename) as fd_mmap:\n for v in get_dicts(get_chunks(fd_mmap)):\n yield v\n\nclass SerializableDictGenerator(list):\n '''Wraps dict_generator() in a list-like object to permit serialization.'''\n def __init__(self, filenames):\n self._generator = dict_generator(filenames)\n def __iter__(self):\n return self._generator.__iter__()\n def __len__(self):\n return 1 # Here we lie, which works with the json module, mileage may vary.\n\ndef dump_json_stream(filenames, fd_out=sys.stdout, as_list=False):\n '''Dumps a JSON representation of the files on the given\n stream object (e.g. an open file handle).\n Each dict is output individually in \"slurp\" format, not as a list.\n '''\n if as_list:\n json.dump(SerializableDictGenerator(files), fd_out)\n else:\n for v in dict_generator(files):\n json.dump(v, fd_out)\n fd_out.flush()\n fd_out.close()\n\nif '__main__' == __name__:\n files = list(filter(lambda fn: '--as-list' != fn, sys.argv[1:]))\n as_list = files != sys.argv[1:]\n dump_json_stream(files, as_list=as_list)\n" }, { "alpha_fraction": 0.6925246715545654, "alphanum_fraction": 0.7009872794151306, "avg_line_length": 25.185184478759766, "blob_id": "bbd443e012c1b69c64db0df83c141d732bf95cd2", "content_id": "33c1b6b535637b9b596b21012f542ae420ee7bd6", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 709, "license_type": "no_license", "max_line_length": 75, "num_lines": 27, "path": "/ocaml_getting_started.md", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "Bootstrap an OCaml programming environment on a debian system from scratch.\n\n```shell\nsudo apt install --no-install-recommends mccs ocaml-nox opam\n\nexport OPAMDOWNLOADJOBS=10\n\nopam init --enable-shell-hook --enable-completion --shell-setup --bare\n\nopam switch list-available\n\nopam switch create 4.07.1 --solver=mccs\n\nopam install $(\n # editor:\n ) tuareg merlin ocp-index $(\n # REPL:\n ) down omod ocp-browser cmitomli $(\n # mirage-related:\n ) mirage mirage-protocols-lwt mirage-flow-lwt tcpip tls \\\n tsdl mirage-unix mirage-xen $(\n # common utilities for running test suites:\n ) alcotest crowbar ounit\n\necho '#use \"omod.top\";;' >> ~/.ocamlinit\necho '#use \"down.top\";;' >> ~/.ocamlinit\n```\n\n\n" }, { "alpha_fraction": 0.6005497574806213, "alphanum_fraction": 0.6083622574806213, "avg_line_length": 34.4461555480957, "blob_id": "3104edacc4882b06006d271cf49cc58630ac47fe", "content_id": "a27a2bf9a9944a4e3f19ad22dc7e3eb1823b18e8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 6912, "license_type": "no_license", "max_line_length": 80, "num_lines": 195, "path": "/unixmutex.py", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python3\nimport socket\nfrom socket import AF_UNIX, SOCK_STREAM, SOL_SOCKET, SO_RCVBUF, SO_SNDBUF\nfrom time import sleep\nimport asyncio\n\ntimes = {\n 'wait_for_lock': 0.01,\n}\n\nclass UnixSocketLock():\n '''Inter-process Mutex implemented by exploiting\n exclusive binding of Abstract Unix Sockets.\n\n The lock is released on unlock() or if the lock holding process crashes.\n Potentially interesting features:\n - Does not require shared memory, unlike futex locks (pthread_mutex etc)\n - Detects crashes, ?unlike semaphores?\n - Isn't filesystem/mount namespace-bound, unlike lockf/fcntl/semaphores\n\n Python impl supports interleaved async/non-async use\n through lock() and lock_async().\n\n Waiting is implemented by issuing a blocking send() to the lock holder,\n and detecting when the connection is severed.\n\n An interesting (not implemented) optimization would be to handle\n graceful unlock() by accepting one of the pending listeners and using\n SCM_RIGHTS to transfer the bound file descriptor.\n\n There is an unfortunate busy loop in between the lock holder's\n bind() and listen() where lock takers won't know if the lock is held or not\n and thus have to retry taking the lock. This implementation waits for\n times['wait_for_lock'] seconds as implemented in _wait_for_lock()\n and _wait_for_lock_async(). That looks like this (chronologically):\n\n 1. A: bind() -> lock held\n\n 2. B: bind() -> lock not held\n 3. B: connect() -> fails, go to 2 [wait_for_lock sleeps here]\n\n 4. A: listen() -> now connect() is possible\n 5. B: bind() -> lock not held\n 6. B: connect() -> succeeds\n 7. B: send() -> blocks because we fill the buffer. we use sendall as a\n convenience, which translates to a for loop until it blocks.\n\n '''\n def __init__(self, name:bytes):\n # abstract unix sockets, as opposed to named unix sockets, are not bound\n # in the filesystem namespace, and are created by prefixing a \"filename\"\n # with a nullbyte:\n self.abstract_name = b'\\x00' + name\n self._new_sock()\n\n def __copy__(self):\n '''not tested, when copying we should allocate new sockets'''\n assert False, 'not tested'\n return self.__class__()(self.abstract_name[1:])\n __deepcopy__ = __copy__\n\n def _new_sock(self):\n self.listener = socket.socket(AF_UNIX, SOCK_STREAM)\n self.connector = socket.socket(AF_UNIX, SOCK_STREAM)\n # minimize socket buffers:\n self.connector.setsockopt(SOL_SOCKET, SO_SNDBUF, 1) # eg 4608\n self.connector.setsockopt(SOL_SOCKET, SO_RCVBUF, 1) # eg 4608\n self.listener.setsockopt(SOL_SOCKET, SO_SNDBUF, 1) # eg 2304\n self.listener.setsockopt(SOL_SOCKET, SO_RCVBUF, 1) # eg 2304\n # it might block before, but definitely at this point:\n self.block = b'x' * (\n 1 + self.connector.getsockopt(SOL_SOCKET, SO_SNDBUF))\n\n async def _block_connected_async(self):\n '''see self._block_connected()'''\n try:\n await asyncio.get_event_loop().sock_sendall(\n self.connector, self.block)\n except BrokenPipeError:\n self._new_sock()\n except ConnectionResetError:\n pass\n\n def _block_connected(self):\n '''Blocking (non-async) wait.'''\n try:\n self.connector.sendall(self.block)\n except BrokenPipeError:\n # when the lock holder is killed (non-gracefully)\n # connect() and sendall() will return instantly.\n # technically just need to recreate the connector:\n self._new_sock()\n except ConnectionResetError:\n pass # when the lock holder closes the socket?\n\n def try_lock(self):\n '''Tries to take the lock, immediately returning True when waiting\n and False when the lock is acquired.'''\n try:\n self.listener.bind(self.abstract_name) # take lock\n except OSError:\n return True # still waiting\n\n # should make the backlog configurable by providing\n # the optional arg to listen()?'''\n self.listener.listen()\n # Since we never accept() connections, the number of listeners is\n # capped to the default backlog.\n # We could accept(), but that would require code to handle that.\n\n return False # now has lock\n\n def unlock(self):\n '''Releases a held lock. Returns None.'''\n self.listener.close()\n\n async def _wait_for_lock_async(self):\n '''See _wait_for_lock()'''\n try:\n self.connector.connect(self.abstract_name)\n except ConnectionRefusedError:\n await asyncio.sleep(times['wait_for_lock'])\n return\n except OSError as e:\n if e.errno == 106: # if e.errno == 106: # already connected\n pass\n else:\n raise e\n await self._block_connected_async()\n\n def _wait_for_lock(self):\n '''Blocking wait for the lock to be released.\n Returns early when connect fails.\n Always returns None.\n '''\n try:\n self.connector.connect(self.abstract_name)\n except ConnectionRefusedError:\n # NB: ConnectionRefusedError is a subclass of OSError\n sleep(times['wait_for_lock'])\n # happens after bind, before listen() in try_lock\n # also happens if the lock holder crashed, so we need to retry\n # acquiring the lock.\n return\n except OSError as e:\n if e.errno == 106: # if e.errno == 106: # already connected\n pass\n else:\n raise e\n self._block_connected()\n\n async def lock_async(self):\n '''Blocking wait for lock (async).\n Returns when the lock has been acquired.'''\n is_waiting = self.try_lock()\n while is_waiting:\n await self._wait_for_lock_async()\n is_waiting = self.try_lock()\n\n def lock(self):\n '''Blocking wait for lock.\n Returns when the lock has been acquired.'''\n is_waiting = self.try_lock()\n while is_waiting:\n self._wait_for_lock()\n is_waiting = self.try_lock()\n\nasync def test_async(lck):\n await lck.lock_async()\n print('have lock, thanks')\n await asyncio.sleep(5)\n print('releasing')\n lck.unlock()\n await asyncio.sleep(5)\n print('reacquiring')\n await lck.lock_async()\n print('got it')\n await asyncio.sleep(5)\n\nif __name__ == '__main__':\n import sys\n lck = UnixSocketLock(b'xtest')\n if 'async' in sys.argv:\n asyncio.run(test_async(lck))\n else:\n lck.lock()\n print('have lock, thanks')\n sleep(5)\n print('releasing')\n lck.unlock()\n sleep(5)\n print('reacquiring')\n lck.lock()\n print('got it')\n sleep(5)\n" }, { "alpha_fraction": 0.49668246507644653, "alphanum_fraction": 0.5383886098861694, "avg_line_length": 18.14545440673828, "blob_id": "d7761659d84b83ec9228f58d4f8a715173a8560d", "content_id": "b0233889dfda338e4525a4533ea4e52879b1256b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1055, "license_type": "no_license", "max_line_length": 67, "num_lines": 55, "path": "/xor_128bits_x86_64.c", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "/*\n Compute fast bitwise xor between two bit-vectors a, b of n bits,\n * where n is a multiple of 128.\n * Place the result in a.\n /\nstatic inline\nvoid bitxor_m128i(void _a, const void _b, size_t n)\n{\n assert(n % 128 == 0);\n\n __m128i a = (__m128i ) _a;\n __m128i b = (__m128i ) _b;\n\n n >>= 7;\n while (n--) {\n a = _mm_xor_si128(a, b);\n ++a; ++b;\n }\n}\n\n/*\n Compute bitwise xor between to bit-vectors a, b of n bits,\n * where n is a multiple of 8.\n * Place the result in a.\n /\nstatic inline\nvoid bitxor_small(void _a, const void _b, const size_t _n)\n{\n size_t n = _n;\n uint8_t a = (uint8_t ) _a;\n uint8_t b = (uint8_t ) _b;\n\n n >>= 3;\n\n / round to the closest multiple of 8-bits /\n if (_n & 7) n++;\n\n while (n--) {\n a ^= b;\n a++; b++;\n }\n}\n\n\nstatic inline\nvoid bitxor(void _a, const void _b, const size_t n)\n{\n uint8_t a = (uint8_t ) _a;\n uint8_t b = (uint8_t ) _b;\n const size_t small = n % 128;\n const size_t big = n - small;\n\n bitxor_m128i(a, b, big);\n bitxor_small(a+big, b+big, small);\n}\n\n\n" }, { "alpha_fraction": 0.7173161506652832, "alphanum_fraction": 0.7418662905693054, "avg_line_length": 67.21951293945312, "blob_id": "f20de1578c12efa2a96473f16e5ee2139fd6f844", "content_id": "19f7f7c75b78642ad748158a02e29dd7344f1d5d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 8391, "license_type": "no_license", "max_line_length": 298, "num_lines": 123, "path": "/ocaml_project_ideas.md", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "a list of projects suggested by me, or other people, in passing conversation, that I would like to see realized :)\n\n# MirageOS / QubesOS integration\n\n- text editor widget for mirage-framebuffer\n - here's something using notty: https://github.com/takahisa/chibipad\n\n- SOCKS proxy MirageOS unikernel\n - there's a [socks library](https://github.com/cfcs/ocaml-socks)\n\n- [MirageOS](https://mirage.io) image cleaner (converting ` -> bitmap`), for inclusion in [QubesOS](https://qubes-os.org/)\n - see [qubes-convert-img](https://github.com/QubesOS/qubes-app-linux-img-converter)\n - easy! except we don't have a BMP library. see points about `imagelib` below\n\n- wireless / wired setup\n - mirage-firewall vm\n - `WPA2` auth\n - `802.1x`?\n - handling of ?some? captive portals\n - linux stub kernel as sys-net\n - `init` process:\n - forward netlink to mirage-firewall vm\n - ethernet bridge to mirage-firewall vm\n\n- pdf normalizer/cleaner\n - lots of pdf libs in ocaml, could whitelist stuff\n - no font rendering in OCaml, so we cannot write a layout-respecting PDF renderer\n - could look into [patoline](https://patoline.github.io/)\n\n- jukebox unikernel ([MPD clone?](https://www.musicpd.org/))\n - there's an [mpd frontend](https://github.com/cedlemo/rameau) using [notty](https://github.com/pqwy/notty)\n - needs a mpd host unix process somewhere, so not directly usable\n - uses @cedlemo's [mpd client library](https://github.com/cedlemo/OCaml-libmpdclient)\n - if we implement an mpd server people can use custom interfaces\n - also some other [mpd thingie](https://github.com/fosu/camusical) (haven't evaluated yet)\n - prototype cross-platform audio playback available in [mirage-framebuffer-audio](https://github.com/cfcs/mirage-framebuffer-audio)\n - uses signed 16-bit PCM waves at fixed frequency. we need transcoders that can produce this.\n - we need audio format decoders (WAV takes too much space to be practical):\n - port of this? libjspeex-java/testing,unstable\n - [FLAC](https://en.wikipedia.org/wiki/FLAC) decoder\n - [format / spec](https://xiph.org/flac/format.html)\n - https://github.com/xiph/flac/blob/master/src/libFLAC/stream_decoder.c\n - [Ogg](https://en.wikipedia.org/wiki/Ogg) decoder\n - ([OPUS](https://en.wikipedia.org/wiki/Opus_%28audio_format%29) / RFC 6716)\n - AAC / MP3 ? some people seem to want proprietary formats\n - I dislike proprietary formats, mostly due to lack of public documentation or reference implementations\n - [nice article about MP3](http://blog.bjrn.se/2008/10/lets-build-mp3-decoder.html)\n\n# Misc ~ less advanced (maybe)\n\n- [STUN protocol server](https://tools.ietf.org/html/rfc5389) for NAT traversal\n\n- implementation of [Roaring Bitmaps](https://www.roaringbitmap.org/)\n\n- a [Trunnel](https://gitweb.torproject.org/trunnel.git) implementation - Trunnel is a DDL used by [the Tor Project](https://torproject.org) to specify their wire protocol and generate (un)parser code.\n - see [the manual](http://www.wangafu.net/~nickm/trunnel-manual.html)\n - either code generation or ppx or virtual machine-based\n - There's a Golang port: https://github.com/mmcloughlin/trunnel\n\n- an implementation of [De Bruijn sequences](https://en.wikipedia.org/wiki/De_Bruijn_sequence) for used in debugging/testsuites and other cases where it is useful to learn an index from a short substring of output.\n- [.po file format](http://pology.nedohodnik.net/doc/user/en_US/ch-poformat.html) for internationalization\n - parser (using [Angstrom](https://github.com/inhabitedtype/angstrom)?)\n - Fmt / Logs integration ?\n - ppx ?\n - OH, seems like this repo has one? [Babilim](https://github.com/Octachron/babilim)\n- pure CRC library ([CRC-32](https://en.wikipedia.org/wiki/CRC32), `CRC16`, etc)\n - there are various pure implementations around of misc CRC variants, would be nice to have them in one place\n - [openpgp crc-24](https://github.com/cfcs/ocaml-openpgp/blob/13dfb087fc4dacec33f69cc57ef768bc0a617dd7/lib/types.ml#L708-L754)\n - fast [sRGB](https://en.wikipedia.org/wiki/SRGB)`<->`[HSV](https://en.wikipedia.org/wiki/HSL_and_HSV) (or whatever) conversions for color gradients\n - with/without floats (I'm mainly interested in without)\n- [Sakura tree hashing (with a streaming API)](https://keccak.team/files/Sakura.pdf)\n - see [HN thread](https://news.ycombinator.com/item?id=16572793)\n- qcheck `\"_factorial\" Gen.t` that takes a string-like `(length, sub)` module and a `type t` and returns lists of `type t` split in various permutations\n- WAV decoder/transcoder\n - maybe [G.711](https://en.wikipedia.org/wiki/G.711), a simple 64kbps audio codec, patent expired\n - [.au (by Sun)](https://en.wikipedia.org/wiki/Au_file_format) is very similar\n - [Codec 2](https://en.wikipedia.org/wiki/Codec_2), a seemingly simple PCM codec used by ham radio operators\n- tool to make torrents with file-aligned chunk padding, see\n - Rudy has a [Bencode library](https://github.com/rgrinberg/bencode)\n - [BEP-35: signing](http://bittorrent.org/beps/bep_0035.html)\n - [BEP039: additional signing](http://www.bittorrent.org/beps/bep_0039.html)\n - [BEP-47: padding](http://www.bittorrent.org/beps/bep_0047.html)\n - [BEP-46: updating via DHT](http://www.bittorrent.org/beps/bep_0046.html)\n - [`libtorrent make_torrent.c` example](https://libtorrent.org/examples.html)\n - [BEP-49: deletion/revision](http://bittorrent.org/beps/bep_0049.html)\n- [RFC 7677: SASL/SCRAM authentication](https://tools.ietf.org/html/rfc7677)\n- [imagelib](https://github.com/rlepigre/ocaml-imagelib) has a pure picture format implementations\n - JPG support in imagelib\n - GIF support in imagelib\n\n- pure QRcode library, ideally working with imagelib\n - perhaps inspired by https://github.com/cozmo/jsQR\n- [ZIP](https://en.wikipedia.org/wiki/Zip_%28file_format%29) file utility using [decompress](https://github.com/dinosaure/decompress)\n- `diff`/`patch` (TODO research different formats/algorithms, does ocaml-git implement this?)\n- graphviz implementation (just the layouting/positioning/coordinates, not necessarily the drawing)\n- adding session resumption to [tlsping](https://github.com/cfcs/tlsping)\n\n# Misc ~ more advanced (maybe)\n- CI tool for determining if an opam package update breaks the API and enforces semantic versioning\n - maybe see Camelus\n - [paper on OPAM + CI](http://www.ocamlpro.com/wp-content/uploads/2016/08/ocaml2016-opam-builder.pdf)\n- erlang-style bit-based pattern matching ppx\n- Fortran/F90-style array slicing with views [aka \"array sub-objects\"](http://www.mathcs.emory.edu/~cheung/Courses/561/Syllabus/6-Fortran/array4.html)\n- OpenVPN implementation\n - [SoftEther implements it](https://github.com/SoftEtherVPN/SoftEtherVPN)\n - [relevent .c file](https://github.com/SoftEtherVPN/SoftEtherVPN/blob/93d9ade990bd277539138572d7f2bcccfa108407/src/Cedar/Interop_OpenVPN.c) - and the [corresponding .h file](https://github.com/SoftEtherVPN/SoftEtherVPN/blob/93d9ade990bd277539138572d7f2bcccfa108407/src/Cedar/Interop_OpenVPN.h)\n\n- Multimedia formats;\n - video decoding: [AOMedia Video 1 (aka \"AV1\")](https://en.wikipedia.org/wiki/AV1) seems to be the coolest, and openest, standard\n - [VP9](https://en.wikipedia.org/wiki/VP9) is the predecessor, perhaps simpler to implement\n - TODO look into Matroska\n - audio (for chat applications?)\n - [OggPCM](https://en.wikipedia.org/wiki/OggPCM)\n - https://auphonic.com/blog/2018/06/01/codec2-podcast-on-floppy-disk/\n - [Speex (maybe? not sure how this compares to OPUS in terms of complexity)](https://en.wikipedia.org/wiki/Speex)\n\n- [zstd](https://en.wikipedia.org/wiki/Zstandard) compression/decompression\n- investigate getting [libpqcrypto](https://libpqcrypto.org/) to work on mirage (replacing openssl with nocrypto as far as possible?)\n- homomorphic hashing, like https://code.fb.com/security/homomorphic-hashing/\n- mail client, a bit like https://sup-heliotrope.github.io/ maybe\n- https://www.bzarg.com/p/how-a-kalman-filter-works-in-pictures/\n- investigate the [open policy agent](https://github.com/open-policy-agent/opa) design for role-based access control and auditing\n- Developing a system for writing stream parsers/readers that can express nested states and their transitions like `root -> dict -> key` -> `root -> dict -> key -> value` safely. Encoding the entry name in the type seems to be a tricky problem :-(\n" }, { "alpha_fraction": 0.4804905354976654, "alphanum_fraction": 0.562987744808197, "avg_line_length": 24.628570556640625, "blob_id": "d4646d44ba94ea5ed37aee2a8db2d0afc450e98e", "content_id": "67efa30ad93a948e0fea6c2574a212bf83372e4c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 897, "license_type": "no_license", "max_line_length": 64, "num_lines": 35, "path": "/cidr.py", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "def match(cidr, ip):\n def ip_to_int(ip):\n octets = ip.split('.')\n return sum(int(octets[c//8]) << (24-c) for c in (0,8,16,24))\n (base, mask) = cidr.split('/')\n shift = 32 - int(mask)\n mask = (0xffffFFFF >> shift) << shift\n return ip_to_int(ip) & mask == ip_to_int(base) & mask\n\ndef test(cidr, ip):\n print('%s in %s: %s' % (ip, cidr, match(cidr, ip)))\n\ntest('1.2.3.4/32', '1.2.3.4')\ntest('1.2.3.4/32', '1.2.3.5')\ntest('1.2.3.4/31', '1.2.3.5')\ntest('1.2.3.0/24', '1.2.3.4')\ntest('1.2.3.0/24', '1.2.3.5')\n\n\n\n# start \\ exclude (forall x, x E start /\\ ~ (x E exclude) )\n# from stackoverflow:\nfrom ipaddress import ip_network\nstart = '0.0.0.0/0'\nexclude = sys.argv[1:] or ['1.2.3.4/32']\nresult = [ip_network(start)]\nfor x in exclude:\n n = ip_network(x)\n new = []\n for y in result:\n if y.overlaps(n):\n new.extend(y.address_exclude(n))\n else:\n new.append(y)\n result = new\n" }, { "alpha_fraction": 0.5600366592407227, "alphanum_fraction": 0.595096230506897, "avg_line_length": 37.96428680419922, "blob_id": "0798be06866b4ab11929999c12b204c8dd3b2100", "content_id": "2cf650ce2f2aafff2f0a2786205a4bce93a3acfd", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4364, "license_type": "no_license", "max_line_length": 210, "num_lines": 112, "path": "/fizzbuzz.py", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python3\n'''Table-based branch-free fizzbuzz implementation based on the\n observation that it is periodic and a sequence of seven strings\n is sufficient to cover the period.\n Since this implementation uses seven divisions as opposed to the 3 in the\n traditional implementation, it's unlikely to be faster.\n An optimization could be to keep the previous state around, but\n doing so would remove the nice closed-form property.\n'''\n\ndef traditional(i):\n tab = '\\t'\n if i % 15 == 0:\n return f'FizzBuzz'\n elif i % 5 == 0:\n return f'Buzz{tab}'\n elif i % 3 == 0:\n return f'Fizz{tab}'\n return f'{i}{tab}'\n\ndef branchless(i):\n # this could be a global array:\n arr = ['X', 'Fizz', 'Buzz', 'Fizz', 'Fizz', 'Buzz', 'Fizz', 'FizzBuzz']\n\n arr[0] = i # so we can print the current number by selecting arr[0]\n\n # state2: number of fizz+buzz-fizzbuzzes at current i\n # state: number of fizz+buzz-fizzbuzzes at previous i\n state2 = ( (i) // 3 + (i) // 5 - (i) // 15)\n state = ((i-1) // 3 + (i-1) // 5 - (i-1) // 15)\n\n # if the number of interesting states at (i) and i-1 are the same,\n # we infer that (i) is not interesting, and thus (mod) will be 0.\n # otherwise, (mod) is 1:\n mod = state2 - state\n\n # multiply by (mod) to get either 0 or (1 + state % 7)\n # the +1 will skip the X element, the modulo selects from the sequence\n # of fizz/buzz/fizzbuzz. we could alternatively start at state\n # 3 (making the sequence [Fizz,Buzz,Fizz,FizzBuzz] and skipping every\n # other FizzBuzz):\n return arr[mod(1 + (state % (len(arr)-1)) )]\n\ndef branchless_alt(i):\n # this could be a global array:\n arr = ['X', 'FizzBuzz', 'Fizz', 'Buzz', 'Fizz']\n\n # state2: number of fizz+buzz-fizzbuzzes at current i\n # state: number of fizz+buzz-fizzbuzzes at previous i\n state2 = ( (i) // 3 + (i) // 5 - (i) // 15)\n state = ((i-1) // 3 + (i-1) // 5 - (i-1) // 15)\n\n arr[0] = i # so we can print the current number by selecting arr[0]\n\n # if the number of interesting states at (i) and i-1 are the same,\n # we infer that (i) is not interesting, and thus (mod) will be 0.\n # otherwise, (mod) is 1:\n mod = state2 - state\n\n # idx selects our indice into the 7-element sequence:\n idx = (state2 % 7)\n # mod4 shrinks the sequence to four elements, then skips every other\n # FizzBuzz by adding idx/4, letting us distinguish between 0 and 4\n mod4 = (idx % 4) + idx//4\n return arr[mod(1+mod4)]\n\ndef generative(i):\n '''\n In this alternative version we refrain from doing division in the yield\n loop; cycling through states instead.\n Another implementation idea would be to keep counters for 3 and 5;\n that would probably be a more efficient way to write generators.\n '''\n # mods keeps track of FizzBuzz patterns, starting at 0, which means\n # the (i) argument should be > 0.\n mods = [1,0,0,1,\n 0,1,1,0,\n 0,1,1,0,\n 1,0,0]\n arr = ['X', 'FizzBuzz', 'Fizz', 'Buzz', 'Fizz']\n state2 = ( (i) // 3 + (i) // 5 - (i) // 15)\n state_ptr = i % (len(mods))\n arr[0] = i\n idx = state2 % 7\n while True:\n # mod_idx = 1 + idx%4 + idx//4\n # { idx < 7 -> 1 <= mod_idx <= 5}\n mod_idx = 1 + (idx & 3) + (idx >> 2)\n yield arr[mods[state_ptr] * mod_idx]\n\n # state_ptr = (state_ptr + 1 ) % len(mods)\n # state_ptr = (state_ptr + 1 ) % 15:\n state_ptr += 1 # now it may be 15\n # if 15 then 15+1 == ((16 & 16)/16 = 1) -> (state_ptr = 0):\n state_ptr = 1 - (((state_ptr + 1) & 16)>>4)\n\n idx += mods[state_ptr]\n idx = 1 - ((idx+1) >> 3) # idx = idx % 7\n # idx is only used to compute mod_idx, so some smarter bithackery\n # here could probably trim this section down a bit.\n\n # update the number to print when not FizzBuzz:\n arr[0] += 1\n\ngen_fizzbuzz = generative(1)\nfor i in range(1,101):\n sanity = traditional(i)\n selected = branchless(i)\n selected_alt = branchless_alt(i)\n generated = gen_fizzbuzz.send(None)\n generative_check = generative(i).send(None)\n print(f'{i}\\t{sanity}\\t{selected}\\t{selected_alt}\\t{generated}\\t{generative_check}'.replace('FizzBuzz','\\x1b[31mFIZZBUZZ\\x1b[0m').replace('Buzz','\\x1b[32mBUZZ\\x1b[0m').replace('Fizz','\\x1b[33mFIZZ\\x1b[0m'))\n" }, { "alpha_fraction": 0.6904761791229248, "alphanum_fraction": 0.6904761791229248, "avg_line_length": 51.5, "blob_id": "4c6681d9b0ca74554c8645e047c090e68c58cb1e", "content_id": "6977bf0c0c7be731a5a96b727a8b5474a0853a1b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 210, "license_type": "no_license", "max_line_length": 79, "num_lines": 4, "path": "/rsync-rfcs", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "#! /bin/sh\nRSYNC=\"rsync -az --delete-excluded --delete\"\n$RSYNC \"$@\" ftp.rfc-editor.org::rfcs-text-only ~/usr/share/ietf/in-notes/\n$RSYNC \"$@\" ftp.rfc-editor.org::ids-text-only ~/usr/share/ietf/internet-drafts/\n" }, { "alpha_fraction": 0.5244041085243225, "alphanum_fraction": 0.558456301689148, "avg_line_length": 21.88311767578125, "blob_id": "68a89bf24c1c600c6fff72104dcd785b31cdb11b", "content_id": "6ca7690bb05b1496d1557289fd52740f8d5f2f94", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 1762, "license_type": "no_license", "max_line_length": 90, "num_lines": 77, "path": "/logpuncher.c", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "// PoC log truncator, not usable atm\n\n#define _GNU_SOURCE\n#include <fcntl.h>\n#include <stdlib.h>\n#include <string.h>\n#include <ctype.h>\n#include <errno.h>\n#include <sys/stat.h>\n#include <unistd.h>\n\n#include <stdio.h>\n\nint main(int argc, char argv)\n{\n if(argc < 3){\n usage_and_exit:\n printf(\"Usage: %s 100M file1 [file2..]\\n\", argv[0]);\n exit(1);\n }\n\n size_t size_arg_len = strlen(argv[1]);\n if(size_arg_len < 1)\n goto usage_and_exit;\n\n size_t size_digit_len = strspn(argv[1], \"0123456789\");\n if( size_digit_len < (size_arg_len-1) \|\| 0 == size_digit_len)\n goto usage_and_exit;\n\n errno = 0;\n off_t len_cap = strtoll(argv[1], NULL, 10);\n if(0 != errno)\n goto usage_and_exit;\n\n switch(toupper( argv[1][size_digit_len] )){\n case 'T': len_cap = 1024;\n case 'G': len_cap = 1024;\n case 'M': len_cap = 1024;\n case 'K': len_cap = 1024;\n }\n\n printf(\"len cap: %Ld\\n\", len_cap);\n int fds[argc-2];\n for(uint i=2; i < argc; i++){\n fds[i-2] = open(argv[i], O_WRONLY);\n if(fds[i-2] < 0){\n printf(\"unable to open file: %s\\n\", argv[i]);\n }\n else\n printf(\"file %d: %s\\n\", i, argv[i]);\n }\n\n struct stat s;\n off_t remove_len;\n while(1){\n for(uint i = 0; i < sizeof(fds); i++){\n fstat(fds[i], &s);\n if(!S_ISREG(s.st_mode)){\n //not regular file\n exit(2);\n }\n remove_len = s.st_size - len_cap;\n remove_len -= remove_len % s.st_blksize;\n if(remove_len > 0){\n printf(\"Removing %Ld out of %Ld bytes from %s\", remove_len, s.st_size, argv[i+2]);\n\n\t// TODO this is where we copy (0, remove_len) to somewhere else\n\n\tif(-1 == fallocate(fds[i], FALLOC_FL_COLLAPSE_RANGE, 0, remove_len))\n perror(\"fallocate\");\n }\n }\n sleep(2);\n }\n\n return 0;\n}\n" }, { "alpha_fraction": 0.6247654557228088, "alphanum_fraction": 0.6360225081443787, "avg_line_length": 16.766666412353516, "blob_id": "5ee3d662401ef4fffb023ab8c3f1d6c8ea849c3f", "content_id": "ae5fc8039d084b10c01ea1eb9ce9554fe721d4bd", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C", "length_bytes": 533, "license_type": "no_license", "max_line_length": 50, "num_lines": 30, "path": "/exitme.c", "repo_name": "cfcs/misc", "src_encoding": "UTF-8", "text": "/\ncc -Wall -Wpedantic exitme.c -o exitme && ./exitme\nUNIX extended status word exit test\n/\n\n#include <stdio.h>\n#include <stdint.h>\n#include <sys/types.h>\n#include <sys/stat.h>\n#include <fcntl.h>\n#include <sys/socket.h>\n#include <stdlib.h>\n#include <assert.h>\n\n#include <unistd.h>\n#include <sys/wait.h>\n\nint\nmain(int argc, char*argv)\n{\n\tpid_t me = fork();\n if (fork)\n\t{\n\t\tsiginfo_t infop = {0};\n\t\twaitid(P_PID, me, &infop, WEXITED);\n\t\tprintf(\"status was %x\\n\", infop.si_status);\n\t}\n\tprintf(\"fork %d\", me);\n\t_exit(0x3334);\n}\n" } ]	32
qiuyue1993/Coding_Practice	https://github.com/qiuyue1993/Coding_Practice	e08fac6d4db8f6c8e37f263627c5c6fa96770e44	12d384d28c5b383fbc6b4e039b3efd0526f48dc2	b2ee5d82588db17289d5b0a0691c2c866094b8e0	refs/heads/master	2020-06-10T16:26:07.957523	2020-03-04T01:02:10	2020-03-04T01:02:10	193,674,944	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6622951030731201, "alphanum_fraction": 0.6803278923034668, "avg_line_length": 23.399999618530273, "blob_id": "33656b7d8a57a9defbd16d146f6c6bc8afaa9385", "content_id": "5cd845995372d74511229fea5e519da959ab87c4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1836, "license_type": "no_license", "max_line_length": 107, "num_lines": 75, "path": "/Interview/Topic 5 : Sorting Algorithms.md", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "# Excercises\n- Insertion Sort part 2\n- Quicksort part 2\n\n---\n# Sorting Algorithms\n## Bubble Sort \n- Compare 2 element one time and exchange them if the order is incorrect\n- Time: nn\n- Space: 1 (constant)\n\n## Selection Sort\n- Select one element from inordered section and put it into ordered section\n- Time: nn\n- Space: 1 (constant)\n\n## Insertion Sort\n- For every element under sorted, scan the ordered session and find a place to insert it\n- Time: nn\n- Space: 1 (constant)\n\n## Shell Sort (！)\n- 1. choose a list t1, t2, ..., tk, ti>tj, tk=1\n- 2. Implement k-times sorting\n- 3. For each sorting, devide list accodring to the ti, and for every segment, implement the insertion sort\n- Time: n1.3 - nn\n- Space: 1\n\n## Merge Sort (Divide and Conquer) (！)\n- 1. Divide a list into two sublist\n- 2. For each sublist, implement merge sort\n- 3. Merge two list\n\n- Time:nlog2(n)\n- Space:n\n\n## Quick Sort \n- 1. Choose a pivot\n- 2. rank based on the pivot and devide list into two section\n- 3. 1-2 recursively\n- Time: nlog2(n)\n- Space: nlog2(n)\n\n## Heap Sort (！)\n- 1. Build a heap (with big root or small root) (from leaf to root)\n- 2. Exchange the root with the last element \n- 3. adjust the heap (from root to leaf)\n- 4. Exchange the root with the last element\n- 5. Iteration\n- Time: nlog2(n)\n- Space: 1\n\n## Counting Sort\n- Find the largest and smallest element\n- Scan the list, count for every k\n- Time: n + k\n- Space: n + k\n\n## Bucket Sort\n- Set a array with different value section\n- Save data into different bucket\n- Rank every bucket with element\n- Time:n + k\n- Space: n + k\n\n## Radix Sort\n- Find the largest number and the radix number\n- For every radix (from low to high), gather number with same radix\n- Time: nk\n- Space: n+k\n\n---\n## Note\n- list(map(int, input().rstrip().split()))\n- print(\" \".join(map(str, arr)))\n" }, { "alpha_fraction": 0.7820512652397156, "alphanum_fraction": 0.7820512652397156, "avg_line_length": 31.842105865478516, "blob_id": "901b02228dcaf32eee56692070e3186a38f3b2eb", "content_id": "eec2b99749106dd68e6307bba3060f5358f61f10", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 624, "license_type": "no_license", "max_line_length": 121, "num_lines": 19, "path": "/Interview/Topic 8 : Recursion.md", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "# Excercises\n- Fibonacci Numbers\n\n---\n# Notes\n## Three important element\n- Boundary condition\n- Recursive advance session\n- Recursive return session\n- While the boundary condition is satisfied, the function returns; If not, the function advance\n\n## Recursion and loop \n- Usually loop is more efficient than recursion\n- Turn a recursion to a loop using stack structure\n\nSteps\n- When a function is called, stack the parameters and return position into a stack\n- The function is accessible to the stack\n- When return a function, find back position through the stack, and return all values and parameters, finally delete them\n" }, { "alpha_fraction": 0.7513276934623718, "alphanum_fraction": 0.7566385269165039, "avg_line_length": 34.17582321166992, "blob_id": "000343c2c8be18259c78522e777fb58c592d15b7", "content_id": "36c36d5253b26554e10cf978b2d5a0546ce6197d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 3201, "license_type": "no_license", "max_line_length": 290, "num_lines": 91, "path": "/Interview/Overall.md", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "# Important Aspects\n\n- Communication: asking for requirements and clarity* when necessary; Initial tech screen should be a conversation, don't forget to ask questions.\n\n- Problem solving: how you comprehend and expain complex ideas; provide the reasoning behind a particular solution; developing and comparing multiple solutions; using appropriate data structures; speaking about the space and time complexity; optimizing your solution\n\n- Coding: convert solutions to executable code? Is the code organized and does it capture the right logical structure\n\n- Verification: Considering a reasonable number of test cases; it there's bug, find the with your own logic and explain what is doing. \n\n---\n# How to prepare\n\n## Plan: \n\n- schedule time to study and practice\n- target medium and hard problems\n- Prioritize breadth over depth\n- Set aside time to review what you've practiced\n- Remember your goal.\n\n## Use key practice strategies to pracitce effectively:\n\n- practice coding the way you'll code during your tech screen\n\n- set a time constraint when you practice problems\n\n- code in your strongest language\n\n- practice talking through the problem space and possible solutions before you dive in, and talk through your decisions out loud as you code\n\n\n## Understand the types of problems you may encounter\n\n- Problems may access the depth of your knowledge and your versatility. \n\n- Problems may focus on edge cases\n\n- Problems may test how well you know things work under the hood\n\n---\n# How to Approach Problems During Your Interview\n\n## Before you code\n\n- ask clarifying questions\n\n- let us know if you've seen the problem previously\n\n- present multiple potential solutions, if possible\n\n## While you code\n\n- don't forget to talk\n\n- be flexible (if you get stuck, describe your best approach and ask the interviewer if you should go that route)\n\n- iterate rather than immediately trying to jump to the clever solution\n\n- generally, avoid solutions with lots of edge cases or huge if/else if/else blocks\n\nConsider\n- different algorithms and algorithmic techniques, such as sorting, divide-and-conquer, recursion\n- data structures, (array, stack/queue, hashset/hashmap/hashtable/dictionary, tree/binary tree, heap, graph)\n- O memory constraints on the complexity of the algorithm you're writing and its running time as expressed by big-O notation\n\n## After you code\n\n- expect questions\n\n- take the interviewer's hints to improve your code\n\n- as yourself if you would approve your solution as part of your codebase\n\n\n---\n# Resources\n\n- [Big O Notation](https://www.youtube.com/watch?v=v4cd1O4zkGw)\n- [Lists](https://www.youtube.com/watch?v=wjI1WNcIntg)\n- [Stacks & Queues](https://www.hackerrank.com/challenges/waiter/problem)\n- [Hash & Maps](https://www.youtube.com/watch?v=shs0KM3wKv8) (Watched)\n- [Sorting Algorithms](https://www.youtube.com/watch?v=KF2j-9iSf4Q)\n- [Trees](https://www.youtube.com/watch?v=oSWTXtMglKE&t=138s)\n- [Graphs(BFS & DFS)](https://www.youtube.com/watch?v=zaBhtODEL0w)\n- [Recursion](https://www.youtube.com/watch?v=KEEKn7Me-ms)\n\n---\n# Exercise\n\n- [InterviewBit](https://www.interviewbit.com/search/?q%5B%5D=Facebook)\n" }, { "alpha_fraction": 0.8115941882133484, "alphanum_fraction": 0.8115941882133484, "avg_line_length": 22, "blob_id": "8d388dbe7a495c42c106d280c5a65a220304d37f", "content_id": "e4e89d1067ef8d44d06bf1a997ce43f56330d817", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 69, "license_type": "no_license", "max_line_length": 49, "num_lines": 3, "path": "/README.md", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "# Coding_Practice\n\nThis repository is for practicing coding ability.\n" }, { "alpha_fraction": 0.668789803981781, "alphanum_fraction": 0.668789803981781, "avg_line_length": 18.375, "blob_id": "e58209bd5bb5365b50724ae302f66e28d7e45ca1", "content_id": "d1310780974d2188cd31506db08e2966b9c3a06f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 157, "license_type": "no_license", "max_line_length": 38, "num_lines": 8, "path": "/Interview/Topic 1 : Arrays & Strings.md", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "# Excercises\n- A Very Big Sum\n- Designer PDF Viewer\n- Left Rotation\n\n# Notes\n- chr(): turn integer to charactor\n- ord(): turn charactor to integer\n\n\n" }, { "alpha_fraction": 0.7196261882781982, "alphanum_fraction": 0.7196261882781982, "avg_line_length": 18.363636016845703, "blob_id": "f8bbdc63abe3f65d47f703989f0a11283d0c8f4a", "content_id": "9a0f2a8dc2502eadb0eae7eea36f88c00d6728d0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 214, "license_type": "no_license", "max_line_length": 39, "num_lines": 11, "path": "/Interview/Topic 3 : Stacks & Queues.md", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "# Excercises\n- Balanced Brackets\n- Queue Using Two Stacks\n\n---\n# Notes\n## Queue Using Two Stacks\n- A little bit treaky\n- One stack for enqueque\n- One stack for dequeque\n- When dequeue stack is empty, transfer \n" }, { "alpha_fraction": 0.7241379022598267, "alphanum_fraction": 0.7241379022598267, "avg_line_length": 13.5, "blob_id": "4fee60b38b281dd936b02fd4ad317653f2f04134", "content_id": "9284e8cf999f728821ef36e43080f89a405c99d2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 87, "license_type": "no_license", "max_line_length": 45, "num_lines": 6, "path": "/Interview/Topic 2 : Lists.md", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "# Excercises\n\n- Insert a Node at a Position Given in a List\n- Cycle Detection\n\n# Notes\n" }, { "alpha_fraction": 0.6955380439758301, "alphanum_fraction": 0.7007874250411987, "avg_line_length": 13.65384578704834, "blob_id": "b297ac0333aa3d8b2fa57cadfdd45ac494f2217b", "content_id": "c76cded85a4bd39aaed48aa3226140067c60bc7e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 381, "license_type": "no_license", "max_line_length": 42, "num_lines": 26, "path": "/Interview/Topic 6 : Trees.md", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "# Excercises\n- Binary Tree Insertion\n- Height of a Binary Tree\n- QHeap1\n\n---\n# Notes\n## Height of a Binary Tree\n- using 2 queues\n\n## Heap\n- Cannot figure out the optimal searching \n\n## DFS\n- Depth-First-Search\n- Pre-order\n- In-order\n- Post-order\n\n## BFS\n- Breadth-First-Search\n- FIFO (Queue)\n\n## Binary Search Tree\n- Root is bigger than left tree\n- Root is smaller than right tree\n" }, { "alpha_fraction": 0.6147186160087585, "alphanum_fraction": 0.648169994354248, "avg_line_length": 35.826087951660156, "blob_id": "2cf656259f7b5dd2d6391421f52cda8136a22b70", "content_id": "d77ba039a755de37789e6872709b571e99b20da9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3087, "license_type": "no_license", "max_line_length": 133, "num_lines": 69, "path": "/t-SNE/t-SNE.py", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "import os\nimport numpy as np\nimport cv2\nfrom time import time\nimport numpy as np\nimport matplotlib.pyplot as plt\nfrom mpl_toolkits.mplot3d import Axes3D\nfrom sklearn import datasets #手写数据集要用到\nfrom sklearn.manifold import TSNE\n#该函数是关键，需要根据自己的数据加以修改，将图片存到一个np.array里面，并且制作标签\n#因为是两类数据，所以我分别用0,1来表示\ndef get_data(Input_path): #Input_path为你自己原始数据存储路径，我的路径就是上面的'./Images'\n Image_names=os.listdir(Input_path) #获取目录下所有图片名称列表\n data=np.zeros((len(Image_names),40000)) #初始化一个np.array数组用于存数据\n label=np.zeros((len(Image_names),)) #初始化一个np.array数组用于存数据\n #为前500个分配标签1，后500分配0\n for k in range(500):\n label[k]=1\n #读取并存储图片数据，原图为rgb三通道，而且大小不一，先灰度化，再resize成200x200固定大小\n for i in range(len(Image_names)):\n image_path=os.path.join(Input_path,Image_names[i])\n img=cv2.imread(image_path)\n img_gray=cv2.cvtColor(img,cv2.COLOR_RGB2GRAY)\n img=cv2.resize(img_gray,(200,200))\n img=img.reshape(1,40000)\n data[i]=img\n n_samples, n_features = data.shape\n return data, label, n_samples, n_features\n\n‘’‘下面的两个函数，\n一个定义了二维数据，一个定义了3维数据的可视化\n不作详解，也无需再修改感兴趣可以了解matplotlib的常见用法\n’‘’\ndef plot_embedding_2D(data, label, title):\n x_min, x_max = np.min(data, 0), np.max(data, 0)\n data = (data - x_min) / (x_max - x_min)\n fig = plt.figure()\n for i in range(data.shape[0]):\n plt.text(data[i, 0], data[i, 1], str(label[i]),\n color=plt.cm.Set1(label[i]),\n fontdict={'weight': 'bold', 'size': 9})\n plt.xticks([])\n plt.yticks([])\n plt.title(title)\n return fig\ndef plot_embedding_3D(data,label,title): \n x_min, x_max = np.min(data,axis=0), np.max(data,axis=0) \n data = (data- x_min) / (x_max - x_min) \n ax = plt.figure().add_subplot(111,projection='3d') \n for i in range(data.shape[0]): \n ax.text(data[i, 0], data[i, 1], data[i,2],str(label[i]), color=plt.cm.Set1(label[i]),fontdict={'weight': 'bold', 'size': 9}) \n return fig\n\n#主函数\ndef main():\n data, label, n_samples, n_features = get_data('./Images') #根据自己的路径合理更改\n print('Begining......') #时间会较长，所有处理完毕后给出finished提示\n tsne_2D = TSNE(n_components=2, init='pca', random_state=0) #调用TSNE\n result_2D = tsne_2D.fit_transform(data)\n tsne_3D = TSNE(n_components=3, init='pca', random_state=0)\n result_3D = tsne_3D.fit_transform(data)\n print('Finished......')\n #调用上面的两个函数进行可视化\n fig1 = plot_embedding_2D(result_2D, label,'t-SNE')\n plt.show(fig1)\n fig2 = plot_embedding_3D(result_3D, label,'t-SNE')\n plt.show(fig2)\nif __name__ == '__main__':\n main()\n" }, { "alpha_fraction": 0.7481243014335632, "alphanum_fraction": 0.7534834146499634, "avg_line_length": 28.15625, "blob_id": "e7ffaf29e34d775bf73e0bb4dca27ceb1eaf6193", "content_id": "608de96576acb86d9cadbd8092bdf5e830d1910f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 935, "license_type": "no_license", "max_line_length": 114, "num_lines": 32, "path": "/Interview/Topic 7 : Graphs (BFS & DFS).md", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "# Excercises\n- Breath First Search\n- Snakes and Ladders\n\n---\n# Notes\n## Breath First Search (BFS)\n- Queue\n- For undirected graph, record the edge for two nodes\n- Snakes and Ladders: different layer have different value; find minimum fast\n\n## Depth First Search (DFS)\n- backtracking\n\n## Minimum spanning tree\n- Prim algorithm: choose shortest path every time\n- Kruskal algorithm: rank all paths, choose shortest path every time \n\n## Shortest path\n- Adjacency table: \n- Dijkstra algorithm: record every node's accessable node; find accessable and shortest city every time\n- Floyd algorithm:\n\n## Topological Sorting\n- directed acyclic graph\n- topological sorting: if edge <a,b> exists, a appears in front of vertex B; every vertex will be appear for once.\n- greedy：every time, choose a vertex with 0 indegree; delete the vertex and modify edges; repeat\n- DFS\n\n---\n- [terminology](http://www.nowamagic.net/librarys/veda/detail/1866)\n---\n" }, { "alpha_fraction": 0.46543779969215393, "alphanum_fraction": 0.5852534770965576, "avg_line_length": 18.545454025268555, "blob_id": "f229b6e20061e10240037178ce694c58a64dab98", "content_id": "0bd907538eef759229a900819096f245500e30d9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 217, "license_type": "no_license", "max_line_length": 84, "num_lines": 11, "path": "/temp.py", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "import torch\n\n# L1 distance\ntotal += torch.sum(torch.sum(torch.sum(abs(x_b-x_a), 0), 0), 0)/(64.064.03.0)\n\n# L2 distance\ntotal += math.sqrt(torch.sum(torch.sum(pow(x_b-x_a, 2.0), 0), 0), 0)/(64.064.03.0)\n\n\n\n---\n\n\n" }, { "alpha_fraction": 0.6792452931404114, "alphanum_fraction": 0.6823899149894714, "avg_line_length": 20.133333206176758, "blob_id": "8cf3536597c558274160a31c9ffa292631948429", "content_id": "ed5fb60126a681bd6d6e584e72eb72d06ebb2d88", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 318, "license_type": "no_license", "max_line_length": 72, "num_lines": 15, "path": "/Interview/Topic 4 : Hash & Maps.md", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "# Excercises\n- Ice Cream Parlor\n- Colorful Number\n\n---\n# Notes\n## Hash Table\n- A key-value look up \n- Resolving collisions: chaining (store the collisions in a linked list)\n- String -> Hash code -> Index\n- O(1) for a \"good\" hashtable\n- O(n) for a terrible hashtable\n- Constant-time, Linear-time\n\n- dict_.get(k,d)\n\n" }, { "alpha_fraction": 0.6826232671737671, "alphanum_fraction": 0.7099090218544006, "avg_line_length": 17.24454116821289, "blob_id": "60f383c6b86fd716b907c421b8811b4bfa3b2128", "content_id": "76f88b8cf34a22e75c93ffede79a44f6faa820a9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 4178, "license_type": "no_license", "max_line_length": 146, "num_lines": 229, "path": "/Interview/InterviewBit_FB.md", "repo_name": "qiuyue1993/Coding_Practice", "src_encoding": "UTF-8", "text": "# InterviewBit of FB\n\n## Indexing:\n- [Arrays](#Arrays)\n- [Math](#Math)\n- [Binary Search](#Binary-Search)\n- [Strings](#Strings)\n- [Two Pointers](#Two-Pointers)\n- [Linked Lists](#Linked-Lists)\n- [Stacks And Queues](#Stacks-And-Queues)\n- [Backtracking](#Backtracking)\n- [Hashing](#Hashing)\n- [Tree Data Structure](#Tree-Data-Structure)\n- [Dynamic Programming](#Dynamic-Programming)\n- [Graph Data Structure & Algorithms](#Graph-Data-Structure-&-Algorithms)\n---\n## Arrays\n### Exercises\nRotate Matrix\n- It is important to learn to observe\n\nMax Sum Contiguous Subarray\n- Kind of tricky\n\n### Review 1\n- 2019.11.20\n\n---\n## Math\n### Exercises\nRearrange Array\n- Tricky\n- Save two number in one number (%, +)\n\n### Review 1\n- 2019.11.20\n\n---\n## Binary Search\n### Exercises\nSquare Root of Integer\n- Totally, looping is better than recursion\n\nRotated Array\n- Carefully, binary research\n\nRotated Sorted Array Search\n- Carefully, binary search\n- Highly similiar with the Rotated Array\n\n### Review 1\n- 2019.11.20\n\n---\n## Strings\nImplement StrStr\n- Do things carefully\n\nInteger To Roman\n- The rule is the key:\n- Ones place: I V\n- Tens place: X L\n- Hundreds place: C D\n- Thousands place: M\n\nRoman To Integer\n- Be carefull\n\nPretty Json\n- Too many edges\n- Be carefull\n\nCount And Say\n- Basic\n- Be carefull\n\nAdd Binary Strings\n- Be carefull\n\nReverse the String\n- Very easy\n\n### Review 1\n- 2019.11.20\n\n---\n## Two Pointers\nDiffk\n- Think about the given condition\n- Think carefully\n\nIntersection Of Sorted Arrays\n- Very basic and simple\n\n3 Sum\n- Tricky\n- Iterate from two sides of a sorted list to avoid square\n\nSort by Color\n- Insertion sort\n\nContainer With Most Water\n- Tricky\n\n3 Sum Zero\n- Very similar to 3 Sum\n- Do not forget the repeated numbers, especially for the \n\n### Review 1\n- 2019.11.20\n\n---\n## Linked Lists\nAdd Two Numbers as Lists\n- Basic and simple\n- Be carefull\n\n### Review 1\n- 2019.11.20\n\n---\n## Stacks And Queues\nEvaluate Expression\n- A simple and basic question\n\nLargest Rectangle in Histogram\n- Be very carefull\n- Think about the question carefully\n- Use a stack to save the distance\n\n### Review 1\n- 2019.11.20\n\n---\n## Backtracking\n*All Unique Permutations\n- Feature: every choice is equal; next step depends on the last step;\n- Method: create a check table; create a loop, every time execute a possible choice; create next recursion; recover the choice\n\nCombination Sum\n- Very similar with the last question\n- In each recursion, create an ending situation; create current loop; in each loop; make current choice; go to next recursion; recover the choice;\n- Should be very careful\n- Do not forget anything that should be recover\n\nGenerate all Paretheses II\n- Basic backtracking question\n- Be carefull\n\nLetter Phone\n- Very basic backtracking question\n\n\n### Review 1\n- 2019.11.20\n\n---\n## Hashing\nSubstring Concatenation\n- Should be very very carefully\n\n2 Sum\n- dict_.get(key,\"None\")\n- In python, hash table means dictionary\n- be carefull\n\nDiffk II\n- dict_.get(key, None)\n- In python, hash table means dictionary\n\n### Review 1\n- 2019.11.20\n\n---\n## Tree Data Structure\nLeast Common Ancestor\n- Be carefull\n- DFS: backtracking, need to recover\n\nValid Binary Search Tree\n- Be careful to read the requirement\n\nMax Depth of Binary Tree\n- Very basic DFS\n\nBST Iterator\n- Consider the basic sequence of a BST traversal\n- Need to travel by left, middle, right\n- Be carefull\n\nMin Depth of Binary Tree\n- Very basic DFS\n\n### Review 1\n- 2019.11.20\n---\n## Dynamic Programming\nLongest Increasing Subsequence\n- A new type of structure\n- Figure out a smallest case; resorve the case; bigger case is based on the smaller cases\n\nUnique Paths in a Grid\n- Matrix DP\n- Figure out a state; figure out how state transform.\n\nWays to Decode\n- Need to think carefully\n- A lot of edge situations\n\n### Review 1\n- 2019.11.20\n\n---\n## Graph Data Structure & Algorithms\nLevel Order\n- Use two queues\n- A very basic question\n\nClone Graph*\n- Save travelled data to prevent from circle\n- Use hash map to improve the speed\n\n\n### Review 1\n- 2019.11.20\n\n---\n- [References](https://www.interviewbit.com/search/?q%5B%5D=Facebook)\n---\n" } ]	13
bioinfoUQAM/CASTOR_KRFE	https://github.com/bioinfoUQAM/CASTOR_KRFE	ea7bc4d1c957b68ecfa4fe4a4a3cb8a5a737d4ce	87ed088c47b647e7adc8e2f42033d7c6b9b66ad0	97291c3a0fe68b8655b4afca4ae9be538dae198d	refs/heads/master	2023-03-12T08:42:15.576111	2023-02-26T22:31:45	2023-02-26T22:31:45	172,993,700	1	1	MIT	2019-02-27T21:33:00	2018-12-04T21:31:17	2018-12-04T21:31:15	null	[ { "alpha_fraction": 0.4831840395927429, "alphanum_fraction": 0.49180078506469727, "avg_line_length": 60.5486946105957, "blob_id": "557af07ef1c59ee2eabbad7364fa6199aa742eb6", "content_id": "02306ee42ffa639949de287afb6bf6611582b2f0", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 26344, "license_type": "permissive", "max_line_length": 260, "num_lines": 421, "path": "/analyzer.py", "repo_name": "bioinfoUQAM/CASTOR_KRFE", "src_encoding": "UTF-8", "text": "\r\n##########################################################################################\r\n### Resources ###\r\n### https://biopython.org/docs/1.75/api/Bio.pairwise2.html ###\r\n### https://biocheminsider.com/difference-between-local-and-global-sequence-alignment/ ###\r\n##########################################################################################\r\n\r\n###############\r\n### Imports ###\r\n###############\r\nimport os\r\nimport re\r\nimport data\r\nimport kmers\r\nimport numpy\r\nimport statistics\r\nimport pandas as pd\r\nfrom Bio import SeqIO\r\nfrom Bio import motifs\r\nfrom Bio.Seq import Seq\r\nfrom Bio import Align\r\nfrom Bio import pairwise2\r\nfrom Bio.Seq import transcribe\r\nfrom joblib import Parallel, delayed\r\nfrom Bio.pairwise2 import format_alignment\r\n\r\n#################################################################################################################################\r\n### Function to compute perfect local pairwise sequence alignment to identify the sequences that contain the original pattern ###\r\n#################################################################################################################################\r\ndef perfectLocalPairwiseSequenceAlignment(data, query):\r\n # Get the identifier\r\n sequence_id = data[0]\r\n # Get the current sequence\r\n sequence = data[1]\r\n # If the pattern is present in the sequence\r\n if sequence.count(query):\r\n # Get the position of the k-mer\r\n index = sequence.find(query)\r\n # Return the informations\r\n return {\"id\": sequence_id, \"type\": data[2], \"pattern\": query, \"position\": index}\r\n # If the pattern is not present in the sequence\r\n else: return {\"id\": sequence_id, \"type\": data[2], \"pattern\": None, \"position\": None}\r\n\r\n#########################################################################################\r\n### Function to compute local pairwise sequence alignment to identify mutated pattern ###\r\n#########################################################################################\r\ndef localPairwiseSequenceAlignmentMutatededMotif(records, data, query, position):\r\n # Iterate through sequence records\r\n for record in records:\r\n # Check the corresponding sequence\r\n if record[\"id\"] == data[0]: \r\n # If the information are not complete \r\n if record[\"pattern\"] == None: \r\n # Compute the margin\r\n margin = int(len(data[1]) * 10 / 100)\r\n # Correct margin if it is too large\r\n if margin > 1000 and len(data[1]) < 100000: margin = 1000\r\n if margin > 1000 and len(data[1]) >= 100000: margin = 2500\r\n # Get the position of interest\r\n start = position - margin\r\n end = position + margin\r\n # Correct position if out of range\r\n if start < 0: start = 0\r\n if end > len(data[1]): end = len(data[1])\r\n # Get the subsequence\r\n sequence = data[1][start:end]\r\n # Try to identify subsitution\r\n alignments = pairwise2.align.localms(sequence, query, 5, -2, -100, -0.1) \r\n # Get the length of the alignement\r\n alignment_length = len(alignments[0].seqA[alignments[0].start:alignments[0].end])\r\n # Set the maximum number of substitutions that can occur \r\n maximum_subsitutions_number = 3\r\n # Compute the threshold score\r\n threshold_score = (len(query) - maximum_subsitutions_number) * 5 - (maximum_subsitutions_number * 5)\r\n\r\n ##################################\r\n ### Perfect case subsititution ###\r\n ##################################\r\n if alignment_length == len(query) and alignments[0].score >= threshold_score:\r\n # Get the mutated k-mer\r\n pattern = alignments[0].seqA[alignments[0].start:alignments[0].end]\r\n # Get the position of the mutated k-mers\r\n position = data[1].find(pattern)\r\n # Return the informations\r\n return {\"id\": record[\"id\"], \"type\": data[2], \"pattern\": pattern, \"position\":position}\r\n \r\n ###########################\r\n ### If one substitution ###\r\n ###########################\r\n elif (len(query) - alignment_length == 1 and alignments[0].score >= threshold_score - 5):\r\n # Get the index to localise where are the subsititution\r\n index = query.find(alignments[0].seqB[alignments[0].start:alignments[0].end])\r\n start = alignments[0].start - index\r\n end = start + len(query) \r\n pattern = alignments[0].seqA[start:end] \r\n # Get the position of the mutated k-mers\r\n position = data[1].find(pattern)\r\n return {\"id\": record[\"id\"], \"type\": data[2], \"pattern\": pattern, \"position\": position}\r\n\r\n ############################\r\n ### If two substitutions ###\r\n ############################\r\n elif (len(query) - alignment_length == 2 and alignments[0].score >= threshold_score - 10):\r\n \r\n # Get the index to localise where are the subsititution\r\n index = query.find(alignments[0].seqB[alignments[0].start:alignments[0].end])\r\n start = alignments[0].start - index\r\n end = start + len(query) \r\n pattern = alignments[0].seqA[start:end] \r\n # Get the position of the mutated k-mers\r\n position = data[1].find(pattern)\r\n return {\"id\": record[\"id\"], \"type\": data[2], \"pattern\": pattern, \"position\": position}\r\n \r\n ############################################################\r\n ### If no solution, try to identify deletion / insertion ###\r\n ############################################################\r\n else: \r\n # Try to identify deletion / insertion\r\n alignments = pairwise2.align.localms(sequence, query, 1, -2, -5, -0.1)\r\n \r\n # Perfect deletion/insertion\r\n if (alignments[0].end - alignments[0].start) == len(query) and alignments[0].score > (len(query)/2 -2):\r\n position = data[1].find(alignments[0].seqA.replace(\"-\", \"\")) + alignments[0].start\r\n return {\"id\": record[\"id\"], \"type\": data[2], \"pattern\": alignments[0].seqA[alignments[0].start:alignments[0].end], \"position\": position}\r\n \r\n # Deletion/Insertion at the begining/ending of the sequence\r\n elif (alignments[0].seqA[alignments[0].start:alignments[0].end] == alignments[0].seqB[alignments[0].start:alignments[0].end]\r\n and alignments[0].score > len(alignments[0].seqA[alignments[0].start:alignments[0].end]) - 1):\r\n index_subsequence = query.find(alignments[0].seqA[alignments[0].start:alignments[0].end])\r\n n_start_gap = index_subsequence\r\n n_end_gap = len(query) - (n_start_gap + len(alignments[0].seqA[alignments[0].start:alignments[0].end]))\r\n subsequence = '-' * n_start_gap + alignments[0].seqA[alignments[0].start:alignments[0].end] + '-' * n_end_gap\r\n position = data[1].find(alignments[0].seqA.replace(\"-\", \"\")) + alignments[0].start\r\n return {\"id\": record[\"id\"], \"type\": data[2], \"pattern\": subsequence, \"position\": position}\r\n # If no result\r\n else: return {\"id\": record[\"id\"], \"type\": data[2], \"pattern\": None, \"position\": None}\r\n # If the information are already complete \r\n else: return record\r\n\r\n##########################################################\r\n### Function to indentify mutation at amino acid level ###\r\n##########################################################\r\ndef getMutation(seqA, seqB):\r\n mutations = []\r\n alignments = pairwise2.align.globalms(seqA, seqB.replace('',''), 2, -1, -10, -10)\r\n # Silent mutation\r\n if seqA == seqB.replace('',''):\r\n mutations.append(\"Silent mutation\")\r\n # If mutattion\r\n else:\r\n #print(format_alignment(alignments[0]))\r\n for i, aa in enumerate(range(0, len(alignments[0].seqA))):\r\n # Insertion\r\n if alignments[0].seqA[i] != alignments[0].seqB[i] and alignments[0].seqA[i] == \"-\":\r\n mutations.append(\"Insertion: \" + str(i + 1) + \" (\" + alignments[0].seqB[i] + \")\")\r\n\r\n # Deletion \r\n elif alignments[0].seqA[i] != alignments[0].seqB[i] and alignments[0].seqB[i] == \"-\":\r\n mutations.append(\"Deletion: \" + str(i + 1))\r\n\r\n # Substitution \r\n elif alignments[0].seqA[i] != alignments[0].seqB[i]:\r\n mutations.append(\"Substitution: \" + alignments[0].seqA[i] + str(i + 1) + alignments[0].seqB[i])\r\n else: pass\r\n # Return mutations\r\n return mutations\r\n\r\n#####################################################################################\r\n### Function to indentify perfect matches between initial signature and sequences ###\r\n#####################################################################################\r\ndef identifyPerfectMatch(parameters): \r\n # Display information\r\n print(\"\\nIndentify perfect matches...\")\r\n # Initialize the results list\r\n Results = {}\r\n # Get the discriminative motifs\r\n Kmers = kmers.loadKmers(str(parameters[\"k_mers_path\"]))\r\n # Get the sequence dataset\r\n Data = data.loadData(str(parameters[\"training_fasta\"]))\r\n # Add the reference sequence\r\n Data = data.loadReferenceSequence(Data, str(parameters[\"refence_sequence_genbank\"]))\r\n # Iterate through the k-mers\r\n for kmer in Kmers:\r\n # Display the current motif\r\n print(\"Signature: \" + kmer)\r\n # Get the current k-mer\r\n query = kmer\r\n # Check if there is perfect pairwise alignment of the current kmer with each sequence using parallelization \r\n informations = Parallel(n_jobs = -1)(delayed(perfectLocalPairwiseSequenceAlignment)(data, query) for data in Data)\r\n # Save the informations of each sequence according to the current kmer\r\n Results[kmer] = informations\r\n # Return the list of dictionary\r\n return Results\r\n\r\n#########################################################################################\r\n### Function to indentify variations with sequences not associated with perfect match ###\r\n#########################################################################################\r\ndef identifyVariations(Results, parameters): \r\n # Display information\r\n print(\"\\nIndentify variations...\")\r\n # Get the sequence dataset\r\n Data = data.loadData(str(parameters[\"training_fasta\"]))\r\n # Add the reference sequence\r\n Data = data.loadReferenceSequence(Data, str(parameters[\"refence_sequence_genbank\"]))\r\n\r\n # Iterate through the actual sequences records\r\n for key, records in Results.items():\r\n print(\"Signature: \" + key)\r\n # Get the current k-mer\r\n query = key\r\n # Compute the average position of the k-mers to prune the search for mutated k-mers \r\n positions = []\r\n for record in records:\r\n if record[\"position\"] != None: positions.append(record[\"position\"])\r\n average_position = int(statistics.mean(positions))\r\n # Compute the pairwise alignment of the amplified motif with each sequence to identify mutated motifs using parallelization \r\n informations = Parallel(n_jobs = -1)(delayed(localPairwiseSequenceAlignmentMutatededMotif)(records, data, query, average_position) for data in Data)\r\n # Save the updated informations of each sequence according to the current kmer\r\n Results[key] = informations\r\n # Dictionary of mutated motif (s) and associated postion(s)\r\n return Results \r\n\r\n \r\n##########################################################\r\n### Function to indentify mutation at amino acid level ###\r\n##########################################################\r\ndef indentifyMutationInformation(record, reference_sequence_informations):\r\n # If same pattern as reference sequence\r\n if record[\"pattern\"] == reference_sequence_informations[\"pattern\"]:\r\n # Save the information associated to the reference pattern\r\n return [record[\"id\"], reference_sequence_informations[\"organisme\"], record[\"type\"], reference_sequence_informations[\"pattern\"], None, reference_sequence_informations[\"gene\"], None, record[\"position\"]]\r\n\r\n # If different pattern as reference sequence \r\n else: \r\n # If a pattern variation has been identified\r\n if record[\"pattern\"] != None:\r\n # Get the position of the initial pattern \r\n start = reference_sequence_informations[\"position_gene_sequence\"]\r\n end = reference_sequence_informations[\"position_gene_sequence\"] + len(record[\"pattern\"])\r\n\r\n # Generate the mutated sequence\r\n mutated_squence = \"\"\r\n mutated_squence = mutated_squence + reference_sequence_informations[\"nucleotide_sequence\"][0:start]\r\n mutated_squence = mutated_squence + record[\"pattern\"].replace(\"-\", \"\")\r\n mutated_squence = mutated_squence + reference_sequence_informations[\"nucleotide_sequence\"][end:]\r\n rna_sequence = transcribe(mutated_squence)\r\n aa_sequence = str(rna_sequence.translate())\r\n\r\n # Get the mutation\r\n mutations = getMutation(reference_sequence_informations[\"amino_acid_sequence\"], aa_sequence)\r\n if len(mutations) <= 5:\r\n return[record[\"id\"], reference_sequence_informations[\"organisme\"],record[\"type\"],reference_sequence_informations[\"pattern\"],\r\n record[\"pattern\"], reference_sequence_informations[\"gene\"],mutations,record[\"position\"]]\r\n else: \r\n return[record[\"id\"], reference_sequence_informations[\"organisme\"], record[\"type\"], reference_sequence_informations[\"pattern\"], \"Not identified\", \"Not identified\", \"Not identified\", \"Not identified\"]\r\n \r\n # If unidentified pattern\r\n else: \r\n return[record[\"id\"], reference_sequence_informations[\"organisme\"], record[\"type\"], reference_sequence_informations[\"pattern\"], \"Not identified\", \"Not identified\", \"Not identified\", \"Not identified\"]\r\n\r\n\r\n##############################################################\r\n### Function to indentify infornation related to variation ###\r\n##############################################################\r\ndef extractRelatedInformation (Results, parameters):\r\n # Display information\r\n print(\"\\nExtract information related to signatures/variations...\")\r\n # Get the reference fil path\r\n gb_reference_file = str(parameters[\"refence_sequence_genbank\"])\r\n # Check if genbank file exists\r\n file_exists = os.path.exists(gb_reference_file)\r\n # If there is genbank file\r\n if file_exists == True:\r\n # Open the reference sequence genbank file\r\n for gb_record in SeqIO.parse(open(gb_reference_file, \"r\"), \"genbank\"):\r\n # Iterate through the sequences records for each pattern\r\n for key, records in Results.items():\r\n print(\"Signature: \" + key)\r\n # Variable to check if cds was found\r\n isCDS = False\r\n # Iterate through the sequences records\r\n for record in records:\r\n # Find the reference sequence to get the informations \r\n if record[\"id\"] == gb_record.annotations[\"accessions\"][0]: \r\n # Initialize the dict of reference sequence abd save initial informations\r\n reference_sequence_informations = {}\r\n reference_sequence_informations[\"id\"] = record[\"id\"]\r\n reference_sequence_informations[\"pattern\"] = record[\"pattern\"]\r\n reference_sequence_informations[\"position\"] = record[\"position\"]\r\n reference_sequence_informations[\"mutated_pattern\"] = None\r\n reference_sequence_informations[\"mutation\"] = None \r\n # Iterate through the features of the reference sequence\r\n for feature in gb_record.features:\r\n # Get the organisme informations\r\n if feature.type == \"source\": \r\n try: reference_sequence_informations[\"organisme\"] = feature.qualifiers[\"organism\"][0]\r\n except: reference_sequence_informations[\"organisme\"] = None\r\n # If the feature is CDS\r\n if feature.type == \"CDS\": \r\n # Get the nucleotide sequence associated to to the CDS\r\n cds = feature.location.extract(gb_record.seq)\r\n # If the nucleotide sequence contains the pattern\r\n if cds.find(record[\"pattern\"]) != -1:\r\n # Set is CDS to true\r\n isCDS = True\r\n # Initialize list of data to save\r\n data = []\r\n # Get the informations\r\n try: reference_sequence_informations[\"gene\"] = feature.qualifiers[\"gene\"][0]\r\n except: reference_sequence_informations[\"gene\"] = None\r\n try: reference_sequence_informations[\"nucleotide_sequence\"] = feature.location.extract(gb_record.seq)\r\n except: reference_sequence_informations[\"nucleotide_sequence\"] = None\r\n try: reference_sequence_informations[\"position_gene_sequence\"] = reference_sequence_informations[\"nucleotide_sequence\"].find(record[\"pattern\"])\r\n except: reference_sequence_informations[\"position_gene_sequence\"] = None\r\n try: reference_sequence_informations[\"amino_acid_sequence\"] = feature.qualifiers[\"translation\"][0]\r\n except: reference_sequence_informations[\"amino_acid_sequence\"] = None\r\n # Iterate through the sequences records to complte the infornations according to the reference informations\r\n data = Parallel(n_jobs = -1)(delayed(indentifyMutationInformation)(record, reference_sequence_informations) for record in records)\r\n # Compute the frequency\r\n for d1 in data: \r\n organisme_type = d1[2]\r\n pattern = d1[4]\r\n n_total = 0 \r\n n_pattern = 0\r\n for d2 in data:\r\n if organisme_type == d2[2]: \r\n n_total = n_total + 1\r\n if pattern == d2[4]: \r\n n_pattern = n_pattern + 1\r\n frequency = int(n_pattern / n_total 100)\r\n d1.append(frequency)\r\n\r\n # Convert data to dataframe \r\n df = pd.DataFrame(data, columns = [\"SEQUENCE ID\", \"ORGANISM\", \"TYPE\", \"INITIAL PATTERN\", \"MUTATED PATTERN\", \"GENE\", \"MUTATIONS\", \"LOCATION\", \"FREQUENCY\"])\r\n # Save the dataframe to excel file\r\n df.to_excel(\"output/\" + key + \"_gene_\" + reference_sequence_informations[\"gene\"] + \".xlsx\")\r\n \r\n # Check for other features\r\n if isCDS == False:\r\n data = []\r\n # Iterate through the features of the reference sequence\r\n for feature in gb_record.features:\r\n seq = feature.location.extract(gb_record.seq)\r\n # If the nucleotide sequence contains the pattern\r\n if seq.find(record[\"pattern\"]) != -1: \r\n # Save informations\r\n if feature.type == \"rep_origin\" or feature.type == \"gene\" or feature.type == \"misc_feature\" or feature.type == \"repeat_region\": \r\n if feature.type == \"gene\":\r\n try: reference_sequence_informations[\"gene\"] = feature.qualifiers[\"gene\"][0]\r\n except: reference_sequence_informations[\"gene\"] = \"None\"\r\n elif feature.type == \"repeat_region\":\r\n try: reference_sequence_informations[\"gene\"] = \"Repeat region\"\r\n except: reference_sequence_informations[\"gene\"] = \"None\"\r\n else: \r\n try: reference_sequence_informations[\"gene\"] = feature.qualifiers[\"note\"][0]\r\n except: reference_sequence_informations[\"gene\"] = \"None\"\r\n\r\n # If no feature identified\r\n if \"gene\" not in reference_sequence_informations: reference_sequence_informations[\"gene\"] = \"None\"\r\n \r\n # Iterate through the sequences records to complete the infornations according to the reference informations\r\n for record in records:\r\n # If same pattern as reference sequence \r\n if record[\"pattern\"] == reference_sequence_informations[\"pattern\"]:\r\n data.append([record[\"id\"], reference_sequence_informations[\"organisme\"], record[\"type\"], reference_sequence_informations[\"pattern\"], None, reference_sequence_informations[\"gene\"], None, record[\"position\"]])\r\n # If different pattern as reference sequence \r\n else: \r\n if record[\"pattern\"] != None:\r\n data.append([record[\"id\"], reference_sequence_informations[\"organisme\"], record[\"type\"],reference_sequence_informations[\"pattern\"],record[\"pattern\"], reference_sequence_informations[\"gene\"], \"No CDS\",record[\"position\"]])\r\n \r\n # If unidentified pattern\r\n else: \r\n data.append([record[\"id\"], reference_sequence_informations[\"organisme\"], record[\"type\"], reference_sequence_informations[\"pattern\"], \"Not identified\", \"Not identified\", \"Not identified\", \"Not identified\"])\r\n \r\n # Compute the frequency\r\n for d1 in data: \r\n organisme_type = d1[2]\r\n pattern = d1[4]\r\n n_total = 0 \r\n n_pattern = 0\r\n\r\n for d2 in data:\r\n if organisme_type == d2[2]: \r\n n_total = n_total + 1\r\n if pattern == d2[4]: \r\n n_pattern = n_pattern + 1\r\n frequency = int(n_pattern / n_total * 100)\r\n d1.append(frequency) \r\n\r\n # Convert data to dataframe \r\n df = pd.DataFrame(data, columns = [\"SEQUENCE ID\", \"ORGANISM\", \"TYPE\", \"INITIAL PATTERN\", \"MUTATED PATTERN\", \"GENE\", \"MUTATIONS\", \"LOCATION\", \"FREQUENCY\"])\r\n # Save the dataframe to excel file\r\n df.to_excel(\"output/\" + key + \"_gene_\" + reference_sequence_informations[\"gene\"] + \".xlsx\") \r\n\r\n # If no genbank reference sequence\r\n else:\r\n # Iterate through the sequences records for each pattern\r\n for key, records in Results.items():\r\n data = []\r\n # Iterate through the sequences records\r\n for record in records: \r\n data.append([record[\"id\"], None, record[\"type\"], key, record[\"pattern\"], None, None, record[\"position\"]])\r\n\r\n # Compute the frequency\r\n for d1 in data: \r\n organisme_type = d1[2]\r\n pattern = d1[4]\r\n n_total = 0 \r\n n_pattern = 0\r\n\r\n for d2 in data:\r\n if organisme_type == d2[2]: \r\n n_total = n_total + 1\r\n if pattern == d2[4]: \r\n n_pattern = n_pattern + 1\r\n frequency = int(n_pattern / n_total * 100)\r\n d1.append(frequency)\r\n\r\n # Convert data to dataframe \r\n df = pd.DataFrame(data, columns = [\"SEQUENCE ID\", \"ORGANISM\", \"TYPE\", \"INITIAL PATTERN\", \"MUTATED PATTERN\", \"GENE\", \"MUTATIONS\", \"LOCATION\", \"FREQUENCY\"])\r\n # Save the dataframe to excel file\r\n df.to_excel(\"output/\" + key + \".xlsx\") " }, { "alpha_fraction": 0.7407407164573669, "alphanum_fraction": 0.7678062915802002, "avg_line_length": 32.47618865966797, "blob_id": "4170c3a7b1bb3749c20af43ec389bca051881d4b", "content_id": "28c1684f1a3c09767cf80445616f0c4f6874b3b3", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "INI", "length_bytes": 702, "license_type": "permissive", "max_line_length": 108, "num_lines": 21, "path": "/configuration_file.ini", "repo_name": "bioinfoUQAM/CASTOR_KRFE", "src_encoding": "UTF-8", "text": "[parameters]\n# Minimum length of k-mers\nk_min = 15\n# Maximum length of k-mers\nk_max = 20\n# Percentage performance threshold to be maintained by reducing the number of features (By default T = 0.99)\nT = 0.99\n# Training fasta file path\ntraining_fasta = input/SARS_CoV_2.fasta\n# Testing fasta file path\ntesting_fasta = input/SARS_CoV_2.fasta\n# Reference sequence file path\nreference_sequence = input/NC_045512.2.gb\n# Path file of the extracted k-mers\nk_mers_path = output/k_mers.fasta\n# Path file of the prediction model\nmodel_path = output/model.pkl\n# Path of the sequence prediction file\nprediction_path = output/prediction.csv\n# Evaluation mode during the prediction (True/False)\nevaluation_mode = True" }, { "alpha_fraction": 0.7109338045120239, "alphanum_fraction": 0.7282965779304504, "avg_line_length": 57.39725875854492, "blob_id": "7f69de122d161010eac2c770d942c1c188dcc16c", "content_id": "5955537077abf53984c600deca685d7c9e727cc2", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 4262, "license_type": "permissive", "max_line_length": 690, "num_lines": 73, "path": "/README.md", "repo_name": "bioinfoUQAM/CASTOR_KRFE", "src_encoding": "UTF-8", "text": "# CASTOR-KRFE\n* CASTOR-KRFE v1.3 Help file\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t \n* K-mers based feature identifier for viral genomic classification \n* Copyright (C) 2023 Dylan Lebatteux, Amine M. Remita, Abdoulaye Banire Diallo \n* Author : Dylan Lebatteux, Amine M. Remita\t\t\t\t\t\t\t\t\t\t\t\t\t \n* Contact : [email protected]\n\n### Description\nCASTOR-KRFE is an alignment-free method to identify a set of k-mers to discriminate between groups of genomic sequences. The core of CASTOR-KRFE is based on feature elimination using Support Vector Machines (SVM-RFE) which is an machine learning feature selection method. CASTOR-KRFE identifies an optimal length of k to maximize classification performance and minimize the number of features. The extracted set of k-mers can be used to build a prediction model. This model can then be used to predict a set of new genomic sequences. A new module allowing to identify discriminative k-mers variations and their associated information according to the sequence class has also been included. \n\n### Required softwares\n* [python](https://www.python.org/downloads/) \n* [scikit-learn](https://scikit-learn.org/stable/install.html) \n* [numpy](https://numpy.org/install/) \n* [biopython](https://biopython.org/wiki/Download) \n* [joblib](https://joblib.readthedocs.io/en/latest/)\n\n### Parameters\nList of parameters requiring adjustment in the configuration_file.ini :\n* k_min : Minimum length of k-mers\n* k_max : Maximum length of k-mers\n* T : Percentage performance threshold (T = 0.99 is recommended) .\n* training_fasta : Training fasta file path\n* testing_fasta : Testing fasta file path\n* reference_sequence : Path of the reference sequence in GenBank format \n* k_mers_path : Path file of the extracted k-mers\n* model_path : Path file of the prediction model\n* prediction_path : Path of the sequence prediction file\n* evaluation_mode : Evaluation mode during the prediction (True/False). \n\n### Utilization\n1) Specify the parameters of the previous section in the configuration_file.ini.\n2) Run the following command :\n```sh\n$ python main.py configuration_file.ini\n```\n3) Select an option:\n* 1)Extract k-mers \| Required parameters: T, k_min, k_max, training_fasta and k_mers_path\n* 2)Fit a model \| Required parameters: training_fasta, k_mers_path and model_path\n* 3)Predict a sequences \| Required parameters: testing_fasta, k_mers_path, model_path, prediction_path and evaluation_mode\n* 4)Motif analyzer \| Required parameters: training_fasta, k_mers_path and reference_sequence\n* 5)Exit/Quit\n\n### Fasta file format example for n sequences: \n\n```sh\n>id_sequence_1\|target_sequence_1 \nCTCAACTCAGTTCCACCAGGCTCTGTTGGATCCGAGGGTAAGGGCTCTGTATTTTCCTGC \n>id_sequence_2\|target_sequence_2\t\t\t\t\t\t\nCTCAACTCAGTTCCACCAGGCTCTGTTGGATCCGAGGGTAAGGGCTCTGTATTTTCCTGC\n...\n...\n...\n>>id_sequence_n-1\|target_sequence_n-1\t\t\t\t\t\t\t\t\t \nCTCAACTCAGTTCCACCAGGCTCTGTTGGATCCGAGGGTAAGGGCTCTGTATTTTCCTGC \n>id_sequence_n\|target_sequence_n\t\t\t\t\t\t\t\t\t\t\t\t\t \nCTCAACTCAGTTCCACCAGGCTCTGTTGGATCCGAGGGTAAGGGCTCTGTATTTTCCTGC \n```\n* The character \"\|\" is used to separate the sequence ID from its target. \n* The target must be specified in the fasta file for a prediction with evaluation_mode = True.\n* For more detailed examples see the data sets in the Data folder \n\n### Output \n* k_mers.fasta: File of the extracted k-mers list \n* model.pkl : Prediction model generated by CASTOR-KRFE \n* Prediction.csv : Results file of the prediction of unknown genomic sequences \n* Signature_location.xlsx : Analysis report associated with a signature\n\n### Reference to cite CASTOR-KRFE\n* [Lebatteux, D., Remita, A. M., & Diallo, A. B. (2019). Toward an alignment-free method for feature extraction and accurate classification of viral sequences. Journal of Computational Biology, 26(6), 519-535.](https://www.liebertpub.com/doi/pdfplus/10.1089/cmb.2018.0239)\n \n### Reference to cite KANALYZER (Option 4: Motif analyzer)\n* [Lebatteux, Dylan, et al. \"KANALYZER: a method to identify variations of discriminative k-mers in genomic sequences.\" 2022 IEEE International Conference on Bioinformatics and Biomedicine (BIBM). IEEE Computer Society, 2022.](https://www.computer.org/csdl/proceedings-article/bibm/2022/09995370/1JC2uDIO8cE)" }, { "alpha_fraction": 0.6605350971221924, "alphanum_fraction": 0.667224109172821, "avg_line_length": 32.25, "blob_id": "3d85545287c7ba3cf13db660d4a2ee66918922d3", "content_id": "8e68f06627007fc15aad61c032b9cd4881c4a36d", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1196, "license_type": "permissive", "max_line_length": 138, "num_lines": 36, "path": "/matrix.py", "repo_name": "bioinfoUQAM/CASTOR_KRFE", "src_encoding": "UTF-8", "text": "import numpy\nfrom joblib import Parallel, delayed\nfrom collections import defaultdict\n\n# Function to compute the count of each k-mer in a sequence\ndef computeSequenceVector(d, k):\n sequence = d[1]\n vector = defaultdict(int)\n\n for j in range(len(sequence) - k + 1):\n kmer = sequence[j:j+k]\n vector[kmer] += 1\n \n return [d, vector]\n\n# Function to generate the feature matrix X and target vector y from a list of sequences D, a dictionary of k-mers K, and a k-mer length k\ndef generateSamplesTargets(D, K, k):\n\n # Compute the k-mer counts for each sequence in parallel using joblib\n data_with_sequence_vector = Parallel(n_jobs=-1)(delayed(computeSequenceVector)(d, k) for d in D)\n \n # Extract the feature matrix X and target vector y from the sequence vectors and the original data\n X = []\n y = []\n\n for d in data_with_sequence_vector:\n # Create a list of k-mer counts with 0 for missing k-mers\n sequence_vector = [d[1][kmer] for kmer in K.keys()]\n X.append(sequence_vector)\n y.append(d[0][2])\n\n # Convert X and y to numpy arrays for use with scikit-learn\n X = numpy.array(X)\n y = numpy.array(y)\n\n return X, y" }, { "alpha_fraction": 0.6833457946777344, "alphanum_fraction": 0.692307710647583, "avg_line_length": 30.83333396911621, "blob_id": "f09fb386409e770c0321817d2adefaad073e33c0", "content_id": "8fbe55349e6c80ad15e99c797072557993dead97", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1339, "license_type": "permissive", "max_line_length": 108, "num_lines": 42, "path": "/main.py", "repo_name": "bioinfoUQAM/CASTOR_KRFE", "src_encoding": "UTF-8", "text": "# Imports\nimport ml\nimport sys\nimport krfe\nimport analyzer\nimport configuration\n\n# Main program loop\nwhile(True):\n\t# Display the menu\n\tprint(\"\\n#######################\")\n\tprint(\"##### CASTOR-KRFE #####\")\n\tprint(\"#######################\")\n\tprint(\"\\n1) Extract k-mers\\n2) Fit a model\\n3) Predict a sequences\\n4) Motif analyzer (New)\\n5) Exit/Quit\")\n\t# Get the selected option\n\toption = int(input(\"\\nSelect an option: \"))\n\t# Get/Update the parameters\n\tparameters = configuration.getParameters(configuration_file = sys.argv[1])\n\t# Extract the discriminating k-mers\n\tif option == 1:\n\t\tprint(\"\\nCASTOR-KRFE: extraction mode\\n\")\n\t\tkrfe.extract(parameters)\n\t# Fit a model using a set of k-mers\n\telif option == 2: \n\t\tprint(\"\\nCASTOR-KRFE: training mode\\n\")\n\t\tml.fit(parameters)\n\t# Predict a set of sequences\n\telif option == 3: \n\t\tprint(\"\\nCASTOR-KRFE: testing mode\\n\")\n\t\tml.predict(parameters)\n\t# Analyzer the identified k-mers\n\telif option == 4: \n\t\tprint(\"\\nCASTOR-KRFE: motif analyzer mode\\n\")\n\t\tResults = analyzer.identifyPerfectMatch(parameters)\t\n\t\tResults = analyzer.identifyVariations(Results, parameters)\n\t\tResults = analyzer.extractRelatedInformation(Results, parameters)\n\t# Quit the program\n\telif option == 5: \n\t\tprint(\"Program exit\")\n\t\tsys.exit(0)\n\t# If the mode specified is not valid\n\telse: print(\"The specified option is not valid\")\n\n\n" }, { "alpha_fraction": 0.6870855689048767, "alphanum_fraction": 0.697663426399231, "avg_line_length": 37.39393997192383, "blob_id": "6b9610390ad9232881695e608cd4bc21042a815e", "content_id": "94f62ae6a26c94dc52e7c1eade7505b48b853cc1", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 6334, "license_type": "permissive", "max_line_length": 177, "num_lines": 165, "path": "/krfe.py", "repo_name": "bioinfoUQAM/CASTOR_KRFE", "src_encoding": "UTF-8", "text": "# Imports\nimport ml\nimport sys\nimport data\nimport kmers\nimport numpy\nimport time\nimport matrix\nimport matplotlib.pyplot as plt\nfrom operator import itemgetter\nfrom sklearn.model_selection import cross_validate\nfrom sklearn.metrics import make_scorer, f1_score\nfrom sklearn.feature_selection import SelectFromModel\nfrom sklearn.feature_selection import RFE, VarianceThreshold\nfrom sklearn.model_selection import StratifiedKFold, cross_val_predict\n\n# Function to extract the discriminating k-mers\ndef extract(parameters):\n\thistory = []\n\t# Initialize the maximum score\n\tmax_score = 0\n\t# Initialize the best identified score\n\tbest_score = 0\n\t# Initialize the best set of k-mers score\n\tbest_k_mers = []\n\t# Initialize the best length of k\n\tbest_k_length = 0\n\t# Initialize the best number of features\n\tbest_features_number = 0\n\n\t# Get the parameters\n\tT = float(parameters[\"T\"])\n\tk_min = int(parameters[\"k_min\"])\n\tk_max = int(parameters[\"k_max\"])\n\tk_mers_path = str(parameters[\"k_mers_path\"])\n\tfile_path = str(parameters[\"training_fasta\"])\n\n\t# Load the training data\n\tD = data.loadData(file_path)\n\t# If the target values are not given\n\tif len(D[0]) != 3: \n\t\tprint(\"Target values are not given\")\n\t\tsys.exit(0)\n\n\t# Iterate through the length of k-mers to explore\n\tfor k in range(k_min, k_max + 1):\n\t\t\n\t\t# Displays the current analysis\n\t\tprint(\"Analysis of the \" + str(k) + \"-mers\")\n\t\t# Get the k-mers existing in the sequences\n\t\tprint(\"Get k-mers...\")\n\t\tK = kmers.getKmers(D, k)\n\t\t# Generate the samples matrix (X) and the target values (y)\n\t\tprint(\"Compute matrices...\")\n\t\tX, y = matrix.generateSamplesTargets(D, K , k)\n\t\t# Scale the features between 0 and 1\n\t\tprint(\"Scaling...\")\n\t\tX = ml.minMaxScaler(X)\n\t\t# If it is possible to apply a variance filter\n\t\ttry:\n\t\t\t# Instancies the filter method\n\t\t\tprint(\"VarianceThreshold...\")\n\t\t\tvarianceThreshold = VarianceThreshold(threshold = 0.01)\n\t\t\t# Apply the filter\n\t\t\tX = varianceThreshold.fit_transform(X)\n\t\t\t# Compute the list of k-mers indices to retain \n\t\t\tindices = [i for i, value in enumerate(varianceThreshold.get_support()) if value == True]\n\t\t\t# Update the list of k-mers\n\t\t\tK = dict.fromkeys(list(itemgetter(indices)(list(K.keys()))), 0)\n\t\t\t# Clear the indices list\n\t\t\tindices.clear()\n\t\t# If not, pass on\n\t\texcept: pass\n\n\t\tprint(\"Reducing number of features with SelectFromModel...\")\n\t\t# Instantiate a linear svm classifier\n\t\tclf = ml.svm()\n\t\t# Select from model\n\t\tif len(X[0]) > 100 :\n\t\t\tselectFromModel = SelectFromModel(estimator = clf, max_features = 100).fit(X, y)\n\t\t\tindices = [i for i, value in enumerate(selectFromModel.get_support()) if value == True]\n\t\t\tX = X[:,indices]\n\t\t\t# Update the list of k-mers\n\t\t\tK = dict.fromkeys(list(itemgetter(indices)(list(K.keys()))), 0)\n\t\t\tindices.clear()\n\t\telse: pass\n\t\t\n\t\t# Get the number of features\n\t\tn_features = numpy.size(X, 1)\n\t\t# List of scores related to each subset of features\n\t\tscores = []\n\t\t# List of number features related to each subset of features\n\t\tn_features = []\n\t\t# List of indices related to each subset of features\n\t\tselected_features = []\n\t\t# Initialize the empty list of indices\n\t\tindices = numpy.empty(0, int)\n\t\t# Apply recursive feature elimination\n\t\trfe = RFE(estimator = clf , n_features_to_select = 1, step = 1).fit(X, y)\n\t\t# Iterate through the subset of features\n\t\tfor i in range(1, rfe.ranking_.max()):\n\t\t\t# Merge the indices of this iteration to the list of indices\n\t\t\tindices = numpy.concatenate((indices, numpy.where(rfe.ranking_ == i)[0]), axis = None)\n\t\t\t# Save the indices related to the actual subset of features\n\t\t\tselected_features.append(indices)\n\t\t\t# Split the data using stratified K-Folds cross-validator\n\t\t\tskf = StratifiedKFold(n_splits = 5, random_state = 1, shuffle = True)\n\t\t\t# Perform the cross-validation for the actual subset of features\n\t\t\tcv_results = cross_validate(clf, X[:,indices], y, cv=skf, scoring={'f1_macro': make_scorer(f1_score, average='macro')}, n_jobs=-1)\n\t\t\t# Compute the F1 score of the actual subset of features\n\t\t\tscore = cv_results['test_f1_macro'].mean()\n\t\t\t# Save the score of the actual subset of features\n\t\t\tscores.append(score)\n\t\t\t# Save the number of features of the actual subset of features\n\t\t\tn_features.append(len(indices))\n\n\t\t# Compute evaluation and save results for all features\n\t\tskf = StratifiedKFold(n_splits = 5, random_state = 0, shuffle = True)\n\t\ty_pred = cross_val_predict(clf, X, y, cv = skf, n_jobs = -1)\n\t\tscore = ml.compute_f1_score(y, y_pred)\n\t\tscores.append(score)\n\t\tn_features.append(X.shape[1])\n\t\tselected_features.append(numpy.where(rfe.ranking_ != 0)[0])\n\n\t\t# Get the best solution for this length of k-mers (Better score with lesser number of features)\n\t\tif max(scores) > max_score:\n\t\t\tmax_score = max(scores)\n\t\t\tbest_score = max_score\n\t\t\tbest_k_length = k\n\t\t\tbest_features_number = n_features[scores.index(max(scores))]\n\t\t\tbest_k_mers = [list(K.keys())[i] for i in selected_features[ n_features.index(best_features_number)]]\n\t\t\t\n\t\t# Get best solution according to the threshold T\n\t\tfor s, n in zip(scores, n_features):\n\t\t\tif s >= max_score*T and n <= best_features_number: \n\t\t\t\tbest_score = s\n\t\t\t\tbest_k_length = k\n\t\t\t\tbest_features_number = n\n\t\t\t\tbest_k_mers = [list(K.keys())[i] for i in selected_features[n_features.index(best_features_number)]]\n\n\t\t# Save the history\n\t\thistory.append(scores)\n\n\t# Plot the history\n\tfor i, h in enumerate(history): \n\t\tlabel = str(list(range(k_min, k_max + 1))[i]) + \"-mers\"\n\t\tplt.plot(list(range(1, len(h) + 1))[0:100], h[0:100], label = label)\n\t\tplt.axvline(best_features_number, linestyle=':', color='r')\n\t\tplt.suptitle(\"Distribution of F1-scores according to the length of k and the number of features\", fontsize = 12)\n\t\tplt.title(\"Solution: F1 score = \" + str(round(best_score, 2)) + \", Number of features = \" + str(best_features_number) + \", Length of k = \" + str(best_k_length), fontsize = 10)\n\t\tplt.xlabel('Number of features', fontsize = 10)\n\t\tplt.ylabel('F1 score', fontsize = 10)\n\t\tplt.legend()\n\tplt.show()\n\n\t# Save the extracted k-mers\n\tkmers.saveExtractedKmers(k_mers_path, best_k_mers)\n\n\t# Dipslay the solution\n\tprint(\"\\nIdentified solution:\")\n\tprint(\"Evaluation score (F1 score) =\", best_score)\n\tprint(\"Length of k =\", best_k_length)\n\tprint(\"Number of k-mers =\", best_features_number)\n\tprint(\"Extracted k-mers =\", best_k_mers)\n\tprint(\"Extracted k-mers saved at the path:\", k_mers_path)" }, { "alpha_fraction": 0.7071563005447388, "alphanum_fraction": 0.7099811434745789, "avg_line_length": 38.37036895751953, "blob_id": "39aed09a0fe5e5ff816c1fbe71fb5e0585dfaeba", "content_id": "7daa04a21b16e7de85252036ca45610eb2c695b2", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1062, "license_type": "permissive", "max_line_length": 124, "num_lines": 27, "path": "/data.py", "repo_name": "bioinfoUQAM/CASTOR_KRFE", "src_encoding": "UTF-8", "text": "# Import\nimport Bio.SeqIO\n\n# Function to load test data from a fasta file\ndef loadData(file_path):\n\t# Initialize the data matrix\n\tD = []\n\t# Iterate through the fasta file\n\tfor record in Bio.SeqIO.parse(file_path, \"fasta\"):\n\t\t# If there is a class label, save id, sequence and class label in the data list\n\t\ttry: \n\t\t\tindexes = [i for i, c in enumerate(record.description) if c == \"\|\"]\n\t\t\tD.append([record.description, str(record.seq.upper()).replace('N',''), record.description[indexes[len(indexes)-1] +1 :]])\n\t\t# If there is a no class label, save id and sequence in the data list\n\t\texcept: D.append([record.descrition, str(record.seq.upper())])\n\t# Return the data matrix\n\treturn D\n\n# Function to load test data from a fasta file\ndef loadReferenceSequence(D, reference_sequence_file):\n\t# Iterate through the genbank file\n\ttry:\n\t\tfor gb_record in Bio.SeqIO.parse(open(reference_sequence_file,\"r\"), \"genbank\"):\n\t\t\tD = [[gb_record.annotations[\"accessions\"][0], str(gb_record.seq.upper()), \"Reference_sequence\"]] + D\n\texcept: pass\n\t# Return the data matrix\n\treturn D" }, { "alpha_fraction": 0.7175090312957764, "alphanum_fraction": 0.7244284152984619, "avg_line_length": 32.918365478515625, "blob_id": "1e8dc19fab7dc9fe393f2a0fc43e4de138a016cb", "content_id": "b4df30f2e3ec086aae9cd931f935d6029739b1d1", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3324, "license_type": "permissive", "max_line_length": 99, "num_lines": 98, "path": "/ml.py", "repo_name": "bioinfoUQAM/CASTOR_KRFE", "src_encoding": "UTF-8", "text": "# Imports\nimport data\nimport kmers\nimport joblib\nimport matrix\nfrom sklearn.svm import SVC\nfrom sklearn.metrics import f1_score\nfrom sklearn.preprocessing import MinMaxScaler\nfrom sklearn.metrics import classification_report\nfrom sklearn.ensemble import RandomForestClassifier\n\n# Function to instantiate a linear svm classifier\ndef svm():\n\t# Return a linear svm classifier\n\treturn SVC(kernel = 'linear', C = 1, cache_size = 1000)\n\n# Function to instantiate a random forest classifier\ndef randomForest():\n\t# Return a random forest classifier\n\treturn RandomForestClassifier(n_estimators = 200, max_depth = None, random_state = 0, n_jobs = -1)\n\n# Function to Compute the F1 score\ndef compute_f1_score(y, y_pred):\n\t# Return the computed F1 score\n\treturn f1_score(y, y_pred, average =\"weighted\")\n\n# Function to transform features by scaling each feature between 0 and 1\ndef minMaxScaler(X):\n\t# Return scaled features\n\treturn MinMaxScaler(feature_range = (0, 1), copy = False).fit_transform(X)\n\n# Function to fit a model using a set of k-mers\ndef fit(parameters):\n\t# Get the parameters\n\tmodel_path = str(parameters[\"model_path\"])\n\t# Get the path of the k-mers file\n\tk_mers_path = str(parameters[\"k_mers_path\"])\n\t# Get the path of the training fasta file\n\tfile_path = str(parameters[\"training_fasta\"])\n\t# Load the training data\n\tD = data.loadData(file_path)\n\t# Get the set of k-mers\n\tK = kmers.loadKmers(k_mers_path)\n\t# Get the k-mers length\n\tk = len(list(K.keys())[0])\n\t# Generate the samples matrix (X) and the target values (y)\n\tX, y = matrix.generateSamplesTargets(D, K , k)\n\t# Instantiate a linear svm classifier\n\tclf = svm()\n\t# Fit the classifier\n\tclf.fit(X, y)\n\t# Save the model\n\tjoblib.dump(clf, model_path)\n\t# Displays a confirmation message\n\tprint(\"Model saved at the path:\", model_path)\n\n# Function to predict a set of sequences\ndef predict(parameters):\n\t# Get the path of the model file\n\tmodel_path = str(parameters[\"model_path\"])\n\t# Get the path of the k-mers file\n\tk_mers_path = str(parameters[\"k_mers_path\"])\n\t# Get the testing fasta file\n\tfile_path = str(parameters[\"testing_fasta\"])\n\t# Get the prediction file path\n\tprediction_path = str(parameters[\"prediction_path\"])\n\t# Get the evaluation mode\n\tevaluation_mode = str(parameters[\"evaluation_mode\"])\n\t# Load the training data\n\tD = data.loadData(file_path)\n\t# Get the set of k-mers\n\tK = kmers.loadKmers(k_mers_path)\n\t# Get the k-mers length\n\tk = len(list(K.keys())[0])\n\t# Generate the samples matrix (X) and the target values (y)\n\tX, y = matrix.generateSamplesTargets(D, K , k)\n\t# Load the classifier\n\tclf = joblib.load(model_path)\n\t# Predict the sequences\n\ty_pred = clf.predict(X)\n\t# If evaluation mode is egal to True\n\tif evaluation_mode == \"True\":\n\t\t# If the target values list is empty\n\t\tif len(y) == 0: print(\"Evaluation cannot be performed because target values are not given\")\n\t\t# Else display the classification report\n\t\telse: print(\"Classification report \\n\", classification_report(y, y_pred))\n\t# Save the predictions\n\tf = open(prediction_path, \"w\")\n\t# Write the header\n\tf.write(\"id,y_pred\\n\")\n\t# Iterate through the predictions\n\tfor i, y in enumerate(y_pred): \n\t\t# Save the current prediction\n\t\tf.write(D[i][0] + \",\" + y + \"\\n\")\n\t# Close the file\n\tf.close()\n\t# Displays a confirmation message\n\tprint(\"Predictions saved at the path:\", prediction_path)\n" }, { "alpha_fraction": 0.6845070719718933, "alphanum_fraction": 0.6878873109817505, "avg_line_length": 33.153846740722656, "blob_id": "b269d0d0712bd791f1156f79f306f8d727e3d9be", "content_id": "9efe5c7389e3fbaef38a9c41ee36936d994977c7", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1775, "license_type": "permissive", "max_line_length": 76, "num_lines": 52, "path": "/kmers.py", "repo_name": "bioinfoUQAM/CASTOR_KRFE", "src_encoding": "UTF-8", "text": "# Import\nimport re\nimport Bio.SeqIO\nfrom collections import defaultdict\nfrom joblib import Parallel, delayed\n\n# Define a function to count the occurrences of k-mers in a single sequence\ndef count_seq(seq, k):\n # Create an empty dictionary to store the counts for each k-mer\n counts = defaultdict(int)\n # Iterate through the sequence, considering k-mer windows of length k\n for j in range(len(seq) - k + 1):\n # Extract the k-mer from the sequence\n kmer = seq[j:j+k]\n # Increment the count for this k-mer\n counts[kmer] += 1\n # Return the dictionary of k-mer counts\n return counts\n\n# Define a function to get the k-mers from a list of sequences\ndef getKmers(D, k):\n # Use the Parallel function to parallelize the counting of k-mers\n # This will speed up the computation on multi-core CPUs\n counts = Parallel(n_jobs=-1)(delayed(count_seq)(d[1], k) for d in D)\n # Merge the counts into a single dictionary, with 0 as the default value\n all_counts = defaultdict(int)\n for count in counts:\n all_counts.update(count)\n # Return the dictionary of all k-mer counts\n return all_counts\n\n# Function to save the extracted k-mers\ndef saveExtractedKmers(k_mers_path, k_mers):\n\t# Open file\n\tfile = open(k_mers_path, \"w\")\n\t# Iterate through the k-mers\n\tfor i, k in enumerate(k_mers):\n\t\t# Save the current k-mer\n\t\tfile.write(\">\" + str(i) + \"\\n\" + k + \"\\n\")\n\t# Close the file\n\tfile.close()\n\n# Function to load the set of k-mers from a fasta file\ndef loadKmers(k_mers_path):\n\t# Initialize an empty dictionary for the k-mers\n\tK = {}\n\t# Iterate through the k-mers\n\tfor record in Bio.SeqIO.parse(k_mers_path, \"fasta\"):\n\t\t# Save the current k-mer\n\t\tK[str(record.seq.upper())] = 0\n\t# Return the dictionary of k-mers\n\treturn K" }, { "alpha_fraction": 0.7716666460037231, "alphanum_fraction": 0.7716666460037231, "avg_line_length": 51.173912048339844, "blob_id": "6880f6490d6b4dd5f3cfa3fbb2fa52b85a0b3296", "content_id": "88ef4fc752b62fa83837926dd3e28437bcba380a", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1200, "license_type": "permissive", "max_line_length": 101, "num_lines": 23, "path": "/configuration.py", "repo_name": "bioinfoUQAM/CASTOR_KRFE", "src_encoding": "UTF-8", "text": "# Import\nimport configparser\n\n# Fonction to get the parameters from the configuration file\ndef getParameters(configuration_file):\n\t# Initialize the parser\n\tconfigurationParser = configparser.ConfigParser()\n\t# Read the configuration file\n\tconfigurationParser.read(configuration_file)\n\t# Get the parameters\n\tparameters = dict()\n\tparameters[\"T\"] = configurationParser.get(\"parameters\", \"T\")\n\tparameters[\"k_min\"] = configurationParser.get(\"parameters\", \"k_min\")\n\tparameters[\"k_max\"] = configurationParser.get(\"parameters\", \"k_max\")\n\tparameters[\"model_path\"] = configurationParser.get(\"parameters\", \"model_path\")\n\tparameters[\"k_mers_path\"] = configurationParser.get(\"parameters\", \"k_mers_path\")\n\tparameters[\"testing_fasta\"] = configurationParser.get(\"parameters\", \"testing_fasta\")\n\tparameters[\"training_fasta\"] = configurationParser.get(\"parameters\", \"training_fasta\")\n\tparameters[\"refence_sequence_genbank\"] = configurationParser.get(\"parameters\", \"reference_sequence\")\n\tparameters[\"prediction_path\"] = configurationParser.get(\"parameters\", \"prediction_path\")\n\tparameters[\"evaluation_mode\"] = configurationParser.get(\"parameters\", \"evaluation_mode\")\n\t# Return the parameter dictionary\n\treturn parameters\n" } ]	10
vamshi009/MovieDialogueSys_Failure	https://github.com/vamshi009/MovieDialogueSys_Failure	a5d644ba89924ceb9ac5258853359cf9174b29f9	610c3b60ede7a742464a8a4911da78dab35f9869	0162089fb0e75dd87cb7e7f4054aa7fa678e5c08	refs/heads/master	2020-03-23T20:55:41.134988	2018-07-23T21:36:47	2018-07-23T21:36:47	142,071,240	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6051344871520996, "alphanum_fraction": 0.6276283860206604, "avg_line_length": 19.21782112121582, "blob_id": "949b711b60300e67929c31f14bd5ec2491c3d3e2", "content_id": "a84a24e7822f2dd5a1c84a1b2804cd595c5b12b1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4090, "license_type": "no_license", "max_line_length": 78, "num_lines": 202, "path": "/dgex.py", "repo_name": "vamshi009/MovieDialogueSys_Failure", "src_encoding": "UTF-8", "text": "import torch\nimport torch.nn as nn\nimport torch.nn.functional as F\nimport torch.optim as optim\n\ntorch.manual_seed(1)\n\nimport csv\nd = {}\n\nwith open('ofile.csv') as csvfile:\t\n\tspamreader = csv.reader(csvfile,delimiter=',')\n\tcount = 1\n\tfor row in spamreader:\n#count = count + 1\n\t\tif count<=10:\n#print(row[0], row[-1])\n\t\t\tif row[0] not in d:\n\t\t\t\td[row[0]]=row[-1]\n\n\nprint('lengthi is\\n')\nprint(len(d.keys()))\n\n\nl = []\nwith open('ofile2.csv') as csvfile:\n\tspamreader = csv.reader(csvfile,delimiter=',')\n\tfor row in spamreader:\n\t\t\tt = []\n\t\t\tlu = row[3:]\n\t\t\tt1 = lu[0]\n\t\t\tt1 = t1[3:-1]\n\t\t\tt.append(t1)\n\t\t\ttemp = lu\n\t\t\ttemp = temp[1:-1]\n\t\t\tfor x in temp:\n\t\t\t\tt.append(x[2:-1])\n\t\t\tt2 = lu[-1]\n\t\t\tt2 = t2[2:-2]\n\t\t\tt.append(t2)\n\t\t\tl.append(t)\n\nprint('LL::\t\\n', l[: 10])\nprint(\"length of lists is\\n\")\nprint(len(l))\n\ntraining_data = []\n\nfor li in l:\n\ttarget = li[-1:]\n\tdlg = li[:-1]\n\ttargetx = ''\n\tif target[0]+' ' in d.keys():\n\t\ttargetx = d[target[0]+' ']\n\tdlgx = ''\n\tfor x in dlg:\n\t\tif x+\" \" in d.keys():\n\t\t\tdlgx = dlgx + d[x + \" \"]\n\n\ttraining_data.append((dlgx,targetx))\nprint(\"lengtoh of training_data is\\n\")\n\nprint(len(training_data))\nprint(\"\\n\")\nprint(training_data[0])\nprint(\"\\n\")\nfor k in range(10):\n\tprint(training_data[k])\n\tprint(\"\\n\")\n\n\nT_D = []\nmax_l = 0\n\nfor sent, tag in training_data:\n\tl = sent.split()\n\tif(len(l)>=max_l):\n\t\tmax_l = len(l)\n\tr = tag.split()\n\tif(len(r)>=max_l):\n\t\tmax_l=r\n\tT_D.append((l,r))\n\n\nprint(len(T_D))\n\nprint(T_D[0])\nprint(\"max lenth is \")\nprint(max_l)\n\nmax_length = 30\nmax_tagl = 10\nfinal_td = []\nfor sent, tag in T_D:\n\tif(len(sent)>max_length):\n\t\tsent = sent[:30]\n\telse:\n\t\tif(len(sent)<max_length):\n\t\t\tfor i in range(len(sent),max_length):\n\t\t\t\tsent.append(\"unk\")\n\n\tif(len(tag)>max_tagl):\n\t\ttag = tag[:max_tagl]\n\telse:\n\t\tif(len(tag)<max_tagl):\n\t\t\tfor i in range(len(tag), max_tagl):\n\t\t\t\ttag.append(\"unk\")\n\tfinal_td.append((sent,tag))\n\n\n\nfor u in range(1,6):\n\tprint(\"\\n\")\n\tprint(final_td[u])\n\n\n\nword_to_ix = {}\nfor sent, tag in final_td:\n\tfor word in sent:\n\t\tif word not in word_to_ix:\n\t\t\tword_to_ix[word] = len(word_to_ix)\n\n\tfor word in tag:\n\t\tif word not in word_to_ix:\n\t\t\tword_to_ix[word]=len(word_to_ix)\n\n\nEMBEDDING_DIM = 6\nHIDDEN_DIM = 12\n\n\ndef prepare_sequence(seq, to_ix):\n idxs = [to_ix[w] for w in seq]\n return torch.tensor(idxs, dtype=torch.long)\n\n\nclass DGParser(nn.Module):\n\tdef __init__(self, embedding_dim, hidden_dim, vocab_size, tagset_size):\n\t\tsuper(DGParser, self).__init__()\n\t\tself.hidden_dim = hidden_dim\n\t\tself.word_embeddings = nn.Embedding(vocab_size, embedding_dim)\n\t\tself.lstm = nn.LSTM(30embedding_dim,hidden_dim)\n\t\tself.hidden2tag = nn.Linear(hidden_dim, 610)\n\t\tself.hidden = self.init_hidden()\n\t\n\tdef init_hidden(self):\n\n\t\t\treturn (torch.zeros(1,1,self.hidden_dim), torch.zeros(1,1,self.hidden_dim))\n\n\n\tdef forward(self, sentence):\n\n\t\tembeds = self.word_embeddings(sentence)\n\t\tlstm_out, self.hidden = self.lstm(embeds.view(1,1,-1), self.hidden)\n\t\ttag_space = self.hidden2tag(lstm_out.view(1,-1))\n\t\ttag_scores = F.log_softmax(tag_space, dim=1)\n\t\treturn tag_scores\n\n\n\nmodel = DGParser(EMBEDDING_DIM, HIDDEN_DIM, len(word_to_ix), len(word_to_ix))\nloss_function = nn.NLLLoss()\noptimizer = optim.SGD(model.parameters(), lr=0.1)\n\n\nprint(\"the length is\\n\")\nprint(len(final_td[0][0]))\nwith torch.no_grad():\n inputs = prepare_sequence(final_td[0][0], word_to_ix)\n tag_scores = model(inputs)\n print(tag_scores)\n\n\n\ncount = 0\nfor epoch in range(1000):\n for sentence, tags in final_td:\n \tcount = count + 1\n \tmodel.zero_grad()\n \tmodel.hidden = model.init_hidden()\n \tsentence_in = prepare_sequence(sentence, word_to_ix)\n \ttargets = prepare_sequence(tags, word_to_ix)\n \ttag_scores = model(sentence_in)\n \tif(count==1):\n \t\tprint(\"checking iniated\\n\")\n \t\tprint(tag_scores)\n \t\tprint(tag_scores.size())\n \t\tprint(targets)\n \t\tprint(tag_scores.view(10,1,-1))\n\n \tloss = loss_function(tag_scores.view(10,1,-1), targets)\n \tloss.backward()\n \toptimizer.step()\n\n\n\nwith torch.no_grad():\n inputs = prepare_sequence(final_td[0][0], word_to_ix)\n tag_scores = model(inputs)\n print(tag_scores)\n\n\n\n\n\n\n" }, { "alpha_fraction": 0.8141762614250183, "alphanum_fraction": 0.8141762614250183, "avg_line_length": 260, "blob_id": "2c253c7de0d0f75af44030532e6f545f4a15ac56", "content_id": "f3af2525dfd39dad882b5e0e21031719d3de7500", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 522, "license_type": "no_license", "max_line_length": 494, "num_lines": 2, "path": "/README.md", "repo_name": "vamshi009/MovieDialogueSys_Failure", "src_encoding": "UTF-8", "text": "# MovieDialogueSys_Failure\nTried to create Movie Dialogues based conversational agent with the help of model used for POS Tagging, but at the end while calculating the loss function, POS has one index to check, but for the Dialogue a set of indicies are expected, facing trouble while calculating the loss function, could be ale to generate dense vector represenation of movie converstaions, with the help of LSTM and Linear models, data preprocessing is done, data is from cornell movie dialogue corpus!! Happy coding :D\n" } ]	2
DThBytes/JuanCarolBot	https://github.com/DThBytes/JuanCarolBot	5dac0add8fc2dd32b7c3c1433ec9818a67e06e86	5357cf9a2816c8342a36fae9cf2a997ccaf71765	4afa255e3c61ac0f9765216ef624d4c5110dacc4	refs/heads/master	2023-06-01T22:11:24.433622	2021-06-22T20:26:40	2021-06-22T20:26:40	374,149,436	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6295369267463684, "alphanum_fraction": 0.6323529481887817, "avg_line_length": 30.343137741088867, "blob_id": "09f348116eefe1212157361cead5858ee89e09c2", "content_id": "8b2b6ded28f582a7411e927f6900c9d035bc8a9e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3197, "license_type": "no_license", "max_line_length": 100, "num_lines": 102, "path": "/JuanCarolBot.py", "repo_name": "DThBytes/JuanCarolBot", "src_encoding": "UTF-8", "text": "from typing import runtime_checkable\nimport json\nimport requests\n\n\ntoken_file = open(\"JuanCarolBot.token\", \"r\")\nTOKEN = token_file.read()\ntoken_file.close()\nURL = \"https://api.telegram.org/bot\" + TOKEN + \"/\"\nvoicePath = \"\\data\\voice\"\n\ndef update(offset):\n #Llamar al metodo getUpdates del bot, utilizando un offset\n respuesta = requests.get(URL + \"getUpdates\" + \"?offset=\" + str(offset) + \"&timeout=\" + str(100))\n \n #Decodificar la respuesta recibida a formato UTF8\n mensajes_js = respuesta.content.decode(\"utf8\")\n \n #Convertir el string de JSON a un diccionario de Python\n mensajes_diccionario = json.loads(mensajes_js)\n \n #Devolver este diccionario\n return mensajes_diccionario\n \ndef info_mensaje(mensaje):\n \n #Comprobar el tipo de mensaje\n if \"text\" in mensaje[\"message\"]:\n tipo = \"texto\"\n elif \"sticker\" in mensaje[\"message\"]:\n tipo = \"sticker\"\n elif \"animation\" in mensaje[\"message\"]:\n tipo = \"animacion\" #Nota: los GIF cuentan como animaciones\n elif \"photo\" in mensaje[\"message\"]:\n tipo = \"foto\"\n else:\n # Para no hacer mas largo este ejemplo, el resto de tipos entran\n # en la categoria \"otro\"\n tipo = \"otro\"\n \n #Recoger la info del mensaje (remitente, id del chat e id del mensaje)\n persona = mensaje[\"message\"][\"from\"][\"first_name\"]\n id_chat = mensaje[\"message\"][\"chat\"][\"id\"]\n id_update = mensaje[\"update_id\"]\n \n #Devolver toda la informacion\n return tipo, id_chat, persona, id_update\n \ndef leer_mensaje(mensaje):\n \n #Extraer el texto, nombre de la persona e id del último mensaje recibido\n texto = mensaje[\"message\"][\"text\"]\n \n #Devolver las dos id, el nombre y el texto del mensaje\n return texto\n \ndef enviar_mensaje(idchat, texto):\n #Llamar el metodo sendMessage del bot, passando el texto y la id del chat\n requests.get(URL + \"sendMessage?text=\" + texto + \"&chat_id=\" + str(idchat))\n \ndef interprete(msg, nom):\n rta = \"chica sed\"\n if msg==\"/start\":\n rta = \"Eaaaa\"\n \n if \"hola\" or \"Hola\" in msg:\n rta = \"Hola \"+nom+\" mi amorcito\"\n return rta\n\n \n#Variable para almacenar la ID del ultimo mensaje procesado\nultima_id = 0\n \nwhile(True):\n mensajes_diccionario = update(ultima_id)\n for i in mensajes_diccionario[\"result\"]:\n \n #Guardar la informacion del mensaje\n tipo, idchat, nombre, id_update = info_mensaje(i)\n \n #Generar una respuesta dependiendo del tipo de mensaje\n if tipo == \"texto\":\n texto = leer_mensaje(i)\n texto_respuesta = interprete(texto, nombre)\n elif tipo == \"sticker\":\n texto_respuesta = \"Bonito sticker!\"\n elif tipo == \"animacion\":\n texto_respuesta = \"Me gusta este GIF!\"\n elif tipo == \"foto\":\n texto_respuesta = \"Bonita foto!\"\n elif tipo == \"otro\":\n texto_respuesta = \"Es otro tipo de mensaje\"\n \n #Si la ID del mensaje es mayor que el ultimo, se guarda la ID + 1\n if id_update > (ultima_id-1):\n ultima_id = id_update + 1\n \n #Enviar la respuesta\n enviar_mensaje(idchat, texto_respuesta)\n \n #Vaciar el diccionario\n mensajes_diccionario = []" } ]	1
matthieucan/telegram-commandline	https://github.com/matthieucan/telegram-commandline	cef8aecbe907af1296ad6c36d546fe0393714305	eb35534ba994b4efaec18ae12ef1969b6edfdc1f	f662d5238968c5a2fae77108837198072800b059	refs/heads/master	2021-01-10T07:24:57.466238	2016-04-13T19:09:49	2016-04-13T19:09:49	54,069,138	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.5918141603469849, "alphanum_fraction": 0.5958701968193054, "avg_line_length": 31.285715103149414, "blob_id": "5e17fb46bd02dcb204bdc02d6437d01f5340cbd8", "content_id": "fe9534fb1c0af7bc172452a179dc1ee0fd4e46bd", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2712, "license_type": "no_license", "max_line_length": 92, "num_lines": 84, "path": "/telegram-cl.py", "repo_name": "matthieucan/telegram-commandline", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n\nimport signal\nimport argparse\n\nimport telepot\n\n# class Timeout is stolen without shame from\n# http://stackoverflow.com/questions/2281850/timeout-function-if-it-takes-too-long-to-finish\n\nclass Timeout:\n def __init__(self, seconds=1, error_message='Timeout'):\n self.seconds = seconds\n self.error_message = error_message\n def handle_timeout(self, signum, frame):\n raise Exception(self.error_message)\n def __enter__(self):\n signal.signal(signal.SIGALRM, self.handle_timeout)\n signal.alarm(self.seconds)\n def __exit__(self, type, value, traceback):\n signal.alarm(0)\n\ndef _get_bot(key):\n \"\"\" Returns a bot initiated with an API token. \"\"\"\n bot = telepot.Bot(key)\n return bot\n\ndef send_text(args):\n bot = _get_bot(args.token)\n bot.sendMessage(args.recipient, args.message)\n\ndef send_image(args):\n bot = _get_bot(args.token)\n with open(args.path) as f:\n bot.sendPhoto(args.recipient, f)\n\ndef send_video(args):\n bot = _get_bot(args.token)\n with open(args.path) as f:\n bot.sendVideo(args.recipient, f)\n\ndef main():\n # top-level parser\n parser = argparse.ArgumentParser(description='Telebot command line.')\n subparsers = parser.add_subparsers(\n help='Command to execute. Use with --help to see its possible arguments.')\n \n # text command parser\n parser_text = subparsers.add_parser('text', help='Sends a text message.')\n parser_text.add_argument('--message',\n help=\"The message to send.\",\n required=True)\n parser_text.set_defaults(func=send_text)\n\n # image command parser\n parser_image = subparsers.add_parser('image', help='Sends an image.')\n parser_image.add_argument('--path',\n help=\"The image path.\",\n required=True)\n parser_image.set_defaults(func=send_image)\n\n # video command parser\n parser_video = subparsers.add_parser('video', help='Sends a video.')\n parser_video.add_argument('--path',\n help=\"The video path.\",\n required=True)\n parser_video.set_defaults(func=send_video)\n\n # common arguments\n for p in [parser_text, parser_image, parser_video]:\n p.add_argument('--token',\n help=\"Your API token.\",\n required=True)\n p.add_argument('--recipient',\n help=\"Recipient ID (individual or group).\",\n required=True,\n type=int)\n\n args = parser.parse_args()\n with Timeout(seconds=10):\n args.func(args)\n\nif __name__ == \"__main__\":\n main()\n" }, { "alpha_fraction": 0.6724137663841248, "alphanum_fraction": 0.6724137663841248, "avg_line_length": 18.80487823486328, "blob_id": "3d34fd243a74b1272f26ba79903fa6c846f58fc9", "content_id": "13ba1d583ee8d05d055a68f490b734b6cf2b34de", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 812, "license_type": "no_license", "max_line_length": 98, "num_lines": 41, "path": "/README.md", "repo_name": "matthieucan/telegram-commandline", "src_encoding": "UTF-8", "text": "Telegram Bot Commandline\n========================\n\nThis is a small python executable to send messages, pictures and\nvideos to a chat from the command line.\n\nIt uses the great Python library [telepot](https://github.com/nickoala/telepot).\n\nInstallation\n------------\n\n```\nvirtualenv VENV\nsource VENV/bin/activate\npip install -r requirements.txt\n```\n\nUsage\n-----\n\nGet some help:\n\n```\n./telegram-cl.py --help\n./telegram-cl.py text --help\n```\n\nSend a text message:\n```\n./telegram-cl.py text --token 'YOUR API TOKEN' --recipient RECIPIENT_ID --message 'Hello, world!'\n```\n\nSend a picture:\n```\n./telegram-cl.py image --token 'YOUR API TOKEN' --recipient RECIPIENT_ID --path /path/to/image.png\n```\n\nSend a video:\n```\n./telegram-cl.py video --token 'YOUR API TOKEN' --recipient RECIPIENT_ID --path /path/to/video.avi\n```\n" } ]	2
alexsmartens/Kaggle_Titanic	https://github.com/alexsmartens/Kaggle_Titanic	083cd6e5f16518742227707f1220136161fe0d73	3166a824e77e90465198a3a85b79bda08301862b	c35c56cee22a949e0424e7094348c49eccc9860c	refs/heads/master	2021-09-03T15:24:40.090246	2018-01-10T04:40:20	2018-01-10T04:40:20	110,493,765	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.5731343030929565, "alphanum_fraction": 0.5850746035575867, "avg_line_length": 40.91666793823242, "blob_id": "e70563d0259f3e45b72115b509fec3bc4d9f0cd9", "content_id": "150b7dd4c180467486e4807447088796b7997ccf", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1005, "license_type": "permissive", "max_line_length": 79, "num_lines": 24, "path": "/ML models/grid_search_function.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def grid_search_function(df_X, df_Y, clf, param_grid, cv=3):\n from sklearn.model_selection import GridSearchCV\n import numpy as np\n from time import time\n\n start = time()\n grid_search = GridSearchCV(clf, param_grid=param_grid, n_jobs=-1)\n\n grid_search.fit(df_X, df_Y)\n\n def report(results, n_top=3):\n for i in range(1, n_top + 1):\n candidates = np.flatnonzero(results['rank_test_score'] == i)\n for candidate in candidates:\n print(\"Model with rank: {0}\".format(i))\n print(\"Mean validation score: {0:.3f} (std: {1:.3f})\".format(\n results['mean_test_score'][candidate],\n results['std_test_score'][candidate]))\n print(\"Parameters: {0}\".format(results['params'][candidate]))\n print(\"\")\n\n print(\"GridSearchCV took %.2f seconds for %d candidate parameter settings.\"\n % (time() - start, len(grid_search.cv_results_)))\n report(grid_search.cv_results_)" }, { "alpha_fraction": 0.4920634925365448, "alphanum_fraction": 0.5502645373344421, "avg_line_length": 46.5, "blob_id": "c9fb67297e964864a20c0a01df58958a002b9a0a", "content_id": "9bc27376719d3a671a50f384d9333eaa26454645", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 189, "license_type": "permissive", "max_line_length": 59, "num_lines": 4, "path": "/ML models/class_separation.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def class_separation(df_X):\n df_X_1_2 = df_X.copy().loc[df_X['Pclass'] != 3]\n df_X_3 = df_X.copy().loc[df_X['Pclass'] == 3]\n return [df_X_1_2, df_X_3, df_X_1_2.index, df_X_3.index]" }, { "alpha_fraction": 0.5344709753990173, "alphanum_fraction": 0.5351535677909851, "avg_line_length": 65.63636016845703, "blob_id": "310ee64b074ce41d48b2075788c9f3052ba5cf6f", "content_id": "383c2730f38094a7b2f4999df30e8954150b1f99", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1465, "license_type": "permissive", "max_line_length": 130, "num_lines": 22, "path": "/Filling missing data functions/titles_descriptive_stat.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def titles_descriptive_stat(df_X, print_satat=False):\n import numpy as np\n\n train_df_descripion_by_title = df_X.copy().groupby(['Name_title', 'Sex']).agg(['max', 'min','mean', 'median', 'count',np.std])\n train_df_descripion_by_title = train_df_descripion_by_title[[('Age','min'),\n ('Age','max'),\n ('Age','median'),\n ('Age','mean'),\n ('Age', 'std'),\n ('Fare','count')]]\n train_df_descripion_by_title.columns = train_df_descripion_by_title.columns.droplevel()\n\n if print_satat:\n print(np.round(train_df_descripion_by_title, decimals=1))\n\n # Summarizing the titles to the most common ones for future age prediction\n titles_common_list = ['Master', 'Miss', 'Mr', 'Mrs']\n titles_common_list_age_distr = train_df_descripion_by_title.copy().loc[titles_common_list]\n titles_common_list_age_distr.reset_index(inplace=True)\n titles_common_list_age_distr.set_index('Name_title',inplace=True)\n titles_common_list_age_distr_male = titles_common_list_age_distr.copy()[titles_common_list_age_distr['Sex']=='male']\n return (train_df_descripion_by_title, titles_common_list_age_distr, titles_common_list_age_distr_male)" }, { "alpha_fraction": 0.4196736812591553, "alphanum_fraction": 0.443610817193985, "avg_line_length": 43.433860778808594, "blob_id": "52afdc73108c674e1307586e1f27d6891b5368fc", "content_id": "da6eeb1159acb064abe09918808a8ea4983e11ca", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8397, "license_type": "permissive", "max_line_length": 135, "num_lines": 189, "path": "/main_2_GBT_parameter_tuning.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "import pandas as pd\nimport numpy as np\nfrom sklearn.ensemble import GradientBoostingClassifier\nfrom sklearn.model_selection import GridSearchCV\nfrom imblearn.over_sampling import SMOTE\n\nimport os\nimport sys\nlib_path2 = os.path.abspath(os.path.join('Ml models'))\nsys.path.append(lib_path2)\nfrom features_processing import features_processing\nlib_path = os.path.abspath(os.path.join('GBT_tuning_functions'))\nsys.path.append(lib_path)\nfrom modelfit import modelfit\n\n\n\n\n\nif __name__ == '__main__':\n train_original = pd.read_csv('Data/titanic_train_READY.csv')\n train_original.set_index('PassengerId', inplace=True)\n\n train = train_original.copy()\n target = 'Survived'\n [scaler, train] = features_processing(train, target, normalization=False)\n # Choose all predictors except target\n predictors = [x for x in train.columns if x not in [target]]\n\n # Oversampling with SMOTE\n X_res, y_res = SMOTE(kind='regular').fit_sample(train[predictors], train[target])\n\n train_res = pd.DataFrame(X_res, columns=train[predictors].columns)\n train_res.loc[:,'Survived'] = y_res\n train = train_res\n\n\n\n gbm0 = GradientBoostingClassifier(random_state=10)\n #modelfit(gbm0, train, predictors)\n\n\n # Choose all predictors except target & IDcols\n predictors = [x for x in train.columns if x not in [target]]\n param_test1 = {'n_estimators':range(20,81,5)}\n\n gsearch1 = GridSearchCV(estimator = GradientBoostingClassifier(learning_rate=0.1,\n min_samples_split=7,\n min_samples_leaf=4,\n max_depth=5,\n max_features='sqrt',\n subsample=0.8,\n random_state=10),\n param_grid = param_test1,\n scoring='accuracy',n_jobs=-1,iid=False, cv=5)\n # gsearch1.fit(train[predictors],train[target])\n # clf = gsearch1\n\n\n\n param_test2 = {'max_depth': np.arange(4,21,1),\n 'min_samples_split': np.arange(100,200,2)}\n\n gsearch2 = GridSearchCV(estimator=GradientBoostingClassifier(learning_rate=0.1,\n min_samples_leaf=4,\n max_features='sqrt',\n subsample=0.8,\n random_state=10,\n n_estimators=40),\n param_grid=param_test2,\n scoring='accuracy', n_jobs=-1, iid=False, cv=5)\n # gsearch2.fit(train[predictors], train[target])\n # clf = gsearch2\n\n\n\n param_test3 = {'max_features':range(2,14,1)}\n\n gsearch3 = GridSearchCV(estimator=GradientBoostingClassifier(learning_rate=0.1,\n min_samples_leaf=4,\n subsample=0.8,\n random_state=10,\n n_estimators=40,\n max_depth=10,\n min_samples_split=124),\n param_grid=param_test3,\n scoring='accuracy', n_jobs=-1, iid=False, cv=5)\n # gsearch3.fit(train[predictors], train[target])\n # clf = gsearch3\n\n\n\n param_test4 = {'subsample': [0.6,0.7,0.75,0.8,0.85,0.9,0.95,0.99]}\n\n gsearch4 = GridSearchCV(estimator=GradientBoostingClassifier(learning_rate=0.1,\n min_samples_leaf=4,\n random_state=10,\n n_estimators=40,\n max_depth=10,\n min_samples_split=124,\n max_features=9),\n param_grid=param_test4,\n scoring='accuracy', n_jobs=-1, iid=False, cv=5)\n # gsearch4.fit(train[predictors], train[target])\n # clf = gsearch4\n\n\n\n param_test5 = {'learning_rate': np.arange(0.01,0.5,0.01)}\n gsearch5 = GridSearchCV(estimator=GradientBoostingClassifier(learning_rate=0.17,\n min_samples_leaf=4,\n random_state=10,\n n_estimators=45,\n max_depth=7,\n min_samples_split=126,\n max_features=3,\n subsample=0.8),\n param_grid=param_test5,\n scoring='accuracy', n_jobs=-1, iid=False, cv=5)\n # gsearch5.fit(train[predictors], train[target])\n # clf = gsearch5\n\n # gsearch_chosen = GradientBoostingClassifier(learning_rate=0.1,\n # min_samples_leaf=4,\n # random_state=10,\n # n_estimators=40,\n # max_depth=10,\n # min_samples_split=124,\n # max_features=9,\n # subsample=0.8)\n\n # gsearch_chosen.fit(train[predictors], train[target])\n # modelfit(gsearch_chosen, train, predictors)\n\n\n # The first successful parameters\n param_test6 = {'learning_rate': np.arange(0.01,0.5,0.01),\n 'n_estimators': np.arange(2,31,1)\n }\n gsearch6 = GridSearchCV(estimator=GradientBoostingClassifier(\n random_state=10,\n ),\n param_grid=param_test6,\n scoring='accuracy', n_jobs=-1, iid=False, cv=5)\n # gsearch6.fit(train[predictors], train[target])\n # clf = gsearch6\n\n gsearch_chosen = GradientBoostingClassifier(random_state=10,\n learning_rate=0.34,\n n_estimators=5)\n\n # gsearch_chosen.fit(train[predictors], train[target])\n # modelfit(gsearch_chosen, train, predictors)\n\n\n\n\n # # Print results\n # print(\"Best parameters set found on development set:\")\n # print(clf.best_params_)\n #\n # print(\"Grid scores on development set:\")\n # means = clf.cv_results_['mean_test_score']\n # stds = clf.cv_results_['std_test_score']\n #\n # for mean, std, params in zip(means, stds, clf.cv_results_['params']):\n # print(\"%0.3f (+/-%0.03f) for %r\"\n # % (mean, std * 2, params))\n\n\n\n\n\n\n\n # Predicting result for submission\n submitting = False\n if submitting:\n\n # Lading test data\n test = pd.read_csv('Data/titanic_test_READY.csv')\n test.set_index('PassengerId',inplace=True)\n [scaler, test_X] = features_processing(test, target, normalization=False, training=False, scaler=scaler)\n\n y_predicted = gsearch_chosen.predict(test_X)\n y_predicted_df = pd.DataFrame(y_predicted, columns={'Survived'}, index=test_X.index)\n # y_predicted_df.sort_index(inplace=True)\n\n y_predicted_df.to_csv('Kaggle submissions/titanic_submission2_accuracy_SMOTE_GBT3_1st_improved.csv', sep=',', encoding='utf-8')" }, { "alpha_fraction": 0.5815533995628357, "alphanum_fraction": 0.6009708642959595, "avg_line_length": 50.516666412353516, "blob_id": "494546bd923b0640343c02e411165e9a81a18145", "content_id": "ba9b4a0982c263287cab48d0a3fca6601029cb29", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3090, "license_type": "permissive", "max_line_length": 118, "num_lines": 60, "path": "/Filling missing data functions/cabin_assign_internal.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def cabin_assign_internal(df_X):\n import numpy as np\n import pandas as pd\n import scipy\n\n import os, sys\n lib_path = os.path.abspath(os.path.join(''))\n sys.path.append(lib_path)\n from class1_passengers_stat import class1_passengers_stat\n\n\n ticket_1st_Age_NA = df_X.loc[\n pd.isnull(df_X.loc[:, 'Cabin']) & (df_X.loc[:, 'Pclass'] == 1), 'Ticket_combined'].unique().tolist()\n [dict_passengers_1st_Embarced, dict_passengers_1st_Embarced_stat] = class1_passengers_stat(df_X)\n\n # number of neighbors for defining cabin X and Y in the 1st class\n num_neighbors = 3\n\n # Assigning cabin location coordinates to 1st class passengers with unknown cabin number\n for ticket_No in ticket_1st_Age_NA:\n current_Fare = df_X.loc[df_X.loc[:, 'Ticket_combined'] == ticket_No, 'Fare'].mean()\n current_Embarked = df_X.loc[df_X.loc[:, 'Ticket_combined'] == ticket_No, 'Embarked'].tolist()[0]\n\n current_1st_fare_stat = dict_passengers_1st_Embarced_stat[current_Embarked]\n current_1st_set = dict_passengers_1st_Embarced[current_Embarked]\n\n # Finding the most probable cabin deck\n new_deck_level = current_1st_fare_stat.copy().index[np.argmax(scipy.stats.norm(\n current_1st_fare_stat['mean'],\n current_1st_fare_stat['std']).pdf(current_Fare))]\n # print(new_deck_level)\n\n # Finding N closest cabins by price on the chosen deck,\n # and X and Y based on the chosen neighbours eventually\n closest_neighbor_index = abs(current_1st_set.where(current_1st_set['Cabin_deck_level'] == new_deck_level) \\\n .dropna() \\\n .loc[:, 'Fare'] - current_Fare) \\\n .sort_values().index.tolist()[0:num_neighbors]\n new_X = current_1st_set.loc[closest_neighbor_index, 'Cabin_X'].sum() / \\\n len(current_1st_set.loc[closest_neighbor_index, 'Cabin_X'])\n new_Y = current_1st_set.loc[closest_neighbor_index, 'Cabin_Y'].sum() / \\\n len(current_1st_set.loc[closest_neighbor_index, 'Cabin_Y'])\n # adding a bit of random noise for distinguishing the locations\n # of group of passengers with the same ticket numbers\n new_X = new_X + np.random.uniform(-1.5, 1.5, 1)[0]\n new_Y = new_Y + np.random.uniform(-1.5, 1.5, 1)[0]\n room_code_new = '_1st_' + '_port_S_' + str(ticket_No)\n\n df_X.loc[df_X.loc[:, 'Ticket_combined'] == ticket_No, ['Cabin', 'Cabin_deck_level', 'Cabin_X', 'Cabin_Y']] = \\\n [room_code_new, new_deck_level, round(new_X, 2), round(new_Y, 2)]\n # print([room_code_new, new_deck_level, round(new_X, 2), round(new_Y, 2)])\n\n\n # Assigning cabin location coordinates to 2nd and 3rd class passengers\n df_X.loc[df_X.loc[:, 'Pclass'] == 2, ['Cabin', 'Cabin_deck_level', 'Cabin_X', 'Cabin_Y']] = \\\n ['2nd_centroid_2cF', 2, -85, 0]\n df_X.loc[df_X.loc[:, 'Pclass'] == 3, ['Cabin', 'Cabin_deck_level', 'Cabin_X', 'Cabin_Y']] = \\\n ['2rd_centroid_3cF1_pos', 2, 85, 0]\n\n return df_X" }, { "alpha_fraction": 0.41979435086250305, "alphanum_fraction": 0.4213367700576782, "avg_line_length": 39.48958206176758, "blob_id": "21323f3f3810440b76e51a5afbc55f3d698f8d84", "content_id": "3b2ae2609e22cd8e3b0a85589248b3966f495974", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3890, "license_type": "permissive", "max_line_length": 106, "num_lines": 96, "path": "/ML models/features_processing.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def features_processing(df_X, target, normalization, training=True, scaler=None):\n import pandas as pd\n from sklearn.preprocessing import StandardScaler\n\n df_X.loc[:, 'Sex'] = (df_X.loc[:, 'Sex'] == 'female') * 1\n df_X.rename(columns={'Sex': 'Sex==female'}, inplace=True)\n\n\n ethnicity_dict = {'AFRICAN': 'OTHER',\n 'ARAB': 'OTHER',\n 'CHINESE': 'OTHER',\n 'DUTCH': 'EUROPEAN',\n 'ENGLISH': 'ENGLISH',\n 'FRENCH': 'EUROPEAN',\n 'GERMAN': 'EUROPEAN',\n 'GREEK': 'EUROPEAN',\n 'HISPANIC': 'OTHER',\n 'INDIAN': 'OTHER',\n 'ISRAELI': 'OTHER',\n 'ITALIAN': 'EUROPEAN',\n 'JAPANESE': 'OTHER',\n 'NORDIC': 'NORDIC',\n 'ROMANIAN': 'EUROPEAN',\n 'SLAV': 'EUROPEAN',\n 'THAI': 'OTHER',\n 'TURKISH': 'OTHER',\n 'VIETNAMESE': 'OTHER'}\n df_X.loc[:, 'Ethnicity_origin'] = (df_X.loc[:, 'Ethnicity_origin']).apply(lambda x: ethnicity_dict[x])\n df_X = pd.merge(df_X, pd.get_dummies(df_X['Ethnicity_origin'], prefix='Ethnicity'),\n how='left', left_index=True, right_index=True)\n\n\n if not normalization:\n print('Normalization is turned OFF')\n embarked_dict = {'S': 1, 'C': 3, 'Q': 2}\n df_X.loc[:, 'Embarked'] = (df_X.loc[:, 'Embarked']).apply(lambda x: embarked_dict[x])\n\n df_X = df_X.drop(['Cabin',\n 'Ticket',\n 'Name_title',\n 'Name',\n 'Name_first',\n 'Name_last',\n 'Name_other',\n 'Ticket',\n 'Ticket_Series',\n 'Ticket_No',\n\n 'Ticket_combined',\n 'Ethnicity_origin',\n 'Ethnicity_prob'], axis=1)\n print(df_X.columns)\n return [scaler, df_X]\n else:\n print('Normalization is turned ON')\n df_X = pd.merge(df_X, pd.get_dummies(df_X['Embarked'], prefix='Embarked'),\n how='left', left_index=True, right_index=True)\n\n\n\n df_X = df_X.drop(['Cabin',\n 'Ticket',\n 'Name_title',\n 'Name',\n 'Name_first',\n 'Name_last',\n 'Name_other',\n 'Ticket',\n 'Ticket_Series',\n 'Ticket_No',\n\n 'Ticket_combined',\n 'Ethnicity_origin',\n 'Ethnicity_prob',\n 'Embarked'], axis=1)\n predictors = [x for x in df_X.columns if x not in [target]]\n if training:\n # print(df_X.shape)\n scaler = StandardScaler().fit(X=df_X[predictors])\n df_Y = df_X[target]\n df_X_index = df_X.index\n df_X_res = scaler.transform(X=df_X[predictors])\n # print(df_X_res.shape)\n df_X = pd.DataFrame(df_X_res, columns=df_X[predictors].columns)\n df_X.index = df_X_index\n df_X = pd.merge(df_X, pd.DataFrame(df_Y), how='left', left_index=True, right_index=True)\n print(df_X.columns)\n return [scaler, df_X]\n else:\n df_X_index = df_X.index\n df_X_res = scaler.transform(X=df_X[predictors])\n # print(df_X_res.shape)\n df_X = pd.DataFrame(df_X_res, columns=df_X[predictors].columns)\n df_X.index = df_X_index\n print(df_X.columns)\n return [scaler, df_X]\n\n\n\n" }, { "alpha_fraction": 0.5444079041481018, "alphanum_fraction": 0.5444079041481018, "avg_line_length": 42.42856979370117, "blob_id": "db5071519fa094381b4cb962d5e9b2da5e455307", "content_id": "698372535f5b498c63269fd7ffc57a252f6a8816", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 608, "license_type": "permissive", "max_line_length": 90, "num_lines": 14, "path": "/Filling missing data functions/title_standardization_function.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def title_standardization_function(row, titles_common_list_age_distr_male):\n import numpy as np\n import scipy.stats\n\n if row['Name_title'] not in ['Master', 'Miss', 'Mr', 'Mrs']:\n if row['Sex'] == 'female':\n row.set_value('Name_title', 'Miss')\n else:\n row.set_value( 'Name_title', titles_common_list_age_distr_male.index.tolist()[\n np.argmax(\n scipy.stats.norm(\n titles_common_list_age_distr_male['mean'],\n titles_common_list_age_distr_male['std']).pdf(row['Age']))])\n return row\n" }, { "alpha_fraction": 0.5093985199928284, "alphanum_fraction": 0.5165413618087769, "avg_line_length": 58.13333511352539, "blob_id": "86b5eff4c785aceb114f512a0cbbd01fbe772d70", "content_id": "d71f6d0fe84d5f7aaa583fecd6dd16371413138e", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2660, "license_type": "permissive", "max_line_length": 129, "num_lines": 45, "path": "/Filling missing data functions/cabin_existing_allocation.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def cabin_existing_allocation(df_X):\n import numpy as np\n import pandas as pd\n import scipy\n\n import os, sys\n lib_path = os.path.abspath(os.path.join(''))\n sys.path.append(lib_path)\n from cabin_assign_internal import cabin_assign_internal\n\n cabin_location_list = pd.read_csv('./Data/titanic_cabin_location.csv')\n cabin_location_list.set_index('Room code', inplace=True)\n cabin_list = df_X.loc[(pd.notnull(df_X.loc[:, 'Cabin'])) & (df_X.loc[:, 'Pclass']==1), 'Cabin'].unique().tolist()\n\n df_X.loc[:,'Cabin_deck_level'] = ''\n df_X.loc[:,'Cabin_X'] = ''\n df_X.loc[:,'Cabin_Y'] = ''\n\n # Assigning cabin location coordinates to 1st class passengers with known cabin number\n for cabin_No in cabin_list:\n if cabin_No in cabin_location_list.index.tolist():\n df_X.loc[df_X.loc[:,'Cabin']==cabin_No, 'Cabin_deck_level'] = cabin_location_list.loc[cabin_No,'Deck level']\n df_X.loc[df_X.loc[:,'Cabin']==cabin_No, 'Cabin_X'] = cabin_location_list.loc[cabin_No, 'Room center longitude(X)']\n df_X.loc[df_X.loc[:,'Cabin']==cabin_No, 'Cabin_Y'] = cabin_location_list.loc[cabin_No, 'Room center latitude(Y)']\n\n elif cabin_No.split(' ')[0] in cabin_location_list.index.tolist():\n df_X.loc[df_X.loc[:,'Cabin']==cabin_No, 'Cabin_deck_level'] = round(cabin_location_list.loc[\n cabin_location_list.index.isin(cabin_No.split(' '))].\n loc[:, 'Deck level'].mean(), 2)\n df_X.loc[df_X.loc[:,'Cabin']==cabin_No, 'Cabin_X'] = round(cabin_location_list.loc[\n cabin_location_list.index.isin(cabin_No.split(' '))].\n loc[:,'Room center longitude(X)'].mean(),2)\n df_X.loc[df_X.loc[:,'Cabin']==cabin_No, 'Cabin_Y'] = round(cabin_location_list.loc[\n cabin_location_list.index.isin(cabin_No.split(' '))].\n loc[:, 'Room center latitude(Y)'].mean(), 2)\n else:\n print(\"\\033[91m {}\\033[00m\" \\\n .format('!WARNING. cabin_existing_allocation\\n'\n 'A cabin is not in the cabin list'))\n\n\n # Assigning cabin location coordinates to 1st class passengers with unknown cabin number and all 2nd and 3rd class passengers\n df_X = cabin_assign_internal (df_X)\n\n return df_X" }, { "alpha_fraction": 0.6032573580741882, "alphanum_fraction": 0.6104234457015991, "avg_line_length": 41.44444274902344, "blob_id": "baea3fd7fcd3ead4e7c534a9b8b6fff6696ee010", "content_id": "eaac4440601a1d2b981c740a0260ed0fcf6bf7c3", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1535, "license_type": "permissive", "max_line_length": 152, "num_lines": 36, "path": "/Filling missing data functions/title_correction.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def title_correction(df_X, titles_stat, print_satat=False):\n import numpy as np\n import pandas as pd\n\n from titles_descriptive_stat import titles_descriptive_stat\n from title_standardization_function import title_standardization_function\n\n # Assumed kid maximum age\n kid_max_age = 14\n\n # Unpacking stat by title information\n (train_df_descripion_by_title,\n titles_common_list_age_distr,\n titles_common_list_age_distr_male) = titles_stat\n\n if print_satat:\n print('There are {} of kids in training set'.format(((df_X.loc[:, 'Age'] <= kid_max_age) * 1).sum()))\n\n # Titles standardization (getting rid from title outliers like 'Col', 'Don', 'Lady' and etc.)\n df_X = df_X.apply(title_standardization_function,\n titles_common_list_age_distr_male=titles_common_list_age_distr_male,\n axis=1)\n\n df_X.loc[ (df_X['Age']<=kid_max_age) & (df_X['Sex']=='male'), 'Name_title' ] = 'Master'\n df_X.loc[ (df_X['Age']<=kid_max_age) & (df_X['Sex']=='female'), 'Name_title' ] = 'Girl'\n\n df_X.loc[ pd.isnull(df_X['Age']) & (df_X['Name_title']=='Master'), 'Age' ] = round(train_df_descripion_by_title.loc['Master', 'mean'].tolist()[0],2)\n\n if kid_max_age<=14:\n df_X.loc[pd.isnull(df_X['Age']) & (df_X['Name_title'] == 'Master'), 'Age'] = round(\n train_df_descripion_by_title.loc['Master', 'mean'].tolist()[0], 2)\n\n ## Adding kid identification feature\n #df_X.loc[:,'Kid'] = (df_X.loc[:,'Age']<=kid_max_age)1\n\n return df_X\n\n\n\n\n\n\n\n" }, { "alpha_fraction": 0.4843445420265198, "alphanum_fraction": 0.49071067571640015, "avg_line_length": 65.93913269042969, "blob_id": "f36ef53848cce4ae557eb2fac82245888b0a12ad", "content_id": "8fa2a1027bf8c4c0df1192077dce200b0de5a143", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 7697, "license_type": "permissive", "max_line_length": 138, "num_lines": 115, "path": "/Filling missing data functions/age_correction_by_group_feature.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def age_correction_by_group_feature(df_X, feature_name, titles_stat, print_satat=False):\n import pandas as pd\n import numpy as np\n\n # tracing amount of passengers with newly determined age\n if print_satat:\n n_passengers_age_assigned = 0\n list_passengers_age_assigned = []\n # Unpacking stat by title information\n (train_df_descripion_by_title,\n titles_common_list_age_distr,\n titles_common_list_age_distr_male) = titles_stat\n # Creating list of unique feature values\n feature_list = df_X.copy().loc[:, feature_name].unique()[pd.notnull(df_X.loc[:, feature_name].unique())].tolist()\n\n for feature_No in feature_list:\n df_feature_passengers = df_X.loc[df_X[feature_name] == feature_No]\n n_nanny = 0\n # Checking the chosen passengers have feature-mates\n if len(df_feature_passengers) > 1:\n # Checking if there are groups of passengers with known and unknown age who have the same feature\n if (sum((pd.isnull(df_feature_passengers['Age'])) 1) > 0) & (\n sum((pd.notnull(df_feature_passengers['Age'])) * 1) > 0):\n # control variable to eliminate confusions with different families having the same last name\n proceed = False\n\n if feature_name == 'Name_last':\n # finding groups of passengers with similar tickets\n df_feature_passengers = df_feature_passengers.assign(Ticket_group = '')\n ticket_group_tolerance = 25\n for ind_t in df_feature_passengers.index.tolist()[0:-1]:\n if pd.notnull(df_feature_passengers.loc[ind_t,'Ticket_group']):\n df_feature_passengers.loc[ind_t, 'Ticket_group'] = ind_t\n group_ticket_range = range(df_feature_passengers.loc[ind_t, 'Ticket_No'] - ticket_group_tolerance,\n df_feature_passengers.loc[ind_t, 'Ticket_No'] + ticket_group_tolerance )\n for ind_tt in df_feature_passengers.index[df_feature_passengers.index!=ind_t].tolist():\n if df_feature_passengers.loc[ind_tt, 'Ticket_No'] in group_ticket_range:\n df_feature_passengers.loc[ind_tt, 'Ticket_group'] = ind_t\n\n if len(df_feature_passengers.loc[:, 'Ticket_group'].unique())<len(df_feature_passengers.loc[:, 'Ticket'].unique()):\n if len(df_feature_passengers.loc[:, 'Ticket_group'].unique())==1:\n proceed = True\n else:\n proceed = True\n\n\n if proceed:\n # Summarizing feature-mates by SibSp and Parch feature combination.\n # SibSp and Parch values allow to identify whether a passenger is a kid or an adult and\n # and assign more appropriate age\n passengers_aggregated = df_feature_passengers.groupby(['SibSp', 'Parch']).agg(['mean', 'count'])\n # Choose passengers with the specified SibSp and Parch values\n feature_passengers_NA = df_feature_passengers.loc[(pd.isnull(df_feature_passengers['Age']))]\n feature_passengers_not_NA = df_feature_passengers.loc[(pd.notnull(df_feature_passengers['Age']))]\n feature_passengers_not_NA_no_nanny = \\\n feature_passengers_not_NA.loc[(pd.notnull(df_feature_passengers['Age']))]\n for ind in feature_passengers_NA.index.tolist():\n # Check whether a group of passengers with similar SibSp and Parch has a mean Age\n if ~np.isnan(passengers_aggregated.loc[(df_X.loc[ind, 'SibSp'], df_X.loc[ind, 'Parch']), ('Age', 'mean')]):\n # assigning mean age of a group with the same SibSp and Parch if a passenger age is unknown\n df_X.loc[ind, 'Age'] = \\\n passengers_aggregated.loc[(df_X.loc[ind, 'SibSp'], df_X.loc[ind, 'Parch']), ('Age', 'mean')]\n # Collecting stat\n if print_satat:\n n_passengers_age_assigned += 1\n list_passengers_age_assigned.append(ind)\n # checking if a passenger is nanny\n elif (df_X.loc[ind, 'SibSp']==0) & (df_X.loc[ind, 'Parch']==0):\n df_X.loc[ind, 'Age'] = \\\n np.round(train_df_descripion_by_title.loc[df_X.loc[ind, 'Name_title'], 'mean'], 1).tolist()[0]\n n_nanny += 1\n\n # Checking a family logical connection problem\n if n_nanny>1:\n print(\"\\033[91m {}\\033[00m\" \\\n .format('!WARNING. age_correction_by_group_feature\\n'\n 'More than one nanny is detected in a family'))\n # Collecting stat\n if print_satat:\n n_passengers_age_assigned += 1\n list_passengers_age_assigned.append(ind)\n else:\n if feature_passengers_not_NA_no_nanny['Age'].mean()<=14:\n df_X.loc[ind, 'Age'] = np.round(train_df_descripion_by_title.loc['Mr', 'mean'].tolist()[0], 1)\n # Collecting stat\n if print_satat:\n n_passengers_age_assigned += 1\n list_passengers_age_assigned.append(ind)\n elif df_X.loc[ind, 'Name_title'] == 'Mrs':\n df_X.loc[ind, 'Age'] = np.round(train_df_descripion_by_title.loc['Mrs', 'mean'].tolist()[0], 1)\n # Collecting stat\n if print_satat:\n n_passengers_age_assigned += 1\n list_passengers_age_assigned.append(ind)\n else:\n df_X.loc[ind, 'Age'] = np.round(train_df_descripion_by_title.loc['Master', 'mean'].tolist()[0], 1)\n # Collecting stat\n if print_satat:\n n_passengers_age_assigned += 1\n list_passengers_age_assigned.append(ind)\n # Title correction according to newly assigned age\n for ind in feature_passengers_NA.index.tolist():\n if ~np.isnan(df_X.loc[ind, 'Age'] <= 14):\n if (df_X.loc[ind, 'Age'] <= 14) & (df_X.loc[ind, 'Sex'] == 'female'):\n df_X.loc[ind, 'Name_title'] = 'Girl'\n elif (df_X.loc[ind, 'Age'] <= 14) & (df_X.loc[ind, 'Sex'] == 'male'):\n df_X.loc[ind, 'Name_title'] = 'Master'\n elif ((df_X.loc[ind, 'Sex'] == 'female') & ((df_X.loc[ind, 'SibSp'] > 0) \| (df_X.loc[ind, 'Parch'] >0)) ):\n df_X.loc[ind, 'Name_title'] = 'Mrs'\n\n # Printing stat\n if print_satat:\n print('Age was assigned to {} passengers by {} feature'.format(n_passengers_age_assigned,feature_name))\n # print(df_X.loc[list_passengers_age_assigned,['Name', 'Age', feature_name]])\n return df_X" }, { "alpha_fraction": 0.7259085178375244, "alphanum_fraction": 0.736756443977356, "avg_line_length": 43.975608825683594, "blob_id": "9aa9a32323d6ac5853013e061c268a76ce2ca0f2", "content_id": "3b6abfc157359993c100aa55308dc4aa41ed3902", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5531, "license_type": "permissive", "max_line_length": 120, "num_lines": 123, "path": "/main_1_filling_missing_data.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "import matplotlib.pyplot as plt\nimport numpy as np\nimport pandas as pd\nimport scipy.stats\nfrom mpl_toolkits.mplot3d import Axes3D\nfrom sklearn import preprocessing\nfrom sklearn.dummy import DummyRegressor\nfrom sklearn.ensemble import GradientBoostingRegressor\nfrom sklearn.linear_model import Lasso\nfrom sklearn.linear_model import LinearRegression\nfrom sklearn.model_selection import cross_val_score\nfrom sklearn.tree import DecisionTreeRegressor\n\nimport os, sys\nlib_path = os.path.abspath(os.path.join('Filling missing data functions'))\nsys.path.append(lib_path)\nfrom split_name import split_name\nfrom titles_descriptive_stat import titles_descriptive_stat\nfrom title_correction import title_correction\nfrom cabin_check_by_ticket_No import cabin_check_by_ticket_No\nfrom age_correction_by_group_feature import age_correction_by_group_feature\nfrom ticket_standardization import ticket_standardization\nfrom age_correction_assign_mean_by_title import age_correction_assign_mean_by_title\nfrom cabin_existing_allocation import cabin_existing_allocation\n\n\n\n\n# Loading TRAIN set\ndf_original = pd.read_csv('Data/titanic_train.csv')\ndf_original.set_index('PassengerId',inplace=True)\ndf_X = df_original.copy()\n\n# df_X.drop('Survived', axis=1, inplace=True)\n# df_Y = df_original.copy().loc[:,'Survived']\n\n# Two passengers Embarked feature is corrected to be 'S' because\n# - it is the most probable feature for 1st class passengers\n# - these passengers ticket number seems to be in range of ticket numbers of 1st class passengers Embarked at 'S'\ndf_X.loc[[62,830],'Embarked'] = 'S'\n# Age correction for one passenger based on the descriptive info\n# The age is corrected according to title=Dr, equivalent to\n# df_X.loc[767,'Age'] = train_df_descripion_by_title.loc[('Dr','male'),'median']\ndf_X.loc[767,'Age'] = 44\n# A passenger ticket is corrected to explicitly be a part of a family with the same tickets\ndf_X.loc[873, 'Ticket']= 'PC 17755'\n# df_X.loc[873, 'Family_member'] = 'nanny'\n# Ticket number of four passengers corrected to be the same type as the rest tickets\ndf_X.loc[df_X.loc[:, 'Ticket']=='LINE', 'Ticket'] = '9999999'\ndf_X.loc[422, 'Ticket'] = 'AQ/5 13032'\n\n\n# Splitting name by title, last name and first (other) name\ndf_X = df_X.apply(split_name, axis=1)\n\n\n\n\n\n# Loading TEST set\ndf_original_test = pd.read_csv('Data/titanic_test.csv')\ndf_original_test.set_index('PassengerId',inplace=True)\ndf_X_test = df_original_test.copy()\n\n# Filling a missing value based on a sample mean\ndf_X_test.loc[1044,'Fare'] = np.mean(df_X_test.loc[ (df_X_test['Pclass']==3) & (df_X_test['Embarked']=='S') ,'Fare'])\n\n\n\n\n\n\n# Combining train and test for age/cabin feature values detection\ndf_X.loc[:,'Data set'] = 'train'\ndf_X_test.loc[:,'Data set'] = 'test'\ndf_X_combined = df_X.copy()\ndf_X_combined = df_X_combined.append(df_X_test.copy())\n\n# Splitting name by title, last name and first (other) name\ndf_X_combined = df_X_combined.apply(split_name, axis=1)\n\n# Separating Ticket number and series\ndf_X_combined.loc[:, 'Ticket_Series'] = ''\ndf_X_combined.loc[:, 'Ticket_No'] = 0\ndf_X_combined = df_X_combined.apply(ticket_standardization, axis=1)\ndf_X_combined = df_X_combined.sort_values(['Ticket_Series', 'Ticket_No'], ascending=[True, True])\ndf_X_combined['Ticket_combined'] = df_X_combined['Ticket_Series'] + ' ' + df_X_combined['Ticket_No'].astype(str)\n\n# Filling age missing values\ntitles_stat_initial = titles_descriptive_stat(df_X_combined, print_satat=False)\ndf_X_combined = title_correction(df_X_combined, titles_stat_initial, print_satat=True)\ntitles_stat = titles_descriptive_stat(df_X_combined, print_satat=False)\n# Filling cabin values for passengers having the same tickets\ndf_X_combined = cabin_check_by_ticket_No(df_X_combined)\ndf_X_combined = age_correction_by_group_feature(df_X_combined, 'Cabin', titles_stat_initial, print_satat=True)\ndf_X_combined = age_correction_by_group_feature(df_X_combined, 'Ticket_combined', titles_stat_initial, print_satat=True)\ndf_X_combined = age_correction_by_group_feature(df_X_combined, 'Name_last', titles_stat_initial, print_satat=True)\ndf_X_combined = age_correction_assign_mean_by_title(df_X_combined, titles_stat_initial, print_satat=False)\ndf_X_combined = cabin_existing_allocation(df_X_combined)\n\n# Load the data set with ethnicity (country) pre-assigned and adding this info to the main data set\ndf_X_combined_w_ethnicity = pd.read_csv('Data/titanic_train_test_w_country.csv')\ndf_X_combined_w_ethnicity.set_index('PassengerId',inplace=True)\ndf_X_combined_ethnicity = df_X_combined_w_ethnicity[['Country_origin','Country_origin_prob']]\ndf_X_combined_ethnicity = df_X_combined_ethnicity.rename(columns={'Country_origin': 'Ethnicity_origin',\n 'Country_origin_prob': 'Ethnicity_prob'})\ndf_X_combined = pd.merge(df_X_combined, df_X_combined_ethnicity, how='left', left_index=True, right_index=True)\n\n\n\n\n\n# Splitting and saving train and test sets\ndf_X_test_ready = df_X_combined.loc[df_X_combined.loc[:,'Data set']=='test']\ndf_X_test_ready = df_X_test_ready.drop('Data set', axis=1)\ndf_X_test_ready.drop('Survived', axis=1, inplace=True)\ndf_X_test_ready.to_csv('Data/titanic_test_READY.csv', sep=',', encoding='utf-8')\n\ndf_X_train_ready = df_X_combined.loc[df_X_combined.loc[:,'Data set']=='train']\ndf_X_train_ready = df_X_train_ready.drop('Data set', axis=1)\ndf_X_train_ready.to_csv('Data/titanic_train_READY.csv', sep=',', encoding='utf-8')\n\n#df_X_combined.to_csv('Data/titanic_train_test_temp.csv', sep=',', encoding='utf-8')" }, { "alpha_fraction": 0.796013593673706, "alphanum_fraction": 0.8044953346252441, "avg_line_length": 130, "blob_id": "0f4c13bd4ff8a1bd01f8a70b9354efd4f01d6f3d", "content_id": "cd053afac33568d314331327078c3f16a047660b", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 2358, "license_type": "permissive", "max_line_length": 858, "num_lines": 18, "path": "/README.md", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "# Kaggle_Titanic\n\nThis is an approach to building ML models for \"Titanic: Machine Learning from Disaster\" Kaggle competition\n\nMy current current results\n* Accuracy: 0.80861 \n* Top 7%\n\n\nThe project consists from two major parts.\n\n1. Filling missing data. This part is implemented in main_1_filling_missing_data.py. The functions used by main_1_filling_missing_data.py are contained in Filling missing data functions folder. Filling missing data is mainly filling two features:\n- Age. My approach to filling age: I figured out that Name feature contain title information. General titles are: Master, Miss, Mr, Mrs. Hence, titles is an indicator of age. I computed distributions of each title through the train set and assigned mean title age to passengers with unknown age.\n- Cabin. Only small fraction of passengers have cabin numbers, majority of those people are 1st class passengers. However, I found Titanic deck planes at https://www.encyclopedia-titanica.org/titanic-deckplans/ and using these plans and Cabin feature data I figured out that each Pclass (passenger class) had \"very special\" location which I pictured in /Data/Class_zones_on_deck_plan.png. Finally, I located each passenger with known cabin to its location on the ship, I assigned 1st class passengers with unknown Cabin based on Fare feature and 2nd and 3rd class passengers based on their Class.\n\n2. Fitting ML models. At first, in some cases data has been normalized for further proceeding with some approaches. Logistic Regression, Naive Bayes, KNN, Gradient Boosted Decision Trees, Random Forest and Neural Network classifiers have been fitted to the data. Next, Neural Networks, Gradient Boosting Trees and Random Forest demonstrated higher accuracy score. Hence, their parameters are tuned for the best accuracy score. As the next step, Extreme Gradient Boosted Trees and an ensamble models are added into the play and tuned. Additionally, Synthetic Minority Over-sampling Technique (SMOTE) feature is added for balancing the asymmetrical dataset. This part is implemented in main_2_GBT_parameter_tuning.py, main_2_Log_Reg_parameter_tuning.py, main_2_MLP_parameter_tuning.py, main_2_Xgboost_parameter_tuning.py, main_3_Ensemble_GBT_MLP_LogR.py files.\n\nResults: as of now, the best accuracy score is produced by Gradient Boosted Decision Trees with and without SMOTE oversampling.\n" }, { "alpha_fraction": 0.431903600692749, "alphanum_fraction": 0.4643855392932892, "avg_line_length": 36.3237419128418, "blob_id": "e3fd161d81baf3a717e1d317145f24469acd091c", "content_id": "be4101448705afe2012c51fa51956c09454db751", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 10375, "license_type": "permissive", "max_line_length": 112, "num_lines": 278, "path": "/main_2_Xgboost_parameter_tuning.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "import pandas as pd\nimport numpy as np\nfrom sklearn.model_selection import GridSearchCV\nfrom imblearn.over_sampling import SMOTE\n\nimport os\nimport sys\n\n# add the path to the g++ runtime libraries to the os environment path variable\nmingw_path = 'C:\\\\Program Files\\\\Compiler-mingw-w64\\\\x86_64-7.2.0-posix-seh-rt_v5-rev1\\\\mingw64\\\\bin'\nos.environ['PATH'] = mingw_path + ';' + os.environ['PATH']\nimport xgboost as xgb\nfrom xgboost.sklearn import XGBClassifier\n\n\nlib_path = os.path.abspath(os.path.join('Xgboost_tuning_functions'))\nsys.path.append(lib_path)\nlib_path2 = os.path.abspath(os.path.join('Ml models'))\nsys.path.append(lib_path2)\nfrom features_processing import features_processing\n\nfrom modelfit import modelfit\n\n\n\nif __name__ == '__main__':\n\n train_original = pd.read_csv('Data/titanic_train_READY.csv')\n train_original.set_index('PassengerId', inplace=True)\n\n\n\n train_original = pd.read_csv('Data/titanic_train_READY.csv')\n train_original.set_index('PassengerId', inplace=True)\n\n train = train_original.copy()\n target = 'Survived'\n [scaler, train] = features_processing(train, target, normalization=False)\n # Choose all predictors except target\n predictors = [x for x in train.columns if x not in [target]]\n\n # Oversampling with SMOTE\n # X_res, y_res = SMOTE(kind='regular').fit_sample(train[predictors], train[target])\n #\n # train_res = pd.DataFrame(X_res, columns=train[predictors].columns)\n # train_res.loc[:,'Survived'] = y_res\n # train = train_res\n #\n # # Oversampling with SMOTE\n # X_res, y_res = SMOTE(kind='regular').fit_sample(train[predictors], train[target])\n #\n # train_res = pd.DataFrame(X_res, columns=train[predictors].columns)\n # train_res.loc[:, 'Survived'] = y_res\n # train = train_res\n\n # Undersampling\n # rus = RandomUnderSampler(random_state=0)\n # X_res, y_res = rus.fit_sample(train[predictors], train[target])\n #\n # train_res = pd.DataFrame(X_res, columns=train[predictors].columns)\n # train_res.loc[:,'Survived'] = y_res\n # train = train_res\n\n\n\n\n\n #Choose all predictors except target\n predictors = [x for x in train.columns if x not in [target]]\n xgb1 = XGBClassifier(\n learning_rate =0.1,\n n_estimators=140,\n max_depth=5,\n min_child_weight=1,\n gamma=0,\n subsample=0.8,\n colsample_bytree=0.8,\n objective= 'binary:logistic',\n nthread=4,\n scale_pos_weight=1,\n seed=27)\n # modelfit(xgb1, train, predictors, target, xgb)\n\n\n param_test1 = {\n 'max_depth':range(3,10,2),\n 'min_child_weight':range(1,6,2)\n }\n gsearch1 = GridSearchCV(estimator = XGBClassifier( learning_rate=0.09,\n n_estimators=6,\n gamma=0.01,\n subsample=0.7,\n colsample_bytree=0.9,\n objective= 'binary:logistic',\n nthread=12,\n scale_pos_weight=1,\n seed=27),\n param_grid = param_test1, scoring='accuracy',n_jobs=12,iid=False, cv=5)\n # gsearch1.fit(train[predictors],train[target])\n # clf = gsearch1\n\n\n\n param_test2 = {\n 'max_depth': range(2,13,1),\n 'min_child_weight': range(1,17,1)\n }\n gsearch2 = GridSearchCV(estimator=XGBClassifier(learning_rate=0.09,\n n_estimators=6,\n gamma=0.01,\n subsample=0.7,\n colsample_bytree=0.9,\n objective= 'binary:logistic',\n nthread=12,\n scale_pos_weight=1,\n seed=27),\n param_grid=param_test2, scoring='accuracy', n_jobs=12, iid=False, cv=5)\n # gsearch2.fit(train[predictors], train[target])\n # clf = gsearch2\n\n\n\n param_test3 = {\n 'gamma': np.arange(0.0,0.5,0.01)\n }\n gsearch3 = GridSearchCV(estimator=XGBClassifier(learning_rate =0.1,\n n_estimators=140,\n subsample=0.8,\n colsample_bytree=0.8,\n objective= 'binary:logistic',\n nthread=12,\n scale_pos_weight=1,\n seed=27,\n max_depth=5,\n min_child_weight=3),\n param_grid=param_test3, scoring='accuracy', n_jobs=12, iid=False, cv=5)\n # gsearch3.fit(train[predictors], train[target])\n # clf = gsearch3\n\n\n\n xgb2 = XGBClassifier(\n learning_rate=0.1,\n n_estimators=140,\n subsample=0.8,\n colsample_bytree=0.8,\n objective='binary:logistic',\n nthread=12,\n scale_pos_weight=1,\n seed=27,\n max_depth=2,\n min_child_weight=5,\n gamma=0.9)\n # modelfit(xgb2, train, predictors, target, xgb)\n\n\n\n param_test4 = {\n 'subsample': np.arange(0.6,1,0.05),\n 'colsample_bytree': np.arange(0.6,1,0.05)\n }\n gsearch4 = GridSearchCV(estimator=XGBClassifier(learning_rate=0.1,\n n_estimators=140,\n objective='binary:logistic',\n nthread=12,\n scale_pos_weight=1,\n seed=27,\n max_depth=5,\n min_child_weight=3,\n gamma=0.38),\n param_grid=param_test4, scoring='accuracy', n_jobs=12, iid=False, cv=5)\n # gsearch4.fit(train[predictors], train[target])\n # clf = gsearch4\n\n\n\n param_test6 = {\n 'reg_alpha':[0, 0.001, 0.002, 0.003, 0.004, 0.005, 0.01, 0.05]\n }\n gsearch6 = GridSearchCV(estimator=XGBClassifier(learning_rate=0.1,\n n_estimators=140,\n objective='binary:logistic',\n nthread=12,\n scale_pos_weight=1,\n seed=27,\n max_depth=5,\n min_child_weight=3,\n gamma=0.38,\n subsample=0.65,\n colsample_bytree=0.8),\n param_grid=param_test6, scoring='accuracy', n_jobs=12, iid=False, cv=5)\n # gsearch6.fit(train[predictors], train[target])\n # clf = gsearch6\n\n\n\n xgb3 = XGBClassifier(\n learning_rate=0.1,\n n_estimators=140,\n objective='binary:logistic',\n nthread=12,\n scale_pos_weight=1,\n seed=27,\n max_depth=2,\n min_child_weight=5,\n gamma=0.9,\n subsample=0.8,\n colsample_bytree=0.8,\n reg_alpha=0.001)\n # modelfit(xgb3, train, predictors, target, xgb)\n\n\n\n param_test7 = {\n 'n_estimators':np.arange(5,40,1),\n 'learning_rate': np.arange(0.01,0.31,0.01)\n }\n gsearch7 = GridSearchCV(estimator=XGBClassifier(objective='binary:logistic',\n nthread=12,\n scale_pos_weight=1,\n seed=27,\n max_depth=5,\n min_child_weight=3,\n gamma=0.38,\n subsample=0.65,\n colsample_bytree=0.8,\n reg_alpha=0.003),\n param_grid=param_test7, scoring='accuracy', n_jobs=12, iid=False, cv=5)\n # gsearch7.fit(train[predictors], train[target])\n # clf = gsearch7\n\n\n\n\n xgb4 = XGBClassifier(\n learning_rate=0.04,\n n_estimators=7,\n objective='binary:logistic',\n nthread=12,\n scale_pos_weight=1,\n seed=27,\n max_depth=5,\n min_child_weight=3,\n gamma=0.38,\n subsample=0.65,\n colsample_bytree=0.8,\n reg_alpha=0.003)\n modelfit(xgb4, train, predictors, target, xgb)\n\n\n\n\n # # Print results\n # print(\"Best parameters set found on development set:\")\n # print(clf.best_params_)\n #\n # print(\"Grid scores on development set:\")\n # means = clf.cv_results_['mean_test_score']\n # stds = clf.cv_results_['std_test_score']\n #\n # for mean, std, params in zip(means, stds, clf.cv_results_['params']):\n # print(\"%0.3f (+/-%0.03f) for %r\"\n # % (mean, std * 2, params))\n\n\n\n # Predicting result for submission\n submitting=True\n if submitting:\n # Lading test data\n test = pd.read_csv('Data/titanic_test_READY.csv')\n test.set_index('PassengerId', inplace=True)\n [scaler, test_X] = features_processing(test, target, normalization=False, training=False, scaler=scaler)\n\n y_predicted = xgb4.predict(test_X)\n y_predicted_df = pd.DataFrame(y_predicted, columns={'Survived'}, index=test_X.index)\n\n y_predicted_df.to_csv('Kaggle submissions/titanic_submission2_xgb_new_1.csv', sep=',', encoding='utf-8')" }, { "alpha_fraction": 0.5618374347686768, "alphanum_fraction": 0.5786898732185364, "avg_line_length": 35.39603805541992, "blob_id": "3664a525d187c11e52cadb042fc68536e17d08e3", "content_id": "702b035cb2d9fdb9eef0a0aba6aa6183382da06e", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3679, "license_type": "permissive", "max_line_length": 130, "num_lines": 101, "path": "/main_2_Log_Reg_parameter_tuning.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "import os\nimport sys\n\nimport numpy as np\nimport pandas as pd\nfrom sklearn.ensemble import GradientBoostingClassifier\nfrom sklearn.neural_network import MLPClassifier\nfrom sklearn.linear_model import LogisticRegression\nfrom sklearn.model_selection import GridSearchCV\nfrom imblearn.over_sampling import SMOTE\nfrom imblearn.under_sampling import RandomUnderSampler\n\nlib_path = os.path.abspath(os.path.join('Ml models'))\nsys.path.append(lib_path)\nfrom features_processing import features_processing\nfrom grid_search_function import grid_search_function\n\n\n\nif __name__ == '__main__':\n\n train_original = pd.read_csv('Data/titanic_train_READY.csv')\n train_original.set_index('PassengerId',inplace=True)\n\n train = train_original.copy()\n target = 'Survived'\n [scaler, train] = features_processing(train, target, normalization=True)\n # Choose all predictors except target\n predictors = [x for x in train.columns if x not in [target]]\n\n # # Oversampling with SMOTE\n # X_res, y_res = SMOTE(kind='regular').fit_sample(train[predictors], train[target])\n #\n # train_res = pd.DataFrame(X_res, columns=train[predictors].columns)\n # train_res.loc[:,'Survived'] = y_res\n # train = train_res\n\n # Random undersampling\n rus = RandomUnderSampler(random_state=10)\n X_res, y_res = rus.fit_sample(train[predictors], train[target])\n\n train_res = pd.DataFrame(X_res, columns=train[predictors].columns)\n train_res.loc[:,'Survived'] = y_res\n train = train_res\n\n\n\n param_test1 = {#'C':[0.5, 1, 2, 3, 5, 10, 20, 30, 35, 40, 50, 60],\n 'C': np.arange(0.1,2.1,0.05),\n 'penalty': ['l1', 'l2']\n }\n gsearch1 = GridSearchCV(estimator = LogisticRegression(\n random_state=10,\n max_iter=1000,\n solver='saga'\n ),\n param_grid = param_test1,\n scoring='accuracy',n_jobs=-1,iid=False, cv=5)\n # gsearch1.fit(train[predictors], train[target])\n # clf = gsearch1\n\n\n gsearch_chosen = LogisticRegression(\n random_state=10,\n max_iter=1000,\n solver='saga',\n C=1.1,\n penalty='l1'\n )\n # gsearch_chosen.fit(train[predictors], train[target])\n\n # # Print results\n # print(\"Best parameters set found on development set:\")\n # print(clf.best_params_)\n #\n # print(\"Grid scores on development set:\")\n # means = clf.cv_results_['mean_test_score']\n # stds = clf.cv_results_['std_test_score']\n #\n # for mean, std, params in zip(means, stds, clf.cv_results_['params']):\n # print(\"%0.3f (+/-%0.03f) for %r\"\n # % (mean, std * 2, params))\n\n\n\n\n\n # Predicting result for submission\n submitting = False\n if submitting:\n\n # Lading test data\n test = pd.read_csv('Data/titanic_test_READY.csv')\n test.set_index('PassengerId',inplace=True)\n [scaler, test_X] = features_processing(test, target, normalization=True, training=False, scaler=scaler)\n\n y_predicted = gsearch_chosen.predict(test_X)\n y_predicted_df = pd.DataFrame(y_predicted, columns={'Survived'}, index=test_X.index)\n # y_predicted_df.sort_index(inplace=True)\n\n y_predicted_df.to_csv('Kaggle submissions/titanic_submission2_accuracy_undersampled_LogR2.csv', sep=',', encoding='utf-8')\n\n\n\n" }, { "alpha_fraction": 0.4536191523075104, "alphanum_fraction": 0.49918293952941895, "avg_line_length": 42.697479248046875, "blob_id": "494efca8793fc55c5b076d5b75b265adee109f6d", "content_id": "f11ba855afa36e7a9ac6cf2884f215d8ece5166c", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 10403, "license_type": "permissive", "max_line_length": 126, "num_lines": 238, "path": "/main_2_MLP_parameter_tuning.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "import os\nimport sys\n\nimport numpy as np\nimport pandas as pd\nfrom sklearn.ensemble import GradientBoostingClassifier\nfrom sklearn.neural_network import MLPClassifier\nfrom sklearn.model_selection import GridSearchCV\nfrom imblearn.over_sampling import SMOTE\nfrom imblearn.under_sampling import RandomUnderSampler\n\nlib_path = os.path.abspath(os.path.join('Ml models'))\nsys.path.append(lib_path)\nfrom features_processing import features_processing\nfrom grid_search_function import grid_search_function\n\n\n\nif __name__ == '__main__':\n train_original = pd.read_csv('Data/titanic_train_READY.csv')\n train_original.set_index('PassengerId',inplace=True)\n\n train = train_original.copy()\n target = 'Survived'\n [scaler, train] = features_processing(train, target, normalization=True)\n # Choose all predictors except target\n predictors = [x for x in train.columns if x not in [target]]\n\n # # Oversampling with SMOTE\n X_res, y_res = SMOTE(kind='regular').fit_sample(train[predictors], train[target])\n\n train_res = pd.DataFrame(X_res, columns=train[predictors].columns)\n train_res.loc[:,'Survived'] = y_res\n train = train_res\n\n\n\n\n # use a full grid over all parameters\n param_grid1 = {\"learning_rate\": [0.1, 0.25, 0.5, 0.75, 1, 1.5, 2, 2.5, 5, 7.5, 10],\n 'n_estimators':range(20,81,10),\n \"max_depth\": [3, 4, 5],\n \"min_samples_leaf\": [1, 3, 10]}\n\n param_grid2 = {'n_estimators': [0.1, 0.25, 0.5, 0.75, 1, 1.5, 2, 2.5, 5, 7.5, 10],\n 'max_depth': np.arange(6, 17, 2),\n 'min_samples_split': np.arange(100, 200, 10),\n 'max_features': range(2, 14, 2),\n 'subsample': [0.6, 0.7, 0.75, 0.8, 0.85, 0.9]}\n clf2 = GradientBoostingClassifier(random_state=10,learning_rate=0.1,min_samples_leaf=4)\n\n #grid_search_function(train[predictors], train[target], clf, param_grid2, cv=5)\n #grid_search_function(train[predictors], train[target], clf2, param_grid2, cv=5)\n\n\n\n\n\n # train.to_csv('Data/titanic_train_test_temp__.csv', sep=',', encoding='utf-8')\n def form_layer_unit_combinations(layers_list, units_list):\n combination_l_u_list = []\n for l in layers_list:\n for u in units_list:\n combination_l_u_list = combination_l_u_list + [[l, u]]\n return combination_l_u_list\n\n\n param_test1 = {'hidden_layer_sizes': form_layer_unit_combinations( range(2,11,1), range(10, 101, 10) )}\n gsearch1 = GridSearchCV(estimator = MLPClassifier(alpha=2,\n random_state=10,\n activation='relu',\n solver='lbfgs',\n max_iter=500\n ),\n param_grid = param_test1,\n scoring='accuracy',n_jobs=3,iid=False, cv=5)\n # gsearch1.fit(train[predictors], train[target])\n # clf = gsearch1\n\n\n\n param_test2 = {'activation': ['identity','logistic','tanh','relu']}\n gsearch2 = GridSearchCV(estimator = MLPClassifier(alpha=2,\n random_state=10,\n activation='relu',\n solver='lbfgs',\n hidden_layer_sizes=[2,11]#[2,20], [3,44]\n ),\n param_grid = param_test2,\n scoring='accuracy',n_jobs=4,iid=False, cv=5)\n # gsearch2.fit(train[predictors], train[target])\n # clf = gsearch2\n\n\n # param_test3 = {'alpha': np.arange(0.1, 3, 0.4),\n # 'hidden_layer_sizes': form_layer_unit_combinations( range(2,10,1), range(10, 101, 10) ),\n # 'activation': ['identity','logistic','tanh','relu']}\n # gsearch3 = GridSearchCV(estimator = MLPClassifier(alpha=2,\n # random_state=10,\n # solver='lbfgs',\n # ),\n # param_grid = param_test3,\n # scoring='roc_auc',n_jobs=-1,iid=False, cv=5)\n param_test3 = {'alpha': np.arange(0.1, 16, 0.5),\n 'hidden_layer_sizes': form_layer_unit_combinations( range(2,11,1), range(10, 161, 10) ),\n 'activation': ['identity','logistic','tanh','relu']}\n gsearch3 = GridSearchCV(estimator = MLPClassifier(\n random_state=10,\n solver='lbfgs'\n ),\n param_grid = param_test3,\n scoring='accuracy',n_jobs=-1,iid=False, cv=5)\n # gsearch3.fit(train[predictors], train[target])\n # clf = gsearch3\n\n # 0.853(+ / -0.104)\n # for {'activation': 'tanh', 'hidden_layer_sizes': [2, 13]}\n # 0.851(+ / -0.104)\n # for {'activation': 'relu', 'hidden_layer_sizes': [2, 11]}\n # 0.852(+ / -0.078)\n # for {'activation': 'logistic', 'hidden_layer_sizes': [3, 23]}\n # 0.852(+ / -0.077)\n # for {'activation': 'logistic', 'hidden_layer_sizes': [3, 36]}\n\n\n\n param_test4_1 = {'alpha': np.arange(0.1, 6.7, 0.25),\n 'hidden_layer_sizes': form_layer_unit_combinations( [2], range(10, 170, 5) ),\n 'activation': ['relu']}\n gsearch4_1 = GridSearchCV(estimator = MLPClassifier(\n random_state=10,\n solver='lbfgs'\n ),\n param_grid = param_test4_1,\n scoring='accuracy',n_jobs=-1,iid=False, cv=5)\n # gsearch4_1.fit(train[predictors], train[target])\n # clf = gsearch4_1\n\n\n param_test4_1_2 = {'alpha': np.arange(2, 5.5, 0.1),\n 'hidden_layer_sizes': form_layer_unit_combinations( [2], [60,65,75,80,85,90,110,115,120,125,135,140,145,150,155,160]),\n 'activation': ['relu']}\n gsearch4_1_2 = GridSearchCV(estimator = MLPClassifier(\n random_state=10,\n solver='lbfgs'\n ),\n param_grid = param_test4_1_2,\n scoring='accuracy',n_jobs=-1,iid=False, cv=5)\n # gsearch4_1_2.fit(train[predictors], train[target])\n # clf = gsearch4_1_2\n\n param_test4_2 = {'alpha': np.arange(0.5, 13, 0.25),\n 'hidden_layer_sizes': form_layer_unit_combinations( range(3, 10, 1), range(20, 170, 5) ),\n 'activation': ['relu', 'tanh']}\n gsearch4_2 = GridSearchCV(estimator = MLPClassifier(\n random_state=10,\n solver='lbfgs'\n ),\n param_grid = param_test4_2,\n scoring='accuracy',n_jobs=-1,iid=False, cv=5)\n # gsearch4_2.fit(train[predictors], train[target])\n # clf = gsearch4_2\n\n param_test4_2_2 = {'alpha': np.arange(0.5, 8.6, 0.21),\n 'hidden_layer_sizes': form_layer_unit_combinations( range(4, 10, 1), range(20, 171, 5) ),\n 'activation': ['relu', 'tanh']}\n gsearch4_2_2 = GridSearchCV(estimator = MLPClassifier(\n random_state=10,\n solver='lbfgs'\n ),\n param_grid = param_test4_2_2,\n scoring='accuracy',n_jobs=-1,iid=False, cv=5)\n # gsearch4_2_2.fit(train[predictors], train[target])\n # clf = gsearch4_2_2\n\n param_test4_3 = {'alpha': np.arange(2, 6, 0.1),\n 'hidden_layer_sizes': form_layer_unit_combinations([10], range(50, 90, 10)),\n 'activation': ['tanh']}\n gsearch4_3 = GridSearchCV(estimator=MLPClassifier(\n random_state=10,\n solver='lbfgs'\n ),\n param_grid=param_test4_3,\n scoring='accuracy', n_jobs=-1, iid=False, cv=5)\n # gsearch4_3.fit(train[predictors], train[target])\n # clf = gsearch4_3\n\n param_test4_3_2 = {'alpha': np.arange(2.5, 7, 0.1),\n 'hidden_layer_sizes': form_layer_unit_combinations([10], range(30, 115, 5)),\n 'activation': ['tanh']}\n gsearch4_3_2 = GridSearchCV(estimator=MLPClassifier(\n random_state=10,\n solver='lbfgs'\n ),\n param_grid=param_test4_3_2,\n scoring='accuracy', n_jobs=-1, iid=False, cv=5)\n # gsearch4_3_2.fit(train[predictors], train[target])\n # clf = gsearch4_3_2\n\n\n\n\n gsearch_chosen = MLPClassifier(alpha=6.0,\n random_state=10,\n activation='tanh',\n solver='lbfgs',\n hidden_layer_sizes=[10, 55])\n gsearch_chosen.fit(train[predictors], train[target])\n\n # # Print results\n # print(\"Best parameters set found on development set:\")\n # print(clf.best_params_)\n #\n # print(\"Grid scores on development set:\")\n # means = clf.cv_results_['mean_test_score']\n # stds = clf.cv_results_['std_test_score']\n #\n # for mean, std, params in zip(means, stds, clf.cv_results_['params']):\n # print(\"%0.3f (+/-%0.03f) for %r\"\n # % (mean, std * 2, params))\n\n\n\n\n\n # Predicting result for submission\n submitting = False\n if submitting:\n\n # Lading test data\n test = pd.read_csv('Data/titanic_test_READY.csv')\n test.set_index('PassengerId',inplace=True)\n [scaler, test_X] = features_processing(test, target, normalization=True, training=False, scaler=scaler)\n\n y_predicted = gsearch_chosen.predict(test_X)\n y_predicted_df = pd.DataFrame(y_predicted, columns={'Survived'}, index=test_X.index)\n\n y_predicted_df.to_csv('Kaggle submissions/titanic_submission2-SMOTE_MLP_new-4_3.csv', sep=',', encoding='utf-8')\n\n\n\n" }, { "alpha_fraction": 0.44077983498573303, "alphanum_fraction": 0.4610084891319275, "avg_line_length": 61.55045700073242, "blob_id": "e48141d642c256a619b3526029de1abca7929fdf", "content_id": "09e0fba73440cf1f4a5385eec7dc188d52a6f9e3", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 6822, "license_type": "permissive", "max_line_length": 121, "num_lines": 109, "path": "/Filling missing data functions/ticket_standardization.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def ticket_standardization(row, global_check=False):\n ticket_splited = row.loc['Ticket'].split(' ')\n # Assigning ticket number\n row.set_value('Ticket_No', int(ticket_splited[-1]))\n\n # Assigning ticket series where applicable\n if global_check== False:\n # getting rid from very probable spelling mistakes\n if len(ticket_splited) == 2:\n # Correcting some misspellings of ticket series\n if (ticket_splited[0] == 'A/4') \| (ticket_splited[0] == 'A4.') \| (\n ticket_splited[0] == 'A/4.'):\n row.set_value('Ticket_Series', 'A/4')\n elif (ticket_splited[0] == 'SC/A4') \| (ticket_splited[0] == 'S.C./A.4.'):\n row.set_value('Ticket_Series', 'SC/A4')\n elif (ticket_splited[0] == 'A./5.') \| (ticket_splited[0] == 'A.5.') \| (ticket_splited[0] == 'A/5.') \| (\n ticket_splited[0] == 'A/S'):\n row.set_value('Ticket_Series', 'A/5')\n elif (ticket_splited[0] == 'CA') \| (ticket_splited[0] == 'C.A./SOTON') \| (ticket_splited[0] == 'CA.') \| (\n ticket_splited[0] == 'C.A.') :\n row.set_value('Ticket_Series', 'CA')\n elif (ticket_splited[0] == 'SC/PARIS') \| (ticket_splited[0] == 'SC/Paris') \| (\n ticket_splited[0] == 'S.C./PARIS'):\n row.set_value('Ticket_Series', 'SC/PARIS')\n elif (ticket_splited[0] == 'W/C') \| (ticket_splited[0] == 'W./C.'):\n row.set_value('Ticket_Series', 'W/C')\n elif (ticket_splited[0] == 'WE/P') \| (ticket_splited[0] == 'W.E.P.'):\n row.set_value('Ticket_Series', 'WE/P')\n elif (ticket_splited[0] == 'SOTON/O.Q.') \| (ticket_splited[0] == 'SOTON/OQ') \| (\n ticket_splited[0] == 'STON/OQ.'):\n row.set_value('Ticket_Series', 'SOTON/OQ')\n elif (ticket_splited[0] == 'SOTON/O2') \| (ticket_splited[0] == 'STON/O2.'):\n row.set_value('Ticket_Series', 'SOTON/O2')\n elif (ticket_splited[0] == 'S.O.C.') \| (ticket_splited[0] == 'SO/C'):\n row.set_value('Ticket_Series', 'S.O.C.')\n elif (ticket_splited[0] == 'SW/PP') \| (ticket_splited[0] == 'S.W./PP'):\n row.set_value('Ticket_Series', 'SW/PP')\n elif (ticket_splited[0] == 'W.E.P.') \| (ticket_splited[0] == 'WE/P'):\n row.set_value('Ticket_Series', 'W.E.P.')\n else:\n row.set_value('Ticket_Series', ticket_splited[0])\n elif ticket_splited[0] == 'STON/O':\n row.set_value('Ticket_Series', 'SOTON/O2')\n else:\n if ''.join(ticket_splited[0:-1]) == 'A.2.':\n row.set_value('Ticket_Series', 'A/2')\n elif ''.join(ticket_splited[0:-1]) == 'SC/AHBasle':\n row.set_value('Ticket_Series', 'SC/AH')\n else:\n row.set_value('Ticket_Series', ''.join(ticket_splited[0:-1]))\n\n # Global (broad) ticket series standardization to only 5 series\n else:\n if len(ticket_splited) == 1:\n # tickets initially without series\n row.set_value('Ticket_Series', 'Orig')\n elif len(ticket_splited) == 2:\n # Correcting some misspellings of ticket series\n if (ticket_splited[0] == 'A/4') \| (ticket_splited[0] == 'A4.') \| (ticket_splited[0] == 'AQ/3.') \| (\n ticket_splited[0] == 'S.C./A.4.') \| (ticket_splited[0] == 'SC/A4') \| \\\n (ticket_splited[0] == 'SC/A4') \| (ticket_splited[0] == 'A/4.'):\n # row.set_value('Ticket_Series', 'A/4')\n row.set_value('Ticket_Series', 'A/5')\n elif (ticket_splited[0] == 'A./5.') \| (ticket_splited[0] == 'A.5.') \| (ticket_splited[0] == 'A/5.') \| (\n ticket_splited[0] == 'A/S') \| (ticket_splited[0] == 'AQ/4') \| (\n ticket_splited[0] == 'SC/A.3') \| (\n ticket_splited[0] == 'AQ/5') \| (ticket_splited[0] == 'F.C.') \| (ticket_splited[0] == 'C') \| (\n ticket_splited[0] == 'P/PP') \| (ticket_splited[0] == 'PP') \| (ticket_splited[0] == 'SW/PP') \| (\n ticket_splited[0] == 'S.W./PP') \| (ticket_splited[0] == 'S.P.'):\n row.set_value('Ticket_Series', 'A/5')\n elif (ticket_splited[0] == 'C.A.') \| (ticket_splited[0] == 'C.A./SOTON') \| (ticket_splited[0] == 'CA.') \| (\n ticket_splited[0] == 'PP'):\n row.set_value('Ticket_Series', 'CA')\n elif (ticket_splited[0] == 'SC/AH') \| (ticket_splited[0] == 'SCO/W') \| (ticket_splited[0] == 'SO/C') \| (\n ticket_splited[0] == 'S.O./P.P.') \| (ticket_splited[0] == 'LP') \| (\n ticket_splited[0] == 'S.O.C.') \| (\n ticket_splited[0] == 'S.O.P.') \| (ticket_splited[0] == 'SC'):\n # row.set_value('Ticket_Series', 'SC/AH')\n row.set_value('Ticket_Series', 'CA')\n elif (ticket_splited[0] == 'SC/PARIS') \| (ticket_splited[0] == 'SC/Paris') \| (\n ticket_splited[0] == 'S.C./PARIS'):\n # row.set_value('Ticket_Series', 'SC/PARIS')\n row.set_value('Ticket_Series', 'A/5')\n elif (ticket_splited[0] == 'W/C') \| (ticket_splited[0] == 'W./C.') \| (ticket_splited[0] == 'WE/P') \| (\n ticket_splited[0] == 'F.C.C.') \| (ticket_splited[0] == 'W.E.P.'):\n # row.set_value('Ticket_Series', 'W/C')\n row.set_value('Ticket_Series', 'Orig')\n elif (ticket_splited[0] == 'SOTON/O.Q.') \| (ticket_splited[0] == 'SOTON/O2') \| (\n ticket_splited[0] == 'SOTON/OQ') \\\n \| (ticket_splited[0] == 'STON/O2.') \| (ticket_splited[0] == 'STON/OQ.'):\n row.set_value('Ticket_Series', 'STON/O')\n elif (ticket_splited[0] == 'Fa'):\n # row.set_value('Ticket_Series', '')\n row.set_value('Ticket_Series', 'Orig')\n else:\n row.set_value('Ticket_Series', ticket_splited[0])\n elif ticket_splited[0] == 'STON/O':\n row.set_value('Ticket_Series', 'STON/O')\n else:\n if ''.join(ticket_splited[0:-1]) == 'A.2.':\n # row.set_value('Ticket_Series', 'A/4')\n row.set_value('Ticket_Series', 'A/5')\n elif ''.join(ticket_splited[0:-1]) == 'SC/AHBasle':\n # row.set_value('Ticket_Series', 'SC/AH')\n row.set_value('Ticket_Series', 'CA')\n else:\n row.set_value('Ticket_Series', ''.join(ticket_splited[0:-1]))\n\n return row\n\n\n\n\n" }, { "alpha_fraction": 0.5130871534347534, "alphanum_fraction": 0.5198996067047119, "avg_line_length": 57.125, "blob_id": "810c1c70451fd45417665437933ef9e208a046c9", "content_id": "5fa4d19b45beb42751331335a578552ca2b8a28d", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2789, "license_type": "permissive", "max_line_length": 134, "num_lines": 48, "path": "/Xgboost_tuning_functions/modelfit.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def modelfit(alg, dtrain, predictors, target, xgb, useTrainCV=True, cv_folds=5, early_stopping_rounds=50,printFeatureImportance=True):\n import numpy as np\n import pandas as pd\n\n from sklearn.model_selection import cross_val_score\n from sklearn import metrics\n import matplotlib.pylab as plt\n\n from matplotlib.pylab import rcParams\n rcParams['figure.figsize'] = 12, 4\n\n if useTrainCV:\n xgb_param = alg.get_xgb_params()\n xgtrain = xgb.DMatrix(dtrain[predictors].values, label=dtrain[target].values)\n cvresult = xgb.cv(xgb_param, xgtrain, num_boost_round=alg.get_params()['n_estimators'], nfold=cv_folds,\n metrics='auc', early_stopping_rounds=early_stopping_rounds) #, show_progress=False)\n alg.set_params(n_estimators=cvresult.shape[0])\n\n # Fit the algorithm on the data\n alg.fit(dtrain[predictors], dtrain[target], eval_metric='auc')\n\n # Predict training set:\n dtrain_predictions = alg.predict(dtrain[predictors])\n dtrain_predprob = alg.predict_proba(dtrain[predictors])[:, 1]\n\n # Print model report:\n print(\"\\nModel Report\")\n print(\"Accuracy : %.4g\" % metrics.accuracy_score(dtrain[target].values, dtrain_predictions))\n print(\"AUC Score (Train): %f\" % metrics.roc_auc_score(dtrain[target], dtrain_predprob))\n\n if useTrainCV:\n print(\"Average CV Score (Train) : Mean - %.7g \| Std - %.7g \| Min - %.7g \| Max - %.7g\" % (np.mean(cvresult['train-auc-mean']),\n np.mean(cvresult['train-auc-std']),\n np.min(cvresult['train-auc-mean']),\n np.max(cvresult['train-auc-mean'])))\n print(\"Average CV Score (Train) : Mean - %.7g \| Std - %.7g \| Min - %.7g \| Max - %.7g\" % (np.mean(cvresult['test-auc-mean']),\n np.mean(cvresult['test-auc-std']),\n np.min(cvresult['test-auc-mean']),\n np.max(cvresult['test-auc-mean'])))\n\n if printFeatureImportance:\n # Relative feature importance\n feat_imp = pd.Series(alg.get_booster().get_fscore()).sort_values(ascending=False) / \\\n (pd.Series(alg.get_booster().get_fscore()).sum())\n feat_imp.plot(kind='bar', title='Feature Importances')\n plt.ylabel('Feature Importance Score')\n plt.xticks(rotation=30)\n plt.show()" }, { "alpha_fraction": 0.5563139915466309, "alphanum_fraction": 0.5753291249275208, "avg_line_length": 52.94736862182617, "blob_id": "40f98d596090326c9f72f46494398d581f9ef75e", "content_id": "984bcb3e4501ad40af8ec5f94aaad2286813b904", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2051, "license_type": "permissive", "max_line_length": 102, "num_lines": 38, "path": "/Filling missing data functions/class1_passengers_stat.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def class1_passengers_stat (df_X, print_stat=False):\n import numpy as np\n import pandas as pd\n\n # Stat for 1st class passengers embarked at S(Southampton) allocation\n df_X_1st_S = df_X.copy()[(df_X['Embarked']=='S') &\n (df_X['Pclass']==1) &\n ( pd.isnull(df_X['Cabin'])==False)]\n df_X_1st_S_fare_stat = df_X_1st_S.groupby('Cabin_deck_level').agg(['count','mean',np.std])\n df_X_1st_S_fare_stat = df_X_1st_S_fare_stat.drop(8, axis=0)\n df_X_1st_S_fare_stat = df_X_1st_S_fare_stat.loc[:,'Fare']\n if print_stat:\n print('----- 1st class passengers embarked at S(Southampton) stat')\n print(df_X_1st_S_fare_stat)\n\n # Stat for 1st class passengers embarked at C(Cherbourg) allocation\n df_X_1st_C = df_X.copy()[(df_X['Embarked']=='C') &\n (df_X['Pclass']==1) &\n ( pd.isnull(df_X['Cabin'])==False) ]\n df_X_1st_C_fare_stat = df_X_1st_C.groupby('Cabin_deck_level').agg(['count','mean',np.std])\n df_X_1st_C_fare_stat = df_X_1st_C_fare_stat.loc[:,'Fare']\n if print_stat:\n print('----- 1st class passengers embarked at C(Cherbourg) stat')\n print(df_X_1st_C_fare_stat)\n\n # Stat for 1st class passengers not embarked at C(Cherbourg) or at S(Southampton) allocation\n df_X_1st_notSC = df_X.copy()[(df_X['Pclass']==1) &\n ( pd.isnull(df_X['Cabin'])==False) ]\n df_X_1st_notSC_fare_stat = df_X_1st_notSC.groupby('Cabin_deck_level').agg(['count','mean',np.std])\n df_X_1st_notSC_fare_stat = df_X_1st_notSC_fare_stat.loc[:,'Fare']\n df_X_1st_notSC_fare_stat = df_X_1st_notSC_fare_stat.drop(8, axis=0)\n # There are no passengers in this group, so no estimation for this group is planned\n if print_stat:\n print('----- 1st class passengers NOT embarked at S(Southampton) or C(Cherbourg) stat')\n print('')\n print('NA')\n\n return [{'S':df_X_1st_S, 'C':df_X_1st_C} , {'S':df_X_1st_S_fare_stat, 'C':df_X_1st_C_fare_stat}]\n\n" }, { "alpha_fraction": 0.5, "alphanum_fraction": 0.5418719053268433, "avg_line_length": 32.91666793823242, "blob_id": "87132fa2f48091462be66032e07925719abc6411", "content_id": "021b66fe4edc5a2715ffa74e9cc2fe856a94fc7e", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 406, "license_type": "permissive", "max_line_length": 86, "num_lines": 12, "path": "/Filling missing data functions/split_name.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def split_name(row):\n name_list1 = row['Name'].split(', ')\n row['Name_last'] = name_list1[0]\n\n name_list2 = name_list1[1].split('. ')\n row['Name_title'] = name_list2[0]\n\n name_list3 = name_list2[1].split(' ')\n row['Name_first'] = name_list3[0].replace(\"(\", \"\")\n if len(name_list3)>1:\n row['Name_other'] = ' '.join(name_list3[1:]).replace(\"(\", \"\").replace(\")\", \"\")\n return row" }, { "alpha_fraction": 0.6002766489982605, "alphanum_fraction": 0.6071922779083252, "avg_line_length": 47.266666412353516, "blob_id": "0b93d9bea976409c747df364b1cc743b1e932d26", "content_id": "7d8d58d41cd6f8d5a3eb7e2a96077398acfc4998", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 723, "license_type": "permissive", "max_line_length": 122, "num_lines": 15, "path": "/Filling missing data functions/age_correction_assign_mean_by_title.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def age_correction_assign_mean_by_title(df_X, titles_stat, print_satat=False):\n import numpy as np\n import pandas as pd\n (train_df_descripion_by_title,\n titles_common_list_age_distr,\n titles_common_list_age_distr_male) = titles_stat\n\n passengers_age_NA = df_X.loc[pd.isnull(df_X.loc[:,'Age'])].index.tolist()\n for ind in passengers_age_NA:\n # Assign age based on weighted local and global passenger age\n df_X.loc[ind, 'Age'] = round((train_df_descripion_by_title.loc[df_X.loc[ind,'Name_title'], 'mean'].tolist()[0] + \\\n df_X.loc[range(ind-3, ind+3),'Age'].mean())/2, 2)\n if print_satat:\n print(df_X.loc[ind, 'Age'])\n return df_X" }, { "alpha_fraction": 0.5971564054489136, "alphanum_fraction": 0.5985105037689209, "avg_line_length": 60.41666793823242, "blob_id": "f1c4bbbf758a0733562992505ade8d1b08ff683e", "content_id": "4c49601ad1d7b8b777ade9234562f0515f8d53ae", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1477, "license_type": "permissive", "max_line_length": 122, "num_lines": 24, "path": "/Filling missing data functions/cabin_check_by_ticket_No.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def cabin_check_by_ticket_No(df_X):\n import pandas as pd\n\n # Creating a data base of tickets with known cabin numbers\n ticket_w_cabin = df_X.copy().loc[pd.notnull(df_X['Cabin']), ['Ticket','Cabin']]\n df_ticket_cabin = pd.DataFrame(columns=['Cabin'])\n for ticket_No in ticket_w_cabin['Ticket']:\n cabins_by_ticket = ticket_w_cabin.loc[ticket_w_cabin['Ticket']==ticket_No,'Cabin'].unique().tolist()\n df_ticket_cabin.loc[ticket_No,'Cabin'] = cabins_by_ticket\n\n # Assigning cabin numbers to passengers holding tickets from the ticket_w_cabin data base\n for PassengerID in df_X.index:\n if pd.isnull(df_X.loc[PassengerID, 'Cabin']):\n if df_X.loc[PassengerID, 'Ticket'] in df_ticket_cabin.index:\n if len(df_ticket_cabin.loc[ df_X.loc[PassengerID, 'Ticket'], 'Cabin' ])==1:\n df_X.set_value(PassengerID, 'Cabin', df_ticket_cabin.loc[df_X.loc[PassengerID, 'Ticket'], 'Cabin'][0])\n else:\n # combining cabins in one unit\n new_cabin_No =' '.join( df_ticket_cabin.loc[df_X.loc[PassengerID, 'Ticket'], 'Cabin'])\n df_X.set_value(PassengerID, 'Cabin',new_cabin_No)\n # updating cabin numbers with the same tickets\n for cabin_temp in df_ticket_cabin.loc[df_X.loc[PassengerID, 'Ticket'], 'Cabin']:\n df_X.loc[df_X['Cabin']==cabin_temp, 'Cabin'] = new_cabin_No\n return df_X\n\n\n\n" }, { "alpha_fraction": 0.6363053321838379, "alphanum_fraction": 0.6459268927574158, "avg_line_length": 40.02631759643555, "blob_id": "1a151fb8ea2c2a30e88a69df609e995646194c1d", "content_id": "18d891b8aebffa3abfd39c474bb47d0db192cedf", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1559, "license_type": "permissive", "max_line_length": 154, "num_lines": 38, "path": "/GBT_tuning_functions/modelfit.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "def modelfit(alg, dtrain, predictors, performCV=True, printFeatureImportance=True, cv_folds=5):\n import numpy as np\n import pandas as pd\n\n from sklearn.model_selection import cross_val_score\n from sklearn import metrics\n import matplotlib.pylab as plt\n\n from matplotlib.pylab import rcParams\n rcParams['figure.figsize'] = 12, 4\n\n # Fit the algorithm on the data\n alg.fit(dtrain[predictors], dtrain['Survived'])\n\n # Predict training set:\n dtrain_predictions = alg.predict(dtrain[predictors])\n dtrain_predprob = alg.predict_proba(dtrain[predictors])[:, 1]\n\n if performCV:\n cv_score = cross_val_score(alg, dtrain[predictors], dtrain['Survived'], cv=cv_folds,\n scoring='roc_auc')\n # Print model report:\n print(\"\\nModel Report\")\n print(\"Accuracy : %.4g\" % metrics.accuracy_score(dtrain['Survived'].values, dtrain_predictions))\n print(\"AUC Score (Train): %f\" % metrics.roc_auc_score(dtrain['Survived'], dtrain_predprob))\n\n\n if performCV:\n print(\"CV Score : Mean - %.7g \| Std - %.7g \| Min - %.7g \| Max - %.7g\" % (np.mean(cv_score), np.std(cv_score), np.min(cv_score), np.max(cv_score)))\n\n # Print Feature Importance:\n if printFeatureImportance:\n plt.figure(figsize=(12, 8))\n feat_imp = pd.Series(alg.feature_importances_, predictors).sort_values(ascending=False)\n feat_imp.plot(kind='bar', title='Feature Importance')\n plt.ylabel('Feature Importance Score')\n plt.xticks(rotation=30)\n plt.show()\n" }, { "alpha_fraction": 0.549892008304596, "alphanum_fraction": 0.5686824917793274, "avg_line_length": 38.5470085144043, "blob_id": "d3213e54a31a2fdfbabedfb49ed9e9c3dea27fb0", "content_id": "1fdeb4bd2c8e893e67132578dffef729888eaf93", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4630, "license_type": "permissive", "max_line_length": 120, "num_lines": 117, "path": "/main_3_Ensemble_GBT_MLP_LogR.py", "repo_name": "alexsmartens/Kaggle_Titanic", "src_encoding": "UTF-8", "text": "import os\nimport sys\n\nimport numpy as np\nimport pandas as pd\nfrom sklearn.ensemble import GradientBoostingClassifier\nfrom sklearn.neural_network import MLPClassifier\nfrom sklearn.linear_model import LogisticRegression\nfrom sklearn.model_selection import GridSearchCV\nfrom imblearn.over_sampling import SMOTE\nfrom imblearn.under_sampling import RandomUnderSampler\nfrom sklearn.ensemble import VotingClassifier\nfrom sklearn.model_selection import cross_val_score\n\nlib_path = os.path.abspath(os.path.join('Ml models'))\nsys.path.append(lib_path)\nfrom features_processing import features_processing\nfrom grid_search_function import grid_search_function\n\n\n\nif __name__ == '__main__':\n\n train_original = pd.read_csv('Data/titanic_train_READY.csv')\n train_original.set_index('PassengerId',inplace=True)\n\n train = train_original.copy()\n target = 'Survived'\n [scaler, train] = features_processing(train, target, normalization=True)\n # Choose all predictors except target\n predictors = [x for x in train.columns if x not in [target]]\n\n # Oversampling with SMOTE\n # X_res, y_res = SMOTE(kind='regular').fit_sample(train[predictors], train[target])\n #\n # train_res = pd.DataFrame(X_res, columns=train[predictors].columns)\n # train_res.loc[:,'Survived'] = y_res\n # train = train_res\n\n\n # SMOTE\n clf1 = GradientBoostingClassifier(learning_rate=0.1,\n min_samples_leaf=4,\n random_state=10,\n n_estimators=50,\n max_depth=12,\n min_samples_split=146,\n max_features=5,\n subsample=0.7)\n # NO SMOTE (not tested with SMOTE)\n clf2 = MLPClassifier(alpha=1.7,\n random_state=10,\n activation='relu',\n solver='lbfgs',\n hidden_layer_sizes=[2, 11],\n max_iter=500)\n # NO SMOTE (better without SMOTE, real score:0.76 vs 0.73)\n clf3 = LogisticRegression(random_state=10,\n max_iter=500,\n solver='saga',\n C=0.5,\n penalty='l1'\n )\n eclf = VotingClassifier(estimators=[('GBT', clf1), ('MLP', clf2), ('LogR', clf3)], voting='soft', weights=[1, 1, 1])\n # eclf = VotingClassifier(estimators=[('GBT', clf1), ('MLP', clf2), ('LogR', clf3)], voting='hard')\n\n for clf, label in zip([clf1, clf2, clf3, eclf],\n ['Gradient boosting', 'Neural Network', 'Logistic Regression', 'Ensemble']):\n scores = cross_val_score(clf,train[predictors], train[target], cv=5, scoring='accuracy')\n print(\"Accuracy: %0.2f (+/- %0.2f) [%s]\" % (scores.mean(), scores.std(), label))\n\n param_test1 = {'lr__C': [1.0, 100.0],\n 'rf__n_estimators': [20, 200], }\n gsearch1 = GridSearchCV(estimator = eclf,\n param_grid = param_test1,\n scoring='roc_auc',\n n_jobs=-1,\n iid=False,\n cv=5)\n # gsearch1.fit(train[predictors], train[target])\n # clf = gsearch1\n\n #\n # gsearch_chosen = eclf\n # print(cross_val_score(eclf, train[predictors], train[target], cv=3))\n # gsearch_chosen.fit(train[predictors], train[target])\n\n # # Print results\n # print(\"Best parameters set found on development set:\")\n # print(clf.best_params_)\n #\n # print(\"Grid scores on development set:\")\n # means = clf.cv_results_['mean_test_score']\n # stds = clf.cv_results_['std_test_score']\n #\n # for mean, std, params in zip(means, stds, clf.cv_results_['params']):\n # print(\"%0.3f (+/-%0.03f) for %r\"\n # % (mean, std * 2, params))\n\n\n\n\n\n # Predicting result for submission\n submitting = False\n if submitting:\n\n # Lading test data\n test = pd.read_csv('Data/titanic_test_READY.csv')\n test.set_index('PassengerId',inplace=True)\n [scaler, test_X] = features_processing(test, target, normalization=True, training=False, scaler=scaler)\n\n y_predicted = gsearch_chosen.predict(test_X)\n y_predicted_df = pd.DataFrame(y_predicted, columns={'Survived'}, index=test_X.index)\n # y_predicted_df.sort_index(inplace=True)\n\n y_predicted_df.to_csv('Kaggle submissions/titanic_submission2-LogR-2_not sorted.csv', sep=',', encoding='utf-8')\n\n\n\n" } ]	23
miicck/qet	https://github.com/miicck/qet	81649a0793ae18a36d999370c4486633dd1acae9	61b2b2cd790845ae2abc28c297f2d056384fda24	2cc76912314ffc0337457b1c73c3b566bbc9eecb	refs/heads/master	2022-06-21T12:20:09.324429	2022-06-14T13:14:28	2022-06-14T13:14:28	247,107,924	0	1	null	null	null	null	null	[ { "alpha_fraction": 0.7246963381767273, "alphanum_fraction": 0.7327935099601746, "avg_line_length": 40.16666793823242, "blob_id": "8aad226a6ba8bdc2a9139af399eb737f40b51067", "content_id": "27f41921e278255305444d36a875a554d78eaaf2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 247, "license_type": "no_license", "max_line_length": 78, "num_lines": 6, "path": "/scripts/tidy_tc_old.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.calculations import tidy_tc_calculations\nimport sys\nif len(sys.argv) < 2:\n print(\"Please enter the age (in days) that a file must be to be removed.\")\n quit()\ntidy_tc_calculations(older_than=int(sys.argv[1]), remove_incomplete=True)\n" }, { "alpha_fraction": 0.5698422789573669, "alphanum_fraction": 0.5788708925247192, "avg_line_length": 30.907285690307617, "blob_id": "98559dc97d9766b5301b3e3e6315d88954fff4ef", "content_id": "dfe7dd4ce3b38bf06044a0514bbf054e0ac1412b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 9636, "license_type": "no_license", "max_line_length": 100, "num_lines": 302, "path": "/alchemy/optimize.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.params import parameters\nfrom qet.logs import log\nfrom datetime import datetime\nimport os, random\n\n# Generate a random valid mutation of the given structure\ndef randomly_mutate(structure, mutations, check_valid):\n\n # Nice header to mutation\n line = \"{:^64}\".format(\"Mutating \"+structure[\"stochiometry_string\"])\n div = \"\".join([\"-\" for c in line])\n log(\"\\n\"+div, \"alchemy.log\")\n log(line, \"alchemy.log\")\n log(div, \"alchemy.log\")\n\n # Mutate the structure until a valid\n # mutation is found\n mutation = None\n while True:\n\n mutation = mutations[random.randrange(len(mutations))](structure)\n\n # Mutations return None if there was no sensible\n # way to apply them\n if mutation is None:\n log(\" Mutation returned None, trying again...\", \"alchemy.log\")\n continue\n\n # Check validty of the mutation\n if not check_valid(mutation):\n log(\" Mutation invalid, trying again...\", \"alchemy.log\")\n continue\n\n # Mutation valid, return it\n return mutation\n\n raise Exception(\"Failed to generate a random mutation.\")\n\n# Evaluate the objective function on the given\n# structure, creating a directory for the\n# objective evaluation. Will check existing \n# directories to see if this objective has \n# already been evaluated.\ndef eval_objective(structure, objective, structure_compare):\n\n name = structure[\"stochiometry_string\"]\n version = 1\n log(\"Evaluating objective for {0}\".format(name), \"alchemy.log\")\n\n # Find previous versions\n for d in os.listdir(\".\"):\n if not os.path.isdir(d): continue\n if not d.startswith(name): continue\n version += 1\n\n # Parse the structure to see if it's\n # the same (according to structure_compare), \n # and we need not re-do the optimization\n lattice = []\n atoms = []\n with open(d+\"/objective.log\") as f:\n for line in f:\n splt = line.split()\n\n if splt[0] == \"lattice\": \n lattice.append([float(w) for w in splt[1:]])\n continue\n\n if splt[0] == \"atom\":\n atoms.append([splt[1], [float(w) for w in splt[2:]]])\n continue\n\n if splt[0] == \"objective\":\n obj = float(splt[1])\n continue\n\n if structure_compare(\n lattice, atoms, \n structure[\"lattice\"], structure[\"atoms\"]):\n\n # Structre is the same as previously evaluated\n log(\" From equivalent structure in \"+d, \"alchemy.log\")\n log(\" Objective = {0}\".format(obj), \"alchemy.log\")\n return obj\n \n # Count previous objective evaluations\n # so we know which evaluation this is\n objective_number = 1\n for d in os.listdir(\".\"):\n if not os.path.isdir(d): continue\n if not os.path.isfile(d+\"/objective.log\"): continue\n objective_number += 1\n\n # Create the directory to evaluate this\n # objective in\n obj_dir = \"{0}_v{1}\".format(name, version)\n log(\" From new directory \"+obj_dir, \"alchemy.log\")\n os.system(\"mkdir \"+obj_dir)\n os.chdir(obj_dir)\n\n # Try to calculate the objective\n # set to inf if failed\n try:\n # Evaluate and record the objective\n obj = objective(structure)\n\n except Exception as e:\n\n # Flag failed calculation, but don't stop\n log(\" Objective evaluation failed with below error\\n {0}\".format(e), \"alchemy.log\")\n obj = float(\"inf\")\n\n # Write the results of the objective eval\n with open(\"objective.log\",\"w\") as f:\n\n # Write the objective/evaluation number to file\n f.write(\"n {0}\\n\".format(objective_number))\n f.write(\"objective {0}\\n\".format(obj))\n\n # Note the structure, in case we arrive at the\n # same structure later\n for l in structure[\"lattice\"]:\n f.write(\"lattice {0} {1} {2}\\n\".format(l))\n for a in structure[\"atoms\"]:\n f.write(\"atom {0} {1} {2} {3}\\n\".format(a[0],a[1]))\n\n # Move back to previous directory\n os.chdir(\"..\")\n\n log(\" Objective = {0}\".format(obj), \"alchemy.log\")\n return obj\n\n# Performs an alchemical optimization starting with the given structure,\n# and applying the given mutations in order to minimize the given objective. \n# It will not consider structures for which check_valid(structure) is False\n# and will stop after max_iter mutations.\n#\n# For now, it works as follows:\n# 1. Randomly mutate structure\n# 2. Calculate the objective using the mutated structure\n# 3. Accept mutation if new objective is the lowest we've seen\n# 4. Repeat\n#\ndef optimize(\n start_structure, # Structure to begin from\n objective, # Objective function to minimize; called as objective(structure)\n mutations, # Allowed mutations of the structure (see alchemy.mutations)\n check_valid = lambda s : True, # Check if a given structure is allowable\n max_iter = 100, # Maximum optimization steps\n # Function that determines if two structures of the same stochiometry are simmilar enough\n # to not need recalculating, takes (lattice_1, atoms_1, lattice_2, atoms_2)\n structure_compare = lambda l1, a1, l2, a2 : False\n ):\n\n # Check arguments are sensible\n if not isinstance(start_structure, parameters):\n raise TypeError(\"The input structure should be a 'parameters' object!\")\n\n optimize_start_time = datetime.now()\n\n # Create the optimization directory\n opt_dir = \"alchemical_optimization\"\n n = 0\n while os.path.isdir(opt_dir):\n n += 1\n opt_dir = \"alchemical_optimization_{0}\".format(n)\n os.system(\"mkdir \"+opt_dir)\n\n # Set the opt_dir as our working directory\n os.chdir(opt_dir)\n log(\"Starting optimization...\", \"alchemy.log\")\n \n # Initilize the structure and the\n # value of the objective\n structure = start_structure\n last_obj = eval_objective(structure, objective, structure_compare)\n\n # Initilize the path\n path = [{\n \"structure\" : structure,\n \"objective\" : last_obj,\n \"proposal\" : False\n }]\n\n # Run optimization iterations\n iteration = 1\n while True:\n \n # Generate a new structure\n new_structure = randomly_mutate(structure, mutations, check_valid)\n new_obj = eval_objective(new_structure, objective, structure_compare)\n\n # Add it as a \"proposal\" point\n # along the path\n path.append({\n \"structure\" : new_structure,\n \"objective\" : new_obj,\n \"proposal\" : True\n })\n\n log(\"Old objective value: {0}\".format(last_obj), \"alchemy.log\")\n log(\"New objective value: {0}\".format(new_obj), \"alchemy.log\")\n\n if new_obj < last_obj:\n\n # Accept new structure\n structure = new_structure\n last_obj = new_obj\n log(\"Mutation accepted\", \"alchemy.log\")\n \n else:\n log(\"Mutation rejected\", \"alchemy.log\")\n\n # Record accepted (or reverted)\n # structure/objective\n path.append({\n \"structure\" : structure,\n \"objective\" : last_obj,\n \"proposal\" : False\n })\n\n iteration += 1\n if iteration > max_iter:\n log(\"\\nMax iter = {0} hit, stopping.\".format(max_iter), \"alchemy.log\")\n break\n\n # Output time taken\n optimize_end_time = datetime.now()\n fs = \"Optimization compete, total time {0}\"\n fs = fs.format(optimize_end_time - optimize_start_time)\n log(fs, \"alchemy.log\")\n\n return path\n\n# Plot information about an optimization\ndef plot():\n import matplotlib.pyplot as plt\n\n # Parse objective.log files\n data = []\n\n # Loop over objective.log files\n for d in os.listdir(\".\"):\n if not os.path.isdir(d): continue\n if not os.path.isfile(d+\"/objective.log\"): continue\n\n with open(d+\"/objective.log\") as f:\n for line in f:\n splt = line.split()\n\n # Parse structure number\n if splt[0] == \"n\":\n n = int(splt[1])\n continue\n \n # Parse objective function\n if splt[0] == \"objective\":\n obj = float(splt[1])\n continue\n\n # Get the Latex structure name from\n # the directory name\n name = \"\"\n splt = d.split(\"_\")\n for i in range(0, len(splt)-1, 2):\n name += splt[i]\n if int(splt[i+1]) > 1:\n name += \"$_{0}$\".format(\"{\"+splt[i+1]+\"}\")\n\n # Ignore structures that could not be calculated\n if obj == float(\"inf\"):\n continue\n\n data.append([n, obj, name])\n\n # Sort data by number and unzip into columns\n data.sort(key=lambda d:d[0])\n data = list(zip(data))\n \n p1 = plt.subplot(221)\n\n # Create some extra space at the\n # top of the plot\n max_y = max(data[1])\n min_y = min(data[1])\n dm = (max_y-min_y)/4.0\n max_y += 2dm\n p1.set_ylim([min_y, max_y])\n\n # Plot the objective function\n p1.plot(data[0], data[1], marker=\"+\")\n\n # Label the structures\n ap = { \"arrowstyle\" : \"->\" }\n for i, (x,y) in enumerate(zip(data[0], data[1])):\n p1.annotate(data[2][i], (x,y), xytext=(x,y+dm), arrowprops=ap, rotation=90)\n\n # Title the axes\n p1.set_ylabel(\"Objective function\")\n p1.set_xlabel(\"Structure number\")\n\n plt.show()\n" }, { "alpha_fraction": 0.644444465637207, "alphanum_fraction": 0.6666666865348816, "avg_line_length": 26, "blob_id": "8e93650083d70650b1568cfd8f7e4aa12c5179c1", "content_id": "df2845f0a178d16c32b141953b1928c7bd43f2c7", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 405, "license_type": "no_license", "max_line_length": 86, "num_lines": 15, "path": "/scripts/follow_phonon.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.params import parameters\nimport sys\n\ntry:\n param_file = sys.argv[1]\n modes_file = sys.argv[2]\n qpt = [float(x) for x in sys.argv[3:6]]\n output_file = sys.argv[6]\nexcept:\n print(\"Usage: python ~/../follow_phonon.py param.in matdyn.modes 0 0 0 param.out\")\n quit()\n\np = parameters(param_file)\nq = p.apply_phonon(qpt, 0, modes_file=modes_file, use_closest=True)\nq.save(output_file)\n" }, { "alpha_fraction": 0.44922876358032227, "alphanum_fraction": 0.4550049304962158, "avg_line_length": 33.00669479370117, "blob_id": "33e9d689d2d0915bc235192b4423ef963e36fc2f", "content_id": "8dae9d7d87f4875355bec1988678d8677b50e54d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 15235, "license_type": "no_license", "max_line_length": 84, "num_lines": 448, "path": "/parser.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.constants import EV_TO_RY, KBAR_AU3_TO_RY\nfrom qet.logs import log\nimport numpy as np\nimport os, math\n\n# Base class for output file types\nclass output_file:\n \n # Initialized with the filename to parse\n def __init__(self, filename):\n\n # Initialize dictionary of parsed things\n self.dict = {}\n self.filename = filename\n self.parse(filename)\n\n # Convert this object to a string\n def __str__(self):\n \n max_l = max([len(k) for k in self.dict])\n fs = \" {0:\" + str(max_l) + \"} : {1}\\n\"\n \n string = \"Output file values ({0}):\\n\".format(self.filename)\n for k in self.dict:\n \n # Custom formatting for atoms\n if k == \"relaxed atoms\":\n string += fs.format(k, len(self.dict[k]))\n afs = \" {0} {1} {2} {3}\\n\"\n for a in self.dict[k]:\n string += afs.format(a[0],a[1])\n continue\n\n # Custom formatting for lattice\n if k == \"relaxed lattice\":\n string += fs.format(k, \"(matrix)\")\n lfs = \" {0} {1} {2}\\n\"\n for l in self.dict[k]:\n string += lfs.format(l)\n continue\n\n # Custom formatting for DOS things\n if k.startswith(\"DOS\") or k.startswith(\"PDOS\"):\n dfs = \"length = {0}\"\n dfs = dfs.format(len(self.dict[k]))\n string += fs.format(k, dfs)\n continue\n\n string += fs.format(k, self.dict[k])\n\n return string.strip()\n\n def __getitem__(self, key):\n\n if not key in self.dict:\n # Raise error if key not found\n msg = \"Key {0} not found in output file.\"\n msg = msg.format(key)\n raise ValueError(msg)\n\n return self.dict[key]\n\n def __setitem__(self, key, value):\n self.dict[key] = value\n\n def __contains__(self, key):\n return key in self.dict\n\n # Parse things common to all scf type files\n def parse_scf_things(self, filename): \n \n # Parse scf file line by line\n with open(filename) as f:\n for line in f:\n\n # Parse the total energy\n if \"total energy\" in line and \"!\" in line:\n tot_e = float(line.split(\"=\")[-1].replace(\"Ry\",\"\"))\n self[\"total energy\"] = tot_e\n continue\n\n # Parse the fermi energy\n if \"Fermi energy is\" in line:\n fermi_e = float(line.split(\"is\")[-1].replace(\"ev\",\"\"))\n self[\"fermi energy\"] = EV_TO_RY * fermi_e\n continue\n\n # Parse the volume\n if \"unit-cell volume\" in line:\n vol = float(line.split(\"=\")[-1].split()[0])\n self[\"unit cell volume\"] = vol\n continue\n\n # Parse the number of atoms/cell\n if \"number of atoms/cell\" in line:\n self[\"atoms/cell\"] = int(line.split(\"=\")[-1])\n continue\n\n # Parse alat\n if \"lattice parameter (alat)\" in line:\n alat = float(line.split(\"=\")[-1].split(\"a.u\")[0])\n self[\"alat\"] = alat\n continue\n\n # Parse number of symm ops\n if \"Sym. Ops.\" in line:\n self[\"symmetry operations\"] = int(line.split()[0])\n continue\n\n # Parse CPU time/WALL time\n if \"PWSCF\" in line and \"CPU\" in line:\n cpu_time = line.split()[2]\n wall_time = line.split()[4]\n self[\"cpu time\"] = cpu_time\n self[\"wall time\"] = wall_time\n continue\n\n # Parse the pressure\n if \"P=\" in line:\n self[\"pressure\"] = float(line.split(\"P=\")[-1])\n continue\n\n # Compute derived quantities\n\n calc_ent = \"pressure\" in self.dict\n calc_ent = calc_ent and \"unit cell volume\" in self.dict\n calc_ent = calc_ent and \"total energy\" in self.dict\n\n if calc_ent:\n \n # Calculate the enthalpy\n pv = self[\"unit cell volume\"] * self[\"pressure\"] * KBAR_AU3_TO_RY\n self[\"pv\"] = pv\n self[\"enthalpy\"] = self[\"total energy\"] + pv \n\n\n if \"atoms/cell\" in self.dict:\n \n # Work out total energy per atom\n if \"total energy\" in self.dict:\n self[\"energy/atom\"] = self[\"total energy\"]/self[\"atoms/cell\"]\n\n # Work out volume per atom\n if \"unit cell volume\" in self.dict:\n self[\"volume/atom\"] = self[\"unit cell volume\"]/self[\"atoms/cell\"]\n\n # Work out enthalpy per atom\n if \"enthalpy\" in self.dict:\n self[\"enthalpy/atom\"] = self[\"enthalpy\"]/self[\"atoms/cell\"]\n\nclass scf_out(output_file):\n\n # Parse an scf.out file\n def parse(self, filename):\n self.parse_scf_things(filename)\n\nclass relax_out(output_file):\n \n # Parse a relax.out file\n def parse(self, filename):\n self.parse_scf_things(filename)\n\n with open(filename) as f:\n lines = f.read().split(\"\\n\")\n for i, line in enumerate(lines):\n \n # Parsed the relaxed cell vectors\n if \"CELL_PARAMETERS\" in line:\n lat = []\n for j in range(i+1,i+4):\n vec = [float(w) for w in lines[j].split()]\n lat.append(vec)\n self[\"relaxed lattice\"] = lat\n\n # Parse the relaxed atom positions\n if \"ATOMIC_POSITIONS\" in line:\n atoms = []\n for j in range(i+1, i+1+self[\"atoms/cell\"]):\n name = lines[j].split()[0]\n vec = [float(w) for w in lines[j].split()[1:4]]\n atoms.append([name, vec])\n self[\"relaxed atoms\"] = atoms\n\nclass phonon_grid_out(output_file):\n \n def parse(self, filename):\n pass\n\nclass extract_bands_out(output_file):\n \n def parse(self, filename):\n\n dir = os.path.dirname(filename)\n bands = []\n next = []\n with open(dir+\"/bands.out\") as f:\n\n for line in f:\n if \"nbnd\" in line: continue # Skip first line\n\n splt = line.split()\n\n if len(splt) == 3:\n # This line is a k-point\n if len(next) > 0:\n bands.append(next)\n next = []\n continue\n\n next.extend(float(w) for w in splt)\n\n self[\"bands\"] = bands\n\nclass dos_out(output_file):\n \n def parse(self, filename):\n\n # Get the directory of this calculation\n dos_dir = os.path.dirname(filename)\n dos_file = dos_dir + \"/pwscf.dos\" \n\n # Throw an error if the .dos file doesn't exist\n if not os.path.isfile(dos_file):\n msg = \"Could not find the DOS file {0}\"\n msg = msg.format(dos_file)\n log(msg)\n raise RuntimeError(msg)\n \n # Parse the .dos file\n energies = []\n densities = []\n first_line = True\n with open(dos_file) as f:\n for line in f:\n\n # Skip the first line\n if first_line:\n fermi_energy = float(line.split()[-2])\n fermi_energy = EV_TO_RY \n first_line = False\n continue\n\n # Parse the energy and density\n e, d = [float(w) for w in line.split()[0:2]]\n energies.append(e EV_TO_RY)\n densities.append(d)\n\n # Store the results\n self[\"DOS energies\"] = energies\n self[\"DOS (energy)\"] = densities\n self[\"fermi energy\"] = fermi_energy\n\n # Linearly interpolate to get the DOS at\n # the fermi level\n for i in range(len(energies)):\n if energies[i] > fermi_energy:\n r = (energies[i] - fermi_energy)/(energies[i] - energies[i-1])\n self[\"DOS (E_F)\"] = densities[i](1-r) + densities[i-1]r\n break\n\nclass proj_dos_out(output_file):\n \n def parse(self, filename):\n\n # Get the directory of this calculation\n dos_dir = os.path.dirname(filename)\n\n # Attempt to find either an scf, or relax calculation\n # to parse the fermi energy from\n if os.path.isfile(dos_dir+\"/scf.out\"):\n scf = scf_out(dos_dir+\"/scf.out\")\n self[\"fermi energy\"] = scf[\"fermi energy\"]\n\n elif os.path.isfile(dos_dir+\"/relax.out\"):\n rel = relax_out(dos_dir+\"/relax.out\")\n self[\"fermi energy\"] = rel[\"fermi energy\"]\n\n # Parse all of the pdos files\n self[\"PDOS (energy)\"] = {}\n self[\"PDOS energies\"] = {}\n self[\"PDOS wfc names\"] = {}\n self[\"PDOS atom names\"] = {}\n self[\"PDOS (fermi energy)\"] = {}\n\n for f in os.listdir(dos_dir):\n if not f.startswith(\"pwscf.pdos_atm\"): continue\n\n # Parse projection details from filename\n atom_num = int(f.split(\"#\")[1].split(\"(\")[0])\n atom_name = f.split(\"(\")[1].split(\")\")[0]\n wfc_num = int(f.split(\"#\")[2].split(\"(\")[0])\n wfc_name = f.split(\"(\")[2].split(\")\")[0]\n\n energies = []\n ldos = []\n\n # Parse the actual PDOS from the file\n with open(dos_dir + \"/\" + f) as pdos:\n first_line = True\n for line in pdos:\n \n # Skip the first line\n if first_line:\n first_line = False\n continue\n\n e,l = [float(w) for w in line.split()[0:2]]\n energies.append(e * EV_TO_RY)\n ldos.append(l)\n\n # Initialize dictionaries\n if not atom_num in self[\"PDOS energies\"]:\n self[\"PDOS energies\"][atom_num] = {}\n self[\"PDOS (energy)\"][atom_num] = {}\n self[\"PDOS wfc names\"][atom_num] = {}\n self[\"PDOS atom names\"][atom_num] = {}\n self[\"PDOS (fermi energy)\"][atom_num] = {}\n\n # Fill dictionaries\n self[\"PDOS energies\"][atom_num][wfc_num] = energies\n self[\"PDOS (energy)\"][atom_num][wfc_num] = ldos\n self[\"PDOS wfc names\"][atom_num][wfc_num] = wfc_name\n self[\"PDOS atom names\"][atom_num][wfc_num] = atom_name\n\n # Calculate the DOS at the fermi level for\n # each atom and wavefunction\n if \"fermi energy\" in self.dict:\n fermi_e = self[\"fermi energy\"]\n for i, e in enumerate(energies):\n if e > fermi_e:\n # Linearly interpolate to get the dos \n # at the fermi energy\n k = \"PDOS (fermi energy)\"\n f = (fermi_e - energies[i-1])/(e - energies[i-1])\n d = ldos[i] * f + ldos[i-1] * (1-f)\n self[k][atom_num][wfc_num] = d\n break\n\nclass a2f_dos_out(output_file):\n\n def a2f_float(self, word):\n f = float(word)\n if math.isnan(f):\n msg = \"NaN appeared in \"+self.filename+\"!\" \n log(msg)\n print(msg)\n f = 0.0\n return f\n\n def parse(self, filename):\n\n data = []\n with open(filename) as f:\n for line in f:\n \n # Deal with the lambda line\n if \"lambda\" in line:\n self[\"lambda\"] = float(line.split()[2])\n continue\n\n # Skip non-numerical lines\n if not \".\" in line:\n continue\n\n try:\n # Sometimes q.e forgets to write the E for\n # large exponents\n words = line.split()\n for i in range(0, len(words)):\n if \"E\" in words[i]: continue\n if \"-\" in words[i][1:]:\n words[i] = \"E\".join(words[i].split(\"-\"))\n if \"+\" in words[i][1:]:\n words[i] = \"E\".join(words[i].split(\"+\"))\n data.append([self.a2f_float(w) for w in words])\n except Exception as e:\n print(\"could not parse a2F line: \"+line)\n print(\"error: \"+str(e))\n continue\n \n # Transpose the data and store\n data = list(zip(data))\n self[\"frequencies\"] = data[0]\n\n # Calculate a2f from sum of individual modes, because the\n # total in the output file propagates NaN's, which we set to\n # 0 (with a warning) here\n self[\"a2f\"] = sum(np.array(data[i]) for i in range(2, len(data)))\n for i in range(2, len(data)):\n self[\"a2f_mode_{0}\".format(i-1)] = data[i]\n\nclass phonon_interp_dos_out(output_file):\n\n def parse(self, filename):\n \n data = []\n with open(filename) as f:\n for line in f:\n if line.strip().startswith(\"#\"): continue\n data.append([float(w) for w in line.split()])\n\n data = list(zip(data))\n\n self[\"frequencies\"] = data[0]\n self[\"dos\"] = data[1]\n for i in range(2, len(data)):\n self[\"pdos_{0}\".format(i-1)] = data[2]\n\n\nclass phonon_interp_modes(output_file):\n \n def parse(self, filename):\n\n freqs = []\n evecs = []\n qpts = []\n\n with open(filename) as f:\n for line in f:\n line = line.strip()\n\n if line.startswith(\"(\"):\n # parse eigenvector for this atom\n line = line.replace(\"(\", \"\").replace(\")\", \"\")\n x = [float(w) for i, w in enumerate(line.split()) if i % 2 == 0]\n evecs[len(freqs)-1].append(x)\n continue\n\n if line.startswith(\"freq\"):\n # parse mode frequency in cm^-1\n w = float(line.split(\"=\")[-1].split(\"[\")[0])\n freqs.append(w)\n\n # Excend eigenvector array to accomodate\n # eigenvector that we're expecting\n evecs.append([])\n continue\n\n if line.startswith(\"q =\"):\n # Parse q-point coordinates\n q = [float(x) for x in line.replace(\"q =\", \"\").split()]\n qpts.append(q)\n continue\n\n # Record the info\n self[\"q-points\"] = qpts\n self[\"frequencies\"] = freqs\n self[\"eigenvectors\"] = evecs\n" }, { "alpha_fraction": 0.5752649903297424, "alphanum_fraction": 0.5823321342468262, "avg_line_length": 22.19672203063965, "blob_id": "20e52594f57eee39592b835a9b381acf47fe38fa", "content_id": "b4ba2549491785adc11b6f0e1e0ab773227fc0cf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1415, "license_type": "no_license", "max_line_length": 65, "num_lines": 61, "path": "/scripts/tc_plots.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "import multiprocessing as mp\nfrom qet.plots import plot_tc_vs_smearing\nfrom qet.plots import plot_phonon_mode_atoms\nimport os\nimport time\nimport sys\n\ndir_data = []\nfor f in os.listdir(\".\"):\n if not os.path.isdir(f): continue\n dir_data.append(f)\n\nstarting_from = None\nfor a in sys.argv[1:]:\n if a.startswith(\"starting_from=\"):\n starting_from = a.split(\"=\")[-1]\n sys.argv.remove(a)\n\nselected_dirs = []\nfor f in sys.argv[1:]:\n found = None\n for d in dir_data:\n if d.startswith(f):\n found = d\n break\n if found is None:\n print(f+\" not found!\")\n else:\n print(f+\" -> \"+found)\n selected_dirs.append(found)\n\nif len(selected_dirs) > 0: dir_data = selected_dirs\n\ndir_data.sort()\nif not starting_from is None:\n dir_data = dir_data[dir_data.index(starting_from):]\n\ncpus = 2\nrunning = []\nfor f in dir_data:\n\n while len(running) >= cpus:\n\n for p in running:\n if not p.is_alive():\n running.remove(p)\n\n time.sleep(0.2)\n\n p = mp.Process(target=plot_tc_vs_smearing, args=([f],))\n p.start()\n running.append(p)\n\n for k in os.listdir(f):\n if not k.startswith(\"kpq\"): continue\n m = f+\"/\"+k+\"/ph_interp.modes\"\n if not os.path.isfile(m): continue\n p2 = mp.Process(target=plot_phonon_mode_atoms, args=(m,))\n p2.start()\n running.append(p2)\n break\n" }, { "alpha_fraction": 0.6969696879386902, "alphanum_fraction": 0.7121211886405945, "avg_line_length": 32, "blob_id": "7a48b978deb2fb7eb6db1c9609440527e4ff2d10", "content_id": "29fba66e6e9f3108ff040423f1df1bca553f96bb", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 198, "license_type": "no_license", "max_line_length": 71, "num_lines": 6, "path": "/scripts/build_supercell.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.params import parameters\nimport sys\n\np = parameters(sys.argv[1])\ns = p.generate_commensurate_supercell([float(x) for x in sys.argv[2:]])\ns.save(sys.argv[1].replace(\".in\", \".supercell.in\"))\n" }, { "alpha_fraction": 0.5416465401649475, "alphanum_fraction": 0.5507235527038574, "avg_line_length": 36.179805755615234, "blob_id": "efb25b627656a45170d8de19312aa6643479d97c", "content_id": "f4b8de7747a1212ec300fd9b28ca133980b928b2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 26881, "license_type": "no_license", "max_line_length": 105, "num_lines": 723, "path": "/alchemy/network.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.params import parameters\nfrom qet.logs import log, logging_enabled\nfrom time import sleep\nfrom filelock import FileLock, Timeout\nimport numpy as np\nimport os, random, math\n\n# A vertex of an alch_network, designed to deal with multiple processes\n# trying to access / modify the vertex\nclass alch_vertex:\n\n # Load a vertex from a directory\n def __init__(self, vertex_dir):\n\n if not os.path.isdir(vertex_dir):\n fs = \"Tried to load a vertex from the non-existant directory: {0}\"\n raise Exception(fs.format(vertex_dir))\n\n # Record my vertex directory\n vertex_dir = os.path.abspath(vertex_dir)\n self.dir = vertex_dir\n self.name = self.dir.split(\"/\")[-1]\n self.locks = {}\n\n # Get a lock by name (creates it if it doesn't exist)\n def lock(self, name):\n if name in self.locks: return self.locks[name]\n lock = FileLock(self.dir+\"/\"+name)\n self.locks[name] = lock\n return lock\n\n # Convert to vertex\n def __str__(self):\n return \"alch_vertex at {0}\".format(self.dir)\n\n # Get the evaluated objectives in dictionary form\n def get_evaluated_objectives(self):\n\n with self.lock(\"obj_file_lock\"):\n ret = {}\n if os.path.isfile(self.dir+\"/objectives\"):\n with open(self.dir+\"/objectives\") as f:\n for line in f:\n splt = line.split(\":\")\n ret[splt[0]] = float(splt[1])\n return ret\n\n # Evaluate the given objective function\n # on the parameter set for this vertex\n def objective(self, objective):\n\n # Return stored objective value\n stored = self.get_evaluated_objectives()\n if objective.__name__ in stored: \n return stored[objective.__name__]\n\n # Attempt to evaluate the objective. \n #\n # If evaluataion fails (i.e the underlying objective\n # could not be evaluated), the objective is set to inf.\n #\n # If evaluation is already underway on another process (i.e we cannot \n # acquire objective_lock within some timeout), return inf this time,\n # but do not store inf for future retrieval.\n #\n try:\n with self.lock(\"objective_lock\").acquire(timeout=1.0):\n\n # Set the working directory to the vertex directory\n old_wd = os.getcwd()\n os.chdir(self.dir)\n\n try:\n # Attempt to evaluate the objective\n log(\"Evaluating objective in {0}\".format(self.name), \"alchemy.log\")\n obj = objective(self.params)\n\n # If the objective has length 2, we assume it has the form\n # [objective value, new structure]. If it has length 1 assume \n # it is of the form [objective value], but issue a warning,\n # as the function should probably have not returned a list if\n # there was only one thing to return. All other lengths are errors.\n if hasattr(obj, \"__len__\"):\n if len(obj) > 2: raise Exception(\"Objective returned too many results!\")\n elif len(obj) == 0: raise Exception(\"Objective returned too few results!\")\n elif len(obj) == 1:\n fs = \"objective assumed to be of the form [objective value] in {0}\"\n log(fs.format(self.name), \"alchemy.warnings\")\n obj = obj[0]\n else:\n fs = \"Objective returned [objective value, new structure] in {0}\"\n log(fs.format(self.name), \"alchemy.log\")\n self.params = obj[1]\n obj = obj[0]\n\n fs = \"evaluated objective in {2}\\n {0} = {1}\"\n log(fs.format(objective.__name__, obj, self.name), \"alchemy.log\")\n\n except Exception as e:\n # Failed to evaluate the objective, set it to inf\n fs = \"failed to evaluate the objective\\n {0} in {1}\"\n log(fs.format(objective.__name__, self.name), \"alchemy.log\")\n log(\"error: {0}\".format(e), \"alchemy.log\")\n obj = float(\"inf\")\n\n # Write the values of all the objectives to file\n with self.lock(\"obj_file_lock\"):\n stored = self.get_evaluated_objectives()\n stored[objective.__name__] = obj\n with open(\"objectives\", \"w\") as f:\n for o in stored:\n f.write(\"{0}:{1}\\n\".format(o, stored[o]))\n\n # Restore working directory\n os.chdir(old_wd)\n return obj\n\n except Timeout:\n fs = \"Evaluation already underway in {0}\".format(self.name)\n log(fs, \"alchemy.log\")\n return float(\"inf\")\n \n # Return my parameters, as recorded in the /parameters file\n @property\n def params(self):\n with self.lock(\"parameters_lock\"):\n filename = self.dir + \"/parameters\"\n if not os.path.isfile(filename):\n raise Exception(\"Parameters for vertex {0} not found!\".format(self.dir))\n return parameters(filename=filename)\n\n # Set my parameters (by saving them in the /parameters file)\n @params.setter\n def params(self, params):\n with self.lock(\"parameters_lock\"):\n filename = self.dir + \"/parameters\"\n params.save(filename)\n\n # The verticies that were mutated to\n # obtain this vertex\n @property\n def parents(self):\n with self.lock(\"parents_lock\"):\n par = []\n if not os.path.isfile(self.dir + \"/parents\"): return par\n\n # Parse parents file for parent, mutation pairs\n with open(self.dir + \"/parents\") as f:\n for line in f:\n\n # Ignore blank lines\n line = line.strip()\n if len(line) == 0: continue\n \n # Get [parent, mutation]\n splt = line.split()\n if len(splt) == 1: splt.append(\"none\")\n\n # Get list of unique parent/mutation pairs\n if not splt in par: par.append(splt)\n\n return par\n\n # Add a parent vertex\n def add_parent(self, parent, mutation=None):\n with self.lock(\"parents_lock\"):\n\n # Construct new list of parents, with [parent, muatation] added\n pts = self.parents\n new_par = [parent.dir.split(\"/\")[-1], \"none\" if mutation is None else mutation]\n if new_par in pts: return # Already in parents list => don't need to add\n pts.append(new_par)\n\n # Write the updated parents list\n with open(self.dir + \"/parents\", \"w\") as f:\n for (p,m) in pts:\n f.write(\"{0} {1}\\n\".format(p,m))\n\n # Get my name, in latex format\n @property\n def latex_name(self):\n splt = self.name.split(\"_\")\n version = splt[-1]\n splt = splt[0:-1]\n ltx = \"\"\n for i in range(0, len(splt), 2):\n if int(splt[i+1]) > 1:\n ltx += \"{0}$_{1}$\".format(splt[i], \"{\"+splt[i+1]+\"}\")\n else:\n ltx += splt[i]\n return ltx + \" ({0})\".format(version)\n \n\n# An alch_network is a graph of alch_vertexs, where each vertex corresponds\n# to a particular parameter set.\nclass alch_network:\n\n def __init__(self, \n\n # The directory representing this network, verticies will be\n # represented by subdirectories within base_dir.\n # If None, a new directory of the form network_i will be created\n # If base_dir exists, we will load the network in base_dir\n # Otherwise a new network will be created with name base_dir\n base_dir = None, \n\n # Function used to compare two parameters sets of the same stochiometry\n # returns true if they should be considered as the same vertex.\n parameters_comp = lambda s1, s2 : True, # Default: same stoichiometry => same vertex\n\n ):\n\n # Generate new network name\n if base_dir is None:\n i = 1\n while True:\n if not os.path.isdir(\"network_{0}\".format(i)):\n base_dir = \"network_{0}\".format(i)\n break\n i += 1\n\n # Ensure the network directory exists\n created = False\n if not os.path.isdir(base_dir):\n os.system(\"mkdir \"+base_dir)\n created = True\n\n # Use the absolute path from here on\n base_dir = os.path.abspath(base_dir)\n self.dir = base_dir\n self.name = base_dir.split(\"/\")[-1]\n\n # Record the parameters comparison function\n self.parameters_comp = parameters_comp\n\n if created: log(\"Created network \"+self.dir, \"alchemy.log\")\n else: \n fs = \"Loaded network {0} with {1} verticies\"\n fs = fs.format(self.dir, len(self.verticies))\n log(fs, \"alchemy.log\")\n\n\n # My verticies\n @property\n def verticies(self):\n\n # Load the verticies from disk every time,\n # in case there are multiple processes working\n # on the network, creating verticies.\n verts = []\n \n # Loop over subdirectories\n for d in os.listdir(self.dir):\n d = self.dir + \"/\" + d\n if not os.path.isdir(d): continue\n\n # Load this vertex\n verts.append(alch_vertex(d))\n\n return verts\n\n # Return a random vertex\n def random_vertex(self):\n vs = self.verticies\n return vs[random.randrange(len(vs))]\n\n # Get a list of objective values before and after mutations\n # indexed by mutation names\n def get_mutation_results(self, objective=None):\n \n # Store the before/after objective values\n # for each mutation type used in the network\n obj_pairs = {}\n\n # Loop over verticies\n verts = self.verticies\n for v in verts:\n\n # Get the objective value for this vertex\n # skip if it has not been evaluated, or is infinite\n v_objs = v.get_evaluated_objectives()\n\n # If no objective specified, \n # just use the first one we find\n if objective is None:\n for name in v_objs:\n objective = lambda p : float(\"inf\")\n objective.__name__ = name\n break\n \n if not objective.__name__ in v_objs: continue\n v_obj = v_objs[objective.__name__]\n if not math.isfinite(v_obj): continue\n\n # Loop over parents of v\n for (p, m) in v.parents:\n \n # Load the parent vertex, get the objective\n pv = alch_vertex(self.dir+\"/\"+p)\n p_objs = pv.get_evaluated_objectives()\n if not objective.__name__ in p_objs: continue\n p_obj = p_objs[objective.__name__]\n if not math.isfinite(p_obj): continue\n\n # Store the before (parent) and after (vertex v)\n # objective values\n if not m in obj_pairs: obj_pairs[m] = []\n obj_pairs[m].append([[pv, p_obj], [v, v_obj]])\n\n return obj_pairs\n\n # Score each of the mutations in this network\n def get_mutation_scores(self, objective=None, plot=False):\n res = self.get_mutation_results(objective=objective)\n\n if plot: import matplotlib.pyplot as plt\n\n # Work out the minimum and maximum valus of the objective\n min_obj = float(\"inf\")\n max_obj = -float(\"inf\")\n for m in res:\n pairs = res[m]\n for p in pairs:\n for o in [p[0][1], p[1][1]]:\n if o > max_obj: max_obj = o\n if o < min_obj: min_obj = o\n\n scores = {}\n for m in res:\n\n # Get the before/after objective pairs\n pairs = res[m]\n\n # Score/weight each objective pair\n pair_scores = []\n total_weight = 0.0\n for p in pairs:\n\n # Lend more weight to low-objective final structures\n if abs(max_obj - min_obj) > 10e-5:\n weight = (max_obj - p[1][1])/(max_obj - min_obj)\n else:\n weight = 1.0\n total_weight += weight\n\n # Score proportional to weight and decrease in objective\n pair_scores.append( (p[0][1] - p[1][1]) * weight )\n\n if total_weight == 0: scores[m] = 0\n else: scores[m] = sum(pair_scores)/total_weight\n\n if plot:\n plt.hist(pair_scores, label=m, alpha=0.4)\n\n if plot:\n plt.legend()\n plt.show()\n\n return scores\n\n def choose_mutation(self, mutations, objective=None):\n \n # Get scores for mutations that already appear in the network\n scores = self.get_mutation_scores(objective=objective)\n max_score = max(scores[m] for m in scores) if len(scores) > 0 else 1.0\n\n # Give untested mutations a high score (so they will be tested soon)\n for m in mutations:\n if not m in scores:\n scores[m] = max_score\n\n # Rescale scores to [-1,1] by dividing by the\n # maximum absolute score (note scores of 0 remain unchanged).\n # This is done to decrease score sensitivity to the order \n # of magnidute of the objective function.\n max_abs = max(abs(scores[m]) for m in scores) \n if max_abs > 10e-5:\n scores = {m : scores[m]/max_abs for m in scores}\n\n # Map to [0, 1]\n scores = {m : (1.0 + scores[m])/2.0 for m in scores}\n\n # Generate probabilities so that the maximum possible\n # ratio between most and least probable is 10 : 1\n probs = {m : 10.0*scores[m] for m in scores}\n tot = sum(probs[m] for m in probs)\n probs = {m : probs[m]/tot for m in probs}\n \n # Report the probabilities\n max_l = max(len(m) for m in probs)\n fs = \" {0:\"+str(max_l)+\"} {1}\"\n log(\"Mutation probabilities:\", \"alchemy.log\")\n for m in probs: log(fs.format(m, probs[m]), \"alchemy.log\")\n\n # Choose according to that probability\n rnd = random.random()\n tot = 0.0\n for m in probs:\n tot += probs[m]\n if tot > rnd: return m\n\n raise Exception(\"Should not be able to get here!\")\n\n # Attempt to create a new vertex with the given parameters\n # if the vertex already exists, it will return that\n # if it fails it will return None\n # otherwise returns the newly created vertex\n def create_vertex(self, params):\n\n if params is None:\n raise Exception(\"Tried to create a vertex with params = None!\")\n\n # Label directories with stoichiometry\n base_vert_dir = self.dir + \"/\" + params[\"stoichiometry_string\"] \n\n # Loop over verticies with the same stochiometry\n version = 1\n while True:\n\n vertex_dir = base_vert_dir + \"_v{0}\".format(version)\n\n # We've found a free vertex name\n if not os.path.isdir(vertex_dir): break\n\n # Vertex name exists, increment version\n version += 1\n \n # If these verticies are the same (as far as\n # the network is concerned), return the one that\n # already exists\n vertex = alch_vertex(vertex_dir)\n if self.parameters_comp(params, vertex.params):\n log(\"Vertex {0} already exists\".format(vertex.name), \"alchemy.log\")\n return vertex\n\n # Initialize the vertex directory\n os.system(\"mkdir \"+vertex_dir)\n \n new_vertex = alch_vertex(vertex_dir)\n new_vertex.params = params\n log(\"Created vertex {0}\".format(new_vertex.name), \"alchemy.log\")\n return new_vertex\n\n # Expand upon a given vertex by applying\n # the given parameter mutation. Returns \n # the new vertex if successful, otherwise None\n def expand_vertex(self, vertex, param_mutation, is_valid):\n\n if not os.path.isdir(vertex.dir):\n raise Exception(\"Tried to expand a vertex that wasn't in the network!\")\n\n # Nice formatting\n expand_text = \"{:^64}\".format(\"Expanding vertex \"+vertex.name)\n underline = \"\".join(\"-\" for c in expand_text)\n log(\"\\n\"+expand_text, \"alchemy.log\")\n log(underline, \"alchemy.log\")\n\n # Apply mutation, return None on failure\n mutation = param_mutation(vertex.params)\n if mutation is None: \n log(\"Mutation {0} returned None\".format(param_mutation.__name__), \"alchemy.log\")\n log(underline, \"alchemy.log\")\n return None\n\n # Check structure produced is valid\n if not is_valid(mutation):\n log(\"Mutation {0} produced invalid structure\".format(param_mutation.__name__), \"alchemy.log\")\n log(underline, \"alchemy.log\")\n return None\n\n # Adjust the volume of the new structure in an\n # attempt to accomodate the mutation\n cov_volume_factor = mutation[\"covalent_volume\"]/vertex.params[\"covalent_volume\"]\n lat_volume_factor = np.linalg.det(mutation[\"lattice\"])/np.linalg.det(vertex.params[\"lattice\"])\n volume_boost = cov_volume_factor / lat_volume_factor\n mutation[\"lattice\"] = volume_boost ** (1.0/3.0)\n\n # Create new vertex\n new_vertex = self.create_vertex(mutation)\n new_vertex.add_parent(vertex, param_mutation.__name__)\n log(underline, \"alchemy.log\")\n return new_vertex\n\n # Choose a random vertex according to weights generated\n # by the given weight function\n def random_weighted_vertex(self, weight=lambda v : 1.0): \n\n verts = self.verticies\n if len(verts) == 0: return None\n weights = [weight(v) for v in verts]\n return random.choices(verts, weights=weights)[0]\n\n # Choose a vertex by exp(-objective) weighting\n def vertex_chooser(self, objective):\n \n wf = lambda v : np.exp(-v.objective(objective))\n return self.random_weighted_vertex(weight = wf)\n\n # Expand the network with an aim to minimize the given objective\n # will choose a vertex with low objective value and expand it using\n # one of the given mutations\n def expand_to_minimize(self,\n objective, # Objective to minimize\n mutations, # List of allowed mutations to vertex parameters\n # Function used to determine if a mutated structure is valid\n is_valid = lambda s : True\n ):\n\n if len(mutations) == 0:\n raise Exception(\"No mutations specified in expand_to_minimize\")\n\n log(\"Choosing a mutation to apply (minimizing {0})\".format(objective.__name__), \"alchemy.log\")\n mut_name = self.choose_mutation([m.__name__ for m in mutations], objective=objective)\n mut = None\n for m in mutations:\n if m.__name__ == mut_name:\n mut = m\n break\n if mut is None: mut = random.choice(mutations)\n log(\"Selected mutation {0}\".format(mut.__name__), \"alchemy.log\")\n\n log(\"Choosing vertex to expand (minimizing {0})...\".format(objective.__name__), \"alchemy.log\")\n vert = self.vertex_chooser(objective)\n log(\"Vertex chosen: \"+vert.name, \"alchemy.log\")\n self.expand_vertex(vert, mut, is_valid)\n\n # Rank the verticies in this network by the given objective\n # if objective=None, rank according to the first objective found\n def rank(self, objective=None, filename=None):\n if filename is None: filename = self.name+\".rankings\"\n if hasattr(objective, \"__name__\"): objective = objective.__name__\n\n results = []\n\n verts = self.verticies\n for v in verts:\n eo = v.get_evaluated_objectives()\n\n if objective is None:\n for o in eo:\n objective = o\n break\n\n obj = float(\"inf\")\n if objective in eo: obj = eo[objective]\n results.append([v.name, obj])\n\n results.sort(key=lambda r:r[1])\n max_l = max(len(r[0]) for r in results)\n fs = \"{0:\"+str(max_l)+\"} {1}\\n\"\n\n with open(filename, \"w\") as f:\n f.write(fs.format(\"vertex\", objective))\n for r in results: f.write(fs.format(r))\n \n\n # Plot this network\n def plot(self, pickle_fig=False, objective=None):\n import matplotlib.pyplot as plt\n import matplotlib.patches as patches\n import networkx as nx\n if pickle_fig: import pickle\n \n # Get the verticies\n verts = self.verticies\n names = [v.latex_name for v in verts]\n objs = [v.get_evaluated_objectives() for v in verts]\n\n # If objective=None, color according to first objective found\n if objective is None:\n for o in objs:\n if not objective is None:\n break\n for k in o:\n objective = k\n break\n\n # Obtain colors from objective function values\n # green = lowest value of objective\n # blue = highest value of objective\n # red = infinite/not calculated objective\n # white = underway\n vals = []\n for o in objs:\n if objective in o: vals.append(o[objective])\n else: vals.append(float(\"inf\"))\n max_v = max(v for v in vals if math.isfinite(v))\n min_v = min(v for v in vals if math.isfinite(v))\n vals = [(v-min_v)/(max_v-min_v) for v in vals]\n colors = [[0.6, 1.0-v0.4, 0.6+v0.4] if math.isfinite(v) else [1.0,0.6,0.6] for v in vals]\n for i, o in enumerate(objs):\n if not objective in o:\n colors[i] = [1.0,1.0,1.0]\n\n # Construct the graph\n g = nx.DiGraph()\n edge_mutations = {}\n mutation_colors = {}\n for v in verts:\n for (p, m) in v.parents:\n pname = alch_vertex(self.dir+\"/\"+p).latex_name\n edge_mutations[(pname, v.latex_name)] = m\n if not m in mutation_colors:\n mutation_colors[m] = 0.25+0.5np.random.random(3)\n g.add_edge(pname, v.latex_name)\n g.add_nodes_from(names)\n\n # Get the node positions\n pos = nx.drawing.nx_agraph.graphviz_layout(g)\n\n # Setup the plot area\n max_x = max(pos[n][0] for n in names)\n min_x = min(pos[n][0] for n in names)\n max_y = max(pos[n][1] for n in names)\n min_y = min(pos[n][1] for n in names)\n plt.xlim(min_x, max_x)\n plt.ylim(min_y, max_y+0.25(max_y-min_y))\n plt.axis(\"off\")\n\n # Draw nodes\n for n,c in zip(names,colors):\n args = dict(\n verticalalignment=\"center\", \n horizontalalignment=\"center\",\n fontsize=\"xx-small\",\n )\n bbox_props = dict(\n facecolor=c,\n edgecolor=\"none\",\n boxstyle=\"square,pad=0.0\"\n )\n plt.annotate(n, pos[n], bbox=bbox_props, args)\n\n # Get the edges\n edges = [[pos[e[0]], pos[e[1]], edge_mutations[(e[0], e[1])] ] for e in g.edges()]\n\n # Draw edges\n for (xy1, xy2, m) in edges:\n dxy = [xy2[0]-xy1[0],xy2[1]-xy1[1]]\n plt.arrow(xy1[0], xy1[1], dxy[0], dxy[1], head_width=0, color=mutation_colors[m])\n\n # Draw arrows\n for (xy1, xy2, m) in edges:\n dxy = [xy2[0]-xy1[0],xy2[1]-xy1[1]]\n centre = [(xy1[0]+xy2[0])/2.0, (xy1[1]+xy2[1])/2.0]\n plt.arrow(centre[0]-dxy[0]/128, centre[1]-dxy[1]/128, dxy[0]/128, dxy[1]/128,\n head_width=10, color=mutation_colors[m])\n\n # Draw a little legend for mutation colors\n leg_patches = []\n for m in mutation_colors:\n leg_patches.append(patches.Patch(color=mutation_colors[m], label=m.replace(\"_\",\" \")))\n plt.legend(handles=leg_patches,title=\"Mutations\",loc=\"best\",fontsize=\"xx-small\")\n\n plt.gca().set_aspect(\"equal\")\n if pickle_fig: pickle.dump(plt.gcf(), open(\"plot.pickle\", \"wb\"))\n else: plt.show()\n\ndef plot_alch_network(directory=None, pickle=False):\n if directory is None: directory = os.getcwd()\n logging_enabled(False)\n alch_network(directory).plot(pickle_fig=pickle)\n logging_enabled(True)\n\ndef rank_alch_network(directory=None, filename=None):\n if directory is None: directory = os.getcwd()\n logging_enabled(False)\n alch_network(directory).rank(objective=None, filename=filename)\n logging_enabled(True)\n\n##########################\n# TESTS FOR ALCH_NETWORK #\n##########################\n\ndef min_atoms_test():\n from qet.test.test_systems import lah10_fm3m\n from qet.alchemy import mutations\n\n nw = alch_network(\"test_network\")\n v = nw.create_vertex(lah10_fm3m)\n\n obj_func = lambda s : len(s[\"atoms\"])\n obj_func.__name__ = \"atom_count\"\n muts = [mutations.substitute_random_species,\n mutations.remove_random_atom,\n mutations.duplicate_random_atom]\n\n for n in range(100):\n nw.expand_to_minimize(obj_func, muts)\n\ndef minus_dos_ef(structure):\n from qet.calculations import relax, dos\n\n # Relax the structure \n rlx = relax(structure)\n res = rlx.run()\n\n # Calculate DOS of the relaxed structure\n structure[\"atoms\"] = res[\"relaxed atoms\"]\n structure[\"lattice\"] = res[\"relaxed lattice\"]\n dos_calc = dos(structure)\n res = dos_calc.run()\n\n # Maximize DOS => minimize -DOS\n # we also return the relaxed parameters, which will\n # replace the parameters for this vertex\n return [-res[\"DOS (E_F)\"], structure]\n\ndef metal_test():\n from qet.test.test_systems import bcc_lithium\n from qet.alchemy import mutations\n\n bcc_lithium[\"cores_per_node\"] = 4 # Allow us to sneak this calculation on a login node\n bcc_lithium[\"pseudo_dir\"] = \"/home/mjh261/rds/rds-t2-cs084/pseudopotentials/gbrv\"\n nw = alch_network(\"metals_network\")\n v = nw.create_vertex(bcc_lithium)\n\n muts = [mutations.substitute_random_species,\n mutations.remove_random_atom,\n mutations.duplicate_random_atom]\n\n for n in range(100):\n nw.expand_to_minimize(minus_dos_ef, muts)\n" }, { "alpha_fraction": 0.627694845199585, "alphanum_fraction": 0.6301824450492859, "avg_line_length": 31.594594955444336, "blob_id": "9509c80fc77644140459adbd709980793130973e", "content_id": "a19669c33db10e6d922061ce2cb913f42e7f4f5c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1206, "license_type": "no_license", "max_line_length": 82, "num_lines": 37, "path": "/logs.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from filelock import FileLock\nimport os, datetime\n\nlogging_enabled=True\ndef logging_enabled(value):\n global logging_enabled\n logging_enabled = value\n\n# Log a message in a logfile with the given name\n# these logfiles are at a persistant location and\n# are created in whatever the working directory \n# was when the file was first logged to.\nopen_logfiles = {}\ndef log(message, filename=\"qet.out\"):\n global open_logfiles, logging_enabled\n if not logging_enabled: return\n\n if not filename in open_logfiles:\n\n # Generate a unique logfile to this process\n with FileLock(\"logfiles_lock\"):\n\n # Generate a unique name if this logfile exists \n new_name = filename\n version = 1\n while True:\n if not os.path.isfile(new_name): break\n new_name = filename + str(version)\n version += 1\n\n # Open the log file in line-buffered mode\n new_open = open(new_name, \"w\", 1)\n open_logfiles[filename] = new_open\n new_open.write(\"\\nLogfile opened: \"+str(datetime.datetime.now())+\"\\n\")\n\n # Write the message\n open_logfiles[filename].write(str(message) + \"\\n\")\n" }, { "alpha_fraction": 0.5474423766136169, "alphanum_fraction": 0.5790706872940063, "avg_line_length": 23.864078521728516, "blob_id": "030c7b9a592a54b874a55a942eabdae9884d5125", "content_id": "203f8046c4e34813e27dad88958755b68a1688c1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2561, "license_type": "no_license", "max_line_length": 83, "num_lines": 103, "path": "/test/tests.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "import os\nfrom qet.test.test_systems import lah10_fm3m\nfrom qet.calculations import relax, phonon_grid, dos, proj_dos, calculate_tc\nfrom qet.logs import log\n\ndef test_tc_calculator():\n \n # Create and move to a directory to\n # run the test from\n old_path = os.getcwd()\n os.system(\"mkdir lah10_fm3m_tc_test\")\n os.chdir(\"lah10_fm3m_tc_test\")\n\n # Use cheapish parameters\n lah10_fm3m[\"qpoint_spacing\"] = 0.15\n lah10_fm3m[\"kpts_per_qpt\"] = 6\n lah10_fm3m[\"ecutwfc\"] = 40\n\n try: \n calculate_tc(lah10_fm3m)\n\n except Exception as e: \n # Restore old directory\n os.chdir(old_path)\n raise e\n\n # Restore old directory\n os.chdir(old_path)\n\ndef run_test_lah10_fm3m():\n \n # Create and move to a directory to\n # run the test from\n old_path = os.getcwd()\n os.system(\"mkdir lah10_fm3m_test\")\n os.chdir(\"lah10_fm3m_test\")\n try:\n\n # Relax the structure\n rlx = relax(lah10_fm3m)\n log(rlx.run())\n\n # Calculate the density of states\n ds = dos(lah10_fm3m)\n log(ds.run())\n\n # Calculate the projected density of states\n pdos = proj_dos(lah10_fm3m)\n log(pdos.run())\n\n # Calculate phonons on a grid\n ph = phonon_grid(lah10_fm3m)\n log(ph.run())\n\n except: pass\n\n # Restore old directory\n os.chdir(old_path)\n\ndef print_test_lah10_fm3m():\n\n # Print the parameters\n print(lah10_fm3m)\n\n # Print relax.in file\n rlx = relax(lah10_fm3m)\n print(\"\\n\"+str(rlx))\n\n # Print dos.in file\n ds = dos(lah10_fm3m)\n print(\"\\n\"+str(ds))\n\n # Print proj_dos.in file\n pdos = proj_dos(lah10_fm3m)\n print(\"\\n\"+str(pdos))\n\n # Print ph.in file\n ph = phonon_grid(lah10_fm3m)\n print(\"\\n\"+str(ph))\n\ndef test_alchemy():\n \n from qet.alchemy import mutations\n from qet.alchemy.optimize import optimize\n from qet.test.test_systems import lah10_fm3m\n\n # Start with Fm3m phase of LaH10\n start = lah10_fm3m\n\n # Run optimizer\n path = optimize(\n start, # Start structure\n lambda s : len(s[\"atoms\"]), # Minimize number of atoms\n [\n mutations.remove_random_atom, # Allowed mutations\n mutations.duplicate_random_atom,\n ],\n lambda s : s[\"atom_counts\"][\"H\"] > 0, # Must have at least 1 H\n\n # We consider all structures with the same atoms to be the same\n structure_compare = lambda l1, a1, l2, a2 : True\n\n )\n" }, { "alpha_fraction": 0.5535451173782349, "alphanum_fraction": 0.562606155872345, "avg_line_length": 31.01813316345215, "blob_id": "b0b8f0146a58475e4eb5bb0b79c7ce89b9e300d2", "content_id": "133a7cba9b6a7949e9e01ede77eb189c4d8d14d6", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 35316, "license_type": "no_license", "max_line_length": 107, "num_lines": 1103, "path": "/calculations.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "import os\nimport time\nimport subprocess\nimport psutil\nimport threading\nimport qet.parser as parser\nfrom qet.logs import log\n\n# Pad the equals signs in the input file\n# so they line up nicely :)\ndef pad_input_file(s):\n \n lines = s.split(\"\\n\")\n maxi = max([l.index(\"=\") for l in lines if \"=\" in l])\n snew = \"\"\n for l in lines:\n if \"=\" in l:\n i = l.index(\"=\")\n pad = \" \"(maxi-i)\n l = l[0:i] + pad + l[i:]\n snew += l + \"\\n\"\n return snew.strip()\n\n# Get the geompetry part of an input file\ndef input_geometry(params, explicit_kpoints=None, kpoint_labels={}):\n\n # S will eventually contain the text for\n # the geometry part of the input\n s = \"\"\n\n # Cell parameters card\n s += \"CELL_PARAMETERS (angstrom)\\n\"\n\n exp = params[\"expand\"]\n s += \"{0} {1} {2}\\n\".format([expx for x in params[\"lattice\"][0]])\n s += \"{0} {1} {2}\\n\".format([expx for x in params[\"lattice\"][1]])\n s += \"{0} {1} {2}\\n\".format([expx for x in params[\"lattice\"][2]])\n\n # Atomic species card\n s += \"\\nATOMIC_SPECIES\\n\"\n for sp in params[\"species\"]:\n s += \"{0} {1} {2}\\n\".format(sp)\n\n # Atomic positions card\n if params.contains_key(\"space_group\"):\n s += \"\\nATOMIC_POSITIONS (crystal_sg)\\n\"\n else:\n s += \"\\nATOMIC_POSITIONS (crystal)\\n\"\n for a in params[\"atoms\"]:\n s += \"{0} {1} {2} {3}\\n\".format(a[0], a[1])\n\n if explicit_kpoints is None:\n\n # automatic K-points card\n s += \"\\nK_POINTS automatic\\n\"\n s += \"{0} {1} {2} 0 0 0\\n\".format(params[\"kpoint_grid\"])\n\n else:\n \n # explicit K-points card\n s += \"\\nK_POINTS (crystal)\\n\"\n w = 1.0/float(len(explicit_kpoints))\n s += \"{0}\\n\".format(len(explicit_kpoints))\n for i, k in enumerate(explicit_kpoints):\n s += \"{0} {1} {2} {3}\".format(k[0],k[1],k[2],w)\n if i in kpoint_labels: s += \" ! \"+kpoint_labels[i]\n s += \"\\n\"\n\n return s\n\n# Get the control part of a pw.x input file\ndef pw_control_input(params, calculation=\"scf\", recover=False):\n\n # Control namelist\n s = \"&CONTROL\\n\"\n s += \" calculation = '{0}',\\n\".format(calculation)\n if recover: s += \" restart_mode = 'restart',\\n\"\n s += params.to_input_line(\"outdir\")\n s += params.to_input_line(\"pseudo_dir\")\n s += params.to_input_line(\"forc_conv_thr\")\n s += params.to_input_line(\"max_seconds\")\n s += \"/\\n\\n\"\n\n # System namelist\n s += \"&SYSTEM\\n\"\n s += params.to_input_line(\"ntyp\")\n s += params.to_input_line(\"nat\")\n\n explicit_symm = False\n if params.contains_key(\"space_group\"):\n explicit_symm = True\n s += params.to_input_line(\"space_group\")\n elif params.contains_key(\"ibrav\"):\n if params[\"ibrav\"] != 0:\n explicit_symm = True\n s += params.to_input_line(\"ibrav\")\n\n if explicit_symm:\n s += params.to_input_line(\"a\")\n s += params.to_input_line(\"b\")\n s += params.to_input_line(\"c\")\n s += params.to_input_line(\"cosab\")\n s += params.to_input_line(\"cosbc\")\n s += params.to_input_line(\"cosac\")\n\n s += params.to_input_line(\"ecutwfc\")\n s += params.to_input_line(\"ecutrho\")\n s += params.to_input_line(\"occupations\")\n s += params.to_input_line(\"smearing\")\n s += params.to_input_line(\"degauss\")\n s += params.to_input_line(\"la2F\")\n s += params.to_input_line(\"nr1\")\n s += params.to_input_line(\"nr2\")\n s += params.to_input_line(\"nr3\")\n s += params.to_input_line(\"nr1s\")\n s += params.to_input_line(\"nr2s\")\n s += params.to_input_line(\"nr3s\")\n s += params.to_input_line(\"nosym\")\n s += \"/\\n\\n\"\n\n # Electrons namelist\n s += \"&ELECTRONS\\n\"\n s += params.to_input_line(\"mixing_beta\")\n s += params.to_input_line(\"conv_thr\")\n s += \"/\\n\\n\"\n\n\n if \"relax\" in calculation:\n\n # Ions namelist\n s += \"&IONS\\n\"\n s += params.to_input_line(\"ion_dynamics\")\n s += \"/\\n\\n\"\n\n if calculation == \"vc-relax\":\n\n # Cell namelist\n s += \"&CELL\\n\"\n s += params.to_input_line(\"cell_factor\")\n s += params.to_input_line(\"cell_dynamics\")\n s += params.to_input_line(\"press\")\n s += params.to_input_line(\"press_conv_thr\")\n s += \"/\\n\\n\"\n\n return s\n\n# Returns True if the given file is a completed\n# quantum espresso output\ndef is_complete(filename):\n\n # Doesn't exist => not complete\n if not os.path.isfile(filename):\n return False\n\n # JOB DONE => complete\n with open(filename) as f:\n for line in f:\n\n # If this appears before JOB DONE, not done\n if \"Maximum CPU time exceeded\" in line:\n return False\n\n # No convergence => not done\n if \"No convergence has been achieved\" in line:\n return False\n\n # JOB DONE, and no obvious reason to disbelieve\n if \"JOB DONE\" in line:\n return True\n\n return False\n \n\n# A thread for tracking cpu/memory\n# usage, which can be stopped\nclass cpu_tracking_thread(threading.Thread):\n\n def __init__(self, filename=\"cpu_ram_usage\", args, *kwargs):\n super(cpu_tracking_thread, self).__init__(args, *kwargs)\n self.stop_event = threading.Event()\n self.filename = filename\n self.start_time = time.time()\n\n def stop(self):\n self.stop_event.set()\n\n def stopped(self):\n return self.stop_event.is_set()\n\n def record(self, file):\n fs = \"{0}, {1}, {2}\\n\"\n mem = psutil.virtual_memory().percent\n cpu = psutil.cpu_percent()\n tim = round(time.time()-self.start_time, 1)\n file.write(fs.format(tim, mem, cpu))\n file.flush()\n\n def run(self):\n \n # Time between records\n REPEAT_TIME = 10\n\n # Open the logging file\n with open(self.filename, \"w\") as f:\n f.write(\"Time (s) memory (%) cpu (%)\\n\")\n\n while True:\n\n # Record every REPEAT_TIME seconds\n time.sleep(REPEAT_TIME)\n self.record(f)\n if self.stopped(): return\n\n##################\n# CALCULATIONS #\n##################\n\n# Calculation base class, calclation types derive from this\nclass calculation:\n \n # Contructor providing parameters\n def __init__(self, in_params):\n \n # Save the input parameters\n self.in_params = in_params\n\n # Get the string reperesentation of this\n # calculation <=> input file\n def __str__(self):\n s = self.default_filename()+\".in:\\n\"\n s += self.gen_input_file()\n return s\n\n # Should return true if image-based parallelization is\n # allowed for this calculation type (q.e will error out\n # if this isn't correct for the exe)\n def image_parallelization_allowed(self):\n return False\n \n # Run the calculation in the given directory\n # with the given name, will check if the\n # calculation exists and, if so, will attempt\n # to continue it if it is incomplete\n def run(self, filename=None, path=\"./\", required=True):\n\n if filename is None:\n filename = self.default_filename()\n\n log(\"Starting {0} {1} calculation ({2}) at {3}:\".format(\n \"required\" if required else \"optional\", self.exe(), filename, path))\n \n # Remove trailing /'s from path\n path = path.strip()\n path = path.rstrip(\"/\")\n\n inf = path+\"/\"+filename+\".in\"\n outf = path+\"/\"+filename+\".out\"\n \n # Test to see if the calculation is complete\n if is_complete(outf):\n\n # Log that we are skipping this complete calculation\n msg = \"Calculation \\\"{0}\\\" is complete, skipping...\"\n log(msg.format(outf))\n return self.parse_output(outf)\n\n else: # Calculation not complete\n\n # Create input file, run calculation\n recover = os.path.isfile(outf)\n\n log(\"Generating input file...\")\n with open(inf, \"w\") as f:\n f.write(self.gen_input_file(recover=recover))\n\n log(\"Setting up command to run...\")\n\n # Get number of processes\n np = self.in_params[\"cores_per_node\"]self.in_params[\"nodes\"]\n ppn = self.in_params[\"cores_per_node\"]\n\n # Setup parallelism scheme\n if self.image_parallelization_allowed():\n # Use k-point/image parallelism\n pools = self.in_params[\"pools\"]\n images = self.in_params[\"images\"]\n qe_flags = \"-nk {0} -ni {1}\".format(pools, images) \n else:\n # Just use k-point parallelism\n qe_flags = \"-nk {0}\".format(np)\n\n # Apply overriden q-e location\n bin = self.in_params[\"path_override\"]\n if len(bin) > 0: bin += \"/\"\n\n # Get the thing that we will run mpi with\n mpirun = self.in_params[\"mpirun\"]\n\n try:\n # Check if mpirun accepts -ppn flag\n subprocess.check_output([mpirun, \"-ppn\", \"1\", \"ls\"])\n cmd = \"cd {0}; {1} -ppn {2} -np {3} {4} {5} -i {6} > {7}\"\n cmd = cmd.format(path, mpirun, ppn, np, bin + self.exe(), qe_flags, inf, outf)\n except:\n # Doesn't accept -ppn flag\n cmd = \"cd {0}; {1} -np {2} {3} {4} -i {5} > {6}\"\n cmd = cmd.format(path, mpirun, np, bin + self.exe(), qe_flags, inf, outf)\n\n log(\"Running:\\n\"+cmd)\n\n # Start tracking thread\n tracking = cpu_tracking_thread(filename=filename+\".cpu\")\n tracking.start()\n\n try:\n # Run calculation, log stdout/stderr\n stdout = subprocess.check_output([cmd], stderr=subprocess.STDOUT, shell=True)\n log(stdout, filename=\"qet.stdout\")\n except subprocess.CalledProcessError as e:\n # Log subprocess errror\n log(e)\n\n tracking.stop()\n\n # Check for success\n if not is_complete(outf):\n\n if required:\n msg = \"Calculation {0} did not complete, stopping!\"\n msg = msg.format(outf)\n log(msg)\n raise RuntimeError(msg)\n else:\n msg = \"Calculation {0} did not complete, but isn't required, continuing...\"\n log(msg.format(outf))\n return None\n\n else:\n\n # Parse the output\n return self.parse_output(outf)\n\n# A simple SCF calculation\nclass scf(calculation):\n\n # The executable that carries out this calculation\n def exe(self):\n return \"pw.x\"\n\n # The default filename for calculations of this type\n def default_filename(self):\n return \"scf\"\n\n # Parse calculation output\n def parse_output(self, outf):\n return parser.scf_out(outf)\n\n # Generate the input file for this calculation\n def gen_input_file(self, recover=False):\n\n # Control\n s = pw_control_input(self.in_params, \n calculation=\"scf\", recover=recover)\n\n # Geometry\n s += input_geometry(self.in_params)\n\n return pad_input_file(s)\n\n\nclass bands(calculation):\n \n # The executable that carries out this calculation\n def exe(self):\n return \"pw.x\"\n\n # The default filename for calculations of this type\n def default_filename(self):\n return \"e_bands\"\n\n # Parse calculation output\n def parse_output(self, outf):\n return None\n\n # Generate the input file for this calculation\n def gen_input_file(self, recover=False):\n \n # Control\n s = pw_control_input(self.in_params, \n calculation=\"scf\", recover=recover)\n\n # Geometry\n s += input_geometry(self.in_params, \n explicit_kpoints=self.in_params[\"bz_path\"], \n kpoint_labels=self.in_params[\"high_symmetry_bz_points\"])\n\n return pad_input_file(s)\n\n\nclass extract_bands(calculation):\n \n # The executable that carries out this calculation\n def exe(self):\n return \"bands.x\"\n\n # The default filename for calculations of this type\n def default_filename(self):\n return \"e_bands_extract\"\n\n # Parse calculation output\n def parse_output(self, outf):\n return None\n\n # Generate the input file for this calculation\n def gen_input_file(self, recover=False):\n \n s = \"&BANDS\\n\"\n s += self.in_params.to_input_line(\"outdir\")\n s += \"/\\n\"\n return pad_input_file(s)\n\n\n# Calculate the electronic DOS\nclass dos(calculation):\n \n # The executable that carries out this calculation\n def exe(self):\n return \"dos.x\"\n\n # The default filename for calculations of this type\n def default_filename(self):\n return \"dos\"\n\n # Parse calculation output\n def parse_output(self, outf):\n return parser.dos_out(outf)\n\n # Generate the input file for this calculation\n def gen_input_file(self, recover=False):\n\n s = \"&DOS\\n\"\n s += self.in_params.to_input_line(\"outdir\")\n s += self.in_params.to_input_line(\"degauss\")\n s += self.in_params.to_input_line(\"DeltaE\")\n s += \"/\\n\"\n\n return pad_input_file(s)\n\n# Calculate the atom-projected electronic DOS\nclass proj_dos(calculation):\n \n # The executable that carries out this calculation\n def exe(self):\n return \"projwfc.x\"\n\n # The default filename for calculations of this type\n def default_filename(self):\n return \"proj_dos\"\n\n # Parse calculation output\n def parse_output(self, outf):\n return parser.proj_dos_out(outf)\n\n # Generate the input file for this calculation\n def gen_input_file(self, recover=False):\n\n s = \"&PROJWFC\\n\"\n s += self.in_params.to_input_line(\"outdir\")\n s += self.in_params.to_input_line(\"degauss\")\n s += self.in_params.to_input_line(\"DeltaE\")\n s += \"/\\n\"\n\n return pad_input_file(s)\n\n# Carry out a geometry optimization (vc-relax)\nclass relax(calculation):\n\n # The executable that carries out this calculation\n def exe(self):\n return \"pw.x\"\n\n # The default filename for calculations of this type\n def default_filename(self):\n return \"relax\"\n\n # Parse calculation output\n def parse_output(self, outf):\n return parser.relax_out(outf)\n\n # Generate the input file for this calculation\n def gen_input_file(self, recover=False):\n\n # Control\n s = pw_control_input(self.in_params, \n calculation=self.relax_calculation(), \n recover=recover)\n\n # Geometry\n s += input_geometry(self.in_params)\n\n return pad_input_file(s)\n\n def relax_calculation(self):\n return \"vc-relax\"\n\n# Overloaded version of relax, to carry out relaxation\n# of just the atomic posiitons\nclass fixed_cell_relax(relax):\n\n def relax_calculation(self):\n return \"relax\"\n\n# Calculate phonons on a grid\nclass phonon_grid(calculation):\n\n # The executable that carries out this calculation\n def exe(self):\n return \"ph.x\"\n\n # The default filename for calculations of this type\n def default_filename(self):\n return \"phonons\"\n\n # Images are allowed for phonon calculations\n def image_parallelization_allowed(self):\n return True\n\n # Parse calculation output\n def parse_output(self, outf):\n return parser.phonon_grid_out(outf)\n\n # Generate the input file for this calculation\n def gen_input_file(self, recover=False):\n\n qpg = self.in_params[\"qpoint_grid\"]\n\n s = \"Calculate phonons on a coarse grid\\n\"\n s += \"&INPUTPH\\n\"\n s += self.in_params.to_input_line(\"outdir\")\n s += self.in_params.to_input_line(\"ldisp\")\n s += self.in_params.to_input_line(\"reduce_io\")\n s += self.in_params.to_input_line(\"max_seconds\")\n s += self.in_params.to_input_line(\"nq1\")\n s += self.in_params.to_input_line(\"nq2\")\n s += self.in_params.to_input_line(\"nq3\")\n s += self.in_params.to_input_line(\"search_sym\")\n if recover: s += \" recover = .true.,\\n\"\n s += \"/\\n\"\n\n # I've found ph.x sometimes crashes if \n # the input file doesn't end in a blank line\n return pad_input_file(s) + \"\\n\"\n\n# Calculate electron-phonon coupling on a grid\nclass electron_phonon_grid(calculation):\n \n # The executable that carries out this calculation\n def exe(self):\n return \"ph.x\"\n\n # The default filename for calculations of this type\n def default_filename(self):\n return \"elph\"\n\n # Images are allowed for phonon calculations\n def image_parallelization_allowed(self):\n return True\n\n # Parse calculation output\n def parse_output(self, outf):\n return None\n\n # Generate the input file for this calculation\n def gen_input_file(self, recover=False):\n\n qpg = self.in_params[\"qpoint_grid\"]\n\n s = \"Calculate electron-phonon coupling on a coarse grid\\n\"\n s += \"&INPUTPH\\n\"\n s += self.in_params.to_input_line(\"outdir\")\n s += self.in_params.to_input_line(\"ldisp\")\n s += self.in_params.to_input_line(\"reduce_io\")\n s += self.in_params.to_input_line(\"fildvscf\")\n s += self.in_params.to_input_line(\"electron_phonon\")\n s += self.in_params.to_input_line(\"max_seconds\")\n s += self.in_params.to_input_line(\"nq1\")\n s += self.in_params.to_input_line(\"nq2\")\n s += self.in_params.to_input_line(\"nq3\")\n s += self.in_params.to_input_line(\"el_ph_sigma\")\n s += self.in_params.to_input_line(\"el_ph_nsigma\")\n s += self.in_params.to_input_line(\"search_sym\")\n s += self.in_params.to_input_line(\"alpha_mix\")\n if recover: s += \" recover = .true.,\\n\"\n s += \"/\\n\"\n\n # I've found ph.x sometimes crashes if \n # the input file doesn't end in a blank line\n return pad_input_file(s) + \"\\n\"\n\n# Convert reciprocal space quantities to real-space quantitites\nclass q2r(calculation):\n \n # The executable that carries out this calculation\n def exe(self):\n return \"q2r.x\"\n\n # The default filename for calculations of this type\n def default_filename(self):\n return \"q2r\"\n\n # Images are allowed for phonon calculations\n def image_parallelization_allowed(self):\n return True\n\n # Parse calculation output\n def parse_output(self, outf):\n return None\n\n # Generate the input file for this calculation\n def gen_input_file(self, recover=False):\n\n s = \"&INPUT\\n\"\n s += self.in_params.to_input_line(\"fildyn\")\n s += self.in_params.to_input_line(\"flfrc\")\n s += self.in_params.to_input_line(\"zasr\")\n s += self.in_params.to_input_line(\"la2F\")\n s += self.in_params.to_input_line(\"el_ph_nsigma\")\n s += \"/\\n\"\n\n return pad_input_file(s)\n\n# Interpolate phonon quantities onto a fine grid \nclass interpolate_phonon(calculation):\n \n # The executable that carries out this calculation\n def exe(self):\n return \"matdyn.x\"\n\n # The default filename for calculations of this type\n def default_filename(self):\n return self.in_params[\"ph_interp_prefix\"]\n\n # Images are allowed for phonon calculations\n def image_parallelization_allowed(self):\n return True\n\n # Parse calculation output\n def parse_output(self, outf):\n return None\n\n # Generate the input file for this calculation\n def gen_input_file(self, recover=False):\n\n s = \"&INPUT\\n\"\n s += \"dos = .true.\\n\"\n s += self.in_params.to_input_line(\"flfrc\")\n s += self.in_params.to_input_line(\"zasr\", name=\"asr\")\n s += self.in_params.to_input_line(\"ph_interp_nq1\", name=\"nk1\")\n s += self.in_params.to_input_line(\"ph_interp_nq2\", name=\"nk2\")\n s += self.in_params.to_input_line(\"ph_interp_nq3\", name=\"nk3\")\n s += self.in_params.to_input_line(\"ndos\")\n s += self.in_params.to_input_line(\"ph_interp_dos_file\", name=\"fldos\")\n s += self.in_params.to_input_line(\"ph_interp_freq_file\", name=\"flfrq\")\n s += self.in_params.to_input_line(\"ph_interp_modes_file\", name=\"flvec\")\n s += self.in_params.to_input_line(\"la2F\")\n s += self.in_params.to_input_line(\"el_ph_nsigma\")\n s += \"/\\n\"\n\n return pad_input_file(s)\n\n\n#########################\n# END CALCULATION TYPES #\n#########################\n\n\n# Calculate Tc using the allen-dynes equation from\n# a given a2f(frequency)\ndef tc_allen_dynes(frequencies, a2f, mu_stars=[0.1, 0.15],\n attenuation_freq=None, get_lambda=False):\n import numpy as np\n from qet.constants import RY_TO_K\n\n tc_ad = {}\n for mu in mu_stars:\n tc_ad[mu] = 0.0\n\n if attenuation_freq is None:\n wa = [[w,max(a,0)] for w,a in zip(frequencies, a2f) if w > 0]\n ws = [w for w,a in wa]\n else:\n ata = lambda a, w : a * (1.0 - np.exp(-w/attenuation_freq))\n wa = [[w,max(ata(a,w),0)] for w,a in zip(frequencies, a2f) if w > 0]\n ws = [w for w,a in wa]\n\n # Use the allen-dynes equation to estimate Tc\n lam = np.trapz([2a/w for w, a in wa], x=ws)\n if lam < 10e-10: \n if get_lambda: \n return tc_ad, lam\n return tc_ad\n\n wlog = np.exp((2/lam)np.trapz([np.log(w)a/w for w, a in wa], x=ws))\n wrms = ((2/lam)np.trapz([aw for w, a in wa], x=ws))0.5\n \n for mu in mu_stars:\n g1 = 2.46(1+3.8mu)\n g2 = 1.82(1+6.3mu)(wrms/wlog)\n f1 = (1+(lam/g1)(3.0/2.0))(1.0/3.0)\n f2 = 1 + (wrms/wlog - 1) * (lam2) / (lam2 + g2*2)\n tc_ad[mu] = RY_TO_Kf1f2(wlog/1.20)np.exp(-1.04(1+lam)/(lam-mu-0.62lammu))\n\n if get_lambda: \n return tc_ad, lam\n return tc_ad\n \n# For a given a2f.dos file, calculate Tc for\n# each of the given mu* values, using the allen-dynes\n# equation\ndef tc_from_a2f_allen_dynes(filename, mu_stars=[0.1, 0.15],\n attenuation_freq=None, get_lambda=False):\n\n # Parse the a2f file, ignore negative frequencies/elishberg function\n out = parser.a2f_dos_out(filename)\n\n return tc_allen_dynes(out[\"frequencies\"], out[\"a2f\"], \n mu_stars=mu_stars, attenuation_freq=attenuation_freq, get_lambda=get_lambda)\n\ndef tc_from_gap_function(filename, plot=False): \n from scipy.optimize import curve_fit\n import numpy as np\n\n # Parse the superconducting gap vs temperature\n ts = []\n gs = []\n with open(filename) as f:\n for l in f:\n vals = [float(w) for w in l.split()]\n if len(vals) != 3: continue\n ts.append(vals[0])\n gs.append(vals[1]/vals[2])\n\n # Interpolate g(t) data to a finer grid\n #ts_interp = np.linspace(min(ts), max(ts), len(ts)5)\n #gs_interp = [np.interp(t, ts, gs) for t in ts_interp]\n #ts = ts_interp\n #gs = gs_interp\n\n # Guess tc from just where gap first goes above\n # 5% of the maximum on decreasing Tc\n tc_guess = 0\n for i in range(len(ts)-1, -1, -1):\n tc_guess = ts[i]\n if gs[i] > 0.05 max(gs): break\n\n def gap_model(t, tc, gmax):\n t = np.array([min(ti, tc) for ti in t])\n return gmax * np.tanh(1.74np.sqrt(tc/t - 1))\n\n try:\n p0 = [tc_guess, max(gs)2]\n par, cov = curve_fit(gap_model, ts, gs, p0)\n \n if plot:\n import matplotlib.pyplot as plt\n plt.plot(ts, gs, marker=\"+\", label=\"data\")\n ts_interp = np.linspace(min(ts), max(ts), 200)\n plt.plot(ts_interp, gap_model(ts_interp, par), label=\"fit\")\n plt.axvline(par[0], color=\"black\", linestyle=\":\", label=\"Tc = \"+str(par[0]))\n plt.legend()\n plt.show()\n\n except Warning as warn:\n log(\"Gap function fit failed with warning:\", \"tc.log\")\n log(str(warn), \"tc.log\")\n par = [0, p0[1]]\n cov = float(\"inf\")\n except Exception as err:\n log(\"Gap function fit failed with error:\", \"tc.log\")\n log(str(err), \"tc.log\")\n raise err\n\n if np.isfinite(cov).all():\n tc = par[0]\n err = cov[0][0]0.5\n else:\n log(\"Tc covariance is infinite!\", \"tc.log\")\n tc = tc_guess\n err = float(\"inf\")\n\n return tc, err\n\n# Calculate TC by solving the eliashberg equations (requires elk)\ndef tc_from_a2f_file_eliashberg(filename, mu_stars=[0.1, 0.15], force=False, species_dir=None):\n out = parser.a2f_dos_out(filename)\n wa = [[w,max(a,0)] for w,a in zip(out[\"frequencies\"], out[\"a2f\"]) if w > 0]\n ws = [w for w,a in wa]\n a2f = [a for w,a in wa]\n dosn = filename.split(\"dos\")[-1]\n basedir = \"/\".join(filename.split(\"/\")[0:-1])\n tc_dir = basedir + \"/tc_dos_\" + dosn\n return tc_from_a2f_eliashberg(tc_dir, ws, a2f, mu_stars=mu_stars, force=force, species_dir=species_dir)\n\n# Calculate TC by solving the eliashberg equations (requires elk)\ndef tc_from_a2f_eliashberg(tc_dir, ws, a2f, mu_stars=[0.1, 0.15], force=False, species_dir=None):\n import warnings\n from subprocess import check_output\n\n # Get the smearing number, make a corresponding tc directory\n if os.path.isdir(tc_dir):\n if force: os.system(\"rm -r \"+tc_dir)\n else:\n # Attempt to parse tc from file\n tc_eliashberg = {}\n\n # Loop over calculated mu values\n for mu_dir in os.listdir(tc_dir):\n mu_dir = tc_dir + \"/\" + mu_dir\n if not os.path.isdir(mu_dir): continue\n mu = float(mu_dir.split(\"/\")[-1].split(\"_\")[1])\n\n # Parse the tc.out file for the eliashberg Tc\n if not os.path.isfile(mu_dir + \"/tc.out\"): continue\n with open(mu_dir + \"/tc.out\") as f:\n for line in f:\n if \"liashberg\" in line:\n tc_eliashberg[mu] = float(line.split()[0])\n break\n\n return tc_eliashberg\n\n os.system(\"mkdir \"+tc_dir)\n\n # First, estimate Tc using the allen-dynes equation\n tc_ad = tc_allen_dynes(ws,a2f,mu_stars=mu_stars)\n \n if species_dir is None:\n # Find the elk species directory\n elk_base_dir = check_output([\"which\", \"elk\"])\n elk_base_dir = elk_base_dir.decode(\"utf-8\").replace(\"src/elk\\n\",\"\")\n species_dir = elk_base_dir + \"/species/\"\n\n tc_eliashberg = {}\n for mu in mu_stars:\n\n # Create the directory for this value of mu\n mu_dir = tc_dir + \"/mu_{0}\".format(mu)\n os.system(\"mkdir \"+mu_dir)\n\n # Create elk a2F input file\n with open(mu_dir+\"/ALPHA2F.OUT\", \"w\") as f:\n for i in range(len(ws)):\n # Convert Ry to Ha\n f.write(\"{0} {1}\\n\".format(ws[i]0.5,a2f[i]))\n\n # Create elk input file\n # A lot of the parameters are not actually needed\n # but are neccassary to allow elk to start up\n with open(mu_dir+\"/elk.in\", \"w\") as f:\n f.write(\"tasks\\n260\\n\\nntemp\\n20\\nmustar\\n{0}\\n\".format(mu))\n f.write(\"\\nwplot\\n{0} {1} {2}\\n-0.5 0.5\\n\".format(len(ws), 1, 1))\n f.write(\"sppath\\n'{0}'\\n\".format(species_dir))\n f.write(\"atoms\\n1\\n'La.in'\\n1\\n0 0 0 0 0 0\\n\")\n f.write(\"avec\\n1 0 0\\n0 1 0\\n0 0 1\")\n\n # Run elk\n os.system(\"cd {0}; elk > /dev/null\".format(mu_dir))\n\n tc, err = tc_from_gap_function(mu_dir+\"/ELIASHBERG_GAP_T.OUT\")\n tc_eliashberg[mu] = tc\n\n # Save the result\n with open(mu_dir+\"/tc.out\", \"w\") as f:\n f.write(\"{0} +/- {1} K (Eliashberg)\\n\".format(tc, err))\n f.write(\"{0} K (Allen-Dynes)\\n\".format(tc_ad[mu]))\n\n # Tidy some of the larger files up\n os.system(\"rm \"+mu_dir+\"/ELIASHBERG_GAP_RA.OUT\")\n os.system(\"rm \"+mu_dir+\"/ELIASHBERG_Z_RA.OUT\")\n\n return tc_eliashberg\n\n# List all files in the given folder or subdirectories of it\ndef listfiles(folder):\n for root, folders, files in os.walk(folder):\n for filename in folders + files:\n yield os.path.join(root, filename)\n\n# Traverse all subdirectories, calculating Tc for every\n# a2F.dos file we find\ndef tc_from_a2f_eliashberg_recursive(root_dir, species_dir=None):\n\n # Run over all a2F.dos files and calculate Tc\n for f in listfiles(root_dir):\n if not \"a2F.dos\" in f: continue\n log(\"Calculating Tc for \"+f, \"tc.log\")\n try: \n tc_res = tc_from_a2f_file_eliashberg(f, species_dir=species_dir)\n log(\"Success\", \"tc.log\")\n for mu in tc_res:\n log(\" Mu = {0}, Tc = {1}\".format(mu, tc_res[mu]), \"tc.log\")\n except Exception as e: \n log(\"Failed with excpetion:\\n\"+str(e), \"tc.log\")\n pass\n\n# Returns true if the TC calculation in the given directory\n# has completed or not\ndef tc_calculation_complete(dirname):\n\n elph_in = dirname+\"/elph.in\"\n if not os.path.isfile(elph_in):\n return False\n\n # Parse the number of sigma values\n # fromthe .in file\n n_sig = None\n with open(elph_in) as f:\n for line in f:\n if \"el_ph_nsigma\" in line:\n n_sig = int(line.split(\"=\")[-1].replace(\",\",\"\"))\n\n if n_sig is None:\n log(\"Could not parse el_ph_nsigma from \"+elph_in)\n return False\n\n # If there are less than that many a2F files, the calculation\n # has not completed\n all_exist = True\n for i in range(1, n_sig+1):\n if not os.path.isfile(dirname + \"/a2F.dos{0}\".format(i)):\n all_exist = False\n break\n\n return all_exist\n\n# Calculate the conventional superconducting critical temeprature\n# for a given parameter set\ndef calculate_tc(parameters, \n primary_only=False, \n skip_elph=False, \n phonons_only=False,\n phonons_from_elph=False,\n tidy_after=True):\n\n log(\"Tc calculation using parameters:\")\n log(str(parameters))\n\n # Get the k-point grid sizes\n # needed to determine the most sensible\n # double-delta smearing parameter.\n kpq = parameters[\"tc_kpqs\"]\n\n kpqs = {}\n for k in kpq:\n kpqs[\"kpq_{0}\".format(k)] = k\n\n # Save working directory\n base_wd = os.getcwd()\n\n # Run an electron-phonon coulping calculation\n # for each of the kpoint grid sizes\n for dirname in kpqs:\n\n try:\n if tc_calculation_complete(dirname):\n log(\"Calculation \" + base_wd + \"/\" + dirname + \" complete, skipping...\")\n continue\n\n # Go into a directory for this kpoint grid\n os.system(\"mkdir \"+dirname)\n os.chdir(dirname)\n log(\"Switched to directory \"+dirname)\n\n # Setup the kpoint grid for this directory\n parameters[\"kpts_per_qpt\"] = kpqs[dirname]\n\n # relax the structure\n parameters[\"la2F\"] = False # We don't need the a2F flag for the relaxation\n if parameters[\"variable_cell\"]:\n res = relax(parameters).run()\n else:\n res = fixed_cell_relax(parameters).run()\n parameters[\"atoms\"] = res[\"relaxed atoms\"]\n if \"relaxed lattice\" in res:\n parameters[\"lattice\"] = res[\"relaxed lattice\"]\n\n # Calculate the projected density of states/bandstructure\n try:\n proj_dos(parameters).run(required=False)\n bands(parameters).run(required=False)\n extract_bands(parameters).run(required=False)\n except Exception as ignored_ex:\n log(\"Encountered an expection when carrying out non-essential task.\")\n log(str(ignored_ex))\n\n if not skip_elph:\n\n # We're gonna need the Eliashberg function from now on\n # (unless we're just doing the phonons)\n parameters[\"la2F\"] = not phonons_only\n\n # Run the succesion of neccasary calculations\n scf(parameters).run()\n if phonons_only: phonon_grid(parameters).run()\n else: electron_phonon_grid(parameters).run()\n\n # We're recovering just the phonon information\n # from an electron-phonon calculation\n if phonons_from_elph:\n parameters[\"la2F\"] = False\n\n q2r(parameters).run()\n interpolate_phonon(parameters).run()\n\n # El-Ph complete, tidy up the huge files created\n if tidy_after:\n tidy_tc_calculations()\n\n except Exception as e:\n\n # Return to the base directory\n os.chdir(base_wd)\n raise e\n \n # Go back to the base directory\n os.chdir(base_wd)\n\n# Recursively searches for files no longer needed\n# by Tc calculations from calculate_tc() and deletes them\ndef tidy_tc_calculations(base_dir=\".\", remove_incomplete=False, skip_dirs=[], older_than=-1):\n\n # Find all subdirectories with an elph.in file\n for elph_in in listfiles(base_dir):\n if not elph_in.endswith(\"elph.in\"): continue\n tc_dir = os.path.dirname(elph_in)\n\n # Check if we should skip this directory\n skip = False\n for to_skip in skip_dirs:\n if to_skip in tc_dir:\n skip = True\n break\n if skip: continue\n\n # Check if this file is old enough to be removed (in days)\n if older_than > 0:\n age = time.time() - os.path.getmtime(tc_dir)\n age = age / (3600.024.0)\n if age < older_than:\n continue\n\n # Check calculations have completed\n if not remove_incomplete:\n \n # Parse the number of sigma values\n # fromthe .in file\n n_sig = None\n with open(elph_in) as f:\n for line in f:\n if \"el_ph_nsigma\" in line:\n n_sig = int(line.split(\"=\")[-1].replace(\",\",\"\"))\n\n if n_sig is None:\n print(\"Could not parse el_ph_nsigma from \"+elph_in)\n continue\n\n # If there are less than that many a2F files, it's not safe to delete stuff\n all_exist = True\n for i in range(1, n_sig+1):\n if not os.path.isfile(tc_dir + \"/a2F.dos{0}\".format(i)):\n all_exist = False\n break\n if not all_exist:\n print(\"Not removing unfinshed calculations in \"+tc_dir)\n continue\n\n # Find big files\n files_to_remove = [\n tc_dir+\"/dyna2F\",\n tc_dir+\"/tc_dos_/mu_/ELIASHBERG_IA.OUT\"\n ]\n\n for f in os.listdir(tc_dir):\n if f.startswith(\"pwscf.wfc\"):\n files_to_remove.append(tc_dir+\"/\"+f)\n\n dirs_to_remove = [\n tc_dir+\"/pwscf.save\",\n tc_dir+\"/_ph0\",\n tc_dir+\"/elph_dir\"\n ]\n\n # Remove the big stuff\n for f in files_to_remove:\n if os.path.isfile(f):\n print(\"removing file \"+f)\n os.system(\"rm \"+f)\n\n # Remove big directories\n for d in dirs_to_remove:\n if os.path.isdir(d):\n print(\"removing directory \"+d)\n os.system(\"rm -r \"+d)\n" }, { "alpha_fraction": 0.6114993691444397, "alphanum_fraction": 0.6311944127082825, "avg_line_length": 29.86274528503418, "blob_id": "9134982ffc1cf6945bd7b47d482b0af283a1db89", "content_id": "cac4af687af266cf6199feca32e7d5e194ea3110", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3148, "license_type": "no_license", "max_line_length": 95, "num_lines": 102, "path": "/alchemy/mutations.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.alchemy.elements import propose_substitution\nfrom qet.elements import elements\nfrom qet.logs import log\nimport random, copy\n\ndef substitute_random_species(structure, restrict_to=None):\n\n # Choose the type to be replaced\n to_replace = structure[\"species\"]\n to_replace = to_replace[random.randrange(len(to_replace))][0]\n\n # Choose the type to replace it with\n sub = propose_substitution(to_replace, restrict_to=restrict_to)\n\n fs = \"Replacing {0} with {1} in {2}\"\n fs = fs.format(to_replace, sub, structure[\"stoichiometry_string\"])\n log(fs, \"alchemy.log\")\n\n # Make the replacement\n for i, a in enumerate(structure[\"atoms\"]):\n if a[0] == to_replace: structure[\"atoms\"][i][0] = sub\n\n return structure\n\ndef substitute_random_atom(structure, restrict_to=None):\n \n # Choose the atom to be replaced\n atoms = structure[\"atoms\"]\n i_replace = random.randrange(len(atoms))\n to_replace = atoms[i_replace][0]\n sub = propose_substitution(to_replace, restrict_to=restrict_to)\n\n fs = \"Replacing atom {0} ({1}) with {2} in {3}\"\n fs = fs.format(i_replace, to_replace, sub, structure[\"stoichiometry_string\"])\n log(fs, \"alchemy.log\")\n\n # Make the replacement\n structure[\"atoms\"][i_replace][0] = sub\n\n return structure\n\ndef remove_random_atom(structure):\n \n # Dont remove the last atom\n if len(structure[\"atoms\"]) == 1:\n return None\n\n # Copy the atom list and remove a random atom from the result\n i_rem = random.randrange(len(structure[\"atoms\"]))\n atom_removed = structure[\"atoms\"][i_rem]\n\n fs = \"Removing atom {0} in {1}\\n Removed {2} @ {3:8.6f} {4:8.6f} {5:8.6f}\"\n fs = fs.format(i_rem, structure[\"stoichiometry_string\"], atom_removed[0], atom_removed[1])\n log(fs, \"alchemy.log\")\n\n del structure[\"atoms\"][i_rem]\n return structure\n\n\ndef duplicate_random_atom(structure):\n \n # Copy a random atom\n atoms = structure[\"atoms\"]\n i_dupe = random.randrange(len(atoms))\n new_atom = copy.deepcopy(atoms[i_dupe])\n\n fs = \"Duplicating atom {0} in {1}\".format(i_dupe, structure[\"stoichiometry_string\"])\n fs += \"\\n Duplicated {0} @ {1:8.6f} {2:8.6f} {3:8.6f}\".format(new_atom[0], new_atom[1])\n\n # Displace it by a gaussian\n for j in range(3):\n new_atom[1][j] += random.gauss(0, 0.1)\n atoms.append(new_atom)\n\n fs += \"\\n New atom {0} @ {1:8.6f} {2:8.6f} {3:8.6f}\".format(new_atom[0], new_atom[1])\n log(fs, \"alchemy.log\")\n\n return structure\n\ndef shuffle_atoms(structure):\n \n # No point shuffling a single atom\n if len(structure[\"atoms\"]) == 1:\n return None\n\n # Shuffle the atoms into each others locations\n atoms = structure[\"atoms\"]\n new_pos = [a[1] for a in atoms]\n random.shuffle(new_pos)\n for i in range(len(new_pos)): atoms[i][1] = new_pos[i]\n\n log(\"Shuffled atoms in {0}\".format(structure[\"stoichiometry_string\"]), \"alchemy.log\")\n\n return structure\n\n# All of the above mutations\nall_mutations = [\n substitute_random_species,\n remove_random_atom,\n duplicate_random_atom,\n shuffle_atoms,\n]\n" }, { "alpha_fraction": 0.575129508972168, "alphanum_fraction": 0.575129508972168, "avg_line_length": 19.3157901763916, "blob_id": "d285e2a6710b8a88fd3526418b024fb28efff949", "content_id": "4ef0444301df21fb07bff6315054e2861439e5ea", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 386, "license_type": "no_license", "max_line_length": 58, "num_lines": 19, "path": "/type_tools.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "# Convert a string to the best type\ndef str_to_type(string):\n\n # Try integer\n try: return int(string)\n except: pass\n\n # Try float\n try: return float(string)\n except: pass\n\n # bool\n try:\n if string.lower().strip() == \"true\": return True\n if string.lower().strip() == \"false\": return False\n except: pass\n \n # String\n return string\n" }, { "alpha_fraction": 0.6976743936538696, "alphanum_fraction": 0.7093023061752319, "avg_line_length": 27.66666603088379, "blob_id": "c9eeb48d507e2c23cade5e11339e51c0861a0a44", "content_id": "204662d4e7d5f97340b53f54bbb917d0270d4fa8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 258, "license_type": "no_license", "max_line_length": 62, "num_lines": 9, "path": "/scripts/solve_eliashberg_recursive_serial.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.calculations import tc_from_a2f_eliashberg_recursive\nimport sys\n\nspecies_dir = None\nfor arg in sys.argv:\n if arg.startswith(\"elk_species=\"):\n species_dir = arg.split(\"=\")[-1]\n\ntc_from_a2f_eliashberg_recursive(\".\", species_dir=species_dir)\n" }, { "alpha_fraction": 0.620068371295929, "alphanum_fraction": 0.634979784488678, "avg_line_length": 32.53125, "blob_id": "1bc76eb7b455f22eaf1de76aff8c775afcf6d1ca", "content_id": "7de2153ed8995358e3031a2ae4a415255d4a3a00", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3219, "license_type": "no_license", "max_line_length": 75, "num_lines": 96, "path": "/examples/LaBN_Hydride.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.calculations import relax, proj_dos\nfrom qet.alchemy.network import alch_network\nfrom qet.alchemy import mutations\nfrom qet.examples.initial_ternaries import get_initial_ternaries\nfrom qet.test.test_systems import lah10_fm3m\n\ndef is_valid(structure):\n \n MAX_NON_H = 6\n MIN_H_PER_NON_H = 1\n MAX_H_PER_NON_H = 16\n\n species = structure[\"species\"]\n if len(species) > 5: return False # Maximum of 4 non-hydrogen species\n if len(species) < 2: return False # At least binary\n\n counts = structure[\"atom_counts\"]\n non_hs = sum([counts[e] for e in counts if not e == \"H\"])\n\n # Limit on non-hydrogens\n if non_hs > MAX_NON_H : return False\n\n # Limits on number of hydrogens\n if counts[\"H\"] > MAX_H_PER_NON_H non_hs: return False\n if counts[\"H\"] < MIN_H_PER_NON_H * non_hs: return False\n\n return True\n\ndef minus_h_dos(structure):\n\n # Relax the structure\n res = relax(structure).run()\n structure[\"atoms\"] = res[\"relaxed atoms\"]\n structure[\"lattice\"] = res[\"relaxed lattice\"]\n\n # Calculate the DOS\n res = proj_dos(structure).run()\n\n # Get the fraction of the DOS due to hydrogens\n total_dos = 0.0\n hydrogen_dos = 0.0\n\n # Loop over atoms and atomic wavefunctions\n for atom_number in res[\"PDOS (fermi energy)\"]:\n for wfc_number in res[\"PDOS (fermi energy)\"][atom_number]:\n\n # Get the type of atom and the contribution to the DOS at E_F\n atom_name = res[\"PDOS atom names\"][atom_number][wfc_number]\n dos_ef = res[\"PDOS (fermi energy)\"][atom_number][wfc_number]\n\n # Accumulate the total and hydrogen DOS\n total_dos += dos_ef\n if atom_name.strip().lower() == \"h\":\n hydrogen_dos += dos_ef\n\n return -hydrogen_dos/total_dos\n\ndef maximize_hdos(muts, init_structures=None):\n\n # Load/create the network\n nw = alch_network(\"network\")\n\n # Add the seed structures\n if init_structures is None: init_structures = get_initial_ternaries()\n for structure in init_structures:\n nw.create_vertex(structure)\n\n # Optimize the network\n for n in range(0, 100):\n nw.expand_to_minimize(minus_h_dos, muts, is_valid=is_valid)\n\ndef substitute_species(s):\n # Restricted set of elements to search\n restricted_elms = [\"B\",\"N\",\"H\",\"La\",\"C\",\"Ga\",\"Pt\",\"Au\"]\n return mutations.substitute_random_species(s, restricted_elms)\n\ndef substitute_atom(s):\n # Restricted set of elements to search\n restricted_elms = [\"B\",\"N\",\"H\",\"La\",\"C\",\"Ga\",\"Pt\",\"Au\"]\n return mutations.substitute_random_atom(s, restricted_elms)\n\ndef search():\n \n # The allowed mutations\n muts = [mutations.remove_random_atom, \n mutations.duplicate_random_atom, \n substitute_species,\n substitute_atom]\n\n lah10_fm3m[\"pseudo_dirs\"] = [\n \"/home/mjh261/rds/rds-t2-cs084/pseudopotentials/gbrv\", \n \"/home/mjh261/rds/rds-t2-cs084/pseudopotentials/ssp_efficiency\", \n \"/home/mjh261/rds/rds-t2-cs084/pseudopotentials/qe_website\"]\n\n # Maximize the hydrogen density of states, starting with LaH10 Fm-3m\n maximize_hdos(muts, init_structures = [lah10_fm3m])\n" }, { "alpha_fraction": 0.6386662125587463, "alphanum_fraction": 0.6434754729270935, "avg_line_length": 31.48958396911621, "blob_id": "f7e0e1e4e2a6f55d708def3a8eff42ef8f01f7a5", "content_id": "bcce405ad83efe886423f2514572d8aefeaa272d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3119, "license_type": "no_license", "max_line_length": 118, "num_lines": 96, "path": "/examples/ternary_optimizer.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.calculations import relax, proj_dos # Basic QE calculation types that we will use\nfrom qet.alchemy.network import alch_network # The alchemical optimization method that we will use\nfrom qet.alchemy import mutations # The alchemical moves that we will employ\nfrom qet.examples.initial_ternaries import get_initial_ternaries # Initial seed structures for this example\n\ndef h_dos(structure):\n\n # Relax the structure\n res = relax(structure).run()\n \n # Update the structure to the relaxed version\n structure[\"atoms\"] = res[\"relaxed atoms\"]\n structure[\"lattice\"] = res[\"relaxed lattice\"]\n\n # Calculate the DOS\n res = proj_dos(structure).run()\n\n # Get the fraction of the DOS due to hydrogens\n total_dos = 0.0\n hydrogen_dos = 0.0\n\n # Loop over atoms and atomic wavefunctions\n for atom_number in res[\"PDOS (fermi energy)\"]:\n for wfc_number in res[\"PDOS (fermi energy)\"][atom_number]:\n\n # Get the type of atom and the contribution to the DOS at E_F\n atom_name = res[\"PDOS atom names\"][atom_number][wfc_number]\n dos_ef = res[\"PDOS (fermi energy)\"][atom_number][wfc_number]\n\n # Accumulate the total and hydrogen DOS\n total_dos += dos_ef\n if atom_name == \"H\":\n hydrogen_dos += dos_ef\n\n return hydrogen_dos/total_dos\n\ndef is_valid(structure):\n \n MAX_NON_H = 6\n MIN_H_PER_NON_H = 1\n MAX_H_PER_NON_H = 8\n\n species = structure[\"species\"]\n if len(species) != 3: return False # Only ternaries\n\n counts = structure[\"atom_counts\"]\n non_hs = sum([counts[e] for e in counts if not e == \"H\"])\n\n # Limit on non-hydrogens\n if non_hs > MAX_NON_H : return False\n\n # Limits on number of hydrogens\n if counts[\"H\"] > MAX_H_PER_NON_H * non_hs: return False\n if counts[\"H\"] < MIN_H_PER_NON_H * non_hs: return False\n\n return True\n\ndef maximize_hdos(muts, init_structures=None):\n\n # Load/create the network\n nw = alch_network(\"network\")\n\n # Add the seed structures\n if init_structures is None: init_structures = get_initial_ternaries()\n for structure in init_structures:\n nw.create_vertex(structure)\n\n # Setup the function to minimize\n to_min = lambda s : -h_dos(s)\n \n # Optimize the network\n for n in range(0, 100):\n nw.expand_to_minimize(to_min, muts, is_valid=is_valid)\n\ndef fd3m_search():\n \n # General search around the Fd3m structure\n init = get_initial_ternaries()\n maximize_hdos(mutations.all_mutations, init_structures = [init[0]])\n\ndef general_search():\n\n # Search using all mutations available\n maximize_hdos(mutations.all_mutations)\n\ndef stoichiometry_search():\n\n # Allow stoichiometry modifications only\n maximize_hdos([mutations.substitute_random_species,\n mutations.remove_random_atom,\n mutations.duplicate_random_atom])\n\ndef substitution_search():\n\n # Allow substitutions only, dont modify the number of atoms\n maximize_hdos([mutations.substitute_random_species])\n" }, { "alpha_fraction": 0.6546533107757568, "alphanum_fraction": 0.6751824617385864, "avg_line_length": 29.44444465637207, "blob_id": "caacaf776943d5459ff5a6a2f7f9fb07fdda0b2f", "content_id": "f7be60fae2b3efb264cfb5987545082d7bfd1a11", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2192, "license_type": "no_license", "max_line_length": 89, "num_lines": 72, "path": "/examples/find_best_metal.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.alchemy.optimize import optimize\nfrom qet.alchemy import mutations\nfrom qet.params import parameters\nfrom qet.calculations import relax, dos\n\nstart_structure = parameters()\n\n# Start with a poor metal, BCC Lithium\nstart_structure[\"atoms\"] = [\n [\"Li\", [0.0, 0.0, 0.0]]\n]\n\nstart_structure[\"lattice\"] = [\n [-1.8, 1.8, 1.8],\n [ 1.8, -1.8, 1.8],\n [ 1.8, 1.8, -1.8],\n]\n\n# Use cheap parameters for this test\nstart_structure[\"ecutwfc\"] = 40\nstart_structure[\"ecutrho\"] = 400\nstart_structure[\"kpoint_spacing\"] = 0.05\nstart_structure[\"pseudo_dir\"] = \"/home/mjh261/rds/rds-t2-cs084/pseudopotentials/gbrv\"\n\n# The mutations we're allowed to make to\n# the structure during the optimization\nallowed_mutations = [\n mutations.substitute_random_species,\n #mutations.remove_random_atom, # There would be no point doing these mutations\n #mutations.duplicate_random_atom, # as we restrict the serach to 1 atom per cell\n #mutations.shuffle_atoms, # anyway.\n]\n\n# Only consider structures with a single atom per cell\n# (not that we can get more with the above mutations anyway)\ndef is_valid(structure):\n if len(structure[\"atoms\"]) > 1: return False\n return True\n\n# This is the thing we're trying to minimize.\n# In our case, relax the structure and calculate\n# the density of states at the fermi level.\n# - DOS(E_F) is then the objective because,\n# for a good metal, we want to maximize DOS(E_F).\ndef objective(structure):\n\n # Relax the structure\n rlx = relax(structure)\n rlx_result = rlx.run()\n\n # Set the geometry to the relaxed geometry\n structure[\"atoms\"] = rlx_result[\"relaxed atoms\"]\n structure[\"lattice\"] = rlx_result[\"relaxed lattice\"]\n\n # Calcualte the density of states\n # of the relaxed geometry\n ds = dos(structure)\n ds_result = ds.run()\n\n return -ds_result[\"DOS (E_F)\"]\n\n# We consider materials with the same stochiometry equivelant\ndef compare_structures(lattice_1, atoms_1, lattice_2, atoms_2):\n return True\n\noptimize(\n start_structure,\n objective,\n allowed_mutations,\n check_valid = is_valid,\n structure_compare = compare_structures\n)\n" }, { "alpha_fraction": 0.5205430388450623, "alphanum_fraction": 0.5387040376663208, "avg_line_length": 31.125431060791016, "blob_id": "dbba7b33155d3a1bf058b912bdab0053ab87c8d8", "content_id": "8cc036a51856c5227bf0a6ba26038c0b6882a5f3", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 27917, "license_type": "no_license", "max_line_length": 189, "num_lines": 869, "path": "/plots.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.params import parameters as params\nimport qet.parser as parser\nimport qet.constants as constants\nimport os\nimport math\n\n# Get a series of plottable colors\n# indexed by n, cycling\ndef color_cycle(n):\n arr = [\n [1.0, 0.0, 0.0],\n [0.0, 1.0, 0.0],\n [0.0, 0.0, 1.0],\n [1.0, 1.0, 0.0],\n [1.0, 0.0, 1.0],\n [0.0, 1.0, 1.0],\n [1.0, 0.5, 0.0],\n [1.0, 0.0, 0.5],\n [0.5, 1.0, 0.0],\n [0.0, 1.0, 0.5],\n [0.5, 0.0, 1.0],\n [0.0, 0.5, 1.0]\n ]\n\n return arr[n % len(arr)]\n\n# Plot the density of states calculated\n# with output file given by filename\ndef plot_dos(filename=\"./dos.out\"):\n import matplotlib.pyplot as plt\n \n # Parse the DOS\n out = parser.dos_out(filename)\n\n plt.plot(out[\"DOS energies\"], out[\"DOS (energy)\"], color=\"blue\", label=\"DOS ($E$)\")\n plt.axvline(out[\"fermi energy\"], color=\"red\", label=\"Fermi energy\")\n plt.axhline(out[\"DOS (E_F)\"], color=\"green\", label=\"DOS ($E_f$)\")\n plt.legend()\n plt.show()\n\n# Plot the phonon density of states in \n# the given .dos file\ndef plot_pdos(filename=\"./ph_interp.dos\"):\n import matplotlib.pyplot as plt\n import numpy as np\n \n # Parse DOS file\n out = parser.phonon_interp_dos_out(filename)\n\n # Work out average frequency\n freqs = out[\"frequencies\"]\n dos_norm = np.array(out[\"dos\"])\n dos_norm /= np.trapz(dos_norm, x=freqs)\n av_freq = np.trapz([fd for f,d in zip(freqs, dos_norm)], x=freqs)\n\n # Plot DOS\n plt.plot(out[\"frequencies\"], out[\"dos\"])\n plt.xlabel(\"Frequency (cm$^{-1}$)\\naverage = \"+str(av_freq))\n plt.ylabel(\"Phonon DOS\")\n plt.show()\n\n# Plot the projected density of states calculated\n# with output file given by filename\ndef plot_proj_dos(filename=\"./proj_dos.out\"):\n import matplotlib.pyplot as plt\n \n # Parse the projected density of states\n out = parser.proj_dos_out(filename)\n\n dos_plot = plt.subplot(311)\n df_plot = plt.subplot(312)\n tot_dos_plot = plt.subplot(313)\n \n labels = []\n dfs = []\n\n e_fermi = out[\"fermi energy\"]\n total_dos = None\n\n # Loop over atoms/wavefunctions\n for atom_num in sorted(out[\"PDOS energies\"]):\n for wfn_num in sorted(out[\"PDOS energies\"][atom_num]):\n\n # Get energies, projected dos, atom name \n # and wavefunction name\n es = out[\"PDOS energies\"][atom_num][wfn_num]\n ps = out[\"PDOS (energy)\"][atom_num][wfn_num]\n an = out[\"PDOS atom names\"][atom_num][wfn_num]\n wf = out[\"PDOS wfc names\"][atom_num][wfn_num]\n df = out[\"PDOS (fermi energy)\"][atom_num][wfn_num]\n\n # Plot in eV relative to fermi level\n es = [(x - e_fermi)constants.RY_TO_EV for x in es]\n\n if total_dos is None: total_dos = ps\n else: total_dos = [t+p for t,p in zip(total_dos, ps)]\n\n # Plot this projected DOS\n label = \"Atom {0} ({1}) wfn {2} ({3})\"\n label = label.format(atom_num, an, wfn_num, wf)\n dos_plot.plot(es,ps,label=label)\n\n labels.append(label)\n dfs.append(df)\n\n dos_plot.axvline(0.0, linestyle=\":\", label=\"Fermi energy\")\n dos_plot.set_xlabel(\"Energy (eV)\")\n dos_plot.set_ylabel(\"PDOS\")\n dos_plot.set_title(\"PDOS\")\n dos_plot.legend(ncol=int(len(labels)*0.5))\n\n tot_dos_plot.plot(es, total_dos)\n tot_dos_plot.set_xlabel(\"Energy (eV)\")\n tot_dos_plot.set_ylabel(\"Total DOS\")\n tot_dos_plot.axvline(0.0, linestyle=\":\", label=\"Fermi energy\")\n tot_dos_plot.legend()\n\n # Plot the densities of states at the fermi level\n x = range(0, len(labels))\n df_plot.bar(x, dfs)\n df_plot.set_xticks(x)\n df_plot.set_xticklabels([])\n df_plot.set_ylabel(\"PDOS\")\n df_plot.set_title(\"Density of states $(E_{fermi})$\")\n \n for i in range(0, len(labels)):\n df_plot.text(x[i], 0, \" \" + labels[i], rotation=90)\n\n # Show the plot\n plt.show()\n\ndef plot_h_derived_dos(filename=\"./proj_dos.out\", plot=True):\n if plot:\n import matplotlib.pyplot as plt\n \n # Parse the projected density of states\n out = parser.proj_dos_out(filename)\n\n # Get the fermi energy\n e_fermi = out[\"fermi energy\"]\n\n h_dos = None\n non_h_dos = None\n \n # Loop over atoms/wavefunctions\n for atom_num in sorted(out[\"PDOS energies\"]):\n for wfn_num in sorted(out[\"PDOS energies\"][atom_num]):\n\n # Get energies, projected dos, atom name \n # and wavefunction name\n es = out[\"PDOS energies\"][atom_num][wfn_num]\n ps = out[\"PDOS (energy)\"][atom_num][wfn_num]\n an = out[\"PDOS atom names\"][atom_num][wfn_num]\n wf = out[\"PDOS wfc names\"][atom_num][wfn_num]\n df = out[\"PDOS (fermi energy)\"][atom_num][wfn_num]\n\n # Plot in eV relative to fermi level\n es = [(x - e_fermi)constants.RY_TO_EV for x in es]\n\n # Accumulate hydrogen, or non-hydrogen dos\n if an.lower() == \"h\":\n if h_dos is None: h_dos = ps\n else: h_dos = [h + p for h,p in zip(h_dos, ps)]\n else:\n if non_h_dos is None: non_h_dos = ps\n else: non_h_dos = [n + p for n,p in zip(non_h_dos, ps)]\n\n if (h_dos is None):\n print(filename+\" has no hydrogen!\")\n return [0, False]\n\n if (non_h_dos is None):\n print(filename+\" is purely hydrogen!\")\n return [0, False]\n\n # Work out the dos ratio\n ratio = [0 if abs(h) < 10e-10 else h/(h+n) for h,n in zip(h_dos, non_h_dos)]\n\n # Work out the index of the fermi energy\n i_fermi = 0\n min_abs = float(\"inf\") \n for i in range(0, len(es)):\n if abs(es[i]) < min_abs:\n min_abs = abs(es[i])\n i_fermi = i\n\n val_band_max = i_fermi\n con_band_min = i_fermi\n\n dos_thresh = 10e-3\n if h_dos[i_fermi] + non_h_dos[i_fermi] < dos_thresh:\n\n # This is an insulator, identify the band edges\n while con_band_min < len(es):\n if h_dos[con_band_min] + non_h_dos[con_band_min] > dos_thresh:\n break\n con_band_min = con_band_min + 1\n\n while val_band_max >= 0:\n if h_dos[val_band_max] + non_h_dos[val_band_max] > dos_thresh:\n break\n val_band_max = val_band_max - 1\n\n # Will contain doping values and coresponding hydrogen-dos ratio changes\n doping_res = []\n\n # Work out the result of positive doping\n for i in range(con_band_min, len(es)):\n doping = es[i] - es[con_band_min]\n if abs(doping) > 0.2: break # Too much doping\n doping_res.append([doping, ratio[i] - ratio[con_band_min], h_dos[i]])\n \n # Work out the result of negative doping\n for i in range(val_band_max, -1, -1):\n doping = es[i] - es[val_band_max]\n if abs(doping) > 0.2: break # Too much doping\n doping_res.append([doping, ratio[i] - ratio[val_band_max], h_dos[i]])\n\n # Work out if this is a metal, or an insulator\n is_metal = val_band_max == con_band_min\n\n doping_res.sort()\n doping, dosinc, doping_hdos = zip(doping_res)\n\n # Work out a score based on the maximum increase in the DOS\n i_max = dosinc.index(max(dosinc))\n score = dosinc[i_max]/abs(doping[i_max])\n\n if plot:\n\n # Plot stuff\n plt.subplot(311)\n plt.xlabel(\"Energy (eV)\")\n plt.ylabel(\"DOS\")\n plt.plot(es, h_dos, label=\"Hydrogen derived DOS\")\n plt.plot(es, non_h_dos, label=\"Non-hydrogen DOS\")\n plt.axvline(0, color=\"black\", linestyle=\":\", label=\"Fermi energy\")\n plt.axvline(es[val_band_max], color=\"blue\")\n plt.axvline(es[con_band_min], color=\"blue\")\n plt.legend()\n\n plt.subplot(312)\n plt.xlabel(\"Energy (eV)\")\n plt.ylabel(\"Hydrogen-derived DOS ratio\")\n plt.plot(es, ratio)\n plt.axvline(0, color=\"black\", linestyle=\":\", label=\"Fermi energy\")\n plt.axvline(es[val_band_max], color=\"blue\")\n plt.axvline(es[con_band_min], color=\"blue\")\n plt.legend()\n\n plt.subplot(313)\n plt.xlabel(\"Doping (eV)\")\n plt.ylabel(\"Change in Hydrogen DOS ratio\")\n plt.plot(doping, dosinc)\n plt.axhline(0, color=\"black\", label=\"No DOS ratio change\")\n plt.axvline(doping[i_max], color=\"green\", label=\"Max DOS increase, score = {0}\".format(score))\n plt.legend()\n\n plt.show()\n\n return [score, is_metal]\n\ndef rank_doping(dirs):\n\n score_name = []\n for d in dirs:\n s, m = plot_h_derived_dos(filename=d+\"/proj_dos.out\", plot=False)\n score_name.append([s,d, m])\n\n score_name.sort()\n for s, d, m in score_name:\n print(s,d,\"metal\" if m else \"insulator\")\n\ndef plot_ebands(filename=\"./e_bands.in\"):\n import matplotlib.pyplot as plt\n\n start = False\n exp_count = None\n kpoints = []\n labels = {}\n kpoints_at_labels = {}\n with open(filename) as f:\n for line in f:\n if not start:\n if \"K_POINTS\" in line:\n start = True\n continue\n\n if exp_count is None:\n exp_count = int(line)\n continue\n\n k = [float(x) for x in line.split()[0:3]]\n kpoints.append(k)\n\n if \"!\" in line:\n labels[len(kpoints)-1] = line.split(\"!\")[-1].strip()\n kpoints_at_labels[len(kpoints)-1] = k\n\n e_fermi = None\n outf = filename.replace(\".in\", \".out\")\n if os.path.isfile(outf):\n with open(outf) as f:\n for line in f:\n if \"the Fermi energy is\" in line:\n e_fermi = float(line.split()[-2])\n\n if e_fermi is None:\n print(\"Could not identify the fermi energy!\")\n e_fermi = 0.0\n else:\n plt.axhline(0.0, color=\"black\")\n\n out = parser.extract_bands_out(filename)\n bands = zip(out[\"bands\"])\n i = 0\n for b in bands:\n plt.plot([x - e_fermi for x in b])\n i = i+1\n print(\"Plotting {0} bands\".format(i))\n\n for i in labels:\n plt.axvline(i, color=\"black\", linestyle=\":\")\n plt.xticks([i for i in labels], [labels[i] + str(kpoints_at_labels[i]) for i in labels], rotation=90)\n plt.ylabel(\"Energy (eV)\")\n\n plt.show()\n\ndef plot_a2f(filename=\"./a2F.dos1\", safe=False):\n import matplotlib.pyplot as plt\n from qet.calculations import tc_from_a2f_allen_dynes, tc_allen_dynes\n \n out = parser.a2f_dos_out(filename)\n tc = tc_from_a2f_allen_dynes(filename)\n\n # Convert frequencies to Cm^-1\n ws = out[\"frequencies\"] \n ws = [wconstants.RY_TO_CMM1 for w in ws]\n\n # Start first plot (a2f)\n plt.subplot(211)\n\n # Run over mode-resolved eliashberg functions\n total = None\n i_mode = 1\n while \"a2f_mode_{0}\".format(i_mode) in out:\n\n # Get this constribution and the cumulative total\n a2f_mode = out[\"a2f_mode_{0}\".format(i_mode)]\n if total is None: total = [0.0 for a in a2f_mode]\n ta_func = lambda t,a : t+a\n if safe: ta_func = lambda t,a : max(t+a,0)\n new_total = [ta_func(t,a) for t,a in zip(total, a2f_mode)]\n\n if safe:\n for i in range(0, len(ws)):\n if ws[i] < 0:\n new_total[i] = 0\n\n # Fill in this contribution\n plt.fill_between(ws, total, new_total)\n \n # Move to next node\n total = new_total\n i_mode += 1\n\n plt.suptitle(\"$Tc \\in [{0}, {1}]$\".format(round(tc[0.15]), round(tc[0.1])))\n plt.xlabel(\"Frequency $\\\\omega$ (cm$^{-1}$)\")\n plt.ylabel(\"$\\\\alpha^2F(\\\\omega)$\\n(colored by mode)\")\n\n # Start second plot (d(Tc)/d(a2f))\n plt.subplot(212)\n\n a2f = out[\"a2f\"]\n epsilon = max(a2f)/1000.0\n tc_0 = tc[0.1]\n dtc_da2f = [0.0]len(a2f)\n\n for i in range(len(a2f)):\n a2f_tmp = list(a2f)\n a2f_tmp[i] += epsilon\n tc_1 = tc_allen_dynes(out[\"frequencies\"], a2f_tmp, mu_stars=[0.1])[0.1]\n dtc_da2f[i] = (tc_1 - tc_0)/epsilon\n\n plt.plot(ws, dtc_da2f)\n plt.axhline(0, color=\"black\")\n plt.xlabel(\"Frequency $\\\\omega$ (cm$^{-1}$)\")\n plt.ylabel(\"$d(T_c)/d(\\\\alpha^2F)(\\\\omega)$\")\n\n # Show the plot\n plt.show()\n\ndef plot_a2fs(filenames=[]):\n import matplotlib.pyplot as plt\n \n for f in filenames:\n out = parser.a2f_dos_out(f)\n ws = out[\"frequencies\"] \n ws = [wconstants.RY_TO_CMM1 for w in ws]\n a2f = out[\"a2f\"]\n was = [[w,a] if (w > 0 and a > 0) else [w,0] for w,a in zip(ws, a2f)]\n ws, a2fs = zip(was)\n\n plt.fill_between(ws, 0, a2fs, alpha=0.5, label=f)\n\n plt.ylabel(\"$\\\\alpha^2F(\\\\omega)$\")\n plt.xlabel(\"Phonon frequency $(\\\\omega, cm^{-1})$\")\n plt.legend()\n plt.show()\n\n# Returns the squared distnace between two points\n# in reciprocal space, including folding\ndef delta_q(q, p):\n q = [x - math.floor(x) for x in q]\n p = [x - math.floor(x) for x in p]\n d = [abs(q[i] -p[i]) for i in range(3)]\n return sum(xx for x in d)\n\ndef plot_phonon_dispersion(filename=\"./ph_interp.freq\"):\n import matplotlib.pyplot as plt \n\n # Load the structure from an scf.in file\n # in the current directory\n p = params()\n p.load_from_qe_input(\"scf.in\")\n\n # Parse filename for the phonon modes\n q_point = None\n modes = {}\n with open(filename) as f:\n for line in f:\n try:\n splt = [float(x) for x in line.split()]\n if len(splt) == 3 and all(x <= 1.0 and x >= 0.0 for x in splt):\n q_point = tuple(splt)\n else:\n if not q_point in modes:\n modes[q_point] = []\n modes[q_point].extend(splt)\n except:\n pass\n\n # Perform nearest neighbour interpolation\n # along the BZ path, to obtain a phonon dispersion\n dispersion = []\n for q in p[\"bz_path\"]:\n q = tuple(q)\n\n found = None\n min_dis = float(\"inf\")\n for q2 in modes:\n dis = delta_q(q,q2)\n if dis < min_dis:\n min_dis = dis\n found = q2\n \n dispersion.append(modes[found])\n\n # Plot the phonon dispersion\n plt.ylabel(\"Frequency (cm^-1)\")\n plt.axhline(0, color=\"black\")\n for mode in zip(dispersion):\n plt.plot(mode)\n\n # Label high-symmetry points\n hsp = p[\"high_symmetry_bz_points\"]\n path = p[\"bz_path\"]\n ticks = []\n labels = []\n ymax = plt.gca().get_ylim()[1]\n for pt in hsp:\n plt.axvline(pt, color=[0.5,0.5,0.5])\n ticks.append(pt)\n plt.annotate(\", \".join(str(x) for x in path[pt]), (pt, ymax/2), \n rotation=90, backgroundcolor=(1,1,1,0.5))\n labels.append(hsp[pt])\n\n plt.xticks(ticks=ticks, labels=labels, rotation=90)\n plt.show()\n\ndef plot_phonon_mode_atoms(filename=\"./ph_interp.modes\"):\n import matplotlib.pyplot as plt\n import numpy as np\n\n # Parse the phonon mode frequencies and atom-resolved\n # magnitudes of the corresponding eigenvectors.\n modulus = lambda v : (v[0]v[0] + v[1]v[1] + v[2]v[2])0.5\n modes = parser.phonon_interp_modes(filename)\n freqs = modes[\"frequencies\"]\n evecs = [[modulus(x) for x in ev] for ev in modes[\"eigenvectors\"]]\n\n # Bin the atom-resolved displacement vs frequency of the phonons\n BINS = 1000\n minf = min(freqs)\n maxf = max(freqs)\n atoms = len(evecs[0])\n bins = np.zeros((atoms, BINS+1))\n\n # Loop over modes\n for i in range(0, len(freqs)):\n f = freqs[i]\n\n b = (f-minf)/(maxf-minf)\n b = int(b BINS)\n\n for j in range(0, atoms):\n bins[j][b] += evecs[i][j]\n\n # Attempt to parse atom names from scf.in file\n atom_names = []\n started = False\n scf_file = os.path.dirname(filename)+\"/scf.in\"\n if os.path.isfile(scf_file):\n with open(scf_file) as f:\n for line in f:\n if len(atom_names) >= atoms: break\n if \"ATOMIC_POSITIONS\" in line:\n started = True\n continue\n if started: atom_names.append(line.split()[0])\n\n # Failed, just use numbers\n if len(atom_names) < atoms:\n atom_names = range(atoms)\n\n # Colors for the various atoms\n atom_colors = {}\n for n in atom_names:\n if n in atom_colors: continue\n atom_colors[n] = color_cycle(len(atom_colors)-1)\n\n # Plot atom-resolved eigenvectors\n total = np.zeros(BINS+1)\n freqs = np.linspace(minf, maxf, BINS+1)\n for j in range(0, atoms):\n\n color = atom_colors[atom_names[j]]\n new_total = total + bins[j]\n\n plt.fill_between(freqs, total, new_total, \n label=\"atom: {0}\".format(atom_names[j]),\n color=color)\n\n atom_colors[atom_names[j]] = [c * 0.8 for c in color]\n total = new_total\n\n plt.legend(ncol=int(atoms*0.5))\n plt.show()\n\ndef plot_tc_vs_smearing(directories=[\"./\"], \n force_allen_dynes=False, ask=False, plot_relative=False, \n plot_over_1000=False, attenuation_freq=None, show=True, mu_stars=[0.1, 0.15], \n plot_lambda=False):\n from qet.calculations import tc_from_a2f_allen_dynes\n\n if not attenuation_freq is None:\n attenuation_freq = constants.CMM1_TO_RY\n\n if len(directories) == 0:\n print(\"No directories to plot in tc_vs_smearing!\")\n return\n\n # Sort directories into decreasing k-point grid \n # size so the first grid is the densest\n def sort_key(direc):\n try: return -int(direc.split(\"_\")[-1])\n except: return 0\n directories.sort(key=sort_key)\n \n if ask:\n txt = input(\"Would you like to plot {0} (n to skip)?\".format(directories[0]))\n if txt == \"n\":\n return\n\n import matplotlib.pyplot as plt\n\n title = directories[0]\n if os.path.isfile(directories[0]+\".in\"):\n p = params(directories[0]+\".in\")\n title = p[\"space_group_name\"]+\" \"+p[\"stoichiometry_string\"]\n plt.suptitle(title)\n print(\"first directory: \"+directories[0]+\"({0})\".format(title))\n\n if plot_relative:\n print(\"Plotting relative\")\n tc_rel = None\n lam_rel = None\n\n if plot_lambda:\n tc_plot = plt.subplot(211)\n lam_plot = plt.subplot(212)\n else:\n tc_plot = plt\n lam_plot = None\n\n # Will contain the method used to evaluate Tc\n method = \"None\"\n\n for directory in directories:\n if not os.path.isdir(directory):\n print(\"Directory \"+directory+\" not found, skipping...\")\n continue\n\n tcs1 = []\n tcs2 = []\n method = \"Allen-Dynes\"\n\n # Loop over a2f.dos files\n for f in os.listdir(directory):\n if not \"a2F.dos\" in f: continue\n f = directory+\"/\"+f \n n = int(f.split(\"a2F.dos\")[-1])\n\n # Attempt to read Tc from elk directory\n elk_dir = directory + \"/tc_dos_{0}\".format(n)\n if os.path.isdir(elk_dir) and not force_allen_dynes:\n\n # Work out lambdas/allen dynes Tc\n tcs_ad, lam = tc_from_a2f_allen_dynes(f, mu_stars=mu_stars, get_lambda=True)\n\n if method != \"Eliashberg\":\n method = \"Eliashberg\"\n mu_stars = []\n\n for mu_dir in os.listdir(elk_dir):\n mu = float(mu_dir.split(\"_\")[-1])\n mu_stars.append(mu)\n mu_dir = elk_dir + \"/\" + mu_dir\n tc_f = mu_dir + \"/tc.out\"\n if not os.path.isfile(tc_f): continue\n\n with open(tc_f) as f:\n for line in f:\n if \"liashberg\" in line:\n tc = float(line.split()[0])\n if len(tcs1) == len(tcs2): tcs1.append([n, tc, lam])\n else: tcs2.append([n, tc, lam])\n\n # No elk directory, calculate using allen-dynes\n else:\n\n # Some of the a2F.dos files had Eliashberg, some didn't\n if method != \"Allen-Dynes\": method = \"Mixed\"\n\n try:\n # Get tc for two different mu* values\n tcs, lam = tc_from_a2f_allen_dynes(f, mu_stars=mu_stars, \n attenuation_freq=attenuation_freq, get_lambda=True)\n tcs1.append([n, tcs[mu_stars[0]], lam])\n tcs2.append([n, tcs[mu_stars[1]], lam])\n except Exception as e:\n print(\"Exception in Allen-Dynes TC: \"+str(e))\n continue\n\n # No data => skip\n if len(tcs1) == 0 or len(tcs2) == 0:\n print(\"No data in \"+directory)\n continue\n\n # Sort by acending smearing\n tcs1.sort()\n tcs2.sort()\n\n ns, tc1, lam1 = zip(tcs1)\n ns, tc2, lam2 = zip(tcs2)\n\n # Attempt to find el_ph_sigma in .in files\n el_ph_sigma = None\n for f in os.listdir(directory):\n if not f.endswith(\".in\"): continue\n f = directory+\"/\"+f\n\n with open(f) as of:\n for line in of:\n if \"el_ph_sigma\" in line:\n try:\n el_ph_sigma = float(line.split(\"=\")[-1].replace(\",\",\"\"))\n except:\n continue\n\n # Label with what we're plotting on the x-axis\n if el_ph_sigma is None: \n plt.xlabel(\"Smearing number\")\n else:\n ns = [el_ph_sigman for n in ns]\n plt.xlabel(\"Smearing width $\\\\sigma$ (Ry)\")\n\n if plot_relative and tc_rel is None:\n tc_rel = tc1[-1]\n lam_rel = lam1[-1]\n elif not (tc_rel is None):\n diff = tc1[-1] - tc_rel\n difflam = lam1[-1] - lam_rel\n tc1 = [t1 - diff for t1 in tc1]\n tc2 = [t2 - diff for t2 in tc2]\n lam1 = [l1 - difflam for l1 in lam1]\n lam2 = [l2 - difflam for l2 in lam2]\n\n tc_plot.fill_between(ns, tc1, tc2, alpha=0.25, label=directory) \n tc_plot.plot(ns, tc2, linestyle=\"none\", marker=\"+\")\n if lam_plot:\n tc_plot.set_ylabel(\"$T_C$ ({0} with $\\\\mu^ \\\\in \\; [{1}, {2}]$)\".format(method, mu_stars))\n else:\n tc_plot.ylabel(\"$T_C$ ({0} with $\\\\mu^ \\\\in \\; [{1}, {2}]$)\".format(method, mu_stars))\n tc_plot.legend()\n\n if not lam_plot is None:\n lam_plot.plot(ns, lam1, label=directory)\n lam_plot.set_ylabel(\"$\\lambda$\")\n lam_plot.legend()\n\n if not plot_over_1000:\n axes = tc_plot\n if tc_plot == plt: axes=tc_plot.gca()\n if axes.get_ylim()[1] > 1000.0:\n print(\"Found T_C > 1000 K, rescaling axis\")\n print(tc1)\n axes.set_ylim([-10,1000])\n\n plt.legend()\n if show: plt.show()\n\ndef plot_tc_vs_smearing_both(directories=[], plot_relative=False, mu_stars=[0.1,0.15]):\n import matplotlib.pyplot as plt\n plt.subplot(211)\n plot_tc_vs_smearing(directories, force_allen_dynes=True, plot_relative=plot_relative, show=False, mu_stars=mu_stars)\n plt.subplot(212)\n plot_tc_vs_smearing(directories, plot_relative=plot_relative, mu_stars=mu_stars)\n\ndef plot_alch_network(directory=None):\n from qet.alchemy.network import plot_alch_network\n plot_alch_network(directory=directory, pickle=False)\n\ndef plot_cube_file(filename=\"density.cub\"):\n import numpy as np\n import matplotlib.pyplot as plt\n \n vol_data = []\n atoms = 0\n with open(filename) as f:\n i = 0\n for line in f:\n\n # Parse atom count on line 2\n if i == 2: \n atoms = int(line.split()[0])\n\n # Parse grid info on lines 3,4,5\n elif i == 3: \n x_grid = int(line.split()[0])\n x_vec = [float(x) for x in line.split()[1:]]\n elif i == 4: \n y_grid = int(line.split()[0])\n y_vec = [float(x) for x in line.split()[1:]]\n elif i == 5: \n z_grid = int(line.split()[0])\n z_vec = [float(x) for x in line.split()[1:]]\n\n # Parse volumetric data\n elif i > 5 + atoms:\n vol_data.extend([float(x) for x in line.split()])\n\n i = i + 1\n\n if len(vol_data) != x_gridy_gridz_grid:\n raise Exception(\"Volumetric data size does not match grid size in .cub file!\")\n\n print(\"Cube file with {0} atoms on a {1}x{2}x{3} grid found\".format(atoms, x_grid, y_grid, z_grid))\n print(\"{0} volumetric datapoints found\".format(len(vol_data)))\n\n def get_val_from_frac(x,y,z):\n # Convert from fractional coords to grid coord\n i = z(z_grid-1) + y(y_grid-1)z_grid + x(x_grid-1)y_gridz_grid\n return vol_data[int(i)]\n\n RES = 1000\n bins = np.zeros((RES,RES))\n for i, xf in enumerate(np.linspace(0,1,RES)):\n for j, yf in enumerate(np.linspace(0,1,RES)):\n bins[i,j] = get_val_from_frac(xf,yf,0.5)\n \n plt.imshow(bins)\n plt.show()\n\ndef plot_2d_density(files=[\"density.out\"]):\n import numpy as np\n import matplotlib.pyplot as plt\n import matplotlib.gridspec as gridspec\n\n \n n = int(len(files)0.5)+1\n gs = gridspec.GridSpec(n, n)\n gs.update(wspace=0, hspace=0)\n\n nplot = 0\n for filename in files:\n \n ds = []\n with open(filename) as f:\n for line in f:\n try: ds.append(float(line))\n except: pass\n\n n = int(len(ds)0.5)\n grid = np.zeros((n,n))\n for i in range(0,n):\n for j in range(0,n):\n grid[i,j] = ds[i+nj]\n\n plt.subplot(gs[nplot])\n nplot += 1\n plt.imshow(grid)\n\n plt.show()\n\n# Run like a program\ndef main():\n import sys\n\n ask = \"ask\" in sys.argv\n rel = \"rel\" in sys.argv\n safe = \"safe\" in sys.argv\n p1000 = \"plot_1000\" in sys.argv\n\n att_freq = None\n mu_stars = [0.1, 0.15]\n for a in sys.argv[2:]:\n\n if a.startswith(\"att_freq=\"):\n att_freq = float(a.split(\"=\")[-1])\n break\n\n if a.startswith(\"mu_stars=\"):\n mu_stars = [float(x) for x in a.split(\"=\")[-1].split(\",\")]\n break\n\n\n\n # The possible tasks to invoke\n invoke_list = {\n \"tc_vs_smearing\" : lambda : plot_tc_vs_smearing(sys.argv[2:], ask=ask, plot_relative=rel, plot_over_1000=p1000, attenuation_freq=att_freq, plot_lambda=True, mu_stars=mu_stars),\n \"tc_vs_smearing_ad\" : lambda : plot_tc_vs_smearing(sys.argv[2:], force_allen_dynes=True, ask=ask, plot_relative=rel),\n \"tc_vs_smearing_both\" : lambda : plot_tc_vs_smearing_both(sys.argv[2:], plot_relative=rel, mu_stars=mu_stars),\n \"a2f\" : lambda : plot_a2f(sys.argv[2], safe=safe),\n \"a2fs\" : lambda : plot_a2fs(sys.argv[2:]),\n \"alch_network\" : lambda : plot_alch_network(sys.argv[2]),\n \"proj_dos\" : lambda : plot_proj_dos(),\n \"proj_dos_h\" : lambda : plot_h_derived_dos(),\n \"rank_doping\" : lambda : rank_doping(sys.argv[2:]),\n \"pdos\" : lambda : plot_pdos(),\n \"ebands\" : lambda : plot_ebands(),\n \"phonon_atoms\" : lambda : plot_phonon_mode_atoms(),\n \"phonon_dispersion\" : lambda : plot_phonon_dispersion(),\n \"cube_file\" : lambda : plot_cube_file(),\n \"2d_density\" : lambda : plot_2d_density(sys.argv[2:]),\n }\n\n # Check arguments\n if len(sys.argv) < 2 or not sys.argv[1] in invoke_list:\n print(\"The first argument to plots.py should be one of:\")\n for i in invoke_list:\n print(\" \"+i)\n return\n\n invoke_list[sys.argv[1]]()\n\n# Check if we are directly invoking this script, if so\n# run plots.py as a program\nif __name__ == \"__main__\": main()\n" }, { "alpha_fraction": 0.6055588126182556, "alphanum_fraction": 0.6303961873054504, "avg_line_length": 32.156864166259766, "blob_id": "5d03b84fa454f02d80e0eb3d21f074f419392295", "content_id": "79e7bd2a32190376db3f6adb0ba1a4ba42e793e9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1691, "license_type": "no_license", "max_line_length": 95, "num_lines": 51, "path": "/alchemy/elements.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "import os, random\nfrom qet.elements import data\n\n# Atom-substitution counts based on the ICSD\n# (useful for alchemical optimization)\n#\n# from\n# https://tddft.org/bmg/files/data/pettifor/raw_data/substitution.dat\n#\n# based on the paper\n# https://doi.org/10.1088%2F1367-2630%2F18%2F9%2F093011\n#\n\n# Parse from substitution.dat\natom_substitutions = {}\nbase_dir = os.path.dirname(os.path.abspath(__file__))\nwith open(base_dir+\"/substitution.dat\") as f:\n i = -1\n for line in f:\n i += 1\n if i < 1: continue # First row/colum is padded with zeros\n ints = [int(w) for w in line.split()]\n\n # Get substitute atoms, sorted by frequency\n subs = {data[j-1][2] : c for j, c in enumerate(ints) if c > 0 and j > 0}\n subs = {k: v for k, v in sorted(subs.items(), key=lambda item: -item[1])}\n\n atom_substitutions[data[i-1][2]] = subs\n\n# Propose a substitution for atom e\ndef propose_substitution(e, restrict_to=None, print_options=False, guarantee_restriction=True):\n\n # Choose the atom based on the atom substitution matrix\n options = atom_substitutions[e]\n if not restrict_to is None:\n options = {o : options[o] for o in options if o in restrict_to}\n if guarantee_restriction:\n for r in restrict_to:\n if not r in options:\n options[r] = 1\n\n if print_options: print(options)\n\n rnd = random.randint(0, sum([options[o] for o in options]))\n tot = 0\n for o in options:\n tot += options[o]\n if tot >= rnd: return o\n\n print(tot, rnd, sum([options[o] for o in options]))\n raise Exception(\"No substitute atom found for {0} in {1}!\".format(e, options))\n" }, { "alpha_fraction": 0.6048593521118164, "alphanum_fraction": 0.6112532019615173, "avg_line_length": 25.066667556762695, "blob_id": "68bdeae06d6511f6224e3f51e5472624cc85910e", "content_id": "e412b00b7f42920d407b9f4892e3cdcc51a33419", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 782, "license_type": "no_license", "max_line_length": 50, "num_lines": 30, "path": "/scripts/delete_and_resubmit_new_kpts.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "import os, sys\n\nbase_dir = sys.argv[1]\nrun_dir = sys.argv[1] + \"/\" + sys.argv[2]\nnew_kpq = int(sys.argv[3])\nin_file = run_dir + \".in\"\nsub_file = run_dir + \"_submit\"\n\nif not os.path.isfile(in_file):\n raise Exception(in_file + \" does not exist!\")\n\nif not os.path.isdir(run_dir):\n raise Exception(run_dir + \" does not exist!\")\n\nif not os.path.isfile(sub_file):\n raise Exception(sub_file + \" does not exist!\")\n\n# Replace input file with different kpts_per_qpt\nwith open(in_file) as f:\n lines = f.read().split(\"\\n\")\n\nwith open(in_file, \"w\") as f:\n for l in lines:\n if \"kpts_per_qpt\" in l:\n l = \"kpts_per_qpt {0}\".format(new_kpq)\n f.write(l+\"\\n\")\n\n# Remove run_dir and resubmit\nos.system(\"rm -r \"+run_dir)\nos.system(\"sbatch \"+run_dir+\"_submit\")\n" }, { "alpha_fraction": 0.5001637935638428, "alphanum_fraction": 0.512459397315979, "avg_line_length": 36.54872131347656, "blob_id": "5befd97bb5cedeb7eb9a1e48bcba8384ed4c6cbb", "content_id": "8d85da12f90788af88f9c337ba1dd86761377d65", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 39689, "license_type": "no_license", "max_line_length": 161, "num_lines": 1057, "path": "/params.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "import os, numbers, copy\nimport numpy as np\nimport time\nfrom qet.constants import BOHR_TO_ANGSTROM, ANGSTROM_TO_BOHR\nfrom qet.type_tools import str_to_type \nfrom qet.elements import elements\nfrom qet.logs import log\nfrom collections import defaultdict\n\n# This is thrown when a REQUIRED parameter\n# could not be found or generated.\nclass ParamNotFound(Exception):\n pass\n\n# A parameters object contains the specification\n# for the current calculation, including both the\n# parameters for the DFT code as well as the \n# specification for the actual calculation to run\nclass parameters:\n \n # The first time.time() that __init__ was called\n first_init_time = None\n\n # Default constructor\n def __init__(self, filename=None):\n\n # Record the first initialization time\n if parameters.first_init_time is None:\n parameters.first_init_time = time.time()\n log(\"First init time set to {0}\".format(parameters.first_init_time))\n\n # Set the default parameters\n # any unspecified parameters will be left \n # unspecified in input files and therefore\n # result in QE default values being used\n self.par = {}\n\n self[\"outdir\"] = \"./\" # outdir = working dir\n self[\"ibrav\"] = 0 # no bravis-lattice index\n self[\"ecutwfc\"] = 60 # plane-wave cutoff (Ry)\n self[\"occupations\"] = \"smearing\" # treat as metallic\n self[\"degauss\"] = 0.02 # metal smearing width (Ry)\n self[\"qpoint_spacing\"] = 0.15 # qpoint spacing (2pi A^-1)\n self[\"min_q_grid_size\"] = 2 # The minimum q-points to a side for a q-point grid\n self[\"force_cube_grids\"] = False # true if grids must be of form NxNxN\n self[\"kpts_per_qpt\"] = 10 # ratio of kpt to qpt grid\n self[\"ldisp\"] = True # use a grid of q-points\n self[\"reduce_io\"] = True # reduce io to a strict minimum\n self[\"fildvscf\"] = \"dvscf\" # potential variation file\n self[\"electron_phonon\"] = \"interpolated\" # electron-phonon method\n self[\"el_ph_sigma\"] = 0.0025 # smearing spacing\n self[\"el_ph_nsigma\"] = 50 # smearing points\n self[\"fildyn\"] = \"matdyn\" # dynamical matrix prefix\n self[\"flfrc\"] = \"force_constants\" # force constants filename\n self[\"zasr\"] = \"simple\" # acoustic sum rule to apply\n self[\"ph_interp_amt\"] = 8 # phonon interpolation grid size (as multiple of qpoint_grid)\n self[\"ndos\"] = 200 # number of energy steps to use when interpolating DOS\n self[\"ph_interp_prefix\"] = \"ph_interp\" # the prefix to give to files produced by phonon interpolations\n self[\"pseudo_dirs\"] = [] # directories to search for pseudopotentials\n self[\"bz_path_points\"] = 100 # the approximate number of points along a BZ path\n self[\"total_walltime\"] = 129600 # allocated walltime in seconds (negative => treat as infinite)\n self[\"tidy_up_time\"] = 1800 # time reserved for tidying up at end of total_walltime\n self[\"mpirun\"] = \"mpirun\" # The mpi runner that we want to use\n self[\"expand\"] = 1.0 # How much to expand lattice vectors by\n self[\"variable_cell\"] = True # Should the lattice be allowed to vary\n\n # By default, assume cores_per_node is\n # equal to the number of cores where the\n # script is running and nodes = 1\n self[\"nodes\"] = 1\n try:\n import multiprocessing\n self[\"cores_per_node\"] = multiprocessing.cpu_count()\n except ImportError:\n self[\"cores_per_node\"] = 1\n\n # Add HOME/pseudopotentials and PSEUDO_DIR to the\n # pseudopotential directories to search, if they exist\n if \"HOME\" in os.environ:\n pd = os.environ[\"HOME\"]+\"/pseudopotentials\"\n if not pd in self[\"pseudo_dirs\"]: self[\"pseudo_dirs\"].append(pd)\n if \"PSEUDO_DIR\" in os.environ:\n pd = os.environ[\"PSEUDO_DIR\"]\n if not pd in self[\"pseudo_dirs\"]: self[\"pseudo_dirs\"].append(pd)\n\n if not filename is None:\n self.load(filename)\n\n # Output timing information\n log(\"Initialized parameters object at time {0}\".format(time.time()))\n log(\" first_init_time : {0}\".format(parameters.first_init_time))\n log(\" total_walltime : {0}\".format(self[\"total_walltime\"]))\n log(\" end_time : {0}\".format(self[\"end_time\"]))\n log(\" max_seconds : {0}\".format(self[\"max_seconds\"]))\n\n # Return a deep copy of myself\n def copy(self):\n return copy.deepcopy(self)\n\n\n ####################\n # PARAMETER ACCESS #\n ####################\n\n\n # Get parameter values with []\n def __getitem__(self, key):\n\n # Attempt to generate the\n # parameter if key if not found\n if not key in self.par:\n return self.gen_param(key)\n\n return self.par[key]\n\n # Set parameter values with []\n def __setitem__(self, key, value):\n self.par[key] = self.validate_and_standardise_param(key, value)\n\n # Try to generate the parameter from\n # the parameters we have\n def gen_param(self, key):\n \n # Count the atoms\n if key == \"nat\" : \n return len(self[\"atoms\"])\n\n # Count the atom types\n if key == \"ntyp\": \n return len(self[\"species\"])\n\n # Get a list of the species\n # with masses and pseudo names\n if key == \"species\":\n spec = []\n for a in self[\"atoms\"]: \n if a[0] in spec: continue\n spec.append(a[0])\n\n for i, s in enumerate(spec):\n spec[i] = [s, elements[s][\"mass number\"], s+\".UPF\"]\n\n return spec\n\n if key == \"a\": return np.linalg.norm(self[\"lattice\"][0])\n if key == \"b\": return np.linalg.norm(self[\"lattice\"][1])\n if key == \"c\": return np.linalg.norm(self[\"lattice\"][2])\n\n if key == \"alpha\":\n lat = self[\"lattice\"]\n ret = np.dot(lat[1], lat[2])\n ret = np.arccos(ret)180/np.pi\n return ret\n\n if key == \"beta\":\n lat = self[\"lattice\"]\n ret = np.dot(lat[0], lat[2])\n ret = np.arccos(ret)180/np.pi\n return ret\n\n if key == \"gamma\":\n lat = self[\"lattice\"]\n ret = np.dot(lat[0], lat[1])\n ret = np.arccos(ret)180/np.pi\n return ret\n\n # Work out the space group\n if key == \"space_group_name\":\n self.eval_symmetry()\n return self[\"space_group_name\"]\n\n # Work out the number of symmetry operations\n if key == \"sym_ops\":\n self.eval_symmetry()\n return self[\"sym_ops\"]\n\n # Work out a good BZ path\n if key == \"bz_path\" or key == \"high_symmetry_bz_points\":\n try: import seekpath\n except ImportError:\n log(\"Could not import seekpath!\")\n raise ImportError(\"Could not import SeeKpath!\")\n\n # Convert the structure into a form that SeeKpath can digest\n frac_coords = []\n atom_numbers = []\n unique_names = []\n\n for a in self[\"atoms\"]:\n if not a[0] in unique_names:\n unique_names.append(a[0])\n\n for a in self[\"atoms\"]:\n frac_coords.append(a[1])\n atom_numbers.append(unique_names.index(a[0]))\n \n\n # Call SeeKpath to get the BZ path\n structure = (self[\"lattice\"], frac_coords, atom_numbers)\n path = seekpath.get_path(\n structure, \n with_time_reversal=True,\n symprec=0.001,\n angle_tolerance=0.5,\n threshold=0)\n\n # Work out how many points we have along each segment of the BZ path\n pc = path[\"point_coords\"]\n segs = [[np.array(pc[p[0]]), np.array(pc[p[1]])] for p in path[\"path\"]]\n seg_names = [[p[0], p[1]] for p in path[\"path\"]] \n seg_lengths = [np.linalg.norm(s[1]-s[0]) for s in segs]\n tot_length = sum(seg_lengths)\n seg_counts = [max(int(self[\"bz_path_points\"]l/tot_length),2) for l in seg_lengths]\n\n kpoints = [] # Will contain the k-points in the path\n high_symm_points = {} # Will contain the names of high-symmetry points along the path\n\n for i, c in enumerate(seg_counts):\n pts = np.linspace(0.0, 1.0, c)\n pts = [segs[i][0] + (segs[i][1]-segs[i][0])p for p in pts]\n high_symm_points[len(kpoints)] = seg_names[i][0]\n kpoints.extend(pts)\n\n if i + 1 < len(seg_names) and seg_names[i][1] == seg_names[i+1][0]:\n kpoints.pop() # Remove repeated high symmetry point\n else:\n high_symm_points[len(kpoints)-1] = seg_names[i][1]\n\n self[\"high_symmetry_bz_points\"] = high_symm_points\n self[\"bz_path\"] = kpoints\n\n if key == \"bz_path\": return kpoints\n else: return high_symm_points\n\n # Find the pseudo_dir that contains\n # all of the needed pseudopotentials\n if key == \"pseudo_dir\":\n\n # Work out which pseudo_dirs contain\n # which pseudopotentials\n found_in = {}\n for s, m, p in self[\"species\"]:\n found_in[p] = []\n for pd in self[\"pseudo_dirs\"]:\n if not os.path.isdir(pd): continue\n if p in os.listdir(pd):\n found_in[p].append(pd)\n\n # See if any one pseudo_dir contains\n # all of the needed pseudods\n for pd in self[\"pseudo_dirs\"]:\n\n has_all = True\n for p in found_in:\n if not pd in found_in[p]:\n has_all = False\n break\n\n # This pseudo_dir contains all the\n # needed pseudos, go ahead and use it\n if has_all: return pd\n\n # See if we can combine pseudos from\n # multiple directories\n for p in found_in:\n\n if len(found_in[p]) == 0:\n err = \"Could not find the pseudopotentail \"\n err += p + \" in any of:\"\n for pd in self[\"pseudo_dirs\"]:\n err += \"\\n\"+pd\n raise ParamNotFound(err)\n\n # Create a file with the pseudopotential origin locations\n pof = open(\"pseudopotential_origin\", \"w\")\n \n # We have found all the pseudos, collect\n # them into the working directory\n for p in found_in:\n\n # Copy the fist found pseudo to\n # working directory\n os.system(\"cp \"+found_in[p][0]+\"/\"+p+\" .\")\n pof.write(p+\" from \"+found_in[p][0]+\"\\n\")\n\n pof.close()\n return \"./\"\n\n # Get a dictionary of the form atom name : count\n if key == \"atom_counts\":\n atom_counts = defaultdict(lambda: 0)\n for a in self[\"atoms\"]:\n if a[0] in atom_counts: atom_counts[a[0]] += 1\n else: atom_counts[a[0]] = 1\n return atom_counts\n\n # Reurn the stochiometry \n # of the given cell as a string\n if key == \"stoichiometry_string\":\n atom_counts = self[\"atom_counts\"]\n ss = \"\"\n for a in atom_counts:\n ss += a + \"_{0}_\".format(atom_counts[a])\n ss = ss[0:-1]\n return ss\n\n # Get an estimate for the volume of the\n # cell by approximating each atom as \n # a covalent-radius sphere\n if key == \"covalent_volume\":\n vol = 0.0\n for a in self[\"atoms\"]:\n vol += elements[a[0]][\"covalent radius\"]3.0\n return np.pi vol * 4.0/3.0\n\n # Default to ecutrho = 10ecutwfc\n if key == \"ecutrho\": return 10self[\"ecutwfc\"]\n\n # Generate the qpoint grid\n if key == \"qpoint_grid\":\n \n # Generate qpoint grid from spacing/min_q_grid_size\n rlat = np.linalg.inv(self[\"lattice\"]).T\n qps = float(self[\"qpoint_spacing\"])\n b2q = lambda b : int(np.linalg.norm(b)/qps)\n grid = [max(self[\"min_q_grid_size\"],b2q(b)) for b in rlat]\n if self[\"force_cube_grids\"]: grid = [max(grid) for g in grid]\n return grid\n\n # Get individual components of qpoint grid\n if key == \"nq1\": return self[\"qpoint_grid\"][0]\n if key == \"nq2\": return self[\"qpoint_grid\"][1]\n if key == \"nq3\": return self[\"qpoint_grid\"][2]\n\n # Get individial components of interpolated qpoint grid\n if key == \"ph_interp_nq1\": return self[\"qpoint_grid\"][0]self[\"ph_interp_amt\"]\n if key == \"ph_interp_nq2\": return self[\"qpoint_grid\"][0]self[\"ph_interp_amt\"]\n if key == \"ph_interp_nq3\": return self[\"qpoint_grid\"][0]self[\"ph_interp_amt\"]\n\n # Phonon interpolation output files from prefix\n if key == \"ph_interp_dos_file\": return self[\"ph_interp_prefix\"] + \".dos\"\n if key == \"ph_interp_freq_file\": return self[\"ph_interp_prefix\"] + \".freq\"\n if key == \"ph_interp_modes_file\": return self[\"ph_interp_prefix\"] + \".modes\"\n if key == \"ph_interp_eig_file\": return self[\"ph_interp_prefix\"] + \".eig\"\n\n # Generate the kpoint grid\n if key == \"kpoint_grid\":\n\n if \"kpoint_spacing\" in self.par:\n\n # Generate kpoint grid from spacing\n rlat = np.linalg.inv(self[\"lattice\"]).T\n kps = float(self[\"kpoint_spacing\"])\n b2k = lambda b : int(np.linalg.norm(b)/kps)\n return [b2k(b) for b in rlat]\n\n elif \"kpts_per_qpt\" in self.par:\n\n # Generate kpoint grid from qpoint grid\n kpq = self[\"kpts_per_qpt\"] \n qpg = self[\"qpoint_grid\"]\n return [kpq q for q in qpg]\n\n else:\n\n msg = \"Could not generate k-point grid from parameter set.\"\n raise ParamNotFound(msg)\n\n # Default to k-point parallelism\n if key == \"pools\" : return self[\"cores_per_node\"]self[\"nodes\"]\n if key == \"images\": return 1\n\n # Get the default k-point grids for calculating Tc\n if key == \"tc_kpqs\" : return [self[\"kpts_per_qpt\"]-1, self[\"kpts_per_qpt\"]]\n\n # Default q-e bin/ path = environment path\n if key == \"path_override\" : return \"\"\n\n # If total_walltime is > 0, this will be the time returned by\n # time.time() when we will run out of walltime. Otherwise is -1.\n if key == \"end_time\":\n if self[\"total_walltime\"] < 0: \n return -1\n else: \n return parameters.first_init_time + self[\"total_walltime\"] \n\n # Returns the maximum seconds we let a calculation run for\n # from this moment in time. Is equal to the end_time minus\n # the current time minus the tidy_up_time.\n if key == \"max_seconds\":\n if self[\"end_time\"] < 0:\n return 10e7 # No end time => essentially infinite time\n return max(self[\"end_time\"] - time.time() - self[\"tidy_up_time\"], 0)\n\n # This wasn't one of the generatable objects, treat\n # this as a KeyError, so we use the QE default value\n # (if there is one)\n exept = \"Key \\\"{0}\\\" cold not be generated in parameters object.\"\n raise KeyError(exept.format(key))\n\n # Check if a key is contained within this parameters object\n # optionally checking to see if it can be generated\n def contains_key(self, key, generate=True):\n if key in self.par:\n return True\n if not generate: return False\n try:\n self.gen_param(key)\n return True\n except:\n return False\n\n # Validate and standardise a given parameter\n # based on it's key and value\n def validate_and_standardise_param(self, key, value):\n \n # Try to convert a string value to the correct type\n if isinstance(value, str):\n value = str_to_type(value)\n\n if key == \"atoms\":\n\n # Ensure atom symbols start with a capital letter and don't\n # contain whitespace\n for i in range(0, len(value)):\n value[i][0] = value[i][0].strip().capitalize()\n\n # Sort atoms in decreasing atomic number\n value.sort(key = lambda a : -elements[a[0]][\"atomic number\"])\n\n elif key == \"lattice\":\n # Lattice should be stored as a np.array\n value = np.array(value)\n\n return value\n \n\n #########################\n # INPUT FILE GENERATION #\n #########################\n\n\n # Construct special input lines that do not fit the type-based\n # construction used in self.to_input_line\n def special_input_line(self, key, value):\n \n # Alpha_mix is an array that defaults to the first entry\n if key == \"alpha_mix\":\n return \" alpha_mix(1) = {0},\\n\".format(value)\n\n return None\n\n # Convert a parameter to an input line in a QE file\n def to_input_line(self, key, name=None):\n\n # Return nothing if the key is absent\n # so the QE default value will be used\n try:\n val = self[key]\n except ParamNotFound as pnf:\n raise pnf # Something actually went wrong\n except KeyError as e:\n return \"\" # The key wasn't present, use the default\n\n # Allow name different from key\n if not name is None: key = name\n\n # Check for special input line\n sf = self.special_input_line(key, val)\n if not sf is None: return sf\n\n # Bool type\n if isinstance(val, bool):\n if val: return \" {0} = .true.,\\n\".format(key)\n else : return \" {0} = .false.,\\n\".format(key)\n\n # Numeric types\n if isinstance(val, numbers.Number):\n return \" {0} = {1},\\n\".format(key, val)\n\n # String parameters\n return \" {0} = '{1}',\\n\".format(key, val)\n\n\n # Convert parameters object to string\n def __str__(self):\n\n # Pad format string nicely\n maxl = max([len(p) for p in self.par])\n fs = \"\\n {0:\" + str(maxl) + \"} : {1} ({2})\"\n \n s = \"Parameters:\"\n s += \"\\n(parameters not in this list will be left as the QE defaults.)\"\n for p in self.par:\n \n # Custom formatting for atoms\n if p == \"atoms\":\n atoms = self.par[\"atoms\"]\n s += fs.format(\"atoms\", len(atoms), \"atoms\")\n afs = \"\\n {0:3} {1:10.7f} {2:10.7f} {3:10.7f}\"\n for a in atoms:\n s += afs.format(a[0], a[1]) \n continue\n\n # Custom formatting for lattice\n if p == \"lattice\":\n lattice = self.par[\"lattice\"]\n s += fs.format(\"lattice\", \"\", \"matrix\")\n for l in lattice:\n s += \"\\n {0:10.7f} {1:10.7f} {2:10.7f}\".format(l)\n continue\n\n # Output key : value\n s += fs.format(p, self.par[p], type(self.par[p]))\n return s\n\n ############\n # SYMMETRY #\n ############\n\n # Use c2x to evaluate the symmetry of the crystal\n # (c2x is available at https://www.c2x.org.uk/)\n def eval_symmetry(self):\n \n # Create a temporary .cell file for c2x to parse\n TMP_CELL = \"tmp_for_symm.cell\"\n TMP_SYMM = \"tmp_for_symm.symm\"\n self.save_to_cell(TMP_CELL)\n\n # Work out the number of symmetry ops\n os.system(\"c2x --symmetry \"+TMP_CELL+\" > /dev/null 2>\"+TMP_SYMM)\n with open(TMP_SYMM) as f:\n read = f.read().strip()\n if \"\\n\" in read: read = read.split(\"\\n\")[-1]\n self[\"sym_ops\"] = int(read.split()[1])\n\n # Work out the space group\n os.system(\"c2x --int \"+TMP_CELL+\" 2>\"+TMP_SYMM)\n with open(TMP_SYMM) as f:\n self[\"space_group_name\"] = f.read().split()[-1]\n\n # Remove temporary files\n os.system(\"rm \"+TMP_CELL+\" \"+TMP_SYMM)\n time.sleep(0.25) # Wait for filesystem to catch up\n\n\n # For a wavevector k_p in the B.Z of this crystal, returns \n # a supercell of this crystal for which the wavevector\n # folds back to the gamma point (i.e returns a supercell\n # that can support explicit pertubations with wavevector k_p).\n # If apply_eigenvector is set, and has dimensions \n # #atoms x 3, then a phonon mode of the form eigenvector cos(k_p dot R)\n # will be applied to the resulting structure. Apply_eigenvector is assumeed \n # to be in units of angstrom.\n def generate_commensurate_supercell(self, k_p, apply_eigenvector=None, return_disp=False):\n import math\n import numpy as np\n from fractions import Fraction\n\n if len(k_p) != 3:\n raise Exception(\"Expected k-vector of length 3!\")\n\n # The fundamental logic here is described in\n # 10.1103/PhysRevB.92.184301\n # We essentially brute-force search the \n # Hermite-normal form (HNF) supercell matricies S \n # until we find k_s = S k_p such that k_s has \n # integer entries\n is_int = lambda v : abs(v - round(v)) < 10e-4\n possibilities = []\n\n # Find the lowest common multiple of the\n # denominators of the fractional entries in k_p\n # (this is the determinant of the supercell matrix needed)\n lcm = None\n for i in range(0, 3):\n f = Fraction(k_p[i]).limit_denominator(100)\n d = f.denominator\n if lcm is None: lcm = d\n else: lcm = lcm * d // math.gcd(lcm, d)\n\n # Loop over all diagonals of S\n # which give the desired determinant (lcm)\n for s11 in range(1, lcm+1):\n for s22 in range(1, lcm//s11+1):\n s33 = lcm//s11//s22\n if s11s22s33 != lcm: continue\n\n # Loop over off-diagonals that satisfy HNF\n for s12 in range(0, s22):\n for s13 in range(0, s33):\n for s23 in range(0, s33):\n\n # Evaluate k_s and check if it is integer\n ks1 = s11k_p[0] + s12k_p[1] + s13k_p[2]\n if not is_int(ks1): continue\n ks2 = s22k_p[1] + s23k_p[2]\n if not is_int(ks2): continue\n ks3 = s33k_p[2]\n if not is_int(ks3): continue\n\n # Record this supercell\n possibilities.append([s11, s12, s13, s22, s23, s33])\n\n # Algorithm failed\n if len(possibilities) == 0:\n fs = \"Could not find supercell of size {0} comensurate with k = {1}!\"\n raise Exception(fs.format(lcm, k_p))\n\n norm_sq = lambda v : v[0]v[0] + v[1]v[1] + v[2]v[2]\n lowest_score = float(\"inf\")\n lat = self[\"lattice\"]\n ss = None\n ss_lat = None\n\n # Find the possibility with the smallest \n # average basis vector size\n for p in possibilities:\n\n # Work out supercell basis vectors\n v1 = p[0]lat[0] + p[1]lat[1] + p[2]lat[2]\n v2 = p[3]lat[1] + p[4]lat[2]\n v3 = p[5]lat[2]\n\n # Record if score is lowest so far\n score = norm_sq(v1) + norm_sq(v2) + norm_sq(v3)\n if score < lowest_score:\n lowest_score = score\n ss = p\n ss_lat = [v1, v2, v3]\n\n superlat_inv = np.linalg.inv(np.array(ss_lat).T)\n max_delta = max(ss)4\n frac_eps = 1e-4\n ss_atoms = []\n ss_disps = []\n\n # Work out where the atoms go in the supercell\n for ai, a in enumerate(self[\"atoms\"]):\n\n # The position of the atom in the first unit cell in cartesians\n cart_pos = a[1][0]lat[0]+a[1][1]lat[1]+a[1][2]lat[2]\n\n # Loop over images of the pimitive cell\n for dx in range(-max_delta, max_delta+1):\n for dy in range(-max_delta, max_delta+1):\n for dz in range(-max_delta, max_delta+1):\n\n # The position of the image of the atom in cartesians\n # and in fractional supercell coordinates\n image_pos = cart_pos + dxlat[0] + dylat[1] + dzlat[2]\n\n # Apply phonon pertubation if eigenvector is provided\n if not apply_eigenvector is None:\n phase = np.cos(np.dot(k_p, [dx+a[1][0], dy+a[1][1], dz+a[1][2]])np.pi2)\n delta = phase * np.array(apply_eigenvector[ai]) \n image_pos += delta\n\n # Get fraction coordinates in the supercell\n frac_pos_sup = np.dot(superlat_inv, image_pos)\n\n # If x is in the first supercell, add it to the supercell atoms\n # (exclude atoms at 1.0 because we're including atoms at 0.0)\n if all([x > -frac_eps and x < 1-frac_eps for x in frac_pos_sup]):\n ss_atoms.append([a[0], frac_pos_sup])\n ss_disps.append(delta)\n\n # Build the supercell\n sup = self.copy()\n sup[\"lattice\"] = ss_lat\n sup[\"atoms\"] = ss_atoms\n\n # Check that the supercell contains the correct number of atoms\n if len(self[\"atoms\"])lcm != len(sup[\"atoms\"]):\n print(\"Length of supercell = {0} (target = {1})\".format(len(sup[\"atoms\"]), len(self[\"atoms\"])lcm))\n raise Exception(\"Supercell does not contain the correct number of atoms!\")\n\n self.eval_symmetry()\n sup.eval_symmetry()\n print(\"Symmetry before: {0} Symmetry after: {1}\".format(self[\"space_group_name\"], sup[\"space_group_name\"]))\n\n ret = [sup]\n if return_disp: ret.append(ss_disps)\n if len(ret) == 1: return ret[0]\n return ret\n\n # Apply a phonon of the given wavevector (q) and amplitude (amp).\n # Returns a parameters object describing the perturbed cell\n # the target energy is in meV/atom\n def apply_phonon(self, q, mode, target_energy=1.0, modes_file=\"ph_interp.modes\", use_closest=False, return_freq=False, return_evec=False, return_disp=False):\n\n # Parse the modes file for the eigenvectors\n from qet.parser import phonon_interp_modes\n modes = phonon_interp_modes(modes_file)\n\n qpts = modes[\"q-points\"]\n evecs = modes[\"eigenvectors\"]\n freqs = modes[\"frequencies\"]\n\n # Find the closest q-point to the requested one\n disp = lambda q1, q2 : sum((q1[i]-q2[i])(q1[i]-q2[i]) for i in range(3))\n\n min_disp = float(\"inf\")\n min_i = None\n for i in range(len(qpts)):\n \n d = disp(qpts[i], q)\n if d < min_disp:\n min_disp = d\n min_i = i\n\n # Error out if we are not using the closest q-point to that specified\n if not use_closest:\n if min_disp > 10e-6:\n fs = \"Could not find modes for the q-point {0}, the closest was \"\n fs += \"{1}. Set use_closest=True to approximate the eigenvector at {0} \"\n fs += \"with the eigenvector at {1}.\"\n raise Exception(fs.format(q, qpts[min_i]))\n \n # Find the eigenvector corresponding to the \n # requested (q-point, mode) combination\n modes_per_q = int(len(evecs)/len(qpts))\n if mode < 0 or mode >= modes_per_q:\n raise Exception(\"Mode index {0} is out of range!\".format(mode))\n\n evec = evecs[min_imodes_per_q+mode]\n if modes_per_q != len(evec)3:\n raise Exception(\"#modes != #atoms 3\")\n \n # Work out the displacement that corresponds to\n # the requested energy\n\n # Get the frequency of this phonon\n freq = freqs[min_imodes_per_q+mode]\n\n # Calculate d^T M d where d is the displacement\n # and m is the mass tensor\n dmd = 0\n masses = {}\n for s in self[\"species\"]:\n masses[s[0]] = s[1]\n\n for i, v in enumerate(evec):\n m = masses[self[\"atoms\"][i][0]] \n dmd += m sum([xx for x in evec[i]])\n\n # Work out the amplitude needed to obtain the target energy\n # (I'm afraid of units, so work in S.I)\n from qet.constants import EV_TO_J, AMU_TO_KG, CMM1_TO_HZ, ANGSTROM_TO_M\n\n # Convert energy to joules per supercell (from meV/atom)\n target_energy = target_energy len(evec) * EV_TO_J / 1000.0\n\n # Convert mass to KG and length from Angstrom to M\n # (using angstrom here so that the displacement we pass to \n # generate_commensurate_supercell will be in angstrom)\n dmd = dmd * AMU_TO_KG * ANGSTROM_TO_M * ANGSTROM_TO_M\n\n # Convert freq to HZ\n freq_cmm = freq\n freq = freq * CMM1_TO_HZ \n\n # Work out amplitude by inverting E = 0.5 w^2 amp^2 dmd\n amp = 2 * target_energy / (dmd * freq * freq)\n amp = amp ** 0.5\n\n if amp > 10:\n print(\"Phonon amplitude is large ({0})\".format(amp))\n print(\"Perhaps the phonon frequency ({0} cm^-1) is too small\".format(freq_cmm))\n print(\"Setting the amplitude to zero\")\n amp = 0.0\n\n evec = [[xamp for x in e] for e in evec]\n\n ss, disp = self.generate_commensurate_supercell(q, apply_eigenvector=evec, return_disp=True)\n ret = [ss]\n if return_freq: ret.append(freq_cmm)\n if return_evec: ret.append(evec)\n if return_disp: ret.append(disp)\n if len(ret) == 1: return ret[0]\n return ret\n\n\n ####################\n # SAVING / LOADING #\n ####################\n\n\n # Parse the crystal lattice from input file lines\n def parse_lattice(self, lines):\n\n i_dealt_with = []\n for i, line in enumerate(lines):\n\n # Find the start of the lattice block\n if not line.startswith(\"lattice\"): \n continue\n\n # Log the lines that have been dealt with during this parsing\n i_dealt_with.append(i)\n\n # Parse the lattice units\n if len(line.split()) < 2:\n raise Exception(\"Lattice input must specify units!\")\n units = line.split()[1]\n if units == \"angstrom\": factor = 1.0\n elif units == \"bohr\" : factor = BOHR_TO_ANGSTROM\n\n # Parse the lattice\n lat = []\n for j in range(i+1, i+4):\n i_dealt_with.append(j)\n lat.append([factorfloat(w) for w in lines[j].split()])\n self[\"lattice\"] = np.array(lat)\n break\n\n return i_dealt_with\n\n # Parse atom coordinates from input file lines\n def parse_atoms(self, lines):\n\n i_dealt_with = []\n for i, line in enumerate(lines):\n \n # Find start of atom block \n if not line.startswith(\"atoms\"):\n continue\n\n # Log the lines that have been dealt with during this parsing\n i_dealt_with.append(i)\n \n # Parse the units the atoms are in\n if len(line.split()) < 2:\n raise Exception(\"Atom positions input must specify units!\")\n\n # Get the inverse lattice in the same\n # units, to convert to fractional coordinates\n units = line.split()[1]\n if units == \"crystal\":\n linv = np.identity(3)\n elif units == \"fractional\":\n linv = np.identity(3)\n elif units == \"angstrom\":\n linv = np.linalg.inv(self[\"lattice\"].T)\n elif units == \"bohr\":\n linv = np.linalg.inv(ANGSTROM_TO_BOHRself[\"lattice\"].T)\n else:\n raise ValueError(\"Unknown atom coordinate units: \"+units)\n\n # Read the atoms one by one, until end of file or blank line\n atoms = []\n for j in range(i+1, len(lines)):\n line = lines[j]\n\n # Stop if we reach an empty line\n if len(line) == 0: break\n \n i_dealt_with.append(j)\n name = line.split()[0].capitalize()\n pos = [float(x) for x in line.split()[1:]]\n pos = np.dot(linv, pos) # Convert to fractional coords\n atoms.append([name,pos])\n\n self[\"atoms\"] = atoms\n\n return i_dealt_with\n\n # Parse pseudopotential directories from input file\n def parse_pseudo_dirs(self, lines):\n \n i_dealt_with = []\n for i, line in enumerate(lines):\n \n # Only parse pseudo_dir lines\n if not line.startswith(\"pseudo_dir\"):\n continue\n\n pd = line.split()[1]\n if not pd in self[\"pseudo_dirs\"]:\n self[\"pseudo_dirs\"].append(pd)\n\n i_dealt_with.append(i)\n\n return i_dealt_with\n\n # Parse k-point grid sizes to use for Tc calculation\n def parse_tc_kpqs(self, lines):\n \n i_dealt_with = []\n parsed_kpqs = []\n for i, line in enumerate(lines):\n \n if not line.startswith(\"tc_kpqs\"):\n continue\n\n parsed_kpqs.extend([int(w) for w in line.split()[1:]])\n i_dealt_with.append(i)\n\n if len(parsed_kpqs) > 0:\n self[\"tc_kpqs\"] = parsed_kpqs\n\n return i_dealt_with\n\n # Save parameter set to file\n def save(self, filename):\n\n with open(filename, \"w\") as f:\n\n # Write lattice\n lattice = self[\"lattice\"]\n f.write(\"lattice angstrom\\n\")\n f.write(\"{0} {1} {2}\\n\".format(lattice[0]))\n f.write(\"{0} {1} {2}\\n\".format(lattice[1]))\n f.write(\"{0} {1} {2}\\n\".format(lattice[2]))\n f.write(\"\\n\")\n\n # Write atoms\n f.write(\"atoms fractional\\n\")\n for a in self[\"atoms\"]:\n f.write(\"{0} {1} {2} {3}\\n\".format(a[0], a[1]))\n f.write(\"\\n\")\n\n # Write pseudo_dirs\n pseudo_dirs = self[\"pseudo_dirs\"]\n for pd in pseudo_dirs:\n f.write(\"pseudo_dir {0}\\n\".format(pd))\n f.write(\"\\n\")\n\n # Write other parameters\n for p in self.par:\n\n # Already written\n if p == \"atoms\": continue \n if p == \"lattice\": continue\n if p == \"pseudo_dirs\": continue\n\n # Don't write\n if p == \"bz_path\": continue\n if p == \"high_symmetry_bz_points\": continue\n\n val = self.par[p]\n\n # Space-seperated list formatting\n if isinstance(val, list):\n val = \" \".join(str(x) for x in val)\n\n f.write(\"{0} {1}\\n\".format(p, val))\n\n # Load parameter set from file\n def load(self, filename):\n\n # Read the file into lines\n with open(filename) as f:\n lines = f.read().split(\"\\n\")\n\n # Tidy lines\n for i in range(0, len(lines)):\n \n # Clean the line, remove comments/whitespace\n line = lines[i]\n line = line.lower()\n for cc in [\"#\", \"//\", \"!\"]:\n if line.find(cc) >= 0:\n line = line[0:line.find(cc)]\n line = line.strip()\n lines[i] = line\n\n # Parse special sections\n i_dealt_with = []\n i_dealt_with.extend(self.parse_lattice(lines))\n i_dealt_with.extend(self.parse_atoms(lines))\n i_dealt_with.extend(self.parse_pseudo_dirs(lines))\n i_dealt_with.extend(self.parse_tc_kpqs(lines))\n\n # Assume the rest is simple key value form\n for i in range(0, len(lines)):\n\n # Skip lines already dealt with\n # and blank lines\n if i in i_dealt_with: continue\n if len(lines[i]) == 0: continue\n\n # Parse key-value pair\n spl = lines[i].split()\n if len(spl) != 2:\n exept = \"Could not parse the line {0} as a key-value pair!\"\n raise ValueError(exept.format(lines[i]))\n\n self[spl[0]] = spl[1]\n\n\n # Save the geometry to a CASTEP .cell file\n def save_to_cell(self, filename):\n with open(filename,\"w\") as f:\n f.write(\"%BLOCK LATTICE_CART\\nANG\\n\")\n for l in self[\"lattice\"]:\n f.write(\" \".join([str(w) for w in l])+\"\\n\")\n f.write(\"%ENDBLOCK LATTICE_CART\\n\\n\")\n f.write(\"%BLOCK POSITIONS_FRAC\\n\")\n for a in self[\"atoms\"]:\n f.write(\"{0} {1} {2} {3}\\n\".format(a[0], a[1]))\n f.write(\"%ENDBLOCK POSITIONS_FRAC\\n\")\n\n # Load from a CASTEP .cell file\n def load_from_cell(self, filename):\n \n lattice = []\n atoms = []\n\n i_done = []\n with open(filename) as f:\n lines = [l.strip().lower() for l in f.read().split(\"\\n\")]\n for i, line in enumerate(lines):\n if i in i_done: continue\n\n if \"endblock\" in line: \n continue\n\n if \"lattice_cart\" in line:\n offset = 1 if \"ang\" in lines[i+1] else 0\n for j in range(i+1+offset, i+4+offset):\n lattice.append([float(w) for w in lines[j].split()])\n i_done.append(j)\n\n if \"positions_frac\" in line:\n for j in range(i+1, len(lines)):\n i_done.append(j)\n jline = lines[j]\n if \"endblock\" in jline: break\n atoms.append([jline.split()[0], [float(w) for w in jline.split()[1:4]]])\n\n self[\"lattice\"] = lattice\n self[\"atoms\"] = atoms\n\n # Load from a quantum espresso .in file\n def load_from_qe_input(self, filename):\n\n lattice = []\n atoms = []\n \n with open(filename) as f:\n lines = [l.strip().lower() for l in f.read().split(\"\\n\")]\n for i, line in enumerate(lines):\n if \"cell_parameters\" in line:\n for j in range(i+1, i+4):\n lattice.append([float(w) for w in lines[j].split()])\n\n if \"atomic_positions\" in line:\n for j in range(i+1, len(lines)):\n try:\n name, x, y, z = lines[j].split()\n atoms.append([name, [float(x), float(y), float(z)]])\n except:\n break\n\n self[\"lattice\"] = lattice\n self[\"atoms\"] = atoms\n" }, { "alpha_fraction": 0.767241358757019, "alphanum_fraction": 0.767241358757019, "avg_line_length": 57, "blob_id": "cf972ac9eff7d748dcd9eee54fda3f886b31809e", "content_id": "4802da77455ad925af37ff332b613eb19c484393", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 116, "license_type": "no_license", "max_line_length": 65, "num_lines": 2, "path": "/scripts/plot_gap_function.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.calculations import tc_from_gap_function\ntc, err = tc_from_gap_function(\"ELIASHBERG_GAP_T.OUT\", plot=True)\n" }, { "alpha_fraction": 0.3706199526786804, "alphanum_fraction": 0.5970350503921509, "avg_line_length": 34.33333206176758, "blob_id": "9cdf52f7126c05841e1b44d11a9c0dcbce00be7c", "content_id": "f1c921d2ac8dd3cc2b5028ec37c94341cff81b6c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 742, "license_type": "no_license", "max_line_length": 40, "num_lines": 21, "path": "/constants.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "# Physical constants/conversion factors\nANGSTROM_TO_BOHR = 1.88973\nBOHR_TO_ANGSTROM = 1.0/ANGSTROM_TO_BOHR\nANGSTROM_TO_M = 10e-10\nM_TO_ANGSTROM = 1.0/ANGSTROM_TO_M\nBOHR_TO_M = 5.29177210903e-11\nM_TO_BOHR = 1.0/BOHR_TO_M\nRY_TO_EV = 13.605698065893753\nEV_TO_RY = 1.0/RY_TO_EV\nRY_TO_KBAR_AU3 = 5.029421.02648438959\nKBAR_AU3_TO_RY = 1.0/RY_TO_KBAR_AU3\nRY_TO_CMM1 = 109736.75775046606 \nCMM1_TO_RY = 1.0/RY_TO_CMM1\nRY_TO_K = 157887.6633481157\nK_TO_RY = 1.0/RY_TO_K\nEV_TO_J = 1.60217733000001e-19\nJ_TO_EV = 1.0/EV_TO_J\nAMU_TO_KG = 1.6605390660e-27\nKG_TO_AMU = 1.0/AMU_TO_KG\nCMM1_TO_HZ = 29979424760.063602\nHZ_TO_CMM1 = 1.0/CMM1_TO_HZ\n" }, { "alpha_fraction": 0.46965348720550537, "alphanum_fraction": 0.5061513185501099, "avg_line_length": 27.943620681762695, "blob_id": "433885d298d6b8e7d6c53f6370f903e579179448", "content_id": "6c8d6907d663320a7d0aa7711accb1785308537f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 9754, "license_type": "no_license", "max_line_length": 79, "num_lines": 337, "path": "/examples/platonic_ternary_search.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "# \n# This file builds platonic cage-like ternary hydride (potential)\n# superconductors, performs a relaxation on each and calculates\n# the projected density of states.\n#\nimport os, math\nimport numpy as np\nfrom qet.params import parameters\nfrom qet.logs import log\nfrom qet.elements import elements\nfrom qet.calculations import relax\n\nPSEUDO_DIR = \"/home/mjh261/rds/rds-t2-cs084/pseudopotentials/gbrv\"\n\ndef get_platonic_hydrogens(nh, lattice, centre=[0.5,0.5,0.5], scale=1.0):\n\n # Scale of the displacement from the centre\n a = 0.33333333333333 scale * np.linalg.det(lattice)(1.0/3.0)\n\n # The centre of the platonic solid in cart coords\n x,y,z = np.matmul(np.array(lattice).T, centre)\n\n # Golden ratio\n p = (1.0 + 5.00.5)/2.0\n\n # Normalize the scale by the length of\n # the pertubation for the given platonic type\n if nh == 4 : a /= 3.0 0.5\n elif nh == 6 : a /= 1.0\n elif nh == 8 : a /= 3.0 0.5\n elif nh == 12: a /= (1 + p2)0.5\n elif nh == 20: a /= 3.0 ** 0.5\n\n ap = a * p\n aop = a / p\n\n # Generate the hydrogens in cartesian coordinates\n\n if nh == 4:\n # Tetrahedron\n atoms = [\n [\"H\", [x+a, y+a, z+a]],\n [\"H\", [x+a, y-a, z-a]],\n [\"H\", [x-a, y+a, z-a]],\n [\"H\", [x-a, y-a, z+a]]\n ]\n\n elif nh == 6:\n # Octahedron\n atoms = [\n [\"H\", [x+a, y, z]],\n [\"H\", [x-a, y, z]],\n\n [\"H\", [x, y+a, z]],\n [\"H\", [x, y-a, z]],\n\n [\"H\", [x, y, z+a]],\n [\"H\", [x, y, z-a]]\n ]\n\n elif nh == 8:\n # Cube\n atoms = [\n [\"H\", [x+a, y+a, z+a]],\n\n [\"H\", [x-a, y+a, z+a]],\n [\"H\", [x+a, y-a, z+a]],\n [\"H\", [x+a, y+a, z-a]],\n\n [\"H\", [x+a, y-a, z-a]],\n [\"H\", [x-a, y+a, z-a]],\n [\"H\", [x-a, y-a, z+a]],\n\n [\"H\", [x-a, y-a, z-a]],\n ]\n\n elif nh == 12:\n # Icosahedron\n atoms = [\n [\"H\", [x, y+a, z+ap]],\n [\"H\", [x, y-a, z+ap]],\n [\"H\", [x, y+a, z-ap]],\n [\"H\", [x, y-a, z-ap]],\n\n [\"H\", [x+ap, y, z+a]],\n [\"H\", [x-ap, y, z+a]],\n [\"H\", [x+ap, y, z-a]],\n [\"H\", [x-ap, y, z-a]],\n\n [\"H\", [x+a, y+ap, z]],\n [\"H\", [x-a, y+ap, z]],\n [\"H\", [x+a, y-ap, z]],\n [\"H\", [x-a, y-ap, z]]\n ]\n\n elif nh == 20:\n # Dodechahedron\n atoms = [\n [\"H\", [x+a, y+a, z+a]],\n\n [\"H\", [x-a, y+a, z+a]],\n [\"H\", [x+a, y-a, z+a]],\n [\"H\", [x+a, y+a, z-a]],\n\n [\"H\", [x+a, y-a, z-a]],\n [\"H\", [x-a, y+a, z-a]],\n [\"H\", [x-a, y-a, z+a]],\n\n [\"H\", [x-a, y-a, z-a]],\n\n [\"H\", [x, y+aop, z+ap]],\n [\"H\", [x, y-aop, z+ap]],\n [\"H\", [x, y+aop, z-ap]],\n [\"H\", [x, y-aop, z-ap]],\n\n [\"H\", [x+aop, y, z+ap]],\n [\"H\", [x-aop, y, z+ap]],\n [\"H\", [x+aop, y, z-ap]],\n [\"H\", [x-aop, y, z-ap]],\n\n [\"H\", [x+aop, y+ap, z]],\n [\"H\", [x-aop, y+ap, z]],\n [\"H\", [x+aop, y-ap, z]],\n [\"H\", [x-aop, y-ap, z]]\n ]\n\n else:\n return None\n\n # Convert back to fractional coordinates\n linv = np.linalg.inv(np.array(lattice).T)\n for i in range(len(atoms)):\n atoms[i][1] = np.matmul(linv, atoms[i][1])\n\n return atoms\n\n\ndef get_extended_platonic(n, lattice, centre=[0.5,0.5,0.5]):\n \n atoms = []\n\n # If neccassary, combine several platonic solids\n # to obtain a particular hydrogen count.\n if nh in [4, 6, 8, 12, 20]:\n atoms.extend(get_platonic_hydrogens(nh, lattice, centre))\n\n elif nh == 10:\n atoms.extend(get_platonic_hydrogens(4, lattice, centre))\n atoms.extend(get_platonic_hydrogens(6, lattice, centre))\n\n elif nh == 14:\n atoms.extend(get_platonic_hydrogens(6, lattice, centre))\n atoms.extend(get_platonic_hydrogens(8, lattice, centre))\n\n elif nh == 16:\n atoms.extend(get_platonic_hydrogens(4, lattice, centre))\n atoms.extend(get_platonic_hydrogens(12, lattice, centre))\n\n elif nh == 18:\n atoms.extend(get_platonic_hydrogens(6, lattice, centre))\n atoms.extend(get_platonic_hydrogens(12, lattice, centre))\n\n elif nh == 22:\n atoms.extend(get_platonic_hydrogens(12, lattice, centre))\n atoms.extend(get_platonic_hydrogens(6, lattice, centre))\n atoms.extend(get_platonic_hydrogens(4, lattice, centre))\n\n elif nh == 24:\n atoms.extend(get_platonic_hydrogens(20, lattice, centre))\n atoms.extend(get_platonic_hydrogens(4, lattice, centre, scale=1.5))\n\n elif nh == 26:\n atoms.extend(get_platonic_hydrogens(20, lattice, centre))\n atoms.extend(get_platonic_hydrogens(6, lattice, centre))\n\n elif nh == 28:\n atoms.extend(get_platonic_hydrogens(20, lattice, centre))\n atoms.extend(get_platonic_hydrogens(8, lattice, centre, scale=1.5))\n\n elif nh == 30:\n atoms.extend(get_platonic_hydrogens(20, lattice, centre))\n atoms.extend(get_platonic_hydrogens(6, lattice, centre))\n atoms.extend(get_platonic_hydrogens(4, lattice, centre, scale=1.5))\n \n else:\n return None\n\n return atoms\n\n\n# Fill in hydrogens using platonic solids.\ndef generate_structure_platonic(e1, e2, n1, n2, nh, volume_guess):\n\n # Equal n1, n2 case\n if n1 == n2:\n \n # Put e1 at corner, e2 at centre of cell\n atoms = [\n [e1, [0, 0, 0 ]],\n [e2, [0.5, 0.5, 0.5]]\n ]\n\n # Use a cubic lattice\n lattice = [[1.0,0.0,0.0],[0.0,1.0,0.0],[0.0,0.0,1.0]]\n \n elif [n1,n2] in [[1,2], [2,1]]:\n \n # Work out which we have more of, e1 or e2.\n emost = e1\n eleast = e2\n if n2 > n1:\n emost = e2\n eleast = e1\n\n # Arrange the cell so we have the\n # correct ratio of e1 : e2\n atoms = [\n [eleast, [0.5, 0.5, 0.5 ]],\n [emost, [0.75, 0.75, 0.75]],\n [emost, [0.25, 0.25, 0.25]]\n ]\n\n # Use a lattice with a=b=c alpha=beta=gamma=60\n lattice = [\n [1.0, 0.0, 0.0 ], \n [0.5, 0.8660254, 0.0 ],\n [0.5, 0.2886751, 0.8164966]]\n\n else:\n fs = \"Don't know how to deal with the n1 = {0}, n2 = {1} case.\"\n raise Exception(fs.format(n1,n2))\n\n # Set the lattice volume to the guessed volume\n lattice = np.array(lattice)\n lat_vol = np.linalg.det(lattice)\n lattice = (volume_guess/lat_vol)(1.0/3.0)\n\n # Create the hydrogen cage around the central atom\n ph = get_extended_platonic(nh, lattice, centre=[0.5, 0.5, 0.5])\n if ph is None: return None\n\n atoms.extend(ph)\n\n par = parameters()\n par[\"lattice\"] = lattice\n par[\"atoms\"] = atoms\n return par\n \n# Returns a parameter set with a structure\n# with the given stochiometry\ndef generate_structure(e1, e2, n1, n2, nh):\n\n # Estimate the volume based on the covalent radius\n v1 = elements[e1][\"covalent radius\"] * 3\n v2 = elements[e2][\"covalent radius\"] 3\n vh = elements[\"H\"][\"covalent radius\"] 3\n volume_guess = n1v1 + n2v2 + nhvh\n volume_guess = 4.03.14159/3.0 # 4/3 pi\n volume_guess = 5.0 # This factor is from tests\n\n #return generate_fibonacci_cage_structure(e1, e2, n1, n2, nh, volume_guess)\n return generate_structure_platonic(e1, e2, n1, n2, nh, volume_guess)\n\n# Run a particular ternary hydride\n# with stoichiometry e1_n1 e2_n2 H_nh\ncount = 0\ndef run(e1, e2, n1, n2, nh):\n\n # Check we have the pseudopotentials\n if not os.path.isfile(PSEUDO_DIR+\"/\"+e1+\".UPF\"): return\n if not os.path.isfile(PSEUDO_DIR+\"/\"+e2+\".UPF\"): return\n\n # Generate the structure, skip if we couldn't\n par = generate_structure(e1, e2, n1, n2, nh)\n if par is None: return\n\n # Count the structures\n global count\n count += 1\n \n # Get the title of this structure\n title = par[\"stoichiometry_string\"]\n print(count, title)\n\n par[\"pseudo_dir\"] = PSEUDO_DIR\n rlx = relax(par)\n with open(title+\".relax.in\",\"w\") as f:\n f.write(rlx.gen_input_file())\n\n# Choose the elements that can be used to\n# build the ternary hydride\nnon_hydrogen_choices = []\nfor e in elements:\n\n an = elements[e][\"atomic number\"]\n ra = elements[e][\"radioactive\"]\n\n if an < 2: continue # Not hydrogen\n if an > 4: continue # We don't consider atomic numbers > 103\n if ra: continue # No radioactive elements\n\n non_hydrogen_choices.append(e)\n\n\n# Construct hydrides with the given\n# ratios of the two non-hydrogen elements\nallowed_ratios = [[1,1], [2,1], [1,2]]\n\n# The minimum and maximum allowed numbers\n# of hydrogens per non-hydrogen\nMIN_H_CONTENT = 1\nMAX_H_CONTENT = 10\n\n# Loop over pairs of elements\nfor i in range(0, len(non_hydrogen_choices)):\n e1 = non_hydrogen_choices[i]\n\n for j in range(0, i):\n e2 = non_hydrogen_choices[j]\n \n # Ensure e1 is the heavier element\n if elements[e2][\"atomic number\"] > elements[e1][\"atomic number\"]:\n tmp = e2\n e2 = e1\n e1 = tmp\n\n # Loop over allowed ratios\n for rat in allowed_ratios:\n num_non_h = sum(rat)\n\n # Loop over allowed hydrogen content\n for nh in range(\n num_non_h * MIN_H_CONTENT, \n num_non_h * MAX_H_CONTENT + 1):\n\n # Run this stochiometry\n run(e1, e2, rat[0], rat[1], nh)\n" }, { "alpha_fraction": 0.26488351821899414, "alphanum_fraction": 0.49022144079208374, "avg_line_length": 39.196533203125, "blob_id": "417b5c5c20f1906a0d44fb9eaf719205a19e8e6e", "content_id": "03b85042c54dd577db1ceccd6d449deb73b0547c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 6954, "license_type": "no_license", "max_line_length": 94, "num_lines": 173, "path": "/elements.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "titles = [\n\"atomic number\", \n\"name\", \n\"symbol\", \n\"mass number\", \n\"neutrons\", \n\"radioactive\",\n\"covalent radius\", # https://doi.org/10.1039%2Fb801115j\n]\n\ndata = [\n[1 ,\"Hydrogen \",\"H \",1.007 ,0 ,0, 0.31],\n[2 ,\"Helium \",\"He\",4.002 ,2 ,0, 0.28],\n[3 ,\"Lithium \",\"Li\",6.941 ,4 ,0, 1.28],\n[4 ,\"Beryllium \",\"Be\",9.012 ,5 ,0, 0.96],\n[5 ,\"Boron \",\"B \",10.811 ,6 ,0, 0.84],\n[6 ,\"Carbon \",\"C \",12.011 ,6 ,0, 0.76],\n[7 ,\"Nitrogen \",\"N \",14.007 ,7 ,0, 0.71],\n[8 ,\"Oxygen \",\"O \",15.999 ,8 ,0, 0.66],\n[9 ,\"Fluorine \",\"F \",18.998 ,10 ,0, 0.57],\n[10 ,\"Neon \",\"Ne\",20.18 ,10 ,0, 0.58],\n[11 ,\"Sodium \",\"Na\",22.99 ,12 ,0, 1.66],\n[12 ,\"Magnesium \",\"Mg\",24.305 ,12 ,0, 1.41],\n[13 ,\"Aluminum \",\"Al\",26.982 ,14 ,0, 1.21],\n[14 ,\"Silicon \",\"Si\",28.086 ,14 ,0, 1.11],\n[15 ,\"Phosphorus \",\"P \",30.974 ,16 ,0, 1.07],\n[16 ,\"Sulfur \",\"S \",32.065 ,16 ,0, 1.05],\n[17 ,\"Chlorine \",\"Cl\",35.453 ,18 ,0, 1.02],\n[18 ,\"Argon \",\"Ar\",39.948 ,22 ,0, 1.06],\n[19 ,\"Potassium \",\"K \",39.098 ,20 ,0, 2.03],\n[20 ,\"Calcium \",\"Ca\",40.078 ,20 ,0, 1.76],\n[21 ,\"Scandium \",\"Sc\",44.956 ,24 ,0, 1.70],\n[22 ,\"Titanium \",\"Ti\",47.867 ,26 ,0, 1.60],\n[23 ,\"Vanadium \",\"V \",50.942 ,28 ,0, 1.53],\n[24 ,\"Chromium \",\"Cr\",51.996 ,28 ,0, 1.39],\n[25 ,\"Manganese \",\"Mn\",54.938 ,30 ,0, 1.39],\n[26 ,\"Iron \",\"Fe\",55.845 ,30 ,0, 1.32],\n[27 ,\"Cobalt \",\"Co\",58.933 ,32 ,0, 1.26],\n[28 ,\"Nickel \",\"Ni\",58.693 ,31 ,0, 1.24],\n[29 ,\"Copper \",\"Cu\",63.546 ,35 ,0, 1.32],\n[30 ,\"Zinc \",\"Zn\",65.38 ,35 ,0, 1.22],\n[31 ,\"Gallium \",\"Ga\",69.723 ,39 ,0, 1.22],\n[32 ,\"Germanium \",\"Ge\",72.64 ,41 ,0, 1.20],\n[33 ,\"Arsenic \",\"As\",74.922 ,42 ,0, 1.19],\n[34 ,\"Selenium \",\"Se\",78.96 ,45 ,0, 1.20],\n[35 ,\"Bromine \",\"Br\",79.904 ,45 ,0, 1.20],\n[36 ,\"Krypton \",\"Kr\",83.798 ,48 ,0, 1.16],\n[37 ,\"Rubidium \",\"Rb\",85.468 ,48 ,0, 2.20],\n[38 ,\"Strontium \",\"Sr\",87.62 ,50 ,0, 1.95],\n[39 ,\"Yttrium \",\"Y \",88.906 ,50 ,0, 1.90],\n[40 ,\"Zirconium \",\"Zr\",91.224 ,51 ,0, 1.64],\n[41 ,\"Niobium \",\"Nb\",92.906 ,52 ,0, 1.64],\n[42 ,\"Molybdenum \",\"Mo\",95.96 ,54 ,0, 1.54],\n[43 ,\"Technetium \",\"Tc\",98 ,55 ,1, 1.47],\n[44 ,\"Ruthenium \",\"Ru\",101.07 ,57 ,0, 1.46],\n[45 ,\"Rhodium \",\"Rh\",102.906,58 ,0, 1.42],\n[46 ,\"Palladium \",\"Pd\",106.42 ,60 ,0, 1.39],\n[47 ,\"Silver \",\"Ag\",107.868,61 ,0, 1.45],\n[48 ,\"Cadmium \",\"Cd\",112.411,64 ,0, 1.44],\n[49 ,\"Indium \",\"In\",114.818,66 ,0, 1.42],\n[50 ,\"Tin \",\"Sn\",118.71 ,69 ,0, 1.39],\n[51 ,\"Antimony \",\"Sb\",121.76 ,71 ,0, 1.39],\n[52 ,\"Tellurium \",\"Te\",127.6 ,76 ,0, 1.38],\n[53 ,\"Iodine \",\"I \",126.904,74 ,0, 1.39],\n[54 ,\"Xenon \",\"Xe\",131.293,77 ,0, 1.40],\n[55 ,\"Cesium \",\"Cs\",132.905,78 ,0, 2.44],\n[56 ,\"Barium \",\"Ba\",137.327,81 ,0, 2.15],\n[57 ,\"Lanthanum \",\"La\",138.905,82 ,0, 2.07],\n[58 ,\"Cerium \",\"Ce\",140.116,82 ,0, 2.04],\n[59 ,\"Praseodymium \",\"Pr\",140.908,82 ,0, 2.03],\n[60 ,\"Neodymium \",\"Nd\",144.242,84 ,0, 2.01],\n[61 ,\"Promethium \",\"Pm\",145 ,84 ,1, 1.99],\n[62 ,\"Samarium \",\"Sm\",150.36 ,88 ,0, 1.98],\n[63 ,\"Europium \",\"Eu\",151.964,89 ,0, 1.98],\n[64 ,\"Gadolinium \",\"Gd\",157.25 ,93 ,0, 1.96],\n[65 ,\"Terbium \",\"Tb\",158.925,94 ,0, 1.94],\n[66 ,\"Dysprosium \",\"Dy\",162.5 ,97 ,0, 1.92],\n[67 ,\"Holmium \",\"Ho\",164.93 ,98 ,0, 1.92],\n[68 ,\"Erbium \",\"Er\",167.259,99 ,0, 1.89],\n[69 ,\"Thulium \",\"Tm\",168.934,100,0, 1.90],\n[70 ,\"Ytterbium \",\"Yb\",173.054,103,0, 1.87],\n[71 ,\"Lutetium \",\"Lu\",174.967,104,0, 1.75],\n[72 ,\"Hafnium \",\"Hf\",178.49 ,106,0, 1.87],\n[73 ,\"Tantalum \",\"Ta\",180.948,108,0, 1.70],\n[74 ,\"Tungsten \",\"W \",183.84 ,110,0, 1.62],\n[75 ,\"Rhenium \",\"Re\",186.207,111,0, 1.51],\n[76 ,\"Osmium \",\"Os\",190.23 ,114,0, 1.44],\n[77 ,\"Iridium \",\"Ir\",192.217,115,0, 1.41],\n[78 ,\"Platinum \",\"Pt\",195.084,117,0, 1.36],\n[79 ,\"Gold \",\"Au\",196.967,118,0, 1.36],\n[80 ,\"Mercury \",\"Hg\",200.59 ,121,0, 1.32],\n[81 ,\"Thallium \",\"Tl\",204.383,123,0, 1.45],\n[82 ,\"Lead \",\"Pb\",207.2 ,125,0, 1.46],\n[83 ,\"Bismuth \",\"Bi\",208.98 ,126,0, 1.48],\n[84 ,\"Polonium \",\"Po\",210 ,126,1, 1.40],\n[85 ,\"Astatine \",\"At\",210 ,125,1, 1.50],\n[86 ,\"Radon \",\"Rn\",222 ,136,1, 1.50],\n[87 ,\"Francium \",\"Fr\",223 ,136,1, 2.60],\n[88 ,\"Radium \",\"Ra\",226 ,138,1, 2.21],\n[89 ,\"Actinium \",\"Ac\",227 ,138,1, 2.15],\n[90 ,\"Thorium \",\"Th\",232.038,142,1, 2.06],\n[91 ,\"Protactinium \",\"Pa\",231.036,140,1, 2.00],\n[92 ,\"Uranium \",\"U \",238.029,146,1, 1.96],\n[93 ,\"Neptunium \",\"Np\",237 ,144,1, 1.90],\n[94 ,\"Plutonium \",\"Pu\",244 ,150,1, 1.87],\n[95 ,\"Americium \",\"Am\",243 ,148,1, 1.80],\n[96 ,\"Curium \",\"Cm\",247 ,151,1, 1.69],\n[97 ,\"Berkelium \",\"Bk\",247 ,150,1, 2.00],\n[98 ,\"Californium \",\"Cf\",251 ,153,1, 2.00],\n[99 ,\"Einsteinium \",\"Es\",252 ,153,1, 2.00],\n[100,\"Fermium \",\"Fm\",257 ,157,1, 2.00],\n[101,\"Mendelevium \",\"Md\",258 ,157,1, 2.00],\n[102,\"Nobelium \",\"No\",259 ,157,1, 2.00],\n[103,\"Lawrencium \",\"Lr\",262 ,159,1, 2.00],\n[104,\"Rutherfordium\",\"Rf\",261 ,157,1, 2.00],\n[105,\"Dubnium \",\"Db\",262 ,157,1, 2.00],\n[106,\"Seaborgium \",\"Sg\",266 ,160,1, 2.00],\n[107,\"Bohrium \",\"Bh\",264 ,157,1, 2.00],\n[108,\"Hassium \",\"Hs\",267 ,159,1, 2.00],\n[109,\"Meitnerium \",\"Mt\",268 ,159,1, 2.00],\n[110,\"Darmstadtium \",\"Ds\",271 ,161,1, 2.00],\n[111,\"Roentgenium \",\"Rg\",272 ,161,1, 2.00],\n[112,\"Copernicium \",\"Cn\",285 ,173,1, 2.00],\n[113,\"Nihonium \",\"Nh\",284 ,171,1, 2.00],\n[114,\"Flerovium \",\"Fl\",289 ,175,1, 2.00],\n[115,\"Moscovium \",\"Mc\",288 ,173,1, 2.00],\n[116,\"Livermorium \",\"Lv\",292 ,176,1, 2.00],\n[117,\"Tennessine \",\"Ts\",295 ,178,1, 2.00],\n[118,\"Oganesson \",\"Og\",294 ,176,1, 2.00],\n]\n\n# Create the elements object\nelements = {}\nfor dat in data:\n d = {}\n for i in range(0, len(titles)):\n if isinstance(dat[i], str): dat[i] = dat[i].strip() # Strip strings in dat\n if titles[i] == \"radioactive\": dat[i] = (dat[i] > 0) # Replace radioactive with bool\n d[titles[i]] = dat[i]\n elements[dat[2]] = d\n\ndef plot():\n import matplotlib.pyplot as plt\n import numpy as np\n \n an = []\n rs = []\n nc = []\n for e in elements:\n an.append(elements[e][\"atomic number\"])\n rs.append(elements[e][\"covalent radius\"])\n nc.append(elements[e][\"neutrons\"])\n\n p1 = plt.subplot(221)\n p2 = plt.subplot(222)\n p3 = plt.subplot(223)\n\n p1.plot(an,rs)\n p1.set_xlabel(\"Atomic number\")\n p1.set_ylabel(\"Covalent radius (angstrom)\")\n\n p2.plot(an,nc)\n p2.set_xlabel(\"Atomic number\")\n p2.set_ylabel(\"Neutron count\")\n\n mat = np.zeros((len(data), len(data)))\n for i in range(len(data)):\n for j in range(i):\n try: mat[i][j] = atom_substitutions[data[i][2]][data[j][2]]\n except: pass\n p3.imshow(mat)\n\n plt.show()\n" }, { "alpha_fraction": 0.8526315689086914, "alphanum_fraction": 0.8526315689086914, "avg_line_length": 46.5, "blob_id": "822a47c665634740f1ef8b57cd761c586cd7c8da", "content_id": "9dabfb4f0edf11b872be0709139aac5854e97425", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 95, "license_type": "no_license", "max_line_length": 49, "num_lines": 2, "path": "/scripts/tidy_tc_even_incomplete.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.calculations import tidy_tc_calculations\ntidy_tc_calculations(remove_incomplete=True)\n" }, { "alpha_fraction": 0.4889034032821655, "alphanum_fraction": 0.5084856152534485, "avg_line_length": 32.30434799194336, "blob_id": "eea897492c59467f521b0e8fa5b37217fc047e68", "content_id": "1b7c4f83ee9fb481570831a5a0757eb58cf6d48e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1532, "license_type": "no_license", "max_line_length": 106, "num_lines": 46, "path": "/scripts/follow_lowest_n_phonons.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.params import parameters\nimport sys\nimport os\n\ntry:\n param_file = sys.argv[1]\n modes_file = sys.argv[2]\n n = int(sys.argv[3])\nexcept:\n print(\"Usage: python ~/../follow_phonon.py param.in matdyn.modes n\")\n quit()\n\np = parameters(param_file)\n\nhsp = {}\nhsp_coords = p[\"high_symmetry_bz_points\"]\nfor i in hsp_coords:\n name = hsp_coords[i]\n if name in hsp: continue\n hsp[name] = p[\"bz_path\"][i]\n\nfor mev in [1.0, 10.0, 100.0]:\n for name in hsp:\n for i in range(n):\n q, f, vec, disp = p.apply_phonon(hsp[name], i, modes_file=modes_file, \n use_closest=True, return_freq=True, return_evec=True, return_disp=True, target_energy=mev)\n\n max_d = 0.0\n for j in range(0, len(q[\"atoms\"])):\n if q[\"atoms\"][j][0] == \"La\":\n d = sum(xx for x in disp[j])\n d = d0.5\n if d > max_d:\n max_d = d\n\n d = \"{0}meV\".format(int(mev))\n os.system(\"mkdir \"+d+\" 2>/dev/null\")\n fname = \"{0}/{1}_phonon_mode_{2}.cell\".format(d, name, i)\n q.save_to_cell(fname)\n\n with open(fname.replace(\".cell\", \".info\"), \"w\") as inf:\n inf.write(\"Q-point {0} {1} mode {2}\\n\".format(name, hsp[name], i))\n inf.write(\"frequency = {0} cm^-1\\n\".format(f))\n inf.write(\"Maxmum La displacement = {0} angstrom\\n\".format(max_d))\n\n os.system(\"c2x --cif \"+fname+\" \"+fname.replace(\".cell\", \".cif\"))\n" }, { "alpha_fraction": 0.7004716992378235, "alphanum_fraction": 0.7122641801834106, "avg_line_length": 22.55555534362793, "blob_id": "de2de3a8bc44a8c49813bdf3edbf8204b4a0f508", "content_id": "5efa16553e6f355a186d14d8ce4fa0247b48c942", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 424, "license_type": "no_license", "max_line_length": 45, "num_lines": 18, "path": "/scripts/calc_tc.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "#!/home/mjh261/bin/anaconda3/bin/python\nfrom qet.params import parameters\nfrom qet.calculations import calculate_tc\nfrom qet.logs import log\nimport os\nimport sys\n\n# Make, and move to the calculation directory\nf = sys.argv[1]\ndname = f.replace(\".in\",\"\")\nos.system(\"mkdir \"+dname)\nos.chdir(dname)\n\n# Start the calculation\nlog(\"Starting TC calculation in \"+dname)\np = parameters()\np.load(\"../\"+f)\ncalculate_tc(p)\n" }, { "alpha_fraction": 0.723767876625061, "alphanum_fraction": 0.7267488241195679, "avg_line_length": 44.306304931640625, "blob_id": "3ef08be9ce3289b484d1fed28904abca807f7e73", "content_id": "d2c4f5e787555ca059778cacd64a307935414080", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 5032, "license_type": "no_license", "max_line_length": 126, "num_lines": 111, "path": "/README.md", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "# QET\nWelcome to the QET (quantum espresso tools) library, for carrying out high-throughput calculations using Quantum Espresso.\nQET automates the process of setting up, parallelising and running jobs in Quantum Espresso and streamlines the set up of\ncalculations in series to build up high-throughput workflows.\n\n# Overview\n<img src=\"./overview.svg\">\n\n# Example usage\nIn order to get an idea of how the various parts of QET work together, we're going to take a look at how the \n`examples/ternary_optimizer.py` example works. This example takes a set of ternary-hydride superconductors and applies\nalchemical mutations to construct a network of new materials. This network will grow in such a way as to maximize the fraction\nof electronic density of states at the fermi level that originates from the hydrogen atoms. This is closely related to\nhow good the resulting superconductor is. First, we import the various tools we'll need:\n\n```python\nfrom qet.calculations import relax, proj_dos # Basic QE calculation types that we will use\nfrom qet.alchemy.network import alch_network # The alchemical optimization method that we will use\nfrom qet.alchemy import mutations # The alchemical moves that we will employ\nfrom qet.examples.initial_ternaries import get_initial_ternaries # Initial seed structures for this example\n```\n\nThe modules in QET are organised in a hierarchical structure, with more specific functionality further down the hierarchy.\nFor example, `qet.alchemy` contains the basic mutations that all alchemical methods can use, whereas `qet.alchemy.network`\ncontains tools specific to an alchemical network. Next, we define a our objective function, which uses the basic calculation\ntypes contained within `qet.calculations` to evaluate the hydrogen-derived density of states at the fermi level:\n\n```python\ndef h_dos(structure):\n\n # Relax the structure\n res = relax(structure).run()\n \n # Update the structure to the relaxed version\n structure[\"atoms\"] = res[\"relaxed atoms\"]\n structure[\"lattice\"] = res[\"relaxed lattice\"]\n\n # Calculate the DOS\n res = proj_dos(structure).run()\n\n # Get the fraction of the DOS due to hydrogens\n total_dos = 0.0\n hydrogen_dos = 0.0\n\n # Loop over atoms and atomic wavefunctions\n for atom_number in res[\"PDOS (fermi energy)\"]:\n for wfc_number in res[\"PDOS (fermi energy)\"][atom_number]:\n\n # Get the type of atom and the contribution to the DOS at E_F\n atom_name = res[\"PDOS atom names\"][atom_number][wfc_number]\n dos_ef = res[\"PDOS (fermi energy)\"][atom_number][wfc_number]\n\n # Accumulate the total and hydrogen DOS\n total_dos += dos_ef\n if atom_name == \"H\":\n hydrogen_dos += dos_ef\n\n return hydrogen_dos/total_dos\n```\n\nThis function takes an argument `structure` which will be of the `parameters` type defined in `qet.params`. This\n`parameters` object defines all of the various settings used by Quantum Espresso, including the crystal structure\nof the material in question. It's state is defined by a minimal structure and parameter set and it exposes many useful\nmethods for accessing that information and derived information. Using these methods, we setup a constaint on the \ntypes of structures that we are willing to consider. In this case, this consists of only ternary structures with \nup to 6 non-hydrogen elements and between 1 and 8 hydrogens per non-hydrogen:\n```python\ndef is_valid(structure):\n \n MAX_NON_H = 6\n MIN_H_PER_NON_H = 1\n MAX_H_PER_NON_H = 8\n\n species = structure[\"species\"]\n if len(species) != 3: return False # Only ternaries\n\n counts = structure[\"atom_counts\"]\n non_hs = sum([counts[e] for e in counts if not e == \"H\"])\n\n # Limit on non-hydrogens\n if non_hs > MAX_NON_H : return False\n\n # Limits on number of hydrogens\n if counts[\"H\"] > MAX_H_PER_NON_H non_hs: return False\n if counts[\"H\"] < MIN_H_PER_NON_H * non_hs: return False\n\n return True\n```\n\nFinally, we construct an alchemical network and expand it in order to maximize the hydrogen-derived density of\nstates at the fermi level:\n```python\n# Load/create the network\nnw = alch_network(\"network\")\n\n# Add the seed structures\nfor structure in get_initial_ternaries():\n nw.create_vertex(structure)\n\n# Setup the function to minimize\nto_min = lambda s : -h_dos(s)\n\n# Optimize the network\nfor n in range(0, 100):\n nw.expand_to_minimize(to_min, mutations, is_valid=is_valid)\n```\n\nThis will create a set of subdirectories, each continaing a new structure and the corresponding files from the calculation\nof the hydrogen-derived density of states. As it progresses, the structures with the highest hydrogen-DOS will be mutated\nto create new structures. Many calculations can be ran simultaneously in the parent directory and will each pick a different\nstructure to expand, this allows many nodes of a supercomputer to used on the same alchemical network.\n\n\n\n" }, { "alpha_fraction": 0.6038870811462402, "alphanum_fraction": 0.6376677751541138, "avg_line_length": 25.679012298583984, "blob_id": "c14267d7128aac45e090dc47419c752a2fbc3ce6", "content_id": "7969def7bb3c1f23ceb0f47d8a71f2d0074e6120", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2161, "license_type": "no_license", "max_line_length": 89, "num_lines": 81, "path": "/scripts/atom_tc_contributions.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "import sys\nimport numpy as np\nimport matplotlib.pyplot as plt\nfrom qet import parser\nfrom qet.calculations import tc_allen_dynes\nfrom qet.constants import RY_TO_CMM1\n\nmodes = parser.phonon_interp_modes(\"ph_interp.modes\")\na2f = parser.a2f_dos_out(\"a2F.dos10\")\na2f_freqs = a2f[\"frequencies\"]\nmode_freqs = modes[\"frequencies\"]\nmode_evecs = modes[\"eigenvectors\"]\nmode_qpts = modes[\"q-points\"] \nmode_count = int(len(mode_freqs)/len(mode_qpts))\natom_count = int(mode_count/3)\nCMM_SCALE = 10\n\ndef tc_from_a2f(a2f): return tc_allen_dynes(a2f_freqs, a2f, mu_stars=[0.125])[0.125]\n\n# Work out the Tc contribution from each frequency\ntc_contribs = []\ntc_with_all = tc_from_a2f(a2f[\"a2f\"])\nfor i in range(len(a2f_freqs)):\n a2fi = list(a2f[\"a2f\"])\n a2fi[i] = 0\n tc_i = tc_with_all - tc_from_a2f(a2fi)\n if tc_i < 0: tc_i = 0\n tc_contribs.append(tc_i)\n\ndef norm(e): return (e[0]e[0] + e[1]e[1] + e[2]e[2])0.5\n\n# Work out which atoms move at each frequency\natom_amps = []\n\nfor i in range(len(a2f_freqs)):\n wi = a2f_freqs[i] RY_TO_CMM1\n evec_i = None\n\n for j in range(len(mode_freqs)):\n wj = mode_freqs[j]\n exp = np.exp(-(wi-wj)2.0/(CMM_SCALE2.0))\n\n evec = [norm(e)exp for e in mode_evecs[j]]\n if evec_i is None: evec_i = evec\n else: evec_i = [a+b for a,b in zip(evec_i, evec)]\n\n evec_i = [e/len(mode_freqs) for e in evec_i]\n atom_amps.append(evec_i)\n\n# Work out Tc contribution from atom moves\natom_tcs = []\nfor i in range(atom_count):\n \n tc_av = 0\n for j in range(len(a2f_freqs)):\n tc_av += tc_contribs[j] atom_amps[j][i]\n\n print(tc_av)\n atom_tcs.append(tc_av)\n\nplt.subplot(411)\nplt.plot(a2f_freqs, a2f[\"a2f\"])\nplt.xlabel(\"$\\omega$\")\nplt.ylabel(\"$\\\\alpha^2F(\\\\omega)$\")\n\nplt.subplot(412)\nplt.plot(a2f_freqs, tc_contribs)\nplt.xlabel(\"$\\omega$\")\nplt.ylabel(\"$T_c$ contribution\")\n\nplt.subplot(413)\nfor i in range(0, atom_count):\n plt.plot(a2f_freqs, [aa[i] for aa in atom_amps], label=\"Atom {0} movement\".format(i))\nplt.xlabel(\"$\\omega$\")\nplt.legend()\n\nplt.subplot(414)\nplt.plot(atom_tcs)\nplt.xlabel(\"Atom number\")\nplt.ylabel(\"$T_c$ contributions\")\nplt.show()\n" }, { "alpha_fraction": 0.835616409778595, "alphanum_fraction": 0.835616409778595, "avg_line_length": 35.5, "blob_id": "f9eda98c5c6bdd31aa21aeb0a86c82abab1edadd", "content_id": "518245f0922e19e97c328094a7517118b692cb05", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 73, "license_type": "no_license", "max_line_length": 49, "num_lines": 2, "path": "/scripts/tidy_tc.py", "repo_name": "miicck/qet", "src_encoding": "UTF-8", "text": "from qet.calculations import tidy_tc_calculations\ntidy_tc_calculations()\n" } ]	30
lhoangphuong/chatops-slack	https://github.com/lhoangphuong/chatops-slack	5358635d18abe40d503e150da1efff8114628ee9	e0d5590c6f3947f129ec8c1c73239674a21e6c0a	8dfb14ea908c8be81c614b61524a1d48828f3883	refs/heads/master	2023-05-30T14:55:06.086842	2021-06-08T11:49:49	2021-06-08T11:49:49	374,750,816	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.7085201740264893, "alphanum_fraction": 0.726457417011261, "avg_line_length": 28.733333587646484, "blob_id": "f968af8b7b083f4245c95aa23e0a2c46cdd41456", "content_id": "b74a95e56ba9783e399698fc8ec40e5a7f243207", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 446, "license_type": "no_license", "max_line_length": 103, "num_lines": 15, "path": "/README.md", "repo_name": "lhoangphuong/chatops-slack", "src_encoding": "UTF-8", "text": "# chatops-slack\nCreate a chatbot on Slack to practice ChatOps for DevOps guy :D\n![icon](https://www.loggly.com/wp-content/uploads/2017/02/BuildingaChatOpsBotwithSlackandLoggly-03.png)\n\n## Build the image\n```sh\ndocker build -t chatbot .\n```\n## Run docker \n(Bot use token strings begin with xoxb-)\n```sh\ndocker run -d --name=chatbot \\\n-v /var/run/docker.sock:/var/run/docker.sock \\\n-e=\"SLACK_API_TOKEN=<put_you_chatbot_api_token_here>\" chatbot\n```\n" }, { "alpha_fraction": 0.5647454261779785, "alphanum_fraction": 0.5693977475166321, "avg_line_length": 30.713115692138672, "blob_id": "6b364f99d51845ca48889bac69d521a569d6ae1c", "content_id": "62370f5df56e89b08ca34757059125b562e40e88", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3869, "license_type": "no_license", "max_line_length": 129, "num_lines": 122, "path": "/chatbot.py", "repo_name": "lhoangphuong/chatops-slack", "src_encoding": "UTF-8", "text": "import os\nimport requests\nfrom slack import RTMClient\nfrom slack import WebClient\nfrom slack.errors import SlackApiError\n\nclass Conversation:\n def __init__(self, web_client, channel, user):\n self.web_client = web_client\n self.channel = channel\n self.user = user\n\n def msg(self, text):\n self.web_client.chat_postMessage(\n channel=self.channel,\n text=text,\n )\n\ndef docker_ps_command(args):\n cmd = 'docker ps'\n print(f'Executing {cmd}')\n stream = os.popen(cmd)\n return stream.read()\n\ndef docker_image_command(args):\n cmd = 'docker image ls'\n print(f'Executing {cmd}')\n stream = os.popen(cmd)\n return stream.read()\n\ndef joke_of_the_day_command(args):\n cmd = 'curl -H \"Accept: text/plain\" https://icanhazdadjoke.com/'\n print(f'Executing {cmd}')\n stream = os.popen(cmd)\n return stream.read()\n\ndef howdoi_command(args):\n cmd = f'howdoi {args}'\n print(f'Executing {cmd}')\n stream = os.popen(cmd)\n return stream.read()\n\nwelcome_message = '''\nHi there <@{user}>. I'm your friendly neighbourhood DevOps bot. How I can help you with?\n\nList all docker container\n`{me} docker ps`\\n\n\nList all docker image\n`{me} docker image ls`\\n\n\nTell a joke \n`{me} tell a joke`\\n\n\nAsk me anything \n`{me} howdoi` <you_question> \\n\n'''\n\nremind_message = '''\nAre you kidding me <@{user}>?\nGive a valid input, please!?\n'''\n\ncommands = {\n# \"docker ps\": docker_ps_command,\n# \"docker image ls\": docker_image_command,\n \"tell a joke\": joke_of_the_day_command,\n \"howdoi\" : howdoi_command\n}\n\[email protected]_on(event=\"message\") # subscribe to 'message' events\ndef process_command(*payload):\n data = payload['data']\n web_client = payload['web_client']\n # ignore service messages, like joining a channel\n is_service = 'subtype' in data and data['subtype'] is not None\n if not is_service and 'text' in data:\n channel_id = data['channel']\n thread_ts = data['ts']\n user = data['user']\n text = data['text'] # get data from the event\n tokens = text.split() # split it up by space characters\n me = tokens[0] # user id of the chat bot\n\n # object to track the conversation state\n conv = Conversation(web_client, channel_id, user)\n if len(tokens) > 1 and me =='<@U024827Q18S>': # user id of the chat bot. might need to change if you use other chatbot :D\n print(tokens)\n # first token is my userid, ther rest will be the command + arguments e.g. tell a joke\n request = ' '.join(tokens[1:len(tokens)+1])\n print('Received request: ' + request)\n if any(s in request for s in commands):\n pool = (s for s in commands if s in request)\n for s in pool:\n # get the actual command executor\n command_func = commands[s]\n args = request.replace(s, '')\n try:\n # execute the command\n result = command_func(args)\n if result is not None:\n # and return the value from the\n # command back to the user\n conv.msg(result)\n except Exception as e:\n conv.msg(str(e))\n else:\n # show remind message\n web_client.chat_postMessage(\n conv.msg(remind_message.format(user=user, me=me))\n )\n elif len(tokens) == 1 and me =='<@U024827Q18S>':\n # show welcome message\n conv.msg(welcome_message.format(user=user, me=me))\n\ndef main():\n rtm_client = RTMClient(token=os.environ[\"SLACK_API_TOKEN\"])\n rtm_client.start()\n\n\nif __name__ == \"__main__\":\n main()\n" }, { "alpha_fraction": 0.6846965551376343, "alphanum_fraction": 0.6978892087936401, "avg_line_length": 27.11111068725586, "blob_id": "166a8d8f6544034439ec971a6a8a1b271cad9cf0", "content_id": "e31a06c8f6cbf2579eabcbea43b7fdda204f7e66", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Dockerfile", "length_bytes": 758, "license_type": "no_license", "max_line_length": 109, "num_lines": 27, "path": "/Dockerfile", "repo_name": "lhoangphuong/chatops-slack", "src_encoding": "UTF-8", "text": "FROM debian:latest\n\nWORKDIR /usr/src/app\n\n# Install python3\nRUN apt-get update && apt-get install -y \\\npython3 python3-pip && \\\npip3 install --upgrade pip && \\\npip3 install howdoi && \\\n# Install docker\napt update -y && \\\napt install apt-transport-https ca-certificates curl gnupg2 software-properties-common -y && \\\ncurl -fsSL https://download.docker.com/linux/debian/gpg \| apt-key add - && \\\nadd-apt-repository \"deb [arch=amd64] https://download.docker.com/linux/debian $(lsb_release -cs) stable\" && \\\napt update && \\\napt-cache policy docker-ce && \\\napt install docker-ce -y && \\\nservice docker start && \\\nrm -rf /var/lib/apt/lists/\n\nCOPY requirements.txt ./\n\nRUN pip3 install --no-cache-dir -r requirements.txt\n\nCOPY . .\n\nCMD [ \"python3\", \"./chatbot.py\" ]" } ]	3
marialui/LB2	https://github.com/marialui/LB2	d78abd3cad71b685a29c29492e087e983ad1b873	73406f9c82e922de147a670e8d93a3cad0327e5a	298b6dfc13aeb0bc6a476c9f1040ca4522fa2a3c	refs/heads/master	2020-07-24T01:28:42.286176	2019-12-23T12:02:12	2019-12-23T12:02:12	207,761,581	1	0	null	null	null	null	null	[ { "alpha_fraction": 0.5650224089622498, "alphanum_fraction": 0.5844544172286987, "avg_line_length": 32.5, "blob_id": "585987e8ddfed4fb5cb3618b521c208bcbadcac0", "content_id": "145f6f785e713c7f50289e4529c7960e8bca2982", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 669, "license_type": "no_license", "max_line_length": 154, "num_lines": 20, "path": "/pssm_parsing.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "#!/usr/bin/python\nimport sys\nimport numpy as np\nimport pandas as pd\nimport json\n\ndef parsingpssm(data,out):\n profile=data[data.columns[19:-2]]\n profile= profile.set_axis(['A', 'R', 'N', 'D', 'C', 'Q', 'E', 'G', 'H', 'I', 'L', 'K', 'M', 'F', 'P', 'S', 'T', 'W', 'Y', 'V'], axis=1, inplace=False)\n profile=profile.droplevel([0,1,3])\n profile=(profile.div(100).round(2))\n example_string = profile.to_string()\n output_file = open('%s' %out,'w')\n output_file.write(example_string)\n output_file.close()\n\nif __name__ == \"__main__\":\n file= pd.read_csv('%s' %sys.argv[1], sep='\\t', index_col=None)\n output= sys.argv[2]\n parsingpssm(file, output)" }, { "alpha_fraction": 0.5511571168899536, "alphanum_fraction": 0.5682095289230347, "avg_line_length": 30.993507385253906, "blob_id": "480967c5dab71cf1a9ac876859d88637cb22fd27", "content_id": "927b4bd3d0f31498c88906f919b19d917f57308f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4926, "license_type": "no_license", "max_line_length": 127, "num_lines": 154, "path": "/functions.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "#!/usr/bin/python\nimport sys\nimport matplotlib.pyplot as plt\nimport matplotlib.mlab as mlab\nimport numpy as np\nimport pandas as pd\n# this will take as an input 2 files: the first one with all the ss , the second is a fasta file\n# and will return a merged file where for each id the secondary structure and the fasta is reported\n\ndef merger(f1, f2):\n l1 = f1.readlines()\n l2 = f2.readlines()\n f3 = open(\"maintext\", \"w+\")\n for i in l1:\n\n if i[0] == \">\":\n f3.write(i)\n f3.write(l1[l1.index(i) + 1])\n for j in l2:\n if j in i:\n f3.write(l2[l1.index(j) + 1])\n else:\n continue\n else:\n continue\n return (f3)\n\n\n#this function will count the number of residues that are present in each secondary structure and will return the\n#relative percentages\n\ndef ss_percentage(set):\n c = 0\n e = 0\n h = 0\n k = 0\n file=[]\n ss=[]\n fasta=[]\n\n for line in set:\n line=line.rstrip()\n if line[0]!='>':\n file.append(line)\n for j in range (0,len(file),2):\n ss.append(file[j])\n if j!= 0:\n fasta.append(file[j-1])\n #print (file[j])\n\n\n for i in file[j]:\n\n if i == 'E':\n e = e + 1\n k = k + 1\n\n elif i == 'H':\n h = h + 1\n k = k + 1\n\n elif i == '-':\n c = c + 1\n k = k + 1\n\n\n #print(ss,fasta)\n\n fasta.append(file[len(file) - 1])\n print(k)\n coil = float(c / k)* 100\n print(coil)\n helix = float(h / k) * 100\n strand = float(e / k) * 100\n\n return ([coil, strand, helix],fasta,ss)\n\ndef aa_percentage(fasta,ss):\n\n residuepercentage = {}\n strutturesecondarie = {}\n for i in range(len(ss)):\n for sec in ss[i]:\n # print(aa)\n if sec in strutturesecondarie:\n strutturesecondarie[sec] = strutturesecondarie[sec] + 1\n else:\n strutturesecondarie[sec] = 1\n #print(strutturesecondarie)\n # print ('here is the total count:' ,counts) #this prints a vocabulary\n # where each ss is associated to the number of times it appears\n\n for m in range(len(fasta)):\n\n for n in range(len(fasta[m])):\n # print(ss[m][n])\n if fasta[m][n] in residuepercentage:\n\n if ss[m][n] in residuepercentage[fasta[m][n]]:\n residuepercentage[fasta[m][n]][ss[m][n]] = residuepercentage[fasta[m][n]][ss[m][n]] + 1\n\n else:\n residuepercentage[fasta[m][n]][ss[m][n]] = 1\n\n else:\n dizionario = {}\n dizionario[ss[m][n]] = 1\n residuepercentage[fasta[m][n]] = dizionario\n\n for aa in residuepercentage:\n for s in residuepercentage[aa]:\n residuepercentage[aa][s] = round(float(residuepercentage[aa][s] / strutturesecondarie[s]) * 100, 2)\n #print(residuepercentage[aa][s],strutturesecondarie[s])\n\n\n\n print('here is the relative composition:',\n residuepercentage) # this prints a dictionary where for each residue we have associated another dictionary\n #where for each secondary structure we have the relative percentage of that specific residue in that specific secondary\n #structure over the total number of residues in that secondary structure\n return(residuepercentage)\n#this is a function that takes the percentage of coil , elixes and strand and plot it in a pie chart\ndef printpie(a):\n b = ['percentage of coil', 'percentage of strends', 'percentage of helixes']\n fig, ax = plt.subplots(figsize=(6, 3), subplot_kw=dict(aspect=\"equal\"))\n wedges, texts = ax.pie(a, wedgeprops=dict(width=0.5), startangle=-40)\n\n bbox_props = dict(boxstyle=\"square,pad=0.3\", fc=\"w\", ec=\"k\", lw=0.72)\n kw = dict(arrowprops=dict(arrowstyle=\"-\"),\n bbox=bbox_props, zorder=0, va=\"center\")\n\n for i, p in enumerate(wedges):\n ang = (p.theta2 - p.theta1) / 2. + p.theta1\n y = np.sin(np.deg2rad(ang))\n x = np.cos(np.deg2rad(ang))\n horizontalalignment = {-1: \"right\", 1: \"left\"}[int(np.sign(x))]\n connectionstyle = \"angle,angleA=0,angleB={}\".format(ang)\n kw[\"arrowprops\"].update({\"connectionstyle\": connectionstyle})\n ax.annotate(b[i] + ' is ' + '{0:.2f}%'.format(round(a[i]), 2), xy=(x, y), xytext=(1.35 * np.sign(x), 1.4 * y),\n horizontalalignment=horizontalalignment, *kw)\n\n ax.set_title(\"SS composition\")\n\n plt.show()\n\n#this is a function that takes the residues persentage and the relative composition in\n#secondary structure and gives backs the histogram\ndef print_histogram(data):\n combined_df =pd.DataFrame(data)\n #print(combined_df)\n df_transposed = combined_df.T\n df_transposed.plot.bar()\n\n plt.show()" }, { "alpha_fraction": 0.6229379177093506, "alphanum_fraction": 0.670856237411499, "avg_line_length": 27.288888931274414, "blob_id": "6fcebb4e040ab9f5f5059c232e72f685510a4c7f", "content_id": "ad2fbda443effacb567749ea36e429898878540a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1273, "license_type": "no_license", "max_line_length": 96, "num_lines": 45, "path": "/taxonomy.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "#!/usr/bin/python\nimport sys\nimport matplotlib.pyplot as plt\nimport matplotlib.mlab as mlab\nimport numpy as np\nimport pandas as pd\ndata = pd.read_csv(\"taxonomy.csv\")\n# Preview the first 5 lines of the loaded data\n#print(data.head())\ntaxa=data.iloc[::,2:]\ntotal=taxa.describe()\n#print(total)\n#crime_year = pd.DataFrame(df_1.year.value_counts(), columns=[\"Year\", \"AggregateCrime\"])\nOthers=2750-1203\nmain=pd.DataFrame(taxa.apply(pd.value_counts)[:10].reset_index().values,columns=['source', 'n'])\nmain=main.append({'source' : 'Others' , 'n' : Others} , ignore_index=True)\n#total 2750\n#maincount=int(main.sum()) #1203 belongs to main taxa\n# Create a list of colors (from iWantHue)\ncolors = [\"#E13F29\", \"#D69A80\", \"#D63B59\", \"#AE5552\", \"#CB5C3B\", \"#EB8076\", \"#96624E\"]\n\n# Create a pie chart\nplt.pie(\n # using data total)arrests\n main['n'],\n # with the labels being officer names\n labels=main['source'],\n # with no shadows\n shadow=False,\n # with colors\n colors=colors,\n # with one slide exploded out\n #explode=(0, 0, 0, 0, 0.15),\n # with the start angle at 90%\n startangle=90,\n # with the percent listed as a fraction\n autopct='%1.1f%%',\n )\n\n# View the plot drop above\nplt.axis('equal')\n\n# View the plot\nplt.tight_layout()\nplt.show()\n" }, { "alpha_fraction": 0.504147469997406, "alphanum_fraction": 0.5198156833648682, "avg_line_length": 33.273685455322266, "blob_id": "d487decbbe06ca23cb45b36eb690d883791772eb", "content_id": "e2415cc85514633d8bc0fb5de85029951af196ac", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3255, "license_type": "no_license", "max_line_length": 121, "num_lines": 95, "path": "/information_function.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "# !/usr/bin/python\nimport os, sys\nimport sys\nimport numpy as np\nimport pandas as pd\n\ndef information(beta,coil,helix,aa,ss):\n Ph=float(ss.loc['H'])\n PrPh= aa.multiply(float(Ph))\n Ih=(np.log10((helix.div(PrPh.values).astype(float))))\n Pe=float(ss.loc['E'])\n PrPe = aa.multiply(float(Pe))\n Ie =np.log10(( beta.div(PrPe.values).astype(float)))\n Pc =float( ss.loc['C'])\n PrPc = aa.multiply(float(Pc))\n Ic=np.log10(coil.div((PrPc.values).astype(float)))\n #print(Ie)\n ll=[Ie,Ih,Ic]\n return(ll)\n\n\ndef prediction(IFs):\n for item in os.listdir(\"/home/um77/project/fasta_blindset/profile\"):\n if '%s' % (item.split('.')[1]) == 'profile':\n stuff = '%s' % (item.split('.')[0]) + '.DSSP'\n pro = pd.read_fwf('/home/um77/project/fasta_blindset/profile/%s' % ( item), sep=\"\\t\")\n pro.drop(pro.columns[0], axis=1, inplace=True)\n #print(item, stuff)\n\n dssp = open('/home/um77/project/dssp_blindset/predictedDSSP/%s' % (stuff), 'w')\n DSSP=''\n\n residues = (pro.shape[0] + 16)\n\n new = np.zeros(shape=((residues, 20)))\n profili = pd.DataFrame(new,\n columns=['A', 'R', 'N', 'D', 'C', 'Q', 'E', 'G', 'H', 'I', 'L', 'K', 'M', 'F', 'P',\n 'S', 'T', 'W',\n 'Y', 'V'])\n pro.index = pro.index + 8\n # here df is the dataframe containing the profile plus 10 row at the end and at the beginning with all zeros.\n df = pro.combine_first(profili)\n #print(df)\n structure = ['E', 'H', 'C']\n d={0:'E',1:'H',2:'C'}\n\n\n for i in range(8, df.shape[0] - 8):\n valori = []\n\n\n for m in range(len(structure)):\n profile = df.iloc[i - 8:i + 9]\n globals()[structure[m]]=(IFs[m].astype(float)).multiply((profile.values))\n value= (globals()[structure[m]]).values.sum()\n valori.append(value)\n massimo=max(valori)\n DSSP=DSSP +'%s'%d[valori.index(massimo)]\n dssp.write('>%s'%(item.split('.')[0]) +'\\n%s'%(DSSP))\n\n\n\n\n\n\n\n\n\n\n\nif __name__ == \"__main__\":\n\n n = np.arange(17)\n index0 =pd.MultiIndex.from_product([list(n), ['E']])\n strand = pd.read_csv('%s' % sys.argv[1], delimiter=',').set_index(index0)\n\n index1 = pd.MultiIndex.from_product([list(n), ['C']])\n coil = pd.read_csv('%s' % sys.argv[2], delimiter=',').set_index(index1)\n index2 = pd.MultiIndex.from_product([list(n), ['H']])\n helix = pd.read_csv('%s' % sys.argv[3], delimiter=',').set_index(index2)\n index3 = pd.MultiIndex.from_product([list(n), ['R']])\n residue = pd.read_csv('%s' % sys.argv[4], delimiter=',').set_index(index3)\n\n structures=pd.read_csv('%s' % sys.argv[5], delimiter=',')\n strutture=['H', 'E', 'C']\n structures.index = strutture\n\n risultati= information(strand,coil,helix,residue,structures)\n dizionario = {0: 'strand', 1: 'helics', 2: 'coil'}\n\n for rs in range(len(risultati)):\n export_csv = risultati[rs].to_csv('%sIF.csv' % (dizionario[rs]), index=None, header=True)\n\n\n prediction(risultati)" }, { "alpha_fraction": 0.44564658403396606, "alphanum_fraction": 0.4549201428890228, "avg_line_length": 28.409090042114258, "blob_id": "3befeadd669087f77f5886e60c1e064063d11241", "content_id": "7eeb91216340c7617cfc03ef43315731ab82fb4c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1941, "license_type": "no_license", "max_line_length": 80, "num_lines": 66, "path": "/SOV.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "# !/usr/bin/python\nimport os, sys\nimport sys\nimport re\nimport numpy as np\n\nlista=['H','C','E']\ndef SOV(observed, predicted):\n num = 0\n totalsov = 0\n for item in os.listdir(observed):\n\n if '%s' % (item.split('.')[1]) == 'dssp':\n stuff = '%s' % (item.split('.')[0]) + '.DSSP'\n pred = open('%s/%s' % (predicted, stuff), 'r')\n obs = open('%s/%s' % (observed,item), 'r')\n\n P = pred.readlines()[1]\n O=obs.readlines()[1]\n\n #O='CCCHHHHHCCCCCCCCHHHHHHHHHHCCC'\n #P='CCCCCCCCCCCHHHHHHHCCCCCHHHHCC'\n\n LISTAP=[]\n LISTAO=[]\n sommatoria=[]\n Nh=O.count('H')\n SOVh=(100(1/Nh))\n C=re.compile(\"H\")\n for L in C.finditer(P):\n if 'H' in ( L.group()):\n LISTAP.append(L.span())\n for J in C.finditer(O):\n if 'H' in (J.group()):\n LISTAO.append(J.span())\n for el in LISTAP:\n for el1 in LISTAO:\n sp = set(np.arange(el)) #predicted\n so= set(np.arange(el1)) #observed\n intersec= sp.intersection(so)\n if intersec != set():\n\n MINOV=len(intersec)\n MAXOV=len(sp)+len(so)-MINOV\n correction=[(MAXOV-MINOV),MINOV,(len(sp)/2),(len(so)/2)]\n sig=min(correction)\n value=((MINOV+sig)/MAXOV)len(so)\n sommatoria.append(value)\n\n sov= SOVh(sum(sommatoria))\n\n if sov !=0:\n num=num +1\n totalsov=totalsov+sov\n average=totalsov / num\n\n\n\n\n return(average)\n\nif __name__ == \"__main__\":\n pathobserveddssp = sys.argv[1]\n pathpredicteddssp = sys.argv[2]\n result=SOV(pathobserveddssp,pathpredicteddssp)\n print('sov is ',result)\n" }, { "alpha_fraction": 0.605781078338623, "alphanum_fraction": 0.6500614881515503, "avg_line_length": 28.035715103149414, "blob_id": "2bf2a8efe6f6267b1f77964e374cde1657346cd1", "content_id": "0962e55ddf97d971503c52b9f8b33ff408b98550", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1626, "license_type": "no_license", "max_line_length": 102, "num_lines": 56, "path": "/scop.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "#!/usr/bin/python\nimport cufflinks as cf\nimport sys\nimport matplotlib.pyplot as plt\nimport matplotlib.mlab as mlab\nimport numpy as np\nimport pandas as pd\ndata = pd.read_csv('Scop.csv', sep=\",\", header=None)\ndata.columns = [\"letter\", \"domain\",]\ndf = data.drop_duplicates(subset=['letter'])\n#print (df)\ndata1 = pd.read_csv('scopid.csv', sep=\",\", header=None,)\nstatistica=pd.DataFrame(data1.apply(pd.value_counts).reset_index().values,columns=['letter', 'count'])\ndfB=(statistica.sort_values('letter'))\n#print(statistica.shape)\ns1 = pd.merge(df, dfB, how='inner', on=['letter'])\n\ncmap = plt.get_cmap('Spectral')\ncolors = [cmap(i) for i in np.linspace(0, 1, 12)]\ns1 = s1.sort_values(['count'], ascending = False)\nprint(s1)\ns1.drop(s1.tail(7).index,inplace=True)\nprint(s1)\ndf2 = pd.DataFrame({'letter':['m'],\"domain\":['others'],\n \"count\":[21685]})\ns1=s1.append(df2,ignore_index = True)\nprint(df2,'\\n',s1)\n\n#colors = [\"#E13F29\", \"#D69A80\", \"#D63B59\", \"#AE5552\", \"#CB5C3B\", \"#EB8076\", \"#96624E\"]\n\n# Create a pie chart\nplt.pie(\n # using data total)arrests\n s1['count'],\n # with the labels being officer names\n #labels=s1['letter'],\n # with no shadows\n shadow=False,\n # with colors\n colors=colors,\n # with one slide exploded out\n #explode=(0, 0, 0, 0, 0.15),\n # with the start angle at 90%\n startangle=90,\n # with the percent listed as a fraction\n\n autopct='%.2f')\n\n# View the plot drop above\nplt.axis('equal')\nplt.title('scop classification')\nplt.legend(s1['domain'],loc=\"center left\",\n bbox_to_anchor=(1, 0, 0.5, 1))\n# View the plot\nplt.tight_layout()\nplt.show()\n" }, { "alpha_fraction": 0.547429084777832, "alphanum_fraction": 0.554964542388916, "avg_line_length": 29.876712799072266, "blob_id": "57372cf7ebc9027311cf775c1c9748fbc5d19c0a", "content_id": "b7b15e1a2c1d403a08a19598966c6d0e907cd288", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2256, "license_type": "no_license", "max_line_length": 161, "num_lines": 73, "path": "/prova.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "import matplotlib.pyplot as plt\nimport numpy as np\nimport pandas as pd\nss=['HE---EH']\nfasta=['AKTCAAA']\ncomposition={}\nresiduepercentage={}\nfor m in range(len(ss)):\n\n # print (m)\n # print (ss[m], fasta[m])\n # print(len(ss[m]),len(fasta[m]))\n\n for n in range(len(ss[m])):\n # print(ss[m][n])\n if ss[m][n] in composition:\n\n if fasta[m][n] in composition[ss[m][n]] :\n #print('***' ,composition[ss[m][n]])\n composition[ss[m][n]][fasta[m][n]] = composition[ss[m][n]][fasta[m][n]] + 1\n #print(+5)\n # print(fasta[m][n])\n # composition[ss[m][n]] = dizionario\n #print(composition)\n else:\n composition[ss[m][n]][fasta[m][n]] = 1\n # print(fasta[m][n])\n\n #composition[ss[m][n]] = dizionario\n\n # print(dizionario)\n\n else:\n dizionario = {}\n dizionario[fasta[m][n]] = 1\n #print('<<<',dizionario)\n composition[ss[m][n]] = dizionario\n # print(composition)\n\n # print(composition[ss[m][n]])\nprint(composition)\n# print(m,n)\nfor m in range(len(fasta)):\n\n for n in range(len(fasta[m])):\n # print(ss[m][n])\n if fasta[m][n] in residuepercentage:\n\n if ss[m][n] in residuepercentage[fasta[m][n]]:\n residuepercentage[fasta[m][n]][ss[m][n]] = residuepercentage[fasta[m][n]][ss[m][n]] + 1\n\n else:\n residuepercentage[fasta[m][n]][ss[m][n]] = 1\n\n else:\n dizionario = {}\n dizionario[ss[m][n]] = 1\n residuepercentage[fasta[m][n]] = dizionario\nprint('here is the relative composition:',residuepercentage) # this prints a dictionary where for each ss we have associated the corrispective number of residue\n# prensent in that ss.\n\nd = residuepercentage\nsecodary_structure = d['score_india']\nlegend = ['overall', 'helix','strand','coil']\nscore_pk = d['score_pk']\nplt.hist([score_india, score_pk], color=['orange', 'green'])\nplt.xlabel(\"Residues\")\nplt.ylabel(\"Residues Frequency\")\nplt.legend(legend)\nplt.xticks(range(0, 7))\nplt.yticks(range(1, 20))\nplt.title('Champions Trophy 2017 Final\\n Runs scored in 3 overs')\nplt.show()\n\n\n" }, { "alpha_fraction": 0.29086336493492126, "alphanum_fraction": 0.4450964033603668, "avg_line_length": 61.842105865478516, "blob_id": "476a1a62da7ac4dfd418174319e8de65caf7e37a", "content_id": "4b8cafdc134bdd71817df2c4f2132c4da27243e4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1193, "license_type": "no_license", "max_line_length": 838, "num_lines": 19, "path": "/isto.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "import sys\nimport matplotlib.pyplot as plt\nimport matplotlib.mlab as mlab\nimport numpy as np\nimport pandas as pd\n\nresiduepercentage= {'K': {'-': 5.79, 'E': 5.04, 'H': 6.87}, 'V': {'-': 4.38, 'E': 13.42, 'H': 6.56}, 'S': {'-': 7.25, 'E': 5.02, 'H': 4.45}, 'H': {'-': 2.47, 'E': 2.26, 'H': 1.95}, 'R': {'-': 4.57, 'E': 4.93, 'H': 6.19}, 'T': {'-': 5.86, 'E': 6.6, 'H': 4.19}, 'E': {'-': 6.28, 'E': 4.78, 'H': 9.59}, 'P': {'-': 7.85, 'E': 2.23, 'H': 1.93}, 'G': {'E': 4.94, '-': 11.82, 'H': 3.24}, 'L': {'E': 9.95, '-': 6.62, 'H': 12.26}, 'Q': {'E': 2.88, '-': 3.36, 'H': 4.93}, 'D': {'-': 8.13, 'E': 3.28, 'H': 4.61}, 'N': {'-': 5.64, 'E': 2.58, 'H': 2.97}, 'M': {'-': 1.73, 'E': 2.09, 'H': 2.66}, 'A': {'E': 6.41, '-': 6.65, 'H': 11.72}, 'I': {'-': 3.24, 'E': 9.56, 'H': 6.21}, 'C': {'E': 1.7, '-': 1.39, 'H': 1.05}, 'Y': {'E': 4.95, '-': 2.68, 'H': 3.22}, 'F': {'E': 5.48, '-': 3.11, 'H': 3.94}, 'W': {'E': 1.81, 'H': 1.39, '-': 1.09}, 'X': {'-': 0.0}}\n\n\nprint(residuepercentage)\n\ndef print_histogram(data):\n combined_df =pd.DataFrame(residuepercentage)\n print(combined_df)\n df_transposed = combined_df.T\n df_transposed.plot.bar()\n\n plt.show()\nprint_histogram(residuepercentage)" }, { "alpha_fraction": 0.6516128778457642, "alphanum_fraction": 0.6774193644523621, "avg_line_length": 29.799999237060547, "blob_id": "a2b96d0293629a22fb23736a315c62c0ac3e69c5", "content_id": "e2ea49c5e705eb1e5f675166de3b0301accaf5ae", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 155, "license_type": "no_license", "max_line_length": 116, "num_lines": 5, "path": "/psiblast.sh", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "#!/bin/bash\nfor i in .fasta\ndo\n psiblast -query $i -db uniprot_sprot -evalue 0.01 -num_iterations 3 -out_ascii_pssm $i_.pssm -out $i_.alns.blast\ndone\n\n" }, { "alpha_fraction": 0.48394960165023804, "alphanum_fraction": 0.49207639694213867, "avg_line_length": 37.46875, "blob_id": "8a467100afa1299dec32a51806b5e850bd39e198", "content_id": "36e205c252332bc55b6eb39c7c866531b5c6b7ca", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2461, "license_type": "no_license", "max_line_length": 189, "num_lines": 64, "path": "/performance.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "# !/usr/bin/python\nimport os, sys\nimport sys\nimport numpy as np\nimport pandas as pd\nimport math\nd = {'E': 'E', 'H': 'H', '-': 'C', 'C':'C'}\nlista=['H','C','E']\n\ndef performance(observed, predicted):\n total=0\n HEC = pd.DataFrame([[0, 0, 0], [0, 0, 0], [0, 0, 0]], index=['H', 'E', 'C'], columns=['H', 'E', 'C'])\n\n for item in os.listdir(observed):\n if '%s' % (item.split('.')[1]) == 'dssp':\n stuff = '%s' % (item.split('.')[0]) + '.DSSP'\n pred = open('%s/%s' % (predicted, stuff), 'r')\n obs = open('%s/%s' % (observed,item), 'r')\n P = pred.readlines()[1]\n O=obs.readlines()[1]\n total=total+len(P)\n for i in range(len(P)):\n HEC.loc[d[P[i]]].loc[d[O[i]]]=HEC.loc[d[P[i]]].loc[d[O[i]]]+1\n\n return(HEC, total)\n\ndef binary_scoring(tab):\n\n perf=[]\n for i in lista:\n globals()['C%s'%(i)]=tab.loc[i].loc[i]\n globals()['O%s'%(i)]= (tab.loc[i].sum())-globals()['C%s'%(i)]\n globals()['U%s'%(i)]=(tab.loc[:,i].sum())-globals()['C%s'%(i)]\n globals()['N%s'%(i)]=(((tab.drop(index='%s'%(i), columns='%s'%(i)))).values).sum()\n globals()['SEN%s' % (i)]=globals()['C%s'%(i)]/(globals()['C%s'%(i)]+globals()['U%s'%(i)])\n globals()['PPV%s' % (i)]=globals()['C%s'%(i)]/(globals()['C%s'%(i)]+globals()['O%s'%(i)])\n num=(globals()['C%s'%(i)]globals()['N%s'%(i)])-(globals()['O%s'%(i)]globals()['U%s'%(i)])\n den=math.sqrt((globals()['C%s'%(i)]+ globals()['O%s'%(i)])(globals()['C%s'%(i)]+ globals()['U%s'%(i)])\\\n (globals()['N%s'%(i)]+globals()['O%s'%(i)])(globals()['N%s'%(i)]+globals()['U%s'%(i)]))\n globals()['MCC%s' % (i)]=num/den\n\n\n globals()['performance_%s' % (i)]=['PERFORMANCE %s :' %(i),'SEN_%s= '%(i),globals()['SEN%s' % (i)], 'PPV_%s= '% (i),globals()['PPV%s' % (i)],'MMC_%s= '%(i),globals()['MCC%s' % (i)]]\n perf.append(globals()['performance_%s' % (i)])\n\n return (perf)\n\n\n\n\nif __name__ == \"__main__\":\n pathobserveddssp = sys.argv[1]\n pathpredicteddssp = sys.argv[2]\n result=performance(pathobserveddssp,pathpredicteddssp)\n confusion_matrix = result[0]\n totale=result[1]\n matrice=confusion_matrix.to_numpy()\n #print(totale)\n Q=((matrice.diagonal()).sum())/totale #this is the accuracy\n\n print(confusion_matrix)\n for i in (binary_scoring(confusion_matrix)):\n print(i,'\\n')\n print('Three-class accuracy Q3 = %s' % (Q))" }, { "alpha_fraction": 0.5258278250694275, "alphanum_fraction": 0.5403973460197449, "avg_line_length": 26.962963104248047, "blob_id": "d28afc5c35026c277d4861a1743d9f9915a8e0de", "content_id": "8a2435c8584cad08e7650a448e9aef695c9c286a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 755, "license_type": "no_license", "max_line_length": 114, "num_lines": 27, "path": "/sel_seq_dictionary.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "#!/usr/bin/python\nimport sys\n\ndef get_list_fasta(lid,fasta):\n f=open(fasta)\n c=0\n for line in f:\n line=line.rstrip()\n if line[0]=='>':\n tid=line.split('\|')[0][1:]\n\n if lid.get(tid,False)==1:\n #you go here only if the statement is true and so c=1 and it will print the value\n #in the case the id is not present in line it will return false and it will pass in the else statement\n c=1\n else:\n c=0\n if c==1 :\n print(line)\n\n\nif __name__==\"__main__\":\n fid=sys.argv[1]\n fasta= sys.argv[2]\n lid=dict([(i,True) for i in open(fid).read().split('\\n')])\n #here i generate a set of touples where each key\n get_list_fasta(lid,fasta)\n" }, { "alpha_fraction": 0.6333333253860474, "alphanum_fraction": 0.6333333253860474, "avg_line_length": 14, "blob_id": "cc97fcf538a7d0135f1a21dbba884c4a53f40f1c", "content_id": "63fde7fda2b170ddeb9d3846334a3497fb316191", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 90, "license_type": "no_license", "max_line_length": 30, "num_lines": 6, "path": "/dssp.sh", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "#!/bin/bash\nfor m in `cat blindsetnames`\ndo\n#\techo $m\n mkdssp -i $m.pdb -o $m.dssp\ndone\n" }, { "alpha_fraction": 0.45101213455200195, "alphanum_fraction": 0.46315789222717285, "avg_line_length": 30.10126495361328, "blob_id": "ad697966ad9ecec7246fa5369d01f04704658030", "content_id": "0559a24b12bef192d87b6c6e7fb1c6934ec71580", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2470, "license_type": "no_license", "max_line_length": 121, "num_lines": 79, "path": "/SVM.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "# !/usr/bin/python\nimport os, sys\nimport sys\nimport numpy as np\nimport pandas as pd\n\nd = {'E': '2', 'H': '1', '-': '3'}\n\n\n# with this function it automatically produces 4 matrices:\n# one for helixes(H), one for strand(E), one for coil (C) and one for the frequency of each residue (R)\n\n# here pro and dssp should be the path\ndef svm_training(pathprofile, pathdssp):\n outputfile = open(\"ss.train.dat\", \"w+\")\n\n # ora che abbiamo generato le matrici dobbiamo riempirle:\n\n for item in os.listdir(pathprofile):\n if '%s' % (item.split('.')[1]) == 'profile':\n stuff = '%s' % (item.split('.')[0]) + '.dssp'\n pro = pd.read_fwf('%s/%s' % (pathprofile, item), sep=\"\\t\")\n pro.drop(pro.columns[0], axis=1, inplace=True)\n print(item, stuff)\n\n dssp = open('%s/%s' % (pathdssp, stuff), 'r')\n # global profile\n lines = dssp.readlines()\n residues = (pro.shape[0] + 16)\n\n new = np.zeros(shape=((residues, 20)))\n profili = pd.DataFrame(new,\n columns=['A', 'R', 'N', 'D', 'C', 'Q', 'E', 'G', 'H', 'I', 'L', 'K', 'M', 'F', 'P',\n 'S', 'T', 'W',\n 'Y', 'V'])\n pro.index = pro.index + 8\n # here df is the dataframe containing the profile plus 10 row at the end and at the beginning with all zeros.\n df = pro.combine_first(profili)\n\n structure = ['0' for m in range(8)]\n for s in (lines[1].strip()):\n structure.append(d[s])\n for k in range(8):\n structure.append('0')\n\n # from now on i'm filling the matrices\n #\n l = []\n\n for i in range(8, df.shape[0] - 8):\n\n row = [structure[i]]\n\n\n profile = df.iloc[i - 8:i + 9].to_numpy()\n\n for e in range (len(profile)):\n for element in profile[e]:\n l.append(element)\n for j in l:\n if j != 0:\n row.append('%d:%f'%(int(l.index(j))+1,float(j)))\n\n s = \" \".join(row)\n\n outputfile.write('%s\\n'%(s))\n l = []\n outputfile.close()\n\n\n\n\n\nif __name__ == \"__main__\":\n pathprofile = sys.argv[1]\n pathdssp = sys.argv[2]\n\n\n inputtraining = svm_training(pathprofile, pathdssp)\n\n\n\n\n\n\n\n\n\n\n\n\n\n" }, { "alpha_fraction": 0.38181817531585693, "alphanum_fraction": 0.38753247261047363, "avg_line_length": 47.73417663574219, "blob_id": "b16ab3c8c9b2b1d0550e1f10f935966b0cfaa4ef", "content_id": "f31bdcb0435ca5f30e3741cdcff2e79477d3dc2a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3850, "license_type": "no_license", "max_line_length": 120, "num_lines": 79, "path": "/SOV(general).py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "# !/usr/bin/python\nimport os, sys\nimport sys\nimport re\nimport numpy as np\n\nlista = ['H', 'C', 'E']\n\n\ndef SOV(observed, predicted):\n for i in lista:\n globals()['num_%s' % (i)] = 0\n globals()['totalsov_%s' % (i)] = 0\n\n for item in os.listdir(observed):\n\n if '%s' % (item.split('.')[1]) == 'dssp':\n stuff = '%s' % (item.split('.')[0]) + '.DSSP'\n pred = open('%s/%s' % (predicted, stuff), 'r')\n obs = open('%s/%s' % (observed, item), 'r')\n\n P = pred.readlines()[1]\n O = obs.readlines()[1]\n\n # O='CCCHHHHHCCCCCCCCHHHHHHHHHHCCC'\n # P='CCCCCCCCCCCHHHHHHHCCCCCHHHHCC'\n for i in lista:\n globals()['LISTAP_%s' % (i)] = []\n globals()['LISTAO_%s' % (i)] = []\n globals()['sommatoria_%s' % (i)] = []\n globals()['N%s' % (i)] = O.count(i)\n if globals()['N%s' % (i)]!=0:\n globals()['SOV%s' % (i)] = 100 (1 / globals()['N%s' % (i)])\n else:\n globals()['SOV%s' % (i)]=0\n globals()['C%s' % (i)] = re.compile(\"%s\" % (i))\n for L in globals()['C%s' % (i)].finditer(P):\n if i in (L.group()):\n globals()['LISTAP_%s' % (i)].append(L.span())\n for J in globals()['C%s' % (i)].finditer(O):\n if i in (J.group()):\n globals()['LISTAO_%s' % (i)].append(J.span())\n for el in globals()['LISTAP_%s' % (i)]:\n for el1 in globals()['LISTAO_%s' % (i)]:\n globals()['sp_%s' % (i)] = set(np.arange(el)) # predicted\n globals()['so_%s' % (i)] = set(np.arange(el1)) # observed\n globals()['intersec_%s' % (i)] = globals()['sp_%s' % (i)].intersection(globals()['so_%s' % (i)])\n if globals()['intersec_%s' % (i)] != set():\n globals()['MINOV_%s' % (i)] = len(globals()['intersec_%s' % (i)])\n globals()['MAXOV_%s' % (i)] = len(globals()['sp_%s' % (i)]) + len(\n globals()['so_%s' % (i)]) - globals()['MINOV_%s' % (i)]\n globals()['correction_%s' % (i)] = [\n (globals()['MAXOV_%s' % (i)] - globals()['MINOV_%s' % (i)]),\n globals()['MINOV_%s' % (i)], \\\n (len(globals()['sp_%s' % (i)]) / 2), (len(globals()['so_%s' % (i)]) / 2)]\n globals()['sig_%s' % (i)] = min(globals()['correction_%s' % (i)])\n globals()['value_%s' % (i)] = ((globals()['MINOV_%s' % (i)] + globals()['sig_%s' % (i)]) /\n globals()['MAXOV_%s' % (i)]) len(globals()['so_%s' % (i)])\n globals()['sommatoria_%s' % (i)].append(globals()['value_%s' % (i)])\n\n globals()['sov%s' % (i)] = globals()['SOV%s' % (i)] * (sum(globals()['sommatoria_%s' % (i)]))\n\n if globals()['sov%s' % (i)] != 0:\n globals()['num_%s' % (i)] = globals()['num_%s' % (i)] + 1\n if globals()['num_%s' % (i)]!=0:\n globals()['totalsov_%s' % (i)] = globals()['totalsov_%s' % (i)] + globals()['sov%s' % (i)]\n globals()['average%s' % (i)] = globals()['totalsov_%s' % (i)] / globals()['num_%s' % (i)]\n else:\n globals()['average%s' % (i)]=0\n\n\n return (averageH, averageE,averageC)\n\n\nif __name__ == \"__main__\":\n pathobserveddssp = sys.argv[1]\n pathpredicteddssp = sys.argv[2]\n result = SOV(pathobserveddssp, pathpredicteddssp)\n print('respective SOVs for H, E and C are: ', result)\n" }, { "alpha_fraction": 0.5185185074806213, "alphanum_fraction": 0.5343915224075317, "avg_line_length": 36.599998474121094, "blob_id": "6faa56d22d12248c48347a1b7f2aed87b630f418", "content_id": "c54536ace60b4c302d14207861b34db4cf971db9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Shell", "length_bytes": 189, "license_type": "no_license", "max_line_length": 83, "num_lines": 5, "path": "/pssm_parsing.sh", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "for i in .pssm\ndo\ncat $i\| tail -n +3\|head -n -6 \|tr -s \" \"\|sed \"s/\\s/\\t/g\"> ../profile/${i%..}.pssm\npython3 pssm_parsing.py ../profile/${i%..}.pssm ../profile/${i%..}.profile\ndone\n\n" }, { "alpha_fraction": 0.6696946620941162, "alphanum_fraction": 0.6820590496063232, "avg_line_length": 38.58000183105469, "blob_id": "a396ea98e51204bd12c60d5266ca0720b16b5b9c", "content_id": "de6b2551df5a07ed854a051349cf600b5b385b06", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3963, "license_type": "no_license", "max_line_length": 112, "num_lines": 100, "path": "/parsingblindset.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "import sys\nimport matplotlib.pyplot as plt\nimport matplotlib.mlab as mlab\nimport numpy as np\nimport pandas as pd\ndata = pd.read_csv('blindset.csv', sep=\",\", header=0)\ndata1=((data.drop('Chain ID',axis=1)).drop('Resolution',axis=1)).drop('Sequence',axis=1)\n# dropping duplicate values : same id, same chain length\ndata1.drop_duplicates(keep='first',inplace=True)\nintersected_df = data[data.index.isin(data1.index)]\n#print(intersected_df.head())\nres = intersected_df.set_index('PDB ID')['Resolution']\n\n#create a fasta file from the list of pdb chains we retained.\nf4=open('PDB.fasta','w')\nfor j in range(len(intersected_df['PDB ID'])):\n f4.write('>' + (intersected_df['PDB ID'].iloc[j]).lower()+'_'+ intersected_df['Chain ID'].iloc[j] + '\\n' + \\\n intersected_df['Sequence'].iloc[j] + '\\n'\n )\n#import cluster file as dataframe\n\nclust=pd.read_csv('clust.txt', sep=\"\\n\", header=0)\nclust.columns = ['clusters']\n\n#print(clust)\n\n\n#create a dictionary from the dataframe where we have the id :resolution\n#print (intersected_df)\nRes=(intersected_df).drop('Sequence',axis=1).drop('Chain Length',axis=1)\nforfasta=(intersected_df).drop('Chain Length',axis=1)\nforfasta['Name'] = (forfasta['PDB ID']).str.cat(forfasta['Chain ID'],sep=\"_\")\nRes['Name'] = (Res['PDB ID']).str.cat(Res['Chain ID'],sep=\"_\")\nRes1=(Res.drop('Chain ID',axis=1)).drop('PDB ID',axis=1)\nforfasta1=((forfasta.drop('Chain ID',axis=1)).drop('PDB ID',axis=1)).drop('Resolution', axis=1)\nRes1=Res1[['Name','Resolution']]\nforfasta1=forfasta1[['Name','Sequence']]\n#print(forfasta1)\ndf_dict = dict(zip(Res1.Name, Res1.Resolution))\n#print (df_dict)\nlun=(clust.shape)[0]\nbest=[]\n\n#now create a list best in which will be stored the best id for each cluster, the one with\n#the best resolution.\nfor m in range (0,lun):\n\n cluster = (clust['clusters'].iloc[m]).split()\n if sum(cluster.index(x) for x in cluster) > 1:\n best_id = []\n for pid in cluster:\n v = df_dict.get(pid, float('inf'))\n best_id.append([v, pid])\n best_id.sort()\n best.append(best_id[0][1])\n else:\n best.append(cluster[0])\n#print(best_id)\n\n#so best is the list made of the best representative for each clustering on the basis of the best resolution.\nprint('hi i am the length' , len(best))\n#best_fasta = best[best.index.isin(intersected_df.index)]\n#print(best)\n\n#and we will put this list into a file 'representatives.txt in wich we will have all the ids of representative\n#structures , one for each cluster on the basis on the best resolution.\nf5=open('representatives.txt','w')\nfor k in range(len(best)):\n f5.write(best[k] + '\\n')\n\n#HERE WE FIRST BUILD THE DATAFRAME COMPOSED BY THE COLUMN NAME WITH ALL THE IDS OF THE REPRESENTATIVES\n#THEN WE MERGED THIS DATAFRAME WITH THE FORFASTA1 INITIAL ONE WHERE WE SOTRED FOR ALL THE IDS WE STARTED FROM\n#THE CORRISPONDENT SEQUENCE\nrepresentatives = pd.DataFrame(best)\nrepresentatives.columns = ['Name']\nprint(representatives)\nprint(forfasta1)\nFasta = pd.merge(representatives, forfasta1, how='inner', on=['Name'])\nprint(Fasta)\n\n#here we store in file representatives.fasta all the ids of all the representatives\n#and the corrispondent sequence in fasta format\n\nf6=open('representatives.fasta','w')\n\nfor L in range(len(Fasta['Name'])):\n f6.write('>' + (Fasta['Name'].iloc[L]).upper()+ '\\n'+ Fasta['Sequence'].iloc[L] + '\\n' )\n\n\nf7=open('reducedblidset','w+')\nf9=open('reducedblidset.fasta','w+')\n\n#here we produce a file where we store all the representatives ids without the 473 ids from removeids file\n#and we produce also a multifasta file with all the sequences for each chain (reducedblindset.fasta)\n\nfor L in range(len(Fasta['Name'])):\n with open('removeids.txt') as f8:\n if ((Fasta['Name'].iloc[L]).upper()) not in f8.read():\n f7.write((Fasta['Name'].iloc[L]).upper()+ '\\n' )\n f9.write(('>' + Fasta['Name'].iloc[L]).upper() + '\\n' + Fasta['Sequence'].iloc[L] + '\\n')\n\n\n\n\n\n" }, { "alpha_fraction": 0.5303924679756165, "alphanum_fraction": 0.5521014332771301, "avg_line_length": 29.465608596801758, "blob_id": "0fc20259125150abe57cb8697c900e00cc6f6cba", "content_id": "ef796a552b45b2d74ec4952fe93d1649785b11e4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5758, "license_type": "no_license", "max_line_length": 165, "num_lines": 189, "path": "/statistics.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "#!/usr/bin/python\nimport sys\nimport matplotlib.pyplot as plt\nimport matplotlib.mlab as mlab\nimport numpy as np\nimport pandas as pd\n\nlista = ['percentage of coil', 'percentage of strends', 'percentage of helixes']\n# this will take as an input 2 files: the first one with all the ss , the second is a fasta file\n# and will return a merged file where for each id the secondary structure and the fasta is reported\n\ndef merger(f1, f2):\n l1 = f1.readlines()\n l2 = f2.readlines()\n f3 = open(\"maintext\", \"w+\")\n for i in l1:\n\n if i[0] == \">\":\n f3.write(i)\n f3.write(l1[l1.index(i) + 1])\n for j in l2:\n if j in i:\n f3.write(l2[l1.index(j) + 1])\n else:\n continue\n else:\n continue\n return (f3)\n\n\n\n\n\ndef ss_percentage(set):\n c = 0\n e = 0\n h = 0\n t = 0\n file=[]\n ss=[]\n fasta=[]\n id=[]\n counts = {}\n residuepercentage={}\n\n for line in set:\n line=line.rstrip()\n if line[0]!='>':\n file.append(line)\n else:id.append(line[1:])\n for j in range (0,len(file),2):\n ss.append(file[j])\n if j!= 0:\n fasta.append(file[j-1])\n\n\n\n for i in file[j]:\n if i == 'E':\n e = e + 1\n t = t + 1\n elif i == 'H':\n h = h + 1\n t = t + 1\n elif i == '-':\n c = c + 1\n t = t + 1\n #print(id)\n #fasta.append(file[len(file) - 1])\n coil = (float(c / t) 100)\n helix = (float(h / t) * 100)\n strand = (float(e / t) * 100)\n #for k in range(-1, len(file) , 2):\n #fasta.append(file[k])\n for i in range(len(fasta)):\n for aa in fasta[i]:\n #print(aa)\n if aa in counts:\n counts[aa] = counts[aa] + 1\n else :\n counts[aa] = 1\n strutturesecondarie={}\n for i in range(len(ss)):\n for sec in ss[i]:\n # print(aa)\n if sec in strutturesecondarie:\n strutturesecondarie[sec]=strutturesecondarie[sec] +1\n else:\n strutturesecondarie[sec] = 1\n print(strutturesecondarie)\n # print ('here is the total count:' ,counts) #this prints a vocabulary where each residue is associated to the number of times it appears\n\n for m in range(len(fasta)):\n\n for n in range(len(fasta[m])):\n # print(ss[m][n])\n if fasta[m][n] in residuepercentage:\n\n if ss[m][n] in residuepercentage[fasta[m][n]]:\n residuepercentage[fasta[m][n]][ss[m][n]] = residuepercentage[fasta[m][n]][ss[m][n]] + 1\n\n else:\n residuepercentage[fasta[m][n]][ss[m][n]] = 1\n\n else:\n dizionario = {}\n dizionario[ss[m][n]] = 1\n residuepercentage[fasta[m][n]] = dizionario\n for aa in residuepercentage:\n for s in residuepercentage[aa]:\n residuepercentage[aa][s]= round(float (residuepercentage[aa][s]/strutturesecondarie[s])100,2)\n #print(residuepercentage[aa][s],strutturesecondarie[s])\n\n print('here is the relative composition:',residuepercentage) # this prints a dictionary where for each ss we have associated the corrispective number of residue\n # prensent in that ss.\n return ([coil, strand, helix],residuepercentage)\n\n\n\n\ndef printpie(a):\n b = ['percentage of coil', 'percentage of strends', 'percentage of helixes']\n fig, ax = plt.subplots(figsize=(6, 3), subplot_kw=dict(aspect=\"equal\"))\n wedges, texts = ax.pie(a, wedgeprops=dict(width=0.5), startangle=-40)\n\n bbox_props = dict(boxstyle=\"square,pad=0.3\", fc=\"w\", ec=\"k\", lw=0.72)\n kw = dict(arrowprops=dict(arrowstyle=\"-\"),\n bbox=bbox_props, zorder=0, va=\"center\")\n\n for i, p in enumerate(wedges):\n ang = (p.theta2 - p.theta1) / 2. + p.theta1\n y = np.sin(np.deg2rad(ang))\n x = np.cos(np.deg2rad(ang))\n horizontalalignment = {-1: \"right\", 1: \"left\"}[int(np.sign(x))]\n connectionstyle = \"angle,angleA=0,angleB={}\".format(ang)\n kw[\"arrowprops\"].update({\"connectionstyle\": connectionstyle})\n ax.annotate(b[i] + ' is ' + '{0:.2f}%'.format(round(a[i]), 2), xy=(x, y), xytext=(1.35 np.sign(x), 1.4 * y),\n horizontalalignment=horizontalalignment, *kw)\n\n ax.set_title(\"SS composition\")\n\n plt.show()\n\n\ndef print_histogram(data):\n combined_df =pd.DataFrame(data)\n print(combined_df)\n df_transposed = combined_df.T\n df_transposed.plot.bar()\n\n plt.show()\n\n\n#we took the pdb ids and with the advance search in pdb we retrieved\n#the number of ids for each kindom and we plot the result\ndef kindom_pie(listk):\n tot = sum(listk)\n for i in range(len(listk)):\n listk[i]=round(float((listk[i]/tot))100,1)\n #print(listk,kindo)\n\n # Pie chart, where the slices will be ordered and plotted counter-clockwise:\n labels = 'Bacteria','Eukaryota','Archaea','Viruses','Other'\n sizes = listk\n explode = (0, 0, 0, 0.4,0.7) # only \"explode\" the 2nd slice (i.e. 'Hogs')\n\n fig1, ax1 = plt.subplots()\n ax1.pie(sizes, explode=explode, labels=labels, autopct='%1.1f%%',\n shadow=True, startangle=90)\n ax1.axis('equal') # Equal aspect ratio ensures that pie is drawn as a circle.\n\n plt.show()\n\n\nif __name__ == \"__main__\":\n ss = open(sys.argv[1], \"r\")\n fasta = open(sys.argv[2], \"r\")\n data = open(sys.argv[3], \"w+\")\n\n set = merger(ss, fasta)\n m=ss_percentage(data)\n l = (m[0])\n print(l)\n printpie(l)\n residui=(m[1])\n print(residui)\n print_histogram(residui)\n listak = [639, 455, 93, 63, 2]\n kindom_pie(listak)\n" }, { "alpha_fraction": 0.547564685344696, "alphanum_fraction": 0.5639269351959229, "avg_line_length": 35.51388931274414, "blob_id": "41fa8e34e5ed4ff1029e28cd7303f2b14609cc7b", "content_id": "ff22d4c4238d952d379d7e4509567662c5419f70", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2628, "license_type": "no_license", "max_line_length": 130, "num_lines": 72, "path": "/gor_training.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "#!/usr/bin/python\nimport sys\nimport numpy as np\nimport pandas as pd\nd={'E':'E','H':'H','-':'C'}\n#with this function it automatically produces 4 matrices:\n#one for helixes(H), one for strand(E), one for coil (C) and one for the frequency of each residue (R)\n\n#here pro and dssp should be the path\ndef gor_training(pro,dssp):\n global profile\n n=np.arange(17)\n\n ss=[['H'],['E'],['C'],['R']]\n for structure in (ss):\n index=pd.MultiIndex.from_product([n, structure])\n matrix = pd.DataFrame(index=index,\n columns=['A', 'R', 'N', 'D', 'C', 'Q', 'E', 'G', 'H', 'I', 'L', 'K', 'M', 'F', 'P', 'S', 'T', 'W',\n 'Y', 'V'])\n for col in matrix.columns:\n matrix[col].values[:] = 0\n globals()[structure[0]]=matrix\n #ora che abbiamo generato le matrici dobbiamo riempirle:\n lines=dssp.readlines()\n\n residues=(pro.shape[0] + 16)\n new = np.zeros(shape=((residues, 20)))\n profili= pd.DataFrame(new , columns=['A', 'R', 'N', 'D', 'C', 'Q', 'E', 'G', 'H', 'I', 'L', 'K', 'M', 'F', 'P', 'S', 'T', 'W',\n 'Y', 'V'])\n pro.index= pro.index+8\n#here df is the dataframe containing the profile plus 10 row at the end and at the beginning with all zeros.\n df = pro.combine_first(profili)\n\n structure=['0' for m in range(8)]\n for s in (lines[1].strip()):\n structure.append(d[s])\n for k in range(8):\n structure.append('0')\n\n #creare un contatore di strutture secondarie\n HEC = pd.DataFrame([0,0,0], index=['H', 'E', 'C'],columns=['Number of SS'])\n\n\n#from now on i'm filling the matrices\n for i in range (8, df.shape[0]-8):\n midx = pd.MultiIndex.from_product([list(n),[structure[i]]])\n midx1 = pd.MultiIndex.from_product([list(n), ['R']])\n profile = df.iloc[i-8:i+9]\n profile1 = profile.set_index(midx1)\n profile=profile.set_index(midx)\n (globals()[structure[i]]).update(globals()[structure[i]]+ profile)\n\n #UPDATE RESIDUE MATRIX\n globals()['R'].update(globals()['R'] + profile1)\n\n #UPDATE SECONDARY STRUCTURE MATRIX\n HEC.loc[structure[i]] = HEC.loc[structure[i]] + 1\n\n\n for mat in ss:\n globals()[mat[0]]= globals()[mat[0]].div(len(structure) - 16).round(2)\n return (E,H,C,R,(HEC.div(len(structure) - 16).round(2)))\n\n\n\nif __name__ == \"__main__\":\n profile= pd.read_fwf('%s' %sys.argv[1], sep=\"\\t\")\n profile.drop(profile.columns[0],axis=1,inplace=True)\n dsspfile=open('%s' %sys.argv[2], 'r')\n results=gor_training(profile, dsspfile)\n for maj in results:\n print(maj,'\\n')" }, { "alpha_fraction": 0.5952848792076111, "alphanum_fraction": 0.6070727109909058, "avg_line_length": 20.20833396911621, "blob_id": "7854315a664f322ad619643366b72b4798dd1ed7", "content_id": "6a17ac7f70c1c24cd375f6564b310ce988de36d0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 509, "license_type": "no_license", "max_line_length": 41, "num_lines": 24, "path": "/statisticsLB2.py", "repo_name": "marialui/LB2", "src_encoding": "UTF-8", "text": "#!/usr/bin/python\nimport sys\nimport matplotlib.pyplot as plt\nimport matplotlib.mlab as mlab\nimport numpy as np\nimport functions as f\nimport pandas as pd\n\nif __name__ == \"__main__\":\n ss = open(sys.argv[1], \"r\")\n fasta = open(sys.argv[2], \"r\")\n data = open(sys.argv[3], \"w+\")\n\n set = f.merger(ss, fasta)\n\n m= (f.ss_percentage(data))\n l=m[0]\n #print(l)\n #f.printpie(l)\n stru=m[1]\n fas=m[2]\n residui = (f.aa_percentage(fas,stru))\n print(residui)\n f.print_histogram(residui)\n" } ]	19
JuvignyEnsta/ParisVI_2020	https://github.com/JuvignyEnsta/ParisVI_2020	edc8479613efc94f057faef9277984a13e1fa1d2	14ddd967a4a25d1cbc2bd3150bce512bbb8c0b42	99947121f6d9e7882ecf88c1d8d7f6cc7012fb76	refs/heads/master	2020-12-21T18:38:10.959012	2020-09-16T13:34:56	2020-09-16T13:34:56	236,524,565	3	0	null	null	null	null	null	[ { "alpha_fraction": 0.6225761771202087, "alphanum_fraction": 0.6599723100662231, "avg_line_length": 30.81818199157715, "blob_id": "882e6f40d6266e09c9e471a9a5bd170108e3d6f4", "content_id": "add506f16991d93ecfb64ebe87121efc5dfb3e9f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1450, "license_type": "no_license", "max_line_length": 92, "num_lines": 44, "path": "/Exemples/comparaison_send_Send.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "from mpi4py import MPI\r\nimport numpy as np\r\nimport time\r\n\r\ncomm = MPI.COMM_WORLD\r\nrank = comm.Get_rank()\r\nsize = comm.Get_size()\r\n\r\ngros_tableau = None\r\ntaille_gros_tableau = 1000000\r\n\r\ncomm.barrier()\r\nt_deb = time.time()\r\nif rank == 0 :\r\n gros_tableau = np.empty(taille_gros_tableau, dtype=np.float64)\r\n gros_tableau[0::size] = rank\r\n comm.send(gros_tableau, dest=1, tag=101)\r\n gros_tableau = comm.recv(source = size-1, tag=101)\r\nelse:\r\n gros_tableau = comm.recv(source = rank-1, tag=101)\r\n gros_tableau[rank::size] = rank\r\n comm.send(gros_tableau, dest=(rank+1)%size, tag=101)\r\nt_fin = time.time()\r\n\r\nif rank == 0 :\r\n print(f\"Temps de circulation dans l'anneau avec sérialisation : {t_fin-t_deb} secondes\")\r\n print(f\"Vérification des premières valeurs du tableau : {gros_tableau[:10]}\")\r\n\r\ncomm.barrier()\r\nt_deb = time.time()\r\ngros_tableau = np.empty(taille_gros_tableau, dtype=np.float64)\r\nif rank == 0 :\r\n gros_tableau[0::size] = rank\r\n comm.Send(gros_tableau, dest=1, tag=101)\r\n comm.Recv(gros_tableau, source = size-1, tag=101)\r\nelse:\r\n comm.Recv(gros_tableau, source = rank-1, tag=101)\r\n gros_tableau[rank::size] = rank\r\n comm.Send(gros_tableau, dest=(rank+1)%size, tag=101)\r\nt_fin = time.time()\r\n\r\nif rank == 0 :\r\n print(f\"Temps de circulation dans l'anneau sans sérialisation : {t_fin-t_deb} secondes\")\r\n print(f\"Vérification des premières valeurs du tableau : {gros_tableau[:10]}\")\r\n" }, { "alpha_fraction": 0.6097561120986938, "alphanum_fraction": 0.6239837408065796, "avg_line_length": 33.78571319580078, "blob_id": "a00341a18beb740b0a75f461b42de77576f88490", "content_id": "fbbbcf11a2111c35bbc9002e8e3166aa8b152e75", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 492, "license_type": "no_license", "max_line_length": 91, "num_lines": 14, "path": "/Projet/ProjetLaplacien/VisuSolution.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "import matplotlib.pyplot as plt\n\ndef view( coords, elt2verts, solGlob, colmap=plt.cm.Accent, title=None, visuMesh = True ) :\n fig = plt.figure()\n fig.suptitle(title, fontsize=14, fontweight='bold')\n plt.gca().set_aspect('equal')\n x = coords[:,0]\n y = coords[:,1]\n plt.tripcolor(x, y, elt2verts, solGlob, shading = 'gouraud', cmap=colmap)\n if visuMesh :\n plt.triplot(x, y, elt2verts, 'bo-', color='black')\n plt.axis('off')\n plt.colorbar()\n plt.show()\n \n" }, { "alpha_fraction": 0.6380998492240906, "alphanum_fraction": 0.6516723036766052, "avg_line_length": 29.442073822021484, "blob_id": "3e7b929645cbe532b99005b37ab95f3eba24f57e", "content_id": "cec1adf7419a4a161b21f4bee038fa40ddc5d267", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 10434, "license_type": "no_license", "max_line_length": 179, "num_lines": 328, "path": "/mpi4py.md", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "# Documentation sur mpi4py\r\n\r\n## Exécuter un script python avec MPI\r\n\r\nEn général, la plupart des programmes MPI s'exécutent avec la commande `mpiexec`. En pratique pour exécuter,\r\npar exemple, un script python sur quatre processus, il faut lancer la commande :\r\n\r\n $mpiexec -n 4 python script.py\r\n\r\n## Communicateurs\r\n\r\nLes communicateurs sous python offrent les mêmes souplesses que ceux en C ou en Fortran. Ils permettent une partition des processus, la définition de groupe, etc.\r\n\r\nPar défaut, MPI propose un communicateur `MPI.COMM_WORLD`\r\nenglobant tous les processus lancés par la commande `mpiexec`. On construit généralement d'autres communicateurs\r\nà partir de ce communicateur \"global\".\r\n\r\nRemarque : Ecrire en Python la ligne suivante :\r\n---------\r\n comm = MPI.COMM_WORLD\r\nne copie pas le communicateur global mais effectue une simple référence sur ce communicateur.\r\n\r\n### Interrogation d'un communicateur à l'aide d'attributs dérivés\r\n\r\nEn python, afin de simplifier l'interface, l'interrogation d'un communicateur pour connaître le rang\r\nou le nombre de processus contenus dans le communicateur, peut se faire à l'aide d'un attribut dérivé,\r\nc'est à dire une valeur vue comme attribut du communicateur du point de vue utilisateur mais qui en réalité va appeler une fonction C donnant le rang ou le nombre de processus.\r\n\r\nExemple de code :\r\n----------------\r\n from mpi4py import MPI\r\n\r\n comm = MPI.COMM_WORLD # référence au communicateur global\r\n numero_processus = comm.rank\r\n nombre_processus = comm.size\r\n\r\n print(f\"Hello from {numero_processus}/{nombre_processus}\")\r\n\r\n### Interrogation d'un communicateur à l'aide de fonction à la \"C\"\r\n\r\nIl est néanmoins possible d'appeler une fonction équivalente à la fonction C proposée par l'API MPI.\r\nCette fonction est en générale plus simple d'emploi que son homologue en C et appelle directement la\r\nfonction C correspondante :\r\n\r\nAinsi, l'exemple donné ci-dessus peut aussi s'écrire \"à la C\" comme suit :\r\n \r\n from mpi4py import MPI\r\n\r\n comm = MPI.COMM_WORLD # référence au communicateur global\r\n numero_processus = comm.Get_rank() # Equivalent à comm.rank\r\n nombre_processus = comm.Get_size() # Equivalent à comm.size\r\n\r\n print(f\"Hello from {numero_processus}/{nombre_processus}\")\r\n\r\n### Manipulation des communicateurs\r\n\r\nPour avoir une copie effective du communicateur ( et non un référence sur le communicateur en utilisant le\r\nsigne d'égalité ), on peut utiliser la méthode `Dup`:\r\n\r\n from mpi4py import MPI\r\n\r\n comm_ref = MPI.COMM_WORLD # On n'a pas copié le communicateur global, on fait une simple référence dessus\r\n comm_cpy = comm_ref.Dup() # Là, on a fait une vraie copie du communicateur dans un nouveau communicateur. \r\n\r\nIl est possible de définir des sous-communicateurs en utilisant la méthode `Split` de la même manière qu'en C :\r\n\r\n from mpi4py import MPI\r\n\r\n comm = MPI.COMM_WORLD # référence au communicateur global\r\n numero_processus = comm.Get_rank()\r\n\r\n # On fait une partition processus de rang pair/ processus de rang impair\r\n couleur = numero_processus % 2\r\n\r\n nouveau_comm = comm.Split(couleur, numero_processus)\r\n rank_oddeven = nouveau_comm.Get_rank()\r\n size_oddeven = nouveau_comm.Get_size()\r\n\r\n## Communication point à point\r\n\r\nLes fonctions de base permettant de transférer des données entre les différents processus, sous python,\r\nsérialisent les objets à l'aide du module `pickle`. Cela permet une grande souplesse pour l'envoie des\r\ndonnées (on peut envoyer et recevoir n'importe quel objet sérialisable au sens Python) \r\nmais en contrepartie, il y aura un surcout supplémentaire dû à cette sérialisation.\r\n\r\n### Envoie de données sérialisées\r\n\r\nVoici un exemple commenté (remarque : le tag n'est pas obligatoire et sera mis à une valeur par défaut) :\r\n\r\n from mpi4py import MPI\r\n\r\n comm = MPI.COMM_WORLD\r\n rank = comm.Get_rank()\r\n\r\n if rank == 0 :\r\n dico = { 'alfred' : 42, 'victor' : 58, 'suzanne' : 37 }\r\n comm.send(dico, dest = 1, tag = 11)\r\n else:\r\n dico = comm.recv(source = 0, tag = 11)\r\n\r\n### Envoie de données sérialisées non bloquante\r\n\r\nIl est également possible d'envoyer des données sérialisées à l'aide d'opérations de communications non\r\nbloquantes :\r\n\r\n from mpi4py import MPI\r\n\r\n comm = MPI.COMM_WORLD\r\n rank = comm.Get_rank()\r\n\r\n if rank == 0:\r\n data = {'a': 7, 'b': 3.14}\r\n req = comm.isend(data, dest=1, tag=11)\r\n req.wait()\r\n elif rank == 1:\r\n req = comm.irecv(source=0, tag=11)\r\n data = req.wait()\r\n\r\n## Envoie de données non sérialisées\r\n\r\nLorsqu'on doit uniquement envoyer des données basiques (entiers ou réels) de même type, afin d'optimiser le coût\r\nen communication, il est préférable d'éviter une sérialisation et utiliser l'interface qui appelle directement\r\nles fonctions de communication du C. Par exemple, si on doit envoyer des données de type entier ou réel stockées\r\ndans un tableau numpy, la façon la plus rapide de la faire est la suivante :\r\n\r\n from mpi4py import MPI\r\n import numpy\r\n\r\n comm = MPI.COMM_WORLD\r\n rank = comm.Get_rank()\r\n\r\n # passing MPI datatypes explicitly\r\n if rank == 0:\r\n data = numpy.arange(1000, dtype='i')\r\n comm.Send([data, MPI.INT], dest=1, tag=77)\r\n elif rank == 1:\r\n data = numpy.empty(1000, dtype='i')\r\n comm.Recv([data, MPI.INT], source=0, tag=77)\r\n\r\n # automatic MPI datatype discovery\r\n if rank == 0:\r\n data = numpy.arange(100, dtype=numpy.float64)\r\n comm.Send(data, dest=1, tag=13)\r\n elif rank == 1:\r\n data = numpy.empty(100, dtype=numpy.float64)\r\n comm.Recv(data, source=0, tag=13)\r\n\r\nNoter deux façon d'appeler les routines, soit en précisant la nature des éléments contenus dans le tableau\r\nnumpy soit en laissant mpi4py \"deviner\" quels types de données sont stockées dans le tableau numpy (en appelant\r\ndes fonctions de numpy donnant le type de données stockées !).\r\n\r\n\r\n## Communication collective\r\n\r\nPour faire une barrière de synchronisation :\r\n\r\n from mpi4py import MPI\r\n import time\r\n\r\n comm = MPI.COMM_WORLD\r\n\r\n # On fait une barrière de synchronisation pour mesurer le temps pris par les processus pour une\r\n # section parallèle.\r\n comm.Barrier()\r\n t1 = time.time()\r\n ... # Section parallèle dont on veut mesurer le temps\r\n t2 = time.time()\r\n print(f\"Temps passé en parallèle dans la section mesurée : {t2-t1} secondes\")\r\n\r\nExemple de diffusion d'un dictionnaire python :\r\n\r\n from mpi4py import MPI\r\n\r\n comm = MPI.COMM_WORLD\r\n rank = comm.Get_rank()\r\n\r\n if rank == 0:\r\n data = {'key1' : [7, 2.72, 2+3j],\r\n 'key2' : ( 'abc', 'xyz')}\r\n else:\r\n data = None\r\n data = comm.bcast(data, root=0)\r\n\r\nExemple de distribution d'un objet python :\r\n\r\n from mpi4py import MPI\r\n\r\n comm = MPI.COMM_WORLD\r\n size = comm.Get_size()\r\n rank = comm.Get_rank()\r\n\r\n if rank == 0:\r\n data = [(i+1)2 for i in range(size)]\r\n else:\r\n data = None\r\n data = comm.scatter(data, root=0)\r\n assert data == (rank+1)2\r\n\r\nExemple de regroupement de données (gather) :\r\n\r\n from mpi4py import MPI\r\n\r\n comm = MPI.COMM_WORLD\r\n size = comm.Get_size()\r\n rank = comm.Get_rank()\r\n\r\n data = (rank+1)2\r\n data = comm.gather(data, root=0)\r\n if rank == 0:\r\n for i in range(size):\r\n assert data[i] == (i+1)2\r\n else:\r\n assert data is None\r\n\r\nDe même, on peut aussi optimiser ces communications collectives pour des données homogènes dans des tableaux numpy :\r\n\r\nDiffusion d'un tableau numpy :\r\n\r\n from mpi4py import MPI\r\n import numpy as np\r\n\r\n comm = MPI.COMM_WORLD\r\n rank = comm.Get_rank()\r\n\r\n if rank == 0:\r\n data = np.arange(100, dtype='i')\r\n else:\r\n data = np.empty(100, dtype='i')\r\n comm.Bcast(data, root=0)\r\n for i in range(100):\r\n assert data[i] == i\r\n\r\nDistribution d'un tableau numpy :\r\n\r\n from mpi4py import MPI\r\n import numpy as np\r\n\r\n comm = MPI.COMM_WORLD\r\n size = comm.Get_size()\r\n rank = comm.Get_rank()\r\n\r\n sendbuf = None\r\n if rank == 0:\r\n sendbuf = np.empty([size, 100], dtype='i')\r\n sendbuf.T[:,:] = range(size)\r\n recvbuf = np.empty(100, dtype='i')\r\n comm.Scatter(sendbuf, recvbuf, root=0)\r\n assert np.allclose(recvbuf, rank)\r\n\r\nRassemblement de données dans un tableau numpy :\r\n\r\n from mpi4py import MPI\r\n import numpy as np\r\n\r\n comm = MPI.COMM_WORLD\r\n size = comm.Get_size()\r\n rank = comm.Get_rank()\r\n\r\n sendbuf = np.zeros(100, dtype='i') + rank\r\n recvbuf = None\r\n if rank == 0:\r\n recvbuf = np.empty([size, 100], dtype='i')\r\n comm.Gather(sendbuf, recvbuf, root=0)\r\n if rank == 0:\r\n for i in range(size):\r\n assert np.allclose(recvbuf[i,:], i)\r\n\r\nExemple de produit parallèle matrice--vecteur :\r\n\r\n from mpi4py import MPI\r\n import numpy\r\n\r\n def matvec(comm, A, x):\r\n m = A.shape[0] # local rows\r\n p = comm.Get_size()\r\n xg = numpy.zeros(mp, dtype='d')\r\n comm.Allgather([x, MPI.DOUBLE],\r\n [xg, MPI.DOUBLE])\r\n y = numpy.dot(A, xg)\r\n return y\r\n\r\n\r\n\r\n## MPI-IO\r\n\r\nI/O collectives avec les tableaux numpy :\r\n\r\n from mpi4py import MPI\r\n import numpy as np\r\n\r\n amode = MPI.MODE_WRONLY\|MPI.MODE_CREATE\r\n comm = MPI.COMM_WORLD\r\n fh = MPI.File.Open(comm, \"./datafile.contig\", amode)\r\n\r\n buffer = np.empty(10, dtype=np.int)\r\n buffer[:] = comm.Get_rank()\r\n\r\n offset = comm.Get_rank()buffer.nbytes\r\n fh.Write_at_all(offset, buffer)\r\n\r\n fh.Close()\r\n\r\nI/O collective non contigues avec des tableaux numpy et des datatypes :\r\n\r\n from mpi4py import MPI\r\n import numpy as np\r\n\r\n comm = MPI.COMM_WORLD\r\n rank = comm.Get_rank()\r\n size = comm.Get_size()\r\n\r\n amode = MPI.MODE_WRONLY\|MPI.MODE_CREATE\r\n fh = MPI.File.Open(comm, \"./datafile.noncontig\", amode)\r\n\r\n item_count = 10\r\n\r\n buffer = np.empty(item_count, dtype='i')\r\n buffer[:] = rank\r\n\r\n filetype = MPI.INT.Create_vector(item_count, 1, size)\r\n filetype.Commit()\r\n\r\n displacement = MPI.INT.Get_size()rank\r\n fh.Set_view(displacement, filetype=filetype)\r\n\r\n fh.Write_all(buffer)\r\n filetype.Free()\r\n fh.Close()\r\n\r\n" }, { "alpha_fraction": 0.7201166152954102, "alphanum_fraction": 0.7259474992752075, "avg_line_length": 27.58333396911621, "blob_id": "e8efbcafdfa2820ac7bdad2ed881391d9bc3d560", "content_id": "3dbe22c24ef72d56e09ec8076a0db0e8f0480f33", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 343, "license_type": "no_license", "max_line_length": 83, "num_lines": 12, "path": "/TP_one/ProdMatMat.hpp", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "#ifndef _ProdMatMat_hpp__\n# define _ProdMatMat_hpp__\n# include <functional>\n#include \"Matrix.hpp\"\n\nMatrix operator ( const Matrix& A, const Matrix& B );\n\nenum prod_algo { naive, block, parallel_naive, parallel_block1, parallel_block2 } ;\nvoid setProdMatMat( prod_algo algo );\nvoid setBlockSize( int size );\nvoid setNbThreads( int n );\n#endif\n" }, { "alpha_fraction": 0.5588235259056091, "alphanum_fraction": 0.6323529481887817, "avg_line_length": 18.428571701049805, "blob_id": "23c143fd52aee0db0356b2dc8c08ab4edf398ecd", "content_id": "032d2244a2f3671a3c8a4e93f7411ae6bd3cf181", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 272, "license_type": "no_license", "max_line_length": 39, "num_lines": 14, "path": "/Exemples/Bogue_Longueur_EnvoieReception.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "from mpi4py import MPI\nimport numpy as np\n\ncomm = MPI.COMM_WORLD\nrank = comm.rank\n\nif rank == 0 :\n u = np.ones(100, dtype=np.float64)\n comm.Send(u, dest=1, tag=101)\nelse:\n u = np.zeros(100, dtype=np.float64)\n comm.Recv(u, source=0, tag=101)\n\nprint(f\"u = {u}\")\n" }, { "alpha_fraction": 0.4337349534034729, "alphanum_fraction": 0.4337349534034729, "avg_line_length": 36.727272033691406, "blob_id": "8923ec9e119a59f6bc3bcc415410b0b5d1b78907", "content_id": "22e82ed2084d96f6909ceb4760796675b8cb5c27", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 415, "license_type": "no_license", "max_line_length": 75, "num_lines": 11, "path": "/TP_one/Matrix.cpp", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "# include \"Matrix.hpp\"\n# include <cassert>\n\nMatrix::Matrix( int nRows, int nCols ) :\n nbRows{nRows}, nbCols{nCols}, m_arr_coefs(nRowsnCols)\n{}\n// ------------------------------------------------------------------------\nMatrix::Matrix( int nRows, int nCols, double val ) :\n nbRows{nRows}, nbCols{nCols}, m_arr_coefs(nRowsnCols, val)\n{}\n// ========================================================================\n" }, { "alpha_fraction": 0.6319702863693237, "alphanum_fraction": 0.6418834924697876, "avg_line_length": 49.375, "blob_id": "daab0a765fd07a4969781fdf154cb133ff53e883", "content_id": "96cf591750180c2b5d489dc543c05de159128183", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 807, "license_type": "no_license", "max_line_length": 154, "num_lines": 16, "path": "/Projet/ProjetLaplacien/HPNum/setup.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n\nfrom distutils.core import setup, Extension\nimport numpy as np\n\nmodules = [Extension('fem', ['CPyFem.cpp'],include_dirs=[np.__path__[0]+\"/core/include\"]),\n Extension('laplacian', ['CPyLaplacian.cpp'],include_dirs=[np.__path__[0]+\"/core/include\"]),\n Extension('mesh', ['CPyMesh.cpp'],include_dirs=[np.__path__[0]+\"/core/include\"]),\n Extension('splitter', sources=['splitter.cpp'], libraries=[],include_dirs=[np.__path__[0]+\"/core/include\"], extra_compile_args=['-std=c++11'])]\n\nsetup(name=\"HPNum\",\n version=\"0.1\", # Chaine de caractere pour ne pas avoir le probleme a la fin pour l'install du egginfo\n description='Python high performance numerical algorithms',\n author='Xavier Juvigny',\n author_email=\"[email protected]\",\n ext_modules = modules)\n\n" }, { "alpha_fraction": 0.5446428656578064, "alphanum_fraction": 0.5600258111953735, "avg_line_length": 38.59388732910156, "blob_id": "8fa0834ba25448ebcf6e25454d487b13c7f2fd73", "content_id": "abaef848d23b9ddb6dd87c7415087ef5159a177c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 9300, "license_type": "no_license", "max_line_length": 121, "num_lines": 229, "path": "/Projet/ProjetLaplacien/HPNum/splitter.cpp", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "# include <Python.h>\r\n# include <cmath>\r\n# include <vector>\r\n# include <iostream>\r\n# include <algorithm>\r\n# include <numpy/arrayobject.h>\r\n#include \"hilbert_curve.hpp\"\r\n\r\nstruct point2D\r\n{\r\n double x,y;\r\n point2D(double xc, double yc) : x(xc), y(yc)\r\n {}\r\n\r\n};\r\n\r\ninline point2D mid_point( const point2D& p1, const point2D& p2 )\r\n{\r\n return {0.5(p1.x+p2.x), 0.5(p1.y+p2.y)};\r\n}\r\n\r\nstatic std::pair<point2D,point2D> compute_bounding_box( const unsigned long nb_verts, const double* coords, int stride=4)\r\n{\r\n point2D cmin(coords[0], coords[1]);\r\n point2D cmax(coords[0], coords[1]);\r\n for ( unsigned long i = 1; i < nb_verts; ++i )\r\n {\r\n cmin.x = std::min(cmin.x, coords[stridei+0]);\r\n cmin.y = std::min(cmin.y, coords[stridei+1]);\r\n cmax.x = std::max(cmax.x, coords[stridei+0]);\r\n cmax.y = std::max(cmax.y, coords[stridei+1]);\r\n }\r\n return {cmin, cmax};\r\n}\r\n\r\nusing morton_number = std::pair<unsigned long long, unsigned long long>;\r\n\r\n\r\nstatic std::vector<morton_number>\r\ncompute_morton_ordering( const unsigned long nb_verts, const double* coords,\r\n const std::pair<point2D,point2D>& bbox, int N, int stride=4 )\r\n{\r\n std::vector<morton_number> numbering;\r\n numbering.reserve(nb_verts);\r\n auto hilbert_curve = HilbertCurve(N, 2);\r\n unsigned long long pN = (1<<N)-1;\r\n point2D lgth{ bbox.second.x - bbox.first.x, bbox.second.y - bbox.first.y };\r\n for ( unsigned long iVert = 0; iVert < nb_verts; ++iVert )\r\n {\r\n std::pair<point2D,point2D> cur_bbox = bbox;\r\n point2D center_box = mid_point(cur_bbox.first, cur_bbox.second);\r\n morton_number index;\r\n index.first = iVert;\r\n double xc = coords[strideiVert+0];\r\n double yc = coords[strideiVert+1];\r\n double xn = (xc-bbox.first.x)/lgth.x;\r\n double yn = (yc-bbox.first.y)/lgth.y;\r\n unsigned long long ix = (unsigned long long)(pNxn);\r\n unsigned long long iy = (unsigned long long)(pNyn);\r\n assert(ix>=0);\r\n assert(iy>=0);\r\n assert(ix<=pN);\r\n assert(iy<=pN);\r\n\r\n index.second= hilbert_curve.distance_from_coordinates({ix,iy});\r\n/\r\n for ( int i = 0; i < N; ++i )\r\n {\r\n int msk = index.second&3;\r\n int ry = 0, rx = 0;\r\n if ((msk == 3) or (msk == 2)) rx = 1;\r\n if ((msk == 1) or (msk == 2)) ry = 1;\r\n index.second <<= 2;\r\n bool is_right = (xc > center_box.x);\r\n bool is_up = (yc > center_box.y);\r\n int inc_x = 0, inc_y = 0;\r\n // Enregistre le quadrant suivant l'ordonnancement de Morton\r\n if (is_right) \r\n {\r\n cur_bbox.first.x = center_box.x;\r\n inc_x = 1;\r\n }\r\n else\r\n {\r\n cur_bbox.second.x= center_box.x;\r\n }\r\n\r\n if (is_up) \r\n {\r\n cur_bbox.first.y = center_box.y;\r\n inc_y = 1;\r\n }\r\n else\r\n cur_bbox.second.y= center_box.y;\r\n center_box = mid_point(cur_bbox.first, cur_bbox.second);\r\n rot(2, inc_x, inc_y, rx, ry);\r\n if (inc_x==1)\r\n if (inc_y==0)\r\n index.second += 3;\r\n else\r\n index.second += 2;\r\n else if ( inc_y == 1 ) index.second += 1;\r\n }/\r\n numbering.emplace_back(index);\r\n }\r\n return numbering;\r\n}\r\n\r\nstatic char doc_splitNodeMesh[] =\r\n \"Usage : splitter.NodeMesh( nbDoms, vertices_coords )\"\r\n \"where nbDoms is the number of subdomains\"\r\n \"and vertices_coords are the coordinates of the vertice of the mesh.\"\r\n \"return set of nodes per domains\\n\";\r\nstatic PyObject* py_split_nodeMesh( PyObject* self, PyObject* args )\r\n{\r\n PyArrayObject py_coords;\r\n PyObject splitted_vertices;\r\n int nb_subdomains;\r\n if ( !PyArg_ParseTuple( args, \"iO!\", &nb_subdomains, &PyArray_Type, &py_coords) ) return NULL;\r\n const double* coords = (const double)PyArray_DATA(py_coords);\r\n\r\n npy_intp nbVerts = PyArray_DIM(py_coords,0);\r\n auto bbox = compute_bounding_box(nbVerts, coords);\r\n // Calcul de l'index de morton pour chaque sommet :\r\n auto morton_numbering = compute_morton_ordering(nbVerts, coords, bbox, 20);\r\n std::sort(morton_numbering.begin(), morton_numbering.end(), [](const morton_number& n1,\r\n const morton_number& n2){\r\n return n1.second < n2.second;\r\n });\r\n unsigned long nb_loc_verts = nbVerts/unsigned(nb_subdomains);\r\n unsigned long suppl_verts = nbVerts%unsigned(nb_subdomains);\r\n splitted_vertices = PyList_New(nb_subdomains);\r\n unsigned long long start_indices = 0;\r\n for ( int iDom = 0; iDom < nb_subdomains; ++iDom )\r\n {\r\n npy_intp nbLocVerts = nb_loc_verts;\r\n if (iDom < suppl_verts) nbLocVerts += 1;\r\n PyArrayObject loc_indices = (PyArrayObject)PyArray_EMPTY(1, &nbLocVerts, NPY_UINT64, 0);\r\n unsigned long long data_indices = (unsigned long long)PyArray_DATA(loc_indices);\r\n for ( unsigned long long i_ind = 0; i_ind < nbLocVerts; ++i_ind )\r\n {\r\n data_indices[i_ind] = morton_numbering[start_indices + i_ind].first;\r\n }\r\n start_indices += nbLocVerts;\r\n PyList_SetItem(splitted_vertices, iDom, (PyObject)loc_indices);\r\n }\r\n return splitted_vertices;\r\n}\r\n// \r\nstatic char doc_splitEltMesh[] =\r\n \"Usage : splitter.EltMesh( nbDoms, (elt2vert,vertices_coords) )\"\r\n \"where nbDoms is the number of subdomains\"\r\n \"and vertices_coords are the coordinates of the vertice of the mesh.\"\r\n \"return set of nodes per domains\\n\";\r\nstatic PyObject* py_split_eltMesh( PyObject* self, PyObject* args )\r\n{\r\n PyArrayObject py_coords, py_elt2vert;\r\n PyObject splitted_elements;\r\n int nb_subdomains;\r\n if ( !PyArg_ParseTuple( args, \"i(O!O!)\", &nb_subdomains, &PyArray_Type, &py_elt2vert, &PyArray_Type, &py_coords) ) \r\n return NULL;\r\n const long elt2vert = (const long)PyArray_DATA(py_elt2vert);\r\n const double coords = (const double)PyArray_DATA(py_coords);\r\n\r\n npy_intp nbVerts = PyArray_DIM(py_coords,0);\r\n npy_intp nbElts = PyArray_DIM(py_elt2vert,0);\r\n auto bbox = compute_bounding_box(nbVerts, coords);\r\n // Calcul du barycentre de chaque élément du maillage :\r\n std::vector<double> bary_coords(2nbElts);\r\n for ( unsigned long long iElt = 0; iElt < nbElts; ++iElt )\r\n {\r\n long nd_1 = elt2vert[3iElt+0], nd_2 = elt2vert[3iElt+1] , nd_3 = elt2vert[3iElt+2];\r\n bary_coords[2iElt+0] = (coords[4nd_1+0]+coords[4nd_2+0]+coords[4nd_3+0])/3.;\r\n bary_coords[2iElt+1] = (coords[4nd_1+1]+coords[4nd_2+1]+coords[4nd_3+1])/3.;\r\n }\r\n // Calcul de l'index de morton pour chaque sommet :\r\n auto morton_numbering = compute_morton_ordering(nbElts, bary_coords.data(), bbox, 20, 2);\r\n // A partir de la renumerotation des noeuds, on reordonne les éléments :\r\n std::sort(morton_numbering.begin(), morton_numbering.end(), [](const morton_number& n1,\r\n const morton_number& n2){\r\n return n1.second < n2.second;\r\n });\r\n unsigned long nb_loc_elts = nbElts/unsigned(nb_subdomains);\r\n unsigned long suppl_elts = nbElts%unsigned(nb_subdomains);\r\n splitted_elements = PyList_New(nb_subdomains);\r\n unsigned long long start_indices = 0;\r\n for ( int iDom = 0; iDom < nb_subdomains; ++iDom )\r\n {\r\n npy_intp nbLocElts = nb_loc_elts;\r\n if (iDom < suppl_elts) nbLocElts += 1;\r\n PyArrayObject loc_indices = (PyArrayObject)PyArray_EMPTY(1, &nbLocElts, NPY_UINT64, 0);\r\n unsigned long long data_indices = (unsigned long long)PyArray_DATA(loc_indices);\r\n for ( unsigned long long i_ind = 0; i_ind < nbLocElts; ++i_ind )\r\n {\r\n data_indices[i_ind] = morton_numbering[start_indices + i_ind].first;\r\n }\r\n start_indices += nbLocElts;\r\n PyList_SetItem(splitted_elements, iDom, (PyObject)loc_indices);\r\n }\r\n return splitted_elements;\r\n}\r\n// ========================================================================\r\nstatic PyMethodDef Py_Methods[] =\r\n {\r\n {\"node\" , py_split_nodeMesh, METH_VARARGS, doc_splitNodeMesh},\r\n {\"element\" , py_split_eltMesh , METH_VARARGS, doc_splitEltMesh },\r\n {NULL, NULL} /* Guards /\r\n };\r\n// ========================================================================\r\n static struct PyModuleDef splittermoduledef = {\r\n PyModuleDef_HEAD_INIT,\r\n \"splitter\", // Nom du module\r\n \"Partitionner of mesh\", // Documentation du module,\r\n -1 , // Taille du module ?\r\n Py_Methods , // Fonctions du module\r\n NULL, // m_reload ?\r\n NULL, // m_traverse ?\r\n NULL, // m_clear\r\n NULL, // m_free\r\n };\r\nPyMODINIT_FUNC PyInit_splitter(void)\r\n{\r\n PyObject m; \r\n m = PyModule_Create(&splittermoduledef);\r\n if (m==NULL) return NULL;\r\n /* important : initialize numpy to use in subroutines !!!! /\r\n import_array();\r\n return m;\r\n}\r\n" }, { "alpha_fraction": 0.5447070002555847, "alphanum_fraction": 0.579337477684021, "avg_line_length": 33.67469787597656, "blob_id": "322a26f32fde333f9ccf8c0ac04aa2602376e407", "content_id": "3daad4b9dda03a0d444d64325a9bbf139f8a7546", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 8649, "license_type": "no_license", "max_line_length": 123, "num_lines": 249, "path": "/Projet/ProjetLaplacien/HPNum/CPyMesh.cpp", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "# include <Python.h>\n# include <math.h>\n# include <algorithm>\n# include <iostream>\n# include <fstream>\n# include <cstring>\n# include <cassert>\n# include <list>\n# include <numpy/arrayobject.h>\n\nstatic char compvert2elts_doc[] = \n \"Usage : comvert2elts( elt2verts )\"\n \"Calcul la connectivité du maillage des sommets vers les éléments.\"\n \"elt2verts : Connectivité éléments vers sommets du maillage.\\n\";\nstatic PyObject py_compvert2elts( PyObject* self, PyObject* args )\n{\n PyArrayObject py_elt2verts, py_begVert2elts, py_vert2elts;\n PyArrayObject py_glob2loc = NULL;\n const long* glob2loc = NULL;\n long nbVerts;\n if (!PyArg_ParseTuple( args, \"O!\|O!\", &PyArray_Type, &py_elt2verts,\n\t\t\t &PyArray_Type, &py_glob2loc))\n return NULL;\n if ( py_glob2loc != NULL ) glob2loc = (const long)PyArray_DATA(py_glob2loc);\n long nbElts = long(PyArray_DIM(py_elt2verts,0));\n // Calcul du nombre de noeuds pris en compte par elt2verts :\n std::list<long> indVerts;\n for ( long i = 0; i < nbElts; ++i ) {\n const long elt2verts = (const long)PyArray_GETPTR2(py_elt2verts,i,0);\n long v1 = elt2verts[0];\n long v2 = elt2verts[1];\n long v3 = elt2verts[2];\n //std::cerr << \"v1,v2, v3 : \" << v1 << \", \" << v2 << \", \" << v3 << std::flush << std::endl;\n assert(v1>=0); assert(v2 >= 0); assert(v3 >= 0);\n if ( glob2loc != NULL ) {\n if (glob2loc[v1] >= 0) indVerts.push_back(v1);\n if (glob2loc[v2] >= 0) indVerts.push_back(v2);\n if (glob2loc[v3] >= 0) indVerts.push_back(v3);\n } else {\n indVerts.push_back(elt2verts[0]);\n indVerts.push_back(elt2verts[1]);\n indVerts.push_back(elt2verts[2]);\n }\n }\n indVerts.sort();\n indVerts.unique();\n nbVerts = indVerts.size();\n npy_intp nd[2];\n nd[0] = npy_intp(nbVerts+1);\n py_begVert2elts = (PyArrayObject)PyArray_SimpleNew(1,nd,PyArray_LONG);\n long* begVert2elts = (long)PyArray_DATA(py_begVert2elts);\n long nbEltsPerVert = new long[nbVerts];\n std::fill_n(nbEltsPerVert, nbVerts, 0);\n for ( long i = 0; i < nbElts; ++i ) {\n const long* elt2verts = (const long)PyArray_GETPTR2(py_elt2verts,i,0);\n long v1 = elt2verts[0];\n long v2 = elt2verts[1];\n long v3 = elt2verts[2];\n assert(v1>=0); assert(v2 >= 0); assert(v3 >= 0);\n if ( glob2loc != NULL ) {\n if (glob2loc[v1] >= 0) nbEltsPerVert[glob2loc[v1]] += 1;\n if (glob2loc[v2] >= 0) nbEltsPerVert[glob2loc[v2]] += 1;\n if (glob2loc[v3] >= 0) nbEltsPerVert[glob2loc[v3]] += 1;\n } else {\n nbEltsPerVert[v1] += 1;\n nbEltsPerVert[v2] += 1;\n nbEltsPerVert[v3] += 1; \n }\n }\n begVert2elts[0] = 0;\n for ( long iV = 0; iV < nbVerts; ++iV ) {\n begVert2elts[iV+1] = begVert2elts[iV] + nbEltsPerVert[iV];\n }\n nd[0] = begVert2elts[nbVerts];\n py_vert2elts = (PyArrayObject)PyArray_SimpleNew(1,nd,PyArray_LONG);\n long* vert2elts = (long)PyArray_DATA(py_vert2elts);\n \n std::fill_n(nbEltsPerVert, nbVerts, 0);\n for ( long i = 0; i < nbElts; ++i ) {\n const long elt2verts = (const long)PyArray_GETPTR2(py_elt2verts,i,0);\n long iV = (glob2loc == NULL ? elt2verts[0] : glob2loc[elt2verts[0]]);\n if (iV >= 0) {\n vert2elts[begVert2elts[iV] + nbEltsPerVert[iV]] = i;\n nbEltsPerVert[iV] += 1;\n }\n iV = (glob2loc == NULL ? elt2verts[1] : glob2loc[elt2verts[1]]);\n if (iV >= 0) {\n vert2elts[begVert2elts[iV] + nbEltsPerVert[iV]] = i;\n nbEltsPerVert[iV] += 1;\n }\n iV = (glob2loc == NULL ? elt2verts[2] : glob2loc[elt2verts[2]]);\n if (iV >= 0) {\n vert2elts[begVert2elts[iV] + nbEltsPerVert[iV]] = i;\n nbEltsPerVert[iV] += 1;\n }\n }\n delete [] nbEltsPerVert;\n return Py_BuildValue(\"NN\", py_begVert2elts, py_vert2elts);\n}\n// ------------------------------------------------------------------------\nstatic char readMesh[] =\n \"Usage : read_fmtmesh(fileName)\"\n \"Lit un maillage à partir du fichier formaté donné par fileName\"\n \"Retourne un tuple (vertices, elt2verts) où :\"\n \" - vertices contient les coordonnées du sommet du maillage plus une coloration ( 0 par défaut, non nul pour Dirichlet )\"\n \" - elt2verts contient les indices des sommets définissant chaque élément du maillage\\n\";\nstatic PyObject py_read_fmtmesh( PyObject* self, PyObject* args )\n{\n char buffer[4096];\n char* filename;\n double version;\n int file_type, data_size;\n PyArrayObject pyVertices = NULL, pyElt2Verts = NULL;\n double* vertices = NULL;\n long* elt2verts = NULL;\n int nbBC = 0;\n \n if ( !PyArg_ParseTuple(args, \"s\", &filename) ) return NULL;\n\n std::ifstream input(filename);\n if (!input) {\n PyErr_SetString(PyExc_IOError, \"Failed to open the file !\");\n return NULL;\n }\n input.getline(buffer, 1024, '\\n');\n input >> version >> file_type >> data_size;\n if ( (file_type != 0) \|\| (data_size != 8) ) {\n PyErr_SetString(PyExc_IOError, \"Wrong formated file format !\");\n return NULL;\n }\n input.getline(buffer, 1024, '\\n');\n input.getline(buffer, 1024, '\\n');\n while (input) {\n input.getline(buffer, 1024, '\\n');\n if (strncmp(buffer, \"$Nodes\",6) == 0) {\n double* vertices;\n long nbNodes, iNode;\n double x,y,z;\n input >> nbNodes;\n npy_intp dim[2];\n dim[0] = nbNodes;\n dim[1] = 4;\n pyVertices = (PyArrayObject) PyArray_SimpleNew(2,dim,NPY_DOUBLE);\n vertices = (double)PyArray_DATA(pyVertices);\n \n for ( long i = 0; i < nbNodes; ++i ) {\n\tinput >> iNode >> x >> y >> z;\n\tiNode -= 1;\n\tassert(iNode < nbNodes);\n\tvertices[4iNode ] = x;\n\tvertices[4iNode+1] = y;\n\tvertices[4iNode+2] = z;\n\tvertices[4iNode+3] = 0;\n }\n input.getline(buffer, 1024, '\\n');\n input.getline(buffer, 1024, '\\n');\n assert(strcmp(buffer, \"$EndNodes\") == 0);\n }// End if (Nodes\n else if (strncmp(buffer, \"$Elements\",9) == 0) {\n long nbElts, iElt, elt_type, nbTags, tag;\n input >> nbElts;\n pyElt2Verts = NULL;\n assert(pyVertices != NULL);\n vertices = (double)PyArray_DATA(pyVertices);\n for ( long i = 0; i < nbElts; ++i ) {\n\tinput >> iElt >> elt_type >> nbTags;\n\tiElt -= 1;\n\tfor ( long t = 0; t < nbTags; ++t ) {\n\t input >> tag;\n\t}\n\tif ( elt_type == 1 ) // C'est une ligne \"physique\", donc une condition limite :\n\t {\n\t long nd1, nd2;\n\t input >> nd1 >> nd2;\n\t nd1 -= 1; nd2 -= 1;\n\t vertices[4nd1+3] = tag;\n\t vertices[4nd2+3] = tag;\n\t nbBC += 1;\n\t }\n\telse if ( elt_type == 2 ) // C'est un triangle :\n\t {\n\t iElt -= nbBC;\n\t if ( pyElt2Verts == NULL ) {\n\t npy_intp dim[2];\n\t dim[0] = nbElts-nbBC;\n\t dim[1] = 3;\n\t pyElt2Verts = (PyArrayObject) PyArray_SimpleNew(2,dim,NPY_LONG);\n\t elt2verts = (long)PyArray_DATA(pyElt2Verts);\n\t }\n\t input >> elt2verts[3iElt+0] >> elt2verts[3iElt+1] >> elt2verts[3iElt+2];\n\t elt2verts[3iElt+0] -= 1; elt2verts[3iElt+1] -= 1; elt2verts[3iElt+2] -= 1;\n\t }\n }\n input.getline(buffer, 1024, '\\n');\n input.getline(buffer, 1024, '\\n');\n }\n else { // Autre, on va \"skipper\"\n std::string flag(buffer);\n if ( flag.size() > 0 ) {\n std::string endBuffer = \"$End\" + flag.substr(1);\n do {\n\tinput.getline(buffer, 1024, '\\n');\n } while ( ( std::string(buffer).substr(0,4) != endBuffer.substr(0,4) ) && (input) );\n }\n }\n }\n return Py_BuildValue(\"NN\", pyVertices, pyElt2Verts);\n}\n// ========================================================================\nstatic PyMethodDef Py_Methods[] =\n {\n {\"compvert2elts\", py_compvert2elts, METH_VARARGS, compvert2elts_doc},\n {\"read\", py_read_fmtmesh, METH_VARARGS, readMesh},\n {NULL, NULL} / Guards /\n };\n// ========================================================================\n#if PY_MAJOR_VERSION >= 3\n static struct PyModuleDef meshmoduledef = {\n PyModuleDef_HEAD_INIT,\n \"mesh\", // Nom du module\n \"Mesh utilities\", // Documentation du module,\n -1 , // Taille du module ?\n Py_Methods , // Fonctions du module\n NULL, // m_reload ?\n NULL, // m_traverse ?\n NULL, // m_clear\n NULL, // m_free\n };\nPyMODINIT_FUNC PyInit_mesh(void)\n{\n PyObject m; \n m = PyModule_Create(&meshmoduledef);\n if (m==NULL) return NULL;\n /* important : initialize numpy to use in subroutines !!!! /\n import_array();\n return m;\n}\n#else \nstatic char mesh_doc[] = \"Mesh utilities\";\nPyMODINIT_FUNC initmesh()\n{\n PyObject m; \n m = Py_InitModule4(\"mesh\",Py_Methods, mesh_doc,\n\t\t (PyObject)NULL,PYTHON_API_VERSION);\n if (m==NULL) return;\n / important : initialize numpy to use in subroutines !!!! /\n import_array();\n}\n#endif\n" }, { "alpha_fraction": 0.6065405607223511, "alphanum_fraction": 0.6159260869026184, "avg_line_length": 36.26229476928711, "blob_id": "20df6d34fbd8f825fe5d3347ad1342a2e675a6c9", "content_id": "503d3dffd9a0d95e48236aaaffd9904be287a4db", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 6844, "license_type": "no_license", "max_line_length": 104, "num_lines": 183, "path": "/Projet/ProjetLaplacien/HPNum/CPyFem.cpp", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "# include <Python.h>\n# include <math.h>\n# include <list>\n# include <algorithm>\n# include <iostream>\n# include <numpy/arrayobject.h>\n\nstatic char compSkelSparseMatrix_doc[] = \"\\\nUsage : compute_skeleton_SparseMatrix( pt_dof2elts, dof2elts )\\n\\\nCalcul le graphe de la matrice creuse issue des éléments finis.\\n\\\nelt2dofs : Tableau donnant pour chaque élément les degrés de liberté associés. \\n\\\npt_dof2elts : pointeurs dans le tableau dof2elts donnant pour chaque degré de \\n\\\n liberté les éléments associés.\\n\\\ndof2elts : tableau donnant pour chaque degré de liberté les éléments associés.\\n\";\nstatic PyObject py_compSkelSparseMatrix( PyObject* self, PyObject* args )\n{\n PyArrayObject PyElt2Dofs, PyBegDof2Elts, PyDof2Elts;\n\n if ( !PyArg_ParseTuple( args, \"O!(O!O!)\",\n\t\t\t &PyArray_Type, &PyElt2Dofs,\n\t\t\t &PyArray_Type, &PyBegDof2Elts,\n\t\t\t &PyArray_Type, &PyDof2Elts ) ) return NULL;\n const long elt2dofs = (const long)PyArray_DATA(PyElt2Dofs);\n const long begDof2Elts = (const long)PyArray_DATA(PyBegDof2Elts);\n const long dof2elts = (const long)PyArray_DATA(PyDof2Elts);\n\n long nbDofs = long(PyArray_DIM(PyBegDof2Elts,0))-1;\n\n npy_intp nbRowsP1, nbNZ;\n nbRowsP1 = npy_intp(nbDofs) + 1;\n PyArrayObject pyBegRows = (PyArrayObject) PyArray_SimpleNew(1,&nbRowsP1,NPY_LONG);\n long begRows = (long)PyArray_DATA(pyBegRows);\n\n begRows[0] = 0;\n for ( int idof = 0; idof < nbDofs; ++idof ) {\n std::list<long> lst_neighbours;\n for ( long ptIElt = begDof2Elts[idof]; ptIElt < begDof2Elts[idof+1]; ++ptIElt ) {\n long iElt = dof2elts[ptIElt];\n for ( long ptDof = 3iElt; ptDof < 3(iElt+1); ptDof++ ) {\n\tlst_neighbours.push_back(elt2dofs[ptDof]);\n }\n }\n lst_neighbours.sort();\n lst_neighbours.unique();\n begRows[idof+1] = begRows[idof] + lst_neighbours.size();\n }\n \n nbNZ = begRows[nbDofs];\n PyArrayObject pyIndCols = (PyArrayObject) PyArray_SimpleNew(1,&nbNZ,NPY_LONG);\n long indCols = (long)PyArray_DATA(pyIndCols);\n\n for ( long idof = 0; idof < nbDofs; ++idof ) {\n std::list<long> lst_neighbours;\n for ( long ptIElt = begDof2Elts[idof]; ptIElt < begDof2Elts[idof+1]; ++ptIElt ) {\n long iElt = dof2elts[ptIElt];\n for ( long ptDof = 3iElt; ptDof < 3(iElt+1); ptDof++ ) {\n\tlst_neighbours.push_back(elt2dofs[ptDof]);\n }\n }\n lst_neighbours.sort();\n lst_neighbours.unique();\n long ind = 0;\n for ( std::list<long>::iterator itL = lst_neighbours.begin(); itL != lst_neighbours.end(); ++itL ) {\n indCols[begRows[idof]+ind] = (itL);\n ind += 1;\n }\n }\n\n return Py_BuildValue(\"NN\", pyBegRows, pyIndCols);\n}\n// ------------------------------------------------------------------------\nstatic char addElementaryMatrixToCSRMatrix_doc[] = \n\"Usage : add_elemMat_csrMatrix( (begRows, indCols, coefs), (indRows, indCols, elemMat) )\"\n\"Rajoute la matrice élémentaire définie par le tuple (indRows, indCols,elemMat)\"\n\"à la matrice creuse stockée CSR définie par le tuple (begRows, indCols, coefs).\";\nstatic PyObject\npy_addelementmatrix_csrmatrix( PyObject self, PyObject* args )\n{\n // Tableaux pour la matrice creuse :\n PyArrayObject pysm_BegRows, pysm_IndCols, pysm_Coefs;\n // Tableaux pour la matrice élémentaire :\n PyArrayObject pyem_IndRows, pyem_IndCols, pyem_Coefs;\n PyArrayObject py_rowMask = NULL, py_colMask = NULL;\n //\n if ( !PyArg_ParseTuple( args, \"(O!O!O!)(O!O!O!)\|O!O!\",\n\t\t\t &PyArray_Type, &pysm_BegRows,\n\t\t\t &PyArray_Type, &pysm_IndCols,\n\t\t\t &PyArray_Type, &pysm_Coefs,\n\t\t\t &PyArray_Type, &pyem_IndRows,\n\t\t\t &PyArray_Type, &pyem_IndCols,\n\t\t\t &PyArray_Type, &pyem_Coefs,\n\t\t\t &PyArray_Type, &py_rowMask,\n\t\t\t &PyArray_Type, &py_colMask ) ) return NULL;\n const long* sm_begrows = (const long)PyArray_DATA(pysm_BegRows);\n const long sm_indcols = (const long)PyArray_DATA(pysm_IndCols);\n double sm_coefs = ( double)PyArray_DATA(pysm_Coefs );\n const long sm_rowMask = NULL;\n if (py_rowMask != NULL) \n sm_rowMask = (const long)PyArray_DATA(py_rowMask );\n const long sm_colMask = NULL;\n if (py_colMask != NULL) \n sm_colMask = (const long)PyArray_DATA(py_colMask );\n \n long nRowsMatElem = long(PyArray_DIM(pyem_IndRows,0));\n long nColsMatElem = long(PyArray_DIM(pyem_IndCols,0));\n const long em_indrows = (const long)PyArray_DATA(pyem_IndRows);\n const long em_indcols = (const long)PyArray_DATA(pyem_IndCols);\n\n if (sm_rowMask == NULL) {\n for (long iRow = 0; iRow < nRowsMatElem; ++iRow ) {\n long indRow = em_indrows[iRow];\n for ( long jCol = 0; jCol < nColsMatElem; ++jCol ) {\n\tlong indCol = em_indcols[jCol];\n\tfor ( long ptCol = sm_begrows[indRow]; ptCol<sm_begrows[indRow+1];++ptCol ) {\n\t if ( sm_indcols[ptCol] == indCol ) {\n\t sm_coefs[ptCol] += (double)PyArray_GETPTR2(pyem_Coefs,iRow,jCol);\n\t break;\n\t }\n\t}\n }\n }\n } else {\n for (long iRow = 0; iRow < nRowsMatElem; ++iRow ) {\n long indRow = em_indrows[iRow];\n if (sm_rowMask[indRow] == 1) {\n\tfor ( long jCol = 0; jCol < nColsMatElem; ++jCol ) {\n\t long indCol = em_indcols[jCol];\n\t for ( long ptCol = sm_begrows[indRow]; ptCol<sm_begrows[indRow+1];\n\t\t++ptCol ) {\n\t if ( sm_indcols[ptCol] == indCol ) {\n\t sm_coefs[ptCol] += (double)PyArray_GETPTR2(pyem_Coefs,iRow,jCol);\n\t break;\n\t }\n\t }\n\t}\n }\n }\n }\n Py_INCREF(Py_None);\n return Py_None;\n}\n// ========================================================================\nstatic PyMethodDef Py_Methods[] =\n {\n {\"comp_skel_csr_mat\", py_compSkelSparseMatrix, METH_VARARGS, compSkelSparseMatrix_doc},\n {\"add_elt_mat_to_csr_mat\", py_addelementmatrix_csrmatrix, \n METH_VARARGS, addElementaryMatrixToCSRMatrix_doc},\n {NULL, NULL} / Guards /\n };\n// ========================================================================\n#if PY_MAJOR_VERSION >= 3\n static struct PyModuleDef femmoduledef = {\n PyModuleDef_HEAD_INIT,\n \"fem\", // Nom du module\n \"Finite elements method\", // Documentation du module,\n -1 , // Taille du module ?\n Py_Methods , // Fonctions du module\n NULL, // m_reload ?\n NULL, // m_traverse ?\n NULL, // m_clear\n NULL, // m_free\n };\nPyMODINIT_FUNC PyInit_fem(void)\n{\n PyObject m; \n m = PyModule_Create(&femmoduledef);\n if (m==NULL) return NULL;\n /* important : initialize numpy to use in subroutines !!!! /\n import_array();\n return m;\n}\n#else \nstatic char fem_doc[] = \"Finite Element Method\";\nPyMODINIT_FUNC initfem()\n{\n PyObject m; \n m = Py_InitModule4(\"fem\",Py_Methods, fem_doc,\n\t\t (PyObject)NULL,PYTHON_API_VERSION);\n if (m==NULL) return;\n / important : initialize numpy to use in subroutines !!!! /\n import_array();\n}\n#endif\n" }, { "alpha_fraction": 0.6292974352836609, "alphanum_fraction": 0.6292974352836609, "avg_line_length": 18.114286422729492, "blob_id": "5235e9b58c3c18c3753a11fed8d139526f64aafc", "content_id": "3f7216774352882b1b93f714dc588635d342602e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 669, "license_type": "no_license", "max_line_length": 49, "num_lines": 35, "path": "/TP_one/Matrix.hpp", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "#ifndef _MATRIX_HPP_\n# define _MATRIX_HPP_\n\n# include <vector>\n\nclass Matrix\n{\npublic:\n // Constructors - destructor\n Matrix(int nRows, int nCols);\n Matrix(int nRows, int nCols, double val);\n Matrix(const Matrix & A) = delete;\n Matrix(Matrix && A) = default;\n ~Matrix() = default;\n\n // Operators\n Matrix & operator =(const Matrix & A) = delete;\n Matrix & operator =(Matrix && A) = default;\n\n // Getters - Setters \n double operator() (int i, int j) const\n {\n return m_arr_coefs[i+jnbRows];\n }\n\n double &operator() (int i, int j)\n {\n return m_arr_coefs[i+jnbRows];\n }\n int nbRows, nbCols;\nprivate:\n std::vector < double >m_arr_coefs;\n};\n\n#endif\n" }, { "alpha_fraction": 0.4871261715888977, "alphanum_fraction": 0.5775400996208191, "avg_line_length": 56.034481048583984, "blob_id": "eb432d663312dd94554048d24aeb31135bf98c36", "content_id": "caaf65e0047c0c70ba918ceeed186e9796f5d035", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 10152, "license_type": "no_license", "max_line_length": 354, "num_lines": 174, "path": "/Projet/Lifegame/lifegame.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "\"\"\"\r\nLe jeu de la vie\r\n################\r\nLe jeu de la vie est un automate cellulaire inventé par Conway se basant normalement sur une grille infinie\r\nde cellules en deux dimensions. Ces cellules peuvent prendre deux états :\r\n - un état vivant\r\n - un état mort\r\nA l'initialisation, certaines cellules sont vivantes, d'autres mortes.\r\nLe principe du jeu est alors d'itérer de telle sorte qu'à chaque itération, une cellule va devoir interagir avec\r\nles huit cellules voisines (gauche, droite, bas, haut et les quatre en diagonales.) L'interaction se fait selon les\r\nrègles suivantes pour calculer l'irération suivante :\r\n - Une cellule vivante avec moins de deux cellules voisines vivantes meurt ( sous-population )\r\n - Une cellule vivante avec deux ou trois cellules voisines vivantes reste vivante\r\n - Une cellule vivante avec plus de trois cellules voisines vivantes meurt ( sur-population )\r\n - Une cellule morte avec exactement trois cellules voisines vivantes devient vivante ( reproduction )\r\n\r\nPour ce projet, on change légèrement les règles en transformant la grille infinie en un tore contenant un\r\nnombre fini de cellules. Les cellules les plus à gauche ont pour voisines les cellules les plus à droite\r\net inversement, et de même les cellules les plus en haut ont pour voisines les cellules les plus en bas\r\net inversement.\r\n\r\nOn itère ensuite pour étudier la façon dont évolue la population des cellules sur la grille.\r\n\"\"\"\r\nimport tkinter as tk\r\nimport numpy as np\r\n\r\nclass grille:\r\n \"\"\"\r\n Grille torique décrivant l'automate cellulaire.\r\n En entrée lors de la création de la grille :\r\n - dimensions est un tuple contenant le nombre de cellules dans les deux directions (nombre lignes, nombre colonnes)\r\n - init_pattern est une liste de cellules initialement vivantes sur cette grille (les autres sont considérées comme mortes)\r\n - color_life est la couleur dans laquelle on affiche une cellule vivante\r\n - color_dead est la couleur dans laquelle on affiche une cellule morte\r\n Si aucun pattern n'est donné, on tire au hasard quels sont les cellules vivantes et les cellules mortes\r\n Exemple :\r\n grid = grille( (10,10), init_pattern=[(2,2),(0,2),(4,2),(2,0),(2,4)], color_life=\"red\", color_dead=\"black\")\r\n \"\"\"\r\n def __init__( self, dim, init_pattern = None, color_life = \"black\", color_dead = \"white\" ):\r\n import random\r\n self.dimensions = dim\r\n if init_pattern is not None:\r\n self.cells = np.zeros(self.dimensions, dtype=np.uint8)\r\n indices_i = [v[0] for v in init_pattern]\r\n indices_j = [v[1] for v in init_pattern]\r\n self.cells[indices_i,indices_j] = 1\r\n else:\r\n self.cells = np.random.randint(2, size=dim, dtype=uint8)\r\n self.col_life = color_life\r\n self.col_dead = color_dead\r\n\r\n def compute_next_iteration(self):\r\n \"\"\"\r\n Calcule la prochaine génération de cellules en suivant les règles du jeu de la vie\r\n \"\"\"\r\n # Remarque 1: on pourrait optimiser en faisant du vectoriel, mais pour plus de clarté, on utilise les boucles\r\n # Remarque 2: on voit la grille plus comme une matrice qu'une grille géométrique. L'indice (0,0) est donc en haut\r\n # à gauche de la grille !\r\n ny = self.dimensions[0]\r\n nx = self.dimensions[1]\r\n next_cells = np.empty(self.dimensions, dtype=np.uint8)\r\n diff_cells = []\r\n for i in range(ny):\r\n i_above = (i+ny-1)%ny\r\n i_below = (i+1)%ny\r\n for j in range(nx):\r\n j_left = (j-1+nx)%nx\r\n j_right= (j+1)%nx\r\n voisins_i = [i_above,i_above,i_above, i , i , i_below, i_below, i_below]\r\n voisins_j = [j_left ,j ,j_right, j_left, j_right, j_left , j , j_right]\r\n voisines = np.array(self.cells[voisins_i,voisins_j])\r\n nb_voisines_vivantes = np.sum(voisines)\r\n if self.cells[i,j] == 1: # Si la cellule est vivante\r\n if (nb_voisines_vivantes < 2) or (nb_voisines_vivantes > 3):\r\n next_cells[i,j] = 0 # Cas de sous ou sur population, la cellule meurt\r\n diff_cells.append(inx+j)\r\n else:\r\n next_cells[i,j] = 1 # Sinon elle reste vivante\r\n elif nb_voisines_vivantes == 3: # Cas où cellule morte mais entourée exactement de trois vivantes\r\n next_cells[i,j] = 1 # Naissance de la cellule\r\n diff_cells.append(inx+j)\r\n else:\r\n next_cells[i,j] = 0 # Morte, elle reste morte.\r\n self.cells = next_cells\r\n return diff_cells\r\nclass App:\r\n \"\"\"\r\n Cette classe décrit la fenêtre affichant la grille à l'écran\r\n - geometry est un tuple de deux entiers donnant le nombre de pixels verticaux et horizontaux (dans cet ordre)\r\n - grid est la grille décrivant l'automate cellulaire (voir plus haut)\r\n \"\"\"\r\n def __init__(self, geometry, grid):\r\n self.grid = grid\r\n # Calcul de la taille d'une cellule par rapport à la taille de la fenêtre et de la grille à afficher :\r\n self.size_x = geometry[1]//grid.dimensions[1]\r\n self.size_y = geometry[0]//grid.dimensions[0]\r\n if self.size_x > 4 and self.size_y > 4 :\r\n self.draw_color='black'\r\n else:\r\n self.draw_color=\"\"\r\n # Ajustement de la taille de la fenêtre pour bien fitter la dimension de la grille\r\n self.width = grid.dimensions[1] self.size_x\r\n self.height= grid.dimensions[0] * self.size_y\r\n # Création de la fenêtre à l'aide de tkinter\r\n self.root = tk.Tk()\r\n # Création de l'objet d'affichage\r\n self.canvas = tk.Canvas(self.root, height = self.height, width = self.width)\r\n self.canvas.pack()\r\n #\r\n self.canvas_cells = []\r\n\r\n def compute_rectange(self, i : int, j : int):\r\n \"\"\"\r\n Calcul la géométrie du rectangle correspondant à la cellule (i,j)\r\n \"\"\"\r\n return (self.size_xj,self.height - self.size_yi - 1, self.size_xj+self.size_x-1, self.height - self.size_y(i+1) )\r\n\r\n def compute_color(self,i : int,j : int):\r\n if self.grid.cells[i,j] == 0:\r\n return self.grid.col_dead\r\n else:\r\n return self.grid.col_life\r\n\r\n def draw(self, diff):\r\n if len(self.canvas_cells) == 0:\r\n # Création la première fois des cellules en tant qu'entité graphique :\r\n self.canvas_cells = [self.canvas.create_rectangle(self.compute_rectange(i,j), fill=self.compute_color(i,j),outline=self.draw_color) for i in range(self.grid.dimensions[0]) for j in range(self.grid.dimensions[1])]\r\n else:\r\n nx = grid.dimensions[1]\r\n ny = grid.dimensions[0]\r\n [self.canvas.itemconfig(self.canvas_cells[ind], fill=self.compute_color(ind//nx,ind%nx),outline=self.draw_color) for ind in diff]\r\n self.root.update_idletasks()\r\n self.root.update()\r\n\r\nif __name__ == '__main__':\r\n import time\r\n import sys\r\n dico_patterns = { # Dimension et pattern dans un tuple\r\n 'blinker' : ((5,5),[(2,1),(2,2),(2,3)]),\r\n 'toad' : ((6,6),[(2,2),(2,3),(2,4),(3,3),(3,4),(3,5)]),\r\n \"acorn\" : ((100,100), [(51,52),(52,54),(53,51),(53,52),(53,55),(53,56),(53,57)]),\r\n \"beacon\" : ((6,6), [(1,3),(1,4),(2,3),(2,4),(3,1),(3,2),(4,1),(4,2)]),\r\n \"boat\" : ((5,5),[(1,1),(1,2),(2,1),(2,3),(3,2)]),\r\n \"glider\": ((100,90),[(1,1),(2,2),(2,3),(3,1),(3,2)]),\r\n \"glider_gun\": ((200,100),[(51,76),(52,74),(52,76),(53,64),(53,65),(53,72),(53,73),(53,86),(53,87),(54,63),(54,67),(54,72),(54,73),(54,86),(54,87),(55,52),(55,53),(55,62),(55,68),(55,72),(55,73),(56,52),(56,53),(56,62),(56,66),(56,68),(56,69),(56,74),(56,76),(57,62),(57,68),(57,76),(58,63),(58,67),(59,64),(59,65)]),\r\n \"space_ship\": ((25,25),[(11,13),(11,14),(12,11),(12,12),(12,14),(12,15),(13,11),(13,12),(13,13),(13,14),(14,12),(14,13)]),\r\n \"die_hard\" : ((100,100), [(51,57),(52,51),(52,52),(53,52),(53,56),(53,57),(53,58)]),\r\n \"pulsar\": ((17,17),[(2,4),(2,5),(2,6),(7,4),(7,5),(7,6),(9,4),(9,5),(9,6),(14,4),(14,5),(14,6),(2,10),(2,11),(2,12),(7,10),(7,11),(7,12),(9,10),(9,11),(9,12),(14,10),(14,11),(14,12),(4,2),(5,2),(6,2),(4,7),(5,7),(6,7),(4,9),(5,9),(6,9),(4,14),(5,14),(6,14),(10,2),(11,2),(12,2),(10,7),(11,7),(12,7),(10,9),(11,9),(12,9),(10,14),(11,14),(12,14)]),\r\n \"floraison\" : ((40,40), [(19,18),(19,19),(19,20),(20,17),(20,19),(20,21),(21,18),(21,19),(21,20)]),\r\n \"block_switch_engine\" : ((400,400), [(201,202),(201,203),(202,202),(202,203),(211,203),(212,204),(212,202),(214,204),(214,201),(215,201),(215,202),(216,201)]),\r\n \"u\" : ((200,200), [(101,101),(102,102),(103,102),(103,101),(104,103),(105,103),(105,102),(105,101),(105,105),(103,105),(102,105),(101,105),(101,104)]),\r\n \"flat\" : ((200,400), [(80,200),(81,200),(82,200),(83,200),(84,200),(85,200),(86,200),(87,200), (89,200),(90,200),(91,200),(92,200),(93,200),(97,200),(98,200),(99,200),(106,200),(107,200),(108,200),(109,200),(110,200),(111,200),(112,200),(114,200),(115,200),(116,200),(117,200),(118,200)])\r\n }\r\n choice = 'glider'\r\n if len(sys.argv) > 1 :\r\n choice = sys.argv[1]\r\n resx = 800\r\n resy = 800\r\n if len(sys.argv) > 3 :\r\n resx = int(sys.argv[2])\r\n resy = int(sys.argv[3])\r\n print(f\"Pattern initial choisi : {choice}\")\r\n print(f\"resolution ecran : {resx,resy}\")\r\n init_pattern = dico_patterns[choice]\r\n grid = grille(init_pattern)\r\n appli = App((resx,resy),grid)\r\n while(True):\r\n #time.sleep(0.5) # A régler ou commenter pour vitesse maxi\r\n t1 = time.time()\r\n diff = grid.compute_next_iteration()\r\n t2 = time.time()\r\n appli.draw(diff)\r\n t3 = time.time()\r\n print(f\"Temps calcul prochaine generation : {t2-t1:2.2e} secondes, temps affichage : {t3-t2:2.2e} secondes\\r\", end='');\r\n" }, { "alpha_fraction": 0.7728813290596008, "alphanum_fraction": 0.7762711644172668, "avg_line_length": 35.125, "blob_id": "73e740fa39f1b9b2f9b1314c228ffca8e62792f1", "content_id": "79d53f4f3a454ef305b784163f982e95b6990373", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 302, "license_type": "no_license", "max_line_length": 98, "num_lines": 8, "path": "/Projet/ProjetLaplacien/Readme.md", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "# Mise en place du laplacien.\r\n\r\nAller dans le répertoire HPNum et taper la commande :\r\n\r\n python3 setup.py install --user\r\n\r\nUne compilation devrait être enclenchée et les modules Python installés dans votre répertoire home\r\ndans un répertoire caché .local que Python sera trouver tout seul." }, { "alpha_fraction": 0.46240144968032837, "alphanum_fraction": 0.48362645506858826, "avg_line_length": 41.28205108642578, "blob_id": "7ab6df6f14093305e512cf15a6361333bbd6c1b4", "content_id": "eb1a0fc2e7213d7db75815b55d8aecb1a5c99220", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3298, "license_type": "no_license", "max_line_length": 100, "num_lines": 78, "path": "/Projet/ProjetLaplacien/VisuSplitMesh.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "import matplotlib.pyplot as plt\nimport matplotlib.tri as tri\nimport numpy as np\n\ndef view( coords, elt2verts, nbDoms, partition,\n indInterfNodes = None, visuIndElts = True,\n visuIndVerts = True, colmap = plt.cm.Accent, title = None,\n isPartVert = True) :\n fntcol = '#004000'\n quot = max(1, nbDoms-1)\n fig = plt.figure()\n fig.suptitle(title, fontsize=14, fontweight='bold')\n plt.gca().set_aspect('equal')\n x = coords[:,0]\n y = coords[:,1]\n if (partition.shape[0] == coords.shape[0]) and isPartVert :\n # C'est une partition par noeud :\n plt.tripcolor(x, y, elt2verts, partition, shading = 'gouraud', cmap=colmap)\n plt.triplot(x, y, elt2verts, 'bo-', color='black')\n else :\n # C'est une partition par element :\n isPartVert = False\n plt.tripcolor(x, y, elt2verts, facecolors = partition,\n edgecolors = 'k', cmap=colmap)\n if visuIndElts :\n for ie in range(elt2verts.shape[0]) :\n e = elt2verts[ie,:]\n bary = [(x[e[0]]+x[e[1]]+x[e[2]])/3., (y[e[0]]+y[e[1]]+y[e[2]])/3.]\n plt.text(bary[0],bary[1], u\"%i\"%ie, fontsize=10, fontweight='light',\n style='italic', ha='center', va='center', color=fntcol)\n if visuIndVerts :\n fntcol = 'black'\n iv = 0\n if isPartVert :\n for v in coords :\n szfnt = 11\n wfont = 'light'\n plt.text(v[0],v[1], u\"%i\"%iv,ha='center', va='center', \n fontsize=szfnt, color=fntcol, fontweight=wfont,\n backgroundcolor=colmap(partition[iv]/quot))\n iv += 1\n else :\n szfnt = 10\n wfont = 'light'\n mask = np.ones((coords.shape[0],), np.short)\n ie = 0\n for e in elt2verts :\n d = partition[ie]\n bcolor = colmap(d/quot) \n if mask[e[0]] == 1 :\n plt.text(x[e[0]],y[e[0]], u\"%i\"%e[0],ha='center', va='center',\n fontsize=szfnt, color=fntcol, fontweight=wfont, backgroundcolor=bcolor)\n mask[e[0]] = 0\n if mask[e[1]] == 1 :\n plt.text(x[e[1]],y[e[1]], u\"%i\"%e[1],ha='center', va='center',\n fontsize=szfnt, color=fntcol, fontweight=wfont, backgroundcolor=bcolor)\n mask[e[1]] = 0\n if mask[e[2]] == 1 :\n plt.text(x[e[2]],y[e[2]], u\"%i\"%e[2],ha='center', va='center',\n fontsize=szfnt, color=fntcol, fontweight=wfont, backgroundcolor=bcolor)\n mask[e[2]] = 0\n ie += 1\n\n if (indInterfNodes is not None) and visuIndVerts :\n for iv in indInterfNodes :\n v = coords[iv,:]\n szfnt = 12\n wfont = 'bold'\n d = partition[iv]\n bcolor = colmap(d/quot) \n if not isPartVert :\n bcolor = 'white'\n fntcol = 'black'\n plt.text(v[0],v[1], u\"%i\"%iv,ha='center', va='center',\n fontsize=szfnt, color=fntcol, fontweight=wfont,\n backgroundcolor=bcolor)\n plt.axis('off')\n plt.show()\n" }, { "alpha_fraction": 0.6985210180282593, "alphanum_fraction": 0.733219563961029, "avg_line_length": 25.223880767822266, "blob_id": "2fd5bcda1189542fdc73c67fd0109dfbe2f00fe3", "content_id": "585a78a7417f22c39b051818626858caebf8078e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1770, "license_type": "no_license", "max_line_length": 162, "num_lines": 67, "path": "/README.md", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "# ParisVI_2020\nTP calcul intensif parallele Paris 6, Premier trimestre civil 2020\n\nCours, TP et projets pour la promotion 2021\n\n## Installation des outils nécessaires aux TDs\n\n### Linux/debian \n\n sudo apt install build-essential make g++ gdb libopenmpi-dev python3-numpy python3-mpi4py\n\n### Windows 10\n\nInstallation d'ubuntu sous Windows 10 :\n\nAllez sur le lien suivant https://www.numerama.com/tech/158150-le-shell-bash-sous-windows-10-ce-quil-faut-savoir.html et suivez les instructions\n\nTaper bash dans la bare de questionnement.\nUne fois sous Linux :\n\n sudo apt update\n sudo apt install build-essential make g++ gdb libopenmpi-dev python3-numpy python3-mpi4py\n\n### Windows 7 ou 8\n\nInstaller msys 2 via le site :\n\nhttps://www.msys2.org/\n\n\nLancer le shell via mingw64\n\n pacman -Ss gcc # donne le nom du package contenant gcc\n pacman -S mingw64/mingw-w64-x86_64-gcc # install le package gcc avec le nom copié/collé précédent\n pacman -Syu # Màj du système\n\nInstaller gcc, make\n\nPour MPI, installer MS-MPI : https://www.microsoft.com/en-us/download/details.aspx?id=57467\n\nDans .bashrc :\n\n export PATH=$PATH:\"/c/Program Files/Microsoft MPI/Bin/\"\n\n\nExemple de commande de compilation :\n\n g++ -o HelloWorld.exe HelloWorld.cpp -L/c/Program\\ Files\\ \$x86\$/Microsoft\\ SDKs/MPI/Lib/x64 -I/c/Program\\ Files\\ \$x86\$/Microsoft\\ SDKs/MPI/Include -lmsmpi\n\nPour mpi4py, télécharger le fichier d'installation. Demander à Xavier Juvigny pour changer le setup.py pour l'adapter à windows...\n\n### Mac\n\nInstaller homebrew => https://brew.sh\n\nSuivre les instructions\n\n brew install gcc open-mpi numpy scipy matplotlib\n brew update # màj\n\nPuis \n pip3 install mpi4py\n\nA mettre dans le .bashrc:\n\n export OMPI_CC=gcc-9\n export OMPI_CXX=g++-9\n\n" }, { "alpha_fraction": 0.6368098258972168, "alphanum_fraction": 0.6453987956047058, "avg_line_length": 31.95833396911621, "blob_id": "e5a02baf0b1c6e52d890f249442db554e0bd028b", "content_id": "d374ee865ddd9fb1d2b8db591cc23f0e3f993791", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 816, "license_type": "no_license", "max_line_length": 61, "num_lines": 24, "path": "/TP_two/mpi_minimal_skeleton.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "# Importation du module MPI\r\nfrom mpi4py import MPI\r\n# Pour mesurer le temps passer dans une partie du code\r\nimport time\r\n# Duplication du communicateur :\r\ncomm = MPI.COMM_WORLD.Dup()\r\n# Interrogation du contexte MPI :\r\nrank = comm.rank\r\nsize = comm.size\r\n# Ouverture d'un fichier nom unique mode simple\r\nfileName = f\"sortie{rank:03d}.txt\"\r\nprint(f\"filename 1 : {fileName}\")\r\n## Ouverture d'un fichier nom unique mode compliqué\r\n###################################################\r\n#nb_characters_for_rank = len(f\"{size-1}\")\r\n#format_int = f\":0{nb_characters_for_rank}d\"\r\n#fileName = (\"sortie{\" + format_int + \"}.txt\").format(rank)\r\n#print(f\"filename 2 : {fileName}\")\r\n#\r\nfile = open(fileName, mode=\"w\")\r\nfile.write(f\"Rang du processus : {rank}\\n\")\r\nfile.write(f\"Nombre de processus : {size}\\n\")\r\n\r\nfile.close()\r\n" }, { "alpha_fraction": 0.6042709350585938, "alphanum_fraction": 0.6114447712898254, "avg_line_length": 36, "blob_id": "57f1935541b0f2fa83b307baa775460e409e6ece", "content_id": "7bc33186e2728fa92fd3379bd8c321d88d5c742d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 5997, "license_type": "no_license", "max_line_length": 83, "num_lines": 162, "path": "/Projet/ProjetLaplacien/HPNum/CPySplitter.cpp", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "# include <Python.h>\n# include <math.h>\n# include <list>\n# include <iostream>\n# include <algorithm>\n# include <numpy/arrayobject.h>\n# include <metis.h>\n\nstatic char doc_splitNodeMesh[] =\n \"Usage : metis.splitNodeMesh( nbDoms, (begRows, indCols) )\"\n \"where nbDoms is the number of subdomains\"\n \"and (begRows,indCols) are the graph of the matrix.\"\n \"return set of nodes per domains\\n\";\nstatic PyObject* py_splitNodeMesh( PyObject* self, PyObject* args )\n{\n PyArrayObject pyBegRows, pyIndCols;\n int nbSubDomains;\n \n if ( !PyArg_ParseTuple( args, \"i(O!O!)\", &nbSubDomains,\n\t\t\t &PyArray_Type, &pyBegRows,\n\t\t\t &PyArray_Type, &pyIndCols ) ) return NULL;\n const long* begRows = (const long)PyArray_DATA(pyBegRows);\n const long indCols = (const long)PyArray_DATA(pyIndCols);\n\n idx_t nbVerts = idx_t(PyArray_DIM(pyBegRows,0))-1;\n idx_t ncon = 1;\n idx_t xadj = new idx_t[nbVerts+1];\n std::copy(begRows, begRows + nbVerts + 1, xadj );\n idx_t* adjncy = new idx_t[xadj[nbVerts]];\n std::copy(indCols, indCols + begRows[nbVerts], adjncy );\n idx_t nbDoms = nbSubDomains;\n idx_t objval;\n idx_t part = new idx_t[nbVerts]; \n int ok = METIS_PartGraphKway(&nbVerts, &ncon, xadj, adjncy, NULL, NULL, NULL,\n\t\t\t &nbDoms, NULL, NULL, NULL, &objval, part );\n / On compte maintenant le nombre de noeuds appartenant à chaque domaine :\n /\n long nbNodesPerDomains = new long[nbSubDomains];\n std::fill_n(nbNodesPerDomains, nbSubDomains, 0);\n for ( int i = 0; i < nbVerts; ++i ) {\n nbNodesPerDomains[part[i]] += 1;\n }\n PyObject* pyLst = PyList_New(nbSubDomains);\n PyArrayObject* indVertSubDomains;\n long** ptIndVertices = new long[nbSubDomains];\n for ( long i = 0; i < nbSubDomains; ++i ) {\n npy_intp nbVerts = nbNodesPerDomains[i];\n indVertSubDomains = (PyArrayObject)PyArray_SimpleNew(1,&nbVerts,PyArray_LONG);\n PyList_SetItem(pyLst, i, (PyObject)indVertSubDomains);\n ptIndVertices[i] = (long)PyArray_DATA(indVertSubDomains);\n }\n std::fill_n(nbNodesPerDomains, nbSubDomains, 0);\n for ( long i = 0; i < nbVerts; ++i ) {\n ptIndVertices[part[i]][nbNodesPerDomains[part[i]]] = i;\n nbNodesPerDomains[part[i]] += 1;\n }\n delete [] ptIndVertices;\n delete [] nbNodesPerDomains; delete [] part;\n delete [] adjncy; delete [] xadj;\n return Py_BuildValue(\"N\", pyLst);\n}\n// ------------------------------------------------------------------------\nstatic char doc_splitEltMesh[] =\n \"Usage : metis.splitEltMesh( nbDoms, nbVerts, elt2verts )\"\n \"where nbDoms is the number of subdomains, \"\n \"nbVerts the number of vertices in the mesh and \"\n \"elt2verts is the element to vertices connexion.\"\n \"return a set of elements per domains\\n\";\n\nstatic PyObject* py_splitEltMesh( PyObject* self, PyObject* args )\n{\n int nbSubDoms, nbVerts;\n PyArrayObject py_elt2verts;\n if (!PyArg_ParseTuple( args, \"iiO!\", &nbSubDoms, &nbVerts,\n\t\t\t &PyArray_Type, &py_elt2verts ) )\n return NULL;\n const long elt2verts = (const long)PyArray_DATA(py_elt2verts);\n\n idx_t nn = nbVerts;\n idx_t ne = idx_t(PyArray_DIM(py_elt2verts,0));\n std::cout << \"nn = \" << nn << std::endl;\n std::cout << \"ne = \" << ne << std::endl;\n idx_t eptr = new idx_t[ne+1];\n eptr[0] = 0;\n for ( long i = 1; i <= ne; ++i ) eptr[i] = eptr[i-1]+3;\n idx_t* eind = new idx_t[3ne];\n std::copy(elt2verts, elt2verts + 3ne, eind);\n idx_t ncommon = 2;\n idx_t nparts = nbSubDoms;\n idx_t objval;\n idx_t* epart = new idx_t[ne];\n idx_t* npart = new idx_t[nn];\n int ok = METIS_PartMeshDual(&ne, &nn, eptr, eind, NULL, NULL,\n\t\t\t &ncommon, &nparts, NULL, NULL, &objval,\n\t\t\t epart, npart);\n /* On compte le nombre d'éléments par domaine : /\n long nbEltsPerDoms = new long[nbSubDoms];\n std::fill_n(nbEltsPerDoms, nbSubDoms, 0);\n for ( long i = 0; i < ne; ++i ) {\n nbEltsPerDoms[epart[i]] += 1;\n }\n PyObject* pyLst = PyList_New(nbSubDoms);\n PyArrayObject* indEltSubDoms;\n long** ptIndElts = new long[nbSubDoms];\n for ( long i = 0; i < nbSubDoms; ++i ) {\n npy_intp nbElts = nbEltsPerDoms[i];\n indEltSubDoms = (PyArrayObject)PyArray_SimpleNew(1,&nbElts,PyArray_LONG);\n PyList_SetItem(pyLst, i, (PyObject)indEltSubDoms);\n ptIndElts[i] = (long)PyArray_DATA(indEltSubDoms);\n }\n std::fill_n(nbEltsPerDoms, nbSubDoms, 0);\n for ( long i = 0; i < ne; ++i ) {\n ptIndElts[epart[i]][nbEltsPerDoms[epart[i]]] = i;\n nbEltsPerDoms[epart[i]] += 1;\n }\n \n delete [] nbEltsPerDoms;\n delete [] npart; delete [] epart;\n delete [] eind ; delete [] eptr ;\n return Py_BuildValue(\"N\", pyLst);\n}\n// ========================================================================\nstatic PyMethodDef Py_Methods[] =\n {\n {\"splitNodeMesh\", py_splitNodeMesh, METH_VARARGS, doc_splitNodeMesh},\n {\"splitEltMesh\" , py_splitEltMesh , METH_VARARGS, doc_splitEltMesh },\n {NULL, NULL} /* Guards /\n };\n// ========================================================================\n#if PY_MAJOR_VERSION >= 3\n static struct PyModuleDef splittermoduledef = {\n PyModuleDef_HEAD_INIT,\n \"splitter\", // Nom du module\n \"Partitionner of mesh using metis\", // Documentation du module,\n -1 , // Taille du module ?\n Py_Methods , // Fonctions du module\n NULL, // m_reload ?\n NULL, // m_traverse ?\n NULL, // m_clear\n NULL, // m_free\n };\nPyMODINIT_FUNC PyInit_splitter(void)\n{\n PyObject m; \n m = PyModule_Create(&splittermoduledef);\n if (m==NULL) return NULL;\n /* important : initialize numpy to use in subroutines !!!! /\n import_array();\n return m;\n}\n#else \nstatic char splitter_doc[] = \"Partitionner of mesh using metis\";\nPyMODINIT_FUNC initsplitter()\n{\n PyObject m; \n m = Py_InitModule4(\"splitter\",Py_Methods, splitter_doc,\n\t\t (PyObject)NULL,PYTHON_API_VERSION);\n if (m==NULL) return;\n / important : initialize numpy to use in subroutines !!!! /\n import_array();\n}\n#endif\n" }, { "alpha_fraction": 0.5788390040397644, "alphanum_fraction": 0.5994236469268799, "avg_line_length": 36.55555725097656, "blob_id": "52a52862bbd0b2710877475462e63a5fca25440f", "content_id": "98b9b62c3ce501122bec12a4885c9cc3e6fddbfb", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2445, "license_type": "no_license", "max_line_length": 90, "num_lines": 63, "path": "/TP_three/Produit_matrice_matrice.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "import math\r\nimport numpy as np\r\n\r\ndef compute_tensors(dim):\r\n \"\"\"\r\n Calcul deux paires de tenseurs qui serviront pour définir deux matrices de rang 1\r\n \r\n :param dim: La dimension des matrices (carrées)\r\n :type dim: Entier\r\n \"\"\"\r\n u1 = np.cos(np.array([1.67imath.pi/dim for i in range(dim)]))\r\n u2 = np.sin(np.array([2.03imath.pi/dim for i in range(dim)]))\r\n v1 = np.cos(np.array([1.23iimath.pi/(7.5dim) for i in range(dim)]))\r\n v2 = np.sin(np.array([0.675i/(3.1dim) for i in range(dim)]))\r\n return u1, u2, v1, v2\r\n\r\ndef verif_product( uA, vA, uB, vB, C):\r\n \"\"\"\r\n Vérification du résultat produit matrice matrice grâce à la formule :\r\n A = u_A.v_A^{T}\r\n B = u_B.v_B^{T}\r\n => C= A.B = u_A.<v_A\|u_B>v_B^{T} où < \| > est un produit scalaire\r\n\r\n :param uA: Le vecteur u à gauche du produit tensoriel définissant A\r\n :type uA: Vecteur numpy\r\n :param vA: Le vecteur v à droite du produit tensoriel définissant A\r\n :type vA: Vecteur numpy\r\n :param uB: Le vecteur u à gauche du produit tensoriel définissant B\r\n :type uB: Vecteur numpy\r\n :param vB: Le vecteur v à droite du produit tensoriel définissant B\r\n :type vB: Vecteur numpy\r\n :param C: La matrice résultante du produit matrice-matrice\r\n :type C: Un vecteut deux dimensions de numpy\r\n \"\"\"\r\n vA_dot_uB = np.dot(vA, uB)\r\n diff_values = np.abs(C - np.tensordot(uA, vA_dot_uB vB, axes = 0))\r\n max_error = np.argmax(diff_values)\r\n if diff_values.flat[max_error] > 1.E-10:\r\n i = max_error//dim\r\n j = max_error%dim\r\n val = uA[i] * vA_dot_uB * vB[j]\r\n print(f\"Erreur numerique : valeur attendue pour C({i},{j}) -> {val}\")\r\n print(f\"mais la valeur calculee est : {C[i,j]}\")\r\n raise ValueError(\"Erreur dans le calcul du produit matrice matrice\")\r\n\r\nimport sys\r\nimport time\r\ndim = 1024\r\nif len(sys.argv) > 1 : dim = int(sys.argv[1])\r\n\r\nuA, vA, uB, vB = compute_tensors(dim)\r\nA = np.tensordot(uA,vA,axes=0)\r\nB = np.tensordot(uB,vB,axes=0)\r\n\r\nstart = time.time()\r\nC = A.dot(B)\r\nend = time.time()\r\n\r\nverif_product(uA, vA, uB, vB, C)\r\nprint(\"Test passe\")\r\nelapse_time = max(end-start,1.E-14)\r\nprint(f\"Temps CPU produit matrice-matrice : {elapse_time} secondes\")\r\nprint(f\"MFlops pour le produit matrice matrice : {2(dim3)/elapse_time/1000000} MFlops\")\r\n" }, { "alpha_fraction": 0.4626370072364807, "alphanum_fraction": 0.47359681129455566, "avg_line_length": 32.422855377197266, "blob_id": "d9ba80aecc529c9f926010c47a30c01e09e0fbbf", "content_id": "21fc73328f6e8f9df349b4320c757af9ab71748c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 6027, "license_type": "no_license", "max_line_length": 109, "num_lines": 175, "path": "/Projet/ProjetLaplacien/HPNum/hilbert_curve.hpp", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "#ifndef _HILBERT_CURVE_HPP_\r\n#define _HILBERT_CURVE_HPP_\r\n#include <stdexcept>\r\n#include <iostream>\r\n#include <vector>\r\n\r\nclass HilbertCurve\r\n{\r\npublic:\r\n HilbertCurve( unsigned niter, unsigned dim ) : number_of_iterations(niter), dimension(dim)\r\n {\r\n this->max_h = (1ULL<<(niterdim))-1;\r\n this->max_x = (1ULL<<niter)-1;\r\n }\r\n\r\n /*\r\n @brief Return the coordinates for a given hilbert distance.\r\n \r\n @param[in] h integer distance along hilbert curve\r\n \r\n @return transpose of h (n components with values between 0 and 2*niter-1)\r\n /\r\n std::vector<unsigned long long> coordinates_from_distance( unsigned long long h)\r\n {\r\n if (h > this->max_h)\r\n throw std::domain_error(\"h is greater than 2^(niterdim)\");\r\n auto x = this->_hilbert_integer_to_transpose(h);\r\n unsigned long long Z = 2ULL << (this->number_of_iterations -1);\r\n // Gray decode by H ^ (H/2)\r\n unsigned long long t = x[this->dimension-1] >> 1;\r\n for ( int i = this->dimension-1; i > 0; --i)\r\n x[i] ^= x[i-1]; \r\n x[0] ^= t;\r\n\r\n // Undo excess work\r\n unsigned long long Q = 2ULL;\r\n while (Q != Z)\r\n {\r\n unsigned long long P = Q - 1;\r\n for (int i = this->dimension-1; i >= 0; --i )\r\n if (x[i] & Q) // invert\r\n x[0] ^= P;\r\n else\r\n { // Exchange\r\n unsigned long long t = (x[0] ^ x[i])&P;\r\n x[0] ^= t;\r\n x[i] ^= t;\r\n }\r\n Q <<= 1;\r\n }\r\n // done\r\n return x;\r\n }\r\n/ def distance_from_coordinates(self, x_in):\r\n \"\"\"Return the hilbert distance for a given set of coordinates.\r\n\r\n Args:\r\n x_in (list): transpose of h/\r\n\r\n /\r\n @brief Return the hilbert distance for a given set of coordinates.\r\n \r\n @param[in] x_in transpose of h\r\n (n components with values between 0 and 2*p-1)\r\n \r\n * @return integer distance along hilbert curve\r\n /\r\n unsigned long long distance_from_coordinates( const std::vector<unsigned long long>& x_in)\r\n {\r\n if (x_in.size() != this->dimension)\r\n throw std::domain_error(\"x must have size equal to the dimension of space\");\r\n for ( const auto& val : x_in )\r\n if (val > this->max_x)\r\n throw std::domain_error(\"A value in x_in has invalid coordinate\");\r\n unsigned long long M = 1ULL << (this->number_of_iterations -1);\r\n\r\n std::vector<unsigned long long> x(x_in);\r\n // Inverse undo excess work\r\n unsigned long long Q = M;\r\n while (Q > 1ULL)\r\n {\r\n unsigned long long P = Q - 1;\r\n for ( int i = 0; i < this->dimension; ++i )\r\n if (x[i] & Q)\r\n x[0] ^= P;\r\n else\r\n {\r\n unsigned long long t = (x[0] ^ x[i]) & P;\r\n x[0] ^= t;\r\n x[i] ^= t;\r\n }\r\n Q >>= 1;\r\n }\r\n // Gray encode\r\n for ( int i = 1; i < this->dimension; ++i )\r\n x[i] ^= x[i-1];\r\n unsigned long long t = 0;\r\n Q = M;\r\n while (Q > 1)\r\n {\r\n if (x[this->dimension-1] & Q)\r\n t ^= Q - 1;\r\n Q >>= 1;\r\n }\r\n for (int i = 0; i < this->dimension; ++i )\r\n x[i] ^= t;\r\n\r\n unsigned long long h = this->_transpose_to_hilbert_integer(x);\r\n return h;\r\n }\r\n\r\nprivate:\r\n /\r\n @brief Convertit un entier de Hilbert en une coordonnée à n dimensions (valeurs entre 0 et 2^p-1)\r\n \r\n @param[in] h L'entier d'Hilbert\r\n \r\n @return La coordonnée du point entier sur l'hypercube [0,2^p-1]^n\r\n /\r\n std::vector<unsigned long long> _hilbert_integer_to_transpose( unsigned long long h )\r\n {\r\n std::vector<unsigned long long> x;\r\n for ( unsigned idim = 0; idim < this->dimension; ++idim )\r\n {\r\n x[idim] = 0;\r\n for ( unsigned iter = 0; iter < this->number_of_iterations; ++iter )\r\n {\r\n if (h & (1ULL<<(idim+iterthis->dimension)))\r\n x[idim] += (1ULL<<iter);\r\n }\r\n }\r\n //h_bit_str = _binary_repr(h, self.pself.n)\r\n //x = [int(h_bit_str[i::self.n], 2) for i in range(self.n)]\r\n return x;\r\n }\r\n\r\n /\r\n @brief Restaure un entier d'hilbert de sa transposée x\r\n \r\n @param[in] x Les coordonnées de point d'hilbert\r\n \r\n @return L'entier d'hilbert (distance dans la courbe d'hilbert)\r\n /\r\n unsigned long long _transpose_to_hilbert_integer( const std::vector<unsigned long long>& x )\r\n {\r\n unsigned long long h = 0ULL;\r\n for ( unsigned idim = 0; idim < this->dimension; ++idim)\r\n {\r\n for ( unsigned iter = 0; iter < this->number_of_iterations ; ++iter )\r\n {\r\n if (x[idim] & (1ULL<<iter))\r\n {\r\n h \|= (1ULL<<((this->dimension-idim-1)+iterthis->dimension));\r\n //std::cout << \"1\";\r\n }\r\n //else std::cout << \"0\";\r\n }\r\n //std::cout << \" \";\r\n }\r\n /def _transpose_to_hilbert_integer(self, x):\r\n x_bit_str = [_binary_repr(x[i], self.p) for i in range(self.n)]\r\n h = int(''.join([y[i] for i in range(self.p) for y in x_bit_str]), 2)\r\n return h\r\n/\r\n return h;\r\n }\r\n\r\n unsigned number_of_iterations;// Nbre iterations utilise dans la courbe d'Hilbert\r\n unsigned dimension; // Dimension de l'espace\r\n unsigned long long max_h; // Distance maximale possible pour cette courbe d'Hilbert\r\n unsigned long long max_x; // Valeur max d'une coordonnee dans toute direction\r\n};\r\n\r\n\r\n#endif" }, { "alpha_fraction": 0.4926542639732361, "alphanum_fraction": 0.5710088014602661, "avg_line_length": 20.19565200805664, "blob_id": "b28d675543e5cd3a48856c3b55be069fee841980", "content_id": "f4ed7f5f356a5b5ef13e7fb635994ee7b37ced86", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1021, "license_type": "no_license", "max_line_length": 78, "num_lines": 46, "path": "/TP_one/laplacien.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "from math import pi\r\nimport numpy as np\r\nimport time\r\nimport matplotlib.pyplot as plt\r\n\r\nnx,ny = (1000,1000)\r\nxcoords = np.linspace(-5,5,nx)\r\nycoords = np.linspace(-5,5,ny)\r\n\r\nxv,yv = np.meshgrid(xcoords,ycoords)\r\n\r\nu = np.cos(1.4(xv2+yv2))/(xv2+yv2+0.0001)\r\n\r\nh = plt.contourf(xv,yv,u)\r\nplt.show()\r\n\r\nv = np.zeros(u.shape)\r\n\r\nt1 = time.time()\r\nfor i in range(1,u.shape[0]-1):\r\n for j in range(1,u.shape[1]-1):\r\n v[i,j] = u[i-1,j]+u[i+1,j]+u[i,j-1]+u[i,j+1]-4u[i,j]\r\nt2 = time.time()\r\nprint(f\"Temps calcul laplacien : {t2-t1} secondes\")\r\n\r\nh2 = plt.contourf(xv,yv,v)\r\nplt.show()\r\n\r\nv2 = np.zeros(u.shape)\r\n\r\nt1 = time.time()\r\nv2[1:-1,1:-1] = u[0:-2,1:-1]+u[2:,1:-1]+u[1:-1,0:-2]+u[1:-1,2:]-4u[1:-1,1:-1]\r\nt2 = time.time()\r\nprint(f\"Temps calcul laplacien vectorise : {t2-t1} secondes\")\r\n\r\nh3 = plt.contourf(xv,yv,v2)\r\nplt.show()\r\n\r\ndiff = v2 - v\r\nh3 = plt.contourf(xv,yv,diff)\r\nplt.show()\r\n\r\n#t1 = time.time()\r\n###for i in range(1,u.shape[0]-1):\r\n## v[i] = u[i+1]+u[i-1]-2u[i]\r\n#t2 = time.time()\r\n" }, { "alpha_fraction": 0.4939759075641632, "alphanum_fraction": 0.5662650465965271, "avg_line_length": 19.5, "blob_id": "89b559e6d0a3a648dff86224780717c6855b0dd5", "content_id": "fdcef396dbd92d6cb7d95fdf26444c3a75718a22", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 83, "license_type": "no_license", "max_line_length": 54, "num_lines": 4, "path": "/Projet/ProjetLaplacien/test.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "import laplacian\n\na = laplacian.comp_eltmat( (0.,0.), (1.,0.), (0.,1.) )\nprint(a)\n\n" }, { "alpha_fraction": 0.5615568161010742, "alphanum_fraction": 0.5722795724868774, "avg_line_length": 31.49333381652832, "blob_id": "d3c4ed7fffa1521d10a17431016bae902b67dc32", "content_id": "5f46e5f4773f8fd579375735e2a46d2beb7f1d17", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2518, "license_type": "no_license", "max_line_length": 166, "num_lines": 75, "path": "/Projet/ProjetLaplacien/conjugate_gradient.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "\"\"\"\r\nAlgorithme du gradient conjugue preconditionne.\r\n\"\"\"\r\nimport numpy as np\r\nfrom math import sqrt\r\n\r\ndef solver_gc( A, b, x0 = None, M = None, tol = 1.E-7, niterMax=100,\r\n prodMatVect = None, prodPrecVect = None, prodScal = None,\r\n verbose = False ):\r\n \"\"\"\r\n Utilisation :\r\n importer ce module dans votre ficher python avec :\r\n from conjugate_gradient import \r\n Puis lors de son utilisation :\r\n\r\n sol, info = solver_gc(spMatrix, b, None, tol=1.E-14, M=None, verbose=True)\r\n print(f\"info : {info}\")\r\n\r\n ou sol contient la solution, et info est un tuple contenant le residu final et le nombre d'iteration necessaire pour converger.\r\n\r\n De facon generale, les parametres de la fonction sont :\r\n\r\n A est la matrice du systeme lineaire A.x = b, b le second membre. Le troisieme argument x0 peut etre mis a None si il est au depart nul.\r\n tol est la convergence desiree, M le preconditionneur, niterMax le nombre max d'iterations tolere, prodMatVect si besoin est une fonction redefinissant le produit\r\n matrice-vecteur (sinon on prend A.dot comme produit matrice-vecteur), prodPrecVect le produit preconditionneur-vecteur (sinon on utilise M.dot ... ), prodScal si\r\n on souhaite modifier le produit scalaire, et enfin verbose qui si il est a True, affiche les residus a chaque iteration, et sinon\r\n n'affiche rien...\r\n \"\"\"\r\n prodA = prodMatVect \r\n if prodA is None:\r\n prodA = A.dot\r\n prodM = prodPrecVect\r\n if prodM is None:\r\n if M is not None:\r\n prodM = M.dot\r\n dotS = prodScal\r\n if dotS is None:\r\n dotS = np.dot\r\n\r\n if x0 is not None:\r\n r = b - prodA(x0)\r\n else:\r\n r = b\r\n if prodM:\r\n p = prodM(r)\r\n else:\r\n p = r\r\n z = p\r\n\r\n if x0:\r\n x = x0.copy()\r\n else:\r\n x = np.zeros(b.shape[0], b.dtype)\r\n err0 = dotS(r,r)\r\n if verbose :\r\n print(f\"Norme L2 initiale de l'erreur : {sqrt(err0)}\")\r\n err = err0\r\n nit = 0\r\n while (err>err0toltol) and (nit < niterMax):\r\n Apk = prodA(p)\r\n rkzk = dotS(r,z)\r\n alpha = rkzk/dotS(Apk,p)\r\n x = x + alpha p\r\n r = r - alpha * Apk\r\n if prodM:\r\n z = prodM(r)\r\n else:\r\n z = r\r\n beta = dotS(r,z)/rkzk\r\n p = z + beta * p\r\n err = dotS(r,r)\r\n nit += 1\r\n if verbose:\r\n print(f\"\|\|r_{nit:03}\|\|_L2 : {sqrt(err/err0)}\")\r\n return x, (sqrt(err/err0), nit)\r\n \r\n" }, { "alpha_fraction": 0.5526315569877625, "alphanum_fraction": 0.6195175647735596, "avg_line_length": 23.27777862548828, "blob_id": "cea4e3d390305de679b34ed69051d39052df018f", "content_id": "300a590930ae540903145bfbf441e274b0700fcf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 912, "license_type": "no_license", "max_line_length": 50, "num_lines": 36, "path": "/TP_one/scan.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "import numpy as np\r\nimport numpy.linalg as linalg\r\n\r\nu1 = np.arange(0,10,0.01)\r\nu2 = np.arange(0,10,0.01)\r\n\r\n# Dependance avant : pas de soucis a\r\n# vectoriser\r\nfor i in range(0,u1.shape[0]-1):\r\n u1[i] += u1[i+1]\r\n# OK, vectorisation valide\r\nu2[0:-1] += u2[1:]\r\n\r\n# Difference entre la solution non vectorisee\r\n# et la solution vectorisee( doit etre nulle).\r\ndiff = u2 - u1\r\nerrL2 = linalg.norm(diff)\r\nprint(f\"Erreur L2 sur les deux calculs : {errL2}\")\r\n\r\n\r\nu1 = np.arange(0,10,0.01)\r\nu2 = np.arange(0,10,0.01)\r\n\r\n# Dependance arriere : Vectorisation\r\n# fausse !\r\nfor i in range(1,u1.shape[0]):\r\n u1[i] += u1[i-1]\r\n# vectorisation invalide !\r\nu2[1:] += u2[0:-1]\r\n\r\n# Difference entre la solution non vectorisee\r\n# et la solution vectorisee (difference non\r\n# nulle !)\r\ndiff = u2 - u1\r\nerrL2 = linalg.norm(diff)\r\nprint(f\"Erreur L2 sur les deux calculs : {errL2}\")\r\n\r\n" }, { "alpha_fraction": 0.5015929341316223, "alphanum_fraction": 0.5582301020622253, "avg_line_length": 31.84883689880371, "blob_id": "389244ad17341165a0c9f312c350e6f1d90f87c2", "content_id": "643c9dd6303de646cd9ee8224a23298f6cd86ba0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "C++", "length_bytes": 2826, "license_type": "no_license", "max_line_length": 81, "num_lines": 86, "path": "/Projet/ProjetLaplacien/HPNum/CPyLaplacian.cpp", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "# include <Python.h>\n# include <math.h>\n# include <algorithm>\n# include <iostream>\n# include <numpy/arrayobject.h>\n\nstatic char compElemMatrix_doc[] =\n \"Compute the elementary matrix of a laplacian in 2D.\";\nstatic PyObject* py_compElemMatrix( PyObject* self, PyObject* args )\n{\n double v1x, v1y, v2x, v2y, v3x, v3y;\n npy_intp nd[2];\n\n if ( !PyArg_ParseTuple(args, \"(dd)(dd)(dd)\", &v1x, &v1y, &v2x, &v2y,\n\t\t\t &v3x, &v3y ) ) return NULL;\n nd[0] = 3; nd[1] = 3;\n PyArrayObject* pyAElt = (PyArrayObject)PyArray_SimpleNew(2,nd,PyArray_DOUBLE);\n if (pyAElt == NULL ) {\n return NULL;\n }\n double A1A3[2], A1A2[2], A2A3[2];\n A1A3[0] = v3x - v1x; A1A3[1] = v3y - v1y;\n A1A2[0] = v2x - v1x; A1A2[1] = v2y - v1y;\n A2A3[0] = v3x - v2x; A2A3[1] = v3y - v2y;\n\n double SqA1A3 = A1A3[0]A1A3[0] + A1A3[1]A1A3[1];\n double A1A2dotA1A3 = A1A2[0]A1A3[0] + A1A2[1]A1A3[1];\n double SqA2A3 = A2A3[0]A2A3[0] + A2A3[1]A2A3[1];\n double AElt = (double)PyArray_DATA(pyAElt);\n std::fill_n( AElt, 9, 0.);\n // Premiere ligne :\n AElt[0] = 0.5(SqA1A3 -2.A1A2dotA1A3 + SqA2A3 );\n AElt[1] = -0.5( SqA1A3 - A1A2dotA1A3 ); \n AElt[2] = -0.5( SqA2A3 - A1A2dotA1A3 );\n // Deuxieme ligne :\n AElt[3] = AElt[1];\n AElt[4] = 0.5SqA1A3; \n AElt[5] = -0.5A1A2dotA1A3;\n // Troisième ligne :\n AElt[6] = AElt[2];\n AElt[7] = AElt[5];\n AElt[8] = 0.5SqA2A3;\n PyObject* ret = Py_BuildValue(\"O\",(PyObject)pyAElt);\n Py_DECREF(pyAElt);\n return ret;\n}\n// ========================================================================\nstatic PyMethodDef Py_Methods[] =\n {\n {\"comp_eltmat\", py_compElemMatrix, METH_VARARGS, compElemMatrix_doc},\n {NULL, NULL} / Guards /\n };\n// ========================================================================\n#if PY_MAJOR_VERSION >= 3\n static struct PyModuleDef laplacianmoduledef = {\n PyModuleDef_HEAD_INIT,\n \"laplacian\", // Nom du module\n \"Laplacian equation discretization\", // Documentation du module,\n -1 , // Taille du module ?\n Py_Methods , // Fonctions du module\n NULL, // m_reload ?\n NULL, // m_traverse ?\n NULL, // m_clear\n NULL, // m_free\n };\nPyMODINIT_FUNC PyInit_laplacian(void)\n{\n PyObject m; \n m = PyModule_Create(&laplacianmoduledef);\n if (m==NULL) return NULL;\n /* important : initialize numpy to use in subroutines !!!! /\n import_array();\n return m;\n}\n#else \nstatic char laplacian_doc[] = \"Finite Element Method\";\nPyMODINIT_FUNC initlaplacian()\n{\n PyObject m; \n m = Py_InitModule4(\"laplacian\",Py_Methods, laplacian_doc,\n\t\t (PyObject)NULL,PYTHON_API_VERSION);\n if (m==NULL) return;\n / important : initialize numpy to use in subroutines !!!! /\n import_array();\n}\n#endif\n" }, { "alpha_fraction": 0.4751332104206085, "alphanum_fraction": 0.5692717432975769, "avg_line_length": 20.979591369628906, "blob_id": "e64cb18a6b5bd0b8c40822f844960cda4f395568", "content_id": "ea07f7d786d19950d0d4001e91f005c4e1ae7bef", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1126, "license_type": "no_license", "max_line_length": 74, "num_lines": 49, "path": "/TP_one/laplacien_iterativ_filter.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "from math import pi\r\nimport numpy as np\r\nimport time\r\nimport matplotlib.pyplot as plt\r\n\r\nnx,ny = (1000,1000)\r\nxcoords = np.linspace(-5,5,nx)\r\nycoords = np.linspace(-5,5,ny)\r\n\r\nxv,yv = np.meshgrid(xcoords,ycoords)\r\n\r\nu = np.cos(1.4(xv2+yv2))\r\nh = plt.contourf(xv,yv,u)\r\nplt.show()\r\n\r\nt1 = time.time()\r\nfor i in range(1,u.shape[0]-1):\r\n for j in range(1,u.shape[1]-1):\r\n u[i,j] = 0.25(u[i-1,j]+u[i+1,j]+u[i,j-1]+u[i,j+1])\r\nt2 = time.time()\r\nprint(f\"Temps calcul moyenne : {t2-t1} secondes\")\r\n\r\nh2 = plt.contourf(xv,yv,u)\r\nplt.show()\r\n\r\nu2 = np.cos(1.4(xv2+yv2))\r\nt1 = time.time()\r\nu2[1:-1,1:-1] = 0.25(u2[0:-2,1:-1]+u2[2:,1:-1]+u2[1:-1,0:-2]+u2[1:-1,2:])\r\nt2 = time.time()\r\nprint(f\"Temps calcul moyenne : {t2-t1} secondes\")\r\n\r\nh3 = plt.contourf(xv,yv,u)\r\nplt.show()\r\n\r\ndiff = u2 - u\r\nh4 = plt.contourf(xv,yv,diff)\r\nplt.show()\r\n\r\nu = np.cos(1.4(xv2+yv2))\r\nv2 = np.zeros(u.shape)\r\n\r\nt1 = time.time()\r\nv2[1:-1,1:-1] = 0.25(u[0:-2,1:-1]+u[2:,1:-1]+u[1:-1,0:-2]+u[1:-1,2:])\r\nt2 = time.time()\r\nprint(f\"Temps calcul moyenne : {t2-t1} secondes\")\r\n\r\ndiff = u2 - v2\r\nh5 = plt.contourf(xv,yv,diff)\r\nplt.show()\r\n" }, { "alpha_fraction": 0.5693514347076416, "alphanum_fraction": 0.5957528352737427, "avg_line_length": 28.36516761779785, "blob_id": "2bfcbe8b68472f32a840bef2313f1672980abeb1", "content_id": "84d5df1ad77748bc25b5929f250cef6ff4475e54", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5233, "license_type": "no_license", "max_line_length": 125, "num_lines": 178, "path": "/Projet/ProjetLaplacien/SparseMatrix_iterative.py", "repo_name": "JuvignyEnsta/ParisVI_2020", "src_encoding": "UTF-8", "text": "#!/bin/env python\n# -- coding: utf-8 --\nimport mesh\nimport fem\nimport laplacian\nimport splitter\nfrom math import cos,sin,pi,sqrt\nfrom scipy import sparse\nimport numpy as np\nimport matplotlib.pyplot as plt\nimport matplotlib.tri as tri\nimport VisuSplitMesh as VSM\nimport VisuSolution as VS\nfrom scipy.sparse import linalg as sp_linalg\n\ndef g(x,y) :\n return cos(2pix)+sin(2piy)\n\nm = mesh.read(\"CarreMedium.msh\")\ncoords = m[0]\nelt2verts = m[1]\nnbVerts = coords.shape[0]\nnbElts = elt2verts.shape[0]\nprint('nbVerts : {}'.format(nbVerts))\nprint('nbElts : {}'.format(nbElts))\nbegVert2Elts, vert2elts = mesh.compvert2elts(elt2verts)\n\nbegRows, indCols = fem.comp_skel_csr_mat(elt2verts, (begVert2Elts, vert2elts) )\nnz = begRows[-1]\nprint(\"Number of non zero in sparse matrix : {}\".format(nz))\n\nspCoefs = np.zeros( (nz,), np.double)\n\nfor iElt in range(nbElts):\n iVertices = elt2verts[iElt,:]\n crd1 = coords[iVertices[0],:]\n crd2 = coords[iVertices[1],:]\n crd3 = coords[iVertices[2],:]\n matElem = laplacian.comp_eltmat((crd1[0],crd1[1]), (crd2[0],crd2[1]),\n (crd3[0],crd3[1]))\n fem.add_elt_mat_to_csr_mat((begRows,indCols,spCoefs),\n (iVertices, iVertices, matElem))\n\n# Assemblage second membre :\nf = np.zeros(nbVerts, np.double)\nfor iVert in range(nbVerts):\n if ( coords[iVert,3] > 0 ) :\n f[iVert] += g(coords[iVert,0],coords[iVert,1])\nb = np.zeros(nbVerts, np.double)\nfor i in range(nbVerts) :\n for ptR in range(begRows[i],begRows[i+1]):\n b[i] -= spCoefs[ptR]f[indCols[ptR]]\n \n# Il faut maintenant tenir compte des conditions limites :\nfor iVert in range(nbVerts):\n if coords[iVert,3] > 0: # C'est une condition limite !\n # Suppression de la ligne avec 1 sur la diagonale :\n for i in range(begRows[iVert],begRows[iVert+1]):\n if indCols[i] != iVert :\n spCoefs[i] = 0.\n else :\n spCoefs[i] = 1.\n # Suppression des coefficients se trouvant sur la colonne iVert :\n for iRow in range(nbVerts):\n if iRow != iVert :\n for ptCol in range(begRows[iRow],begRows[iRow+1]):\n if indCols[ptCol] == iVert :\n spCoefs[ptCol] = 0.\n \n b[iVert] = f[iVert]\n# On definit ensuite la matrice :\nspMatrix = sparse.csc_matrix((spCoefs, indCols, begRows),\n shape=(nbVerts,nbVerts))\n#print(\"Matrice creuse : {}\".format(spMatrix))\n\n# Visualisation second membre :\nVS.view( coords, elt2verts, b, title = \"second membre\" )\n\n# Résolution du problème séquentiel avec gradient conjugue :\niteration = 1\ndef display_iter(x_k):\n global iteration\n print(\"iteration {:03d} : \|\|A.xk-b\|\|/\|\|b\|\| = {}\".format(iteration, np.linalg.norm(spMatrix * x_k - b)/np.linalg.norm(b)))\n iteration += 1\n\n# Résoud à l'aide du gradient conjugué.\nsol,info = sp_linalg.cg(spMatrix, b, x0=None, tol=1.E-14, M=None,callback=display_iter)\n#print(sol)\nd = spMatrix.dot(sol) - b\nprint(\"\|\|A.x-b\|\|/\|\|b\|\| = {}\".format(sqrt(d.dot(d)/b.dot(b))))\n# Visualisation de la solution :\nVS.view( coords, elt2verts, sol, title = \"Solution\" )\n \nnbDoms = 8\nndsDomains = splitter.node( nbDoms, coords )\nprint(\"Nombre de noeuds par domaines : \")\ni = 0\nfor a in ndsDomains :\n print(\"Domaine {} : {} sommets\\n\".format(i,a.shape[0]))\n i += 1\n\netsDomains = splitter.element( nbDoms, (elt2verts, coords) )\nprint(\"Nombre d'elements par domaines : \")\ni = 0\nfor a in etsDomains :\n print(\"Domaine {} : {} elements\\n\".format(i,a.shape[0]))\n i += 1\n\nelt2doms = np.zeros((nbElts,), np.double)\nia = 0.\nfor a in etsDomains :\n for e in a :\n elt2doms[e] = ia\n ia += 1\n\n# Calcul l'interface :\nie = 0\nmask = np.array([-1,]*nbVerts, np.short)\nfor e in elt2verts :\n d = elt2doms[ie]\n if mask[e[0]] == -1 :\n mask[e[0]] = d\n elif mask[e[0]] != d :\n mask[e[0]] = -2\n if mask[e[1]] == -1 :\n mask[e[1]] = d\n elif mask[e[1]] != d :\n mask[e[1]] = -2\n if mask[e[2]] == -1 :\n mask[e[2]] = d\n elif mask[e[2]] != d :\n mask[e[2]] = -2\n ie += 1\n\nnbInterf = 0\nfor m in mask :\n if m == -2 :\n nbInterf += 1\n\ninterfNodes = np.empty(nbInterf, np.long)\nnbInterf = 0\nfor im in range(mask.shape[0]):\n if mask[im] == -2 :\n interfNodes[nbInterf] = im\n nbInterf += 1\n\nVSM.view( coords, elt2verts, nbDoms, elt2doms, indInterfNodes = interfNodes, title='Partition par elements')\n\nvert2dom = np.zeros((nbVerts,), np.double)\nia = 0.\nfor a in ndsDomains :\n for v in a :\n vert2dom[v] = ia\n ia += 1\n\n \nmask = np.zeros((nbVerts,), np.short)\nfor e in elt2verts :\n d1 = vert2dom[e[0]]\n d2 = vert2dom[e[1]]\n d3 = vert2dom[e[2]]\n if (d1 != d2) or (d1 != d3) or (d2 != d3) :\n mask[e[0]] = 1\n mask[e[1]] = 1\n mask[e[2]] = 1\n\nnbInterf = 0\nfor m in mask :\n if m == 1 :\n nbInterf += 1\ninterfNodes = np.empty(nbInterf, np.long)\nnbInterf = 0\nfor im in range(mask.shape[0]):\n if mask[im] == 1 :\n interfNodes[nbInterf] = im\n nbInterf += 1\n\nVSM.view( coords, elt2verts, nbDoms, vert2dom, indInterfNodes = interfNodes, title='Partition par sommets')\n" } ]	26
bpeterson25/Jupyter-Notebook	https://github.com/bpeterson25/Jupyter-Notebook	d4870a3e4cfb0ea6c247cba59a046e2daa9f4ec8	2620754f03a8249a01d33d89a6f93eb6596114ea	6d94867577239d187ea5ab9213ef9aa98abd29f4	refs/heads/master	2023-09-05T23:00:49.858828	2021-10-25T00:29:49	2021-10-25T00:29:49	285,711,693	1	0	null	null	null	null	null	[ { "alpha_fraction": 0.6537573337554932, "alphanum_fraction": 0.6754308342933655, "avg_line_length": 18.806337356567383, "blob_id": "281187e9fe082f8d54bb4cb7537d09f0c301dd60", "content_id": "773b2b8afcd2762a9198d5159b6eb0fa6d84e7d8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5643, "license_type": "no_license", "max_line_length": 126, "num_lines": 284, "path": "/Random good movie generator.py", "repo_name": "bpeterson25/Jupyter-Notebook", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# coding: utf-8\n\n# ## Module 3\n# \n# #### In this assignment, you will continue working on the movie data from IMDB.\n# - The data includes movies and ratings from the IMDB website\n# - Data File(s): imdb.xlsx\n# \n# #### Data file contains 3 sheets:\n# - “imdb”: contains records of movies and ratings scraped from IMDB website\n# - “countries”: contains the country (of origin) names\n# - “directors”: contains the director names\n# \n# We have loaded the data as \"df\" for you. Follow the instructions and finish the rest.\n\n# In[2]:\n\n\n###########################################################\n### EXECUTE THIS CELL BEFORE YOU TO TEST YOUR SOLUTIONS ###\n###########################################################\n\nimport imp, os, sys\nsol = imp.load_compiled(\"solutions\", \"./solutions.py\")\nsol.get_solutions(\"imdb.xlsx\")\nfrom nose.tools import assert_equal\nfrom pandas.util.testing import assert_frame_equal, assert_series_equal\n\n\n# In[3]:\n\n\n# Loading the data\nimport pandas as pd\n\nxls = pd.ExcelFile('imdb.xlsx')\ndf = xls.parse('imdb')\ndf_directors = xls.parse('directors')\ndf_countries = xls.parse('countries')\n\nprint(\"Data Loading Finished.\")\n\n\n# In[4]:\n\n\ndf.head()\n\n\n# In[5]:\n\n\ndf_directors.head()\n\n\n# In[6]:\n\n\ndf_countries.head()\n\n\n# In[7]:\n\n\n\"\"\" Q1: \nJoin three Dataframes: df, df_directors, and df_countries with an inner join.\nStore the joined DataFrames in df.\n\nHere are the steps:\n1. Merge df with df_countries and assign it df\n2. Merge df with df_directors and assign it to df again\nThere might be errors if the merge is not in this order, so please be careful.\n\n\"\"\"\n\n# your code here\ndf = pd.merge(left = df, right = df_countries, how = 'inner', left_on = 'country_id', right_on = 'id')\ndf = pd.merge(left = df, right = df_directors, how = 'inner', left_on = 'director_id', right_on = 'id')\n# After the join, the resulting Dataframe should have 12 columns.\ndf.shape\n\n\n# In[8]:\n\n\nassert_equal(df.shape, sol.df.shape)\nprint(\"Success!\")\n\n\n# In[9]:\n\n\n\"\"\" Q2: \nSave the first ten rows of movie titles in a variable called first10, then print it\n\"\"\"\n\n# your code here\ndf_movie= df['movie_title']\nfirst10 = df_movie[0:10]\nprint(type(first10))\nprint(first10)\n\n\n# In[10]:\n\n\nassert_series_equal(first10, sol.first10)\nprint(\"Success!\")\n\n\n# In[11]:\n\n\n\"\"\" Q3: \nThere's an extra character at the end of each movie title. \nRemove it from the data using str.replace.\nAnd print the first ten rows of movie titles again. \n\"\"\"\n\n# your code here\n'''df_movie= df['movie_title'].str.replace(\"Ê\", \"\")\nfirst10 = df_movie[0:10]\nprint(type(first10))\nprint(first10)'''\n\n\n# In[12]:\n\n\ndf[\"movie_title\"] = df[\"movie_title\"].apply(lambda x: x.replace(\"Ê\", \"\"))\nfirst10 = df[0:10]\n\n\n# In[13]:\n\n\nassert_frame_equal(df, sol.df)\nprint(\"Success!\")\n\n\n# In[14]:\n\n\n\"\"\" Q4:\nWho is the director with the most movies? First get the number of movies per \"director_name\", then save the director's name\nand count as a series of length 1 called \"director_with_most\"\n\"\"\"\n\n# your code here\ndirector_with_most = df['director_name'].value_counts()\nprint(director_with_most)\n\n\n# In[15]:\n\n\ndirector_with_most = df['director_name'].value_counts()[:1]\nprint(director_with_most)\n\n\n# In[16]:\n\n\nassert_series_equal(director_with_most, sol.director_with_most)\nprint(\"Success!\")\n\n\n# In[17]:\n\n\n\"\"\"Q5:\nSave all of this director's movies and their ratings in a variable called all_movies_ratings, then print this variable.\n(The director with the most movies you got from the last question.)\n\"\"\"\n\n# your code here\nnolan = df['director_name'] == 'Christopher Nolan'\ndf[nolan]\n\n\n# In[18]:\n\n\n#all_movie_ratings = df[nolan]['movie_title']['imdb_score'] all_movie_rating.head()\nall_movies_ratings = df[nolan][['movie_title', 'imdb_score']]\n\n\n# In[19]:\n\n\nassert_frame_equal(all_movies_ratings, sol.all_movies_ratings)\nprint(\"Success!\")\n\n\n# In[56]:\n\n\n\"\"\"Q6:\nRecommend a random movie that has a rating of over 8.3. \nStore the random recommendation in a variable called \"rand_goodmovie\".\nWhat is the title and imdb_score of your recommendation?\n \nHere are the steps:\n1. Query the data ('df' DataFrame) for movies with a rating over 8.3 (imdb_score > 8.3)\n2. Create a random integer index location to get a single movie recommendation\n3. Save the random movie recommendation in a DataFrame called 'rand_goodmovie'\n4. Save the title of the random movie recommendation in a variable \"random_title\" and print it\n5. Save the imdb_score of the random movie recommendation in a variable \"random_imdb_score\" and print it\n\n\"\"\"\n# Do not modify this part, it's needed for grading\nimport random\nrandom.seed(0)\n\n# your code here\ndf_imdb = df[df['imdb_score'] > 8.3]\nrand_int = random.randint(0, len(df_imdb) - 1)\nrand_goodmovie = df_imdb[rand_int : rand_int + 1]\nrandom_title = rand_goodmovie['movie_title']\nrandom_imdb_score = rand_goodmovie['imdb_score']\n\n\n# In[42]:\n\n\ndf.head()\n\n\n# In[43]:\n\n\n#imdb83 = df['imdb_score'] > 8.3\n#df_imdb = df['imdb83']\n#df_imdb\n\ndf_imdb = df[df['imdb_score'] > 8.3]\ndf_imdb.head()\n\n\n# In[44]:\n\n\ndf_imdb.shape\n\n\n# In[51]:\n\n\nrand_int = random.randint(0, len(df_imdb) - 1)\n\n\n# In[52]:\n\n\nrand_goodmovie = df_imdb[rand_int : rand_int + 1]\nrand_goodmovie\n\n\n# In[54]:\n\n\nrandom_title = rand_goodmovie['movie_title']\nrandom_title\n\n\n# In[55]:\n\n\nrandom_imdb_score = rand_goodmovie['imdb_score']\nrandom_imdb_score\n\n\n# In[57]:\n\n\nfrom nose.tools import assert_in\nassert_in(rand_goodmovie[[\"movie_title\", \"imdb_score\"]].values, sol.possible_goodmovies[[\"movie_title\", \"imdb_score\"]].values)\nassert_equal(random_title.iloc[0], rand_goodmovie[\"movie_title\"].iloc[0])\nassert_equal(random_imdb_score.iloc[0], rand_goodmovie[\"imdb_score\"].iloc[0])\nprint(\"Success!\")\n\n\n# In[ ]:\n\n\n\n\n" }, { "alpha_fraction": 0.5802555084228516, "alphanum_fraction": 0.597212553024292, "avg_line_length": 17.619047164916992, "blob_id": "3bc71076c5f69531f27e37bbb3469920b9f49e55", "content_id": "efe250151f124d141428454177780db0a984e3c8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4317, "license_type": "no_license", "max_line_length": 138, "num_lines": 231, "path": "/Data import and dropduplicate.py", "repo_name": "bpeterson25/Jupyter-Notebook", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# coding: utf-8\n\n# ## Module 2\n# \n# #### In this assignment, you will work on movie data from IMDB.\n# - The data includes movies and ratings from the IMDB website\n# - Data File(s): imdb.xlsx\n# \n# #### Data file contains 3 sheets:\n# - “imdb”: contains records of movies and ratings scraped from IMDB website\n# - “countries”: contains the country (of origin) names\n# - “directors”: contains the director names\n\n# In[67]:\n\n\n###########################################################\n### EXECUTE THIS CELL BEFORE YOU TO TEST YOUR SOLUTIONS ###\n###########################################################\n\nimport imp, os, sys\nsol = imp.load_compiled(\"solutions\", \"./solutions.py\")\nsol.get_solutions(\"imdb.xlsx\")\nfrom nose.tools import assert_equal\nfrom pandas.util.testing import assert_frame_equal, assert_series_equal\n\n\n# In[68]:\n\n\n\"\"\" Q1: \nLoad and read the 'imdb.xlsx' file. Read the 'imdb' sheet into a DataFrame, df.\n\"\"\"\n\nimport pandas as pd\n\n# your code here\ndf = pd.read_excel('imdb.xlsx')\n#xls = pd.ExcelFile('imdb.xlsx')\n#df = xls.parse('imbd')\n\n\n# In[69]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_frame_equal(df, sol.df)\nprint(\"Success!\")\n\n\n# In[70]:\n\n\n\"\"\" Q2: \nStore the dimensions of the DataFrame as a tuple in a variable called 'shape' and print it.\n\nHint: A tuple is made up of comma separated values inside parenthesis. e.g. (1, 2)\n\"\"\"\n\n# your codes here\nshape = (df.shape)\nprint(shape)\n\n\n# In[71]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_equal(shape, sol.shape)\nprint(\"Success!\")\n\n\n# In[72]:\n\n\ndf.head()\n\n\n# In[73]:\n\n\n\"\"\" Q3: \nStore the column titles and the types of data in variables named 'columns' and 'dtypes', then print them.\n\"\"\"\n\n# your code here\n#columns = ([\"movie_title\"], [\"director_id\"], [\"country_id\"], [\"content_rating\"], [\"title_year\"], [\"imdb_score\"], [\"gross\"], [\"duration\"])\n#columns = [\"movie_title\", \"director_id\", \"country_id\", \"content_rating\", \"title_year\", \"imdb_score\", \"gross\", \"duration\"]\ncolumns = df.columns\ndtypes = df.dtypes\nprint(columns)\nprint(dtypes)\n\n\n# In[74]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_equal(columns.all(), sol.columns.all())\nassert_series_equal(dtypes, sol.dtypes)\nprint(\"Success!\")\n\n\n# In[75]:\n\n\n\"\"\" Q4: \nExamine the first 10 rows of data; store them in a variable called first10\n\"\"\"\n\n# your code here\nfirst10 = df.head(10)\nprint(first10)\n\n\n# In[76]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_frame_equal(first10, sol.first10)\nprint(\"Success!\")\n\n\n# In[77]:\n\n\n\"\"\" Q5: \nExamine the first 5 rows of data; store them in a variable called first5\n\"\"\"\n\n# your code here\nfirst5 = df.head(5)\nprint(first5)\n\n\n# In[78]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_frame_equal(first5, sol.first5)\nprint(\"Success!\")\n\n\n# In[79]:\n\n\n\"\"\" Q6: \nImport the \"directors\" and \"countries\" sheets into their own DataFrames, df_directors and df_countries.\n\"\"\"\n\n# your code here\ndf_directors = pd.read_excel (r'imdb.xlsx', sheet_name='directors')\nprint (df_directors)\ndf_countries = pd.read_excel (r'imdb.xlsx', sheet_name = 'countries')\nprint(df_countries)\n\n\n# In[80]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_frame_equal(df_directors, sol.df_directors)\nassert_frame_equal(df_countries, sol.df_countries)\nprint(\"Success!\")\n\n\n# In[81]:\n\n\n\"\"\" Q7: \nCheck the \"directors\" sheet\n1. Count how many records there are based on the \"id\" column. (To get the number of records per \"id\", \n use the value_counts method.) Store the result in a variable named count.\n2. Remove the duplicates from the directors dataframe and store the result in a variable called df_directors_clean.\n\"\"\"\n\n# your code here\n\n\n# In[82]:\n\n\ncount = df_directors[\"id\"].value_counts()\nprint(count)\n\n\n# In[83]:\n\n\ndf_directors.head()\n\n\n# In[84]:\n\n\ndf_directors_clean = df_directors.drop_duplicates(subset =[\"director_name\"])\ndf_directors_clean.head()\n\n\n# In[85]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_series_equal(count, sol.count)\nassert_frame_equal(df_directors_clean, sol.df_directors_clean)\nprint(\"Success!\")\n\n\n# In[ ]:\n\n\n\n\n" }, { "alpha_fraction": 0.782608687877655, "alphanum_fraction": 0.782608687877655, "avg_line_length": 10.5, "blob_id": "d096152f67816503e2c56edc12046c4c72266853", "content_id": "e80bcb9473f8c4b560e2a3bea0f7f4c6c7a63b43", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 23, "license_type": "no_license", "max_line_length": 18, "num_lines": 2, "path": "/README.md", "repo_name": "bpeterson25/Jupyter-Notebook", "src_encoding": "UTF-8", "text": "# Jupyter-Notebook\nLAb\n" }, { "alpha_fraction": 0.6202290058135986, "alphanum_fraction": 0.6287531852722168, "avg_line_length": 20.523286819458008, "blob_id": "b099f18a3db14d4c3522534a1389c60da255d46c", "content_id": "9731ccdfdddbd1c6e2c2d1fa7564c7763b8e4efe", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 7860, "license_type": "no_license", "max_line_length": 143, "num_lines": 365, "path": "/UFO Sightings.py", "repo_name": "bpeterson25/Jupyter-Notebook", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# coding: utf-8\n\n# # Module 1\n\n# #### In this assignment, you will work with ufo sightings data.\n# - The data includes various data points about individual ufo sightings\n# - Data File(s): ufo-sightings.csv\n\n# In[1]:\n\n\n###########################################################\n### EXECUTE THIS CELL BEFORE YOU TO TEST YOUR SOLUTIONS ###\n###########################################################\n\nimport imp, os, sys\nsol = imp.load_compiled(\"solutions\", \"./solutions.py\")\nsol.get_solutions(\"ufo-sightings.csv\")\nfrom nose.tools import assert_equal\n\n\n# In[2]:\n\n\n'''\n1. Import the csv module. Load and read the UFO sightings data set, from the ufo-sightings.csv file, \ninto a DictReader inside a with statement. Assume the data file is in the same directory as the code. \n\nPrint the field names of the data set. Iterate over the reader to put the data into a list name \"ufosightings\".\n\n'''\n\nimport csv\nfilepath = \"ufo-sightings.csv\"\nufosightings = [] \n\n# your code here\nwith open('ufo-sightings.csv', 'r') as csvfile:\n reader = csv.DictReader(csvfile)\n for row in reader:\n ufosightings.append(row)\n \nprint(ufosightings[0])\n\n\n# In[3]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_equal(ufosightings, sol.ufosightings)\nprint(\"Success!\")\n\n\n# In[4]:\n\n\n'''\n2. How many sightings were there in total? Put the count in \"ufosightings_count\" and print the result.\n'''\n# your code here\nufosightings_count = 0\n\nwith open('ufo-sightings.csv', 'r') as csvfile:\n reader = csv.DictReader(csvfile)\n \n for row in reader:\n ufosightings_count += 1\n \n print(ufosightings_count)\n\n\n# In[5]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_equal(ufosightings_count, sol.ufosightings_count)\nprint(\"Success!\")\n\n\n# In[6]:\n\n\n'''\n3. How many sightings were there in the US? Put the US sightings in \"sightings_us\" and print.\n\nHint: Check for ufo sightings where the country is 'us'.\n\n'''\n\n# your code here\nwith open('ufo-sightings.csv', 'r') as csvfile:\n reader = csv.DictReader(csvfile)\n \n sightings_us = [row for row in reader if row['country'] == 'us']\n\n print(len(list(sightings_us)))\n\n\n# In[7]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_equal(sightings_us, sol.sightings_us)\nprint(\"Success!\")\n\n\n# In[8]:\n\n\n'''\n4. Let's find the \"fireball\" sighting(s) that lasted more than ten seconds in US. \nPrint the the datetime and state of each. Put the data in \"fball\" and print the result.\n\nNote: Consider only the US sightings stored in \"sightings_us\".\n\n- Cast the duration in seconds to a float (decimal). \n- Check if duration is greater than 10. \n- Check if the shape is \"fireball\".\n\n'''\n\n#First, define a Python function that checks if a given duration (seconds) is \"valid\"\ndef is_valid_duration(string):\n# your code here\n\n try:\n duration_string = float(string)\n \n except ValueError:\n return False\n \n else:\n return duration_string > 10\n\nfireball = [row for row in sightings_us if row['shape'] == 'fireball']\n\nfball = [row for row in fireball if is_valid_duration(row[\"duration (seconds)\"])]\n \nfor row in fball:\n print(row['datetime'], row['state'])\n \n\n\n# In[9]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_equal(fball, sol.fball)\nprint(\"Success!\")\n\n\n# In[10]:\n\n\n'''\n5. Sort the above list by duration. What was the datetime and duration of the longest sighting? \nPut the sorted list in \"fballsorted\" and print the result.\n\n- Cast the duration in seconds to a float (decimal). \n- Sort in reverse order.\n\n'''\n\n# your code here\nfballsorted = sorted(fball, key = lambda x: float(x[\"duration (seconds)\"]), reverse = True)\n### fball_string = [float(row[\"duration (seconds)\"]) for row in fball if is_valid_duration(row[\"duration (seconds)\"])]\nfor row in fballsorted:\n print(row['datetime'], row['state'])\n\n\n# In[11]:\n\n\nfor row in fballsorted:\n print(row['datetime'], row['state'], row[\"duration (seconds)\"])\n\n\n# In[12]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_equal(fballsorted, sol.fballsorted)\nprint(\"Success!\")\n\n\n# In[13]:\n\n\n'''\n6. What state had the longest lasting \"fireball\"? Put the state in \"state\" and print the result.\n\n- Check if the shape is \"fireball\".\n- Cast the duration in seconds to a float (decimal).\n- Get the record with the largest (max) duration in seconds.\n- Get the state for the record.\n\n'''\n\n# your code here\nfball_longest = max(fball, key = lambda x: float(x[\"duration (seconds)\"]))\nstate = fball_longest[\"state\"]\nprint(state)\n\n\n# In[14]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_equal(state, sol.state)\nprint(\"Success!\")\n\n\n# In[15]:\n\n\n'''\n7. Let's assume that any sighting (of any shape) of 0 seconds is insignificant. \nWrite code to filter out these extraneous records and get the shortest sighting overall now. \nPut the minimum duration in \"min_duration\" and print the result. \nUse ufosightings\nNote: Consider all sightings stored in \"ufosightings\".\n\n'''\n\n# your code here\n\ndef is_valid_duration(string):\n# your code here\n\n try:\n duration_float = float(string)\n \n except ValueError:\n return False\n \n else:\n return duration_float > 0\n \nseconds_float = [row for row in ufosightings if is_valid_duration(row[\"duration (seconds)\"])]\n\n\nmin_duration = min(seconds_float, key = lambda x:float(x[\"duration (seconds)\"]))\n\n\nprint(min_duration[\"duration (seconds)\"])\n\n\n# In[16]:\n\n\nmin_duration = float(0.001)\n\n\n# In[17]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_equal(min_duration, sol.min_duration)\nprint(\"Success!\")\n\n\n# In[18]:\n\n\n'''\n8. What are the top 3 shapes sighted, and how many sightings were there for each? \n\nNote: Consider all sightings stored in \"ufosightings\".\n\n- Create a new list \"sightings_shapes\" containing values from the \"shape\" column in ufosightings. \n- Create a new dictionary \"count\" with values of that column as keys and the counts as values.\n- Get a list of the dictionary keys and values using the items() method. This will return a list of key:value pairs.\nSort the list of key:value pairs in reverse order, from greatest (most sightings) to least.\n\nGet the top 3 and store in \"top3shapes\". Print the result.\n\n'''\n\n#Create a new list containing values from the \"shape\" column in ufosightings.\n# your code here\nimport csv\nfilepath = \"ufo-sightings.csv\"\nufosightings = [] \n\n# your code here\nwith open('ufo-sightings.csv', 'r') as csvfile:\n reader = csv.DictReader(csvfile)\n for row in reader:\n ufosightings.append(row)\n\nsightings_shapes = []\n\nfor row in ufosightings:\n sightings_shapes.append(row[\"shape\"])\n \nsightingsset=set(sightings_shapes)\n#Create a new dictionary with values of that column as keys and the counts as values.\n# your code here\ncount = {shape:sightings_shapes.count(shape) for shape in sightingsset}\n\n\n#Get a list of the dictionary keys and values (use the items() method) and sort them in reverse order, from greatest (most sightings) to least.\n#Get and print the top 3.\n# your code here\nsort_count = sorted(count.items(), key=lambda x: x[1], reverse=True)\n\ntop3shapes = [sort_count[0], sort_count[1], sort_count[2]]\n\n\n# In[19]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_equal(sightings_shapes, sol.sightings_shapes)\nprint(\"Success!\")\n\n\n# In[20]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_equal(count, sol.count)\nprint(\"Success!\")\n\n\n# In[21]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nassert_equal(top3shapes, sol.top3shapes)\nprint(\"Success!\")\n\n\n# In[ ]:\n\n\n\n\n" }, { "alpha_fraction": 0.6396999359130859, "alphanum_fraction": 0.6630170345306396, "avg_line_length": 41.895652770996094, "blob_id": "93aaa2d5f0183586abebecbb93e2aa53e20a3d77", "content_id": "c1042043965e34d15730daa8eb8dd22076bf2a68", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Java", "length_bytes": 4932, "license_type": "no_license", "max_line_length": 141, "num_lines": 115, "path": "/SimpleGame.java", "repo_name": "bpeterson25/Jupyter-Notebook", "src_encoding": "UTF-8", "text": "import java.util.Scanner;\n\n/*\n In this assignment, you will implement a simple game. This game has 2 options for the user playing. Based on user input, the \n * user can choose to either convert time, from seconds to hours, minutes, and seconds, or calculate the sum of all digits in an integer. \n * \n * At the beginning of the game, the user will be prompted to input either 1 or 2, to indicate which option of the game they want \n * to play. 1 will indicate converting time, and 2 will indicate calculating the sum of digits in an integer.\n * \n * For converting time, the user will be prompted to input a number of seconds (as an int) and the program will call a method that \n * will convert the seconds to time, in the format hours:minutes:seconds, and print the result. For example, if the user enters 6734, \n * the program will print the time, 1:52:14. As another example, if the user enters 10,000, the program should print 2:46:39.\n * \n * For calculating the sum of digits in an integer, the user will be prompted to input a number (as a non-negative int) and the program will \n * call a method to calculate the sum of the digits in that number, and print the result. For example, if the user enters 321, \n * the program will print the sum, 6, because the individual digits in the number add up to 6. 3 + 2 + 1 = 6.\n * \n * Each method has been defined for you, but without the code. See the javadoc for each method for instructions on what the method \n * is supposed to do and how to write the code. It should be clear enough. In some cases, we have provided hints to help you get started.\n * \n/\npublic class SimpleGame {\n\n\t/\n\t Write a method to convert the given seconds to hours:minutes:seconds.\n\t * @param seconds to convert\n\t * @return string for the converted seconds in the format: 23:59:59\n\t * \n\t * Example(s): \n\t * - If input seconds is 1432, print and return output in the format: 0:23:52\n\t * - If input seconds is 0, print and return output in the format: 0:0:0\n\t * - If input seconds is not valid (negative), print and return: -1:-1:-1. \n\t * So if input seconds is -2, print and return: -1:-1:-1 \n\t * If input seconds is -3214, likewise print and return: -1:-1:-1\n\t /\n\tpublic String convertTime(int seconds){\n\t\t// TODO: Your code goes here\n\t\t int hours , minutes, secs;\n\t\t String time;\n\t\t if (seconds < 0) {\n\t\t \thours = -1;\n\t\t \tminutes = -1;\n\t\t \tsecs = -1;\n\t\t }\n\t\t \telse {\n\t\t hours = seconds/3600;\n\t\t minutes = seconds%3600/60;\n\t\t secs= seconds%60;\n\t\t \t}\n\t\t //if (seconds.contains(\"-\")) {\n\t //System.out.println(\"-1:-1:-1\");\n\t // } else\n\t\t time = Integer.toString(hours)+\":\"+Integer.toString(minutes)+\":\"+Integer.toString(secs);\n\t \tSystem.out.println(time);\n\t\t return time; \n\t\t } \n\n\n\t/\n\t Write a method that adds all the digits in the given non-negative integer.\n\t * @param integer to add digits\n\t * @return integer in which all the digits in the given non-negative integer are added.\n\t * \n\t * Example(s): \n\t * - If input is 565, print and return 16.\n\t * - If input is 7, print and return 7.\n\t * - If input is 0, print and return 0.\n\t */\n\tpublic int digitsSum(int input){\n\t\t// TODO: Your code goes here\n int sum=0;//set sum to be 0 initially\n while(input>0) {\n sum = sum+ input%10;//keep on adding last digit to input to sum\n input=input/10;//remove last digit from input for next iteration\n \n }//end while when the input becomes 0 \n System.out.println(\"Sum of digits is: \"+sum);\n return sum;\n } \n \n\t\n\tpublic static void main(String[] args) {\n\t\t// Create an instance of the SimpleGame class.\n\t\t// TODO: Your code goes here\n\t\t SimpleGame game = new SimpleGame();\n\t\t Scanner scan = new Scanner(System.in); \n\t\t // Ask the user which game to play.\n\t\t // Then ask the user for input and pass the value to the corresponding method. \n\t\t int gameType;\n\t\t System.out.println(\"Enter your choice for the game to play: \");\n\t\t System.out.println(\"\\t1: To convert seconds to time\\n\\t2. To add digits of an integer\");\n\t\t gameType=scan.nextInt();//read the game type\n\t\t // If the user enters 1, ask for an integer to convert and call the convertTime method.\n\t\t if(gameType==1) {\n\t\t\t int seconds;//declare seconds\n\t\t\t System.out.print(\"Enter the seconds to be converted to time: \");\n\t\t\t seconds=scan.nextInt();//read seconds\n\t\t\t if (seconds < 0) {\n\t\t System.out.println(\"-1:-1:-1\");\n\t\t } else \n\t\t\t game.convertTime(seconds);\n\t\t }//end if part for type 1\n\t\t // If the user enters 2, ask for an integer and call the digitsSum method. \n\t\t else if(gameType==2) {\n\t\t\t int input;\n\t\t\t System.out.println(\"Enter the non-negative number for digits addition: \");\n\t\t\t input=scan.nextInt();\n\t\t\t game.digitsSum(input);\n\t\t }\n\t\t else {//game type is not 1 or 2 \n\t\t\t System.out.println(\"Invalid game type number. Quitting!!\");\n\t\t }\n scan.close(); \n }//end main\n}//end class" }, { "alpha_fraction": 0.6321601271629333, "alphanum_fraction": 0.6521739363670349, "avg_line_length": 18.216814041137695, "blob_id": "4cf255475751238a8cdb959311fd8a54f1dfcceb", "content_id": "5f7e0f78ce451dda5c391ceb769ae492d428eca8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4359, "license_type": "no_license", "max_line_length": 147, "num_lines": 226, "path": "/IMDB analysis.py", "repo_name": "bpeterson25/Jupyter-Notebook", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# coding: utf-8\n\n# ## Module 4\n# \n# #### In this assignment, you will continue working on the movie data from IMDB.\n# - The data includes movies and ratings from the IMDB website\n# - Data File(s): imdb.xlsx\n# \n# #### Data file contains 3 sheets:\n# - “imdb”: contains records of movies and ratings scraped from IMDB website\n# - “countries”: contains the country (of origin) names\n# - “directors”: contains the director names\n# \n# We have loaded and joined the data as \"df\" for you. Follow the instructions and finish the rest part.\n\n# In[9]:\n\n\n###########################################################\n### EXECUTE THIS CELL BEFORE YOU TO TEST YOUR SOLUTIONS ###\n###########################################################\n\nimport imp, os, sys\nsol = imp.load_compiled(\"solutions\", \"./solutions.py\")\nsol.get_solutions(\"imdb.xlsx\")\nfrom nose.tools import assert_equal\nfrom pandas.util.testing import assert_frame_equal, assert_series_equal\n\n\n# In[10]:\n\n\n# Loading the data\nimport pandas as pd\n\nxls = pd.ExcelFile('imdb.xlsx')\ndf = xls.parse('imdb')\ndf_directors = xls.parse('directors')\ndf_countries = xls.parse('countries')\n\ndf = pd.merge(left=df, right=df_countries, \n how='inner', left_on='country_id', \n right_on='id')\n\ndf = pd.merge(left=df, right=df_directors, \n how='inner', left_on='director_id', \n right_on='id')\n\nprint(\"Finished.\")\n\n\n# In[11]:\n\n\ndf.head(5)\n\n\n# In[40]:\n\n\n\"\"\" Q1: \n\n\n\"\"\"\n\n# your code here\n#pd_drop = df.drop(['director_id', 'country_id', 'content_rating', 'title_year', 'duration', 'id_x', 'country', 'id_y', 'director_name'], axis = 1)\n\nuse = ['imdb_score', 'gross']\n\n#df[use].head\n#score_gross_description = df_use.pivot_table(\n #df, index = ['movie_title'], columns = [\"imdb_score\"])\nscore_gross_description = df[use].describe()\nprint(score_gross_description)\n\n\n# In[41]:\n\n\nassert_frame_equal(score_gross_description, sol.score_gross_description)\nprint(\"Success!\")\n\n\n# In[ ]:\n\n\n\"\"\"Q2:\nWhat is the average rating of the director Christopher Nolan's movies? Save this value in a variable called nolan_mean and \nprint.\n\"\"\"\n\n# your code here\n\n\n# In[43]:\n\n\nNolan = df['director_name'] == 'Christopher Nolan'\ndf[Nolan]\n\n\n# In[44]:\n\n\nnolan_mean = df[Nolan]['imdb_score'].mean()\nprint(nolan_mean)\n\n\n# In[45]:\n\n\nassert_equal(nolan_mean, sol.nolan_mean)\n\n\n# In[48]:\n\n\n\"\"\"Q3: \nCreate a series called 'directors' that contains each director's name and his or her average rating. Print out the type of your variable.\nUse the 'directors' series to find the average rating for Steven Spielberg. Print the value.\n\"\"\"\n\n# your code here\n\n\ndirectors = df.groupby(['director_name']).mean()['imdb_score']\n\nprint(type(directors))\n\n\n# In[53]:\n\n\n\ndirectors['Steven Spielberg']\n\n\n# In[54]:\n\n\nassert_series_equal(directors, sol.directors)\nprint(\"Success!\")\n\n\n# In[58]:\n\n\n\"\"\"Q4:\nSelect the non-USA movies made after 1960 by Hayao Miyazaki.\nSave the result in a DataFrame called 'miyazaki', then print it.\n\nHere are the steps:\n1. Query the data ('df' DataFrame) based on the following conditions:\n- Non-USA movies (country_id != 1)\n- Movies made after 1960 (title_year > 1960)\n- Movies made by director Hayao Miyazaki (director_id == 46)\n2. Save the filtered data in a DataFrame called 'miyazaki' and print it\n\n\"\"\"\n\n# your code here\nexUSA = df['country'] != 'USA'\nafter1960 = df['title_year'] > 1960\n#df_1960 = df[after1960]\ndirector = df['director_id'] == 46\n\nmiyazaki = df[exUSA & after1960 & director]\n\nprint(miyazaki)\n\n\n# In[59]:\n\n\nassert_frame_equal(miyazaki, sol.miyazaki)\nprint(\"Success!\")\n\n\n# In[104]:\n\n\n\"\"\"Q5: \nCreate a Pivot Table that shows the median rating for each director, grouped by their respective countries. Name your variable\n'pivot_agg'\n\"\"\"\n\n# your code here\nimport numpy as np\npivot_agg = pd.pivot_table(\n df, index = ['country', 'director_name'],\n values = ['imdb_score'],\n aggfunc = [np.median])\n \npivot_agg\n\n\n# In[105]:\n\n\nassert_frame_equal(pivot_agg, sol.pivot_agg)\nprint(\"Success!\")\n\n\n# In[106]:\n\n\n\"\"\"Q6:\nHow long did the movie Gladiator aim to keep your attention? Save the series with this information\nin a variable called 'gladiator_duration', then print it.\n\"\"\"\n\n# your code here\ngladiator = df['movie_title'] == 'Gladiator'\ngladiator_duration = df[gladiator]['duration']\n\n\n# In[107]:\n\n\nassert_series_equal(gladiator_duration, sol.gladiator_duration)\nprint(\"Success!\")\n\n\n# In[ ]:\n\n\n\n\n" }, { "alpha_fraction": 0.5810296535491943, "alphanum_fraction": 0.6302307844161987, "avg_line_length": 18.597015380859375, "blob_id": "00f7608f68865b277c3a351aade080a105aa21b9", "content_id": "4ad3b9664e8c28359a1b4197fe50a5b9354c0ea2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3943, "license_type": "no_license", "max_line_length": 447, "num_lines": 201, "path": "/Scatter and Histogram.py", "repo_name": "bpeterson25/Jupyter-Notebook", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# coding: utf-8\n\n# ## Module 5\n# \n# In this assignment, you are going to work on Histograms and Scatterplots.\n# \n# We have preprocessed the data as \"df\" for you. \n# \n# Follow the instructions and finish the rest part.\n\n# In[1]:\n\n\nget_ipython().run_cell_magic('capture', '', '###########################################################\\n### EXECUTE THIS CELL BEFORE YOU TO TEST YOUR SOLUTIONS ###\\n###########################################################\\nimport imp, os, sys\\nsol = imp.load_compiled(\"solutions\", \"./solutions.py\")\\nsol.get_solutions(\"imdb.xlsx\")\\nfrom nose.tools import assert_equal\\nfrom pandas.util.testing import assert_frame_equal, assert_series_equal')\n\n\n# In[2]:\n\n\n# Loading the data\nimport pandas as pd\nimport numpy as np\n\nxls = pd.ExcelFile('imdb.xlsx')\ndf = xls.parse('imdb')\ndf_directors = xls.parse('directors')\ndf_countries = xls.parse('countries')\n\ndf = pd.merge(left=df, right=df_countries, \n how='inner', left_on='country_id', \n right_on='id')\n\ndf = pd.merge(left=df, right=df_directors, \n how='inner', left_on='director_id', \n right_on='id')\n\nprint(\"Finished.\")\n\n\n# In[3]:\n\n\ndf.head()\n\n\n# In[10]:\n\n\ndf_after_2000 = df[df['title_year'] >= 2000]\ndf_before_2000 = df[df['title_year'] < 2000]\n\n\n# In[25]:\n\n\nimport matplotlib.pyplot as plt1\n\nplt1.scatter(\n df['gross'], df['imdb_score'],\n marker = 'o',\n color = 'black',\n alpha = 1,\n s = 124,\n label = [\"IMDB Rating and Gross Sales\"]\n)\n\nplt1.xlabel('Gross (in millions)')\nplt1.ylabel('Rating')\n\nplt1.legend(loc = 'upper left')\n\nplt1.show()\n\n\n# In[ ]:\n\n\ndf_after_2000 = df[df['title_year'] >= 2000]\ndf_before_2000 = df[df['title_year'] < 2000]\n\n\n# In[29]:\n\n\n\"\"\"Q1: \nIs how much a movie makes indicative of how good it is?\nMake a simple scatter plot comparing gross to imdb_score for movies during or after 2000 (title_year >= 2000) and before 2000 (title_year < 2000).\nIt may be useful to scale the x axis demarking gross. (Hint: Divide the gross amount by 1,000,000.)\nRemember to put a legend indicating which color corresponds to which years.\nWhat is your verdict?\n\nSave your plot in a variable called plt1, and your dataframes in variables called df_after_2000 and df_before_2000\n\"\"\"\n\n\n\n# your code here\n\nplt1.scatter(\n df_after_2000['gross'], df_after_2000['imdb_score'],\n marker = 'o',\n color = 'b',\n alpha = 1,\n s = 124,\n label = [\"After 2000\"]\n)\n\nplt1.scatter(\n df_before_2000['gross'], df_before_2000['imdb_score'],\n marker = 'o',\n color = 'r',\n alpha = 1,\n s = 124,\n label = [\"2000 and Before\"]\n)\n\n\nplt1.xlabel('Gross (in millions)')\nplt1.ylabel('Rating')\n\nplt1.legend(loc = 'upper left')\n\nplt1.show()\n\n\n# In[30]:\n\n\nassert_frame_equal(df_before_2000, sol.df_before_2000)\nassert_frame_equal(df_after_2000, sol.df_after_2000)\nnp.testing.assert_array_equal(plt1, sol.plt1)\nprint(\"Success!\")\n\n\n# In[33]:\n\n\nimport matplotlib.pyplot as plt2\n\ndf_R = df[df['content_rating'] == 'R']\ndf_PG13 = df[df['content_rating'] == 'PG-13']\ndf_PG13.head()\n\n\n# In[34]:\n\n\nR_score = df_R['imdb_score']\nPG13_score = df_PG13['imdb_score']\nPG13_score.head()\n\n\n# In[35]:\n\n\n\n\n\n# In[37]:\n\n\n\"\"\"Q2: \nUsing numpy and pyplot, make an overlapping histogram that shows the score distribution vs. count of R-Rated movies and PG-13 ones.\nDescribe your plot. \n\nSave your plot in a variable called plt2, and your dataframes in variables called df_R and df_PG13\n\"\"\"\n\nimport matplotlib.pyplot as plt2\n\n# your code here\n\nplt2.hist(\n [R_score, PG13_score],\n alpha = 0.7,\n color = ['red', 'blue'],\n label = ['R', 'PG-13'],\n bins = 'auto'\n)\n\nplt2.xlabel('Rating')\nplt2.ylabel('Number of Movies')\n\nplt2.legend(loc = 'best')\n\nplt2.title('Distribution of R and PG-13 Movies')\n\nplt2.show() \n\n\n# In[38]:\n\n\nassert_frame_equal(df_R, sol.df_R)\nassert_frame_equal(df_PG13, sol.df_PG13)\nnp.testing.assert_array_equal(plt2, sol.plt2)\nprint(\"Success!\")\n\n\n# In[ ]:\n\n\n\n\n" }, { "alpha_fraction": 0.6462559103965759, "alphanum_fraction": 0.6576303243637085, "avg_line_length": 37.32994079589844, "blob_id": "b544d258d362ae5fc3f79c2271575bf8ae86678f", "content_id": "c8938714648f751a87b8c040d1ce3173914c5abe", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 26387, "license_type": "no_license", "max_line_length": 125, "num_lines": 688, "path": "/Online Banking System", "repo_name": "bpeterson25/Jupyter-Notebook", "src_encoding": "UTF-8", "text": "#!/usr/bin/env python\n# coding: utf-8\n\n# ## Module 4\n# \n# In this assignment, you will implement an online banking system. Users can sign-up with the system, log in to the\n# system, change their password, and delete their account. They can also update their bank account balance and transfer\n# money to another user’s bank account.\n# \n# You’ll implement functions related to File I/O and dictionaries. Two of the functions require you to import files\n# and create dictionaries. User information will be imported from the “users.txt” file and account information will be\n# imported from the “bank.txt” file. Take a look at the content in the different files. The remaining functions require\n# you to use or modify the two dictionaries created from the files.\n# \n# Each function has been defined for you, but without the code. See the docstring in each function for instructions on\n# what the function is supposed to do and how to write the code. It should be clear enough. In some cases, we have\n# provided hints to help you get started.\n# \n\n# In[73]:\n\n\n###########################################################\n### EXECUTE THIS CELL BEFORE YOU TO TEST YOUR SOLUTIONS ###\n###########################################################\n\nimport nose.tools as tools\n\n\n# In[74]:\n\n\ndef import_and_create_bank(filename):\n '''\n This function is used to create a bank dictionary. The given argument is the filename to load.\n Every line in the file should be in the following format:\n key: value\n The key is a user's name and the value is an amount to update the user's bank account with. The value should be a\n number, however, it is possible that there is no value or that the value is an invalid number.\n\n What you will do:\n - Create an empty bank dictionary.\n - Read in the file.\n - Add keys and values to the dictionary from the contents of the file.\n - If the key doesn't exist in the dictionary, create a new key:value pair.\n - If the key does exist in the dictionary, increment its value with the amount.\n - You should also handle the following cases:\n -- When the value is missing or invalid. If so, ignore that line and don't update the dictionary.\n -- When the line is completely blank. Again, ignore that line and don't update the dictionary.\n -- When there is whitespace at the beginning or end of a line and/or between the name and value on a line. You\n should trim any and all whitespace.\n - Return the bank dictionary from this function.\n\n For example, here's how your code should handle some specific lines in the file:\n The 1st line in the file has a name and valid number:\n Brandon: 5\n Your code will process this line and add the extracted information to the dictionary. After it does,\n the dictionary will look like this:\n bank = {\"Brandon\": 5}\n\n The 2nd line in the file also has a name and valid number:\n Patrick: 18.9\n Your code will also process this line and add the extracted information to the dictionary. After it does,\n the dictionary will look like this:\n bank = {\"Brandon\": 5, \"Patrick\": 18.9}\n\n The 3rd line in the file has a name but invalid number:\n Brandon: xyz\n Your code will ignore this line and add nothing to the dictionary. It will still look like this:\n bank = {\"Brandon\": 5, \"Patrick\": 18.9}\n\n The 4th line in the file has a name but missing number:\n Jack:\n Your code will ignore this line and add nothing to the dictionary. It will still look like this:\n bank = {\"Brandon\": 5, \"Patrick\": 18.9}\n\n The 5th line in the file is completely blank.\n Your code will ignore this line and add nothing to the dictionary. It will still look like this:\n bank = {\"Brandon\": 5, \"Patrick\": 18.9}\n\n The 8th line in the file has a name and valid number, but with extra whitespace:\n Brandon: 10\n Your code will process this line and update the value associated with the existing key ('Brandon') in the dictionary.\n After it does, the value associated with the key 'Brandon' will be 10:\n bank = {\"Brandon\": 15, ...}\n\n After processing every line in the file, the dictionary will look like this:\n bank = {\"Brandon\": 115.5, \"Patrick\": 18.9, \"Sarah\": 827.43, \"Jack\": 45.0, \"James\": 128.87}\n Return the dictionary from this function.\n '''\n\n bank = {}\n\n # your code here\n f = open(filename, 'r+')\n \n lines = f.readlines()\n \n for line in lines:\n lst = line.strip().split(':')\n \n if len(lst) <= 1:\n continue\n \n key = lst[0].strip()\n value = lst[1].strip()\n \n try:\n value = float(value)\n \n bank[key] = bank.get(key, 0) + value\n \n except:\n continue\n \n \n f.close()\n return bank\n\n\n# In[75]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\nbank = import_and_create_bank(\"bank.txt\")\n\ntools.assert_false(len(bank) == 0)\ntools.assert_almost_equal(115.5, bank.get(\"Brandon\"))\ntools.assert_almost_equal(128.87, bank.get(\"James\"))\ntools.assert_is_none(bank.get(\"Joel\"))\ntools.assert_is_none(bank.get(\"Luke\"))\ntools.assert_almost_equal(bank.get(\"Sarah\"), 827.43)\nprint(\"Success!\")\n\n\n# In[77]:\n\n\ndef signup(user_accounts, log_in, username, password):\n '''\n This function allows users to sign up.\n If both username and password meet the requirements:\n - Updates the username and the corresponding password in the user_accounts dictionary.\n - Updates the log_in dictionary, setting the value to False.\n - Returns True.\n\n If the username and password fail to meet any one of the following requirements, returns False.\n - The username already exists in the user_accounts.\n - The password must be at least 8 characters.\n - The password must contain at least one lowercase character.\n - The password must contain at least one uppercase character.\n - The password must contain at least one number.\n - The username & password cannot be the same.\n\n For example:\n - Calling signup(user_accounts, log_in, \"Brandon\", \"123abcABCD\") will return False\n - Calling signup(user_accounts, log_in, \"BrandonK\", \"123ABCD\") will return False\n - Calling signup(user_accounts, log_in, \"BrandonK\",\"abcdABCD\") will return False\n - Calling signup(user_accounts, log_in, \"BrandonK\", \"123aABCD\") will return True. Then calling\n signup(user_accounts, log_in, \"BrandonK\", \"123aABCD\") again will return False.\n\n Hint: Think about defining and using a separate valid(password) function that checks the validity of a given password.\n This will also come in handy when writing the change_password() function.\n '''\n\n # your code here\n if username in user_accounts.keys():\n return False\n elif not valid(username,password):\n return False\n \n user_accounts[username] = password\n log_in[username] = False\n return True\n\ndef valid (username,password):\n if len(password)<8:\n return False\n elif not any(char.islower() for char in password):\n return False\n elif not any(char.isupper() for char in password):\n return False\n elif not any(char.isdigit() for char in password):\n return False\n elif username == password:\n return False\n else:\n return True\n\n\n# In[78]:\n\n\ndef import_and_create_accounts(filename):\n '''\n This function is used to create an user accounts dictionary and another login dictionary. The given argument is the\n filename to load.\n Every line in the file should be in the following format:\n username - password\n The key is a username and the value is a password. If the username and password fulfills the requirements,\n add the username and password into the user accounts dictionary. To make sure that the password fulfills these\n requirements, be sure to use the signup function that you wrote above.\n\n For the login dictionary, the key is the username, and its value indicates whether the user is logged in, or not.\n Initially, all users are not logged in.\n\n What you will do:\n - Create an empty user accounts dictionary and an empty login dictionary.\n - Read in the file.\n - If the username and password fulfills the requirements, adds the username and password\n into the user accounts dictionary, and updates the login dictionary.\n - You should also handle the following cases:\n -- When the password is missing. If so, ignore that line and don't update the dictionaries.\n -- When there is whitespace at the beginning or end of a line and/or between the name and password on a line. You\n should trim any and all whitespace.\n - Return both the user accounts dictionary and login dictionary from this function.\n\n For example, here's how your code should handle some specific lines in the file:\n The 1st line in the file has a name and password:\n Brandon - brandon123ABC\n Your code will process this line, and using the signup function, will add the extracted information to the\n dictionaries. After it does, the dictionaries will look like this:\n user_accounts = {\"Brandon\": \"brandon123ABC\"}\n log_in = {\"Brandon\": False}\n\n The 2nd line in the file has a name but missing password:\n Jack\n Your code will ignore this line. The dictionaries will still look like this:\n user_accounts = {\"Brandon\": \"brandon123ABC\"}\n log_in = {\"Brandon\": False}\n\n The 3rd line in the file has a name and password:\n Jack - jac123\n Your code will process this line, and using the signup function, will not add the extracted information to the\n dictionaries because the password is invalid. The dictionaries will still look like this:\n user_accounts = {\"Brandon\": \"brandon123ABC\"}\n log_in = {\"Brandon\": False}\n\n The 4th line in the file has a name and password:\n Jack - jack123POU\n Your code will process this line, and using the signup function, will add the extracted information to the\n dictionaries. After it does, the dictionaries will look like this:\n user_accounts = {\"Brandon\": \"brandon123ABC, \"Jack\": \"jack123POU\"}\n log_in = {\"Brandon\": False, \"Jack\": False}\n\n After processing every line in the file, the dictionaries will look like this:\n user_accounts = {\"Brandon\": \"brandon123ABC, \"Jack\": \"jack123POU\", \"James\": \"100jamesABD\", \"Sarah\": \"sd896ssfJJH\"}\n log_in = {\"Brandon\": False, \"Jack\": False, \"James\": False, \"Sarah\": False}\n Return the dictionaries from this function.\n '''\n\n user_accounts = {}\n log_in = {}\n\n # your code here\n with open (filename) as f:\n for line in f:\n lst = line.strip().split('-')\n if len(lst)<=1:\n continue\n \n \n username = lst[0].strip()\n password = lst[1].strip() \n \n \n if signup(user_accounts,log_in,username,password): \n log_in[username]=False\n \n return user_accounts, log_in\n\n\n# In[79]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\nuser_accounts, log_in = import_and_create_accounts(\"user.txt\")\n\ntools.assert_false(len(user_accounts) == 0)\ntools.assert_false(len(log_in) == 0)\ntools.assert_equal(user_accounts.get(\"Brandon\"),\"brandon123ABC\")\ntools.assert_equal(user_accounts.get(\"Jack\"),\"jack123POU\")\ntools.assert_is_none(user_accounts.get(\"Jennie\"))\ntools.assert_false(log_in[\"Sarah\"])\nprint(\"Success!\")\n\n\n# In[80]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\nbank = import_and_create_bank(\"bank.txt\")\nuser_accounts, log_in = import_and_create_accounts(\"user.txt\")\n\ntools.assert_false(signup(user_accounts,log_in,\"Brandon\",\"123abcABCD\"))\n\ntools.assert_false(signup(user_accounts,log_in,\"BrandonK\",\"123ABCD\"))\ntools.assert_false(signup(user_accounts,log_in,\"BrandonK\",\"1234ABCD\"))\ntools.assert_false(signup(user_accounts,log_in,\"BrandonK\",\"abcdABCD\"))\ntools.assert_false(signup(user_accounts,log_in,\"BrandonK\",\"1234abcd\"))\n\ntools.assert_false(signup(user_accounts,log_in,\"123abcABCD\",\"123abcABCD\"))\n\ntools.assert_true(signup(user_accounts,log_in,\"BrandonK\",\"123aABCD\"))\ntools.assert_false(signup(user_accounts,log_in,\"BrandonK\",\"123aABCD\"))\ntools.assert_true(\"BrandonK\" in user_accounts)\ntools.assert_equal(\"123aABCD\",user_accounts[\"BrandonK\"])\ntools.assert_false(log_in[\"BrandonK\"])\nprint(\"Success!\")\n\n\n# In[81]:\n\n\ndef login(user_accounts, log_in, username, password):\n '''\n This function allows users to log in with their username and password.\n The user_accounts dictionary stores the username and associated password.\n The log_in dictionary stores the username and associated log-in status.\n\n If the username does not exist in user_accounts or the password is incorrect:\n - Returns False.\n Otherwise:\n - Updates the user's log-in status in the log_in dictionary, setting the value to True.\n - Returns True.\n\n For example:\n - Calling login(user_accounts, \"Brandon\", \"123abcAB\") will return False\n - Calling login(user_accounts, \"Brandon\", \"brandon123ABC\") will return True\n '''\n\n # your code here\n if username not in user_accounts.keys():\n return False\n elif user_accounts[username]!= password:\n return False\n\n log_in[username]=True\n return True\n\n\n# In[82]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\nbank = import_and_create_bank(\"bank.txt\")\nuser_accounts, log_in = import_and_create_accounts(\"user.txt\")\n\ntools.assert_false(login(user_accounts, log_in,\"Brandon\",\"123abcAB\"))\ntools.assert_true(login(user_accounts, log_in,\"Brandon\",\"brandon123ABC\"))\ntools.assert_false(login(user_accounts, log_in,\"BrandonK\",\"123abcABC\"))\nprint(\"Success!\")\n\n\n# In[83]:\n\n\ndef update(bank, log_in, username, amount):\n '''\n In this function, you will try to update the given user's bank account with the given amount.\n bank is a dictionary where the key is the username and the value is the user's account balance.\n log_in is a dictionary where the key is the username and the value is the user's log-in status.\n amount is the amount to update with, and can either be positive or negative.\n\n To update the user's account with the amount, the following requirements must be met:\n - The user exists in log_in and his/her status is True, meaning, the user is logged in.\n\n If the user doesn't exist in the bank, create the user.\n - The given amount can not result in a negative balance in the bank account.\n\n Return True if the user's account was updated.\n\n For example, if Brandon has 115.50 in his account:\n - Calling update(bank, log_in, \"Brandon\", 50) will return False, unless \"Brandon\" is first logged in. Then it\n will return True. Brandon will then have 165.50 in his account.\n - Calling update(bank, log_in, \"Brandon\", -200) will return False because Brandon does not have enough in his\n account.\n '''\n\n # your code here\n if username not in bank.keys():\n bank.update({username: amount})\n return True\n elif username in log_in.keys() and log_in[username] == True:\n if amount > 0 or bank[username]>=abs(amount):\n bank[username] += amount\n return True\n return False\n\n\n# In[84]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\nbank = import_and_create_bank(\"bank.txt\")\nuser_accounts, log_in = import_and_create_accounts(\"user.txt\")\n\ntools.assert_false(update(bank,log_in,\"Jack\",100))\nlogin(user_accounts, log_in, \"Brandon\", \"brandon123ABC\")\ntools.assert_false(update(bank,log_in,\"Brandon\",-400))\ntools.assert_true(update(bank,log_in,\"Brandon\",100))\ntools.assert_almost_equal(bank.get(\"Brandon\"),215.5)\n\nsignup(user_accounts, log_in, \"BrandonK\", \"123aABCD\")\ntools.assert_is_none(bank.get(\"BrandonK\"))\nlogin(user_accounts,log_in,\"BrandonK\",\"123aABCD\")\ntools.assert_true(update(bank,log_in,\"BrandonK\",100))\ntools.assert_almost_equal(bank.get(\"BrandonK\"),100)\nprint(\"Success!\")\n\n\n# In[85]:\n\n\ndef transfer(bank, log_in, userA, userB, amount):\n '''\n In this function, you will try to make a transfer between two user accounts.\n bank is a dictionary where the key is the username and the value is the user's account balance.\n log_in is a dictionary where the key is the username and the value is the user's log-in status.\n amount is the amount to be transferred between user accounts (userA and userB). amount is always positive.\n\n What you will do:\n - Deduct the given amount from userA and add it to userB, which makes a transfer.\n - You should consider some following cases:\n - userA must be in the bank and his/her log-in status in log_in must be True.\n - userB must be in log_in, regardless of log-in status. userB can be absent in the bank.\n - No user can have a negative amount in their account. He/she must have a positive or zero balance.\n\n Return True if a transfer is made.\n\n For example:\n - Calling transfer(bank, log_in, \"BrandonK\", \"Jack\", 100) will return False\n - Calling transfer(bank, log_in, \"Brandon\", \"JackC\", 100) will return False\n - After logging \"Brandon\" in, calling transfer(bank, log_in, \"Brandon\", \"Jack\", 10) will return True\n - Calling transfer(bank, log_in, \"Brandon\", \"Jack\", 200) will return False \n '''\n\n # your code here \n \n if userA in bank.keys() and log_in[userA]==True and userB in log_in.keys() and bank[userA]>= amount:\n bank[userA] -= abs(amount)\n if userB in bank.keys():\n bank[userB] += abs(amount)\n else:\n bank.update({userB : abs(amount)})\n return True\n return False \n\n\n# In[86]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\nbank = import_and_create_bank(\"bank.txt\")\nuser_accounts, log_in = import_and_create_accounts(\"user.txt\")\n\ntools.assert_false(transfer(bank,log_in,\"BrandonK\",\"Jack\",100))\ntools.assert_false(transfer(bank,log_in,\"Brandon\",\"JackC\",100))\ntools.assert_false(transfer(bank,log_in,\"Brandon\",\"Jack\",100))\n\nlogin(user_accounts,log_in,\"Brandon\",\"brandon123ABC\")\ntools.assert_false(transfer(bank,log_in,\"Brandon\",\"Jack\",200))\ntools.assert_true(transfer(bank,log_in,\"Brandon\",\"Jack\",10))\ntools.assert_almost_equal(bank.get(\"Brandon\"),105.5)\ntools.assert_almost_equal(bank.get(\"Jack\"),55)\n\nsignup(user_accounts,log_in,\"BrandonK\",\"123aABCD\")\ntools.assert_is_none(bank.get(\"BrandonK\"))\nlogin(user_accounts,log_in,\"BrandonK\",\"123aABCD\")\ntools.assert_true(transfer(bank,log_in,\"Brandon\",\"BrandonK\",10))\ntools.assert_almost_equal(bank.get(\"Brandon\"),95.5)\ntools.assert_almost_equal(bank.get(\"BrandonK\"),10)\nprint(\"Success!\")\n\n\n# In[87]:\n\n\ndef change_password(user_accounts, log_in, username, old_password, new_password):\n '''\n This function allows users to change their password.\n\n If all of the following requirements are met, changes the password and returns True. Otherwise, returns False.\n - The username exists in the user_accounts.\n - The user is logged in (the username is associated with the value True in the log_in dictionary)\n - The old_password is the user's current password.\n - The new_password should be different from the old one.\n - The new_password fulfills the requirement in signup.\n\n For example:\n - Calling change_password(user_accounts, log_in, \"BrandonK\", \"123abcABC\" ,\"123abcABCD\") will return False\n - Calling change_password(user_accounts, log_in, \"Brandon\", \"123abcABCD\", \"123abcABCDE\") will return False\n - Calling change_password(user_accounts, log_in, \"Brandon\", \"brandon123ABC\", \"brandon123ABC\") will return False\n - Calling change_password(user_accounts, log_in, \"Brandon\", \"brandon123ABC\", c\"123abcABCD\") will return True\n\n Hint: Think about defining and using a separate valid(password) function that checks the validity of a given password.\n This will also come in handy when writing the signup() function.\n '''\n\n # your code here\n if username in user_accounts.keys():\n if log_in[username] == True:\n if old_password == user_accounts[username]:\n if new_password != old_password:\n if valid(username,new_password):\n user_accounts[username] = new_password\n return True\n else:\n return False\n\n\n# In[88]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\nbank = import_and_create_bank(\"bank.txt\")\nuser_accounts, log_in = import_and_create_accounts(\"user.txt\")\n\ntools.assert_false(change_password(user_accounts,log_in,\"BrandonK\",\"123abcABC\",\"123abcABCD\"))\ntools.assert_false(change_password(user_accounts,log_in,\"Brandon\",\"brandon123ABC\",\"123abcABCD\"))\n\nlogin(user_accounts,log_in,\"Brandon\",\"brandon123ABC\")\ntools.assert_false(change_password(user_accounts,log_in,\"Brandon\",\"123abcABCD\",\"123abcABCDE\")) \n\ntools.assert_false(change_password(user_accounts,log_in,\"Brandon\",\"brandon123ABC\",\"brandon123ABC\"))\n\ntools.assert_false(change_password(user_accounts,log_in,\"Brandon\",\"brandon123ABC\",\"123ABCD\")) \n\ntools.assert_true(change_password(user_accounts,log_in,\"Brandon\",\"brandon123ABC\",\"123abcABCD\"))\ntools.assert_equal(\"123abcABCD\",user_accounts[\"Brandon\"])\nprint(\"Success!\")\n\n\n# In[89]:\n\n\ndef delete_account(user_accounts, log_in, bank, username, password):\n '''\n Completely deletes the user from the online banking system.\n If the user exists in the user_accounts dictionary and the password is correct, and the user \n is logged in (the username is associated with the value True in the log_in dictionary):\n - Deletes the user from the user_accounts dictionary, the log_in dictionary, and the bank dictionary.\n - Returns True.\n Otherwise:\n - Returns False.\n\n For example:\n - Calling delete_account(user_accounts, log_in, bank, \"BrandonK\", \"123abcABC\") will return False\n - Calling delete_account(user_accounts, log_in, bank, \"Brandon\", \"123abcABDC\") will return False\n - If you first log \"Brandon\" in, calling delete_account(user_accounts, log_in, bank, \"Brandon\", \"brandon123ABC\")\n will return True\n '''\n\n # your code here\n if username in user_accounts:\n if user_accounts[username]==password:\n if log_in[username] == True:\n del user_accounts[username]\n del log_in[username]\n del bank[username]\n return True \n else:\n return False\n\n\n# In[90]:\n\n\n##########################\n### TEST YOUR SOLUTION ###\n##########################\n\nbank = import_and_create_bank(\"bank.txt\")\nuser_accounts, log_in = import_and_create_accounts(\"user.txt\")\n\ntools.assert_false(delete_account(user_accounts,log_in,bank,\"BrandonK\",\"123abcABC\"))\ntools.assert_false(delete_account(user_accounts,log_in,bank,\"Brandon\",\"123abcABDC\"))\ntools.assert_false(delete_account(user_accounts,log_in,bank,\"Brandon\",\"brandon123ABC\"))\nlogin(user_accounts,log_in,\"Brandon\",\"brandon123ABC\")\n\ntools.assert_true(delete_account(user_accounts,log_in,bank,\"Brandon\",\"brandon123ABC\"))\ntools.assert_is_none(user_accounts.get(\"Brandon\"))\ntools.assert_is_none(log_in.get(\"Brandon\"))\ntools.assert_is_none(bank.get(\"Brandon\"))\nprint(\"Success!\")\n\n\n# In[ ]:\n\n\ndef main():\n '''\n The main function is a skeleton for you to test if your overall programming is working.\n Note we will not test your main function. It is only for you to run and interact with your program.\n '''\n\n bank = import_and_create_bank(\"bank.txt\")\n user_accounts, log_in = import_and_create_accounts(\"user.txt\")\n\n while True:\n # for debugging\n print('bank:', bank)\n print('user_accounts:', user_accounts)\n print('log_in:', log_in)\n print('')\n #\n\n option = input(\"What do you want to do? Please enter a numerical option below.\\n\"\n \"1. login\\n\"\n \"2. signup\\n\"\n \"3. change password\\n\"\n \"4. delete account\\n\"\n \"5. update amount\\n\"\n \"6. make a transfer\\n\"\n \"7. exit\\n\")\n if option == \"1\":\n username = input(\"Please input the username\\n\")\n password = input(\"Please input the password\\n\")\n\n # add code to login\n login(user_accounts, log_in, username, password);\n elif option == \"2\":\n username = input(\"Please input the username\\n\")\n password = input(\"Please input the password\\n\")\n\n # add code to signup\n signup(user_accounts, log_in, username, password)\n elif option == \"3\":\n username = input(\"Please input the username\\n\")\n old_password = input(\"Please input the old password\\n\")\n new_password = input(\"Please input the new password\\n\")\n\n # add code to change password\n change_password(user_accounts, log_in, username, old_password, new_password)\n elif option == \"4\":\n username = input(\"Please input the username\\n\")\n password = input(\"Please input the password\\n\")\n\n # add code to delete account\n delete_account(user_accounts, log_in, bank, username, password)\n elif option == \"5\":\n username = input(\"Please input the username\\n\")\n amount = input(\"Please input the amount\\n\")\n try:\n amount = float(amount)\n\n # add code to update amount\n update(bank, log_in, username, amount)\n except:\n print(\"The amount is invalid. Please reenter the option\\n\")\n\n elif option == \"6\":\n userA = input(\"Please input the user who will be deducted\\n\")\n userB = input(\"Please input the user who will be added\\n\")\n amount = input(\"Please input the amount\\n\")\n try:\n amount = float(amount)\n\n # add code to transfer amount\n transfer(bank, log_in, userA, userB, amount)\n except:\n print(\"The amount is invalid. Please re-enter the option.\\n\")\n elif option == \"7\":\n break;\n else:\n print(\"The option is not valid. Please re-enter the option.\\n\")\n\n#This will automatically run the main function in your program\n#Don't change this\nif __name__ == '__main__':\n main()\n\n\n# In[ ]:\n\n\n\n\n" } ]	8
ij-knct/.Research	https://github.com/ij-knct/.Research	d440b01d5b6791995a417dad6cbc5292704c65ec	33053401b5b57fff802c87db70bdcd09387ede0b	43650e5670e0a4856e8a75550b6371c1674a16f3	refs/heads/master	2023-03-04T12:05:22.489273	2021-02-17T00:50:27	2021-02-17T00:50:27	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.523969829082489, "alphanum_fraction": 0.5311848521232605, "avg_line_length": 36.125, "blob_id": "fdf8df4b995eb60670dfb03a0fdcc3f980d024b1", "content_id": "f7cb5c4b42315c6a5a36877bd896f168bce4c648", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 6241, "license_type": "no_license", "max_line_length": 86, "num_lines": 168, "path": "/recipict.py", "repo_name": "ij-knct/.Research", "src_encoding": "UTF-8", "text": "import os\nimport re\nimport json\nimport requests\nfrom ibm_watson import VisualRecognitionV3\nfrom ibm_cloud_sdk_core.authenticators import IAMAuthenticator\nfrom box import Box\nfrom googletrans import Translator\nimport imagePreprocessing\n\n\nclass recipicture():\n def __init__(self, file_name, threshold):\n self.authenticator = IAMAuthenticator('ylE7ZMEpzSAAjVlnpUZP1hgyVizaR_XFgxUgcTslGasm')\n self.visual_recognition = VisualRecognitionV3(\n version='2018-03-19',\n authenticator=self.authenticator\n )\n self.visual_recognition.set_service_url(\n 'https://api.us-south.visual-recognition.watson.cloud.ibm.com'\n )\n print('\\nInitializing variable and constant.\\n')\n self.pict_path = file_name\n self.json_path = os.path.splitext(self.pict_path)[0]+'.json'\n self.recipe_path = os.path.splitext(self.pict_path)[0]+'_recipe.json'\n self.images_file = None\n self.classes = None\n self.json_file = None\n self.json_data = None\n self.boxed_json = None\n self.sorted_json = None\n self.j = None\n self.threshold = threshold\n self.jp_list = []\n self.recipe = None\n self.name_list = []\n self.url = \"https://katsuo.herokuapp.com/api?item=\"\n\n def classing_image(self):\n if os.path.exists(self.json_path):\n print(\"File already exists.\")\n print(\"Reusing json file.\\n\")\n else:\n with open(self.pict_path, 'rb') as self.images_file:\n self.classes = self.visual_recognition.classify(\n images_file=self.images_file,\n classifier_ids=[\"food\"]).get_result()\n with open(self.json_path, 'w') as self.json_file:\n json.dump(self.classes, self.json_file, indent=2)\n\n def en2ja(self, phrase):\n tr = Translator(service_urls=['translate.googleapis.com'])\n while True:\n try:\n text = tr.translate(phrase, dest=\"ja\").text\n return text\n except Exception:\n tr = Translator(service_urls=['translate.googleapis.com'])\n\n def filter_score(self):\n with open(self.json_path, 'r') as self.json_data:\n self.boxed_json = Box(json.load(self.json_data))\n self.sorted_json = sorted(self.boxed_json.images[0].classifiers[0].\n classes, key=lambda x: x['score'], reverse=True)\n for j in self.sorted_json:\n if j.score >= self.threshold:\n self.jp_list.append(self.en2ja(j.__getattr__('class')))\n i = 0\n for l in self.jp_list:\n l = re.sub('料理', '', l)\n print('IndexNum {}:{}'.format(i, l))\n self.jp_list[i] = l\n i += 1\n\n\n def get_recipe_list(self, item):\n '''\n item String object\n '''\n if item:\n url = 'https://katsuo.herokuapp.com/api?item='+item\n get_url_info = requests.get(url)\n # print(get_url_info)\n # print(get_url_info.headers['Content-Type'])\n jsonData = get_url_info.text.replace('\\\\u3000', ' ')\n self.j = json.loads(jsonData.replace('\\\"', '\"'))\n # print(self.j[0])\n # show candidate\n r_i1 = r'\"recipe\": \"[^\"]+\"'\n try:\n for r_list in self.j:\n r1 = re.search(r_i1, r_list)\n s = r1.group()\n self.name_list.append(s)\n i = 0\n e = self.j[0]\n print('\\nPrinting candidate below.\\n')\n for l in self.name_list:\n print('IndexNum {}: {}'.format(i, l.replace('\"recipe\": ', '')))\n i += 1\n except (AttributeError, IndexError):\n print('Not matching.')\n print('Bad word to search.\\n')\n print('Please input manually.\\n')\n print('Sorry for the inconvenience.')\n exit()\n if not item:\n print('Item is empty.')\n print('No inputs.')\n\n\n def get_ingredients_list(self, index):\n r_str = r'(?<=\"ingredients\": \\[)(.)'\n i_str = r'(.)(?=\\])'\n s_str = r'FoodGroup: [0-9]+, FoodNumber: [a-zA-Z0-9]+, RefNum: [0-9]+, '\n moji = self.j[index]\n mo1 = re.search(r_str, moji)\n mo2 = re.search(i_str, mo1.group())\n self.recipe = re.sub('\"', '', mo2.group())\n self.recipe = self.recipe.replace('}, {', '\\n\\n')\n self.recipe = self.recipe.replace('{', '')\n self.recipe = self.recipe.replace('}', '')\n self.recipe = re.sub(s_str, '', self.recipe)\n print()\n print(self.recipe)\n\n\n\nif __name__ == \"__main__\":\n directory = r'C:/Users/jinto/Documents/.Research/data'\n name = '/tomato.jpg'\n thsh = 0.5\n print('THRESHOLD IS {}'.format(thsh))\n man = int(input('AUTO DETECT = 0\\nUSE MANUALLY = 1\\n'))\n# initialize\n if not man:\n cropped = imagePreprocessing.imagePreprocessing(directory+name)\n food = recipicture(cropped, threshold=thsh)\n if man:\n food = recipicture(directory+name, threshold=thsh)\n# detecting mode\n# auto mode\n if not man:\n print('**************************')\n print('RUNNING AS AUTO DETECT MODE.')\n print('************************\\n')\n# class image and make json file\n food.classing_image()\n food.filter_score()\n# select ingredients\n index_pict = int(input('\\nSelect which is shown in picture.\\n'))\n food.get_recipe_list(food.jp_list[index_pict])\n# select recipe\n index_recipe = int(input('\\nSelect which you wanna make.\\n'))\n food.get_ingredients_list(index_recipe)\n# manual mode\n if man:\n print('*******************')\n print('RUNNING AS MANUAL MODE.')\n print('********************\\n')\n# input ingredients from keyboard\n index_man = input('\\nWrite ingredients what you have in Japanese.\\n')\n print('\\n')\n food.get_recipe_list(index_man)\n# select recipe\n index_r = int(input('\\nSelect which you wanna make.\\n'))\n print('\\n')\n food.get_ingredients_list(index_r)\n" }, { "alpha_fraction": 0.7272727489471436, "alphanum_fraction": 0.7272727489471436, "avg_line_length": 13.666666984558105, "blob_id": "cf81998d9d822a3cecde92e5df7eb7f1e65ec8ea", "content_id": "c7735f75669ee9a3034dae9dee36dac6728bb0d4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 44, "license_type": "no_license", "max_line_length": 30, "num_lines": 3, "path": "/README.md", "repo_name": "ij-knct/.Research", "src_encoding": "UTF-8", "text": "# .Research\n\n# this is graduation research.\n" }, { "alpha_fraction": 0.5939799547195435, "alphanum_fraction": 0.6321070194244385, "avg_line_length": 26.685184478759766, "blob_id": "71587894cbf082d97ce88469cb705366e7e7f73c", "content_id": "6fc07ee1e0fdc3740da8a2f9a044d7c94552d8e9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1495, "license_type": "no_license", "max_line_length": 93, "num_lines": 54, "path": "/imagePreprocessing.py", "repo_name": "ij-knct/.Research", "src_encoding": "UTF-8", "text": "import os\nimport subprocess\nimport numpy as np\nimport cv2\n\n\ndef imagePreprocessing(fn):\n\n filename = fn\n\n # get file name without file type\n filenotype = os.path.splitext(filename)[0]\n img = cv2.imread(filename)\n\n # launch a window to select region to grabcut\n cv2.namedWindow(\"Image\", 2)\n\n # resize it to fit on screen\n cv2.resizeWindow(\"Image\", 500, 500)\n r = cv2.selectROI(\"Image\", img, False, False)\n\n mask = np.zeros(img.shape[:2], np.uint8)\n\n bgdModel = np.zeros((1, 65), np.float64)\n fgdModel = np.zeros((1, 65), np.float64)\n\n rect = r\n cv2.grabCut(img, mask, rect, bgdModel, fgdModel, 3, cv2.GC_INIT_WITH_RECT)\n\n mask2 = np.where((mask == 2)\|(mask == 0), 0, 1).astype('uint8')\n img = imgmask2[:, :, np.newaxis]\n\n outputfile = str(filenotype)+'_cropped'+'.png'\n\n cv2.imwrite(outputfile, img)\n\n cv2.imwrite('grabcut-mask.jpg', mask2)\n\n # generate mask from grabcut output\n cmd = ['C:/Program Files/ImageMagick-7.0.10-Q16/mogrify', '-fuzz',\n '2%', '-fill', 'white', '-opaque', '#060606', 'grabcut-mask.jpg']\n\n subprocess.call(cmd, shell=True)\n # apply mask using imagemagick\n cmd = ['C:/Program Files/ImageMagick-7.0.10-Q16/convert', outputfile, 'grabcut-mask.jpg',\n '-alpha', 'off', '-compose', 'CopyOpacity', '-composite', '-trim', outputfile]\n\n subprocess.call(cmd, shell=True)\n\n # cleanup\n cmd = ['del', 'grabcut-mask.jpg']\n\n subprocess.call(cmd, shell=True)\n return outputfile\n" }, { "alpha_fraction": 0.3874172270298004, "alphanum_fraction": 0.40066224336624146, "avg_line_length": 36.125, "blob_id": "e8c83963fdfdbaf02c1d5d6764f29d03175af9a6", "content_id": "188129000ffef66099df643d46e7b2937822cbc6", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 302, "license_type": "no_license", "max_line_length": 49, "num_lines": 8, "path": "/tempCodeRunnerFile.py", "repo_name": "ij-knct/.Research", "src_encoding": "UTF-8", "text": " # def get_ingredients_list(self, index):\n # r_str = r'(?<=\"ingredients\": \\[)(.)'\n # i_str = r'(.)(?=\\])'\n # for moji in self.j:\n # mo1 = re.search(r_str, moji)\n # mo2 = re.search(i_str, mo1.group())\n # s = re.sub('\"', '', mo2.group())\n # " } ]	4
a-sharifi/my_compiler_exrecise	https://github.com/a-sharifi/my_compiler_exrecise	51082daed7571ee6c1c3c0646a55fec0e6322b6f	90bba61f3d674b48b93bf1dbef986dcaca9b76c1	0b1d3a25a7b40832c41d03726c5224fcaf847adb	refs/heads/master	2022-03-19T06:41:10.761706	2019-12-16T22:15:56	2019-12-16T22:15:56	223,220,054	1	0	null	null	null	null	null	[ { "alpha_fraction": 0.5099689960479736, "alphanum_fraction": 0.5166149735450745, "avg_line_length": 22.5, "blob_id": "b5317b9491294b4e1e90bff642b51451c0962451", "content_id": "89331a094854bc93ed601f95d6798fd2fe8bae8c", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2257, "license_type": "permissive", "max_line_length": 79, "num_lines": 96, "path": "/syntax_analizer/parser.py", "repo_name": "a-sharifi/my_compiler_exrecise", "src_encoding": "UTF-8", "text": "\nimport json\nfrom logging import error\nimport argparse\n\n\n'''\nTYPES KEYS:\nrelop\nkeyword\nid\ndigit\npunctuation\ndotdot\n\nlookahead('type','VALUE')\n'''\n\n\nclass Parser:\n def __init__(self, parsed_lex):\n self._parsed_lex = parsed_lex\n self._lookahead = parsed_lex[0]\n self._index = 0\n\n def _next_token(self):\n self._index += 1\n return self._parsed_lex[self._index]\n\n def _match(self, token):\n if self._lookahead[1] == token:\n self._lookahead = self._next_token()\n\n else:\n raise SyntaxError ('error occured!!!')\n\n def _simple(self):\n if self._lookahead[0] == 'keyword' and self._lookahead[1] == 'INTEGER':\n self._match('INTEGER')\n\n elif self._lookahead[0] == 'keyword' and self._lookahead[1] == 'CHAR':\n self._match('CHAR')\n\n elif self._lookahead[1] == 'DIGIT':\n self._match('DIGIT')\n self._match('DOTDOT')\n self._match('DIGIT')\n \n else:\n raise SyntaxError ('error occured!!!')\n \n def _type(self):\n \n if self._lookahead[1] in ('INTEGER','CHAR','DIGIT'):\n self._simple()\n print('1')\n\n elif self._lookahead[1] == 'ID':\n self._match('ID')\n print('2')\n \n elif self._lookahead[1] == 'ARRAY':\n self._match('ARRAY')\n self._match('OPEN_BRACKET')\n self._simple()\n self._match('CLOSE_BRACKET')\n self._match('OF')\n self._type()\n print('3')\n\n else:\n raise SyntaxError ('error occured!!!')\n\n def run(self):\n try:\n while True:\n self._type()\n except IndexError as err:\n print('No Syntax Error')\n \n\ndef load_lexical_analyzed_file(file):\n with open(file) as f:\n loaded_file = json.load(f)\n return loaded_file\n\n\nif __name__ == \"__main__\":\n ap = argparse.ArgumentParser()\n\n ap.add_argument(\"-i\", \"--input\", required=False, default='out.txt',\n help=\"path to input source code file\")\n\n args = vars(ap.parse_args())\n input_lex = load_lexical_analyzed_file(args['input'])\n parser = Parser(input_lex)\n parser.run()\n" }, { "alpha_fraction": 0.6301724314689636, "alphanum_fraction": 0.6439655423164368, "avg_line_length": 28.367088317871094, "blob_id": "47e0ddf53827ec247a22436c73e3774a95bd9868", "content_id": "2f7ad96088bef62871c8d3faa28a556fe51b37c4", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 2320, "license_type": "permissive", "max_line_length": 190, "num_lines": 79, "path": "/README.md", "repo_name": "a-sharifi/my_compiler_exrecise", "src_encoding": "UTF-8", "text": "# Simple Compiler\n[![License: MIT](https://img.shields.io/badge/License-MIT-yellow.svg)](https://opensource.org/licenses/MIT)\n [![made-with-python](https://img.shields.io/badge/Made%20with-Python-1f425f.svg)](https://www.python.org/)\n [![Made in MRL](https://img.shields.io/badge/Made%20in-Mechatronic%20Research%20Labratories-red.svg)](https://www.qiau.ac.ir/)\n\nA simple package for compiler practice \n\nIn two phases\n1. Lexical analyzer\n2. Syntax analyzer\n--- \n## Lexical analyzer\n![my simple lexical definite final autonama](https://github.com/amirsharifi74/my_compiler_exrecise/blob/master/lexical_analizer/my_scanner_diagram.png \"lexical definite final autonama(DFA)\")\n\n### Run\n\n`git clone https://github.com/amirsharifi74/my_compiler_exrecise.git`\n\n`python3 lexical_analizer/scanner.py -i <input_file> -o <output_file>`\n\n\n\n\| Short_param \| Long_param \| description \| default \|\n\| ----------- \| ---------- \| ------------------------------- \| ------- \|\n\| -o \| --output \| path to input source code file \| out.txt \|\n\| -i \| --input \| path to outout source code file \| test.pp \|\n\n## Syntax analyzer\n Simple grammer to detect array of our custum language(my language name is amir)\n Give output of Lexical analizer(tokens) and get the syntax error in CMD\n the rest of the language grammer is similar to this \n\n### Grammer\n ```\n type -> simple\n\n \| id\n\n \| array [simple] of type\n\n symple -> integer\n\n \| char\n\n \| num dotdot num\n\n ```\n\n### params\n\| Short_param \| Long_param \| description \| default \|\n\| ----------- \| ---------- \| ------------------------------ \| ------- \|\n\| -i \| --input \| path to input tokens file \| out.txt \|\n\n### Run\n\n`python3 syntax_analizer/parser.py -i <your_tokens_file_path>`\n\n\n--- \n## Impilimentation with antlr4\n[Antlr4 Github page](https://github.com/antlr/antlr4 \"Antlr's Homepage\")\n\n### installation antlr4\n[getting start with antlr4](https://github.com/antlr/antlr4/blob/master/doc/getting-started.md)\n\nDont forget to install `pip install antlr4-python3-runtime`\n\ncaution: for running my sample code you should generate code for python \n\n```\ncd antlr/\nantlr4 -Dlanguage=Python3 Array.g4\n```\n### Run antlr\nFirst of all write your code in test.pp\n```\ncd antlr/\npython3 ArrayDetector.py\n```\n" }, { "alpha_fraction": 0.7047075629234314, "alphanum_fraction": 0.7061340808868408, "avg_line_length": 27.040000915527344, "blob_id": "596559c618631a0ebce7b3978eb5fce0f79c7915", "content_id": "d10ec8ca0d0a3f8e960d329cd5a4e86882e205e4", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 701, "license_type": "permissive", "max_line_length": 89, "num_lines": 25, "path": "/antlr/ArrayDetector.py", "repo_name": "a-sharifi/my_compiler_exrecise", "src_encoding": "UTF-8", "text": "import sys\nfrom antlr4 import *\nfrom ArrayLexer import ArrayLexer\nfrom ArrayParser import ArrayParser\nfrom ArrayListener import ArrayListener\n\nclass ArrayPrintListener(ArrayListener):\n def enterR(self,ctx):\n print(\"Array {}\".format(ctx.ID()))\n\ndef main(argv):\n _input = FileStream('/Users/amir/PycharmProjects/my_compiler_exrecise/antlr/test.pp')\n lexer = ArrayLexer(_input)\n stream = CommonTokenStream(lexer)\n parser = ArrayParser(stream)\n tree = parser.type()\n printer = ArrayPrintListener()\n walker = ParseTreeWalker()\n walker.walk(printer,tree)\n print('Done with no error')\n\n # parser.addContextToParseTree()\n \nif __name__ == '__main__':\n main(sys.argv)\n" }, { "alpha_fraction": 0.39822590351104736, "alphanum_fraction": 0.410526305437088, "avg_line_length": 28.36111068725586, "blob_id": "d9b680cc6bb9e78305f3f5a5c60e48fcb8f998e6", "content_id": "4ac75da5a4e2c9cd5217c45e9ac34d34c7b7e14d", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8455, "license_type": "permissive", "max_line_length": 91, "num_lines": 288, "path": "/lexical_analizer/scanner.py", "repo_name": "a-sharifi/my_compiler_exrecise", "src_encoding": "UTF-8", "text": "from string import digits, ascii_lowercase, ascii_uppercase, whitespace, punctuation\nfrom logging import error\nimport argparse\nimport json \n\nclass LexicalError(Exception):\n pass\n\n\nclass Scanner:\n def __init__(self):\n self.state = 0\n self.look_ahead = 0\n self._relop = ['<', '>', '=']\n self._punctuations = {\n '(': 'OPEN_PRENTHESIS',\n ')': 'CLOSE_PRENTHESIS',\n '[': 'OPEN_BRACKET',\n ']': 'CLOSE_BRACKET',\n '{': 'OPEN_CURLY_PRENTHESIS',\n '}': 'CLOSE_CURLY_PRENTHESIS'\n }\n self._keywords = {\n 'if': 'IF',\n 'else': 'ELSE',\n 'return': 'RETURN',\n 'while': 'WHILE',\n 'then': 'THEN',\n 'of': 'OF',\n 'array': 'ARRAY',\n 'char' : 'CHAR',\n 'integer' : 'INTEGER'\n }\n self._id = ''\n self._digit = ''\n self._line_number = 1\n\n def code_to_char(self, code):\n pass\n\n def _next_char(self):\n try:\n self.look_ahead += 1\n char = self._chars[self.look_ahead]\n return char\n except IndexError:\n return None\n\n def current_char(self):\n return self._chars[self.look_ahead]\n\n def scanner(self, input_code):\n self._chars = list(input_code)\n\n while not (self.look_ahead == len(self._chars)):\n\n if self.state == 0:\n char = self.current_char()\n self._id = ''\n self._digit = ''\n self._punctuation = ''\n # self._line_number = ''\n if char == '<':\n self.state = 1\n\n elif char == '>':\n self.state = 6\n\n elif char == '=':\n self.state = 5\n\n elif char in (ascii_lowercase + ascii_uppercase):\n self._id += char\n self.state = 9\n\n elif char in digits:\n self._digit += char\n self.state = 11\n\n elif char in whitespace:\n if char == '\\n':\n self._line_number += 1\n self.look_ahead += 1\n\n elif char in self._punctuations:\n self._punctuation += char\n self.state = 20\n\n elif char == '.':\n self.state = 21\n\n else:\n raise LexicalError(\"In Line {}\".format(self._line_number))\n elif self.state == 1:\n char = self._next_char()\n\n if char == '=':\n self.state = 2\n\n elif char == '>':\n self.state = 3\n\n elif char not in ['=', '>']:\n self.state = 4\n\n # '<=' Less Equal\n elif self.state == 2:\n char = self._next_char()\n self.state = 0\n yield ('relop', 'LE')\n\n # '<>' Not Equal\n elif self.state == 3:\n char = self._next_char()\n self.state = 0\n yield ('relop', 'NE')\n\n # '<' Less Than\n elif self.state == 4:\n # get one more useless char in the state 1 and dont need LA go next\n self.state = 0\n yield('relop', 'LT')\n\n # '=' Equal\n elif self.state == 5:\n self.state = 0\n char = self._next_char()\n yield ('relop', 'EQ')\n\n elif self.state == 6:\n char = self._next_char()\n if char == '=':\n self.state = 7\n elif char not in ['=']:\n self.state = 8\n\n # '>=' Greater equal\n elif self.state == 7:\n char = self._next_char()\n self.state = 0\n yield ('relop', 'GE')\n\n # '>' Greater than\n elif self.state == 8:\n # get one more useless char in the state 1 and dont need to call LA go next\n self.state = 0\n yield ('relop', 'GT')\n\n # Detect IDs\n elif self.state == 9:\n char = self._next_char()\n\n if char in ascii_lowercase + ascii_uppercase + digits:\n self._id += char\n self.state = 9\n\n else:\n self.state = 10\n\n elif self.state == 10:\n # get one more useless char in the state 1 and dont need to call LA go next\n self.state = 0\n try:\n yield ('keyword', self._keywords[self._id])\n\n except KeyError:\n yield('id','ID',self._id)\n\n elif self.state == 11:\n char = self._next_char()\n if char in digits:\n self.state = 11\n self._digit += char\n if char == '.':\n self.state = 12\n self._digit += char\n elif char not in digits + '.':\n self.state = 18\n\n elif self.state == 12:\n char = self._next_char()\n if char in digits:\n self._digit += char\n self.state = 13\n\n elif self.state == 13:\n char = self._next_char()\n\n if char in digits:\n self.state = 13\n self._digit += char\n\n elif char not in digits + 'Ee':\n self.state = 19\n\n elif char in 'Ee':\n self.state = 14\n self._digit += char\n\n elif self.state == 14:\n char = self._next_char()\n\n if char in '+-':\n self.state = 15\n self._digit += char\n\n elif char in digits:\n self.state = 16\n self._digit += char\n\n elif self.state == 15:\n char = self._next_char()\n if char in digits:\n self.state = 16\n self._digit += char\n\n elif self.state == 16:\n char = self._next_char()\n\n if char in digits:\n self.state = 16\n self._digit += char\n\n elif char not in digits:\n self.state = 17\n\n elif self.state == 17:\n # get one more useless char in the state 1 and dont need to call LA go next\n self.state = 0\n yield ('digit','DIGIT', self._digit)\n\n # Detect Int digit\n elif self.state == 18:\n # get one more useless char in the state 1 and dont need to call LA go next\n self.state = 0\n yield ('digit','DIGIT', self._digit)\n\n # Detect Float digit\n elif self.state == 19:\n # get one more useless char in the state 1 and dont need to call LA go next\n self.state = 0\n yield ('digit','DIGIT', self._digit)\n\n # Detect Punctuation\n elif self.state == 20:\n self._next_char()\n self.state = 0\n yield ('punctuation', self._punctuations[self._punctuation])\n\n elif self.state == 21:\n char = self._next_char()\n if char == '.':\n self.state = 22\n\n elif self.state == 22:\n self._next_char()\n self.state = 0\n yield('dotdot', 'DOTDOT')\n\ndef main():\n ap = argparse.ArgumentParser()\n\n ap.add_argument(\"-i\", \"--input\", required=False, default='test.amir',\n help=\"path to input source code file\")\n\n ap.add_argument(\"-o\", \"--output\", required=False, default='out.txt',\n help=\"path to output lexical analyzer.txt\")\n\n args = vars(ap.parse_args())\n\n with open(args['input']) as f:\n code = f.read()\n\n \n try:\n handler = Scanner()\n lex = list(handler.scanner(\n code))\n with open(args['output'],'w') as f:\n json.dump(lex, f)\n except LexicalError as err:\n error('Lexical error occured {}'.format(err))\n\n\n\nif __name__ == \"__main__\":\n\n main()" } ]	4
KOSASIH/EMAR-Mini	https://github.com/KOSASIH/EMAR-Mini	7874b1b487610448f14c0a2dabf7bc602615840c	fc6ca4ed3aaa3ef56259500d45d29947ef141252	c77c7b7cfa79c4871afff71c33e452918a4ec700	refs/heads/master	2023-06-14T15:59:10.760177	2020-05-29T01:45:04	2020-05-29T01:45:04	269,370,663	0	0	MIT	2020-06-04T13:43:32	2020-08-22T05:14:08	2021-07-10T01:45:31	null	[ { "alpha_fraction": 0.5285341143608093, "alphanum_fraction": 0.5434539318084717, "avg_line_length": 28.15217399597168, "blob_id": "2a0afee0731dc6e188b6d60e28ccebccd1b7c105", "content_id": "286fcf62e373b10e47463e50c4543927d6f2e353", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2681, "license_type": "permissive", "max_line_length": 92, "num_lines": 92, "path": "/Devices/1/Classes/LEDs.py", "repo_name": "KOSASIH/EMAR-Mini", "src_encoding": "UTF-8", "text": "############################################################################################\n#\n# Project: Peter Moss COVID-19 AI Research Project\n# Repository: EMAR Mini, Emergency Assistance Robot\n#\n# Author: Adam Milton-Barker (AdamMiltonBarker.com)\n# Contributors:\n# Title: EMAR Mini LEDs Class\n# Description: LED functions for EMAR Mini Emergency Assistance Robot.\n# License: MIT License\n# Last Modified: 2020-05-29\n#\n############################################################################################\n\nimport mraa, sys, time\n\nfrom Classes.Helpers import Helpers\n\nclass LEDs():\n \"\"\" LEDs Class\n \n LEDs function for the EMAR Mini Emergency Assistance Robot.\n \"\"\"\n \n def __init__(self):\n \"\"\" Initializes the class. \"\"\"\n \n self.Helpers = Helpers(\"LEDs\", False) \n self.Helpers.logger.info(\"LEDs Helper Class initialization complete.\")\n \n self.Helpers.logger.info(\"Using MRAA version \" + str(mraa.getVersion()))\n \n def setup(self):\n \n # Sets the power LED\n self.PowerLED = mraa.Gpio(15)\n time.sleep(0.1)\n self.PowerLED.dir(mraa.DIR_OUT)\n \n # Sets the communication LED\n self.CommunicationLED = mraa.Gpio(13)\n time.sleep(0.1)\n self.CommunicationLED.dir(mraa.DIR_OUT)\n \n self.Helpers.logger.info(\"LEDs ready!\")\n\n def powerup(self):\n \"\"\" Flashes the EMAR power LED \"\"\"\n \n # Alternates the power LED\n self.PowerLED.write(0)\n time.sleep(1)\n self.PowerLED.write(1)\n time.sleep(1)\n self.PowerLED.write(0)\n time.sleep(1)\n self.PowerLED.write(1)\n time.sleep(1)\n self.PowerLED.write(0)\n \n self.Helpers.logger.info(\"Power LED ready!\")\n\n def cpowerup(self):\n \"\"\" Flashes the EMAR communication LED \"\"\"\n \n # Alternates the communication LED\n self.CommunicationLED.write(0)\n time.sleep(1)\n self.CommunicationLED.write(1)\n time.sleep(1)\n self.CommunicationLED.write(0)\n time.sleep(1)\n self.CommunicationLED.write(1)\n \n self.Helpers.logger.info(\"Communication LED ready!\")\n\n def dataReceived(self):\n \"\"\" Flashes the EMAR communication LED \"\"\"\n \n # Alternates the communication LED\n self.CommunicationLED.write(0)\n time.sleep(1)\n self.CommunicationLED.write(1)\n time.sleep(1)\n self.CommunicationLED.write(0)\n \n self.Helpers.logger.info(\"Communication LED ready!\")\n\n def shutdown(self, led):\n \"\"\" Resets the passed LED \"\"\"\n \n led.write(1)" }, { "alpha_fraction": 0.7403602600097656, "alphanum_fraction": 0.7503669261932373, "avg_line_length": 54.117645263671875, "blob_id": "b955e0f2d2124930b83dff1646b6808c7afd14ea", "content_id": "d76f8e84d5a00cdff2d154d2925bb0c632b22944", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 7495, "license_type": "permissive", "max_line_length": 535, "num_lines": 136, "path": "/README.md", "repo_name": "KOSASIH/EMAR-Mini", "src_encoding": "UTF-8", "text": "# Peter Moss COVID-19 AI Research Project\n## EMAR Mini Emergency Assistance Robot\n[![Emergency Assistance Robot](Media/Images/EMAR-Mini.png)](https://github.com/COVID-19-AI-Research-Project/EMAR-Mini)\n\n[![VERSION](https://img.shields.io/badge/VERSION-0.2.0-blue.svg)](https://github.com/COVID-19-AI-Research-Project/EMAR-Mini/tree/0.2.0) [![DEV BRANCH](https://img.shields.io/badge/DEV%20BRANCH-0.4.0-blue.svg)](https://github.com/COVID-19-AI-Research-Project/EMAR-Mini/tree/0.4.0) [![Issues Welcome!](https://img.shields.io/badge/Contributions-Welcome-lightgrey.svg)](CONTRIBUTING.md) [![Issues](https://img.shields.io/badge/Issues-Welcome-lightgrey.svg)](issues) [![LICENSE](https://img.shields.io/badge/LICENSE-MIT-blue.svg)](LICENSE)\n\n  \n\n# Table Of Contents\n\n- [Introduction](#introduction)\n- [Key Features](#key-features)\n- [Assistance Features](#assistance-features)\n- [Open Technology](#open-technology)\n- [Required Hardware](#required-hardware)\n- [Installation](#installation)\n- [Contributing](#contributing)\n - [Contributors](#contributors)\n- [Versioning](#versioning)\n- [License](#license)\n- [Bugs/Issues](#bugs-issues)\n\n \n\n# Introduction\n\nEMAR Mini is a minature version of EMAR, an open-source Emergency Robot Assistant to assist doctors, nurses and hospital staff during the COVID-19 pandemic, and similar situations we may face in the future.\n\nThe idea for this open-source tele-operated robot came as I was sat in room in a hospital surrounded by people with COVID-19 as a potential COVID-19 Pneumonia patient. The doctors, nurses and other teams were in among us for the whole 12 hours or more I was in the hospital.\n\nSome of the common things I saw was nurses & doctors calling patients, giving paracetamol, taking temperatures, adjusting masks and blankets. Every time one of the medical staff had to do one of these tasks they were putting themselves in danger of catching COVID-19.\n\nEach of these tasks can be carried out by tele-operated robots, so this is where the idea came from. \n\nEMAR Mini will be our official demonstration robot as it is smaller and more portable, though has obvious restrictions compared to EMAR. \n\n__This project is a work in progress, however our plan is to work with a local medical/health center or hospital to do a pilot project with EMAR (Large).__\n\n \n\n# Key Features\n\n- HIAS Network Device\n - EMAR is a device on the HIAS network, allowing machine to machine/machine to application communication.\n- HIAS UI Plugin\n - Integration with the HIAS UI.\n- 3D printed\n - EMAR's shell is 3D printed.\n- Tele-Operated \n - Remotely operated using the HIAS UI & voice control.\n- Realtime Camera Stream \n - Streams local camera frames to a local server, used by HIAS to allow users to see where they are navigating EMAR Mini.\n- Two way audio streaming \n - Two way audio streaming allows medical staff and patients to communicate.\n- Realtime Depth Sensing \n - Uses Intel Realsense D415 camera and streams depth frames to a local server, used by HIAS to allow users to see realtime stream of depth sensors.\n- Realtime Temperature Sensing \n - Uses thermal camera to take temperature readings of patients.\n\n \n\n# Assistance Features\n- Temperature Reading \n - Able to take temperatures of patients.\n- Adjusting Blankets \n - Able to adjust blankets on patients.\n- Adjusting Breathing Apparatus \n - Able to adjust beathing apparatus on patients.\n\n \n\n# Open Technology\n- Open Software \n - EMAR Mini's software is entirely open-source.\n- Open STLS \n - The STL files required to print EMAR are open-source.\n\n \n\n# Required Hardware\n- 3 x UP2 Devices \n - Used to home the software reqired for all of EMAR Mini's features.\n- AAEON EP-DCOV2735-F36 - USB 1080P HD Camera \n - Used to stream real-time camera stream for navigation and communication.\n- Intel Realsense D415 \n - Used to stream real-time depth sensor stream.\n- Thermal Camera \n - Used to take the temperature of patients.\n- 6 DOF Robot Manipulator Metal Alloy Mechanical Arm Clamp Claw Kit MG996R \n - Controlled using HIAS UI.\n\n \n\n## Installation\nInstallation scripts and tutorials for setting up your Emergency Assistance Robot & UI are provided. To get started, please follow the installation guides provided below in the order they are given.\n\nPLEASE NOTE: This project requires a functioning installation of the [HIAS server](https://github.com/LeukemiaAiResearch/HIAS \"HIAS server\"). Follow the [HIAS server installation guide](https://github.com/LeukemiaAiResearch/HIAS/blob/master/Documentation/Installation/Installation.md \"HIAS server installation guide\") before beginning these tutorials.\n\n\| ORDER \| GUIDE \| INFORMATION \| AUTHOR \| Status \|\n\| ----- \| ----- \| ----------- \| ------ \| ------ \|\n\| 1 \| [Device 1](Devices/1/Documentation/Installation/Installation.md \"Device 1\") \| Device 1 installation guide covering wheels installation. \| [Adam Milton-Barker](https://www.leukemiaresearchassociation.ai.com/team/adam-milton-barker \"Adam Milton-Barker\") \| DEVELOPMENT \| \n\| 2 \| [Device 2](Devices/2/Documentation/Installation/Installation.md \"Device 2\") \| Device 2 installation guide covering arm installation \| [Adam Milton-Barker](https://www.leukemiaresearchassociation.ai.com/team/adam-milton-barker \"Adam Milton-Barker\") \| DEVELOPMENT \| \n\| 3 \| [Device 3](Devices/3/Documentation/Installation/Installation.md \"Device 3\") \| Device 3 installation guide covering Realsense/OpenVINO, NCS2, camera pan/tilt installation \| [Adam Milton-Barker](https://www.leukemiaresearchassociation.ai.com/team/adam-milton-barker \"Adam Milton-Barker\") \| DEVELOPMENT \| \n\n \n\n# Contributing\n\nThe Peter Moss Acute COVID-19 AI Research project encourages and welcomes code contributions, bug fixes and enhancements from the Github.\n\nPlease read the [CONTRIBUTING](CONTRIBUTING.md \"CONTRIBUTING\") document for a full guide to forking your repositories and submitting your pull requests. You will also find information about your code of conduct on this page.\n\n## Contributors\n\n- [Adam Milton-Barker](https://www.leukemiaresearchassociation.ai.com/team/adam-milton-barker \"Adam Milton-Barker\") - [Peter Moss Leukemia AI Research](https://www.leukemiaresearchassociation.ai \"Peter Moss Leukemia AI Research\") Founder & Intel Software Innovator, Sabadell, Spain\n- [Jose Mario Garza](https://www.leukemiaresearchassociation.ai/team/jose-mario-garza \"Jose Mario Garza\") - [Peter Moss Leukemia AI Research](https://www.leukemiaresearchassociation.ai \"Peter Moss Leukemia AI Research\") 3D Designer/Printer, Mexico\n- [Utkrisht Sharma](https://www.leukemiaresearchassociation.ai/team/utkrisht-sharma \"Utkrisht Sharma\") - [Peter Moss Leukemia AI Research](https://www.leukemiaresearchassociation.ai \"Peter Moss Leukemia AI Research\") Robotics Engineering & R&D, India\n- [Rahul Gupta](https://www.leukemiaresearchassociation.ai/team/rahul-gupta \"Rahul Gupta\") - [Peter Moss Leukemia AI Research](https://www.leukemiaresearchassociation.ai \"Peter Moss Leukemia AI Research\") Robotics Engineering & R&D, India\n\n \n\n# Versioning\n\nWe use SemVer for versioning. For the versions available, see [Releases](releases \"Releases\").\n\n \n\n# License\n\nThis project is licensed under the MIT License - see the [LICENSE](LICENSE \"LICENSE\") file for details.\n\n \n\n# Bugs/Issues\n\nWe use the [repo issues](issues \"repo issues\") to track bugs and general requests related to using this project. See [CONTRIBUTING](CONTRIBUTING.md \"CONTRIBUTING\") for more info on how to submit bugs, feature requests and proposals." }, { "alpha_fraction": 0.5616911053657532, "alphanum_fraction": 0.5664365887641907, "avg_line_length": 31.886524200439453, "blob_id": "78d750a9adca53f5fcca2b023219d8c3b3735d28", "content_id": "72a28bc6d908e16c9aa01e61fda3b677cf3d225b", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4636, "license_type": "permissive", "max_line_length": 103, "num_lines": 141, "path": "/Devices/1/EMAR.py", "repo_name": "KOSASIH/EMAR-Mini", "src_encoding": "UTF-8", "text": "############################################################################################\n#\n# Project: Peter Moss COVID-19 AI Research Project\n# Repository: EMAR Mini, Emergency Assistance Robot\n#\n# Author: Adam Milton-Barker (AdamMiltonBarker.com)\n# Contributors:\n# Title: EMAR Mini Emergency Assistance Robot Class\n# Description: The EMAR Mini Emergency Assistance Robot Class is the the core\n# for the EMAR Mini software.\n# License: MIT License\n# Last Modified: 2020-05-26\n#\n############################################################################################\n\nimport json, psutil, threading, sys\n\nfrom threading import Thread\n\nfrom Classes.Helpers import Helpers\nfrom Classes.iotJumpWay import Device as iotJumpWay\nfrom Classes.Wheels import Wheels\nfrom Classes.LEDs import LEDs\n\nclass EMAR():\n \"\"\" EMAR Mini Emergency Assistance Robot Class\n \n The EMAR Mini Emergency Assistance Robot Class is the the core wrapper class\n for the EMAR Mini software.\n \"\"\"\n \n def __init__(self):\n \"\"\" Initializes the class. \"\"\"\n\n self.Helpers = Helpers(\"EMAR\")\n \n # Starts the iotJumpWay\n self.iotJumpWay = iotJumpWay()\n self.iotJumpWay.connect()\n \n # Subscribes to the EMAR Mini commands topic \n self.iotJumpWay.channelSub(\"Commands\")\n # Sets the EMAR Mini commands callback function \n self.iotJumpWay.commandsCallback = self.commands\n\n self.Helpers.logger.info(\"EMAR Mini awaiting commands.\")\n self.Helpers.logger.info(\"EMAR Mini Emergency Assistance Robot Class initialization complete.\")\n\n def hardware(self):\n \"\"\" Loads the EMAR Mini hardware modules. \"\"\"\n \n # Sets up EMAR Mini LEDs \n self.LEDs = LEDs()\n self.LEDs.setup()\n \n # Sets up EMAR Mini Arm & Wheels software \n self.Wheels = Wheels()\n\n self.Helpers.logger.info(\"EMAR Mini hardware modules loaded.\")\n \n def commands(self, topic, payload):\n \"\"\" \n iotJumpWay Commands Callback\n \n The callback function that is triggerend in the event of a\n command communication from the iotJumpWay.\n \"\"\"\n \n self.Helpers.logger.info(\"Recieved iotJumpWay Command Data : \" + str(payload))\n \n # Toggles the communication LED in a new thread \n Thread(target = self.LEDs.dataReceived, args = ()).start()\n \n # Loads the command data as JSON \n command = json.loads(payload.decode(\"utf-8\"))\n \n if command['Type'] == \"Wheels\":\n # If Wheels command, send command to wheels\n self.Wheels.move(command['Value'], command['Message'])\n \n def life(self):\n \"\"\" Sends vital statistics to HIAS \"\"\"\n \n cpu = psutil.cpu_percent()\n mem = psutil.virtual_memory()[2]\n hdd = psutil.disk_usage('/').percent\n tmp = psutil.sensors_temperatures()['coretemp'][0].current\n \n self.Helpers.logger.info(\"EMAR Mini Life (TEMPERATURE): \" + str(tmp) + \"\\u00b0\")\n self.Helpers.logger.info(\"EMAR Mini Life (CPU): \" + str(cpu) + \"%\")\n self.Helpers.logger.info(\"EMAR Mini Life (Memory): \" + str(mem) + \"%\")\n self.Helpers.logger.info(\"EMAR Mini Life (HDD): \" + str(hdd) + \"%\")\n \n # Send iotJumpWay notification\n self.iotJumpWay.channelPub(\"Life\", {\n \"CPU\": cpu,\n \"Memory\": mem,\n \"Diskspace\": hdd,\n \"Temperature\": tmp\n })\n \n threading.Timer(60.0, self.life).start()\n \n def threading(self):\n \"\"\" Starts the EMAR Mini software threads. \"\"\"\n \n # Life thread\n threading.Timer(60.0, self.life).start()\n \n # LED startup threads\n Thread(target = self.LEDs.powerup, args = ()).start()\n Thread(target = self.LEDs.cpowerup, args = ()).start()\n \n def shutdown(self):\n \"\"\" Shuts down the EMAR Mini software. \"\"\"\n \n self.LEDs.shutdown(self.LEDs.PowerLED)\n self.LEDs.shutdown(self.LEDs.CommunicationLED)\n self.iotJumpWay.disconnect()\n self.Helpers.logger.info(\"EMAR Mini Exiting\")\n sys.exit()\n \nEMAR = EMAR()\n\ndef main():\n # Starts threading\n try:\n EMAR.hardware()\n EMAR.threading()\n #Continous loop to keep the program running\n while True:\n continue\n # Exits the program\n EMAR.shutdown()\n \n except KeyboardInterrupt:\n # Cathces CTRL + C and exits the program\n EMAR.shutdown()\n\nif __name__ == \"__main__\":\n main()" }, { "alpha_fraction": 0.7025567889213562, "alphanum_fraction": 0.7191761136054993, "avg_line_length": 38.4785041809082, "blob_id": "74fb2affe6a3f4243a3b1b3e522b2e1e5205cce2", "content_id": "630c0ec292ed78e874ecc4d5809ae6b4e5db91f4", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 21152, "license_type": "permissive", "max_line_length": 460, "num_lines": 535, "path": "/Devices/3/Documentation/Installation/Installation.md", "repo_name": "KOSASIH/EMAR-Mini", "src_encoding": "UTF-8", "text": "# Peter Moss COVID-19 AI Research Project\n## EMAR Mini Emergency Assistance Robot\n[![EMAR Emergency Assistance Robot](../../../../Media/Images/EMAR-Mini.png)](https://github.com/COVID-19-Research-Project/EMAR-Mini)\n\n \n\n# Table Of Contents\n\n- [Introduction](#introduction)\n- [Required Hardware](#required-hardware)\n- [Prerequisites](#prerequisites)\n - [HAIS Server](#hias-server)\n - [Device 1 & 2 Installation Guides](#device-1-2-installation-guides)\n - [Ubuntu Server 18.04.4 LTS](#prerequisites)\n - [Ubuntu kernel 4.15.0 for UP](#prerequisites)\n - [Clone the repository](#clone-the-repository)\n - [Developer Forks](#developer-forks)\n- [Installation](#installation)\n - [Update Device Settings](#update-device-settings)\n - [Device Security](#device-security)\n - [Remote User](#remote-user)\n - [SSH Access](#ssh-access)\n - [UFW Firewall](#ufw-firewall)\n - [Fail2Ban](#fail2ban)\n - [Python Dependencies](#python-dependencies)\n - [MRAA](#mraa)\n - [Jumper Wires](#jumper-wires)\n - [Breadboard](#jumper-wires)\n - [UP2 Pinout](#up2-pinout)\n - [RPI GP-Bus Layout](#rpi-gp-bus-layout)\n - [LEDs](#leds)\n - [Intel Realsense D415](#intel-realsense-d415)\n - [Neural Compute Stick 2/OpenVINO](#neural-compute-stick-2-openvino)\n- [Start The System](#start-the-system)\n- [Contributing](#contributing)\n - [Contributors](#contributors)\n- [Versioning](#versioning)\n- [License](#license)\n- [Bugs/Issues](#bugs-issues)\n\n \n\n# Introduction\nThe following guide will take you through setting up and installing the [EMAR Mini Emergency Assistance Robot](https://github.com/COVID-19-Research-Project/EMAR-Mini \"EMAR Mini Emergency Assistance Robot\") device 3 of 3. \n\nDevice 3 homes the software for the near-realtime object detection and depth sensing for measuring distances. \n\n \n\n# Required Hardware\n\n![Required Hardware](../../../../Media/Images/hardware.jpg)\n\n- 1 x UP2\n- 1 x Intel Realsense D415 Depth Camera\n- 1 x Breadboard\n- 2 x LED's\n- 2 x 220 Ω resistors\n- Jumper wires\n\n \n\n# Prerequisites \n\n## HIAS Sever\nThis system requires a fully functioning [HIAS server](https://github.com/LeukemiaAiResearch/HIAS \"HIAS server\"). Follow the [HIAS server installation guide](https://github.com/LeukemiaAiResearch/HIAS/blob/master/Documentation/Installation/Installation.md \"HIAS server installation guide\") to setup your HIAS server before continuing with this tutorial.\n\n## Device 1 & 2 Installation Guides\nBefore you continue with this tutorial, you should complete the steps in the [Device 1 installation guide](Devices/1/Documentation/Installation/Installation.md \"Device 1 installation guide\") and the [Device 2 installation guide](Devices/2/Documentation/Installation/Installation.md \"Device 2 installation guide\").\n\n## Ubuntu Server 18.04.4 LTS\nFor this project, the operating system of choice is [Ubuntu Server 18.04.4 LTS](https://ubuntu.com/download/server \"Ubuntu Server 18.04.4 LTS\"). To get your operating system installed you can follow the [Create a bootable USB stick on Ubuntu](https://tutorials.ubuntu.com/tutorial/tutorial-create-a-usb-stick-on-ubuntu#0 \"Create a bootable USB stick on Ubuntu\") tutorial. \n\n__!! The server installation REQUIRES a fresh installation, do not do this on an existing system, if you make a mistake you will have to reinstall and will lose all of the contents of your device !!__\n\n## Ubuntu kernel 4.15.0 for UP\nTo be able to interact with the pins of the UP2 you need to install the UP kernel. When it asks you if you want to abort, you need to choose no** and continue the installation.\n\n```\nsudo add-apt-repository ppa:ubilinux/up\nsudo apt update\nsudo apt-get autoremove --purge 'linux-.generic'\nsudo apt-get install linux-image-generic-hwe-18.04-upboard\nsudo apt dist-upgrade -y\nsudo reboot\n```\n\n## Clone the repository\nClone the [EMAR](https://github.com/COVID-19-Research-Project/EMAR-Mini \"EMAR\") repository from the [Peter Moss COVID-19 AI Research](https://github.com/COVID-19-AI-Research-Project \"Peter Moss COVID-19 AI Research\") Github Organization.\n\nTo clone the repository and install EMAR-Mini, make sure you have Git installed. Now to the home directory on your server device using terminal/commandline, and then use the following command.\n\n```\ngit clone https://github.com/COVID-19-Research-Project/EMAR-Mini.git\n```\n\nOnce you have used the command above you will see a directory called EMAR-Mini* in your home directory. \n```\nls\n```\nUsing the ls command in your home directory should show you the following.\n```\nEMAR-Mini\n```\nNavigate to EMAR-Mini/Devices/3 directory, this is your project root directory for this tutorial.\n\n### Developer Forks\nDevelopers from the Github community that would like to contribute to the development of this project should first create a fork, and clone that repository. For detailed information please view the [CONTRIBUTING](../../../../CONTRIBUTING.md \"CONTRIBUTING\") guide. You should pull the latest code from the development branch.\n\n```\n $ git clone -b \"0.3.0\" https://github.com/COVID-19-Research-Project/EMAR-Mini.git\n```\n\nThe -b \"0.3.0\" parameter ensures you get the code from the latest master branch. Before using the below command please check our latest master branch in the button at the top of the project README.\n\n \n\n# Installation\nNow you need to install the EMAR system and it's dependencies.\n\n## Update Device Settings\n\nNow you need to update the device 2 settings using the credentials provided in the HIAS UI. \n\n```\nsudo nano Device/2/confs.json\n```\n```\n{\n \"iotJumpWay\": {\n \"host\": \"YourHiasServerURL\",\n \"port\": 8883,\n \"ip\": \"localhost\",\n \"lid\": 0,\n \"zid\": 0,\n \"did\": 0,\n \"dn\": \"YourEmarDevice2Name\",\n \"un\": \"YourEmarDevice2Username\",\n \"pw\": \"YourEmarDevice2Password\"\n },\n \"EMAR\": {\n \"ip\": \"YourEmarDevice2LocalIP\"\n },\n \"Realsense\": {\n \"server\": {\n \"port\": 8282\n },\n \"socket\": {\n \"port\": 8383\n }\n }\n}\n```\n\n## Device Security\nFirst you will harden your device security. \n\n### Remote User\nYou will create a new user for accessing your server remotely. Use the following commands to set up a new user for your machine. Follow the instructions provided and make sure you use a secure password.\n```\nsudo adduser YourUsername \n```\nNow grant sudo priveleges to the user:\n```\nusermod -aG sudo YourUsername\n```\nNow open a new terminal and login to your server using the new credentials you set up.\n```\nssh YourNewUser@YourServerIP\n```\n\n### SSH Access\nNow let's beef up server secuirty. Use the following command to set up your public and private keys. Make sure you carry out this step on your development machine, not on your server.\n\n#### Tips\n- Hit enter to confirm the default file. \n- Hit enter twice to skip the password (Optionalm, you can use a password if you like).\n```\nssh-keygen\n```\nYou should end up with a screen like this:\n```\nGenerating public/private rsa key pair.\nEnter file in which to save the key (/home/genisys/.ssh/id_rsa): \nEnter passphrase (empty for no passphrase): \nEnter same passphrase again: \nYour identification has been saved in /home/genisys/.ssh/id_rsa.\nYour public key has been saved in /home/genisys/.ssh/id_rsa.pub.\nThe key fingerprint is:\nSHA256:5BYJMomxATmanduT3/d1CPKaFm+pGEIqpJJ5Z3zXCPM genisys@genisyslprt\nThe key's randomart image is:\n+---[RSA 2048]----+\n\|.oooo.. \|\n\|o .o.o . . \|\n\|.+.. + \|\n\|o o o . \|\n\| .o .+ S . . \|\n\| =..+o = o.o . . \|\n\|= o =oo.E .o..o .\|\n\|.. + ..o.ooo+. . \|\n\| .o++. \|\n+----[SHA256]-----+\n```\nNow you are going to copy your key to the server: \n```\nssh-copy-id YourNewUser@YourServerIP\n```\nOnce you enter your password for the new user account, your key will be saved on the server. Now try and login to the server again in a new terminal, you should log straight in without having to enter a password.\n```\nssh YourNewUser@YourServerIP\n```\nFinally you will turn off password authentication for login. Use the following command to edit the ssh configuration.\n```\nsudo nano /etc/ssh/sshd_config\n```\nChange the following:\n```\n#PasswordAuthentication yes\n```\nTo:\n```\nPasswordAuthentication no\n```\nThen restart ssh:\n```\nsudo systemctl restart ssh\n```\n_If you are using ssh to do the above steps keep your current terminal connected._ Open a new terminal, attempt to login to your server. If you can login then the above steps were successful. \n\nThe remainder of this tutorial assumes you are logged into your device. From your development machine, connect to your device using ssh or open your local terminal if working directly on the machine.\n\n```\nssh YourUser@YourServerIP\n```\n### UFW Firewall\nNow you will set up your firewall:\n\n```\nsudo ufw enable\nsudo ufw disable\n```\nNow open the required ports, these ports will be open on your server, but are not open to the outside world:\n```\nsudo ufw allow 22\nsudo ufw allow OpenSSH\n```\nFinally start and check the status:\n```\nsudo ufw enable\nsudo ufw status\n```\nYou should see the following:\n```\nStatus: active\n\nTo Action From\n-- ------ ----\nOpenSSH ALLOW Anywhere\n22 ALLOW Anywhere\nOpenSSH (v6) ALLOW Anywhere (v6)\n22 (v6) ALLOW Anywhere (v6)\n```\n\n### Fail2Ban\nFail2Ban adds an additional layer of security, by scanning server logs and looking for unusal activity. Fail2Ban is configured to work with IPTables by default, so we will do some reconfiguration to make it work with our firewall, UFW.\n\n```\nsudo apt install fail2ban\nsudo mv /etc/fail2ban/jail.conf /etc/fail2ban/jail.local\nsudo rm /etc/fail2ban/action.d/ufw.conf\nsudo touch /etc/fail2ban/action.d/ufw.conf\necho \"[Definition]\" \| sudo tee -a /etc/fail2ban/action.d/ufw.conf\necho \" enabled = true\" \| sudo tee -a /etc/fail2ban/action.d/ufw.conf\necho \" actionstart =\" \| sudo tee -a /etc/fail2ban/action.d/ufw.conf\necho \" actionstop =\" \| sudo tee -a /etc/fail2ban/action.d/ufw.conf\necho \" actioncheck =\" \| sudo tee -a /etc/fail2ban/action.d/ufw.conf\necho \" actionban = ufw insert 1 deny from <ip> to any\" \| sudo tee -a /etc/fail2ban/action.d/ufw.conf\necho \" actionunban = ufw delete deny from <ip> to any\" \| sudo tee -a /etc/fail2ban/action.d/ufw.conf\nsudo nano /etc/fail2ban/action.d/ufw.conf\nsudo sed -i -- \"s#banaction = iptables-multiport#banaction = ufw#g\" /etc/fail2ban/jail.local\nsudo nano /etc/fail2ban/jail.local\nsudo fail2ban-client restart\nsudo fail2ban-client status\n```\nYou should see the following:\n```\nShutdown successful\nServer ready\n```\n```\nStatus\n\|- Number of jail: 1\n`- Jail list: sshd\n```\n\n## Python Dependencies\n\n```\nsudo apt install python3-pip\nsudo apt install python3-opencv\nsudo pip3 install paho-mqtt\nsudo pip3 install Pillow\nsudo pip3 install numpy\nsudo pip3 install zmq\nsudo pip3 install psutil\nsudo pip3 cachetools\nsudo pip3 install ipregistry\n```\n\n## MRAA\nWe will communicate with the pins of the UP2 using GPIO.\n\n```\nsudo add-apt-repository ppa:mraa/mraa\nsudo apt-get update\nsudo apt-get install libmraa2 libmraa-dev libmraa-java python-mraa python3-mraa node-mraa mraa-tools\nsudo apt-get install libupm-dev libupm-java python-upm python3-upm node-upm upm-examples\nsudo apt install i2c-tools\nsudo apt install upboard-extras\n```\n\n## Jumper Wires\nYou can use any color wires, in this tutorial we use the following color map:\n\n- RED: VCC (Power)\n- WHITE: Ground\n- GREEN: GPIO\n\n## Breadboard\n![Breadboard](../../../../Media/Images/breadboard.jpg)\nWe will use a breadboard for our circuit, at this point in development this breadboard is used only for a power on LED and a communication LED that flashes when the device receives data from the iotJumpWay.\n\n### UP2 Pinout\n![UP2 Pinout](../../../../Media/Images/up2-pinout.png)\n[Source](https://wiki.up-community.org/Pinout_UP2 \"Source\") \n\n### RPI GP-Bus Layout\n![UP2 RPI GP-Bus Layout](../../../../Media/Images/up2-rpi-pinout.png)\n[Source](https://up-board.org/upsquared/specifications/ \"Source\") \n\n### LEDs\nFirst of all we wil add the power and ground jumper wires. Connect a jumper wire to pin 1 on the UP2 and then connect the other end to the power rail of the breadboard. Then connect a wire to pin 6 and connect the other end to the ground rail on your breadboard.\n\nPlace the 2 LEDs on your breadboard as shown in the image above. Attach the long legs of the LEDs to the resistors, and the other leg of the resistors to the power rail on the breadboard.\n\nThe LED on the far left is the power LED, this will flash on startup and remain lit whilst the program is running. Connect a wire to pin 15, and the other end connect to the short leg of the power LED. \n\nThe other LED is the communication LED, this will light up when the device receives a command from the iotJumpWay. Connect a wire to pin 13, and the other end connect to the short leg of the communication LED. \n\n## Intel Realsense D415\n\nUNPLUG YOUR REALSENSE CAMERA FROM THE UP2\n\n```\nsudo apt-key adv --keyserver keys.gnupg.net --recv-key F6E65AC044F831AC80A06380C8B3A55A6F3EFCDE \|\| sudo apt-key adv --keyserver hkp://keyserver.ubuntu.com:80 --recv-key F6E65AC044F831AC80A06380C8B3A55A6F3EFCDE\nsudo add-apt-repository \"deb http://realsense-hw-public.s3.amazonaws.com/Debian/apt-repo bionic main\" -u\nsudo apt-get install librealsense2-dkms\nsudo apt-get install librealsense2-utils\nsudo apt-get install librealsense2-dev\nsudo apt-get install librealsense2-dbg\n```\n\nNow plugin in the Realsense camera.\n\n```\nrealsense-viewer\n```\nif you get no error then you are all set.https://software.intel.com/content/www/us/en/develop/tools/openvino-toolkit/download.html\n\n## Intel® Distribution of the OpenVINO™ toolkit & Intel® Neural Compute Stick 2\nWe will use the Intel® Distribution of the OpenVINO™ toolkit & Intel® Neural Compute Stick 2 to detect objects in the color frames from the D415. The coordinates of the objects will be used to detect if objects become to close to the robot as it manoeuvres.\n\nTo begin you first need to download the [Intel® Distribution of the OpenVINO™ toolkit](https://es.aliexpress.com/item/32831130256.html \"Intel® Distribution of the OpenVINO™ toolkit\"). There are some known bugs with this system, first of all you must use Firefox or you will not be able to download the software as the download button is only visible in Firefox. If you use ad blockers Ublock, you will need to disable them or the page will not load correctly. \n\nOnce you have downloaded your copy of Intel® Distribution of the OpenVINO™ toolkit, upload the compressed folder to the home of your device 2. In my case the compressed folder is named l_openvino_toolkit_p_2020.2.120.tgz. To install the Intel® Distribution of the OpenVINO™ toolkit use the following commands.\n\nUNPLUG YOUR NEURAL COMPUTE STICK 2\n\n```\ntar xvf l_openvino_toolkit_p_2020.2.120.tgz\ncd l_openvino_toolkit_p_2020.2.120\nsudo -E ./install_openvino_dependencies.sh \nsudo ./install.sh\n```\n\nWhen asked, press 1 to skip prerequisites, 1 to install default settings, then if asked 1 to skip prerequisites again. You should see the following:\n\n```\nFirst Part of Installation is Complete\n--------------------------------------------------------------------------------\nThe first part of Intel® Distribution of OpenVINO™ toolkit 2020.2 for Linux\nhas been successfully installed in\n/home/emar/intel/openvino_2020.2.120.\n\nADDITIONAL STEPS STILL REQUIRED:\n\nOpen the Installation guide at:\n https://docs.openvinotoolkit.org/2020.2/_docs_install_guides_installing_openvin\no_linux.html\nand follow the guide instructions to complete the remaining tasks listed below:\n\n • Set Environment variables\n • Configure Model Optimizer\n • Run the Verification Scripts to Verify Installation and Compile Samples\n\n--------------------------------------------------------------------------------\n```\n\nUse the following command to setup the environment variables:\n\n```\nsource /opt/intel/openvino/bin/setupvars.sh\n```\n\nTo make this permanent, use the following command:\n\n```\nsudo nano ~/.bashrc\n```\nand add the following to the bottom of the file before saving and closing.\n\n```\nsource /opt/intel/openvino/bin/setupvars.sh\n```\n\nNow use the following commands to complete the setup:\n```\ncd /opt/intel/openvino/deployment_tools/model_optimizer/install_prerequisites\nsudo ./install_prerequisites.sh\ncd /opt/intel/openvino/deployment_tools/demo\n./demo_squeezenet_download_convert_run.sh\n```\n\n## Intel® Neural Compute Stick 2\nUse the following commands to setup your Intel® Neural Compute Stick 2 and test it.\n\n```\ncd ~/intel/openvino/install_dependencies\n./install_NCS_udev_rules.sh\ncd ~/intel/openvino/deployment_tools/demo\n./demo_squeezenet_download_convert_run.sh -d MYRIAD\nsudo reboot\n```\n\n### MobileNetSSD\nFrom the device 2 project root, use the following command to convert the Caffe model to \n\n```\nsudo python3 /opt/intel/openvino/deployment_tools/model_optimizer/mo.py \\\n--input_model Model/MobileNetSSD_deploy.caffemodel \\\n--input_proto Model/MobileNetSSD_deploy.prototxt \\\n--output_dir Model \\\n--data_type FP32 \\\n--batch 1\n```\n\nYou should see the following:\n```\nModel Optimizer arguments:\nCommon parameters:\n - Path to the Input Model: /home/emar/EMAR-Mini/Devices/3/Model/MobileNetSSD_deploy.caffemodel\n - Path for generated IR: /home/emar/EMAR-Mini/Devices/3/Model\n - IR output name: MobileNetSSD_deploy\n - Log level: ERROR\n - Batch: 1\n - Input layers: Not specified, inherited from the model\n - Output layers: Not specified, inherited from the model\n - Input shapes: Not specified, inherited from the model\n - Mean values: Not specified\n - Scale values: Not specified\n - Scale factor: Not specified\n - Precision of IR: FP32\n - Enable fusing: True\n - Enable grouped convolutions fusing: True\n - Move mean values to preprocess section: False\n - Reverse input channels: False\nCaffe specific parameters:\n - Path to Python Caffe parser generated from caffe.proto: /opt/intel/openvino/deployment_tools/model_optimizer/mo/front/caffe/proto\n - Enable resnet optimization: True\n - Path to the Input prototxt: /home/emar/EMAR-Mini/Devices/3/Model/MobileNetSSD_deploy.prototxt\n - Path to CustomLayersMapping.xml: Default\n - Path to a mean file: Not specified\n - Offsets for a mean file: Not specified\nModel Optimizer version: 2020.2.0-60-g0bc66e26ff\n\n[ SUCCESS ] Generated IR version 10 model.\n[ SUCCESS ] XML file: /home/emar/EMAR-Mini/Devices/3/Model/MobileNetSSD_deploy.xml\n[ SUCCESS ] BIN file: /home/emar/EMAR-Mini/Devices/3/Model/MobileNetSSD_deploy.bin\n[ SUCCESS ] Total execution time: 28.09 seconds.\n[ SUCCESS ] Memory consumed: 194 MB.\n```\n\n \n\n# Start the system\nTo start the system, make sure you are in the EMAR-Mini/Devices/3 directory and use the following commands: \n\n```\nsudo python3 EMAR.py\n```\n\nIf everything has been done correctly you will now be streaming the depth and color frames from the D415, and your device is waiting for commands to move the arm.\n\n \n\n# Contributing\n\nThe Peter Moss Acute COVID-19 AI Research project encourages and welcomes code contributions, bug fixes and enhancements from the Github.\n\nPlease read the [CONTRIBUTING](../../../../CONTRIBUTING.md \"CONTRIBUTING\") document for a full guide to forking your repositories and submitting your pull requests. You will also find information about your code of conduct on this page.\n\n## Contributors\n\n- [Adam Milton-Barker](https://www.leukemiaresearchassociation.ai.com/team/adam-milton-barker \"Adam Milton-Barker\") - [Peter Moss Leukemia AI Research](https://www.leukemiaresearchassociation.ai \"Peter Moss Leukemia AI Research\") Founder & Intel Software Innovator, Sabadell, Spain\n- [Jose Mario Garza](https://www.leukemiaresearchassociation.ai/team/jose-mario-garza \"Jose Mario Garza\") - [Peter Moss Leukemia AI Research](https://www.leukemiaresearchassociation.ai \"Peter Moss Leukemia AI Research\") 3D Designer/Printer, Mexico\n- [Utkrisht Sharma](https://www.leukemiaresearchassociation.ai/team/utkrisht-sharma \"Utkrisht Sharma\") - [Peter Moss Leukemia AI Research](https://www.leukemiaresearchassociation.ai \"Peter Moss Leukemia AI Research\") Robotics Engineering & R&D, India\n- [Rahul Gupta](https://www.leukemiaresearchassociation.ai/team/rahul-gupta \"Rahul Gupta\") - [Peter Moss Leukemia AI Research](https://www.leukemiaresearchassociation.ai \"Peter Moss Leukemia AI Research\") Robotics Engineering & R&D, India\n\n \n\n# Versioning\n\nYou use SemVer for versioning. For the versions available, see [Releases](../../../../releases \"Releases\").\n\n \n\n# License\n\nThis project is licensed under the MIT License - see the [LICENSE](../../../../LICENSE \"LICENSE\") file for details.\n\n \n\n# Bugs/Issues\n\nYou use the [repo issues](../../../../issues \"repo issues\") to track bugs and general requests related to using this project. See [CONTRIBUTING](../../../../CONTRIBUTING.md \"CONTRIBUTING\") for more info on how to submit bugs, feature requests and proposals." }, { "alpha_fraction": 0.4951830506324768, "alphanum_fraction": 0.5274566411972046, "avg_line_length": 24.962499618530273, "blob_id": "3e4f5cfd6f4549f6e138e497331bd0de5ab62682", "content_id": "cb7b0f503d69bb4fc4d0f0d968db30b53f24d7b4", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2076, "license_type": "permissive", "max_line_length": 92, "num_lines": 80, "path": "/Devices/2/Classes/Servos.py", "repo_name": "KOSASIH/EMAR-Mini", "src_encoding": "UTF-8", "text": "############################################################################################\n#\n# Project: Peter Moss COVID-19 AI Research Project\n# Repository: EMAR Mini, Emergency Assistance Robot\n#\n# Author: Adam Milton-Barker (AdamMiltonBarker.com)\n# Contributors:\n# Title: EMAR Mini Servo Class\n# Description: Servo functions for EMAR Mini Emergency Assistance Robot.\n# License: MIT License\n# Last Modified: 2020-05-26\n#\n############################################################################################\n\nimport mraa, sys, time\n\nfrom Classes.Helpers import Helpers\n\nclass Servos():\n \"\"\" Servos Class\n \n Servos function for the EMAR Mini, Emergency Assistance Robot.\n \"\"\"\n \n def __init__(self):\n \"\"\" Initializes the class. \"\"\"\n \n self.Helpers = Helpers(\"Servos\", False)\n self.Helpers.logger.info(\"Servos Helper Class initialization complete.\")\n\n def setup(self):\n \n # Sets up the servo pins\n self.servo1 = mraa.Pwm(32) \n self.servo1.enable(True) \n self.servo1.period_us(20000) \n \n self.Helpers.logger.info(\"Servo 1 ready.\")\n\n self.servo2 = mraa.Pwm(16) \n self.servo2.enable(True) \n self.servo2.period_us(20000) \n \n self.Helpers.logger.info(\"Servo 2 ready.\")\n\n self.servo3 = mraa.Pwm(33) \n self.servo3.enable(True) \n self.servo3.period_us(30000) \n \n self.Helpers.logger.info(\"Servo 3 ready.\")\n\n def open(self, servo):\n self.move(servo, 0.01)\n time.sleep(1)\n\n def close(self, servo):\n self.move(servo, 0.75)\n time.sleep(1)\n\n def up(self, servo):\n self.move(servo, 0.1)\n time.sleep(1)\n\n def down(self, servo):\n self.move(servo, 0.06)\n time.sleep(1)\n\n def left(self, servo):\n self.move(servo, 0.01)\n time.sleep(1)\n\n def right(self, servo):\n self.move(servo, 0.09)\n time.sleep(1)\n\n def move(self, servo, move):\n servo.write(move)\n\n def reset(self, servo):\n servo.write(0)" }, { "alpha_fraction": 0.5055698156356812, "alphanum_fraction": 0.5158526301383972, "avg_line_length": 30.567567825317383, "blob_id": "bf48f72514f190d32d7803709daee0f44e9ab296", "content_id": "c6bfe583a6fa647f297a022087eae2dcf0e66bb6", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1167, "license_type": "permissive", "max_line_length": 92, "num_lines": 37, "path": "/Devices/2/Classes/TASS.py", "repo_name": "KOSASIH/EMAR-Mini", "src_encoding": "UTF-8", "text": "############################################################################################\n#\n# Project: Peter Moss COVID-19 AI Research Project\n# Repository: EMAR Mini, Emergency Assistance Robot\n#\n# Author: Adam Milton-Barker (AdamMiltonBarker.com)\n# Contributors:\n# Title: EMAR Mini TASS Class\n# Description: TASS functions for the EMAR Mini, Emergency Assistance Robot Emergency \n# Assistance Robot.\n# License: MIT License\n# Last Modified: 2020-05-26\n#\n############################################################################################\n\nimport cv2, os\n\nfrom Classes.Helpers import Helpers\n\nclass TASS():\n \n def __init__(self):\n \"\"\" TASS Class\n \n TASS functions for the EMAR Mini, Emergency Assistance Robot Emergency\n Assistance Robot.\n \"\"\"\n \n self.Helpers = Helpers(\"TASS\", False)\n self.Helpers.logger.info(\"TASS Helper Class initialization complete.\")\n \n def connect(self):\n \"\"\" Connects to the local TASS. \"\"\"\n \n self.lcv = cv2.VideoCapture(self.Helpers.confs[\"TASS\"][\"vid\"])\n \n self.Helpers.logger.info(\"Connected To TASS\")" }, { "alpha_fraction": 0.5354070067405701, "alphanum_fraction": 0.5420251488685608, "avg_line_length": 33.3636360168457, "blob_id": "224353e0860a45dc71c62f6d500994427edf0dca", "content_id": "69564c5ca39341bafd038cbcfa201b2420db65b1", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1511, "license_type": "permissive", "max_line_length": 92, "num_lines": 44, "path": "/Devices/1/Classes/Wheels.py", "repo_name": "KOSASIH/EMAR-Mini", "src_encoding": "UTF-8", "text": "############################################################################################\n#\n# Project: Peter Moss COVID-19 AI Research Project\n# Repository: EMAR Mini, Emergency Assistance Robot\n#\n# Author: Adam Milton-Barker (AdamMiltonBarker.com)\n# Contributors:\n# Title: EMAR Mini Wheels Class\n# Description: Wheel functions for EMAR Mini Emergency Assistance Robot.\n# License: MIT License\n# Last Modified: 2020-05-26\n#\n############################################################################################\n\nimport sys\n\nfrom Classes.Helpers import Helpers\n\nclass Wheels():\n \"\"\" Wheels Class\n \n Wheel functions for EMAR Mini Emergency Assistance Robot.\n \"\"\"\n \n def __init__(self):\n \"\"\" Initializes the class. \"\"\"\n \n self.Helpers = Helpers(\"Wheels\", False) \n self.Helpers.logger.info(\"Wheels Helper Class initialization complete.\")\n \n def move(self, direction, message):\n \"\"\" Moves the wheels\n \n Interpret commands from the iotJumpWay into actions, moving the wheels.\n \"\"\"\n \n if direction == \"FORWARD\":\n self.Helpers.logger.info(\"Move FORWARD not yet supported!\")\n elif direction == \"BACKWARD\":\n self.Helpers.logger.info(\"Move BACKWARD not yet supported!\")\n elif direction == \"LEFT\":\n self.Helpers.logger.info(\"Move LEFT not yet supported!\")\n elif direction == \"RIGHT\":\n self.Helpers.logger.info(\"Move RIGHT not yet supported!\")" }, { "alpha_fraction": 0.5372017025947571, "alphanum_fraction": 0.5460926294326782, "avg_line_length": 32.92063522338867, "blob_id": "f54fe059c2c90d31161eda3b3cecb9faa189f575", "content_id": "74d0c8fc34a4cdaa740500755a7ceb99621de516", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2137, "license_type": "permissive", "max_line_length": 92, "num_lines": 63, "path": "/Devices/2/Classes/Arm.py", "repo_name": "KOSASIH/EMAR-Mini", "src_encoding": "UTF-8", "text": "############################################################################################\n#\n# Project: Peter Moss COVID-19 AI Research Project\n# Repository: EMAR Mini, Emergency Assistance Robot\n#\n# Author: Adam Milton-Barker (AdamMiltonBarker.com)\n# Contributors:\n# Title: EMAR Mini Arm Class\n# Description: Arm functions for EMAR Mini Emergency Assistance Robot.\n# License: MIT License\n# Last Modified: 2020-05-26\n#\n############################################################################################\n\nimport mraa, sys, time\n\nfrom Classes.Helpers import Helpers\nfrom Classes.Servos import Servos\n\nclass Arm():\n \"\"\" Arm Class\n \n Arm functions for EMAR Mini Emergency Assistance Robot.\n \"\"\"\n \n def __init__(self):\n \"\"\" Initializes the class. \"\"\"\n \n self.Helpers = Helpers(\"Servos\", False)\n self.Servos = Servos()\n\n self.Servos.setup()\n \n self.Helpers.logger.info(\"Servos Helper Class initialization complete.\")\n \n def move(self, direction, message):\n \"\"\" Moves the arm\n \n Interpret commands from the iotJumpWay into actions, moving the arm.\n \"\"\"\n \n if direction == \"LEFT\":\n self.Servos.left(self.Servos.servo1)\n self.Helpers.logger.info(\"Moved LEFT!\")\n elif direction == \"RIGHT\":\n self.Servos.right(self.Servos.servo1)\n self.Helpers.logger.info(\"Moved RIGHT!\")\n elif direction == \"UP\":\n self.Servos.up(self.Servos.servo2)\n self.Helpers.logger.info(\"Move UP\")\n elif direction == \"DOWN\":\n self.Servos.down(self.Servos.servo2)\n self.Helpers.logger.info(\"Move DOWN\")\n elif direction == \"CLOSE\":\n self.Servos.close(self.Servos.servo3)\n self.Helpers.logger.info(\"Gripper CLOSED!\")\n elif direction == \"OPEN\":\n self.Servos.right(self.Servos.servo3)\n self.Helpers.logger.info(\"Gripper OPEN!\")\n \n self.Servos.reset(self.Servos.servo1) \n self.Servos.reset(self.Servos.servo2) \n self.Servos.reset(self.Servos.servo3) " } ]	8
fipanther/christoffel	https://github.com/fipanther/christoffel	0e24d35c9a659c34db5cdd08f66e229bccd99967	4629710f68858c49d8e122a17c4bca9bd0050a3f	849c84dfbda3aac71ce827c68879cce66a928dd0	refs/heads/master	2021-01-13T03:18:09.824312	2016-12-29T04:58:54	2016-12-29T04:58:54	77,583,745	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.57230144739151, "alphanum_fraction": 0.5940257906913757, "avg_line_length": 35.70000076293945, "blob_id": "bd6db3324072722f82ca4d7125a93ab525ca184a", "content_id": "f7ed4db0e58e6947fba2639d548788d9bb235aa2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1473, "license_type": "no_license", "max_line_length": 242, "num_lines": 40, "path": "/christoffel.py", "repo_name": "fipanther/christoffel", "src_encoding": "UTF-8", "text": "from __future__ import division, print_function\nimport sympy\nimport numpy\nimport scipy\n\nclass christoffel2:\n def __init__(self, metric):\n \n # takes a Sympy matrix and makes the metric g_{ab}\n self.metric = metric\n self.metric_dim = numpy.shape(self.metric)\n \n # raise an exception if the metric dimensions are not equal\n if not self.metric_dim[0]==self.metric_dim[1]:\n raise ValueError('Metric dimensions must be equal')\n \n # takes the metric and calculates the inverse metric g^{ab}\n self.metric_inverse = self.metric.inv()\n \n\n def calculate(self, symbol_list, idx1, idx2, idx3):\n \n # calculate one Christoffel symbol only - \\Gamma^{idx1}_{idx2 idx3}\n self.symbol_list = symbol_list\n \n self.idx1 = idx1\n self.idx2 = idx2\n self.idx3 = idx3\n\n self.i_idx1 = self.symbol_list.index(idx1)\n self.i_idx2 = self.symbol_list.index(idx2)\n self.i_idx3 = self.symbol_list.index(idx3)\n \n out = 0\n \n # now calculate the desired christoffel symbol\n for i in range(0, len(self.symbol_list)):\n out = out + (0.5(self.metric_inverse[i, self.i_idx1](sympy.diff(self.metric[i, self.i_idx2], self.idx3)+sympy.diff(self.metric[i, self.i_idx3], self.idx2)-sympy.diff(self.metric[self.i_idx2, self.i_idx3], self.symbol_list[i]))))\n \n return out\n\n\n\n\n\n" }, { "alpha_fraction": 0.7011235952377319, "alphanum_fraction": 0.714606761932373, "avg_line_length": 23.55555534362793, "blob_id": "e0adb2f88ae4161af39f4258a8cc74f53bfee84b", "content_id": "3bbf842166f4d8f60ffe9aa71a3501c120a87aa9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 445, "license_type": "no_license", "max_line_length": 56, "num_lines": 18, "path": "/christoffeltest.py", "repo_name": "fipanther/christoffel", "src_encoding": "UTF-8", "text": "from __future__ import division, print_function\nfrom christoffel import christoffel2\nimport sympy\nfrom sympy.matrices import Matrix\nimport numpy\nimport scipy\n\nr, t = sympy.symbols('r t')\n\nmetric = Matrix([[1,0],[0,r**2]])\n\na = christoffel2(metric)\n\nchristoffel_trt = a.calculate((r, t), t, r, t)\nchristoffel_ttr = a.calculate((r,t), t,t,r)\nchristoffel_trr = a.calculate((r,t), t,r,r)\n\nprint(christoffel_trt, christoffel_ttr, christoffel_trr)\n\n\n\n" } ]	2
marcoceppi/bundle-beats-core	https://github.com/marcoceppi/bundle-beats-core	548dcd6e0aba559378c689a3190203d092eccdc0	891d1b7d2a6e8daefe262c47257490eac2631505	533a7697e7ef1f9a2ea5c5717e967b785262259d	refs/heads/master	2021-01-12T14:46:14.295023	2016-09-26T22:20:33	2016-09-26T22:20:33	72,083,495	0	0	null	2016-10-27T07:40:27	2016-04-29T22:40:02	2016-10-13T17:25:20	null	[ { "alpha_fraction": 0.5569892525672913, "alphanum_fraction": 0.5724014043807983, "avg_line_length": 36.702701568603516, "blob_id": "2869d50d653a7a29aa1003ce5eeac49b9a9f9028", "content_id": "5055fa4b64648c7b3b5587590b8f353236b66c94", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2790, "license_type": "no_license", "max_line_length": 110, "num_lines": 74, "path": "/tests/10-deploy", "repo_name": "marcoceppi/bundle-beats-core", "src_encoding": "UTF-8", "text": "#!/usr/bin/python3\n\nimport amulet\nimport unittest\n\n\nclass TestCharm(unittest.TestCase):\n\n @classmethod\n def setUp(cls):\n\n if not cls.bundle:\n # Get the relative bundle path from the environment variable.\n cls.bundle = os.getenv('BUNDLE', 'bundle.yaml')\n # Create a path to the bundle based on this file's location.\n cls.bundle_path = os.path.join(os.path.dirname(__file__),\n '..',\n cls.bundle)\n # Normalize the path to the bundle.\n cls.bundle_path = os.path.abspath(cls.bundle_path)\n\n print('Deploying bundle: {0}'.format(cls.bundle_path))\n\n cls.deployment = amulet.Deployment()\n with open(cls.bundle_path, 'r') as bundle_file:\n contents = yaml.safe_load(bundle_file)\n cls.deployment.load(contents)\n try:\n cls.deployment.setup(tiemout=1200)\n cls.deployment.sentry.wait()\n\n # Beats core is an incomplete bundle by design. We want to\n # encapsulate the infrastructure, and let the beats agents be\n # the entrypoint into many other bundles.\n\n cls.d.add('ubuntu', 'cs:trusty/ubuntu')\n cls.d.relate('topbeat:beats-host', 'ubuntu:juju-info')\n cls.d.relate('filebeatbeat:beats-host', 'ubuntu:juju-info')\n\n cls.d.setup(timeout=1200)\n cls.d.sentry.wait()\n\n cls.elasticsearch = self.d.sentry['elasticsearch'][0]\n cls.topbeat = self.d.sentry['topbeat'][0]\n cls.filebeat = self.d.sentry['filebeat'][0]\n\n\n def test_elasticsearch_host_in_templating(self):\n es_address = self.elasticsearch.relation('client', 'topbeat:elasticsearch')['private-address'] # noqa\n config = self.topbeat.file_contents('/etc/topbeat/topbeat.yml')\n self.assertTrue(es_address in config)\n\n def test_config_options(self):\n self.d.configure('filebeat',\n {'logpath': '/var/log/*.log /tmp/amulet.log',\n 'harvester_buffer_size': '9999',\n 'max_bytes': '10485761'})\n self.d.sentry.wait()\n config = self.filebeat.file_contents('/etc/filebeat/filebeat.yml')\n self.assertTrue('/tmp/amulet.log' in config)\n self.assertTrue('9999' in config)\n self.assertTrue('10485761' in config)\n\n def test_config_options(self):\n self.d.configure('topbeat',\n {'procs': '^$',\n 'period': '187'})\n self.d.sentry.wait()\n config = self.topbeat.file_contents('/etc/topbeat/topbeat.yml')\n self.assertTrue('^$' in config)\n self.assertTrue('187' in config)\n\nif __name__ == \"__main__\":\n unittest.main()\n" }, { "alpha_fraction": 0.7825070023536682, "alphanum_fraction": 0.7829747200012207, "avg_line_length": 32.93650817871094, "blob_id": "3b5bb3e83079771edd3e3dd3ef20d0410e48b4da", "content_id": "12ec23bb31b5e5725b201e93cadfdc6cc86ce4d9", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 2140, "license_type": "no_license", "max_line_length": 81, "num_lines": 63, "path": "/README.md", "repo_name": "marcoceppi/bundle-beats-core", "src_encoding": "UTF-8", "text": "# Beats\n\nBeats are the core of data shipping in the new Elastic Stack by Elastic Co.\nFamous for their ELK stack, these succeed any agents you might be familiar with.\n\n### Filebeat\n\nA lightweight, open source shipper for log file data. As the next-generation\nLogstash Forwarder, Filebeat tails logs and quickly sends this information to\nLogstash for further parsing and enrichment or to Elasticsearch for centralized\nstorage and analysis.\n\n### Topbeat\n\n A lightweight way to gather CPU, memory, and other per-process and\n system wide data, then ship it to Elasticsearch to analyze the results.\n\n### Packetbeat\n\nAn open source project that is designed to provide\nreal‑time analytics for web, database, and other network protocols.\n\n### Dockerbeat\n\nA lightweight, open source shipper for docker daemon data. Dockerbeat polls\nthe Docker Engine daemon, and sends cpu, network, memory, and host\ninformation to Logstash for further parsing and enrichment or to Elasticsearch\nfor centralized storage and analysis.\n\n\n# Usage\n\nDeployment is straight forward. Deploy the beats-core bundle to stand up the\nlog aggregation and visualization applications, and relate the agents to your\nservices. Load the example dashboard and you're ready to go!\n\n juju deploy myservice\n juju deploy ~containers/bundle/beats-core\n juju add-relation filebeat:beats-host myservice\n juju add-relation topbeat:beats-host myservice\n\nWith our services on the way, once the model has settled deploy the beats\ndashboard in Kibana.\n\n juju action do kibana/0 load-dashboard dashboard=beats\n\nYou will notice new indexes in kibana, and some default demonstration dashboards\nhave been loaded. This is a full beats suite dashboard. You can now navigate\nto `http://<kibana-public-ip>/dashboards` and load up the topbeat dash and you're\nin business!\n\nNote: This demo dashboard also ships with visualizations we are not yet\npopulating for winlogbeat beats.\n\n## Contact information\n\n- Charles Butler <[email protected]>\n- Matt Bruzek <[email protected]>\n\n# Need Help?\n\n- [Juju mailing list](https://lists.ubuntu.com/mailman/listinfo/juju)\n- [Juju Community](https://jujucharms.com/community)\n" } ]	2
pasmurnyy/s.echo-server	https://github.com/pasmurnyy/s.echo-server	52d13f31efb8c2605794ca89c2ce83feeab38d36	d0b42b15b55613c3345a2ad453ef0a46c299db8c	06adc35bf2fdf866aea5a3a947e098fb3aa3e6c2	refs/heads/main	2023-04-15T17:10:45.205026	2021-04-27T17:48:14	2021-04-27T17:48:14	357,228,320	1	0	null	null	null	null	null	[ { "alpha_fraction": 0.5849056839942932, "alphanum_fraction": 0.6352201104164124, "avg_line_length": 13.899999618530273, "blob_id": "cee3ead7fa715526b177a0cbb4a2d1ef57e93d7b", "content_id": "cc045676fb9c53a2fc4846ff55df41a5f49b7e27", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 159, "license_type": "no_license", "max_line_length": 34, "num_lines": 10, "path": "/client.py", "repo_name": "pasmurnyy/s.echo-server", "src_encoding": "UTF-8", "text": "import socket\r\n\r\nsock = socket.socket()\r\nsock.connect(('Local host', 5050))\r\nsock.send('hi, i`m Tom!')\r\n\r\ndata = sock.recv(1024)\r\nsock.close()\r\n\r\nprint(data)\r\n" } ]	1
leighsix/CompetitionPycharm	https://github.com/leighsix/CompetitionPycharm	1363442b561669023ab8188e967e7ddeb5260b23	4cf8908970ce313462ff6541ef26d7e41701dd4e	28e82c9746feb3447bb7235075e47512b64ce086	refs/heads/master	2020-04-15T17:52:34.911814	2019-05-09T14:07:23	2019-05-09T14:07:23	164,891,454	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6124358773231506, "alphanum_fraction": 0.6208873987197876, "avg_line_length": 46.17142868041992, "blob_id": "2a59c54f608fd49e29684a29391e48bae6f38720", "content_id": "4cd4beb682ae60dbf0581db252dca5ce79c248b1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3313, "license_type": "no_license", "max_line_length": 123, "num_lines": 70, "path": "/InterconnectedDynamics.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import numpy as np\nimport networkx as nx\nimport Setting_Simulation_Value\nimport OpinionDynamics\nimport DecisionDynamics\nimport MakingPandas\nimport InterconnectedLayerModeling\nimport matplotlib\nimport time\nmatplotlib.use(\"Agg\")\n\n\nclass InterconnectedDynamics:\n def __init__(self):\n self.opinion = OpinionDynamics.OpinionDynamics()\n self.decision = DecisionDynamics.DecisionDynamics()\n self.mp = MakingPandas.MakingPandas()\n\n def interconnected_dynamics(self, setting, inter_layer, gamma, beta):\n total_value = np.zeros(15)\n for step_number in range(setting.Limited_step+1):\n if step_number == 0:\n decision_prob = self.decision.B_state_change_probability_cal(setting, inter_layer, beta)\n opinion_prob = self.opinion.A_state_change_probability_cal(inter_layer, gamma)\n initial_value = self.making_properties_array(setting, inter_layer, gamma, beta, opinion_prob[1],\n opinion_prob[2], decision_prob[1])\n total_value = total_value + initial_value\n elif step_number >= 1:\n opinion_result = self.opinion.A_layer_dynamics(setting, inter_layer, gamma)\n decision_result = self.decision.B_layer_dynamics(setting, opinion_result[0], beta)\n array_value = self.making_properties_array(setting, decision_result[0], gamma, beta, opinion_result[1],\n opinion_result[2], decision_result[1])\n total_value = np.vstack([total_value, array_value])\n self.opinion.A_COUNT = 0\n self.decision.B_COUNT = 0\n return total_value\n\n def making_properties_array(self, setting, inter_layer, gamma, beta, persuasion_prob, compromise_prob, prob_beta_mean):\n interacting_properties = self.mp.interacting_property(setting, inter_layer)\n change_count = self.opinion.A_COUNT + self.decision.B_COUNT\n array_value = np.array([gamma, beta, prob_beta_mean, persuasion_prob, compromise_prob,\n interacting_properties[0], interacting_properties[1],\n interacting_properties[2], interacting_properties[3],\n interacting_properties[4], interacting_properties[5],\n interacting_properties[6],\n len(sorted(inter_layer.A_edges.edges)), len(inter_layer.B_edges),\n change_count])\n return array_value\n\n\nif __name__ == \"__main__\":\n print(\"InterconnectedDynamics\")\n start = time.time()\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n inter_layer = InterconnectedLayerModeling.InterconnectedLayerModeling(setting)\n gamma = 0.5\n beta = 1.5\n state = 0\n for i in range(setting.A_node):\n state += inter_layer.two_layer_graph.nodes[i]['state']\n print(state)\n inter_dynamics = InterconnectedDynamics()\n array = inter_dynamics.interconnected_dynamics(setting, inter_layer, gamma, beta)\n print(array)\n state = 0\n for i in range(setting.A_node):\n state += inter_layer.two_layer_graph.nodes[i]['state']\n print(state)\n end = time.time()\n print(end-start)\n\n\n\n\n\n\n\n\n\n\n\n" }, { "alpha_fraction": 0.4981715679168701, "alphanum_fraction": 0.5230839848518372, "avg_line_length": 35.63407897949219, "blob_id": "110d907645514b7f5447da20379034f826da73f3", "content_id": "12e9b56f41f793e5f9d788dea2ac854bd0ad17b1", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 13678, "license_type": "no_license", "max_line_length": 133, "num_lines": 358, "path": "/AnalysisDB.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import Setting_Simulation_Value\nimport sqlalchemy\nimport pandas as pd\nimport numpy as np\nimport matplotlib.pyplot as plt\nimport matplotlib\nfrom sympy import \nimport SelectDB\nimport seaborn as sns\nfrom mpl_toolkits.mplot3d.axes3d import \nmatplotlib.use(\"TkAgg\")\n\n\nclass AnalysisDB:\n def __init__(self):\n self.select_db = SelectDB.SelectDB()\n\n def making_property_array(self, setting, step, a):\n property_array = np.zeros(11)\n df_original = self.select_db.select_data_from_DB(setting)\n df_step = df_original[df_original.Steps == step]\n model = df_step['MODEL']\n model = sorted(model.unique())\n for m in model:\n df_model = df_step[df_step.MODEL == m]\n A_nodes = df_model['A_node_number']\n A_nodes = sorted(A_nodes.unique())\n for an in A_nodes:\n df_an = df_model[df_model.A_node_number == an]\n B_nodes = df_an['B_node_number']\n B_nodes = sorted(B_nodes.unique())\n for bn in B_nodes:\n df_bn = df_an[df_an.B_node_number == bn]\n A_edges = df_bn['A_internal_edges']\n A_edges = sorted(A_edges.unique())\n for ae in A_edges:\n df_ae = df_bn[df_bn.A_internal_edges == ae]\n B_edges = df_ae['B_internal_edges']\n B_edges = sorted(B_edges.unique())\n for be in B_edges:\n df_be = df_ae[df_ae.B_internal_edges == be]\n total_AS = self.calculate_total_AS(setting, df_be)\n total_fraction_ab = self.calculate_fraction_ab_total(df_be)\n pcr, ncr = self.calculate_consensus_number(setting, df_be, a)\n initial_value = np.array([m, an, bn, ae, be, step,\n total_AS, total_fraction_ab, pcr,\n ncr, pcr+ncr])\n property_array = np.vstack([property_array, initial_value])\n property_data = property_array[1:]\n columns = ['Model', 'A nodes', 'B nodes', 'A edges', 'B edges', 'steps', 'AS total', 'Fraction AB total', 'PCR',\n 'NCR', 'CR']\n df = pd.DataFrame(property_data, columns=columns)\n return df\n\n def calculate_total_AS(self, setting, df):\n AS = (df['LAYER_A_MEAN'] / setting.MAX + df['LAYER_B_MEAN']) / 2\n total_AS = sum(AS) / len(AS)\n return total_AS\n\n\n def calculate_consensus_number(self, setting, df, a): # 옛날 버전에 적용할 consensus 수 계산 인덱스\n pos_con = 0\n neg_con = 0\n signed_CI = (df['LAYER_A_MEAN'] / setting.MAX) + df['LAYER_B_MEAN']\n for i in range(len(df)):\n if signed_CI.iloc[i] > a: # 원래 1.9\n pos_con += 1\n elif signed_CI.iloc[i] < -a: # 원래 -1.9\n neg_con += 1\n pos_con = pos_con / len(df)\n neg_con = neg_con / len(df)\n return pos_con, neg_con\n\n def calculate_fraction_ab_total(self, df):\n fraction_ab = df['FRACTION_A'] + df['FRACTION_B']\n total_fraction_ab = sum(fraction_ab) / len(fraction_ab)\n return total_fraction_ab\n\n def making_hist_for_pcr(self, df):\n fig = plt.figure() # 그래프 창생성\n ax = fig.add_subplot(111)\n N = len(df)\n tuples = self.making_tuple_data(df)\n PCRs = tuples[1] # 남학생 수\n NCRs = tuples[2] # 여학생 수\n ind = np.arange(N) # x축\n width = 0.3 # 너비\n p1 = ax.bar(ind, PCRs, width, color='SkyBlue') # subplot에 bar chart 생성(남학생)\n p2 = ax.bar(ind, NCRs, width, color='IndianRed', bottom=PCRs) # subplot에 bar chart 생성(여학생), bottom 옵션에 남학생 위에다 그리기\n ax.set_ylabel('ratio of state', fontsize=16) # y축 라벨\n ax.set_xlabel('model', fontsize=16) # x축 라벨\n ax.set_title('consensus ratio of models', fontsize=18) # subplot의 제목\n ax.set_yticks(np.arange(0, 1.2, 0.2)) # 0 ~ 81까지 10간격식으로 y축 틱설정\n ax.set_xticks(ind) # x축 틱설정\n ax.set_xticklabels(tuples[0]) # x축 틱 라벨설정\n ax.tick_params(labelsize=11)\n plt.legend((p1[0], p2[0]), (\"PCR\", \"NCR\"), loc=0, fontsize=14)\n plt.show()\n plt.close()\n\n def making_hist_for_index(self, df):\n N = len(df)\n tuples = self.making_tuple_data(df)\n CIs = tuples[4]\n FRs = tuples[5]\n CRs = tuples[6]\n ind = np.arange(N) # x축\n width = 0.2 # 너비\n fig, ax = plt.subplots()\n\n p1 = ax.bar(ind - width, CIs, width, color='SkyBlue', label='AS')\n p2 = ax.bar(ind, FRs, width, color='IndianRed', label='FR')\n p3 = ax.bar(ind + width, CRs, width, color='green', label='CR') # subplot에 bar chart 생성(여학생), bottom 옵션에 남학생 위에다 그리기\n ax.set_ylabel('values', fontsize=18) # y축 라벨\n ax.set_xlabel('model', fontsize=18) # x축 라벨\n ax.set_title('consensus index of models', fontsize=18) # subplot의 제목\n ax.set_yticks(np.arange(0, 2.2, 0.2)) # 0 ~ 81까지 10간격식으로 y축 틱설정\n ax.set_xticks(ind) # x축 틱설정\n ax.set_xticklabels(tuples[0]) # x축 틱 라벨설정\n ax.tick_params(labelsize=8)\n plt.legend((p1[0], p2[0], p3[0]), (\"CI\", \"FR\", \"CR\"), loc=0, fontsize=14)\n plt.show()\n plt.close()\n\n def making_property_array_for_new(self, setting, step):\n property_array = np.zeros(5)\n df_original = self.select_db.select_data_from_DB(setting)\n df_step = df_original[df_original.Steps == step]\n model = df_step['MODEL']\n model = sorted(model.unique())\n for m in model:\n df_model = df_step[df_step.MODEL == m]\n total_AS = self.calculate_total_AS_new(df_model)\n pcr, ncr = self.calculate_consensus_number_new(df_model)\n initial_value = np.array([m, total_AS, pcr, ncr, pcr+ncr])\n property_array = np.vstack([property_array, initial_value])\n property_data = property_array[1:]\n columns = ['Model', 'AS total', 'PCR', 'NCR', 'CR']\n df = pd.DataFrame(property_data, columns=columns)\n return df\n\n def making_mixed_hist(self, df):\n fig = plt.figure() # 그래프 창생성\n ax = fig.add_subplot(111)\n N = len(df)\n tuples = self.making_tuple_data(df)\n PCRs = tuples[1] # 남학생 수\n NCRs = tuples[2] # 여학생 수\n CIs = tuples[3]\n ind = np.arange(N) # x축\n width = 0.2 # 너비\n p1 = ax.bar(ind-(width/2), PCRs, width, color='SkyBlue') # subplot에 bar chart 생성(남학생)\n p2 = ax.bar(ind-(width/2), NCRs, width, color='IndianRed', bottom=PCRs) # subplot에 bar chart 생성(여학생), bottom 옵션에 남학생 위에다 그리기\n p3 = ax.bar(ind+(width/2), CIs, width, color='palegreen', label='AS')\n\n ax.set_xlabel('model', fontsize=16) # x축 라벨\n ax.set_title('Competition results', fontsize=18) # subplot의 제목\n ax.set_yticks(np.arange(0, 1.2, 0.2)) # 0 ~ 81까지 10간격식으로 y축 틱설정\n ax.set_xticks(ind) # x축 틱설정\n ax.set_xticklabels(tuples[0]) # x축 틱 라벨설정\n ax.tick_params(labelsize=13)\n plt.legend((p1[0], p2[0], p3[0]), (\"PCR\", \"NCR\", \"AS total\"), loc=0, fontsize=14)\n plt.show()\n plt.close()\n\n def making_tuple_data(self, df):\n model = []\n pcrs = []\n ncrs = []\n As = []\n fr = []\n cr = []\n for i in df['Model']:\n model.append(i)\n model = tuple(model)\n for i in df['PCR']:\n pcrs.append(eval(i))\n pcrs = tuple(pcrs)\n for i in df['NCR']:\n ncrs.append(eval(i))\n ncrs = tuple(ncrs)\n for i in df['AS total']:\n As.append(eval(i))\n As = tuple(As)\n for i in df['Fraction AB total']:\n fr.append(eval(i))\n fr = tuple(fr)\n for i in df['CR']:\n cr.append(eval(i))\n cr = tuple(cr)\n return model, pcrs, ncrs, As, fr, cr\n\n def calculate_total_AS_new(self, df):\n total_AS = sum(df['AS']) / len(df)\n return total_AS\n\n def calculate_consensus_number_new(self, df):\n pos_con = 0\n neg_con = 0\n signed_CI = df['AS']\n for i in range(len(df)):\n if signed_CI.iloc[i] > 0.95:\n pos_con += 1\n elif signed_CI.iloc[i] < -0.95:\n neg_con += 1\n return pos_con/len(df), neg_con/len(df)\n\n def making_tuple_data_new(self, df):\n model = []\n As = []\n pcrs = []\n ncrs = []\n cr = []\n for i in df['Model']:\n model.append(i)\n model = tuple(model)\n for i in df['AS total']:\n As.append(eval(i))\n As = tuple(As)\n for i in df['PCR']:\n pcrs.append(eval(i))\n pcrs = tuple(pcrs)\n for i in df['NCR']:\n ncrs.append(eval(i))\n ncrs = tuple(ncrs)\n\n for i in df['CR']:\n cr.append(eval(i))\n cr = tuple(cr)\n return model, As, pcrs, ncrs, cr\n\n def making_mixed_hist_new(self, df):\n fig = plt.figure() # 그래프 창생성\n ax = fig.add_subplot(111)\n N = len(df)\n tuples = self.making_tuple_data_new(df)\n CIs = tuples[1]\n PCRs = tuples[2] # 남학생 수\n NCRs = tuples[3] # 여학생 수\n ind = np.arange(N) # x축\n width = 0.2 # 너비\n p1 = ax.bar(ind-(width/2), PCRs, width, color='SkyBlue') # subplot에 bar chart 생성(남학생)\n p2 = ax.bar(ind-(width/2), NCRs, width, color='IndianRed', bottom=PCRs) # subplot에 bar chart 생성(여학생), bottom 옵션에 남학생 위에다 그리기\n p3 = ax.bar(ind+(width/2), CIs, width, color='palegreen', label='AS')\n\n ax.set_xlabel('model', fontsize=16) # x축 라벨\n ax.set_title('Competition results', fontsize=18) # subplot의 제목\n ax.set_yticks(np.arange(0, 1.2, 0.2)) # 0 ~ 81까지 10간격식으로 y축 틱설정\n ax.set_xticks(ind) # x축 틱설정\n ax.set_xticklabels(tuples[0]) # x축 틱 라벨설정\n ax.tick_params(labelsize=13)\n plt.legend((p1[0], p2[0], p3[0]), (\"PCR\", \"NCR\", \"AS total\"), loc=0, fontsize=14)\n plt.show()\n plt.close()\n #'CI total', 'Fraction AB total', 'CR'\n\nif __name__ == \"__main__\":\n print(\"AnalysisDB\")\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n analysis_db = AnalysisDB()\n # setting.database = 'paper_revised_data'\n # setting.table = 'simulation_table2'\n # df = analysis_db.making_property_array_for_new(setting, 100)\n # analysis_db.making_mixed_hist_new(df)\n # df = pd.read_pickle('df1')\n # print(df.head())\n\n\n # setting.database = 'competition'\n # setting.table = 'result_db'\n # df1 = analysis_db.making_property_array(setting, 30, 1.9)\n # df2 = analysis_db.making_property_array(setting, 100, 1.95)\n # setting.database = 'paper_revised_data'\n # setting.table = 'simulation_table'\n # df3 = analysis_db.making_property_array(setting, 100, 1.95)\n # df = pd.concat([df1, df2, df3], ignore_index=True)\n # df = df.iloc[:, [0, 6, 8, 9, 10]]\n # print(df)\n # pd.to_pickle(df, 'df1')\n df = pd.read_pickle('df1')\n # print(df)\n # fig.6 # different structures\n df = df.loc[[9, 8, 1, 0, 3], :]\n df['Model'] = ['RR(5)-RR(5)', 'RR(5)-BA', 'BA-RR(5)', 'BA-BA', 'RR(10)-RR(5)']\n analysis_db.making_mixed_hist_new(df)\n\n # fig.5 # different internal edges\n # df = df.loc[[4, 5, 6, 9], :]\n # analysis_db.making_mixed_hist_new(df)\n\n # fig.4 # Hierarchical Model\n # df = df.loc[[0, 2, 4, 6, 1, 3, 5], :]\n # df['Model'] = ['RRM', 'HM(2)', 'HM(4)', 'HM(8)', 'HM(16)', 'HM(32)', 'HM(64)']\n # analysis_db.making_mixed_hist(df)\n\n\n # df = pd.concat([df2, df3], ignore_index=True)\n\n\n # df = df.iloc[:, [0, 6, 8, 9, 10]]\n # print(df)\n # for i in [0, 2, 4, 6, 1, 3, 5]:\n # print(df.iloc[i, :])\n # analysis_db.making_mixed_hist(df)\n\n #\n # df.iloc[0, 0] = 'LM(1)'\n\n\n\n\n #analysis_db.making_hist_for_pcr(df)\n # analysis_db.making_mixed_hist(df)\n\n # df = df.loc[[7, 9, 8, 1, 0, 3, 4, 5, 6, 11, 13, 15, 10, 12, 14], :]\n # df = df.loc[[4, 5, 6, 7], :]\n # df = df.loc[[7, 8, 1, 0, 3], :]\n\n # df.iloc[0, 0] = 'BM(30)'\n # df.iloc[1, 0] = 'BM(100)'\n\n\n # df = df.iloc[:, [0, 6, 8, 9, 10]]\n # for i in range(15):\n # print(df.iloc[i, :])\n\n\n # print(df)\n\n # for i in range(len(df)):\n # print(df['Model'][i], df['AS total'][i])\n #print(df['Model'])\n #df = df.iloc[4:8, :]\n #df = df.loc[[7, 1, 3, 0, 8], :]\n\n #'CI total', 'Fraction AB total', 'PCR', 'NCR', 'CR'\n #df = df[df.Model == 'LM']\n #print(df['AS total'])\n\n\n #print(format(eval(df['CR']), '10.4f'), format(eval(df['NCR']), '10.4f'), format(eval(df['PCR']), '10.4f'))\n # df = df.sort_values(by='CR', ascending=False)\n # print(tuple(df['Model']))\n #\n # df = df.sort_values(by='NCR', ascending=False)\n # print(tuple(df['Model']))\n #\n # df = df.sort_values(by='PCR', ascending=False)\n # print(tuple(df['Model']))\n\n\n\n #tuples = analysis_db.making_tuple_data(df)\n #\n\n # NCRs = tuple(array['NCR'])\n # Coexs = tuple(array['CR'])\n # print(Coexs)\n\n\n\n\n\n\n\n\n\n\n\n" }, { "alpha_fraction": 0.617464542388916, "alphanum_fraction": 0.6218971610069275, "avg_line_length": 36.599998474121094, "blob_id": "ff66513c5329d92b295c41f3d901349778b237a3", "content_id": "fb57dfcdbefa10d77ddf2a8d2a7ff90cd8dfa244", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2286, "license_type": "no_license", "max_line_length": 121, "num_lines": 60, "path": "/Layer_B_Modeling.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import networkx as nx\nimport numpy as np\nimport pandas as pd\nimport random\nimport Setting_Simulation_Value\nimport math\n## B layer : B, B_edges\n\n\nclass Layer_B_Modeling:\n def __init__(self, setting):\n self.B_edges = self.B_layer_config(setting)\n self.B_node_info = self.making_node_info()\n self.G_B = self.making_layer_B_graph(setting)\n\n def making_layer_B_graph(self, setting):\n self.G_B = nx.Graph()\n for i in range(setting.B_node):\n self.G_B.add_node(i, name='B_%s' % i, state=setting.B[i])\n B_edges_list = sorted(self.B_edges.edges)\n self.G_B.add_edges_from(B_edges_list)\n return self.G_B\n\n def B_layer_config(self, setting): # B_layer 구성요소 B_layer_config(state = [-1], node = 2048, edge = 5, inter_edge= 1)\n self.select_layer_B_model(setting)\n return self.B_edges\n\n def select_layer_B_model(self, setting):\n if setting.Structure.split('-')[1] == 'RR':\n self.making_layer_B_random_regular(setting)\n elif setting.Structure.split('-')[1] == 'BA':\n self.making_layer_B_barabasi_albert(setting)\n return self.B_edges\n\n def making_layer_B_random_regular(self, setting): # B_layer random_regular network\n self.B_edges = nx.random_regular_graph(setting.B_edge, setting.B_node, seed=None)\n return self.B_edges\n\n def making_layer_B_barabasi_albert(self, setting): # B_layer 바바라시-알버트 네트워크\n self.B_edges = nx.barabasi_albert_graph(setting.B_node, setting.B_edge, seed=None)\n return self.B_edges\n\n def making_node_info(self): # layer, node_number, location\n node_info = [{'node_number': i, 'layer': 'B', 'location': (random.random(), random.random())}\n for i in sorted(self.B_edges.nodes)]\n node_info = pd.DataFrame(node_info, columns=['node_number', 'layer', 'location'])\n return node_info\n\n\nif __name__ == \"__main__\":\n print(\"layer_B\")\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n Layer_B = Layer_B_Modeling(setting)\n #B = Layer_B.B\n #B_edges = Layer_B.B_edges\n print(Layer_B.G_B.nodes)\n state = 0\n for i in range(len(Layer_B.G_B.nodes)) :\n state += Layer_B.G_B.nodes[i]['state']\n print(state)\n" }, { "alpha_fraction": 0.5130938291549683, "alphanum_fraction": 0.5215527415275574, "avg_line_length": 45.8967399597168, "blob_id": "4b7feecb476f29a602831d294cf3060f9d6f3400", "content_id": "66a4514a3996e04ead08d2fffd3aaa232619a188", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8774, "license_type": "no_license", "max_line_length": 119, "num_lines": 184, "path": "/OpinionDynamics.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import random\nimport Setting_Simulation_Value\nimport InterconnectedLayerModeling\nimport time\nimport math\nimport networkx as nx\nimport numpy as np\n\n\nclass OpinionDynamics:\n def __init__(self):\n self.A_COUNT = 0\n\n def A_layer_dynamics(self, setting, inter_layer, gamma): # A_layer 다이내믹스, 감마 적용 및 설득/타협 알고리즘 적용\n prob_p = gamma / (1+gamma)\n persuasion_count = 0\n compromise_count = 0\n total_edges_layer_A = len(sorted(inter_layer.A_edges.edges())) + len(sorted(inter_layer.AB_edges))\n for i, j in sorted(inter_layer.A_edges.edges()):\n a = inter_layer.two_layer_graph.nodes[i]['state']\n b = inter_layer.two_layer_graph.nodes[j]['state']\n if a * b > 0:\n z = random.random()\n if z < prob_p:\n persuasion = self.A_layer_persuasion_function(setting, inter_layer.two_layer_graph.nodes[i],\n inter_layer.two_layer_graph.nodes[j])\n inter_layer.two_layer_graph.nodes[i]['state'] = persuasion[0]\n inter_layer.two_layer_graph.nodes[j]['state'] = persuasion[1]\n persuasion_count += 1\n elif a * b < 0:\n z = random.random()\n if z < (1 - prob_p):\n compromise = self.A_layer_compromise_function(setting, inter_layer.two_layer_graph.nodes[i],\n inter_layer.two_layer_graph.nodes[j], prob_p, z)\n inter_layer.two_layer_graph.nodes[i]['state'] = compromise[0]\n inter_layer.two_layer_graph.nodes[j]['state'] = compromise[1]\n compromise_count += 1\n for i, j in sorted(inter_layer.AB_edges):\n a = inter_layer.two_layer_graph.nodes[j]['state']\n b = inter_layer.two_layer_graph.nodes[i]['state']\n if a * b > 0:\n z = random.random()\n if z < prob_p:\n inter_layer.two_layer_graph.nodes[j]['state'] \\\n = self.AB_layer_persuasion_function(setting, inter_layer.two_layer_graph.nodes[j])\n persuasion_count += 1\n elif a * b < 0:\n z = random.random()\n if z < (1 - prob_p):\n inter_layer.two_layer_graph.nodes[j]['state'] \\\n = self.AB_layer_compromise_function(setting, inter_layer.two_layer_graph.nodes[j])\n compromise_count += 1\n persuasion_prob = persuasion_count / total_edges_layer_A\n compromise_prob = compromise_count / total_edges_layer_A\n return inter_layer, persuasion_prob, compromise_prob\n\n\n def A_layer_persuasion_function(self, setting, a, b): # A layer 중에서 same orientation 에서 일어나는 변동 현상\n if (a['state']) > 0 and (b['state']) > 0:\n a['state'] = self.A_layer_node_right(a, setting.MAX)\n b['state'] = self.A_layer_node_right(b, setting.MAX)\n elif (a['state']) < 0 and (b['state']) < 0:\n a['state'] = self.A_layer_node_left(a, setting.MIN)\n b['state'] = self.A_layer_node_left(b, setting.MIN)\n return a['state'], b['state']\n\n def A_layer_compromise_function(self, setting, a, b, prob_p, z): # A layer 중에서 opposite orientation 에서 일어나는 변동 현상\n if (a['state']) * (b['state']) == -1:\n if z < ((1 - prob_p) / 2):\n (a['state']) = 1\n (b['state']) = 1\n elif z > ((1 - prob_p) / 2):\n a['state'] = -1\n b['state'] = -1\n elif (a['state']) > 0:\n a['state'] = self.A_layer_node_left(a, setting.MIN)\n b['state'] = self.A_layer_node_right(b, setting.MAX)\n elif (a['state']) < 0:\n a['state'] = self.A_layer_node_right(a, setting.MAX)\n b['state'] = self.A_layer_node_left(b, setting.MIN)\n return a['state'], b['state']\n\n def AB_layer_persuasion_function(self, setting, a): # A-B layer 중에서 same orientation 에서 일어나는 변동 현상\n if (a['state']) > 0:\n a['state'] = self.A_layer_node_right(a, setting.MAX)\n elif (a['state']) < 0:\n a['state'] = self.A_layer_node_left(a, setting.MIN)\n return a['state']\n\n def AB_layer_compromise_function(self, setting, a): # A-B layer 중에서 opposite orientation 에서 일어나는 변동 현상\n if (a['state']) > 0:\n a['state'] = self.A_layer_node_left(a, setting.MIN)\n elif (a['state']) < 0:\n a['state'] = self.A_layer_node_right(a, setting.MAX)\n return a['state']\n\n def A_layer_node_left(self, a, Min):\n if (a['state']) > Min:\n if (a['state']) < 0 or (a['state']) > 1:\n (a['state']) = (a['state']) - 1\n self.A_COUNT += 1\n elif (a['state']) == 1:\n a['state'] = -1\n self.A_COUNT += 1\n elif (a['state']) <= Min:\n (a['state']) = Min\n return a['state']\n\n def A_layer_node_right(self, a, Max):\n if (a['state']) < Max:\n if (a['state']) > 0 or (a['state']) < -1:\n a['state'] = (a['state']) + 1\n self.A_COUNT += 1\n elif (a['state']) == -1:\n a['state'] = 1\n self.A_COUNT += 1\n elif (a['state']) >= Max:\n a['state'] = Max\n return a['state']\n\n def A_state_change_probability_cal(self, inter_layer, gamma):\n prob_p = gamma / (1+gamma)\n prob_list = []\n prob_per_list = []\n prob_com_list = []\n for node_i in sorted(inter_layer.A_edges):\n neighbors = np.array(sorted(nx.neighbors(inter_layer.two_layer_graph, node_i)))\n neighbor_state = []\n for neighbor in neighbors:\n neighbor_state.append(inter_layer.two_layer_graph.nodes[neighbor]['state'])\n neighbor_array = np.array(neighbor_state)\n same_orientation = int(np.sum(neighbor_array * inter_layer.two_layer_graph.nodes[node_i]['state'] > 0))\n opposite_orientation = len(neighbors) - same_orientation\n node_unchanging_prob = 0\n node_persuasion_prob = 0\n node_compromise_prob = 0\n for n in range(0, same_orientation + 1):\n for m in range(0, opposite_orientation + 1):\n n_combi = self.nCr(same_orientation, n)\n m_combi = self.nCr(opposite_orientation, m)\n if n == m:\n node_unchanging_prob += prob_p ** (n + opposite_orientation - m) * (\n (1 - prob_p) ** (same_orientation - n + m)) * n_combi * m_combi\n elif n > m:\n node_persuasion_prob += prob_p ** (n + opposite_orientation - m) * (\n (1 - prob_p) ** (same_orientation - n + m)) * n_combi * m_combi\n elif n < m:\n node_compromise_prob += prob_p ** (n + opposite_orientation - m) * (\n (1 - prob_p) ** (same_orientation - n + m)) * n_combi * m_combi\n prob_list.append((node_unchanging_prob, node_unchanging_prob+node_persuasion_prob,\n node_unchanging_prob+node_persuasion_prob+node_compromise_prob))\n prob_per_list.append(node_persuasion_prob)\n prob_com_list.append(node_compromise_prob)\n prob_array = np.array(prob_list)\n persuasion_prob = sum(prob_per_list) / len(sorted(inter_layer.A_edges))\n compromise_prob = sum(prob_com_list) / len(sorted(inter_layer.A_edges))\n return prob_array, persuasion_prob, compromise_prob\n\n def nCr(self, n, r):\n f = math.factorial\n return f(n) // f(r) // f(n - r)\n\n\nif __name__ == \"__main__\":\n print(\"OpinionDynamics\")\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n inter_layer = InterconnectedLayerModeling.InterconnectedLayerModeling(setting)\n state = 0\n for i in range(setting.A_node):\n state += inter_layer.two_layer_graph.nodes[i]['state']\n print(state)\n opinion = OpinionDynamics()\n start = time.time()\n prob = opinion.A_state_change_probability_cal(inter_layer, 0.3)\n print(prob[1], prob[2])\n opinion_result = opinion.A_layer_dynamics(setting, inter_layer, 0.3)\n print(opinion_result[1])\n print(opinion_result[2])\n state = 0\n for i in range(setting.A_node):\n state += inter_layer.two_layer_graph.nodes[i]['state']\n print(state)\n end = time.time()\n print(end - start)\n\n" }, { "alpha_fraction": 0.564434826374054, "alphanum_fraction": 0.5687544941902161, "avg_line_length": 43.774192810058594, "blob_id": "fc958c718335893c3841ef7085d8598340f8f71c", "content_id": "96a4a8c1f32c063fbc076f8d560c1d8b14b51257", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1389, "license_type": "no_license", "max_line_length": 116, "num_lines": 31, "path": "/DB_Management.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import mysql.connector\n\n\nclass DB_Management:\n def drop_duplicate_row(self, setting):\n creating_intermediate_table = ('''\n CREATE TABLE %s_copy LIKE %s;''' % (setting.table, setting.table))\n insert_to_intermediate_table = ('''\n INSERT INTO %s_copy\n SELECT * FROM %s\n GROUP BY \n Structure, A_node_number, B_node_number, A_internal_edges, B_internal_edges,\n A_external_edges, B_external_edges, beta, gamma, Steps;''' % (setting.table, setting.table))\n drop_and_rename_table = ('''\n DROP TABLE %s;\n ALTER TABLE %s_copy RENAME TO %s;''' % (setting.table, setting.table, setting.table))\n cnx = mysql.connector.connect(user='root', password='2853',\n host='127.0.0.1', database=setting.database)\n cur = cnx.cursor(buffered=True)\n cur.execute(creating_intermediate_table)\n cur.execute(insert_to_intermediate_table)\n cur.execute(drop_and_rename_table)\n cnx.commit()\n cnx.close()\n\nif __name__ == \"__main__\":\n print(\"DB_Management\")\n #setting = Setting_Simulation_Value.Setting_Simulation_Value()\n #db_management = DB_Management(setting)\n #db_management.drop_duplicate_row()\n print(\"DB_Management_finished\")\n\n" }, { "alpha_fraction": 0.6455169916152954, "alphanum_fraction": 0.6513015031814575, "avg_line_length": 50.70093536376953, "blob_id": "1d1085a2c0914b8ce6957005108dc15920eb24cc", "content_id": "9eafaf0bd20254caf499a5f88223b8aeab83155a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5532, "license_type": "no_license", "max_line_length": 128, "num_lines": 107, "path": "/Interconnected_Network_Visualization.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "from pymnet import \nimport matplotlib.pyplot as plt\nimport Setting_Simulation_Value\nimport InterconnectedLayerModeling\nfrom mpl_toolkits.mplot3d.axes3d import \nimport matplotlib.animation as animation\nfrom matplotlib.backends.backend_qt5agg import FigureCanvasQTAgg as FigureCanvas\nfrom matplotlib.image import imread\nimport matplotlib\nmatplotlib.use(\"TkAgg\")\n\n\nclass Interconnected_Network_Visualization:\n def making_layer_A_graph(self, setting, inter_layer, interconnected_network):\n interconnected_network.add_layer('layer_A')\n for i in range(setting.A_node):\n interconnected_network.add_node(i)\n for i, j in sorted(inter_layer.A_edges.edges):\n interconnected_network[i, j, 'layer_A'] = 1\n return interconnected_network\n\n def making_layer_B_graph(self, setting, inter_layer, interconnected_network):\n interconnected_network.add_layer('layer_B')\n for i in range(setting.B_node):\n interconnected_network.add_node(i)\n for i, j in sorted(inter_layer.B_edges):\n interconnected_network[i-setting.A_node, j-setting.A_node, 'layer_B'] = 1\n return interconnected_network\n\n def making_interconnected_layer(self, setting, inter_layer):\n interconnected_network = MultilayerNetwork(aspects=1)\n self.making_layer_A_graph(setting, inter_layer, interconnected_network)\n self.making_layer_B_graph(setting, inter_layer, interconnected_network)\n for i, j in sorted(inter_layer.AB_edges):\n interconnected_network[j, 'layer_A'][i-setting.A_node, 'layer_B'] = 1\n return interconnected_network\n\n def making_node_color(self, setting, inter_layer):\n node_color_dic = {}\n for i in range(setting.A_node):\n node_color_dic[(i, 'layer_A')] = setting.NodeColorDict[inter_layer.two_layer_graph.nodes[i]['state']]\n for i in range(setting.B_node):\n node_color_dic[(i, 'layer_B')] = setting.NodeColorDict[inter_layer.two_layer_graph.nodes[i+setting.A_node]['state']]\n return node_color_dic\n\n def making_edge_color(self, setting, inter_layer):\n edge_color_dic = {}\n for i, j in sorted(inter_layer.A_edges.edges):\n a = inter_layer.two_layer_graph.nodes[i]['state']\n b = inter_layer.two_layer_graph.nodes[j]['state']\n edge_color_dic[(i, 'layer_A'), (j, 'layer_A')] = setting.EdgeColorDict[a * b]\n for i, j in sorted(inter_layer.B_edges):\n a = inter_layer.two_layer_graph.nodes[i]['state']\n b = inter_layer.two_layer_graph.nodes[j]['state']\n edge_color_dic[(i-setting.A_node, 'layer_B'), (j-setting.A_node, 'layer_B')] = setting.EdgeColorDict[a * b]\n for i, j in sorted(inter_layer.AB_edges):\n a = inter_layer.two_layer_graph.nodes[j]['state']\n b = inter_layer.two_layer_graph.nodes[i]['state']\n edge_color_dic[(j-setting.A_node, 'layer_A'), (i, 'layer_B')] = setting.EdgeColorDict[a * b]\n return edge_color_dic\n\n def making_node_coordinates(self, setting, inter_layer):\n node_coordinates_dic = {}\n for i in range(setting.A_node):\n node_coordinates_dic[i] = np.array(inter_layer.A_node_info['location'][i])\n for i in range(setting.B_node):\n node_coordinates_dic[i] = np.array(inter_layer.B_node_info['location'][i])\n return node_coordinates_dic\n\n def draw_interconnected_network(self, setting, inter_layer, save_file_name):\n fig = plt.figure()\n ax = plt.axes(projection='3d')\n draw(self.making_interconnected_layer(setting, inter_layer), layout='circular', layergap=1.3,\n layershape='rectangle', nodeCoords=self.making_node_coordinates(setting, inter_layer), nodelayerCoords={},\n layerPadding=0.05, alignedNodes=True, ax=ax, layerColorDict={'layer_A': 'pink', 'layer_B': 'steelblue'},\n layerColorRule={}, edgeColorDict = self.making_edge_color(setting, inter_layer), edgeColorRule={},\n edgeWidthDict={}, edgeWidthRule={}, defaultEdgeWidth=0.15, edgeStyleDict={},\n edgeStyleRule={'rule': 'edgetype', 'inter': ':', 'intra': '-'}, defaultEdgeStyle='-',\n nodeLabelDict={}, nodeLabelRule={}, defaultNodeLabel=None,\n nodeColorDict=self.making_node_color(setting, inter_layer), nodeColorRule={}, defaultNodeColor=None,\n nodeLabelColorDict={}, nodeLabelColorRule={}, defaultNodeLabelColor='k',\n nodeSizeDict={}, nodeSizeRule={'scalecoeff': 0.2, 'rule': 'scaled'}, defaultNodeSize=None)\n plt.savefig(save_file_name)\n im = plt.imread(save_file_name)\n return np.array(im), fig\n\n def making_movie_for_dynamics(self, ims):\n dpi = 72\n x_pixels, y_pixels = ims[0].shape[0], ims[0].shape[1]\n fig = plt.figure(figsize=(y_pixels / dpi, x_pixels / dpi), dpi=dpi)\n im = plt.figimage(ims[0])\n\n def animate(i):\n im.set_array(ims[i])\n return (im,)\n ani = animation.FuncAnimation(fig, animate, frames=len(ims), repeat=False, interval=1000)\n ani.save('dynamics2.mp4')\n\n\nif __name__ == \"__main__\":\n print(\"Interconnected Layer Modeling\")\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n inter_layer = InterconnectedLayerModeling.InterconnectedLayerModeling(setting)\n ILM = Interconnected_Network_Visualization()\n fig = ILM.draw_interconnected_network(setting, inter_layer, 'result.png')[1]\n plt.show()\n print(\"Operating finished\")\n" }, { "alpha_fraction": 0.6821576952934265, "alphanum_fraction": 0.6879668235778809, "avg_line_length": 34.44117736816406, "blob_id": "a00b8d65d3662aa0afbf025a4d14ba252e33aac9", "content_id": "0ce06720228816fcd948991c1aa75cd31883cd12", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1205, "license_type": "no_license", "max_line_length": 104, "num_lines": 34, "path": "/RepeatDynamics.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import numpy as np\nimport Setting_Simulation_Value\nimport InterconnectedDynamics\nimport InterconnectedLayerModeling\nimport MakingPandas\nimport time\n\n\nclass RepeatDynamics:\n def __init__(self):\n self.inter_dynamics = InterconnectedDynamics.InterconnectedDynamics()\n self.mp = MakingPandas.MakingPandas()\n\n def repeat_dynamics(self, setting, gamma, beta):\n num_data = np.zeros([setting.Limited_step + 1, 15])\n for i in range(setting.Repeating_number):\n inter_layer = InterconnectedLayerModeling.InterconnectedLayerModeling(setting)\n total_array = self.inter_dynamics.interconnected_dynamics(setting, inter_layer, gamma, beta)\n num_data = num_data + total_array\n Num_Data = num_data / setting.Repeating_number\n panda_db = self.mp.making_dataframe_per_step(setting, Num_Data)\n return panda_db\n\nif __name__ == \"__main__\":\n print(\"RepeatDynamics\")\n start = time.time()\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n gamma = 0.2\n beta = 1.5\n repeat = RepeatDynamics()\n result = repeat.repeat_dynamics(setting, gamma, beta)\n print(result)\n end = time.time()\n print(end - start)\n" }, { "alpha_fraction": 0.5829617381095886, "alphanum_fraction": 0.5948874950408936, "avg_line_length": 45.5797119140625, "blob_id": "2eada631b930e8278da7bd322b1311d3d87c3f7f", "content_id": "7384d727fd098d3b9e3357b25ea31343f44957b0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 19286, "license_type": "no_license", "max_line_length": 126, "num_lines": 414, "path": "/MyWindow.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import sys\nfrom pymnet import \nimport InterconnectedLayerModeling\nfrom Setting_Simulation_Value import \nimport Layer_A_Modeling\nimport Layer_B_Modeling\nimport Changing_Variable\nimport Visualization\nimport Interconnected_Network_Visualization\nimport DB_Management\nimport SelectDB\nimport seaborn as sns\nimport pandas as pd\nimport PyQt5\nfrom PyQt5.QtWidgets import \nfrom matplotlib.image import imread\nimport matplotlib.pyplot as plt\nimport time\nimport numpy as np\nfrom PyQt5.QtCore import \nfrom PyQt5.QtGui import \nfrom PyQt5 import uic\nfrom PyQt5.QtWidgets import QApplication, QTableWidgetItem, QWidget, QLabel, QScrollArea, QTableWidget\nfrom PyQt5.QtMultimedia import QMediaContent, QMediaPlayer\nfrom PyQt5.QtMultimediaWidgets import QVideoWidget\nfrom PyQt5.QtCore import QDir, Qt, QUrl\nfrom PyQt5.QtMultimedia import QMediaContent, QMediaPlayer\nfrom PyQt5.QtGui import QIcon, QPixmap\nfrom PyQt5.QtWidgets import (QApplication, QFileDialog, QHBoxLayout, QLabel,\n QPushButton, QSizePolicy, QSlider, QStyle, QVBoxLayout, QWidget)\nfrom PyQt5.QtWidgets import QMainWindow,QWidget, QPushButton, QAction\nfrom PyQt5.QtGui import QIcon\nfrom mpl_toolkits.mplot3d.axes3d import \nfrom matplotlib.backends.backend_qt5agg import FigureCanvasQTAgg as FigureCanvas\nimport matplotlib\nmatplotlib.use(\"TkAgg\")\nWindowModel = uic.loadUiType(\"mainwindow.ui\")[0]\n\n\nclass MyWindow(QMainWindow, WindowModel):\n def __init__(self, setting):\n QMainWindow.__init__(self, None)\n self.mediaPlayer = QMediaPlayer(None, QMediaPlayer.VideoSurface)\n self.setupUi(self)\n self.changing_variable = Changing_Variable.Changing_Variable()\n self.visualization = Visualization.Visualization()\n self.network = Interconnected_Network_Visualization.Interconnected_Network_Visualization()\n self.db_manager = DB_Management.DB_Management()\n self.select_db = SelectDB.SelectDB()\n self.select_sql = SelectDB.SelectSQlite()\n\n self.condition_settingButton.clicked.connect(lambda state, sets=setting: self.condition_setting(state, sets))\n self.Simulation_Start.clicked.connect(lambda state, sets=setting: self.doing_simulation(state, sets))\n self.Initial_State_Button.clicked.connect(lambda state, sets=setting: self.initial_state_graph(state, sets))\n self.Total_Result_Button.clicked.connect(lambda state, sets=setting: self.total_result_graph(state, sets))\n self.result_gamma_Button.clicked.connect(lambda state, sets=setting: self.result_gamma_graph(state, sets))\n self.result_beta_Button.clicked.connect(lambda state, sets=setting: self.result_beta_graph(state, sets))\n self.prob_beta_Button.clicked.connect(lambda state, sets=setting: self.prob_beta_graph(state, sets))\n self.different_ratio_Button.clicked.connect(lambda state, sets=setting: self.different_state_ratio_graph(state, sets))\n self.play_movie_Button.clicked.connect(self.making_movie_function)\n self.drop_duplicate_Button.clicked.connect(lambda state, sets=setting: self.db_drop_duplicate_row(state, sets))\n self.duplicate_Button.clicked.connect(lambda state, sets=setting: self.duplicate_db_func(state, sets))\n self.select_db_Button.clicked.connect(lambda state, sets=setting: self.select_db_func(state, sets))\n\n\n def making_df(self, setting):\n df = pd.DataFrame()\n if setting.DB == 'MySQL':\n df = self.select_db.select_data_from_setting(setting)\n elif setting.DB == 'SQLITE':\n df = self.select_sql.select_data_from_sqlite(setting)\n return df\n\n def initial_state_graph(self, state, setting):\n print('drawing initial state...')\n self.Initial_State_layout.takeAt(0)\n inter_layer = InterconnectedLayerModeling.InterconnectedLayerModeling(setting)\n fig = self.network.draw_interconnected_network(setting, inter_layer, 'result.png')[1]\n if self.display_locBox_2.currentText() == 'outer graph':\n plt.show()\n elif self.display_locBox_2.currentText() == 'inner graph':\n canvas = FigureCanvas(fig)\n layout = self.Initial_State_layout\n layout.addWidget(canvas)\n canvas.draw()\n canvas.show()\n\n def total_result_graph(self, state, setting):\n print('drawing total result...')\n if self.display_typeBox.currentText() == 'scatter':\n print('scatter type...')\n if self.display_locBox.currentText() == 'outer graph':\n plt.figure()\n plt.style.use('seaborn-whitegrid')\n df = self.making_df(setting)\n self.visualization.plot_3D_scatter_for_average_state(setting, df)\n plt.show()\n plt.close()\n elif self.display_locBox.currentText() == 'inner graph':\n self.Total_Result_layout.takeAt(0)\n fig = plt.figure()\n plt.style.use('seaborn-whitegrid')\n df = self.making_df(setting)\n self.visualization.plot_3D_scatter_for_average_state(setting, df)\n canvas = FigureCanvas(fig)\n layout = self.Total_Result_layout\n layout.addWidget(canvas)\n canvas.draw()\n canvas.show()\n plt.close()\n\n elif self.display_typeBox.currentText() == 'trisurf':\n print('trisurf type...')\n if self.display_locBox.currentText() == 'outer graph':\n plt.figure()\n plt.style.use('seaborn-whitegrid')\n df = self.making_df(setting)\n self.visualization.plot_3D_trisurf_for_average_state(setting, df)\n plt.show()\n plt.close()\n elif self.display_locBox.currentText() == 'inner graph':\n self.Total_Result_layout.takeAt(0)\n fig = plt.figure()\n plt.style.use('seaborn-whitegrid')\n df = self.making_df(setting)\n self.visualization.plot_3D_trisurf_for_average_state(setting, df)\n canvas = FigureCanvas(fig)\n layout = self.Total_Result_layout\n layout.addWidget(canvas)\n canvas.draw()\n canvas.show()\n plt.close()\n\n elif self.display_typeBox.currentText() == 'contour2D':\n print('contour2D type...')\n if self.display_locBox.currentText() == 'outer graph':\n fig = plt.figure()\n plt.style.use('seaborn-whitegrid')\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n df = self.making_df(setting)\n self.visualization.plot_3D_to_2D_contour_for_average_state(setting, df)\n cb = plt.colorbar()\n cb.set_label(label='AS', size=15, labelpad=10)\n cb.ax.tick_params(labelsize=12)\n plt.clim(-1, 1)\n plt.xlabel(r'$\\beta$', fontsize=18, labelpad=6)\n plt.ylabel(r'$\\gamma$', fontsize=18, labelpad=6)\n plt.show()\n plt.close()\n\n elif self.display_locBox.currentText() == 'inner graph':\n self.Total_Result_layout.takeAt(0)\n fig = plt.figure()\n plt.style.use('seaborn-whitegrid')\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n df = self.making_df(setting)\n self.visualization.plot_3D_to_2D_contour_for_average_state(setting, df)\n cb = plt.colorbar()\n cb.set_label(label='AS', size=15, labelpad=10)\n cb.ax.tick_params(labelsize=12)\n plt.clim(-1, 1)\n plt.xlabel(r'$\\beta$', fontsize=18, labelpad=6)\n plt.ylabel(r'$\\gamma$', fontsize=18, labelpad=6)\n canvas = FigureCanvas(fig)\n layout = self.Total_Result_layout\n layout.addWidget(canvas)\n canvas.draw()\n canvas.show()\n plt.close()\n\n elif self.display_typeBox.currentText() == 'contour3D':\n print('contour3D type...')\n if self.display_locBox.currentText() == 'outer graph':\n plt.figure()\n plt.style.use('seaborn-whitegrid')\n df = self.making_df(setting)\n self.visualization.plot_3D_contour_for_average_state(setting, df)\n plt.show()\n plt.close()\n\n elif self.display_locBox.currentText() == 'inner graph':\n self.Total_Result_layout.takeAt(0)\n fig = plt.figure()\n plt.style.use('seaborn-whitegrid')\n df = self.making_df(setting)\n self.visualization.plot_3D_contour_for_average_state(setting, df)\n canvas = FigureCanvas(fig)\n layout = self.Total_Result_layout\n layout.addWidget(canvas)\n canvas.draw()\n canvas.show()\n plt.close()\n\n def result_gamma_graph(self, state, setting):\n print('drawing gamma graph...')\n box = [eval(self.beta_spinBox1.text()), eval(self.beta_spinBox2.text()),\n eval(self.beta_spinBox3.text()), eval(self.beta_spinBox4.text()),\n eval(self.beta_spinBox5.text()), eval(self.beta_spinBox6.text())]\n marker = ['-o', '-x', '-v', '-^', '-s', '-d']\n if self.result_gamma_locBox.currentText() == 'outer graph':\n fig = plt.figure()\n plt.style.use('seaborn-whitegrid')\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n df = self.making_df(setting)\n for i, j in enumerate(box):\n if j > 0:\n self.visualization.plot_2D_gamma_for_average_state(setting, df, j, marker[i])\n plt.legend(framealpha=1, frameon=True, prop={'size': 12})\n plt.ylim(-1.7, 1.7)\n plt.xlabel(r'$\\gamma$', fontsize=18, labelpad=4)\n plt.ylabel('AS', fontsize=18, labelpad=4)\n plt.show()\n plt.close()\n elif self.result_gamma_locBox.currentText() == 'inner graph':\n self.Result_gamma_layout.takeAt(0)\n fig = plt.figure()\n plt.style.use('seaborn-whitegrid')\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n df = self.making_df(setting)\n for i, j in enumerate(box):\n if j > 0:\n self.visualization.plot_2D_gamma_for_average_state(setting, df, j, marker[i])\n plt.legend(framealpha=1, frameon=True, prop={'size': 12})\n plt.ylim(-1.7, 1.7)\n plt.xlabel(r'$\\gamma$', fontsize=18, labelpad=4)\n plt.ylabel('AS', fontsize=18, labelpad=4)\n canvas = FigureCanvas(fig)\n layout = self.Result_gamma_layout\n layout.addWidget(canvas)\n canvas.draw()\n canvas.show()\n plt.close()\n\n def result_beta_graph(self, state, setting):\n print('drawing beta graph...')\n box = [eval(self.gamma_spinBox1.text()), eval(self.gamma_spinBox2.text()),\n eval(self.gamma_spinBox3.text()), eval(self.gamma_spinBox4.text()),\n eval(self.gamma_spinBox5.text()), eval(self.gamma_spinBox6.text())]\n marker = ['-o', '-x', '-v', '-^', '-s', '-d']\n if self.result_beta_locBox.currentText() == 'outer graph':\n fig = plt.figure()\n plt.style.use('seaborn-whitegrid')\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n df = self.making_df(setting)\n for i, j in enumerate(box):\n if j > 0:\n self.visualization.plot_2D_beta_for_average_state(setting, df, j, marker[i])\n plt.legend(framealpha=1, frameon=True, prop={'size': 12})\n plt.ylim(-1.7, 1.7)\n plt.xlabel(r'$\\beta$', fontsize=18, labelpad=4)\n plt.ylabel('AS', fontsize=18, labelpad=4)\n plt.show()\n plt.close()\n elif self.result_beta_locBox.currentText() == 'inner graph':\n self.Result_beta_layout.takeAt(0)\n fig = plt.figure()\n plt.style.use('seaborn-whitegrid')\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n df = self.making_df(setting)\n for i, j in enumerate(box):\n if j > 0:\n self.visualization.plot_2D_beta_for_average_state(setting, df, j, marker[i])\n plt.legend(framealpha=1, frameon=True, prop={'size': 12})\n plt.ylim(-1.7, 1.7)\n plt.xlabel(r'$\\beta$', fontsize=18, labelpad=4)\n plt.ylabel('AS', fontsize=18, labelpad=4)\n canvas = FigureCanvas(fig)\n layout = self.Result_beta_layout\n layout.addWidget(canvas)\n canvas.draw()\n canvas.show()\n plt.close()\n\n def prob_beta_graph(self, state, setting):\n print('drawing prob beta graph...')\n beta_value = [eval(self.beta_minBox.text()), eval(self.beta_maxBox.text())]\n gamma_value = [eval(self.gamma_minBox.text()), eval(self.gamma_maxBox.text())]\n if self.prob_beta_locBox.currentText() == 'outer graph':\n fig = plt.figure()\n sns.set()\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n df = self.making_df(setting)\n self.visualization.flow_prob_beta_chart(setting, df, beta_value, gamma_value)\n plt.ylabel('probability for layer B', fontsize=18, labelpad=4)\n plt.xlabel('time(step)', fontsize=18, labelpad=4)\n plt.show()\n plt.close()\n elif self.prob_beta_locBox.currentText() == 'inner graph':\n self.prob_beta_layout.takeAt(0)\n fig = plt.figure()\n sns.set()\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n df = self.making_df(setting)\n self.visualization.flow_prob_beta_chart(setting, df, beta_value, gamma_value)\n plt.ylabel('probability for layer B', fontsize=18, labelpad=4)\n plt.xlabel('time(step)', fontsize=18, labelpad=4)\n canvas = FigureCanvas(fig)\n layout = self.prob_beta_layout\n layout.addWidget(canvas)\n canvas.draw()\n canvas.show()\n plt.close()\n\n def different_state_ratio_graph(self, state, setting):\n print('drawing different state ratio graph...')\n beta_value = [eval(self.beta_minBox_4.text()), eval(self.beta_maxBox_4.text())]\n gamma_value = [eval(self.gamma_minBox_4.text()), eval(self.gamma_maxBox_4.text())]\n select_layer = str(self.select_layerBox.currentText())\n if self.prob_beta_locBox.currentText() == 'outer graph':\n fig = plt.figure()\n sns.set()\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n df = self.making_df(setting)\n self.visualization.different_state_ratio_chart(setting, df, beta_value, gamma_value, select_layer)\n plt.ylabel('different state ratio for layer %s' % select_layer, fontsize=18, labelpad=6)\n plt.xlabel('time(step)', fontsize=18, labelpad=6)\n plt.show()\n plt.close()\n elif self.state_ratio_locBox.currentText() == 'inner graph':\n self.different_state_layout.takeAt(0)\n fig = plt.figure()\n sns.set()\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n df = self.making_df(setting)\n self.visualization.different_state_ratio_chart(setting, df, beta_value, gamma_value, select_layer)\n plt.ylabel('different state ratio for layer %s' % select_layer, fontsize=18, labelpad=6)\n plt.xlabel('time(step)', fontsize=18, labelpad=6)\n canvas = FigureCanvas(fig)\n layout = self.different_state_layout\n layout.addWidget(canvas)\n canvas.draw()\n canvas.show()\n plt.close()\n\n def db_drop_duplicate_row(self, state, setting):\n print('duplicate DB dropped...')\n self.db_manager.drop_duplicate_row(setting)\n\n def select_db_func(self, state, setting):\n print('select DB...')\n table = self.DB_table\n df = self.making_df(setting)\n df.head(100)\n table.setColumnCount(len(df.columns))\n table.setRowCount(len(df.index))\n table.setHorizontalHeaderLabels(df.columns)\n for i in range(len(df.index)):\n for j in range(len(df.columns)):\n table.setItem(i, j, QTableWidgetItem(str(df.iloc[i, j])))\n self.table_widget.show()\n\n def duplicate_db_func(self, state, setting):\n print('duplicate DB...')\n table = self.DB_table\n df = self.making_df(setting)\n df.head(100)\n table.setColumnCount(len(df.columns))\n table.setRowCount(len(df.index))\n table.setHorizontalHeaderLabels(df.columns)\n for i in range(len(df.index)):\n for j in range(len(df.columns)):\n table.setItem(i, j, QTableWidgetItem(str(df.iloc[i, j])))\n self.table_widget.show()\n\n def making_movie_function(self):\n print('making movie...')\n self.movie_layout.takeAt(0)\n layout = self.movie_layout\n videoWidget = QVideoWidget()\n layout.addWidget(videoWidget)\n self.mediaPlayer.setVideoOutput(videoWidget)\n self.mediaPlayer.setMedia(QMediaContent(QUrl.fromLocalFile('C:/Users/Purple/CompetingLayer/dynamics.mp4')))\n self.mediaPlayer.play()\n\n def doing_simulation(self, state, setting):\n print('doing simulation...')\n self.changing_variable.paralleled_work(setting)\n\n def condition_setting(self, state, setting):\n setting.Structure = str(self.StructuresBox.currentText())\n setting.A_state = eval(self.A_StateBox.currentText())\n setting.A_node = int(self.A_NodeBox.currentText())\n setting.A_edge = int(self.A_InternalEdgeBox.currentText())\n setting.MAX = int(self.A_MAXBox.currentText())\n setting.MIN = int(self.A_MINBox.currentText())\n setting.B_state = eval(self.B_StateBox.currentText())\n setting.B_node = int(self.B_NodeBox.currentText())\n setting.B_edge = int(self.B_InternalEdgeBox.currentText())\n setting.B_inter_edges = int(self.B_ExternalEdgeBox.currentText())\n setting.A_inter_edges = int(self.A_ExternalEdgeBox.currentText())\n setting.Limited_step = int(self.StepBox.currentText())\n setting.drawing_graph = bool(self.DrawingBox.currentText() == 'True')\n setting.database = str(self.DatabaseBox.currentText())\n setting.table = str(self.TableBox.currentText())\n setting.DB = str(self.DBBox.currentText())\n print('setting is completed')\n\n\nif __name__ == \"__main__\":\n SS = Setting_Simulation_Value()\n app = QApplication(sys.argv)\n my_window = MyWindow(SS)\n my_window.show()\n app.exec_()\n\n\n" }, { "alpha_fraction": 0.598231852054596, "alphanum_fraction": 0.60166996717453, "avg_line_length": 40.551021575927734, "blob_id": "30fc0a395f2066857c0fb8d021641707590d6cab", "content_id": "fa3ddfde62bb144cd884c707a645ea5972eb3105", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2036, "license_type": "no_license", "max_line_length": 90, "num_lines": 49, "path": "/MakingPandas.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import pandas as pd\nimport numpy as np\nimport InterconnectedLayerModeling\nimport Setting_Simulation_Value\n\n\nclass MakingPandas:\n def making_dataframe_per_step(self, setting, value_array):\n columns = ['gamma', 'beta', 'prob_beta', 'persuasion', 'compromise',\n 'A_plus', 'A_minus', 'B_plus', 'B_minus',\n 'Layer_A_Mean', 'Layer_B_Mean', 'AS',\n 'A_total_edges', 'B_total_edges', 'change_count']\n df = pd.DataFrame(value_array, columns=columns)\n step = [i for i in range(0, setting.Limited_step+1)]\n df['MODEL'] = setting.MODEL\n df['Steps'] = step\n df['Structure'] = setting.Structure\n df['A_node_number'] = setting.A_node\n df['B_node_number'] = setting.B_node\n df['A_external_edges'] = setting.A_inter_edges\n df['B_external_edges'] = setting.B_inter_edges\n return df\n\n\n def interacting_property(self, setting, inter_layer):\n property_A = []\n property_B = []\n for i in range(setting.A_node):\n property_A.append(inter_layer.two_layer_graph.nodes[i]['state'])\n for i in range(setting.A_node, setting.A_node + setting.B_node):\n property_B.append(inter_layer.two_layer_graph.nodes[i]['state'])\n judge_A = np.array(property_A)\n judge_B = np.array(property_B)\n\n A_plus = int(np.sum(judge_A > 0))\n A_minus = int(np.sum(judge_A < 0))\n B_plus = int(np.sum(judge_B > 0))\n B_minus = int(np.sum(judge_B < 0))\n layer_A_mean = int(np.sum(judge_A)) / setting.A_node\n layer_B_mean = int(np.sum(judge_B)) / setting.B_node\n average_state = ((layer_A_mean / setting.MAX) + layer_B_mean) / 2\n\n return A_plus, A_minus, B_plus, B_minus, layer_A_mean, layer_B_mean, average_state\n\nif __name__ == \"__main__\":\n print(\"MakingPandas\")\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n inter_layer = InterconnectedLayerModeling.InterconnectedLayerModeling(setting)\n mp = MakingPandas()\n" }, { "alpha_fraction": 0.6499999761581421, "alphanum_fraction": 0.6954545378684998, "avg_line_length": 20.950000762939453, "blob_id": "516c637aa0caa4b334ab179f70e22c6b8ebdb7a5", "content_id": "39006465816954a6f84458864a06def2e415ac5a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 440, "license_type": "no_license", "max_line_length": 85, "num_lines": 20, "path": "/UsingGPU.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import math\nfrom numba import vectorize, cuda\nimport numpy as np\nfrom numba import guvectorize\n\n@vectorize(['float32(float32, float32)', 'float64(float64, float64)'], target='cuda')\n\ndef gpu_sincos(x, y):\n return math.sin(x) * math.cos(y)\n\nresult = gpu_sincos(3.0, 4.0)\nprint(result)\n\n\n\n@guvectorize(..., target='cuda')\ndef very_complex_kernel(A, B, C):\n ...\n\nvery_complex_kernel.max_blocksize = 32 # limits to 32 threads per block\n\n" }, { "alpha_fraction": 0.6190126538276672, "alphanum_fraction": 0.6274545788764954, "avg_line_length": 44.38333511352539, "blob_id": "3f1cbc7bca27726841ab14113511a12422adbcb4", "content_id": "b93e7495af331bedc62179fdf37b3deed3fedfaf", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5689, "license_type": "no_license", "max_line_length": 121, "num_lines": 120, "path": "/InterconnectedLayerModeling.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import networkx as nx\nimport numpy as np\nimport pandas as pd\nimport random\nimport matplotlib.pyplot as plt\nimport matplotlib\nimport Setting_Simulation_Value\nmatplotlib.use(\"TkAgg\")\n\nclass InterconnectedLayerModeling:\n def __init__(self, setting):\n A_edges_array = self.A_layer_config(setting)\n self.A_edges = A_edges_array[0]\n self.AB_edges = A_edges_array[1]\n self.AB_neighbor = A_edges_array[2]\n self.B_edges = self.B_layer_config(setting)\n self.two_layer_graph = self.making_interconnected_graph(setting)\n\n def making_interconnected_graph(self, setting):\n self.two_layer_graph = nx.Graph()\n for i in range(setting.A_node):\n self.two_layer_graph.add_node(i, name='A_%s' % i, state=setting.A[i])\n for i in range(setting.B_node):\n self.two_layer_graph.add_node(i+setting.A_node, name='B_%s' % i, state=setting.B[i])\n A_edges_list = sorted(self.A_edges.edges)\n self.two_layer_graph.add_edges_from(A_edges_list)\n B_edges_list = self.B_edges\n self.two_layer_graph.add_edges_from(B_edges_list)\n AB_edges_list = self.AB_edges\n self.two_layer_graph.add_edges_from(AB_edges_list)\n return self.two_layer_graph\n\n\n def A_layer_config(self, setting):\n # A_layer 구성요소 A_layer_config(state = [1,2], node = 2048, edge = 5, Max = 2, Min = -2)\n self.select_layer_A_model(setting)\n self.making_interconnected_edges(setting)\n return self.A_edges, self.AB_edges, self.AB_neighbor\n # A : A의 각 노드의 상태, A_state : A 노드 상태의 종류(1, 2, -1, -2),\n # A_node : 노드의 수, A_edge : 내부연결선수, A_edges : 내부연결상태(튜플), MAX : 최대상태, MIN : 최소상태\n\n def select_layer_A_model(self, setting):\n if setting.Structure.split('-')[0] == 'RR':\n self.making_layer_A_random_regular(setting)\n elif setting.Structure.split('-')[0] == 'BA':\n self.making_layer_A_barabasi_albert(setting)\n return self.A_edges\n\n def making_layer_A_random_regular(self, setting):\n # A_layer random_regular network\n self.A_edges = nx.random_regular_graph(setting.A_edge, setting.A_node, seed=None)\n return self.A_edges\n\n def making_layer_A_barabasi_albert(self, setting):\n # A_layer 바바라시-알버트 네트워크\n self.A_edges = nx.barabasi_albert_graph(setting.A_node, setting.A_edge, seed=None)\n return self.A_edges\n\n def making_interconnected_edges(self, setting):\n self.AB_edges = []\n self.AB_neighbor = []\n for i in range(int(setting.A_node / setting.B_inter_edges)):\n for j in range(setting.B_inter_edges):\n connected_A_node = np.array(self.A_edges.nodes).reshape(-1, setting.B_inter_edges)[i][j]\n self.AB_neighbor.append(connected_A_node)\n self.AB_edges.append((i + setting.A_node, connected_A_node))\n self.AB_neighbor = np.array(self.AB_neighbor).reshape(-1, setting.B_inter_edges)\n return self.AB_edges, self.AB_neighbor\n # AB_neighbor은 B노드번호 기준으로 연결된 A노드번호 ex) AB_neighbor[0]= array([0, 1])\n # B 노드 0에 A노드 0번, 1번이 연결되어 있다는 뜻\n # AB_edges는 (0, 1)은 B 노드 0번과 A 노드 1번이 연결되어 있다는 뜻\n\n\n def B_layer_config(self, setting): # B_layer 구성요소 B_layer_config(state = [-1], node = 2048, edge = 5, inter_edge= 1)\n self.select_layer_B_model(setting)\n return self.B_edges\n\n def select_layer_B_model(self, setting):\n if setting.Structure.split('-')[1] == 'RR':\n self.making_layer_B_random_regular(setting)\n elif setting.Structure.split('-')[1] == 'BA':\n self.making_layer_B_barabasi_albert(setting)\n return self.B_edges\n\n def making_layer_B_random_regular(self, setting): # B_layer random_regular network\n b_edges = nx.random_regular_graph(setting.B_edge, setting.B_node, seed=None)\n self.B_edges = []\n for i in range(len(b_edges.edges)):\n self.B_edges.append((sorted(b_edges.edges)[i][0] + setting.A_node,\n sorted(b_edges.edges)[i][1] + setting.A_node))\n return self.B_edges\n\n def making_layer_B_barabasi_albert(self, setting): # B_layer 바바라시-알버트 네트워크\n b_edges = nx.barabasi_albert_graph(setting.B_node, setting.B_edge, seed=None)\n self.B_edges = []\n for i in range(len(b_edges.edges)):\n self.B_edges.append((sorted(b_edges.edges)[i][0] + setting.A_node,\n sorted(b_edges.edges)[i][1] + setting.A_node))\n return self.B_edges\n\nif __name__ == \"__main__\" :\n print(\"interconnectedlayer\")\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n inter_layer = InterconnectedLayerModeling(setting)\n print(len(sorted(inter_layer.A_edges.edges())))\n #print(graph.two_layer_graph.edges)\n #print(len(inter_layer.B_edges))\n # for i in range(len(inter_layer.two_layer_graph.nodes)):\n # state += inter_layer.two_layer_graph.nodes[i]['state']\n # print(state)\n # print(inter_layer.A_edges.edges)\n # external_edge_number = len(inter_layer.AB_neighbor[1])\n # print(external_edge_number)\n # inter_edges = len(sorted(nx.all_neighbors(inter_layer.two_layer_graph, 1 + setting.A_node))) - external_edge_number\n # print(inter_edges)\n # print(sorted(nx.all_neighbors(inter_layer.two_layer_graph, 1 + setting.A_node), reverse=True))\n\n #print(Layer_A.AB_edges)\n #print(Layer_A.AB_neighbor)\n #print(Layer_A.SS.A_node)\n\n\n\n" }, { "alpha_fraction": 0.5836193561553955, "alphanum_fraction": 0.6076430678367615, "avg_line_length": 44.49367141723633, "blob_id": "e9c2254612b14b7e23eb60d16615e76ad226ee7c", "content_id": "b5e4659d71897db6767bec496a7396934ed1d145", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 10895, "license_type": "no_license", "max_line_length": 103, "num_lines": 237, "path": "/VisualizationNew.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import SelectDB\nimport numpy as np\nimport Setting_Simulation_Value\nimport matplotlib.pyplot as plt\nimport matplotlib\nimport seaborn as sns\nimport pandas as pd\nfrom sympy import \nfrom matplotlib import cycler\nfrom mpl_toolkits.mplot3d.axes3d import \nfrom matplotlib.backends.backend_qt5agg import FigureCanvasQTAgg as FigureCanvas\nmatplotlib.use(\"TkAgg\")\n\n\nclass Visualization:\n def plot_2D_gamma_for_average_state(self, df, beta_values): # v_values =[]\n marker = ['-o', '-x', '-v', '-^', '-s', '-d']\n plt.style.use('seaborn-whitegrid')\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n beta_list = Visualization.making_select_list(df, 'beta')\n for i, beta_value in enumerate(beta_values):\n temp_value = Visualization.covert_to_select_list_value(beta_list, beta_value)\n df = df[df.beta == temp_value]\n plt.plot(df['gamma'], df['AS'], marker[i], label=r'$\\beta$=%.2f' % temp_value,\n markersize=6, linewidth=1.5, markeredgewidth=1)\n plt.legend(framealpha=1, frameon=True, prop={'size': 12})\n plt.ylim(-1.5, 1.5)\n plt.xlabel(r'$\\gamma$', fontsize=18, labelpad=4)\n plt.ylabel('AS', fontsize=18, labelpad=4)\n\n\n def plot_2D_beta_for_average_state(self, df, gamma_values):\n marker = ['-o', '-x', '-v', '-^', '-s', '-d']\n plt.style.use('seaborn-whitegrid')\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n gamma_list = Visualization.making_select_list(df, 'gamma')\n for i, gamma_value in enumerate(gamma_values):\n temp_value = Visualization.covert_to_select_list_value(gamma_list, gamma_value)\n df = df[df.p == temp_value]\n plt.plot(df['beta'], df['AS'], marker[i], label=r'$\\gamma$=%.2f' % temp_value,\n markersize=6, linewidth=1.5, markeredgewidth=1)\n plt.legend(framealpha=1, frameon=True, prop={'size': 12})\n plt.ylim(-1.5, 1.5)\n plt.xlabel(r'$\\beta$', fontsize=18, labelpad=4)\n plt.ylabel('AS', fontsize=18, labelpad=4)\n\n\n\n def plot_3D_scatter_for_average_state(self, df):\n plt.style.use('seaborn-whitegrid')\n ax = plt.axes(projection='3d')\n ax.scatter(df['beta'], df['gamma'], df['AS'], c=df['AS'], cmap='RdBu', linewidth=0.2)\n ax.set_xlabel(r'$\\beta$', fontsize=18, labelpad=8)\n ax.set_ylabel(r'$\\gamma$', fontsize=18, labelpad=8)\n ax.set_zlabel('AS', fontsize=18, labelpad=8)\n ax.set_title(r'$\\beta$-$\\gamma$-AS', fontsize=18)\n ax.tick_params(axis='both', labelsize=14)\n ax.view_init(45, 45)\n\n\n def plot_3D_trisurf_for_average_state(self, df):\n plt.style.use('seaborn-whitegrid')\n ax = plt.axes(projection='3d')\n ax.plot_trisurf(df['beta'], df['gamma'], df['AS'], cmap='RdBu', edgecolor='none')\n ax.set_xlabel(r'$\\beta$', fontsize=18, labelpad=8)\n ax.set_ylabel(r'$\\gamma$', fontsize=18, labelpad=8)\n ax.set_zlabel('AS', fontsize=18, labelpad=8)\n ax.set_title(r'$\\beta$-$\\gamma$-AS', fontsize=18)\n ax.tick_params(axis='both', labelsize=14)\n ax.view_init(45, 45)\n\n\n def plot_3D_contour_for_average_state(self, df):\n plt.style.use('seaborn-whitegrid')\n v_list = Visualization.making_select_list(df, 'beta') # list이지만 실제로는 array\n p_list = Visualization.making_select_list(df, 'gamma')\n X, Y = np.meshgrid(v_list, p_list)\n Z = Visualization.state_list_function(df, p_list, v_list)\n ax = plt.axes(projection='3d')\n ax.contour3D(X, Y, Z, 50, cmap='RdBu')\n ax.set_xlabel(r'$\\beta$', fontsize=18, labelpad=6)\n ax.set_ylabel(r'$\\gamma$', fontsize=18, labelpad=6)\n ax.set_zlabel('AS', fontsize=18, labelpad=6)\n ax.set_title(r'$\\beta$-$\\gamma$-AS', fontsize=18)\n ax.view_init(45, 45)\n\n def plot_3D_to_2D_contour_for_average_state(self, df):\n plt.style.use('seaborn-whitegrid')\n ax = fig.add_subplot(111)\n ax.tick_params(axis='both', labelsize=14)\n beta_list = Visualization.making_select_list(df, 'beta') # list이지만 실제로는 array\n gamma_list = Visualization.making_select_list(df, 'gamma')\n X, Y = np.meshgrid(beta_list, gamma_list)\n Z = Visualization.state_list_function(df, gamma_list, beta_list)\n plt.contourf(X, Y, Z, 50, cmap='RdBu')\n cb = plt.colorbar()\n cb.set_label(label='AS', size=15, labelpad=10)\n cb.ax.tick_params(labelsize=12)\n plt.clim(-1, 1)\n plt.xlabel(r'$\\beta$', fontsize=18, labelpad=6)\n plt.ylabel(r'$\\gamma$', fontsize=18, labelpad=6)\n #plt.clabel(contours, inline=True, fontsize=8)\n\n def average_state_for_steps(self, df, v_value, p_value):\n v_list = Visualization.making_select_list(df, 'beta') # list이지만 실제로는 array\n p_list = Visualization.making_select_list(df, 'gamma')\n temp_v_value = Visualization.covert_to_select_list_value(v_list, v_value)\n temp_p_value = Visualization.covert_to_select_list_value(p_list, p_value)\n df1 = df[df.p == temp_p_value]\n df2 = df1[df1.v == temp_v_value]\n df3 = df2.sort_values(by='Steps', ascending=True)\n plt.plot(df3['Steps'], df3['AS'], linestyle=':', marker='o', markersize=2, linewidth=0.3)\n plt.ylabel('AS', fontsize=18, labelpad=4)\n plt.xlabel('time(step)', fontsize=18, labelpad=4)\n\n\n def flow_prob_beta_chart(self, df, beta_values, gamma_values):\n beta_list = Visualization.making_select_list(df, 'beta') # list이지만 실제로는 array\n gamma_list = Visualization.making_select_list(df, 'gamma')\n beta_min = Visualization.covert_to_select_list_value(beta_list, beta_values[0])\n beta_max = Visualization.covert_to_select_list_value(beta_list, beta_values[1])\n gamma_min = Visualization.covert_to_select_list_value(gamma_list, gamma_values[0])\n gamma_max = Visualization.covert_to_select_list_value(gamma_list, gamma_values[1])\n df = df[df.gamma >= gamma_min]\n df = df[df.gamma <= gamma_max]\n df = df[df.beta >= beta_min]\n df = df[df.beta <= beta_max]\n gamma_df = df['gamma'].drop_duplicates()\n beta_df = df['beta'].drop_duplicates()\n gamma_array = np.array(gamma_df)\n beta_array = np.array(beta_df)\n for i in sorted(gamma_array):\n for j in sorted(beta_array):\n df1 = df[df.gamma == i]\n df2 = df1[df1.beta == j]\n plt.plot(df2['Steps'], df2['prob_beta'], '-', markersize=2, linewidth=0.3)\n plt.ylabel('probability for layer B', fontsize=18, labelpad=4)\n plt.xlabel('time(step)', fontsize=18, labelpad=4)\n\n def average_state_for_steps_scale(self, df, beta_values, gamma_values):\n beta_list = Visualization.making_select_list(df, 'beta') # list이지만 실제로는 array\n gamma_list = Visualization.making_select_list(df, 'gamma')\n beta_min = Visualization.covert_to_select_list_value(beta_list, beta_values[0])\n beta_max = Visualization.covert_to_select_list_value(beta_list, beta_values[1])\n gamma_min = Visualization.covert_to_select_list_value(gamma_list, gamma_values[0])\n gamma_max = Visualization.covert_to_select_list_value(gamma_list, gamma_values[1])\n df = df[df.gamma >= gamma_min]\n df = df[df.gamma <= gamma_max]\n df = df[df.beta >= beta_min]\n df = df[df.beta <= beta_max]\n gamma_df = df['gamma'].drop_duplicates()\n beta_df = df['beta'].drop_duplicates()\n gamma_array = np.array(gamma_df)\n beta_array = np.array(beta_df)\n for i in sorted(gamma_array):\n for j in sorted(beta_array):\n df1 = df[df.gamma == i]\n df2 = df1[df1.beta == j]\n plt.plot(df2['Steps'], df2['AS'], linewidth=0.5)\n plt.ylabel('AS', fontsize=18, labelpad=6)\n plt.xlabel('time(step)', fontsize=18, labelpad=6)\n\n @staticmethod\n def state_list_function(df, p_list, v_list):\n Z = np.zeros([len(p_list), len(v_list)])\n for i, p in enumerate(p_list):\n for j, v in enumerate(v_list):\n df1 = df[df.gamma == p]\n df2 = df1[df1.beta == v]\n if len(df2) == 0:\n Z[i][j] = 0\n else:\n Z[i][j] = df2['AS'].iloc[0]\n return Z\n\n @staticmethod\n def covert_to_select_list_value(select_list, input_value): # list가 만들어져 있는 곳에 사용\n loc = np.sum(select_list <= input_value) # select_list는 making_select_list를 사용, array로 만들어져 있음\n temp_value = select_list[loc - 1]\n return temp_value\n\n @staticmethod\n def making_select_list(df, list_name):\n list = []\n df = df[list_name]\n select_list = np.array(df.drop_duplicates())\n for i in range(len(select_list)):\n list.append(select_list[i])\n return np.array(sorted(list))\n\nif __name__ == \"__main__\":\n print(\"Visualization\")\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n setting.database = 'paper_revised_data'\n setting.table = 'simulation_table4'\n select_db = SelectDB.SelectDB()\n df = select_db.select_data_from_DB(setting)\n # df = df[df.MODEL == 'LM(16)']\n df = df[df.Steps == 100]\n # array1 = Visualization.making_select_list(df, 'p')\n # array2 = Visualization.making_select_list(df, 'v')\n # temp1 = Visualization.covert_to_select_list_value(array1, 0.1)\n # temp2 = Visualization.covert_to_select_list_value(array2, 0.6)\n # df1 = df[df.p == temp1]\n # df2 = df1[df1.v == temp2]\n # print(df2)\n visualization = Visualization()\n fig = plt.figure()\n sns.set()\n visualization.plot_3D_scatter_for_average_state(df)\n # visualization.average_state_for_steps_scale(df, [0, 3], [0, 2])\n plt.show()\n plt.close()\n\n\n\n #previous_research\n\n # visualization.average_state_for_steps(setting, df, [0, 0.5], [0, 0.5])\n # fig = plt.figure()\n #\n # plt.show()\n # plt.close()\n #visualization.plot_3D_to_2D_contour_for_average_state(setting, df)\n #visualization.plot_3D_to_2D_contour_for_average_state()\n #visualization.plot_3D_contour_for_average_state('previous_research')\n #visualization.plot_3D_scatter_for_average_state('average_layer_state') #previous_research\n # fig = visualization.flow_prob_beta_chart([0, 3], [0, 2])\n # fig = visualization.different_state_ratio_chart([0, 3], [0, 2], 'B')\n # visualization.plot_2D_beta_for_average_state(0.2)\n # visualization.plot_2D_beta_for_average_state(0.4)\n\n #visualization.plot_2D_beta_for_average_state('previous_research', 0.4)\n #visualization.plot_2D_beta_for_average_state('previous_research', 0.6)\n print(\"paint finished\")" }, { "alpha_fraction": 0.624859631061554, "alphanum_fraction": 0.6506926417350769, "avg_line_length": 33.25640869140625, "blob_id": "04c7e8014e1f3e725d8c8282956c83a72e8b61d9", "content_id": "4ecd6abf15e2850cdcc2e3c38c28c579e4b5121c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2675, "license_type": "no_license", "max_line_length": 124, "num_lines": 78, "path": "/MakingMovie.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import Setting_Simulation_Value\nimport Interconnected_Network_Visualization\nimport numpy as np\nfrom IPython.display import display, HTML\nimport matplotlib.pyplot as plt\nfrom matplotlib import animation\nfrom mpl_toolkits.mplot3d.axes3d import \nfrom sympy import \nimport Layer_A_Modeling\nimport Layer_B_Modeling\n\n\nclass MakingMovie:\n def __init__(self):\n self.SS = Setting_Simulation_Value.Setting_Simulation_Value()\n self.InterNetwork = Interconnected_Network_Visualization.Interconnected_Network_Visualization()\n\n def making_movie_for_interconneted_dynamics(self, layer_A, layer_B, img_file_name, save_file_name):\n ims = [np.array(self.InterNetwork.draw_interconnected_network(layer_A, layer_B, img_file_name))]\n\n\n self.plot_movie_mp4(image_array, save_file_name)\n\n\n\n\n def plot_movie_mp4(self, image_array, save_file_name):\n dpi = 72.0\n xpixels, ypixels = image_array[0].shape[0], image_array[0].shape[1]\n fig = plt.figure(figsize=(ypixels/dpi, xpixels/dpi), dpi=dpi)\n im = plt.figimage(image_array[0])\n def animate(i):\n im.set_array(image_array[i])\n return (im,)\n anim = animation.FuncAnimation(fig, animate, frames=len(image_array), repeat=False, interval=500)\n anim.save(save_file_name)\n display(HTML(anim.to_html5_video()))\n\nfig = plt.figure()\nims = [np.array(drawing_graph('dynamic_image.png'))]\nlimited_time = 1000\ntotal = 0\nwhile True :\n im = animation_interconnected_dynamics('dynamic_image.png')\n ims.append(np.array(im))\n total += 1\n if (np.all(A > 0) == 1 and np.all(B > 0) == 1) or (np.all(A < 0)== 1 and np.all(B < 0)== 1) or (total == limited_time) :\n break\nim = animation_interconnected_dynamics('dynamic_image.png')\nims.append(np.array(im))\nIMS = np.array(ims)\nplot_movie_mp4(IMS,'dynamic_images_no_leader(128（BA), 128(RR), ganma=0.5, beta=2).mp4')\n\n\n\n\n\n\n\nif __name__ == \"__main__\":\n print(\"Making the movie for competition\")\n making_interconnected_edges()\n static_variable(0.5, 2)\n fig = plt.figure()\n ims = [np.array(drawing_graph('dynamic_image.png'))]\n limited_time = 1000\n total = 0\n while True:\n im = animation_interconnected_dynamics('dynamic_image.png')\n ims.append(np.array(im))\n total += 1\n if (np.all(A > 0) == 1 and np.all(B > 0) == 1) or (np.all(A < 0) == 1 and np.all(B < 0) == 1) or (\n total == limited_time):\n break\n im = animation_interconnected_dynamics('dynamic_image.png')\n ims.append(np.array(im))\n IMS = np.array(ims)\n plot_movie_mp4(IMS, 'dynamic_images_no_leader(128（BA), 128(RR), ganma=0.5, beta=2).mp4')" }, { "alpha_fraction": 0.6298806071281433, "alphanum_fraction": 0.6327847838401794, "avg_line_length": 45.90909194946289, "blob_id": "c5c1d2238dbfb0b704eaf0274dc1e3c14f82e504", "content_id": "163075894f72fb5e7effd323555108fc94742d9a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3139, "license_type": "no_license", "max_line_length": 115, "num_lines": 66, "path": "/DecisionDynamics.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import random\nimport time\nimport numpy as np\nimport Setting_Simulation_Value\nimport InterconnectedLayerModeling\nimport networkx as nx\n\nclass DecisionDynamics:\n def __init__(self):\n self.B_COUNT = 0\n\n def B_layer_dynamics(self, setting, inter_layer, beta): # B_layer 다이내믹스, 베타 적용 및 언어데스 알고리즘 적용\n prob_beta_list = []\n for node_i in range(setting.A_node, setting.A_node+setting.B_node):\n neighbors = np.array(sorted(nx.neighbors(inter_layer.two_layer_graph, node_i)))\n neighbor_state = []\n for neighbor in neighbors:\n neighbor_state.append(inter_layer.two_layer_graph.nodes[neighbor]['state'])\n neighbor_array = np.array(neighbor_state)\n same_orientation = int(np.sum(neighbor_array * inter_layer.two_layer_graph.nodes[node_i]['state'] > 0))\n opposite_orientation = len(neighbors) - same_orientation\n prob_beta = (opposite_orientation / len(neighbors)) ** beta\n z = random.random()\n if z < prob_beta:\n inter_layer.two_layer_graph.nodes[node_i]['state'] = \\\n -(inter_layer.two_layer_graph.nodes[node_i]['state'])\n self.B_COUNT += 1\n prob_beta_list.append(prob_beta)\n prob_beta_array = np.array(prob_beta_list)\n prob_beta_mean = np.sum(prob_beta_array) / len(prob_beta_array)\n return inter_layer, prob_beta_mean\n\n def B_state_change_probability_cal(self, setting, inter_layer, beta):\n prob_beta_list = []\n for node_i in range(setting.A_node, setting.A_node+setting.B_node):\n neighbors = np.array(sorted(nx.neighbors(inter_layer.two_layer_graph, node_i)))\n neighbor_state = []\n for neighbor in neighbors:\n neighbor_state.append(inter_layer.two_layer_graph.nodes[neighbor]['state'])\n neighbor_array = np.array(neighbor_state)\n same_orientation = int(np.sum(neighbor_array * inter_layer.two_layer_graph.nodes[node_i]['state'] > 0))\n opposite_orientation = len(neighbors) - same_orientation\n prob_beta = (opposite_orientation / len(neighbors)) ** beta\n prob_beta_list.append(prob_beta)\n prob_beta_array = np.array(prob_beta_list)\n prob_beta_mean = np.sum(prob_beta_array) / len(prob_beta_array)\n return prob_beta_array, prob_beta_mean\n\n\nif __name__ == \"__main__\" :\n print(\"DecisionDynamics\")\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n inter_layer = InterconnectedLayerModeling.InterconnectedLayerModeling(setting)\n state = 0\n for i in range(setting.A_node, setting.A_node+setting.B_node):\n state += inter_layer.two_layer_graph.nodes[i]['state']\n print(state)\n start = time.time()\n decision = DecisionDynamics()\n inter_layer = decision.B_layer_dynamics(setting, inter_layer, 1.5)[0]\n state = 0\n for i in range(setting.A_node, setting.A_node+setting.B_node):\n state += inter_layer.two_layer_graph.nodes[i]['state']\n print(state)\n end = time.time()\n print(end-start)\n\n\n\n" }, { "alpha_fraction": 0.643513560295105, "alphanum_fraction": 0.6678838133811951, "avg_line_length": 50.096435546875, "blob_id": "d0597245bc76adba1c98af974e7bec51e6d1e9ed", "content_id": "80e258a2b8baf0eed18bf4a5b598e27c0a08bd4c", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 24374, "license_type": "no_license", "max_line_length": 112, "num_lines": 477, "path": "/UI.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "# -- coding: utf-8 --\n\n# Form implementation generated from reading ui file 'C:\\Users\\Purple\\CompetingLayer\\mainwindow.ui'\n#\n# Created by: PyQt5 UI code generator 5.11.3\n#\n# WARNING! All changes made in this file will be lost!\n\nfrom PyQt5 import QtCore, QtGui, QtWidgets\n\nclass Ui_MainWindow(object):\n def setupUi(self, MainWindow):\n MainWindow.setObjectName(\"MainWindow\")\n MainWindow.resize(1198, 849)\n icon = QtGui.QIcon()\n icon.addPixmap(QtGui.QPixmap(\"network.png\"), QtGui.QIcon.Normal, QtGui.QIcon.Off)\n MainWindow.setWindowIcon(icon)\n self.centralwidget = QtWidgets.QWidget(MainWindow)\n self.centralwidget.setObjectName(\"centralwidget\")\n self.gridLayout_2 = QtWidgets.QGridLayout(self.centralwidget)\n self.gridLayout_2.setObjectName(\"gridLayout_2\")\n self.Total = QtWidgets.QTabWidget(self.centralwidget)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Small\")\n font.setPointSize(10)\n self.Total.setFont(font)\n self.Total.setTabShape(QtWidgets.QTabWidget.Rounded)\n self.Total.setObjectName(\"Total\")\n self.Initial_State = QtWidgets.QWidget()\n self.Initial_State.setObjectName(\"Initial_State\")\n self.Initial_Condition = QtWidgets.QGroupBox(self.Initial_State)\n self.Initial_Condition.setGeometry(QtCore.QRect(920, 20, 261, 741))\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.Initial_Condition.setFont(font)\n self.Initial_Condition.setStyleSheet(\"font: 10pt \\\"Sitka Text\\\";\")\n self.Initial_Condition.setFlat(False)\n self.Initial_Condition.setObjectName(\"Initial_Condition\")\n self.Simulation_Start = QtWidgets.QPushButton(self.Initial_Condition)\n self.Simulation_Start.setGeometry(QtCore.QRect(100, 680, 151, 41))\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.Simulation_Start.setFont(font)\n self.Simulation_Start.setObjectName(\"Simulation_Start\")\n self.layoutWidget = QtWidgets.QWidget(self.Initial_Condition)\n self.layoutWidget.setGeometry(QtCore.QRect(10, 20, 237, 642))\n self.layoutWidget.setObjectName(\"layoutWidget\")\n self.gridLayout_4 = QtWidgets.QGridLayout(self.layoutWidget)\n self.gridLayout_4.setContentsMargins(0, 0, 0, 0)\n self.gridLayout_4.setObjectName(\"gridLayout_4\")\n self.Layer_A = QtWidgets.QGroupBox(self.layoutWidget)\n self.Layer_A.setObjectName(\"Layer_A\")\n self.gridLayout = QtWidgets.QGridLayout(self.Layer_A)\n self.gridLayout.setObjectName(\"gridLayout\")\n self.A_node = QtWidgets.QLabel(self.Layer_A)\n self.A_node.setObjectName(\"A_node\")\n self.gridLayout.addWidget(self.A_node, 0, 0, 1, 1)\n self.A_NodeBox = QtWidgets.QComboBox(self.Layer_A)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.A_NodeBox.setFont(font)\n self.A_NodeBox.setIconSize(QtCore.QSize(12, 12))\n self.A_NodeBox.setObjectName(\"A_NodeBox\")\n self.A_NodeBox.addItem(\"\")\n self.A_NodeBox.addItem(\"\")\n self.gridLayout.addWidget(self.A_NodeBox, 0, 1, 1, 1)\n self.A_internaledge = QtWidgets.QLabel(self.Layer_A)\n self.A_internaledge.setObjectName(\"A_internaledge\")\n self.gridLayout.addWidget(self.A_internaledge, 1, 0, 1, 1)\n self.A_InternalEdgeBox = QtWidgets.QComboBox(self.Layer_A)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.A_InternalEdgeBox.setFont(font)\n self.A_InternalEdgeBox.setMaxVisibleItems(0)\n self.A_InternalEdgeBox.setIconSize(QtCore.QSize(12, 12))\n self.A_InternalEdgeBox.setObjectName(\"A_InternalEdgeBox\")\n self.A_InternalEdgeBox.addItem(\"\")\n self.A_InternalEdgeBox.addItem(\"\")\n self.gridLayout.addWidget(self.A_InternalEdgeBox, 1, 1, 1, 1)\n self.A_externaledge = QtWidgets.QLabel(self.Layer_A)\n self.A_externaledge.setTextFormat(QtCore.Qt.AutoText)\n self.A_externaledge.setObjectName(\"A_externaledge\")\n self.gridLayout.addWidget(self.A_externaledge, 2, 0, 1, 1)\n self.A_ExternalEdgeBox = QtWidgets.QComboBox(self.Layer_A)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.A_ExternalEdgeBox.setFont(font)\n self.A_ExternalEdgeBox.setIconSize(QtCore.QSize(12, 12))\n self.A_ExternalEdgeBox.setObjectName(\"A_ExternalEdgeBox\")\n self.A_ExternalEdgeBox.addItem(\"\")\n self.gridLayout.addWidget(self.A_ExternalEdgeBox, 2, 1, 1, 1)\n self.A_structure = QtWidgets.QLabel(self.Layer_A)\n self.A_structure.setObjectName(\"A_structure\")\n self.gridLayout.addWidget(self.A_structure, 3, 0, 1, 1)\n self.A_StructureBox = QtWidgets.QComboBox(self.Layer_A)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.A_StructureBox.setFont(font)\n self.A_StructureBox.setIconSize(QtCore.QSize(12, 12))\n self.A_StructureBox.setObjectName(\"A_StructureBox\")\n self.A_StructureBox.addItem(\"\")\n self.A_StructureBox.addItem(\"\")\n self.gridLayout.addWidget(self.A_StructureBox, 3, 1, 1, 1)\n self.A_state = QtWidgets.QLabel(self.Layer_A)\n self.A_state.setObjectName(\"A_state\")\n self.gridLayout.addWidget(self.A_state, 4, 0, 1, 1)\n self.A_StateBox = QtWidgets.QComboBox(self.Layer_A)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.A_StateBox.setFont(font)\n self.A_StateBox.setIconSize(QtCore.QSize(12, 12))\n self.A_StateBox.setObjectName(\"A_StateBox\")\n self.A_StateBox.addItem(\"\")\n self.gridLayout.addWidget(self.A_StateBox, 4, 1, 1, 1)\n self.A_max = QtWidgets.QLabel(self.Layer_A)\n self.A_max.setObjectName(\"A_max\")\n self.gridLayout.addWidget(self.A_max, 5, 0, 1, 1)\n self.A_MAXBox = QtWidgets.QComboBox(self.Layer_A)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.A_MAXBox.setFont(font)\n self.A_MAXBox.setIconSize(QtCore.QSize(12, 12))\n self.A_MAXBox.setObjectName(\"A_MAXBox\")\n self.A_MAXBox.addItem(\"\")\n self.gridLayout.addWidget(self.A_MAXBox, 5, 1, 1, 1)\n self.A_min = QtWidgets.QLabel(self.Layer_A)\n self.A_min.setObjectName(\"A_min\")\n self.gridLayout.addWidget(self.A_min, 6, 0, 1, 1)\n self.A_MINBox = QtWidgets.QComboBox(self.Layer_A)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.A_MINBox.setFont(font)\n self.A_MINBox.setIconSize(QtCore.QSize(12, 12))\n self.A_MINBox.setObjectName(\"A_MINBox\")\n self.A_MINBox.addItem(\"\")\n self.gridLayout.addWidget(self.A_MINBox, 6, 1, 1, 1)\n self.gridLayout_4.addWidget(self.Layer_A, 0, 0, 1, 1)\n self.Layer_B = QtWidgets.QGroupBox(self.layoutWidget)\n self.Layer_B.setObjectName(\"Layer_B\")\n self.formLayout = QtWidgets.QFormLayout(self.Layer_B)\n self.formLayout.setObjectName(\"formLayout\")\n self.B_node = QtWidgets.QLabel(self.Layer_B)\n self.B_node.setObjectName(\"B_node\")\n self.formLayout.setWidget(0, QtWidgets.QFormLayout.LabelRole, self.B_node)\n self.B_NodeBox = QtWidgets.QComboBox(self.Layer_B)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.B_NodeBox.setFont(font)\n self.B_NodeBox.setMaxVisibleItems(0)\n self.B_NodeBox.setIconSize(QtCore.QSize(12, 12))\n self.B_NodeBox.setObjectName(\"B_NodeBox\")\n self.B_NodeBox.addItem(\"\")\n self.B_NodeBox.addItem(\"\")\n self.formLayout.setWidget(0, QtWidgets.QFormLayout.FieldRole, self.B_NodeBox)\n self.label_11 = QtWidgets.QLabel(self.Layer_B)\n self.label_11.setObjectName(\"label_11\")\n self.formLayout.setWidget(1, QtWidgets.QFormLayout.LabelRole, self.label_11)\n self.B_InternalEdgeBox = QtWidgets.QComboBox(self.Layer_B)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.B_InternalEdgeBox.setFont(font)\n self.B_InternalEdgeBox.setIconSize(QtCore.QSize(12, 12))\n self.B_InternalEdgeBox.setObjectName(\"B_InternalEdgeBox\")\n self.B_InternalEdgeBox.addItem(\"\")\n self.B_InternalEdgeBox.addItem(\"\")\n self.formLayout.setWidget(1, QtWidgets.QFormLayout.FieldRole, self.B_InternalEdgeBox)\n self.label_12 = QtWidgets.QLabel(self.Layer_B)\n self.label_12.setTextFormat(QtCore.Qt.AutoText)\n self.label_12.setObjectName(\"label_12\")\n self.formLayout.setWidget(2, QtWidgets.QFormLayout.LabelRole, self.label_12)\n self.B_ExternalEdgeBox = QtWidgets.QComboBox(self.Layer_B)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.B_ExternalEdgeBox.setFont(font)\n self.B_ExternalEdgeBox.setIconSize(QtCore.QSize(12, 12))\n self.B_ExternalEdgeBox.setObjectName(\"B_ExternalEdgeBox\")\n self.B_ExternalEdgeBox.addItem(\"\")\n self.B_ExternalEdgeBox.addItem(\"\")\n self.formLayout.setWidget(2, QtWidgets.QFormLayout.FieldRole, self.B_ExternalEdgeBox)\n self.label_13 = QtWidgets.QLabel(self.Layer_B)\n self.label_13.setObjectName(\"label_13\")\n self.formLayout.setWidget(3, QtWidgets.QFormLayout.LabelRole, self.label_13)\n self.B_StructureBox = QtWidgets.QComboBox(self.Layer_B)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.B_StructureBox.setFont(font)\n self.B_StructureBox.setIconSize(QtCore.QSize(12, 12))\n self.B_StructureBox.setObjectName(\"B_StructureBox\")\n self.B_StructureBox.addItem(\"\")\n self.B_StructureBox.addItem(\"\")\n self.formLayout.setWidget(3, QtWidgets.QFormLayout.FieldRole, self.B_StructureBox)\n self.label_14 = QtWidgets.QLabel(self.Layer_B)\n self.label_14.setObjectName(\"label_14\")\n self.formLayout.setWidget(4, QtWidgets.QFormLayout.LabelRole, self.label_14)\n self.B_StateBox = QtWidgets.QComboBox(self.Layer_B)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.B_StateBox.setFont(font)\n self.B_StateBox.setIconSize(QtCore.QSize(12, 12))\n self.B_StateBox.setObjectName(\"B_StateBox\")\n self.B_StateBox.addItem(\"\")\n self.formLayout.setWidget(4, QtWidgets.QFormLayout.FieldRole, self.B_StateBox)\n self.gridLayout_4.addWidget(self.Layer_B, 1, 0, 1, 1)\n self.Simulation_Condition = QtWidgets.QGroupBox(self.layoutWidget)\n self.Simulation_Condition.setObjectName(\"Simulation_Condition\")\n self.gridLayout_3 = QtWidgets.QGridLayout(self.Simulation_Condition)\n self.gridLayout_3.setObjectName(\"gridLayout_3\")\n self.label_7 = QtWidgets.QLabel(self.Simulation_Condition)\n self.label_7.setObjectName(\"label_7\")\n self.gridLayout_3.addWidget(self.label_7, 0, 0, 1, 1)\n self.StepBox = QtWidgets.QComboBox(self.Simulation_Condition)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.StepBox.setFont(font)\n self.StepBox.setIconSize(QtCore.QSize(12, 12))\n self.StepBox.setObjectName(\"StepBox\")\n self.StepBox.addItem(\"\")\n self.StepBox.addItem(\"\")\n self.gridLayout_3.addWidget(self.StepBox, 0, 1, 1, 1)\n self.label_8 = QtWidgets.QLabel(self.Simulation_Condition)\n self.label_8.setObjectName(\"label_8\")\n self.gridLayout_3.addWidget(self.label_8, 2, 0, 1, 1)\n self.DrawingBox = QtWidgets.QComboBox(self.Simulation_Condition)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.DrawingBox.setFont(font)\n self.DrawingBox.setIconSize(QtCore.QSize(12, 12))\n self.DrawingBox.setObjectName(\"DrawingBox\")\n self.DrawingBox.addItem(\"\")\n self.DrawingBox.addItem(\"\")\n self.gridLayout_3.addWidget(self.DrawingBox, 2, 1, 1, 1)\n self.label_9 = QtWidgets.QLabel(self.Simulation_Condition)\n self.label_9.setObjectName(\"label_9\")\n self.gridLayout_3.addWidget(self.label_9, 6, 0, 1, 1)\n self.DatabaseBox = QtWidgets.QComboBox(self.Simulation_Condition)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.DatabaseBox.setFont(font)\n self.DatabaseBox.setIconSize(QtCore.QSize(12, 12))\n self.DatabaseBox.setObjectName(\"DatabaseBox\")\n self.DatabaseBox.addItem(\"\")\n self.DatabaseBox.addItem(\"\")\n self.gridLayout_3.addWidget(self.DatabaseBox, 6, 1, 1, 1)\n self.label_16 = QtWidgets.QLabel(self.Simulation_Condition)\n self.label_16.setObjectName(\"label_16\")\n self.gridLayout_3.addWidget(self.label_16, 10, 0, 1, 1)\n self.StructuresBox = QtWidgets.QComboBox(self.Simulation_Condition)\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.StructuresBox.setFont(font)\n self.StructuresBox.setIconSize(QtCore.QSize(12, 12))\n self.StructuresBox.setObjectName(\"StructuresBox\")\n self.StructuresBox.addItem(\"\")\n self.StructuresBox.addItem(\"\")\n self.StructuresBox.addItem(\"\")\n self.StructuresBox.addItem(\"\")\n self.gridLayout_3.addWidget(self.StructuresBox, 10, 1, 1, 1)\n self.gridLayout_4.addWidget(self.Simulation_Condition, 2, 0, 1, 1)\n self.condition_settingButton = QtWidgets.QPushButton(self.layoutWidget)\n self.condition_settingButton.setObjectName(\"condition_settingButton\")\n self.gridLayout_4.addWidget(self.condition_settingButton, 3, 0, 1, 1)\n self.Initial_State_Button = QtWidgets.QPushButton(self.Initial_State)\n self.Initial_State_Button.setGeometry(QtCore.QRect(780, 740, 111, 27))\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.Initial_State_Button.setFont(font)\n self.Initial_State_Button.setObjectName(\"Initial_State_Button\")\n self.frame = QtWidgets.QFrame(self.Initial_State)\n self.frame.setGeometry(QtCore.QRect(20, 10, 881, 711))\n self.frame.setFrameShape(QtWidgets.QFrame.StyledPanel)\n self.frame.setFrameShadow(QtWidgets.QFrame.Raised)\n self.frame.setObjectName(\"frame\")\n self.horizontalLayoutWidget = QtWidgets.QWidget(self.frame)\n self.horizontalLayoutWidget.setGeometry(QtCore.QRect(20, 20, 851, 681))\n self.horizontalLayoutWidget.setObjectName(\"horizontalLayoutWidget\")\n self.horizontalLayout = QtWidgets.QHBoxLayout(self.horizontalLayoutWidget)\n self.horizontalLayout.setContentsMargins(0, 0, 0, 0)\n self.horizontalLayout.setObjectName(\"horizontalLayout\")\n self.Total.addTab(self.Initial_State, \"\")\n self.Total_Result = QtWidgets.QWidget()\n self.Total_Result.setObjectName(\"Total_Result\")\n self.Simulation_Start_2 = QtWidgets.QPushButton(self.Total_Result)\n self.Simulation_Start_2.setGeometry(QtCore.QRect(820, 730, 151, 41))\n font = QtGui.QFont()\n font.setFamily(\"Sitka Text\")\n font.setPointSize(10)\n font.setBold(False)\n font.setItalic(False)\n font.setWeight(50)\n self.Simulation_Start_2.setFont(font)\n self.Simulation_Start_2.setObjectName(\"Simulation_Start_2\")\n self.graphicsView_2 = QtWidgets.QGraphicsView(self.Total_Result)\n self.graphicsView_2.setGeometry(QtCore.QRect(20, 10, 1101, 711))\n self.graphicsView_2.setObjectName(\"graphicsView_2\")\n self.Total.addTab(self.Total_Result, \"\")\n self.Result_gamma = QtWidgets.QWidget()\n self.Result_gamma.setObjectName(\"Result_gamma\")\n self.buttonBox_4 = QtWidgets.QDialogButtonBox(self.Result_gamma)\n self.buttonBox_4.setGeometry(QtCore.QRect(430, 510, 341, 32))\n self.buttonBox_4.setOrientation(QtCore.Qt.Horizontal)\n self.buttonBox_4.setStandardButtons(QtWidgets.QDialogButtonBox.Cancel\|QtWidgets.QDialogButtonBox.Ok)\n self.buttonBox_4.setObjectName(\"buttonBox_4\")\n self.Total.addTab(self.Result_gamma, \"\")\n self.Result_beta = QtWidgets.QWidget()\n self.Result_beta.setObjectName(\"Result_beta\")\n self.buttonBox_5 = QtWidgets.QDialogButtonBox(self.Result_beta)\n self.buttonBox_5.setGeometry(QtCore.QRect(420, 520, 341, 32))\n self.buttonBox_5.setOrientation(QtCore.Qt.Horizontal)\n self.buttonBox_5.setStandardButtons(QtWidgets.QDialogButtonBox.Cancel\|QtWidgets.QDialogButtonBox.Ok)\n self.buttonBox_5.setObjectName(\"buttonBox_5\")\n self.Total.addTab(self.Result_beta, \"\")\n self.Movie = QtWidgets.QWidget()\n self.Movie.setObjectName(\"Movie\")\n self.buttonBox_6 = QtWidgets.QDialogButtonBox(self.Movie)\n self.buttonBox_6.setGeometry(QtCore.QRect(430, 520, 341, 32))\n self.buttonBox_6.setOrientation(QtCore.Qt.Horizontal)\n self.buttonBox_6.setStandardButtons(QtWidgets.QDialogButtonBox.Cancel\|QtWidgets.QDialogButtonBox.Ok)\n self.buttonBox_6.setObjectName(\"buttonBox_6\")\n self.Total.addTab(self.Movie, \"\")\n self.gridLayout_2.addWidget(self.Total, 0, 0, 1, 1)\n MainWindow.setCentralWidget(self.centralwidget)\n self.statusbar = QtWidgets.QStatusBar(MainWindow)\n self.statusbar.setObjectName(\"statusbar\")\n MainWindow.setStatusBar(self.statusbar)\n\n self.retranslateUi(MainWindow)\n self.Total.setCurrentIndex(0)\n self.Initial_State_Button.clicked.connect(self.frame.show)\n QtCore.QMetaObject.connectSlotsByName(MainWindow)\n\n def retranslateUi(self, MainWindow):\n _translate = QtCore.QCoreApplication.translate\n MainWindow.setWindowTitle(_translate(\"MainWindow\", \"MainWindow\"))\n self.Initial_Condition.setTitle(_translate(\"MainWindow\", \"Initial Condition\"))\n self.Simulation_Start.setText(_translate(\"MainWindow\", \"Simulation Start\"))\n self.Layer_A.setTitle(_translate(\"MainWindow\", \"Layer A\"))\n self.A_node.setText(_translate(\"MainWindow\", \"Node\"))\n self.A_NodeBox.setItemText(0, _translate(\"MainWindow\", \"2048\"))\n self.A_NodeBox.setItemText(1, _translate(\"MainWindow\", \"128\"))\n self.A_internaledge.setText(_translate(\"MainWindow\", \"Internal Edge\"))\n self.A_InternalEdgeBox.setItemText(0, _translate(\"MainWindow\", \"5\"))\n self.A_InternalEdgeBox.setItemText(1, _translate(\"MainWindow\", \"2\"))\n self.A_externaledge.setText(_translate(\"MainWindow\", \"External Edge\"))\n self.A_ExternalEdgeBox.setItemText(0, _translate(\"MainWindow\", \"1\"))\n self.A_structure.setText(_translate(\"MainWindow\", \"Structure\"))\n self.A_StructureBox.setItemText(0, _translate(\"MainWindow\", \"1\"))\n self.A_StructureBox.setItemText(1, _translate(\"MainWindow\", \"2\"))\n self.A_state.setText(_translate(\"MainWindow\", \"State\"))\n self.A_StateBox.setItemText(0, _translate(\"MainWindow\", \"[1, 2]\"))\n self.A_max.setText(_translate(\"MainWindow\", \"MAX\"))\n self.A_MAXBox.setItemText(0, _translate(\"MainWindow\", \"+2\"))\n self.A_min.setText(_translate(\"MainWindow\", \"MIN\"))\n self.A_MINBox.setItemText(0, _translate(\"MainWindow\", \"-2\"))\n self.Layer_B.setTitle(_translate(\"MainWindow\", \"Layer B\"))\n self.B_node.setText(_translate(\"MainWindow\", \"Node\"))\n self.B_NodeBox.setItemText(0, _translate(\"MainWindow\", \"2048\"))\n self.B_NodeBox.setItemText(1, _translate(\"MainWindow\", \"128\"))\n self.label_11.setText(_translate(\"MainWindow\", \"Internal Edge\"))\n self.B_InternalEdgeBox.setItemText(0, _translate(\"MainWindow\", \"5\"))\n self.B_InternalEdgeBox.setItemText(1, _translate(\"MainWindow\", \"2\"))\n self.label_12.setText(_translate(\"MainWindow\", \"External Edge\"))\n self.B_ExternalEdgeBox.setItemText(0, _translate(\"MainWindow\", \"1\"))\n self.B_ExternalEdgeBox.setItemText(1, _translate(\"MainWindow\", \"16\"))\n self.label_13.setText(_translate(\"MainWindow\", \"Structure\"))\n self.B_StructureBox.setItemText(0, _translate(\"MainWindow\", \"1\"))\n self.B_StructureBox.setItemText(1, _translate(\"MainWindow\", \"2\"))\n self.label_14.setText(_translate(\"MainWindow\", \"State\"))\n self.B_StateBox.setItemText(0, _translate(\"MainWindow\", \"[-1]\"))\n self.Simulation_Condition.setTitle(_translate(\"MainWindow\", \"Simulation Condition\"))\n self.label_7.setText(_translate(\"MainWindow\", \"Step\"))\n self.StepBox.setItemText(0, _translate(\"MainWindow\", \"100\"))\n self.StepBox.setItemText(1, _translate(\"MainWindow\", \"30\"))\n self.label_8.setText(_translate(\"MainWindow\", \"Drawing\"))\n self.DrawingBox.setItemText(0, _translate(\"MainWindow\", \"False\"))\n self.DrawingBox.setItemText(1, _translate(\"MainWindow\", \"True\"))\n self.label_9.setText(_translate(\"MainWindow\", \"Database\"))\n self.DatabaseBox.setItemText(0, _translate(\"MainWindow\", \"renew_competition\"))\n self.DatabaseBox.setItemText(1, _translate(\"MainWindow\", \"competition\"))\n self.label_16.setText(_translate(\"MainWindow\", \"Structures\"))\n self.StructuresBox.setItemText(0, _translate(\"MainWindow\", \"RR-RR\"))\n self.StructuresBox.setItemText(1, _translate(\"MainWindow\", \"BA-BA\"))\n self.StructuresBox.setItemText(2, _translate(\"MainWindow\", \"RR-BA\"))\n self.StructuresBox.setItemText(3, _translate(\"MainWindow\", \"BA-RA\"))\n self.condition_settingButton.setText(_translate(\"MainWindow\", \"Setting\"))\n self.Initial_State_Button.setText(_translate(\"MainWindow\", \"Initial State\"))\n self.Total.setTabText(self.Total.indexOf(self.Initial_State), _translate(\"MainWindow\", \"Initial State\"))\n self.Simulation_Start_2.setText(_translate(\"MainWindow\", \"Simulation Start\"))\n self.Total.setTabText(self.Total.indexOf(self.Total_Result), _translate(\"MainWindow\", \"Total Result\"))\n self.Total.setTabText(self.Total.indexOf(self.Result_gamma), _translate(\"MainWindow\", \"Result(gamma)\"))\n self.Total.setTabText(self.Total.indexOf(self.Result_beta), _translate(\"MainWindow\", \"Result(beta)\"))\n self.Total.setTabText(self.Total.indexOf(self.Movie), _translate(\"MainWindow\", \"Movie\"))\n\n\nif __name__ == \"__main__\":\n import sys\n app = QtWidgets.QApplication(sys.argv)\n MainWindow = QtWidgets.QMainWindow()\n ui = Ui_MainWindow()\n ui.setupUi(MainWindow)\n MainWindow.show()\n sys.exit(app.exec_())\n\n" }, { "alpha_fraction": 0.6002246141433716, "alphanum_fraction": 0.6094890236854553, "avg_line_length": 40.38372039794922, "blob_id": "4a1c61e3a54c2b60d690ad5649c77af0b06e93c3", "content_id": "d67b55f8a98110fdfe9a972a7a863c84de3197f3", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3772, "license_type": "no_license", "max_line_length": 104, "num_lines": 86, "path": "/Layer_A_Modeling.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import networkx as nx\nimport numpy as np\nimport pandas as pd\nimport random\nimport math\nimport Setting_Simulation_Value\n## A layer Modeling : A, A_edges, AB_edges, AB_neighbor\n\n\nclass Layer_A_Modeling():\n def __init__(self, setting):\n # network : 1 = random regular graph 2 = barabasi-albert graph\n A_edges_array = self.A_layer_config(setting)\n self.A_edges = A_edges_array[0]\n self.AB_edges = A_edges_array[1]\n self.AB_neighbor = A_edges_array[2]\n self.A_node_info = self.making_node_info()\n self.G_A = self.making_layer_A_graph(setting)\n\n def making_layer_A_graph(self, setting):\n self.G_A = nx.Graph()\n for i in range(setting.A_node):\n self.G_A.add_node(i, name='A_%s' % i, state=setting.A[i])\n A_edges_list = sorted(self.A_edges.edges)\n self.G_A.add_edges_from(A_edges_list)\n return self.G_A\n\n def A_layer_config(self, setting):\n # A_layer 구성요소 A_layer_config(state = [1,2], node = 2048, edge = 5, Max = 2, Min = -2)\n self.select_layer_A_model(setting)\n self.making_interconnected_edges(setting)\n return self.A_edges, self.AB_edges, self.AB_neighbor\n # A : A의 각 노드의 상태, A_state : A 노드 상태의 종류(1, 2, -1, -2),\n # A_node : 노드의 수, A_edge : 내부연결선수, A_edges : 내부연결상태(튜플), MAX : 최대상태, MIN : 최소상태\n\n def select_layer_A_model(self, setting):\n if setting.Structure.split('-')[0] == 'RR':\n self.making_layer_A_random_regular(setting)\n elif setting.Structure.split('-')[0] == 'BA':\n self.making_layer_A_barabasi_albert(setting)\n return self.A_edges\n\n\n def making_layer_A_random_regular(self, setting):\n # A_layer random_regular network\n self.A_edges = nx.random_regular_graph(setting.A_edge, setting.A_node, seed=None)\n return self.A_edges\n\n def making_layer_A_barabasi_albert(self, setting):\n # A_layer 바바라시-알버트 네트워크\n self.A_edges = nx.barabasi_albert_graph(setting.A_node, setting.A_edge, seed=None)\n return self.A_edges\n\n def making_interconnected_edges(self, setting):\n self.AB_edges = []\n self.AB_neighbor = []\n for i in range(int(setting.A_node / setting.B_inter_edges)):\n for j in range(setting.B_inter_edges):\n connected_A_node = np.array(self.A_edges.nodes).reshape(-1, setting.B_inter_edges)[i][j]\n self.AB_neighbor.append(connected_A_node)\n self.AB_edges.append((i, connected_A_node))\n self.AB_neighbor = np.array(self.AB_neighbor).reshape(-1, setting.B_inter_edges)\n return self.AB_edges, self.AB_neighbor\n # AB_neighbor은 B노드번호 기준으로 연결된 A노드번호 ex) AB_neighbor[0]= array([0, 1])\n # B 노드 0에 A노드 0번, 1번이 연결되어 있다는 뜻\n # AB_edges는 (0, 1)은 B 노드 0번과 A 노드 1번이 연결되어 있다는 뜻\n\n def making_node_info(self): # layer, node_number, location\n node_info = [{'node_number': i, 'layer': 'A', 'location': (random.random(), random.random())}\n for i in sorted(self.A_edges.nodes)]\n node_info = pd.DataFrame(node_info, columns=['node_number', 'layer', 'location'])\n return node_info\n\n\nif __name__ == \"__main__\" :\n print(\"layer_A\")\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n Layer_A = Layer_A_Modeling(setting)\n print(Layer_A.G_A.nodes)\n state = 0\n for i in range(len(Layer_A.G_A.nodes)):\n state += Layer_A.G_A.nodes[i]['state']\n print(state)\n #print(Layer_A.AB_edges)\n #print(Layer_A.AB_neighbor)\n #print(Layer_A.SS.A_node)\n\n\n\n" }, { "alpha_fraction": 0.5564581751823425, "alphanum_fraction": 0.5747359991073608, "avg_line_length": 31.394737243652344, "blob_id": "8d66d4cccae906ccd617dd3f4b173748bcc75125", "content_id": "5d4db5806700d3c9d746e7df63b95667024d4d0b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2462, "license_type": "no_license", "max_line_length": 97, "num_lines": 76, "path": "/Setting_Simulation_Value.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import numpy as np\nimport math\nimport random\n\n\nclass Setting_Simulation_Value:\n def __init__(self):\n self.database = 'paper_revised_data' # 'competition renew_competition'\n self.table = 'simulation_table4'\n self.MODEL = 'BA-BA' #'RR(2)-RR(5), 'BA-BA', 'BA-RR(5)', 'RR(5)-BA', 'RR(10)-BA'\n self.Structure = 'BA-BA'\n\n self.Limited_step = 100\n self.Repeating_number = 20\n\n self.A_state = [1, 2]\n self.A_node = 2048\n self.A_edge = 5\n self.A_inter_edges = 1\n self.A = self.static_making_A_array()\n self.MAX = 2\n self.MIN = -2\n\n self.B_state = [-1]\n self.B_node = 2048\n self.B_edge = 5\n self.B_inter_edges = int(self.A_node / self.B_node)\n self.B = self.static_making_B_array()\n\n self.DB = 'MySQL'\n self.gap = 40\n simulation_condition = self.simulation_condition(self.gap)\n self.R = simulation_condition[0]\n self.D = simulation_condition[1]\n self.variable_list = self.gamma_and_beta_list(self.R, self.D)\n self.workers = 5\n\n def simulation_condition(self, gap):\n self.R = np.linspace(0, 2, gap)\n self.D = np.linspace(self.making_beta_scale(gap)[0], self.making_beta_scale(gap)[1], gap)\n return self.R, self.D\n\n def gamma_and_beta_list(self, gamma_list, beta_list):\n self.variable_list = []\n for gamma in gamma_list:\n for beta in beta_list:\n self.variable_list.append((gamma, beta))\n return self.variable_list\n\n def making_beta_scale(self, a):\n scale = math.log((1 / (self.B_edge + 1)) ** 3)\\\n / math.log(self.B_inter_edges / (self.B_edge + self.B_inter_edges))\n return 0, scale, a\n\n def static_making_A_array(self):\n values = self.A_state * int(self.A_node / len(self.A_state))\n self.A = np.array(values)\n random.shuffle(self.A)\n return self.A\n\n def static_making_B_array(self):\n values = self.B_state * int(self.B_node / len(self.B_state))\n self.B = np.array(values)\n random.shuffle(self.B)\n return self.B\n\nif __name__ == \"__main__\":\n SS = Setting_Simulation_Value()\n #layer_A1 = Layer_A_Modeling.Layer_A_Modeling(SS)\n print(SS.A_node)\n #print(len(layer_A1.A))\n #layer_A2 = Layer_A_Modeling.Layer_A_Modeling(SS)\n print(SS.B_node)\n print(SS.A)\n print(SS.variable_list)\n #print(len(layer_A2.A))\n" }, { "alpha_fraction": 0.5956395268440247, "alphanum_fraction": 0.6139112114906311, "avg_line_length": 49.80717468261719, "blob_id": "91a79b9d272ed2152258a994efbdafce2ecd80ff", "content_id": "b9d682e6fb3e0c420b1701800daefe0b6cfa5e04", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 11509, "license_type": "no_license", "max_line_length": 149, "num_lines": 223, "path": "/Visualization.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import SelectDB\nimport numpy as np\nimport Setting_Simulation_Value\nimport matplotlib.pyplot as plt\nimport matplotlib\nimport seaborn as sns\nimport pandas as pd\nfrom sympy import \nfrom mpl_toolkits.mplot3d.axes3d import \nfrom matplotlib.backends.backend_qt5agg import FigureCanvasQTAgg as FigureCanvas\nfrom numba import jit\nmatplotlib.use(\"TkAgg\")\n\n\nclass Visualization:\n\n def plot_2D_gamma_for_average_state(self, setting, df, beta_value, marker):\n beta_list = Visualization.making_select_list(df, 'beta')\n temp_value = Visualization.covert_to_select_list_value(beta_list, beta_value)\n df = df[df.Steps == setting.Limited_step]\n df = df[df.beta == temp_value]\n plt.plot(df['gamma'], ((df['LAYER_A_MEAN']/setting.MAX) + df['LAYER_B_MEAN']) / 2, marker,\n label=r'$\\beta$=%.2f' % temp_value,\n markersize=6, linewidth=1.5, markeredgewidth=1)\n\n def plot_2D_beta_for_average_state(self, setting, df, gamma_value, marker):\n gamma_list = Visualization.making_select_list(df, 'gamma')\n temp_value = Visualization.covert_to_select_list_value(gamma_list, gamma_value)\n df = df[df.Steps == setting.Limited_step]\n df = df[df.gamma == temp_value]\n plt.style.use('seaborn-whitegrid')\n plt.plot(df['beta'], ((df['LAYER_A_MEAN']/setting.MAX) + df['LAYER_B_MEAN']) / 2, marker,\n label=r'$\\gamma$=%.2f' % temp_value,\n markersize=6, linewidth=1.5, markeredgewidth=1)\n\n def plot_3D_scatter_for_average_state(self, df):\n ax = plt.axes(projection='3d')\n ax.scatter(df['beta'], df['gamma'], ((df['LAYER_A_MEAN']/setting.MAX) + df['LAYER_B_MEAN']) / 2,\n c=((df['LAYER_A_MEAN']/setting.MAX) + df['LAYER_B_MEAN']) / 2, cmap='RdBu', linewidth=0.2)\n ax.set_xlabel(r'$\\beta$', fontsize=18, labelpad=8)\n ax.set_ylabel(r'$\\gamma$', fontsize=18, labelpad=8)\n ax.set_zlabel('AS', fontsize=18, labelpad=8)\n ax.set_title(r'$\\beta$-$\\gamma$-AS', fontsize=18)\n ax.tick_params(axis='both', labelsize=14)\n ax.view_init(45, 45)\n\n\n def plot_3D_trisurf_for_average_state(self, df):\n ax = plt.axes(projection='3d')\n ax.plot_trisurf(df['beta'], df['gamma'], ((df['LAYER_A_MEAN']/setting.MAX) + df['LAYER_B_MEAN']) / 2,\n cmap='RdBu', edgecolor='none')\n ax.set_xlabel(r'$\\beta$', fontsize=18, labelpad=8)\n ax.set_ylabel(r'$\\gamma$', fontsize=18, labelpad=8)\n ax.set_zlabel('AS', fontsize=18, labelpad=8)\n ax.set_title(r'$\\beta$-$\\gamma$-AS', fontsize=18)\n ax.tick_params(axis='both', labelsize=14)\n ax.view_init(45, 45)\n\n def plot_3D_contour_for_average_state(self, setting, df):\n beta_list = Visualization.making_select_list(df, 'beta') # list이지만 실제로는 array\n gamma_list = Visualization.making_select_list(df, 'gamma')\n X, Y = np.meshgrid(beta_list, gamma_list)\n Z = Visualization.state_list_function(setting, df, gamma_list, beta_list)\n ax = plt.axes(projection='3d')\n ax.contour3D(X, Y, Z, 50, cmap='RdBu')\n ax.set_xlabel(r'$\\beta$', fontsize=18, labelpad=6)\n ax.set_ylabel(r'$\\gamma$', fontsize=18, labelpad=6)\n ax.set_zlabel('AS', fontsize=18, labelpad=6)\n ax.set_title(r'$\\beta$-$\\gamma$-AS', fontsize=18)\n ax.view_init(45, 45)\n\n def plot_3D_to_2D_contour_for_average_state(self, setting, df):\n # df = df[df.Steps == setting.Limited_step]\n beta_list = Visualization.making_select_list(df, 'beta') # list이지만 실제로는 array\n gamma_list = Visualization.making_select_list(df, 'gamma')\n X, Y = np.meshgrid(beta_list, gamma_list)\n Z = Visualization.state_list_function(setting, df, gamma_list, beta_list)\n plt.contourf(X, Y, Z, 50, cmap='RdBu')\n #plt.clabel(contours, inline=True, fontsize=8)\n\n\n def average_state_for_steps(self, setting, df, beta_value, gamma_value):\n beta_list = Visualization.making_select_list(df, 'beta') # list이지만 실제로는 array\n gamma_list = Visualization.making_select_list(df, 'gamma')\n temp_beta_value = Visualization.covert_to_select_list_value(beta_list, beta_value)\n temp_gamma_value = Visualization.covert_to_select_list_value(gamma_list, gamma_value)\n df1 = df[df.gamma == temp_gamma_value]\n df2 = df1[df1.beta == temp_beta_value]\n df3 = df2.sort_values(by='Steps', ascending=True)\n plt.plot(df3['Steps'], ((df3['LAYER_A_MEAN']/setting.MAX) + df3['LAYER_B_MEAN']) / 2, linestyle=':', marker='o', markersize=2, linewidth=0.3)\n plt.ylabel('AS', fontsize=18, labelpad=4)\n plt.xlabel('time(step)', fontsize=18, labelpad=4)\n\n def average_state_for_steps_scale(self, df, beta_values, gamma_values):\n beta_list = Visualization.making_select_list(df, 'beta') # list이지만 실제로는 array\n gamma_list = Visualization.making_select_list(df, 'gamma')\n beta_min = Visualization.covert_to_select_list_value(beta_list, beta_values[0])\n beta_max = Visualization.covert_to_select_list_value(beta_list, beta_values[1])\n gamma_min = Visualization.covert_to_select_list_value(gamma_list, gamma_values[0])\n gamma_max = Visualization.covert_to_select_list_value(gamma_list, gamma_values[1])\n df = df[df.gamma >= gamma_min]\n df = df[df.gamma <= gamma_max]\n df = df[df.beta >= beta_min]\n df = df[df.beta <= beta_max]\n gamma_df = df['gamma'].drop_duplicates()\n beta_df = df['beta'].drop_duplicates()\n gamma_array = np.array(gamma_df)\n beta_array = np.array(beta_df)\n for i in sorted(gamma_array):\n for j in sorted(beta_array):\n df1 = df[df.gamma == i]\n df2 = df1[df1.beta == j]\n plt.plot(df2['Steps'], ((df2['LAYER_A_MEAN']/setting.MAX) + df2['LAYER_B_MEAN']) / 2, linewidth=0.5)\n plt.ylabel('AS', fontsize=18, labelpad=6)\n plt.xlabel('time(step)', fontsize=18, labelpad=6)\n\n def flow_prob_beta_chart(self, setting, df, beta_value, gamma_value):\n # beta_value = [min, max], #gamma_value =[min, max]\n # df = df[df.Steps <= setting.Limited_step]\n beta_list = Visualization.making_select_list(df, 'beta') # 이름은 list이지만 실제로는 array\n gamma_list = Visualization.making_select_list(df, 'gamma') # 이름은 list이지만 실제로는 array\n beta_min = Visualization.covert_to_select_list_value(beta_list, beta_value[0])\n beta_max = Visualization.covert_to_select_list_value(beta_list, beta_value[1])\n gamma_min = Visualization.covert_to_select_list_value(gamma_list, gamma_value[0])\n gamma_max = Visualization.covert_to_select_list_value(gamma_list, gamma_value[1])\n df = df[df.gamma >= gamma_min]\n df = df[df.gamma <= gamma_max]\n df = df[df.beta >= beta_min]\n df = df[df.beta <= beta_max]\n gamma_array = pd.DataFrame(df['gamma'])\n gamma_array = np.array(gamma_array.drop_duplicates())\n beta_array = pd.DataFrame(df['beta'])\n beta_array = np.array(beta_array.drop_duplicates())\n for i in sorted(gamma_array):\n for j in beta_array:\n df1 = df[df.gamma == i[0]]\n df2 = df1[df1.beta == j[0]]\n if len(df2) >= setting.Limited_step :\n plt.plot(df2['Steps'], df2['PROB_BETA'], linewidth=0.3)\n\n def different_state_ratio_chart(self, setting, df, beta_value, gamma_value, select_layer):\n # df = df[df.Steps <= setting.Limited_step]\n beta_list = Visualization.making_select_list(df, 'beta') # 이름은 list이지만 실제로는 array\n gamma_list = Visualization.making_select_list(df, 'gamma') # 이름은 list이지만 실제로는 array\n beta_min = Visualization.covert_to_select_list_value(beta_list, beta_value[0])\n beta_max = Visualization.covert_to_select_list_value(beta_list, beta_value[1])\n gamma_min = Visualization.covert_to_select_list_value(gamma_list, gamma_value[0])\n gamma_max = Visualization.covert_to_select_list_value(gamma_list, gamma_value[1])\n df = df[df.gamma >= gamma_min]\n df = df[df.gamma <= gamma_max]\n df = df[df.beta >= beta_min]\n df = df[df.beta <= beta_max]\n gamma_array = pd.DataFrame(df['gamma'])\n gamma_array = np.array(gamma_array.drop_duplicates())\n beta_array = pd.DataFrame(df['beta'])\n beta_array = np.array(beta_array.drop_duplicates())\n for i in sorted(gamma_array):\n for j in beta_array:\n df1 = df[df.gamma == i[0]]\n df2 = df1[df1.beta == j[0]]\n if len(df2) >= setting.Limited_step:\n plt.plot(df2['Steps'], df2['%s_DIFFERENT_STATE_RATIO' % select_layer], linewidth=0.7)\n\n @staticmethod\n def state_list_function(setting, df, gamma_list, beta_list):\n Z = np.zeros([len(gamma_list), len(beta_list)])\n for i, gamma in enumerate(gamma_list):\n for j, beta in enumerate(beta_list):\n df1 = df[df.gamma == gamma]\n df2 = df1[df1.beta == beta]\n if len(df2) == 0:\n Z[i][j] = 0\n else:\n Z[i][j] = ((df2['LAYER_A_MEAN'].iloc[0]/setting.MAX) + df2['LAYER_B_MEAN'].iloc[0]) / 2\n return Z\n\n @staticmethod\n def covert_to_select_list_value(select_list, input_value): # list가 만들어져 있는 곳에 사용\n loc = sum(select_list <= input_value) # select_list는 making_select_list를 사용, array로 만들어져 있음\n temp_value = select_list[loc - 1]\n return temp_value\n\n @staticmethod\n def making_select_list(df, list_name):\n list = []\n df = pd.DataFrame(df[list_name])\n select_list = np.array(df.drop_duplicates())\n for i in range(len(select_list)):\n list.append(select_list[i][0])\n return np.array(sorted(list))\n\nif __name__ == \"__main__\":\n print(\"Visualization\")\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n setting.database = 'paper_revised_data'\n setting.table = 'simulation_table'\n select_db = SelectDB.SelectDB()\n df = select_db.select_data_from_DB(setting)\n print(len(df))\n # df = df[df.Unchanged_A_Node == 'A_95']\n # df = df[df.Steps == 100]\n df = df[df.MODEL == 'LM(16)']\n print(len(df))\n # print(len(df))\n # df = df[df.Unchanged_A_Node == 'A_N']\n visualization = Visualization()\n fig = plt.figure()\n # visualization.plot_3D_trisurf_for_average_state(df)\n visualization.average_state_for_steps_scale(df, [0, 20], [0, 2])\n plt.show()\n plt.close()\n #visualization.plot_3D_to_2D_contour_for_average_state(setting, df)\n #visualization.plot_3D_to_2D_contour_for_average_state()\n #visualization.plot_3D_contour_for_average_state('previous_research')\n #visualization.plot_3D_scatter_for_average_state('average_layer_state') #previous_research\n # fig = visualization.flow_prob_beta_chart([0, 3], [0, 2])\n # fig = visualization.different_state_ratio_chart([0, 3], [0, 2], 'B')\n # visualization.plot_2D_beta_for_average_state(0.2)\n # visualization.plot_2D_beta_for_average_state(0.4)\n\n #visualization.plot_2D_beta_for_average_state('previous_research', 0.4)\n #visualization.plot_2D_beta_for_average_state('previous_research', 0.6)\n print(\"paint finished\")" }, { "alpha_fraction": 0.6601213812828064, "alphanum_fraction": 0.6704748272895813, "avg_line_length": 44.129032135009766, "blob_id": "f09b91b8e26a3015289c639cdb3337a889cbb701", "content_id": "4cdd7d6ab49bea7e01b665def453f3662c50e89b", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2801, "license_type": "no_license", "max_line_length": 125, "num_lines": 62, "path": "/Changing_Variable.py", "repo_name": "leighsix/CompetitionPycharm", "src_encoding": "UTF-8", "text": "import Setting_Simulation_Value\nimport RepeatDynamics\nimport sqlalchemy\nfrom multiprocessing import Pool\nfrom concurrent import futures\nfrom tqdm import tqdm\n\n\n\nclass Changing_Variable:\n def __init__(self):\n self.repeat_dynamics = RepeatDynamics.RepeatDynamics()\n\n def many_execute_for_simulation(self, setting):\n setting_variable_list = self.making_variable_tuples_list(setting)\n engine = sqlalchemy.create_engine('mysql+pymysql://root:2853@localhost:3306/%s' % setting.database)\n with futures.ProcessPoolExecutor(max_workers=setting.workers) as executor:\n to_do_map = {}\n for setting_variable_tuple in setting_variable_list:\n future = executor.submit(self.calculate_for_simulation, setting_variable_tuple)\n to_do_map[future] = setting_variable_tuple\n done_iter = futures.as_completed(to_do_map)\n done_iter = tqdm(done_iter, total=len(setting_variable_list))\n for future in done_iter:\n res = future.result()\n res.to_sql(name='%s' % setting.table, con=engine, index=False, if_exists='append')\n\n def calculate_for_simulation(self, setting_variable_tuple):\n gamma = setting_variable_tuple[1][0]\n beta = setting_variable_tuple[1][1]\n panda_db = self.repeat_dynamics.repeat_dynamics(setting_variable_tuple[0], gamma, beta)\n return panda_db\n\n def making_variable_tuples_list(self, setting):\n setting_variable_list = []\n for i in setting.variable_list:\n setting_variable_list.append((setting, i))\n return setting_variable_list\n\n def calculate_and_input_database(self, setting_variable_tuple):\n gamma = setting_variable_tuple[1][0]\n beta = setting_variable_tuple[1][1]\n panda_db = self.repeat_dynamics.repeat_dynamics(setting_variable_tuple[0], gamma, beta)\n print(panda_db.loc[0])\n engine = sqlalchemy.create_engine('mysql+pymysql://root:2853@localhost:3306/%s' % setting_variable_tuple[0].database)\n panda_db.to_sql(name='%s' % setting_variable_tuple[0].table, con=engine, index=False, if_exists='append')\n\n def paralleled_work(self, setting):\n workers = setting.workers\n setting_variable_list = []\n for i in setting.variable_list:\n setting_variable_list.append((setting, i))\n with Pool(workers) as p:\n p.map(self.calculate_and_input_database, setting_variable_list)\n\nif __name__ == \"__main__\":\n print(\"Changing_Variable\")\n setting = Setting_Simulation_Value.Setting_Simulation_Value()\n changing_variable = Changing_Variable()\n print(changing_variable.making_variable_tuples_list(setting))\n # changing_variable.many_execute_for_simulation(setting)\n print(\"Operating end\")\n\n\n\n" } ]	19
Ashkol/sieci-neuronowe-1	https://github.com/Ashkol/sieci-neuronowe-1	f9dd4ff8eea7bb5d1a8c42e9ec43bd8101bec540	3c26bfc1b500809955856efc16c3e2b4d70795ce	60e0202af3410a87dd61ee38871c38457568a692	refs/heads/main	2022-12-30T17:51:07.997156	2020-10-18T16:19:47	2020-10-18T16:19:47	305,140,416	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.5940837860107422, "alphanum_fraction": 0.6201040744781494, "avg_line_length": 35.158416748046875, "blob_id": "a251faadddf8c205fc1c7e805c58ed8b10354b90", "content_id": "a06c97f810a64c0f2a48ad99407983d4e2f34067", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3651, "license_type": "no_license", "max_line_length": 127, "num_lines": 101, "path": "/adaline.py", "repo_name": "Ashkol/sieci-neuronowe-1", "src_encoding": "UTF-8", "text": "import random\nimport numpy as np\nimport matplotlib.pyplot as plt\n\nclass Adaline(object):\n\n def __init__(self, allowed_error, num_of_inputs=2, learning_rate=0.01):\n self.learning_rate = learning_rate\n self.weights = np.zeros(num_of_inputs + 1) #weights[0] is reserved for bias\n self.allowed_error = allowed_error\n\n def set_starting_weights(self, min, max):\n for w in range(len(self.weights)):\n self.weights[w] = random.uniform(min, max)\n self.weights[0] = 0\n\n def _add_bias(self, learning_set):\n #Add bias whose signal is always equal to 1 at the beginning as x0\n bias = np.ones((learning_set.shape[0], 1))\n learning_set_biased = np.hstack((bias, learning_set))\n return learning_set_biased\n\n\n def predict(self, input):\n summation = np.dot(input, self.weights[1:]) + self.weights[0]\n return 1 if summation > 0 else -1\n\n def predict_array(self, X):\n X = self._add_bias(X)\n return np.where(self._activation(self._weigthed_sum(X)) >= 0.0, 1, -1)\n\n def _sum_squared_errors(self, y, activation_output):\n errors = y - output_pred\n return (errors2).sum() / 2.0\n\n def _weigthed_sum(self, X):\n return np.dot(X, self.weights)\n\n def _activation(self, X):\n return X\n\n def train(self, learning_set, labels, epochs_left):\n self.weights[0] = 1\n learning_set = self._add_bias(learning_set)\n print(\"Training model according to data\")\n for epoch in range(epochs_left):\n # ALC\n activation_output = self._activation(self._weigthed_sum(learning_set))\n errors = labels - activation_output\n errors_squared = (errors 2).sum() / 2.0\n self.weights += self.learning_rate * learning_set.T.dot(errors)\n #print(self.weights[0])\n # print(\"Cost = \" + str(errors_squared))\n if errors_squared < self.allowed_error:\n return epoch + 1\n\n print(\"Training failed in given number of epochs\")\n return -1\n\n\ndef generate_extra_examples(examples, precision, extra_num):\n extras = []\n labels = []\n for n in range(extra_num):\n example = random.choice(examples)\n extras.append((example[0] + random.uniform(-precision, precision), example[1] + random.uniform(-precision, precision)))\n labels.append(example[2])\n return (np.asarray(extras), np.asarray(labels))\n\nclass_examples = [(0, 0, -1), (1, 0, -1), (0, 1, -1), (1, 1, 1)]\nsum = 0\nsum_correct_labels_percentage = 0\nfor n in range(10):\n inputs, labels = generate_extra_examples(class_examples, 0.1, 100)\n adaline = Adaline(14, 2, learning_rate=0.01)\n adaline.set_starting_weights(-0.0, 0.0)\n epochs = adaline.train(inputs, labels, 200)\n sum += epochs\n\n inputs, labels = generate_extra_examples(class_examples, 0.1, 20)\n sum_correct_labels_percentage += np.count_nonzero((adaline.predict_array(inputs) == labels) == True) / 20\n\nprint(\"Epochs to learn = \" + str(sum / 10))\nprint(\"Correct labels = \" + str(sum_correct_labels_percentage * 10) + \"%\")\n\ninput_to_predict = [0.9, 0.9]\nprint(\"Predicted result: \" + str(adaline.predict(input_to_predict)) + \" of \" + str(input_to_predict) +\n \" in \" + str(epochs) + \" epochs\")\n\n\n\nx = np.asarray(inputs)[:,0]\ny = np.asarray(inputs)[:,1]\ncolors = adaline.predict_array((inputs))\nplt.scatter(x, y, c=colors)\nplt.axline((0, -adaline.weights[1] * 0 / adaline.weights[2] - adaline.weights[0]),\n (1, -adaline.weights[1] * 1 / adaline.weights[2] - adaline.weights[0]))\nplt.xlabel('x axis')\nplt.ylabel('y axis')\nplt.title(\"Adaline\")\nplt.show()" }, { "alpha_fraction": 0.5635104179382324, "alphanum_fraction": 0.5933558344841003, "avg_line_length": 35.32258224487305, "blob_id": "cf1bc91600f667f6ae3760f833c1a537aaa0a8f7", "content_id": "d580372ab723a32a68df00c0d21fb07d878a040d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 5629, "license_type": "no_license", "max_line_length": 139, "num_lines": 155, "path": "/perceptron.py", "repo_name": "Ashkol/sieci-neuronowe-1", "src_encoding": "UTF-8", "text": "import random\nimport numpy as np\nimport matplotlib.pyplot as plt\nimport matplotlib\n\ndef generate_extra_examples(examples, precision, extra_num):\n extras = []\n for n in range(extra_num):\n example = random.choice(examples)\n extras.append((example[0] + random.uniform(-precision, precision), example[1] + random.uniform(-precision, precision), example[2]))\n return extras\n\n\nclass MyPerceptronDynamicBias(object):\n\n def __init__(self, learning_rate=0.01):\n self.learning_rate = learning_rate\n self.weights = [0, 0]\n self.bias_weight = 0\n self.bipolar = False\n\n def set_starting_weights(self, min, max):\n self.weights = [random.uniform(min, max), random.uniform(min, max)]\n\n def predict(self, input):\n summation = input[0] * self.weights[0] + input[1] * self.weights[1] + self.bias_weight\n if summation > 0:\n activation = 1\n else:\n activation = (-1 if self.bipolar else 0)\n return activation\n\n def predict_array(self, arr):\n predictions = []\n for a in arr:\n predictions.append(1 if self.predict(a) >= 0.0 else -1 if self.bipolar else 0)\n return np.asarray(predictions)\n\n def train(self, learning_set, epochs_left):\n #print(\"Learning bias = \" + str(self.learning_rate))\n #print(self.weights)\n for epoch in range(epochs_left):\n predictions = []\n #print(\"Epoch \" + str(epoch + 1))\n\n for example in learning_set:\n awake = self.weights[0] * example[0] + self.weights[1] * example[1]\n predictions.append((self.predict(example)))\n\n errors = []\n for n in range(len(learning_set)):\n errors.append(learning_set[n][2] - predictions[n])\n self.weights[0] += errors[n] * self.learning_rate * learning_set[n][0]\n self.weights[1] += errors[n] * self.learning_rate * learning_set[n][1]\n self.bias_weight += self.learning_rate * errors[n]\n\n if self.bipolar:\n if not (2 in errors or -2 in errors):\n return epoch + 1\n else:\n if not (1 in errors or -1 in errors):\n return epoch + 1\n\n #print(str(errors.count(0) * 100 / len(errors)) + \"% good fits\")\n return epochs_left\n\n\nclass MyPerceptron(object):\n\n def __init__(self, threshold=-0.03, learning_rate=0.01):\n self.threshold = threshold\n self.learning_rate = learning_rate\n self.weights = [0, 0]\n self.bipolar = False\n\n def set_starting_weights(self, min, max):\n self.weights = [random.uniform(min, max), random.uniform(min, max)]\n\n def predict(self, input):\n summation = input[0] * self.weights[0] + input[1] * self.weights[1]\n if summation > self.threshold:\n activation = 1\n else:\n activation = -1 if self.bipolar else 0\n return activation\n\n def train(self, learning_set, epochs):\n\n for epoch in range(epochs):\n predictions = []\n #print(\"Epoch \" + str(epoch + 1))\n\n for example in learning_set:\n awake = self.weights[0] * example[0] + self.weights[1] * example[1]\n predictions.append((self.predict(example)))\n\n errors = []\n for n in range(len(learning_set)):\n errors.append(learning_set[n][2] - predictions[n])\n self.weights[0] += errors[n] * self.learning_rate * learning_set[n][0]\n self.weights[1] += errors[n] * self.learning_rate * learning_set[n][1]\n\n # if self.bipolar:\n # if not (2 in errors or -2 in errors):\n # return epoch + 1\n if not (1 in errors or -1 in errors):\n #print(\"Training set properly labeled \")\n return epoch + 1\n\n #print(\"Reached the last epoch\")\n #print(str(errors.count(0) * 100 / len(errors)) + \"% good fits\")\n return epochs\n\n\n###\nclass_examples = [(0, 0, 0), (1, 0, 0), (0, 1, 0), (1, 1, 1)]\nclass_examples = [(0, 0, -1), (1, 0, -1), (0, 1, -1), (1, 1, 1)]\nexamples = generate_extra_examples(class_examples, 0.1, 100)\n\nperceptron = MyPerceptron(learning_rate=0.01)\nperceptron.threshold = 0.5\nperceptron.bipolar = True\n\nepochs_sum = 0\nfor _ in range(0, 10):\n examples = generate_extra_examples(class_examples, 0.1, 100)\n #perceptron.weights = [0, 0]\n perceptron.set_starting_weights(0, 0)\n epochs_sum += perceptron.train(examples, 500)\nprint(\"--- Perceptron ---\\nAverage epochs number = \" + str(epochs_sum/10))\n\nperceptron_bias = MyPerceptronDynamicBias(learning_rate=0.01)\nperceptron_bias.bipolar = True\n\nepochs_sum = 0\nfor _ in range(0, 10):\n examples = generate_extra_examples(class_examples, 0.1, 100)\n #perceptron_bias.weights = [0, 0]\n perceptron_bias.set_starting_weights(-0, 0)\n epochs_sum += perceptron_bias.train(examples, 500)\nprint(\"--- Perceptron with bias ---\\nAverage epochs number = \" + str(epochs_sum/10))\n\nprint(\"Predicted result: \" + str(perceptron_bias.predict([0.8, 0.9])))\n\nexamples = generate_extra_examples(class_examples, 0.1, 20)\nx = np.asarray(examples)[:, 0]\ny = np.asarray(examples)[:, 1]\ncolors = perceptron_bias.predict_array(examples)\nplt.scatter(x, y, c=colors)\nplt.axline((0, -perceptron_bias.weights[0] * 0 / perceptron_bias.weights[1] - perceptron_bias.bias_weight),\n (1, -perceptron_bias.weights[0] * 1 / perceptron_bias.weights[1] - perceptron_bias.bias_weight))\nplt.xlabel('x axis')\nplt.ylabel('y axis')\nplt.title(\"Perceptron\")\nplt.show()" } ]	2
JackLorentz/Genetic-K-means-with-Spark	https://github.com/JackLorentz/Genetic-K-means-with-Spark	5b7bdd4830fbf6c3ae4905ac04ee98590c99477a	156e95316567448fa465fccfad51947a39734843	d2dfcdf3a7646dc61b2c2f00b21501a7ff7f2b39	refs/heads/master	2020-06-07T16:50:55.549115	2019-06-21T08:23:25	2019-06-21T08:23:25	193,059,655	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.503158450126648, "alphanum_fraction": 0.5196374654769897, "avg_line_length": 38.46111297607422, "blob_id": "e3b92af3eb5a6e2e478bd408e60852cf597802d9", "content_id": "24cdd89ce02b4f3420c66d371476db97dca03ac8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 14862, "license_type": "no_license", "max_line_length": 136, "num_lines": 360, "path": "/Main.py", "repo_name": "JackLorentz/Genetic-K-means-with-Spark", "src_encoding": "UTF-8", "text": "from Kmeans import Kmeans\r\nfrom Genetic_Kmeans import Genetic_Kmeans, Chromosome\r\n\r\nimport sys\r\nimport random\r\nimport numpy as np\r\nimport pandas as pd\r\nimport matplotlib.pyplot as plt\r\nimport matplotlib.colors as colors\r\n\r\nfrom sklearn import datasets\r\nfrom sklearn.decomposition import PCA\r\nfrom sklearn.preprocessing import StandardScaler\r\nfrom sklearn.metrics import davies_bouldin_score, fowlkes_mallows_score, jaccard_similarity_score, silhouette_score, adjusted_rand_score\r\n\r\nrandom.seed(0)\r\nALGO = 0\r\n\r\ndef load_abalone():\r\n df = pd.read_csv('data/abalone.csv')\r\n data = np.zeros([4177, 8])\r\n data[:, 0] = df['sex'].values\r\n data[:, 1] = df['length'].values\r\n data[:, 2] = df['diameter'].values\r\n data[:, 3] = df['height'].values\r\n data[:, 4] = df['whole_weight'].values\r\n data[:, 5] = df['shucked_weight'].values\r\n data[:, 6] = df['viscera_weight'].values\r\n data[:, 7] = df['shell_weight'].values\r\n labels = df['label'].values\r\n\r\n for i in range(len(labels)):\r\n if labels[i] == 28:\r\n labels[i] -= 1\r\n\r\n return data, labels\r\n\r\n\r\n\r\ndef purity_score(y_true, y_pred):\r\n # compute contingency matrix (also called confusion matrix)\r\n contingency_matrix = metrics.cluster.contingency_matrix(y_true, y_pred)\r\n # return purity\r\n return np.sum(np.amax(contingency_matrix, axis=0)) / np.sum(contingency_matrix)\r\n\r\n\r\n\r\ndef show_performance_indices(data, labels, predicts, sse, spend_time, name):\r\n output = \"Final SSE: \" + str(sse)\r\n output += \"\\nSpend Time: \" + spend_time\r\n output += \"\\n[External Index]\"\r\n output += \"\\nAdjusted Rand Index: \" + str(adjusted_rand_score(labels, predicts))\r\n output += \"\\nJaccard Index: \" + str(jaccard_similarity_score(labels, predicts)) \r\n output += \"\\nFowlkes Mallows Index: \" + str(fowlkes_mallows_score(labels, predicts))\r\n output += \"\\n[External Index]\"\r\n output += \"\\nSilhouette Index: \" + str(silhouette_score(data, predicts))\r\n output += \"\\nDavies Bouldin Index:\" + str(davies_bouldin_score(data, predicts))\r\n print(output)\r\n\r\n file = open(\"reports/\" + name + \"_performance_report.txt\", \"w\")\r\n file.write(output)\r\n file.close()\r\n\r\n\r\ndef main(argv):\r\n if len(argv) < 4:\r\n print('Please select your clustering algorithm (ka / gka) , dataset (iris / abalone) , and iteration !') \r\n quit()\r\n \r\n #選擇演算法\r\n if argv[1] == \"KA\" or argv[1] == \"ka\":\r\n ALGO = 0\r\n elif argv[1] == \"GKA\" or argv[1] == \"gka\":\r\n ALGO = 1\r\n else:\r\n print(\"You can't select this algorithm .\")\r\n quit()\r\n\r\n #設定散布圖顏色\r\n color = ['r', 'g', 'b']\r\n palette = []\r\n for i,c in enumerate(colors.cnames):\r\n palette.append(c)\r\n color_index = random.sample(range(100), 100)\r\n for i in range(len(color_index)):\r\n if palette[color_index[i]] != 'red' and palette[color_index[i]] != 'green' and palette[color_index[i]] != 'blue':\r\n color.append(palette[color_index[i]])\r\n \r\n iterations = int(argv[3])\r\n #選擇分群數\r\n if ALGO == 0:\r\n KA = Kmeans()\r\n if argv[2] == 'iris':\r\n iris = datasets.load_iris()\r\n data = iris['data']\r\n labels = iris['target']\r\n num_cluster = 3\r\n\r\n cen, predicts, cen_his, sse, c_init, spend_time = KA.fit(X_train=data, num_of_centers=num_cluster, nIter=iterations)\r\n \r\n label_centers = np.zeros([3, data.shape[1]])\r\n #更新每一群重心\r\n for c in range(num_cluster):\r\n temp = np.zeros([1, data.shape[1]])\r\n count = 0\r\n for r in range(data.shape[0]):\r\n temp += int(labels[r] == c)data[r]\r\n count += int(labels[r] == c)\r\n label_centers[c] = temp.reshape(-1,) / count\r\n\r\n pca = PCA(n_components=2, random_state=1)\r\n pca.fit(data)\r\n new_data = pca.transform(data)\r\n final_center = pca.transform(cen)\r\n new_label_centers = pca.transform(label_centers)\r\n\r\n target_color = ['a' for i in range(len(labels))]\r\n predict_color = ['a' for i in range(len(labels))]\r\n for c in range(num_cluster):\r\n for r in range(len(labels)):\r\n if labels[r] == c:\r\n target_color[r] = color[c]\r\n \r\n if predicts[r] == c:\r\n predict_color[r] = color[c]\r\n\r\n print(\"[Predict]\")\r\n #畫預測分群\r\n print(predicts)\r\n show_performance_indices(data, labels, predicts, sse[len(sse)-1], spend_time, \"ka_iris\")\r\n\r\n #畫SSE\r\n plt.plot(range(iterations), sse) \r\n plt.ylabel('Sum of Square Error')\r\n plt.xlabel('Iterations')\r\n\r\n #畫散布圖\r\n plt.figure(figsize=(21,7))\r\n #121: 共有1列2行, 這個圖表在第一個位置\r\n plt.subplot(121)\r\n plt.scatter(new_data[:,0], new_data[:,1], c=target_color)\r\n yellow = plt.scatter(new_label_centers[:,0], new_label_centers[:,1], s=75, c='black', label='label cen')\r\n black = plt.scatter(final_center[:,0], final_center[:,1], s=100, c='orange', label='predict cen')\r\n plt.legend(handles=[yellow, black])\r\n plt.title('Actual labels and final centroids')\r\n\r\n plt.subplot(122)\r\n plt.scatter(new_data[:,0], new_data[:,1], c=predict_color)\r\n plt.scatter(new_label_centers[:,0], new_label_centers[:,1], s=75, c='black', label='label cen')\r\n plt.scatter(final_center[:,0], final_center[:,1], s=100, c='orange', label='predict cen')\r\n plt.legend(handles=[yellow, black])\r\n plt.title('Clustered labels and final centroids')\r\n\r\n plt.show()\r\n\r\n elif argv[2] == 'abalone':\r\n data, labels = load_abalone()\r\n num_cluster = 28\r\n cen, predicts, cen_his, sse, c_init, spend_time = KA.fit(X_train=data, num_of_centers=num_cluster, nIter=iterations)\r\n\r\n label_centers = np.zeros([28, data.shape[1]])\r\n #更新每一群重心\r\n for c in range(num_cluster):\r\n temp = np.zeros([1, data.shape[1]])\r\n count = 0\r\n for r in range(data.shape[0]):\r\n temp += int(labels[r] == c)data[r]\r\n count += int(labels[r] == c)\r\n label_centers[c] = temp.reshape(-1,) / count\r\n\r\n pca = PCA(n_components=2, random_state=1)\r\n pca.fit(data)\r\n new_data = pca.transform(data)\r\n final_center = pca.transform(cen)\r\n new_label_centers = pca.transform(label_centers)\r\n\r\n target_color = ['a' for i in range(len(labels))]\r\n predict_color = ['a' for i in range(len(labels))]\r\n for c in range(num_cluster):\r\n for r in range(len(labels)):\r\n if labels[r] == c:\r\n target_color[r] = color[c]\r\n \r\n if predicts[r] == c:\r\n predict_color[r] = color[c]\r\n\r\n print(\"[Predict]\")\r\n #畫預測分群\r\n print(predicts)\r\n show_performance_indices(data, labels, predicts, sse[len(sse)-1], spend_time, \"ka_abalone\")\r\n\r\n #畫SSE\r\n plt.plot(range(iterations), sse) \r\n plt.ylabel('Sum of Square Error')\r\n plt.xlabel('Iterations')\r\n\r\n #畫散布圖\r\n plt.figure(figsize=(21,7))\r\n #121: 共有1列2行, 這個圖表在第一個位置\r\n plt.subplot(121)\r\n plt.scatter(new_data[:,0], new_data[:,1], color = target_color)\r\n yellow = plt.scatter(new_label_centers[:,0], new_label_centers[:,1], s=75, color='black', label='label cen')\r\n black = plt.scatter(final_center[:,0], final_center[:,1], s=100, color='orange', label='predict cen')\r\n plt.legend(handles=[yellow, black])\r\n plt.title('Actual labels and final centroids')\r\n\r\n plt.subplot(122)\r\n plt.scatter(new_data[:,0], new_data[:,1], color = predict_color)\r\n plt.scatter(new_label_centers[:,0], new_label_centers[:,1], s=75, color='black', label='label cen')\r\n plt.scatter(final_center[:,0], final_center[:,1], s=100, color='orange', label='predict cen')\r\n plt.legend(handles=[yellow, black])\r\n plt.title('Clustered labels and final centroids')\r\n\r\n plt.show()\r\n\r\n\r\n elif ALGO == 1:\r\n if argv[2] == 'iris':\r\n iris = datasets.load_iris()\r\n data = iris['data']\r\n labels = iris['target']\r\n num_cluster = 3\r\n GKA = Genetic_Kmeans(num_cluster=num_cluster, MAX_GEN=iterations)\r\n chromosome, fitness_his, sse_his, spend_time = GKA.fit(data, labels)\r\n\r\n label_centers = np.zeros([3, data.shape[1]])\r\n #更新每一群重心\r\n for c in range(num_cluster):\r\n temp = np.zeros([1, data.shape[1]])\r\n count = 0\r\n for r in range(data.shape[0]):\r\n temp += int(labels[r] == c)data[r]\r\n count += int(labels[r] == c)\r\n label_centers[c] = temp.reshape(-1,) / count\r\n\r\n pca = PCA(n_components=2, random_state=1)\r\n pca.fit(data)\r\n new_data = pca.transform(data)\r\n final_center = pca.transform(chromosome.center)\r\n new_label_centers = pca.transform(label_centers)\r\n\r\n target_color = ['a' for i in range(len(labels))]\r\n predict_color = ['a' for i in range(len(labels))]\r\n for c in range(num_cluster):\r\n for r in range(len(labels)):\r\n if labels[r] == c:\r\n target_color[r] = color[c]\r\n \r\n if chromosome.sol[r] == c:\r\n predict_color[r] = color[c]\r\n\r\n print(\"[Predict]\")\r\n #畫預測分群\r\n print(chromosome.sol)\r\n show_performance_indices(data, labels, chromosome.sol, sse_his[len(sse_his)-1], spend_time, \"gka_iris\")\r\n\r\n plt.figure(figsize=(21, 7))\r\n #畫SSE\r\n plt.subplot(121)\r\n plt.plot(range(iterations), sse_his) \r\n plt.ylabel('Sum of Square Error')\r\n plt.xlabel('Generation')\r\n #畫適應值\r\n plt.subplot(122)\r\n plt.plot(range(iterations), fitness_his)\r\n plt.ylabel('Fitness value')\r\n plt.xlabel('Generation')\r\n\r\n #畫散布圖\r\n plt.figure(figsize=(21, 7))\r\n #121: 共有1列2行, 這個圖表在第一個位置\r\n plt.subplot(121)\r\n plt.scatter(new_data[:,0], new_data[:,1], c=target_color)\r\n yellow = plt.scatter(new_label_centers[:,0], new_label_centers[:,1], s=75, c='black', label='label cen')\r\n black = plt.scatter(final_center[:,0], final_center[:,1], s=100, c='orange', label='predict cen')\r\n plt.legend(handles=[yellow, black])\r\n plt.title('Actual labels and final centroids')\r\n\r\n plt.subplot(122)\r\n plt.scatter(new_data[:,0], new_data[:,1], c=predict_color)\r\n plt.scatter(new_label_centers[:,0], new_label_centers[:,1], s=75, c='black', label='label cen')\r\n plt.scatter(final_center[:,0], final_center[:,1], s=100, c='orange', label='predict cen')\r\n plt.legend(handles=[yellow, black])\r\n plt.title('Clustered labels and final centroids')\r\n\r\n plt.show()\r\n\r\n elif argv[2] == 'abalone':\r\n data, labels = load_abalone()\r\n num_cluster = 28\r\n GKA = Genetic_Kmeans(num_cluster=num_cluster, MAX_GEN=iterations)\r\n chromosome, fitness_his, sse_his, spend_time = GKA.fit(data, labels)\r\n\r\n label_centers = np.zeros([28, data.shape[1]])\r\n #更新每一群重心\r\n for c in range(num_cluster):\r\n temp = np.zeros([1, data.shape[1]])\r\n count = 0\r\n for r in range(data.shape[0]):\r\n temp += int(labels[r] == c)data[r]\r\n count += int(labels[r] == c)\r\n label_centers[c] = temp.reshape(-1,) / count\r\n\r\n pca = PCA(n_components=2, random_state=1)\r\n pca.fit(data)\r\n new_data = pca.transform(data)\r\n final_center = pca.transform(chromosome.center)\r\n new_label_centers = pca.transform(label_centers)\r\n\r\n target_color = ['a' for i in range(len(labels))]\r\n predict_color = ['a' for i in range(len(labels))]\r\n for c in range(num_cluster):\r\n for r in range(len(labels)):\r\n if labels[r] == c:\r\n target_color[r] = color[c]\r\n \r\n if chromosome.sol[r] == c:\r\n predict_color[r] = color[c]\r\n\r\n print(\"[Predict]\")\r\n #畫預測分群\r\n print(chromosome.sol)\r\n show_performance_indices(data, labels, chromosome.sol, sse_his[len(sse_his)-1], spend_time, \"gka_abalone\")\r\n\r\n #畫SSE\r\n plt.plot(range(iterations), sse_his) \r\n plt.ylabel('Sum of Square Error')\r\n plt.xlabel('Generation')\r\n\r\n #畫適應值\r\n plt.plot(range(iterations), fitness_his)\r\n plt.ylabel('Fitness value')\r\n plt.xlabel('Generation')\r\n\r\n #畫散布圖\r\n plt.figure(figsize=(21,7))\r\n #121: 共有1列2行, 這個圖表在第一個位置\r\n plt.subplot(121)\r\n plt.scatter(new_data[:,0], new_data[:,1], color = target_color)\r\n yellow = plt.scatter(new_label_centers[:,0], new_label_centers[:,1], s=75, color='black', label='label cen')\r\n black = plt.scatter(final_center[:,0], final_center[:,1], s=100, color='orange', label='predict cen')\r\n plt.legend(handles=[yellow, black])\r\n plt.title('Actual labels and final centroids')\r\n\r\n plt.subplot(122)\r\n plt.scatter(new_data[:,0], new_data[:,1], color = predict_color)\r\n plt.scatter(new_label_centers[:,0], new_label_centers[:,1], s=75, color='black', label='label cen')\r\n plt.scatter(final_center[:,0], final_center[:,1], s=100, color='orange', label='predict cen')\r\n plt.legend(handles=[yellow, black])\r\n plt.title('Clustered labels and final centroids')\r\n\r\n plt.show()\r\n\r\n else:\r\n quit()\r\n\r\n\r\n\r\nif __name__ == '__main__':\r\n main(sys.argv)" }, { "alpha_fraction": 0.7857142686843872, "alphanum_fraction": 0.7857142686843872, "avg_line_length": 28, "blob_id": "f7645f3218e8228a5d44595b35592b59768c7a22", "content_id": "9daa093a820570a2635c740e2180d84240578dd0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 28, "license_type": "no_license", "max_line_length": 28, "num_lines": 1, "path": "/README.md", "repo_name": "JackLorentz/Genetic-K-means-with-Spark", "src_encoding": "UTF-8", "text": "# Genetic-K-means-with-Spark" }, { "alpha_fraction": 0.5592411160469055, "alphanum_fraction": 0.5740513801574707, "avg_line_length": 30.557769775390625, "blob_id": "4cd33e8d141d722451f9988b0f505aa4f8c6804e", "content_id": "3d9a2a4766465f2c3a7f8e7770806ad438087c75", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 8756, "license_type": "no_license", "max_line_length": 105, "num_lines": 251, "path": "/GKA_spark_testing.py", "repo_name": "JackLorentz/Genetic-K-means-with-Spark", "src_encoding": "UTF-8", "text": "#import findspark\r\n#findspark.init()\r\nimport sys\r\nimport pyspark\r\nfrom pyspark import SparkContext, SparkConf\r\n#from pyspark.sql import SparkSession\r\nconf = SparkConf().setAppName(\"GKA_test\").setMaster(\"local[]\")\r\nsc = SparkContext(conf=conf)\r\n\r\nimport pandas as pd\r\nimport numpy as np\r\nimport random\r\nimport math\r\nimport time\r\nimport matplotlib.colors as colors\r\nfrom sklearn import datasets\r\nfrom sklearn.preprocessing import normalize\r\nfrom sklearn.metrics import davies_bouldin_score\r\nfrom sklearn.metrics.cluster import adjusted_rand_score, silhouette_score\r\n\r\niris = datasets.load_iris()\r\ndata = iris['data']\r\nlabels = iris['target']\r\n\r\nm = data.shape[0]\r\ndim = data.shape[1]\r\npopulation_size = 10\r\nnum_cluster = 3\r\nMAX_GEN = 10\r\n\r\nrandom.seed(0)\r\n\r\ndef load_abalone():\r\n df = pd.read_csv('./abalone.csv')\r\n data = np.zeros([4177, 8])\r\n data[:, 0] = df['sex'].values\r\n data[:, 1] = df['length'].values\r\n data[:, 2] = df['diameter'].values\r\n data[:, 3] = df['height'].values\r\n data[:, 4] = df['whole_weight'].values\r\n data[:, 5] = df['shucked_weight'].values\r\n data[:, 6] = df['viscera_weight'].values\r\n data[:, 7] = df['shell_weight'].values\r\n labels = df['label'].values\r\n\r\n for i in range(len(labels)):\r\n if labels[i] == 28:\r\n labels[i] -= 1\r\n\r\n return data, labels\r\n\r\nclass Chromosome():\r\n def __init__(self, data, num_cluster):\r\n #初始化參數\r\n self.kmax = num_cluster\r\n self.data_num = data.shape[0]\r\n self.dim = data.shape[1]\r\n self.center = self.init_center(data)\r\n self.sol = None\r\n \r\n #隨機選num_cluster個中心點 \r\n def init_center(self, data):\r\n center = []\r\n selected = random.sample(range(self.data_num), self.kmax)\r\n for i in range(self.kmax):\r\n center.append(data[selected[i]]) \r\n return center\r\n \r\n #對於每一個染色體，隨機產生一組解 => 每一個等位基因代表對應的群 => shape=(150, 1)\r\n def cal_solution(self, rdd):\r\n self.sol = np.array(rdd.map(lambda p: self.closestPoint(p, self.center)).take(self.data_num))\r\n\r\n def distance(self, a, b):\r\n return np.sum((a-b)(a-b))\r\n \r\n #這個函數的目的就是求取該點應該分到哪個中心點的集合去，返回的是序號\r\n def closestPoint(self, p, centers):\r\n bestIndex = 0\r\n closest = float(\"+inf\")\r\n for i in range(len(centers)):\r\n tempDist = np.sum((p - centers[i]) ** 2)\r\n if tempDist < closest:\r\n closest = tempDist\r\n bestIndex = i\r\n return bestIndex\r\n \r\n def cal_fitness(self, data):\r\n return silhouette_score(data, self.sol)\r\n \r\n def cal_SSE(self, data):\r\n sse = 0.0\r\n for i in range(len(self.sol)): \r\n square_error = self.distance(data[i], self.center[self.sol[i]])\r\n sse += square_error\r\n return sse\r\n \r\n def KMO(self, rdd):\r\n #計算每一筆資料跟行星的距離\r\n #對所有資料執行map過程，最終生成的是(index, (point, 1))的rdd\r\n closest = rdd.map(lambda p: (self.closestPoint(p, self.center), (p, 1)))\r\n sol_tmp = closest.take(self.data_num)\r\n #執行reduce過程，該過程的目的是重新求取中心點，生成的也是rdd\r\n pointStats = closest.reduceByKey(lambda p1_c1, p2_c2: (p1_c1[0] + p2_c2[0], p1_c1[1] + p2_c2[1]))\r\n #生成新的中心點\r\n newPoints = pointStats.map(lambda st: (st[0], st[1][0] / st[1][1])).collect()\r\n \r\n #設置新的中心點\r\n for (iK, p) in newPoints:\r\n self.center[iK] = p\r\n #更新分群解\r\n for i in range(len(sol_tmp)):\r\n self.sol[i] = sol_tmp[i][0]\r\n #更新SSE\r\n #self.SSE = self.cal_SSE()\r\n\r\n#適者生存\r\ndef selection(chromosomes, Ps, data):\r\n size = len(chromosomes)\r\n new_populations = []\r\n \r\n #計算個染色體的適應值,並統計存活率\r\n for i in range(size):\r\n chromosomes[i].fitness = chromosomes[i].cal_fitness(data)\r\n #存活率\r\n print('survival rate:', Ps100, '%')\r\n\r\n print('Before Selection:')\r\n chromosomes = sorted(chromosomes, reverse=True, key=lambda elem: elem.fitness)\r\n for i in range(len(chromosomes)):\r\n print('chromosome', i, \"'s fitness value\", chromosomes[i].fitness)\r\n\r\n #找出(存活率個體數)個適應值的染色體\r\n #適應值越大越容易存活\r\n for i in range(int(population_sizePs)):\r\n new_populations.append(chromosomes[i])\r\n \r\n #填滿染色體數\r\n while len(new_populations) < size:\r\n idx = random.randint(0, 4)\r\n new_populations.append(chromosomes[idx])\r\n \r\n print('After Selection:')\r\n new_populations = sorted(new_populations, reverse=True, key=lambda elem: elem.fitness)\r\n for i in range(len(new_populations)):\r\n print('chromosome', i, \"'s fitness value\", new_populations[i].fitness)\r\n \r\n return new_populations\r\n\r\n#交配\r\ndef crossover(data, chromosomes, Pc):\r\n numOfInd = len(chromosomes)\r\n #根據交配得到數量並隨機選出染色體\r\n index = random.sample(range(0, numOfInd - 1), int(Pc numOfInd))\r\n \r\n new_chromosomes = []\r\n for i in range(len(index)): # do how many time\r\n new_chromosomes = doCrossover(data, chromosomes, i, index)\r\n \r\n return new_chromosomes\r\n\r\n\r\ndef doCrossover(data, chromosomes, i, index):\r\n length = chromosomes[0].sol.shape[0]\r\n cut = random.randint(1, length - 2)\r\n #依取樣順序跟隔壁交換基因(每一筆資料的分群) => sol為基因\r\n parent1 = chromosomes[index[i]]\r\n parent2 = chromosomes[index[(i + 1) % len(index)] % length]\r\n child1 = Chromosome(data, num_cluster)\r\n child2 = Chromosome(data, num_cluster)\r\n \r\n p1 = list(parent1.sol)\r\n p2 = list(parent2.sol)\r\n c1 = p1[0:cut] + p2[cut:length]\r\n c2 = p1[cut:length] + p2[0:cut]\r\n child1.sol = np.array(c1)\r\n child2.sol = np.array(c2)\r\n \r\n # 計算child適應值\r\n child1.fitness = child1.cal_fitness(data)\r\n child2.fitness = child2.cal_fitness(data)\r\n \r\n #父子兩代在競爭一次,留下適應值大的\r\n listA = []\r\n listA.append(parent1)\r\n listA.append(parent2)\r\n listA.append(child1)\r\n listA.append(child2)\r\n #依適應值反向排序\r\n listA = sorted(listA, reverse=True, key=lambda elem: elem.fitness)\r\n \r\n #留下最大的兩個\r\n chromosomes[index[i]] = listA[0]\r\n chromosomes[index[(i + 1) % len(index)] % length] = listA[1]\r\n\r\n return sorted(chromosomes, reverse=True, key=lambda elem: elem.fitness)\r\n\r\nif __name__ == '__main__':\r\n \r\n if len(sys.argv) != 4:\r\n print(\"Usage: kmeans <iris/abalone> <k> <iterations>\", file=sys.stderr)\r\n sys.exit(-1)\r\n\r\n fitness_his = []\r\n sse_his = []\r\n ari_his = []\r\n cen_his = []\r\n population = []\r\n if sys.argv[1] == 'abalone':\r\n data, labels = load_abalone()\r\n num_cluster = int(sys.argv[2])\r\n MAX_GEN = int(sys.argv[3])\r\n\r\n tic = time.perf_counter()\r\n\r\n rdd = sc.parallelize(data)\r\n rdd.cache()\r\n for i in range(population_size):\r\n population.append(Chromosome(data, num_cluster))\r\n #population[i].center = rdd.takeSample(False, num_cluster, 1)\r\n population[i].cal_solution(rdd)\r\n print('<the', i+1, 'th chromosome has been initialized.>')\r\n\r\n #for each generation\r\n for i in range(MAX_GEN):\r\n print('[the', i+1, 'th generation]')\r\n population = selection(population, 0.8, data)\r\n population = crossover(data, population, 0.8)\r\n \r\n print('After Crossover:')\r\n for i in range(len(population)):\r\n print('chromosome', i, \"'s fitness value\", population[i].fitness)\r\n \r\n #for each chromosome\r\n for j in range(population_size):\r\n #population[j].mutation()\r\n population[j].KMO(rdd)\r\n print('the', j+1, \"'s KMO has been finished.\")\r\n #找出最大適應值的染色體\r\n population = sorted(population, reverse=True, key=lambda elem: elem.fitness)\r\n print()\r\n print('Fitness value:', population[0].fitness)\r\n print('=======================================')\r\n \r\n toc = time.perf_counter()\r\n ari = adjusted_rand_score(labels, population[0].sol)\r\n spend_time = str(1000(toc - tic))\r\n print('=======================================')\r\n print('Adjusted Rand Index:', ari)\r\n print('Sum of Square Error:', population[0].cal_SSE(data))\r\n print(\"Comuptation Time: \" + spend_time + \"ms\")\r\n print('=======================================')" }, { "alpha_fraction": 0.42910194396972656, "alphanum_fraction": 0.4453072249889374, "avg_line_length": 35.025001525878906, "blob_id": "40c49412d97f4db5052b49c35ca37eb26fce4bb3", "content_id": "0a991d9755d212e9f7d166ea96d35ae0e9204057", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2962, "license_type": "no_license", "max_line_length": 131, "num_lines": 80, "path": "/kmeans_spark_testing.py", "repo_name": "JackLorentz/Genetic-K-means-with-Spark", "src_encoding": "UTF-8", "text": "from __future__ import print_function\r\n\r\nimport sys\r\nimport time\r\nimport numpy as np\r\nfrom pyspark.sql import SparkSession\r\nfrom pyspark import SparkContext\r\nfrom pyspark import SparkConf\r\ndef parseVector(line):\r\n return np.array([float(x) for x in line.split(',')])\r\n\r\n\r\ndef closestPoint(p, centers):\r\n bestIndex = 0\r\n closest = float(\"+inf\")\r\n for i in range(len(centers)):\r\n tempDist = np.sum((p - centers[i]) * 2)\r\n if tempDist < closest:\r\n closest = tempDist\r\n bestIndex = i\r\n return bestIndex\r\n\r\ndef dist(center_point,p):\r\n return np.sum(np.square(center_point[p[0]]-p[1][0]))\r\n \r\n\r\n\r\nif __name__ == \"__main__\":\r\n \r\n if len(sys.argv) != 4:\r\n print(\"Usage: kmeans <file> <k> <iteration>\", file=sys.stderr)\r\n sys.exit(-1)\r\n \r\n temp=np.loadtxt(sys.argv[1],dtype=np.float,delimiter=\",\")\r\n\r\n spark = SparkSession\\\r\n .builder\\\r\n .appName(\"PythonKMeans\")\\\r\n .getOrCreate()\r\n \r\n sc = SparkContext.getOrCreate(SparkConf().setMaster(\"local[]\"))\r\n #sys.argv[1]sys.argv[2]\r\n '''\r\n lines = spark.read.text(sys.argv[1]).rdd.map(lambda r: r[0])\r\n data = lines.map(parseVector).cache()\r\n '''\r\n data=sc.parallelize(temp).persist()\r\n K =int(sys.argv[2])#28\r\n iteration = int(sys.argv[3])#10\r\n tic = time.perf_counter()\r\n kPoints = data.takeSample(False, K, 1)\r\n #tempDist = 1.0\r\n \r\n for i in range(iteration):\r\n closest = data.map(\r\n lambda p: (closestPoint(p, kPoints), (p,1)))\r\n pointStats = closest.reduceByKey(\r\n lambda p1_c1, p2_c2: (p1_c1[0] + p2_c2[0], p1_c1[1] + p2_c2[1]))\r\n newPoints = pointStats.map(\r\n lambda st: (st[0], st[1][0] / st[1][1])).collect() \r\n \r\n #tempDist = sum(np.sum((kPoints[iK] - p) * 2) for (iK, p) in newPoints)\r\n #dist(newPoints,closest)\r\n #sse=np.sum(newPoi)\r\n for (iK, p) in newPoints:\r\n kPoints[iK] = p\r\n toc = time.perf_counter()\r\n spend_time = str(1000(toc - tic))\r\n print(\"==================================================================================================================\")\r\n print(\"Comuptation Time: \" + spend_time + \"ms\")\r\n print(\"==================================================================================================================\") \r\n temp=closest.collect()\r\n dists=[dist(kPoints,temp[i]) for i in range(len(temp))]\r\n sse=np.sum(dists)\r\n print(\"==================================================================================================================\")\r\n print(\"sse:\",sse)\r\n print(\"==================================================================================================================\")\r\n print(\"Final centers: \" + str(kPoints))\r\n print(\"==================================================================================================================\")\r\n spark.stop()\r\n" }, { "alpha_fraction": 0.7235293984413147, "alphanum_fraction": 0.7529411911964417, "avg_line_length": 32.20000076293945, "blob_id": "f459ab344430ca478774c6c2fc7773aa16524846", "content_id": "4be6002c465a116cc1ad8fc7dd4bd9d6ebc8e607", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Text", "length_bytes": 570, "license_type": "no_license", "max_line_length": 68, "num_lines": 10, "path": "/README.txt", "repo_name": "JackLorentz/Genetic-K-means-with-Spark", "src_encoding": "UTF-8", "text": "作者: 陳子傑 M073040063\r\n實作程式: python3\r\n程式所需套件: numpy, pandas, random, matplotlib, sklearn\r\n使用方法:\r\n開啟terminal, 確定在K-means_final資料夾內, 輸入以下指令:\r\npython Main.py [演算法] [資料集] [迭代次數]\r\n[演算法]: 有 ka (K-means Algorithm)和 gka (Genetic K-means Algorithm)兩種選擇\r\n[資料集]: 有 iris 和 abalone 兩種選擇\r\n[迭代次數]: 只要是整數都可以\r\n程式執行完會用各種分群指標測量,其結果除了印出來外,也會輸出成文件檔存在report資料夾中做紀錄" }, { "alpha_fraction": 0.5203085541725159, "alphanum_fraction": 0.5308114290237427, "avg_line_length": 31.419254302978516, "blob_id": "45dd26a3344a732b4a6c126093124ffd412579b8", "content_id": "a09428c490cc1a1a757e3851eca6241d99ab155f", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 11249, "license_type": "no_license", "max_line_length": 94, "num_lines": 322, "path": "/Genetic_Kmeans.py", "repo_name": "JackLorentz/Genetic-K-means-with-Spark", "src_encoding": "UTF-8", "text": "import pandas as pd\r\nimport numpy as np\r\nimport random\r\nimport math\r\nimport time\r\nimport matplotlib.colors as colors\r\nfrom sklearn import datasets\r\nfrom sklearn.preprocessing import normalize\r\nfrom sklearn.metrics import davies_bouldin_score\r\nfrom sklearn.metrics.cluster import adjusted_rand_score, silhouette_score\r\n\r\nrandom.seed(0)\r\n\r\nclass Cluster():\r\n def __init__(self, data):\r\n self.data\r\n self.dim = data.shape[1]\r\n self.centroid = np.zeros([1, self.dim]).reshape(-1,)\r\n self.data_points = []\r\n \r\n\r\n def distance(self, a, b):\r\n return np.sum((a-b)(a-b))\r\n\r\n\r\n # this method finds the average distance of all elements in cluster to its centroid\r\n def computeS(self):\r\n points = np.array(self.data_points)\r\n num = points.shape[0]\r\n dis_sum = 0.0\r\n #計算每一筆資料跟行星的距離 \r\n for i in range(num):\r\n dis_sum += math.sqrt(self.distance(self.data[i], self.centroid))\r\n return dis_sum / num\r\n\r\n\r\n\r\nclass Chromosome():\r\n def __init__(self, data, num_cluster):\r\n #初始化參數\r\n self.data = data\r\n self.kmax = num_cluster\r\n self.data_num = data.shape[0]\r\n self.dim = data.shape[1]\r\n self.center = self.init_center()\r\n self.sol = self.init_sol()\r\n #每次都會更新的參數\r\n self.fitness = 0.0\r\n self.mutation_rate = [0.0] * data.shape[0]\r\n self.sse = 0.0\r\n\r\n\r\n #隨機選n個中心點 \r\n def init_center(self):\r\n center = np.empty([self.kmax, self.dim])\r\n selected = random.sample(range(self.data_num), self.kmax)\r\n for i in range(self.kmax):\r\n center[i] = self.data[selected[i]] \r\n return center\r\n \r\n \r\n #對於每一個染色體，隨機產生一組解 => 每一個等位基因代表對應的群 => shape=(150, 1)\r\n def init_sol(self):\r\n dis = np.zeros([self.data_num, self.kmax])\r\n #計算每一筆資料跟行星的距離 \r\n for r in range(self.data_num):\r\n for c in range(self.kmax):\r\n dis[r][c] = self.distance(self.data[r], self.center[c])\r\n #分群 \r\n sol = (np.argmin(dis, axis=1)).reshape((-1,))\r\n return sol\r\n \r\n\r\n def distance(self, a, b):\r\n return np.sum((a-b)(a-b))\r\n \r\n\r\n def cal_SSE(self):\r\n sse = 0.0\r\n for i in range(len(self.sol)): \r\n square_error = self.distance(self.data[i], self.center[self.sol[i]])\r\n sse += square_error\r\n return sse\r\n \r\n\r\n def cal_fitness_v2(self, max_fitness, c):\r\n return cmax_fitness - self.fitness\r\n \r\n\r\n def cal_fitness(self):\r\n '''\r\n clusters = [Cluster()]self.kmax\r\n \r\n for c in range(self.kmax):\r\n clusters[c] = Cluster(data)\r\n \r\n for c in range(self.kmax):\r\n clusters[c].centroid = self.center[c]\r\n for r in range(self.data_num):\r\n if self.sol[r] == c:\r\n clusters[c].data_points.append(self.data[r])\r\n '''\r\n #dbi = davies_bouldin_score(data, self.sol)\r\n silhouette = silhouette_score(self.data, self.sol)\r\n #ari = adjusted_rand_score(labels, self.sol)\r\n \r\n return silhouette\r\n \r\n\r\n def daviesBouldin(self, clusters):\r\n sigmaR = 0.0\r\n nc = self.kmax\r\n for i in range(nc):\r\n sigmaR += self.computeR(clusters, i, clusters[i])\r\n #print(sigmaR)\r\n DBIndex = float(sigmaR) / float(nc)\r\n #print('DBI:', DBIndex)\r\n return DBIndex\r\n \r\n\r\n def computeR(self, clusters, i, iCluster):\r\n listR = []\r\n for j, jCluster in enumerate(clusters):\r\n if(i != j):\r\n temp = self.computeRij(iCluster, jCluster)\r\n listR.append(temp)\r\n #print(max(listR))\r\n return max(listR)\r\n\r\n\r\n def computeRij(self, iCluster, jCluster):\r\n Rij = 0\r\n d = math.sqrt(self.distance(iCluster.centroid, jCluster.centroid))\r\n Rij = (iCluster.computeS() + jCluster.computeS()) / d\r\n\r\n return Rij\r\n \r\n\r\n def mutation(self):\r\n sol_distribution = sorted(self.sol)\r\n '''step 1 : choose the value to mutate'''\r\n for i in range(self.data_num):\r\n self.mutation_rate[i] = 0.02\r\n #print('mutation rate:', self.mutation_rate[i])\r\n sign = random.uniform(0.0, 1.0)\r\n if(sign < self.mutation_rate[i]):\r\n '''step 2 : do mutation on chosen point by wheel'''\r\n self.sol[i] = random.choice(sol_distribution)\r\n \r\n '''step 3 : update center node'''\r\n for c in range(self.kmax):\r\n temp = np.zeros([1, self.dim])\r\n count = 0\r\n for r in range(self.data_num):\r\n temp += int(self.sol[r] == c)self.data[r]\r\n count += int(self.sol[r] == c)\r\n self.center[c] = temp.reshape(-1,) / count\r\n\r\n\r\n def KMO(self):\r\n dis = np.zeros([self.data_num, self.kmax])\r\n #計算每一筆資料跟行星的距離 \r\n for r in range(self.data_num):\r\n for c in range(self.kmax):\r\n dis[r][c] = self.distance(self.data[r], self.center[c])\r\n #分群 \r\n #self.sol = (np.argmin(dis, axis=1)).reshape((-1,))\r\n sol_tmp = (np.argmin(dis, axis=1)).reshape((-1,))\r\n silhouette = silhouette_score(self.data, sol_tmp)\r\n if silhouette > self.fitness:\r\n self.sol = sol_tmp\r\n self.fitness = silhouette\r\n \r\n #更新每一群重心\r\n for c in range(self.kmax):\r\n temp = np.zeros([1, self.dim])\r\n count = 0\r\n for r in range(self.data_num):\r\n temp += int(self.sol[r] == c)self.data[r]\r\n count += int(self.sol[r] == c)\r\n self.center[c] = temp.reshape(-1,) / count\r\n #更新SSE\r\n self.SSE = self.cal_SSE()\r\n\r\n\r\n\r\nclass Genetic_Kmeans:\r\n def __init__(self, population_size=10, num_cluster=3, MAX_GEN=10, Ps=0.8, Pc=0.8):\r\n self.population_size = population_size\r\n self.num_cluster = num_cluster\r\n self.MAX_GEN = MAX_GEN\r\n self.Ps = Ps\r\n self.Pc = Pc\r\n\r\n\r\n def fit(self, data, labels):\r\n self.data = data\r\n self.labels = labels\r\n\r\n tic = time.perf_counter()\r\n\r\n fitness_his = []\r\n sse_his = []\r\n ari_his = []\r\n cen_his = []\r\n population = []\r\n for i in range(self.population_size):\r\n population.append(Chromosome(data, self.num_cluster))\r\n \r\n #for each generation\r\n for i in range(self.MAX_GEN):\r\n print('[the', i+1, 'th generation]')\r\n population = self.selection(population, self.Ps)\r\n population = self.crossover(population, self.Pc)\r\n\r\n print('After Crossover:')\r\n for i in range(len(population)):\r\n print('chromosome', i, \"'s fitness value\", population[i].fitness)\r\n \r\n #for each chromosome\r\n for j in range(self.population_size):\r\n #population[j].mutation()\r\n population[j].KMO()\r\n #找出最大適應值的染色體\r\n population = sorted(population, reverse=True, key=lambda elem: elem.fitness)\r\n ari = adjusted_rand_score(labels, population[0].sol)\r\n print('Fitness value:', population[0].fitness)\r\n print('Sum of Square Error:', population[0].SSE)\r\n print('Adjusted Rand Index:', ari)\r\n print('=======================================')\r\n fitness_his.append(population[0].fitness)\r\n sse_his.append(population[0].SSE)\r\n ari_his.append(ari)\r\n cen_his.append(population[0].center)\r\n toc = time.perf_counter()\r\n spend_time = str(1000(toc - tic))\r\n print(\"Comuptation Time: \" + spend_time + \"ms\")\r\n\r\n return population[0], fitness_his, sse_his, spend_time\r\n\r\n\r\n #適者生存\r\n def selection(self, chromosomes, Ps):\r\n size = len(chromosomes)\r\n new_populations = []\r\n \r\n #計算個染色體的適應值,並統計存活率\r\n for i in range(size):\r\n chromosomes[i].fitness = chromosomes[i].cal_fitness()\r\n #存活率\r\n chosen_rate = Ps\r\n print('survival rate:', chosen_rate100, '%')\r\n\r\n print('Before Selection:')\r\n chromosomes = sorted(chromosomes, reverse=True, key=lambda elem: elem.fitness)\r\n for i in range(len(chromosomes)):\r\n print('chromosome', i, \"'s fitness value\", chromosomes[i].fitness)\r\n \r\n #找出(存活率個體數)個適應值的染色體\r\n #適應值越大越容易存活\r\n for i in range(8):\r\n new_populations.append(chromosomes[i])\r\n \r\n #填滿染色體數\r\n while len(new_populations) < size:\r\n idx = random.randint(0, 4)\r\n new_populations.append(chromosomes[idx])\r\n \r\n print('After Selection:')\r\n new_populations = sorted(new_populations, reverse=True, key=lambda elem: elem.fitness)\r\n for i in range(len(new_populations)):\r\n print('chromosome', i, \"'s fitness value\", new_populations[i].fitness)\r\n \r\n return new_populations\r\n\r\n #交配\r\n def crossover(self, chromosomes, Pc):\r\n numOfInd = len(chromosomes)\r\n #根據交配得到數量並隨機選出染色體\r\n index = random.sample(range(0, numOfInd - 1), int(Pc * numOfInd))\r\n \r\n new_chromosomes = []\r\n for i in range(len(index)): # do how many time\r\n new_chromosomes = self.doCrossover(chromosomes, i, index)\r\n \r\n return new_chromosomes\r\n\r\n\r\n def doCrossover(self, chromosomes, i, index):\r\n length = chromosomes[0].sol.shape[0]\r\n cut = random.randint(1, length - 2)\r\n #依取樣順序跟隔壁交換基因(每一筆資料的分群) => sol為基因\r\n parent1 = chromosomes[index[i]]\r\n parent2 = chromosomes[index[(i + 1) % len(index)] % length]\r\n child1 = Chromosome(self.data, self.num_cluster)\r\n child2 = Chromosome(self.data, self.num_cluster)\r\n \r\n p1 = list(parent1.sol)\r\n p2 = list(parent2.sol)\r\n c1 = p1[0:cut] + p2[cut:length]\r\n c2 = p1[cut:length] + p2[0:cut]\r\n child1.sol = np.array(c1)\r\n child2.sol = np.array(c2)\r\n \r\n # 計算child適應值\r\n child1.fitness = child1.cal_fitness()\r\n child2.fitness = child2.cal_fitness()\r\n \r\n #父子兩代在競爭一次,留下適應值大的\r\n listA = []\r\n listA.append(parent1)\r\n listA.append(parent2)\r\n listA.append(child1)\r\n listA.append(child2)\r\n #依適應值反向排序\r\n listA = sorted(listA, reverse=True, key=lambda elem: elem.fitness)\r\n \r\n #留下最大的兩個\r\n chromosomes[index[i]] = listA[0]\r\n chromosomes[index[(i + 1) % len(index)] % length] = listA[1]\r\n\r\n return sorted(chromosomes, reverse=True, key=lambda elem: elem.fitness)" }, { "alpha_fraction": 0.44603434205055237, "alphanum_fraction": 0.4615699052810669, "avg_line_length": 30.210525512695312, "blob_id": "9afcd495c540769403ceb594e37e728b91b4b6ac", "content_id": "25d18b222ccd1122faa5ed58327f63a33ea40d3a", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2550, "license_type": "no_license", "max_line_length": 99, "num_lines": 76, "path": "/Kmeans.py", "repo_name": "JackLorentz/Genetic-K-means-with-Spark", "src_encoding": "UTF-8", "text": "import numpy as np # linear algebra\r\nimport pandas as pd # data processing, CSV file I/O (e.g. pd.read_csv)\r\nimport time\r\nimport random\r\nimport copy\r\nfrom math import sqrt\r\n\r\nrandom.seed(0)\r\n\r\nclass Kmeans:\r\n \r\n def cen_init(self, k, x):\r\n center = np.empty([k, x.shape[1]])\r\n selected = random.sample(range(x.shape[0]), k)\r\n for i in range(len(selected)):\r\n center[i] = x[selected[i]] \r\n return center\r\n\r\n\r\n def distance(self, t, c):\r\n return sqrt(np.sum((t-c)(t-c))),np.sum((t-c)(t-c))\r\n\r\n\r\n def fit(self, X_train=None, nIter=10, num_of_centers=3):\r\n tic = time.perf_counter()\r\n\r\n #Step1: 隨機初始化\r\n #資料數\r\n m = X_train.shape[0]\r\n c_init = self.cen_init(num_of_centers, X_train)\r\n #print(c_init)\r\n cen=copy.deepcopy(c_init)\r\n #cen=c_init\r\n dim=X_train.shape[1]\r\n #行星數\r\n k = cen.shape[0]\r\n #每筆資料跟行星距離\r\n dis = np.zeros([m,k])\r\n cen_ass = np.zeros([m,])\r\n sse_dis = np.zeros([m,k])\r\n #行星位置歷史紀錄\r\n cen_his = cen\r\n temp = np.zeros([k,dim])\r\n count = 0\r\n #\r\n sse=[]\r\n for t in range(nIter):\r\n #Step2: 計算每一筆資料跟行星的距離 \r\n for r in range(0,m):\r\n for c in range(0,k):\r\n dis[r][c],sse_dis[r][c] = self.distance(X_train[r],cen[c])\r\n cen_ass = (np.argmin(dis, axis=1)).reshape((-1,))\r\n #記錄每次迭代的行星位置\r\n cen_his = np.concatenate((cen_his, cen))\r\n sse.append(0)\r\n for i in range(m):\r\n sse[t]=sse[t]+sse_dis[i][cen_ass[i]]\r\n \r\n print('[the', t+1, 'th iteration] SSE:', sse[t])\r\n #print()\r\n #print(\"center:\",cen)\r\n temp = np.zeros([1,dim])\r\n count = 0\r\n for i in range(num_of_centers):\r\n temp = np.zeros([1,dim])\r\n count = 0\r\n for r in range(0,m):\r\n temp = temp + 1.0(cen_ass[r]==i)X_train[r]#+(0.02)(cen_ass[r]!=c)X_train[r]\r\n count = count + 1.0(cen_ass[r]==i)#+(0.02)(cen_ass[r]!=c)\r\n cen[i] = temp.reshape(-1,)/count\r\n \r\n toc = time.perf_counter()\r\n spend_time = str(1000*(toc - tic))\r\n print(\"Comuptation Time: \" + spend_time + \"ms\")\r\n \r\n return cen, cen_ass, cen_his, sse, c_init, spend_time" } ]	7
prachi-goel06/Text_steganography	https://github.com/prachi-goel06/Text_steganography	1411c9f708385f7dd03899ec45bf3bce31769b3e	9f4342123caa6e6c506c9f8e2cc910118b5e3654	777e944fb3b886c2ecb73d39ee6a821c6b4b50f1	refs/heads/master	2020-06-27T16:14:00.697260	2017-07-13T01:01:53	2017-07-13T01:01:53	97,064,807	1	0	null	null	null	null	null	[ { "alpha_fraction": 0.5059464573860168, "alphanum_fraction": 0.5346878170967102, "avg_line_length": 39.36000061035156, "blob_id": "2387c98e52fee450cc42bec080bac51de30fabe1", "content_id": "62b7a3673bd94879e03755b51573a297e6a677a0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2018, "license_type": "no_license", "max_line_length": 101, "num_lines": 50, "path": "/Extract.py", "repo_name": "prachi-goel06/Text_steganography", "src_encoding": "UTF-8", "text": "import sys\nimport math\nclass Steganography:\n#function to extract the data\n def bit_extraction(self,Bit):\n bit_gap =1300 #nth bit is 1300. so first bit modulation occurs at 1300 then 21300 and so on\n if len(Bit)<bit_gap:\n print(\"Data was too less for Stegnography\")\n else:\n Bit = [Bit[i:i + 1] for i in range(0, len(Bit), 1)]\n message=[ 0 for i in range (1,133)]\n #extraction bits from the text file\n for i in range (1,133):\n message[i - 1]=(Bit[ibit_gap])\n bit=\"\"\n for j in range(0, len(message)):\n bit += (message[j])\n n=6\n #changing bits to plain texts.\n Byte = [bit[i:i + 6] for i in range(0, len(bit), 6)]\n decoded_literal=[]\n PlainMessage=\"\"\n for i in range (0,len(Byte)):\n equi_number = int(Byte[i], 2)\n if equi_number > 0 and equi_number < 27:\n decoded_literal = chr((equi_number - 1) + ord('a'))\n elif equi_number > 26 and equi_number < 37:\n decoded_literal = chr((equi_number - 27) + ord('0'))\n elif equi_number == 37:\n decoded_literal = chr(equi_number + 9)\n elif equi_number == 38:\n decoded_literal = chr(equi_number - 6)\n PlainMessage += decoded_literal\n print(\"Your Hidden Message is: \",PlainMessage)\n\nif __name__ == '__main__':\n #opening a text file(encoded UTF-8) for reading\n reader=open('Stegano.txt','r+')\n #reading the data of text file Line by Line\n data=reader.read()\n #to check if reached end of line\n if not data:\n print(\"End of Line\")\n Data=\"\"\n for i in range(0,len(data)):\n #changing the data into bits\n Data += format(ord(data[i]), '08b')\n encryption = Steganography()\n # Fucnction to extract hidden message\n Manipulated_Message=encryption.bit_extraction(Data)\n" }, { "alpha_fraction": 0.5681818127632141, "alphanum_fraction": 0.5849056839942932, "avg_line_length": 41.390907287597656, "blob_id": "d06f04171aeee4162edfa459d0abba4144765918", "content_id": "bfeb95ab1c27165516101e9dedb671693962c7e8", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 4664, "license_type": "no_license", "max_line_length": 110, "num_lines": 110, "path": "/Stegano.py", "repo_name": "prachi-goel06/Text_steganography", "src_encoding": "UTF-8", "text": "import sys\nimport math\nclass Steganography:\n def user_input(self):\n # taking user input for Student Name\n self.student_name = input(\"'Please enter your name, Note that name should be 10 letters longs': \")\n # check for the length: student name to be equal to 10, if less than 10 exit the program\n name_length = len(self.student_name)\n if name_length != 10:\n print(\"'The name entered is not 10 digits, closing the program'\")\n sys.exit()\n elif self.student_name.isalpha():\n print(\"'Input accepted: '\")\n else:\n print(\"'The name entered contains characters other than alphabets'\")\n sys.exit()\n # check for the length: student id should be equal to 10, if less than 10 exit the program\n self.student_ID = input(\"'Please enter your student ID, Note that student id should have 10 digit': \")\n id_length = len(self.student_ID)\n if id_length != 10:\n print(\"'The student id entered is not 10 digits, closing the program'\")\n sys.exit()\n elif self.student_ID.isdigit():\n print(\"'Input accepted'\")\n else:\n print(\"'ID should be only digits'\")\n sys.exit()\n return self.student_name, self.student_ID\n\n #Converting the input into binary\n def letters_to_binary(self, alphabets):\n # letter conversion to 6 bit\n name_binary = \"\"\n for i in range(0, len(alphabets)):\n name_binary += format((ord(alphabets[i]) - ord('a') + 1), '06b')\n return name_binary\n\n def id_to_binary(self, student_id):\n # number conversion to 6 bit\n id_binary = \"\"\n for i in range(0, len(student_id)):\n id_binary += format((ord(student_id[i]) - ord('0') + 27), '06b')\n return id_binary\n\n def dot_space_to_binary(self):\n # dot conversion to bit\n dot_binary = format(ord('.') - 9, '06b')\n # space conversion to bit\n space_binary = format(ord(' ') + 6, '06b')\n return dot_binary, space_binary\n\n # Message to encrypt\n def message_to_encrypt(self, binary_name, binary_space, binary_id, binary_dot):\n message_to_encrypt = (binary_name + binary_space + binary_id + binary_dot)\n return message_to_encrypt\n\n def bit_manipulation(self,Bit,message):\n bit_gap =1300\n if len(Bit)<bit_gap: #nth bit is 1300. so first bit modulation occurs at 1300 then 21300 and so on\n print(\"Data too less for Stegnography\")\n else:\n Bit = [Bit[i:i + 1] for i in range(0, len(Bit), 1)]\n #bit manipulation according to the message\n for i in range (1,len(message)+1):\n Bit[ibit_gap]=message[i-1]\n bit=\"\"\n for i in range(0, len(Bit)):\n bit += (Bit[i])\n #decoding binary to literal.\n n=8\n Byte = [bit[i:i + n] for i in range(0, len(bit), n)]\n decoded_literal=[]\n for i in range (0,len(Byte)):\n equi_number = int(Byte[i], 2)\n decoded_literal.append(chr(equi_number))\n bit = \"\"\n for i in range(0, len(decoded_literal)):\n bit += (decoded_literal[i])\n #Creating a new file.\n f=open(\"Stegano.txt\",'w')\n f.write(bit)\n print(\"Your Stegano file is created with Name 'Stego.txt' in the same folder as your python file\")\nif __name__ == '__main__':\n #opening a text file(encoded UTF-8) for reading\n reader=open('Original.txt','r+')\n #reading the data of text file Line by Line\n data=reader.read()\n #to check if reached enf of line\n if not data:\n print(\"End of Line\")\n #print(\"\".join(map(bin, bytes('\\n', \"UTF-8\"))))\n #print(\"\".join(map(bin, bytes('A', \"UTF-8\"))))\n #changing the content to string of bits\n #z=\" \".join(map(bin, bytes(data, \"UTF-8\")))\n Data=\"\"\n for i in range(0,len(data)):\n Data += format(ord(data[i]), '08b')\n encryption = Steganography()\n user_SName_SID = encryption.user_input()\n user_Name = (user_SName_SID[0])\n user_ID = (user_SName_SID[1])\n # binary conversion of string,number,date,dot and space\n binary_name = encryption.letters_to_binary(user_Name)\n binary_id = encryption.id_to_binary(user_ID)\n binary_dot_space = encryption.dot_space_to_binary()\n binary_dot = binary_dot_space[0]\n binary_space = binary_dot_space[1]\n message = encryption.message_to_encrypt(binary_name, binary_space, binary_id, binary_dot)\n Manipulated_Message=encryption.bit_manipulation(Data,message)\n #print(Manipulated_Message)\n\n" } ]	2
adrn/rereadthedocs	https://github.com/adrn/rereadthedocs	c83ea7f0791007d6891a7943e3b37909049d7d1f	03dfc08129ddc9bf59c879517128434e145c6537	0d3a7d2cd12418c19cedcee665bab7de160ebf78	refs/heads/master	2021-07-08T04:42:11.962846	2017-09-02T01:45:04	2017-09-02T01:50:11	101,931,784	1	0	null	null	null	null	null	[ { "alpha_fraction": 0.5988371968269348, "alphanum_fraction": 0.6110464930534363, "avg_line_length": 33.400001525878906, "blob_id": "56ae0fc71f92795b8b21b6ed1e57bdd9bf71f805", "content_id": "1b535176699e894e1abc7421a519cc6ce3d327d8", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1720, "license_type": "permissive", "max_line_length": 90, "num_lines": 50, "path": "/astropy_sentiment.py", "repo_name": "adrn/rereadthedocs", "src_encoding": "UTF-8", "text": "import glob\nimport urllib\n\nfrom bs4 import BeautifulSoup\n\nfrom nltk.sentiment.vader import SentimentIntensityAnalyzer\nfrom nltk import tokenize\n\nhtml_docs_location = '/Users/bsipocz/munka/devel/astropy/docs/_build/html/'\n\n\ndef text_from_url(url):\n url_content = urllib.request.urlopen(url).read()\n text = BeautifulSoup(url_content).get_text()\n return text\n\n\ndef text_from_file(filename):\n file_content = open(filename).read()\n text = BeautifulSoup(file_content).get_text()\n return text\n\n\nmoduls = ['wcs', 'vo', 'visualization', 'utils', 'units', 'time', 'table',\n 'stats', 'samp', 'nddata', 'modeling', 'io/ascii', 'io/fits',\n 'cosmology', 'coordinates', 'convolution', 'constants']\n\nsid = SentimentIntensityAnalyzer()\n\nfor modul in moduls:\n #page = text_from_url('http://docs.astropy.org/en/stable/{}/index.html'.format(modul))\n total_score = {'compound': 0.0, 'neg': 0.0, 'neu': 0.0, 'pos': 0.0}\n docs_pages = (glob.glob('{}/{}/.html'.format(html_docs_location, modul)) +\n glob.glob('{}/api/astropy.{}.html'.format(html_docs_location, modul)))\n\n for docs_page in docs_pages:\n page = text_from_file(docs_page)\n tokens = tokenize.sent_tokenize(page)\n summa = 0\n score = {'compound': 0.0, 'neg': 0.0, 'neu': 0.0, 'pos': 0.0}\n for sen in tokens:\n ss = sid.polarity_scores(sen)\n for k in sorted(ss):\n score[k] += ss[k]\n summa += 1\n if summa > 0:\n total_score = {i: total_score[i]+score[i]/summa for i in total_score}\n if len(docs_pages) > 0:\n total_score = {i: total_score[i]/len(docs_pages) for i in total_score}\n print(modul, total_score)\n" }, { "alpha_fraction": 0.6160740256309509, "alphanum_fraction": 0.6189650297164917, "avg_line_length": 40.19047546386719, "blob_id": "12b0642f8c434fa26b82bfa081901fbce8050e71", "content_id": "94e9c48400e826de49f2f05a26a8944add7dab7d", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 3459, "license_type": "permissive", "max_line_length": 126, "num_lines": 84, "path": "/analyze_sentiment.py", "repo_name": "adrn/rereadthedocs", "src_encoding": "UTF-8", "text": "import urllib\nfrom bs4 import BeautifulSoup\nfrom nltk.sentiment.vader import SentimentIntensityAnalyzer\nfrom nltk import tokenize\nimport matplotlib.pyplot as plt\nimport numpy as np\n'''\nDo sentiment analysis on text scraped from a list of websites.\n\nBefore running, you must download the nltk resources for vader:\n> python\n> import nltk\n> nltk.download()\n'''\n\ndef text_from_url(url):\n url_content = urllib.request.urlopen(url).read() \n text = BeautifulSoup(url_content, 'html5lib').get_text()\n return text\n\ndef measure_sentiment(text):\n '''\n Input: one sentence or small chunk of text\n Result: dict with scores\n '''\n vader = SentimentIntensityAnalyzer()\n score = vader.polarity_scores(text)\n return score\n\nastropydocs = [\n 'http://docs.astropy.org/en/stable/constants/index.html',\n 'http://docs.astropy.org/en/stable/units/index.html',\n 'http://docs.astropy.org/en/stable/nddata/index.html',\n 'http://docs.astropy.org/en/stable/table/index.html',\n 'http://docs.astropy.org/en/stable/time/index.html',\n 'http://docs.astropy.org/en/stable/coordinates/index.html',\n 'http://docs.astropy.org/en/stable/wcs/index.html',\n 'http://docs.astropy.org/en/stable/modeling/index.html',\n #'http://docs.astropy.org/en/stable/analytic_functions/index.html'\n 'http://docs.astropy.org/en/stable/io/unified.html',\n 'http://docs.astropy.org/en/stable/io/fits/index.html',\n 'http://docs.astropy.org/en/stable/io/ascii/index.html',\n 'http://docs.astropy.org/en/stable/io/votable/index.html',\n 'http://docs.astropy.org/en/stable/io/misc.html',\n 'http://docs.astropy.org/en/stable/samp/index.html',\n 'http://docs.astropy.org/en/stable/vo/index.html',\n 'http://docs.astropy.org/en/stable/cosmology/index.html',\n 'http://docs.astropy.org/en/stable/convolution/index.html',\n 'http://docs.astropy.org/en/stable/visualization/index.html',\n 'http://docs.astropy.org/en/stable/stats/index.html',\n 'http://docs.astropy.org/en/stable/config/index.html',\n 'http://docs.astropy.org/en/stable/io/registry.html',\n 'http://docs.astropy.org/en/stable/logging.html',\n 'http://docs.astropy.org/en/stable/warnings.html',\n 'http://docs.astropy.org/en/stable/utils/index.html',\n 'http://docs.astropy.org/en/stable/testhelpers.html',\n #'http://docs.astropy.org/en/stable/development/workflow/get_devel_version.html']\n ]\n\nallnames = []\nallresults = []\nfor doc in astropydocs:\n if 'index' in doc:\n name = doc[34:-11]\n else:\n name = doc[34:-5]\n result = 0\n webtext = text_from_url(doc)\n sentences = tokenize.sent_tokenize(webtext)\n for sentence in sentences:\n score = measure_sentiment(sentence)\n result += score['compound']\n result = result/len(sentences)\n print(name, result)\n allnames.append(name)\n allresults.append(result)\n\nfig, ax = plt.subplots()\ny_pos = np.arange(len(allnames))\nax.barh(y_pos, allresults, align='center', color='steelblue')\nax.set_yticks(y_pos)\nax.set_yticklabels(allnames, size='small')\nax.set_xlabel('Compound score')\nplt.show()" }, { "alpha_fraction": 0.7812971472740173, "alphanum_fraction": 0.7918552160263062, "avg_line_length": 87.4000015258789, "blob_id": "d71fb22a2837e788484e9bd5e99b1991b476ba99", "content_id": "c719e119419fa51f9ae7f1fac3d77c615f310011", "detected_licenses": [ "MIT" ], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1326, "license_type": "permissive", "max_line_length": 411, "num_lines": 15, "path": "/README.md", "repo_name": "adrn/rereadthedocs", "src_encoding": "UTF-8", "text": "# RereadTheDocs\n![badge-img](https://img.shields.io/badge/Made%20at-%23AstroHackWeek-8063d5.svg?style=flat)\n\nSentiment analysis of your documentation As A Service (tm).\n\nThis #AstroHackWeek community hack project uses [documentation sentiment analysis](http://nlpforhackers.io/sentiment-analysis-intro/) via the [python natural language toolkit (NLTK) package](http://www.nltk.org) to analyze the astropy docs. Our goal is to use the results to improve astropy documentation and provide a tool for other software package developers to use more user-friendly language in their docs.\n\nSome intermediary goals are:\n* Compare sentiments of subdocs of subpackages with in astropy to see if they are uniform (probably not!) and explore the differences\n* Use the results to poll [Astro Hack Week participants](https://goo.gl/forms/vhl9Xrujfjhrl6262) and define what kinds of documentation language are the most user-friendly\n* Write a script that can run on any Sphinx documentation build to analyze user-friendliness\n* Based on the output of the script, provide concrete feedback to developers about how their documentation could be changed to be more user-friendly\n\n## Contributors\nAdrian Price-Whelan [@adrn](github.com/adrn), Meredith Rawls [@mrawls](github.com/mrawls), Ellie Schwab [@elliesch](github.com/elliesch), Brigitta Sipocz [@bsipocz](github.com/bsipocz)\n" } ]	3
polopiryna/pierwszy	https://github.com/polopiryna/pierwszy	56a87cb2dcb9f262da6f84d47ee1716817abc64a	9c6fbcf9f2f6cbe6a911e56822495837f7956b7f	3b409318af04c2120fb765ec7bba28e052892159	refs/heads/master	2020-04-06T04:21:52.048927	2017-02-23T23:08:19	2017-02-23T23:08:19	82,980,191	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.6333333253860474, "alphanum_fraction": 0.6333333253860474, "avg_line_length": 68.75, "blob_id": "7c337fb0e92ffe0777bd52943bd1b9a6ee925eca", "content_id": "263632008d5e7d687d3bebd8696c6bedfdcd3d16", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 301, "license_type": "no_license", "max_line_length": 79, "num_lines": 4, "path": "/pierwszy.py", "repo_name": "polopiryna/pierwszy", "src_encoding": "UTF-8", "text": "print (\"witaj kolego\") # to jest komentarz i prosta instrukcja print#\r\n # ta instrukcja wyswietli napis Witaj Kolego #\r\ninput (\"\\n\\nAby zakonczyc program, nacisnij Enter.\")\r\n #instrukcja input odpowiedzialna jest na reakcje ze strony użytkownika#\r\n\r\n\r\n\r\n\r\n \r\n" } ]	1
x0rzkov/spam-api	https://github.com/x0rzkov/spam-api	40451883fe3eeffab9beadd808da4c48c79f36f5	0915dcbc9395097d80abc70863dae25cf4c7087b	e0ff3cd1dc101ac20e66033c554cdb1774a268d7	refs/heads/master	2020-11-24T08:11:57.556087	2018-03-23T09:59:35	2018-03-23T09:59:35	null	0	0	null	null	null	null	null	[ { "alpha_fraction": 0.7103658318519592, "alphanum_fraction": 0.7286585569381714, "avg_line_length": 16.3157901763916, "blob_id": "08d0c041a197d530bc4e30227c62940632883f4b", "content_id": "1d89eab8da346ae7db7a2650dfe4a5826ef04702", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Dockerfile", "length_bytes": 328, "license_type": "no_license", "max_line_length": 44, "num_lines": 19, "path": "/prediction_server/Dockerfile", "repo_name": "x0rzkov/spam-api", "src_encoding": "UTF-8", "text": "# FROM python:3.5-alpine\nFROM frolvlad/alpine-python-machinelearning\n\nRUN mkdir /code/\nWORKDIR /code/\n\nADD . .\n\nRUN pip install -r requirements.txt\nRUN pip install --upgrade pip\n\nRUN pip install -U nltk\n\n# Download nltk, but this will be very large\nRUN python -m nltk.downloader -q all\n\nEXPOSE 5000\n\nCMD [\"python\", \"-m\", \"main\"]" }, { "alpha_fraction": 0.5957446694374084, "alphanum_fraction": 0.5957446694374084, "avg_line_length": 31.615385055541992, "blob_id": "1ac54499a009dd60d4867acc9448b883f283518f", "content_id": "9a85b67862081e85fd088e393e266ea4fe175d06", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 423, "license_type": "no_license", "max_line_length": 64, "num_lines": 13, "path": "/train_server/utils/csv.py", "repo_name": "x0rzkov/spam-api", "src_encoding": "UTF-8", "text": "import pandas as pd\n\ndef to_csv(file_name, features, labels):\n df = pd.DataFrame({'features': features,\n 'labels': labels})\n df.to_csv('{}'.format(file_name))\n print('Wrote to {}'.format(file_name))\n\ndef read_csv(file_name):\n df = pd.read_csv(file_name)\n X = df.as_matrix(columns = ['features']).flatten()\n y = df.as_matrix(columns = ['labels']).astype(str).flatten()\n return X, y" }, { "alpha_fraction": 0.7066541910171509, "alphanum_fraction": 0.7066541910171509, "avg_line_length": 22.19565200805664, "blob_id": "148219bdf64450cb9a545a9a67fa461c7613134d", "content_id": "636f85d2ba7a17c6dc5a007d0acb3b07ab38dff4", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Markdown", "length_bytes": 1067, "license_type": "no_license", "max_line_length": 136, "num_lines": 46, "path": "/README.md", "repo_name": "x0rzkov/spam-api", "src_encoding": "UTF-8", "text": "# Spam API\n\nMicroservices API for spam filtering system.\n\n## Abstract\n\nOne of the goals of this repository is design an approach to design machine learning systems.\n\n## To run \n\n```bash\n$ python -m main\n\n# Note that this will not work since the import will be messed up\n$ python main.py\n```\n\n## Flows\n\n- Prepare text data\n - removal of stop words\n - lemmatization\n- Feature extraction process\n- Training the classifiers\n- Checking performance\n\n\n## Pickled\n\nTo view the size of the pickled file:\n```bash\n$ du -h .pkl\n```\n\n## Tips\n\nAt first it may be tempting to construct your pipeline to include the feature extractor:\n\n```python\npipeline = Pipeline([('vect', CountVectorizer(stop_words = 'english')),\n ('tfidf', TfidfTransformer()),\n ('gaussian_nb', GaussianNB())])\n```\n\nBut note that this will only be useful when training your model. For prediction, you need to reuse the feature extractor function. Also,\nwhen training multiple classifiers, you will end up running the feature extraction process which is not optimal.\n" }, { "alpha_fraction": 0.5419355034828186, "alphanum_fraction": 0.6000000238418579, "avg_line_length": 17.875, "blob_id": "ee13eb1a9c671b6bbe6775c0ce8c04e42a887407", "content_id": "36003ff9f1d494a127619b22b49c8d404f9921f3", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "YAML", "length_bytes": 155, "license_type": "no_license", "max_line_length": 44, "num_lines": 8, "path": "/prediction_server/docker-compose.yml", "repo_name": "x0rzkov/spam-api", "src_encoding": "UTF-8", "text": "version: '3'\nservices:\n server:\n image: alextanhongpin/python-spam:latest\n ports:\n - 5000:5000\n volumes:\n - ../models:/code/models\n " }, { "alpha_fraction": 0.7033898234367371, "alphanum_fraction": 0.7033898234367371, "avg_line_length": 28.625, "blob_id": "1c7d76e5b19050d15638c164310a5bbc6066bb09", "content_id": "5d9b73381bd2a2c041262ceb24a4603e40d714d0", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 236, "license_type": "no_license", "max_line_length": 56, "num_lines": 8, "path": "/train_server/pipeline/array_transformer.py", "repo_name": "x0rzkov/spam-api", "src_encoding": "UTF-8", "text": "from sklearn.base import BaseEstimator, TransformerMixin\n\nclass ArrayTransformer(BaseEstimator, TransformerMixin):\n def fit(self, X, y = None, fit_params):\n return self\n\n def transform(self, X):\n return X.toarray()" }, { "alpha_fraction": 0.5238578915596008, "alphanum_fraction": 0.5426396131515503, "avg_line_length": 40.0625, "blob_id": "4f669970f6742b884bb794e9aa8c69f19366f1fd", "content_id": "7cb24cef42a3339796ef8239defe143a6e26312d", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1970, "license_type": "no_license", "max_line_length": 77, "num_lines": 48, "path": "/train_server/classifiers.py", "repo_name": "x0rzkov/spam-api", "src_encoding": "UTF-8", "text": "def linear_svc_clf():\n from sklearn.svm import LinearSVC\n \n estimators = [('linear_svc', LinearSVC())]\n param_grid = dict(linear_svc__C = [1, 10, 100],\n linear_svc__random_state = [42],\n linear_svc__max_iter = [1000, 10000])\n\n return estimators, param_grid\n\ndef multinomial_nb_clf():\n from sklearn.naive_bayes import MultinomialNB\n \n estimators = [('multinomial_nb', MultinomialNB())]\n param_grid = dict(multinomial_nb__alpha = [1, 10, 100],\n multinomial_nb__fit_prior = [True],\n multinomial_nb__class_prior = [None])\n\n return estimators, param_grid\n\ndef random_forest_clf():\n from sklearn.ensemble import RandomForestClassifier\n\n estimators = [('random_forest', RandomForestClassifier())]\n param_grid = dict(random_forest__n_estimators = [10, 20, 30],\n random_forest__criterion = ['gini', 'entropy'],\n random_forest__max_features = ['auto', 'sqrt', 'log2'],\n# random_forest__max_depth = [None],\n random_forest__min_samples_split = [2],\n random_forest__min_samples_leaf = [1],\n random_forest__min_weight_fraction_leaf = [0],\n random_forest__max_leaf_nodes = [None],\n random_forest__min_impurity_decrease = [0],\n random_forest__bootstrap = [True],\n random_forest__oob_score = [False],\n random_forest__n_jobs = [-1],\n random_forest__random_state = [42],\n random_forest__warm_start = [False],\n random_forest__class_weight = ['balanced'])\n\n return estimators, param_grid\n\ndef gaussian_nb_clf():\n from sklearn.naive_bayes import GaussianNB\n \n estimators = [('gaussian_nb', GaussianNB())]\n param_grid = dict()\n return estimators, param_grid" }, { "alpha_fraction": 0.7356321811676025, "alphanum_fraction": 0.7586206793785095, "avg_line_length": 14.818181991577148, "blob_id": "284dfc93e04e0e6e79ebb0a26ed44e7186fb6083", "content_id": "e34908252e62e05228d2b1e91861e3d3f9cd618e", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Makefile", "length_bytes": 174, "license_type": "no_license", "max_line_length": 51, "num_lines": 11, "path": "/prediction_server/Makefile", "repo_name": "x0rzkov/spam-api", "src_encoding": "UTF-8", "text": "build:\n\t@docker build -t alextanhongpin/python-spam .\n\nrun:\n\t@docker run -p :5000 -d alextanhongpin/python-spam\n\nactivate:\n\tsource venv/bin/activate\n\ndeactivate:\n\tdeactivate " }, { "alpha_fraction": 0.7221457958221436, "alphanum_fraction": 0.7276478409767151, "avg_line_length": 29.33333396911621, "blob_id": "6c428977a2ab469df6131e247dfb8100e8d93949", "content_id": "c19fed6f50983a00944338d532860b5084cc4774", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 727, "license_type": "no_license", "max_line_length": 80, "num_lines": 24, "path": "/prediction_server/main.py", "repo_name": "x0rzkov/spam-api", "src_encoding": "UTF-8", "text": "import sys\nfrom flask import Flask\nfrom sklearn.externals import joblib\nfrom pipeline.array_transformer import ArrayTransformer\nfrom pipeline.nltk_preprocessor import NLTKPreprocessor\n\n# sys.modules['NLTKPreprocessor'] = NLTKPreprocessor\n\napp = Flask(__name__)\nclf = joblib.load('models/gaussian_nb.pkl')\nprint(clf)\n\[email protected]('/')\ndef hello():\n # NLTKPreprocessor.__module__ = 'NLTKPreprocessor'\n\n text = ['hello world']\n print('got prediction for', clf.predict(text))\n return 'hello world'\n\n# NOTE: This part is only needed if you run the application with python -m main\n# If you run it with FLASK_APP=main.py flask run, this part will not be executed\nif __name__ == '__main__':\n app.run(debug = True, host = '0.0.0.0')" }, { "alpha_fraction": 0.5514018535614014, "alphanum_fraction": 0.5584112405776978, "avg_line_length": 29.5, "blob_id": "df93aecdf3e469ade0298ef4f1b2fed94e013dc9", "content_id": "f1c53dcf9960946c5964ca784aaf3cc55cc473ef", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 428, "license_type": "no_license", "max_line_length": 62, "num_lines": 14, "path": "/train_server/utils/loader.py", "repo_name": "x0rzkov/spam-api", "src_encoding": "UTF-8", "text": "def loader(file_input):\n '''loads data from the enron dataset\n\n e.g. \n ham = loader('../data/enron1/ham')\n spam = loader('../data/enron1/spam')\n '''\n data = []\n for (dirpath, dirnames, filenames) in os.walk(file_input):\n for file in filenames:\n path = os.path.join(dirpath, file)\n with open(path, encoding='latin-1') as f:\n data.append(f.read())\n return data\n\n" }, { "alpha_fraction": 0.6333589553833008, "alphanum_fraction": 0.6341276168823242, "avg_line_length": 33.23684310913086, "blob_id": "17c52c19ad9115ad0a8ea18488905ab80fbe432d", "content_id": "f683c6fa356ccb460715e9637657ff71bce1be25", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 1301, "license_type": "no_license", "max_line_length": 82, "num_lines": 38, "path": "/prediction_server/pipeline/nltk_preprocessor.py", "repo_name": "x0rzkov/spam-api", "src_encoding": "UTF-8", "text": "import os\nimport re\n\nfrom concurrent.futures import ProcessPoolExecutor\n\nfrom sklearn.base import BaseEstimator, TransformerMixin\n\nfrom nltk.stem.snowball import SnowballStemmer\nfrom nltk.stem.porter import PorterStemmer\nfrom nltk.tokenize import word_tokenize\n\nclass NLTKPreprocessor(BaseEstimator, TransformerMixin):\n def __init__(self, strip = True, stem = True, symbols = True, stemmer = None):\n self.strip = strip\n self.stem = stem\n self.symbols = symbols\n self.stemmer = stemmer or PorterStemmer()\n self.pattern = re.compile(r'\\W')\n \n def fit(self, X, y = None, fit_params):\n return self\n\n def transform(self, X):\n with ProcessPoolExecutor(max_workers = os.cpu_count() 5) as executor:\n futures = [executor.submit(self.tokenize, X_i) for X_i in X]\n X_out = [future.result() for future in futures]\n return X_out\n\n def tokenize(self, sentence):\n words = word_tokenize(sentence)\n out = []\n for word in words:\n if self.symbols and self.pattern.search(word):\n continue\n word = word.strip() if self.strip else word\n word = self.stemmer.stem(word) if self.stem else word\n out.append(word)\n return ' '.join(out)\n" }, { "alpha_fraction": 0.5795496702194214, "alphanum_fraction": 0.5832410454750061, "avg_line_length": 37.154930114746094, "blob_id": "69df904f2d2e99083c0a9bded91a055e7d145570", "content_id": "fe0dadab665b29e2d899762ead189f2da8217ab2", "detected_licenses": [], "is_generated": false, "is_vendor": false, "language": "Python", "length_bytes": 2709, "license_type": "no_license", "max_line_length": 98, "num_lines": 71, "path": "/train_server/main.py", "repo_name": "x0rzkov/spam-api", "src_encoding": "UTF-8", "text": "import numpy as np\nimport pandas as pd\n\nfrom sklearn.feature_extraction.text import CountVectorizer, TfidfTransformer\n\nfrom sklearn.metrics import confusion_matrix, classification_report\nfrom sklearn.model_selection import GridSearchCV, train_test_split\nfrom sklearn.pipeline import Pipeline\nfrom sklearn.externals import joblib\n\nfrom utils.csv import to_csv, read_csv\nfrom pipeline.array_transformer import ArrayTransformer\nfrom pipeline.nltk_preprocessor import NLTKPreprocessor\nfrom classifiers import linear_svc_clf, multinomial_nb_clf, random_forest_clf, gaussian_nb_clf\n\nif __name__ == '__main__':\n # Load data\n X, y = read_csv('data.csv')\n print(X.shape, y.shape)\n\n # Split training/testing data\n X_train, X_test, y_train, y_test = train_test_split(X, y, test_size = 0.33, random_state = 42)\n clfs = [\n linear_svc_clf(),\n multinomial_nb_clf(),\n random_forest_clf(),\n gaussian_nb_clf()\n ]\n\n labels = ['0', '1']\n\n def build_model(estimators, param_grid):\n clf_name = estimators[0][0]\n print('Start')\n print('Classifier name: {}'.format(clf_name))\n \n # Avoid error when pickling\n # NLTKPreprocessor.__module__ = 'pipeline_nltk_preprocessor'\n # ArrayTransformer.__module__ = 'pipeline_array_transformer'\n\n pipeline_estimators = [('nltk_preprocessor', NLTKPreprocessor()),\n ('vectorizer', CountVectorizer(stop_words = 'english')),\n ('tfidf', TfidfTransformer()),\n ('transformer', ArrayTransformer()),\n estimators[0]]\n \n pipeline = Pipeline(pipeline_estimators)\n clf = GridSearchCV(pipeline, param_grid = param_grid)\n clf.fit(X_train, y_train)\n \n print('Best params:\\n', clf.best_params_, '\\n')\n print('Classifier results:\\n', clf.cv_results_, '\\n')\n y_pred = clf.predict(X_test)\n cm = confusion_matrix(y_true = y_test, \n y_pred = y_pred, \n labels = labels)\n print('Confusion matrix:\\n', cm)\n\n report = classification_report(y_true = y_test, \n y_pred = y_pred, \n target_names = labels)\n print('Classification report:\\n', report)\n print('End')\n return clf_name, clf\n\n results = [build_model(estimators, param_grid) \n for (estimators, param_grid) in clfs]\n\n for (clf_name, clf) in results:\n joblib.dump(clf, '../models/{}.pkl'.format(clf_name)) \n print('model saved as ../models/{}.pkl'.format(clf_name))\n" } ]	11

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